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`Currently running on Spring Boot version [{}], trying to match it with Spring Cloud Azure accepted version [{}].`	private boolean matchSpringBootVersionFromManifest(String acceptedVersion) throws FileNotFoundException { String version = this.getVersionFromManifest(); LOGGER.debug("Currently running on Spring Boot version [{}], trying to match it in Spring Cloud Azure " + "Supported Versions [{}].", version, acceptedVersion); if (!StringUtils.hasText(version)) { LOGGER.info("Cannot check current Spring Boot version from Spring Cloud Azure supported versions."); throw new FileNotFoundException("Spring Boot version not found"); } else { return version.startsWith(stripWildCardFromVersion(acceptedVersion)); } }	LOGGER.debug("Currently running on Spring Boot version [{}], trying to match it in Spring Cloud Azure "	private boolean matchSpringBootVersionFromManifest(String acceptedVersion) throws FileNotFoundException { String version = this.getVersionFromManifest(); LOGGER.debug("Currently running on Spring Boot version [{}], trying to match it with Spring Cloud Azure " + "accepted version [{}].", version, acceptedVersion); if (!StringUtils.hasText(version)) { throw new FileNotFoundException("Spring Boot version not found"); } else { return version.startsWith(stripWildCardFromVersion(acceptedVersion)); } }	class AzureSpringBootVersionVerifier { private static final Logger LOGGER = LoggerFactory.getLogger(AzureSpringBootVersionVerifier.class); static final String SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_5 = "org.springframework.boot.context.properties.bind" + ".Bindable.BindRestriction"; static final String SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_6 = "org.springframework.boot.autoconfigure.data.redis" + ".ClientResourcesBuilderCustomizer"; static final String SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_7 = "org.springframework.boot.autoconfigure.amqp" + ".RabbitStreamTemplateConfigurer"; /** * Versions supported by Spring Cloud Azure, for present is [2.5, 2.6, 2.7]. Update this value if needed. / private final Map<String, String> supportedVersions = new HashMap<>(); /* * Versionsspecified in the configuration or environment. / private final List<String> acceptedVersions; private final ClassNameResolverPredicate classNameResolver; public AzureSpringBootVersionVerifier(List<String> acceptedVersions, ClassNameResolverPredicate classNameResolver) { this.acceptedVersions = acceptedVersions; this.classNameResolver = classNameResolver; initDefaultSupportedBootVersionCheckMeta(); } /* * Init default supported Spring Boot Version compatibility check meta data. / private void initDefaultSupportedBootVersionCheckMeta() { supportedVersions.put("2.5", SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_5); supportedVersions.put("2.6", SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_6); supportedVersions.put("2.7", SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_7); } /* * Verify the current spring-boot version * * @return Verification result of spring-boot version * @throws AzureCompatibilityNotMetException thrown if using an unsupported spring-boot version */ public VerificationResult verify() { if (this.springBootVersionMatches()) { return VerificationResult.compatible(); } else { List<VerificationResult> errors = new ArrayList<>(Collections.singleton(VerificationResult.notCompatible(this.errorDescription(), this.action()))); throw new AzureCompatibilityNotMetException(errors); } } private String errorDescription() { String versionFromManifest = this.getVersionFromManifest(); return StringUtils.hasText(versionFromManifest) ? String.format("Spring Boot [%s] is not compatible with this" + " Spring Cloud Azure version.", versionFromManifest) : "Spring Boot is not compatible with this " + "Spring Cloud Azure version."; } private String action() { return String.format("Change Spring Boot version to one of the following versions %s.%n" + "You can find the latest Spring Boot versions here [%s].%n" + "If you want to learn more about the Spring Cloud Azure compatibility, " + "you can visit this page [%s] and check the [Which Version of Spring Cloud Azure Should I Use] " + "section.%n If you want to disable this check, " + "just set the property [spring.cloud.azure.compatibility-verifier.enabled=false].", this.acceptedVersions, "https: "https: } String getVersionFromManifest() { return SpringBootVersion.getVersion(); } private boolean springBootVersionMatches() { for (String acceptedVersion : acceptedVersions) { try { if (this.matchSpringBootVersionFromManifest(acceptedVersion)) { LOGGER.debug("Current Spring Boot version matching succeeds in Spring Cloud Azure supported " + "versions [{}].", acceptedVersion); return true; } } catch (FileNotFoundException e) { String versionString = stripWildCardFromVersion(acceptedVersion); String fullyQualifiedClassName = this.supportedVersions.get(versionString); if (classNameResolver.resolve(fullyQualifiedClassName)) { LOGGER.debug("Predicate for Spring Boot Version of [{}] was matched.", versionString); return true; } } } return false; } private static String stripWildCardFromVersion(String version) { return version.endsWith(".x") ? version.substring(0, version.indexOf(".x")) : version; } }	class AzureSpringBootVersionVerifier { private static final Logger LOGGER = LoggerFactory.getLogger(AzureSpringBootVersionVerifier.class); static final String SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_5 = "org.springframework.boot.context.properties.bind" + ".Bindable.BindRestriction"; static final String SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_6 = "org.springframework.boot.autoconfigure.data.redis" + ".ClientResourcesBuilderCustomizer"; static final String SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_7 = "org.springframework.boot.autoconfigure.amqp" + ".RabbitStreamTemplateConfigurer"; /** * Versions supported by Spring Cloud Azure, for present is [2.5, 2.6, 2.7]. Update this value if needed. / private final Map<String, String> supportedVersions = new HashMap<>(); /* * Versionsspecified in the configuration or environment. / private final List<String> acceptedVersions; private final ClassNameResolverPredicate classNameResolver; public AzureSpringBootVersionVerifier(List<String> acceptedVersions, ClassNameResolverPredicate classNameResolver) { this.acceptedVersions = acceptedVersions; this.classNameResolver = classNameResolver; initDefaultSupportedBootVersionCheckMeta(); } /* * Init default supported Spring Boot Version compatibility check meta data. / private void initDefaultSupportedBootVersionCheckMeta() { supportedVersions.put("2.5", SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_5); supportedVersions.put("2.6", SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_6); supportedVersions.put("2.7", SPRINGBOOT_CONDITIONAL_CLASS_NAME_OF_2_7); } /* * Verify the current spring-boot version * * @return Verification result of spring-boot version * @throws AzureCompatibilityNotMetException thrown if using an unsupported spring-boot version */ public VerificationResult verify() { if (this.springBootVersionMatches()) { return VerificationResult.compatible(); } else { List<VerificationResult> errors = new ArrayList<>(Collections.singleton(VerificationResult.notCompatible(this.errorDescription(), this.action()))); throw new AzureCompatibilityNotMetException(errors); } } private String errorDescription() { String versionFromManifest = this.getVersionFromManifest(); return StringUtils.hasText(versionFromManifest) ? String.format("Spring Boot [%s] is not compatible with this" + " Spring Cloud Azure version.", versionFromManifest) : "Spring Boot is not compatible with this " + "Spring Cloud Azure version."; } private String action() { return String.format("Change Spring Boot version to one of the following versions %s.%n" + "You can find the latest Spring Boot versions here [%s].%n" + "If you want to learn more about the Spring Cloud Azure compatibility, " + "you can visit this page [%s] and check the [Which Version of Spring Cloud Azure Should I Use] " + "section.%n If you want to disable this check, " + "just set the property [spring.cloud.azure.compatibility-verifier.enabled=false].", this.acceptedVersions, "https: "https: } String getVersionFromManifest() { return SpringBootVersion.getVersion(); } private boolean springBootVersionMatches() { for (String acceptedVersion : acceptedVersions) { try { if (this.matchSpringBootVersionFromManifest(acceptedVersion)) { LOGGER.debug("The current Spring Boot version matches Spring Cloud Azure accepted version [{}].", acceptedVersion); return true; } } catch (FileNotFoundException e) { String versionString = stripWildCardFromVersion(acceptedVersion); String fullyQualifiedClassName = this.supportedVersions.get(versionString); if (classNameResolver.resolve(fullyQualifiedClassName)) { LOGGER.debug("Predicate for Spring Boot Version of [{}] was matched.", versionString); return true; } } } return false; } private static String stripWildCardFromVersion(String version) { return version.endsWith(".x") ? version.substring(0, version.indexOf(".x")) : version; } }
Shall we give a default value `authorization_code` to the grant type of the special oauth2 client(azure)? this validation only works when the user overrides the grant type, or else the default value will be used.	private void validateAuthorizationGrantType(String registrationId, AuthorizationGrantType grantType) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.containsKey(applicationType)) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.get(applicationType).contains(grantType)) { throw new IllegalStateException(String.format(UNMATCHING_OAUTH_GRANT_TYPE_FROMAT, applicationType.getValue(), registrationId, grantType.getValue())); } LOGGER.debug("'spring.cloud.azure.active-directory.authorization-clients.{}.authorization-grant-type'" + " is valid.", registrationId); } if (AZURE_CLIENT_REGISTRATION_ID.equals(registrationId) && !AUTHORIZATION_CODE.equals(grantType)) { throw new IllegalStateException("spring.cloud.azure.active-directory.authorization-clients." + AZURE_CLIENT_REGISTRATION_ID + ".authorization-grant-type must be configured to 'authorization_code'."); } }	if (AZURE_CLIENT_REGISTRATION_ID.equals(registrationId) && !AUTHORIZATION_CODE.equals(grantType)) {	private void validateAuthorizationGrantType(String registrationId, AuthorizationGrantType grantType) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.containsKey(applicationType)) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.get(applicationType).contains(grantType)) { throw new IllegalStateException(String.format(UNMATCHING_OAUTH_GRANT_TYPE_FROMAT, applicationType.getValue(), registrationId, grantType.getValue())); } LOGGER.debug("'spring.cloud.azure.active-directory.authorization-clients.{}.authorization-grant-type'" + " is valid.", registrationId); } if (AZURE_CLIENT_REGISTRATION_ID.equals(registrationId) && !AUTHORIZATION_CODE.equals(grantType)) { throw new IllegalStateException("spring.cloud.azure.active-directory.authorization-clients." + AZURE_CLIENT_REGISTRATION_ID + ".authorization-grant-type must be configured to 'authorization_code'."); } }	class UserGroupProperties { /** * The group names can be used to construct GrantedAuthority. / private List<String> allowedGroupNames = new ArrayList<>(); /* * The group IDs can be used to construct GrantedAuthority. / private Set<String> allowedGroupIds = new HashSet<>(); /* * If "true", use "v1.0/me/transitiveMemberOf" to get members. Otherwise, use "v1.0/me/memberOf". / private boolean useTransitiveMembers = false; /* * Gets the set of allowed group IDs. * * @return the set of allowed group IDs / public Set<String> getAllowedGroupIds() { return allowedGroupIds; } /* * Set the allowed group IDs. * * @param allowedGroupIds Allowed group IDs. / public void setAllowedGroupIds(Set<String> allowedGroupIds) { this.allowedGroupIds = allowedGroupIds; } /* * Gets the list of allowed group names. * * @return the list of allowed group names / public List<String> getAllowedGroupNames() { return allowedGroupNames; } /* * Sets the list of allowed group names. * * @param allowedGroupNames the list of allowed group names / public void setAllowedGroupNames(List<String> allowedGroupNames) { this.allowedGroupNames = allowedGroupNames; } /* * Whether transitive members are used. * * @return Whether transitive members are used. / public boolean isUseTransitiveMembers() { return useTransitiveMembers; } /* * Sets whether transitive members are used. * * @param useTransitiveMembers Whether transitive members are used. */ public void setUseTransitiveMembers(boolean useTransitiveMembers) { this.useTransitiveMembers = useTransitiveMembers; } }	class UserGroupProperties { /** * The group names can be used to construct GrantedAuthority. / private List<String> allowedGroupNames = new ArrayList<>(); /* * The group IDs can be used to construct GrantedAuthority. / private Set<String> allowedGroupIds = new HashSet<>(); /* * If "true", use "v1.0/me/transitiveMemberOf" to get members. Otherwise, use "v1.0/me/memberOf". / private boolean useTransitiveMembers = false; /* * Gets the set of allowed group IDs. * * @return the set of allowed group IDs / public Set<String> getAllowedGroupIds() { return allowedGroupIds; } /* * Set the allowed group IDs. * * @param allowedGroupIds Allowed group IDs. / public void setAllowedGroupIds(Set<String> allowedGroupIds) { this.allowedGroupIds = allowedGroupIds; } /* * Gets the list of allowed group names. * * @return the list of allowed group names / public List<String> getAllowedGroupNames() { return allowedGroupNames; } /* * Sets the list of allowed group names. * * @param allowedGroupNames the list of allowed group names / public void setAllowedGroupNames(List<String> allowedGroupNames) { this.allowedGroupNames = allowedGroupNames; } /* * Whether transitive members are used. * * @return Whether transitive members are used. / public boolean isUseTransitiveMembers() { return useTransitiveMembers; } /* * Sets whether transitive members are used. * * @param useTransitiveMembers Whether transitive members are used. */ public void setUseTransitiveMembers(boolean useTransitiveMembers) { this.useTransitiveMembers = useTransitiveMembers; } }
Actually, the configured one will not be used. Here is related code about `azure` client's grant type: https://github.com/Azure/azure-sdk-for-java/blob/spring-cloud-azure-autoconfigure_4.3.0/sdk/spring/spring-cloud-azure-autoconfigure/src/main/java/com/azure/spring/cloud/autoconfigure/aad/AadClientRegistrationRepository.java#L83-L85 ![image](https://user-images.githubusercontent.com/13167207/184048363-cd858c04-5967-48d8-b6cf-4db598355c18.png) Here is just a valication.	private void validateAuthorizationGrantType(String registrationId, AuthorizationGrantType grantType) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.containsKey(applicationType)) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.get(applicationType).contains(grantType)) { throw new IllegalStateException(String.format(UNMATCHING_OAUTH_GRANT_TYPE_FROMAT, applicationType.getValue(), registrationId, grantType.getValue())); } LOGGER.debug("'spring.cloud.azure.active-directory.authorization-clients.{}.authorization-grant-type'" + " is valid.", registrationId); } if (AZURE_CLIENT_REGISTRATION_ID.equals(registrationId) && !AUTHORIZATION_CODE.equals(grantType)) { throw new IllegalStateException("spring.cloud.azure.active-directory.authorization-clients." + AZURE_CLIENT_REGISTRATION_ID + ".authorization-grant-type must be configured to 'authorization_code'."); } }	if (AZURE_CLIENT_REGISTRATION_ID.equals(registrationId) && !AUTHORIZATION_CODE.equals(grantType)) {	private void validateAuthorizationGrantType(String registrationId, AuthorizationGrantType grantType) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.containsKey(applicationType)) { if (NON_COMPATIBLE_APPLICATION_TYPE_AND_GRANT_TYPES.get(applicationType).contains(grantType)) { throw new IllegalStateException(String.format(UNMATCHING_OAUTH_GRANT_TYPE_FROMAT, applicationType.getValue(), registrationId, grantType.getValue())); } LOGGER.debug("'spring.cloud.azure.active-directory.authorization-clients.{}.authorization-grant-type'" + " is valid.", registrationId); } if (AZURE_CLIENT_REGISTRATION_ID.equals(registrationId) && !AUTHORIZATION_CODE.equals(grantType)) { throw new IllegalStateException("spring.cloud.azure.active-directory.authorization-clients." + AZURE_CLIENT_REGISTRATION_ID + ".authorization-grant-type must be configured to 'authorization_code'."); } }	class UserGroupProperties { /** * The group names can be used to construct GrantedAuthority. / private List<String> allowedGroupNames = new ArrayList<>(); /* * The group IDs can be used to construct GrantedAuthority. / private Set<String> allowedGroupIds = new HashSet<>(); /* * If "true", use "v1.0/me/transitiveMemberOf" to get members. Otherwise, use "v1.0/me/memberOf". / private boolean useTransitiveMembers = false; /* * Gets the set of allowed group IDs. * * @return the set of allowed group IDs / public Set<String> getAllowedGroupIds() { return allowedGroupIds; } /* * Set the allowed group IDs. * * @param allowedGroupIds Allowed group IDs. / public void setAllowedGroupIds(Set<String> allowedGroupIds) { this.allowedGroupIds = allowedGroupIds; } /* * Gets the list of allowed group names. * * @return the list of allowed group names / public List<String> getAllowedGroupNames() { return allowedGroupNames; } /* * Sets the list of allowed group names. * * @param allowedGroupNames the list of allowed group names / public void setAllowedGroupNames(List<String> allowedGroupNames) { this.allowedGroupNames = allowedGroupNames; } /* * Whether transitive members are used. * * @return Whether transitive members are used. / public boolean isUseTransitiveMembers() { return useTransitiveMembers; } /* * Sets whether transitive members are used. * * @param useTransitiveMembers Whether transitive members are used. */ public void setUseTransitiveMembers(boolean useTransitiveMembers) { this.useTransitiveMembers = useTransitiveMembers; } }	class UserGroupProperties { /** * The group names can be used to construct GrantedAuthority. / private List<String> allowedGroupNames = new ArrayList<>(); /* * The group IDs can be used to construct GrantedAuthority. / private Set<String> allowedGroupIds = new HashSet<>(); /* * If "true", use "v1.0/me/transitiveMemberOf" to get members. Otherwise, use "v1.0/me/memberOf". / private boolean useTransitiveMembers = false; /* * Gets the set of allowed group IDs. * * @return the set of allowed group IDs / public Set<String> getAllowedGroupIds() { return allowedGroupIds; } /* * Set the allowed group IDs. * * @param allowedGroupIds Allowed group IDs. / public void setAllowedGroupIds(Set<String> allowedGroupIds) { this.allowedGroupIds = allowedGroupIds; } /* * Gets the list of allowed group names. * * @return the list of allowed group names / public List<String> getAllowedGroupNames() { return allowedGroupNames; } /* * Sets the list of allowed group names. * * @param allowedGroupNames the list of allowed group names / public void setAllowedGroupNames(List<String> allowedGroupNames) { this.allowedGroupNames = allowedGroupNames; } /* * Whether transitive members are used. * * @return Whether transitive members are used. / public boolean isUseTransitiveMembers() { return useTransitiveMembers; } /* * Sets whether transitive members are used. * * @param useTransitiveMembers Whether transitive members are used. */ public void setUseTransitiveMembers(boolean useTransitiveMembers) { this.useTransitiveMembers = useTransitiveMembers; } }
why moving this out will solve this issue?	JwtBearerOAuth2AuthorizedClientProvider azureAdJwtBearerProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { JwtBearerOAuth2AuthorizedClientProvider provider = new JwtBearerOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); AadJwtBearerGrantRequestEntityConverter jwtBearerConverter = new AadJwtBearerGrantRequestEntityConverter(); if (resolver != null) { jwtBearerConverter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); } DefaultJwtBearerTokenResponseClient responseClient = new DefaultJwtBearerTokenResponseClient(); responseClient.setRequestEntityConverter(jwtBearerConverter); provider.setAccessTokenResponseClient(responseClient); return provider; }	AadJwtBearerGrantRequestEntityConverter jwtBearerConverter = new AadJwtBearerGrantRequestEntityConverter();	JwtBearerOAuth2AuthorizedClientProvider azureAdJwtBearerProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { JwtBearerOAuth2AuthorizedClientProvider provider = new JwtBearerOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); AadJwtBearerGrantRequestEntityConverter jwtBearerConverter = new AadJwtBearerGrantRequestEntityConverter(); if (resolver != null) { jwtBearerConverter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); } DefaultJwtBearerTokenResponseClient responseClient = new DefaultJwtBearerTokenResponseClient(); responseClient.setRequestEntityConverter(jwtBearerConverter); provider.setAccessTokenResponseClient(responseClient); return provider; }	class AadOAuth2ClientConfiguration { /** * Declare ClientRegistrationRepository bean. * * @param properties the AAD authentication properties * @return ClientRegistrationRepository bean / @Bean @ConditionalOnMissingBean public ClientRegistrationRepository clientRegistrationRepository(AadAuthenticationProperties properties) { return new AadClientRegistrationRepository(properties); } /* * Declare OAuth2AuthorizedClientRepository bean. * * @return OAuth2AuthorizedClientRepository bean / @Bean @ConditionalOnMissingBean public OAuth2AuthorizedClientRepository oAuth2AuthorizedClientRepository() { return new JacksonHttpSessionOAuth2AuthorizedClientRepository(); } /* * Return the resolver to resolve a {@link JWK} through the {@link ClientRegistration}. * * @param properties the AAD authentication properties * @return the function that will resolve out the JWK. / @Bean @ConditionalOnMissingBean @Conditional(ClientCertificatePropertiesCondition.class) OAuth2ClientAuthenticationJwkResolver oAuth2ClientAuthenticationJwkResolver(AadAuthenticationProperties properties) { return new AadOAuth2ClientAuthenticationJwkResolver( properties.getCredential().getClientCertificatePath(), properties.getCredential().getClientCertificatePassword()); } /* * Declare OAuth2AuthorizedClientManager bean. * * @param clientRegistrations the client registration repository * @param authorizedClients the OAuth2 authorized client repository * @param refreshTokenProvider the refresh token grant type provider * @param jwtBearerProvider the jwt bearer grant type provider * @param jwkResolvers the {@link JWK} resolver * @return OAuth2AuthorizedClientManager bean */ @Bean @ConditionalOnMissingBean OAuth2AuthorizedClientManager authorizedClientManager(ClientRegistrationRepository clientRegistrations, OAuth2AuthorizedClientRepository authorizedClients, RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, JwtBearerOAuth2AuthorizedClientProvider jwtBearerProvider, ObjectProvider<OAuth2ClientAuthenticationJwkResolver> jwkResolvers) { DefaultOAuth2AuthorizedClientManager manager = new DefaultOAuth2AuthorizedClientManager(clientRegistrations, authorizedClients); OAuth2ClientAuthenticationJwkResolver jwkResolver = jwkResolvers.getIfUnique(); OAuth2AuthorizedClientProvider providers = OAuth2AuthorizedClientProviderBuilder .builder() .authorizationCode() .clientCredentials(builder -> clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .password(builder -> passwordGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .provider(refreshTokenProvider) .provider(jwtBearerProvider) .provider(azureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients)) .build(); manager.setAuthorizedClientProvider(providers); return manager; } @Bean @ConditionalOnMissingBean @Bean @ConditionalOnMissingBean RefreshTokenOAuth2AuthorizedClientProvider azureRefreshTokenProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { RefreshTokenOAuth2AuthorizedClientProvider provider = new RefreshTokenOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); if (resolver != null) { OAuth2RefreshTokenGrantRequestEntityConverter converter = new OAuth2RefreshTokenGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultRefreshTokenTokenResponseClient responseClient = new DefaultRefreshTokenTokenResponseClient(); responseClient.setRequestEntityConverter(converter); provider.setAccessTokenResponseClient(responseClient); } return provider; } private void passwordGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.PasswordGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2PasswordGrantRequestEntityConverter converter = new OAuth2PasswordGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultPasswordTokenResponseClient client = new DefaultPasswordTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private void clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.ClientCredentialsGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2ClientCredentialsGrantRequestEntityConverter converter = new OAuth2ClientCredentialsGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultClientCredentialsTokenResponseClient client = new DefaultClientCredentialsTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private AadAzureDelegatedOAuth2AuthorizedClientProvider azureDelegatedOAuth2AuthorizedClientProvider( RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, OAuth2AuthorizedClientRepository authorizedClients) { return new AadAzureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients); } }	class AadOAuth2ClientConfiguration { /** * Declare ClientRegistrationRepository bean. * * @param properties the AAD authentication properties * @return ClientRegistrationRepository bean / @Bean @ConditionalOnMissingBean public ClientRegistrationRepository clientRegistrationRepository(AadAuthenticationProperties properties) { return new AadClientRegistrationRepository(properties); } /* * Declare OAuth2AuthorizedClientRepository bean. * * @return OAuth2AuthorizedClientRepository bean / @Bean @ConditionalOnMissingBean public OAuth2AuthorizedClientRepository oAuth2AuthorizedClientRepository() { return new JacksonHttpSessionOAuth2AuthorizedClientRepository(); } /* * Return the resolver to resolve a {@link JWK} through the {@link ClientRegistration}. * * @param properties the AAD authentication properties * @return the function that will resolve out the JWK. / @Bean @ConditionalOnMissingBean @Conditional(ClientCertificatePropertiesCondition.class) OAuth2ClientAuthenticationJwkResolver oAuth2ClientAuthenticationJwkResolver(AadAuthenticationProperties properties) { return new AadOAuth2ClientAuthenticationJwkResolver( properties.getCredential().getClientCertificatePath(), properties.getCredential().getClientCertificatePassword()); } /* * Declare OAuth2AuthorizedClientManager bean. * * @param clientRegistrations the client registration repository * @param authorizedClients the OAuth2 authorized client repository * @param refreshTokenProvider the refresh token grant type provider * @param jwtBearerProvider the jwt bearer grant type provider * @param jwkResolvers the {@link JWK} resolver * @return OAuth2AuthorizedClientManager bean */ @Bean @ConditionalOnMissingBean OAuth2AuthorizedClientManager authorizedClientManager(ClientRegistrationRepository clientRegistrations, OAuth2AuthorizedClientRepository authorizedClients, RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, JwtBearerOAuth2AuthorizedClientProvider jwtBearerProvider, ObjectProvider<OAuth2ClientAuthenticationJwkResolver> jwkResolvers) { DefaultOAuth2AuthorizedClientManager manager = new DefaultOAuth2AuthorizedClientManager(clientRegistrations, authorizedClients); OAuth2ClientAuthenticationJwkResolver jwkResolver = jwkResolvers.getIfUnique(); OAuth2AuthorizedClientProvider providers = OAuth2AuthorizedClientProviderBuilder .builder() .authorizationCode() .clientCredentials(builder -> clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .password(builder -> passwordGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .provider(refreshTokenProvider) .provider(jwtBearerProvider) .provider(azureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients)) .build(); manager.setAuthorizedClientProvider(providers); return manager; } @Bean @ConditionalOnMissingBean @Bean @ConditionalOnMissingBean RefreshTokenOAuth2AuthorizedClientProvider azureRefreshTokenProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { RefreshTokenOAuth2AuthorizedClientProvider provider = new RefreshTokenOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); if (resolver != null) { OAuth2RefreshTokenGrantRequestEntityConverter converter = new OAuth2RefreshTokenGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultRefreshTokenTokenResponseClient responseClient = new DefaultRefreshTokenTokenResponseClient(); responseClient.setRequestEntityConverter(converter); provider.setAccessTokenResponseClient(responseClient); } return provider; } private void passwordGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.PasswordGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2PasswordGrantRequestEntityConverter converter = new OAuth2PasswordGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultPasswordTokenResponseClient client = new DefaultPasswordTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private void clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.ClientCredentialsGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2ClientCredentialsGrantRequestEntityConverter converter = new OAuth2ClientCredentialsGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultClientCredentialsTokenResponseClient client = new DefaultClientCredentialsTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private AadAzureDelegatedOAuth2AuthorizedClientProvider azureDelegatedOAuth2AuthorizedClientProvider( RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, OAuth2AuthorizedClientRepository authorizedClients) { return new AadAzureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients); } }
this converter is an extension against `JwtBearerGrantRequestEntityConverter`, which is provided by default in Spring Security, the OBO flow requires an extra parameter to interact with Azure AD, so this converter will always be added in `JwtBearerOAuth2AuthorizedClientProvider`.	JwtBearerOAuth2AuthorizedClientProvider azureAdJwtBearerProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { JwtBearerOAuth2AuthorizedClientProvider provider = new JwtBearerOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); AadJwtBearerGrantRequestEntityConverter jwtBearerConverter = new AadJwtBearerGrantRequestEntityConverter(); if (resolver != null) { jwtBearerConverter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); } DefaultJwtBearerTokenResponseClient responseClient = new DefaultJwtBearerTokenResponseClient(); responseClient.setRequestEntityConverter(jwtBearerConverter); provider.setAccessTokenResponseClient(responseClient); return provider; }	AadJwtBearerGrantRequestEntityConverter jwtBearerConverter = new AadJwtBearerGrantRequestEntityConverter();	JwtBearerOAuth2AuthorizedClientProvider azureAdJwtBearerProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { JwtBearerOAuth2AuthorizedClientProvider provider = new JwtBearerOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); AadJwtBearerGrantRequestEntityConverter jwtBearerConverter = new AadJwtBearerGrantRequestEntityConverter(); if (resolver != null) { jwtBearerConverter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); } DefaultJwtBearerTokenResponseClient responseClient = new DefaultJwtBearerTokenResponseClient(); responseClient.setRequestEntityConverter(jwtBearerConverter); provider.setAccessTokenResponseClient(responseClient); return provider; }	class AadOAuth2ClientConfiguration { /** * Declare ClientRegistrationRepository bean. * * @param properties the AAD authentication properties * @return ClientRegistrationRepository bean / @Bean @ConditionalOnMissingBean public ClientRegistrationRepository clientRegistrationRepository(AadAuthenticationProperties properties) { return new AadClientRegistrationRepository(properties); } /* * Declare OAuth2AuthorizedClientRepository bean. * * @return OAuth2AuthorizedClientRepository bean / @Bean @ConditionalOnMissingBean public OAuth2AuthorizedClientRepository oAuth2AuthorizedClientRepository() { return new JacksonHttpSessionOAuth2AuthorizedClientRepository(); } /* * Return the resolver to resolve a {@link JWK} through the {@link ClientRegistration}. * * @param properties the AAD authentication properties * @return the function that will resolve out the JWK. / @Bean @ConditionalOnMissingBean @Conditional(ClientCertificatePropertiesCondition.class) OAuth2ClientAuthenticationJwkResolver oAuth2ClientAuthenticationJwkResolver(AadAuthenticationProperties properties) { return new AadOAuth2ClientAuthenticationJwkResolver( properties.getCredential().getClientCertificatePath(), properties.getCredential().getClientCertificatePassword()); } /* * Declare OAuth2AuthorizedClientManager bean. * * @param clientRegistrations the client registration repository * @param authorizedClients the OAuth2 authorized client repository * @param refreshTokenProvider the refresh token grant type provider * @param jwtBearerProvider the jwt bearer grant type provider * @param jwkResolvers the {@link JWK} resolver * @return OAuth2AuthorizedClientManager bean */ @Bean @ConditionalOnMissingBean OAuth2AuthorizedClientManager authorizedClientManager(ClientRegistrationRepository clientRegistrations, OAuth2AuthorizedClientRepository authorizedClients, RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, JwtBearerOAuth2AuthorizedClientProvider jwtBearerProvider, ObjectProvider<OAuth2ClientAuthenticationJwkResolver> jwkResolvers) { DefaultOAuth2AuthorizedClientManager manager = new DefaultOAuth2AuthorizedClientManager(clientRegistrations, authorizedClients); OAuth2ClientAuthenticationJwkResolver jwkResolver = jwkResolvers.getIfUnique(); OAuth2AuthorizedClientProvider providers = OAuth2AuthorizedClientProviderBuilder .builder() .authorizationCode() .clientCredentials(builder -> clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .password(builder -> passwordGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .provider(refreshTokenProvider) .provider(jwtBearerProvider) .provider(azureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients)) .build(); manager.setAuthorizedClientProvider(providers); return manager; } @Bean @ConditionalOnMissingBean @Bean @ConditionalOnMissingBean RefreshTokenOAuth2AuthorizedClientProvider azureRefreshTokenProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { RefreshTokenOAuth2AuthorizedClientProvider provider = new RefreshTokenOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); if (resolver != null) { OAuth2RefreshTokenGrantRequestEntityConverter converter = new OAuth2RefreshTokenGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultRefreshTokenTokenResponseClient responseClient = new DefaultRefreshTokenTokenResponseClient(); responseClient.setRequestEntityConverter(converter); provider.setAccessTokenResponseClient(responseClient); } return provider; } private void passwordGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.PasswordGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2PasswordGrantRequestEntityConverter converter = new OAuth2PasswordGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultPasswordTokenResponseClient client = new DefaultPasswordTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private void clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.ClientCredentialsGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2ClientCredentialsGrantRequestEntityConverter converter = new OAuth2ClientCredentialsGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultClientCredentialsTokenResponseClient client = new DefaultClientCredentialsTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private AadAzureDelegatedOAuth2AuthorizedClientProvider azureDelegatedOAuth2AuthorizedClientProvider( RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, OAuth2AuthorizedClientRepository authorizedClients) { return new AadAzureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients); } }	class AadOAuth2ClientConfiguration { /** * Declare ClientRegistrationRepository bean. * * @param properties the AAD authentication properties * @return ClientRegistrationRepository bean / @Bean @ConditionalOnMissingBean public ClientRegistrationRepository clientRegistrationRepository(AadAuthenticationProperties properties) { return new AadClientRegistrationRepository(properties); } /* * Declare OAuth2AuthorizedClientRepository bean. * * @return OAuth2AuthorizedClientRepository bean / @Bean @ConditionalOnMissingBean public OAuth2AuthorizedClientRepository oAuth2AuthorizedClientRepository() { return new JacksonHttpSessionOAuth2AuthorizedClientRepository(); } /* * Return the resolver to resolve a {@link JWK} through the {@link ClientRegistration}. * * @param properties the AAD authentication properties * @return the function that will resolve out the JWK. / @Bean @ConditionalOnMissingBean @Conditional(ClientCertificatePropertiesCondition.class) OAuth2ClientAuthenticationJwkResolver oAuth2ClientAuthenticationJwkResolver(AadAuthenticationProperties properties) { return new AadOAuth2ClientAuthenticationJwkResolver( properties.getCredential().getClientCertificatePath(), properties.getCredential().getClientCertificatePassword()); } /* * Declare OAuth2AuthorizedClientManager bean. * * @param clientRegistrations the client registration repository * @param authorizedClients the OAuth2 authorized client repository * @param refreshTokenProvider the refresh token grant type provider * @param jwtBearerProvider the jwt bearer grant type provider * @param jwkResolvers the {@link JWK} resolver * @return OAuth2AuthorizedClientManager bean */ @Bean @ConditionalOnMissingBean OAuth2AuthorizedClientManager authorizedClientManager(ClientRegistrationRepository clientRegistrations, OAuth2AuthorizedClientRepository authorizedClients, RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, JwtBearerOAuth2AuthorizedClientProvider jwtBearerProvider, ObjectProvider<OAuth2ClientAuthenticationJwkResolver> jwkResolvers) { DefaultOAuth2AuthorizedClientManager manager = new DefaultOAuth2AuthorizedClientManager(clientRegistrations, authorizedClients); OAuth2ClientAuthenticationJwkResolver jwkResolver = jwkResolvers.getIfUnique(); OAuth2AuthorizedClientProvider providers = OAuth2AuthorizedClientProviderBuilder .builder() .authorizationCode() .clientCredentials(builder -> clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .password(builder -> passwordGrantBuilderAccessTokenResponseClientCustomizer(builder, jwkResolver)) .provider(refreshTokenProvider) .provider(jwtBearerProvider) .provider(azureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients)) .build(); manager.setAuthorizedClientProvider(providers); return manager; } @Bean @ConditionalOnMissingBean @Bean @ConditionalOnMissingBean RefreshTokenOAuth2AuthorizedClientProvider azureRefreshTokenProvider(ObjectProvider<OAuth2ClientAuthenticationJwkResolver> resolvers) { RefreshTokenOAuth2AuthorizedClientProvider provider = new RefreshTokenOAuth2AuthorizedClientProvider(); OAuth2ClientAuthenticationJwkResolver resolver = resolvers.getIfUnique(); if (resolver != null) { OAuth2RefreshTokenGrantRequestEntityConverter converter = new OAuth2RefreshTokenGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultRefreshTokenTokenResponseClient responseClient = new DefaultRefreshTokenTokenResponseClient(); responseClient.setRequestEntityConverter(converter); provider.setAccessTokenResponseClient(responseClient); } return provider; } private void passwordGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.PasswordGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2PasswordGrantRequestEntityConverter converter = new OAuth2PasswordGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultPasswordTokenResponseClient client = new DefaultPasswordTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private void clientCredentialsGrantBuilderAccessTokenResponseClientCustomizer(OAuth2AuthorizedClientProviderBuilder.ClientCredentialsGrantBuilder builder, OAuth2ClientAuthenticationJwkResolver resolver) { if (resolver != null) { OAuth2ClientCredentialsGrantRequestEntityConverter converter = new OAuth2ClientCredentialsGrantRequestEntityConverter(); converter.addParametersConverter(new AadJwtClientAuthenticationParametersConverter<>(resolver::resolve)); DefaultClientCredentialsTokenResponseClient client = new DefaultClientCredentialsTokenResponseClient(); client.setRequestEntityConverter(converter); builder.accessTokenResponseClient(client); } } private AadAzureDelegatedOAuth2AuthorizedClientProvider azureDelegatedOAuth2AuthorizedClientProvider( RefreshTokenOAuth2AuthorizedClientProvider refreshTokenProvider, OAuth2AuthorizedClientRepository authorizedClients) { return new AadAzureDelegatedOAuth2AuthorizedClientProvider(refreshTokenProvider, authorizedClients); } }
why not use duration.toMinutes()?	public static ChangeFeedPolicy createAllVersionsAndDeletesPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes((int)(retentionDuration.getSeconds() / 60)); return policy; }	policy.setAllVersionsAndDeletesRetentionDurationInMinutes((int)(retentionDuration.getSeconds() / 60));	public static ChangeFeedPolicy createAllVersionsAndDeletesPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes((int)retentionDuration.toMinutes()); return policy; }	class ChangeFeedPolicy { private final JsonSerializable jsonSerializable; /** * Creates a ChangeFeedPolicy with retention duration for {@link ChangeFeedMode * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with {@link ChangeFeedMode * * @return ChangeFeedPolicy for {@link ChangeFeedMode * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createFullFidelityPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes((int)(retentionDuration.getSeconds() / 60)); return policy; } /* * Creates a ChangeFeedPolicy with retention duration for {@link ChangeFeedMode * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with {@link ChangeFeedMode * * @return ChangeFeedPolicy for {@link ChangeFeedMode / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/{@link ChangeFeedMode * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/{@link ChangeFeedMode * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createIncrementalPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes(null); return policy; } /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/{@link ChangeFeedMode * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/{@link ChangeFeedMode / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public static ChangeFeedPolicy createLatestVersionPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes(null); return policy; } /* * Initializes a new instance of the {@link ChangeFeedPolicy} class for the Azure Cosmos DB service. / ChangeFeedPolicy() { this.jsonSerializable = new JsonSerializable(); } /* * Instantiates a new change feed policy. * * @param jsonString the json string / ChangeFeedPolicy(String jsonString) { this.jsonSerializable = new JsonSerializable(jsonString); } /* * Instantiates a new change feed policy. * * @param objectNode the object node. / ChangeFeedPolicy(ObjectNode objectNode) { this.jsonSerializable = new JsonSerializable(objectNode); } /* * Gets the retention duration in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * By default {@link ChangeFeedMode * * @return {@link ChangeFeedMode * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public Duration getFullFidelityRetentionDuration() { return Duration.ofMinutes(this.getAllVersionsAndDeletesRetentionDurationInMinutes()); } /* * Gets the retention duration in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * By default {@link ChangeFeedMode * * @return {@link ChangeFeedMode / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public Duration getAllVersionsAndDeletesRetentionDuration() { return Duration.ofMinutes(this.getAllVersionsAndDeletesRetentionDurationInMinutes()); } /* * Gets the retention duration in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * By default {@link ChangeFeedMode * * @return {@link ChangeFeedMode / int getAllVersionsAndDeletesRetentionDurationInMinutes() { Integer intValue = this.jsonSerializable.getInt(Constants.Properties.LOG_RETENTION_DURATION); if (intValue == null \|\| intValue < 0) { return 0; } return intValue; } /* * Sets the retention duration in minutes in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * If the value of the {@param retentionDurationInMinutes} argument is null, 0 or negative * no {@link ChangeFeedMode * be processed with the default mode {@link ChangeFeedMode * * @param retentionDurationInMinutes - {@link ChangeFeedMode */ ChangeFeedPolicy setAllVersionsAndDeletesRetentionDurationInMinutes(Integer retentionDurationInMinutes) { if (retentionDurationInMinutes == null \|\| retentionDurationInMinutes <= 0) { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, 0); } else { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, retentionDurationInMinutes); } return this; } void populatePropertyBag() { this.jsonSerializable.populatePropertyBag(); } JsonSerializable getJsonSerializable() { return this.jsonSerializable; } }	class ChangeFeedPolicy { private final JsonSerializable jsonSerializable; /** * Creates a ChangeFeedPolicy with retention duration for AllVersionsAndDeletes processing * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with AllVersionsAndDeletes mode. * * @return ChangeFeedPolicy for AllVersionsAndDeletes change feed. * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createFullFidelityPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes((int)retentionDuration.toMinutes()); return policy; } /* * Creates a ChangeFeedPolicy with retention duration for AllVersionsAndDeletes processing * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with AllVersionsAndDeletes mode. * * @return ChangeFeedPolicy for AllVersionsAndDeletes change feed. / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/LatestVersion * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/LatestVersion change feed without AllVersionsAndDeletes. * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createIncrementalPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes(null); return policy; } /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/LatestVersion * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/LatestVersion change feed without AllVersionsAndDeletes. / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public static ChangeFeedPolicy createLatestVersionPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes(null); return policy; } /* * Initializes a new instance of the {@link ChangeFeedPolicy} class for the Azure Cosmos DB service. / ChangeFeedPolicy() { this.jsonSerializable = new JsonSerializable(); } /* * Instantiates a new change feed policy. * * @param jsonString the json string / ChangeFeedPolicy(String jsonString) { this.jsonSerializable = new JsonSerializable(jsonString); } /* * Instantiates a new change feed policy. * * @param objectNode the object node. / ChangeFeedPolicy(ObjectNode objectNode) { this.jsonSerializable = new JsonSerializable(objectNode); } /* * Gets the retention duration in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * By default AllVersionsAndDeletes change feed is not enabled - so the retention duration would be Duration.ZERO. * * @return AllVersionsAndDeletes retention duration. * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public Duration getFullFidelityRetentionDuration() { return this.getRetentionDurationForAllVersionsAndDeletesPolicy(); } /* * Gets the retention duration in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * By default AllVersionsAndDeletes change feed is not enabled - so the retention duration would be Duration.ZERO. * * @return AllVersionsAndDeletes retention duration. / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public Duration getRetentionDurationForAllVersionsAndDeletesPolicy() { return Duration.ofMinutes(this.getRetentionDurationForAllVersionsAndDeletesPolicyInMinutes()); } /* * Gets the retention duration in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * By default AllVersionsAndDeletes change feed is not enabled - so the retention duration would be Duration.ZERO. * * @return AllVersionsAndDeletes retention duration. / int getRetentionDurationForAllVersionsAndDeletesPolicyInMinutes() { Integer intValue = this.jsonSerializable.getInt(Constants.Properties.LOG_RETENTION_DURATION); if (intValue == null \|\| intValue < 0) { return 0; } return intValue; } /* * Sets the retention duration in minutes in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * If the value of the {@param retentionDurationInMinutes} argument is null, 0 or negative * no AllVersionsAndDeletes change feed is available for the container and change feed events can only * be processed with the default mode LatestVersion. * * @param retentionDurationInMinutes - AllVersionsAndDeletes retention duration in minutes. */ ChangeFeedPolicy setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes(Integer retentionDurationInMinutes) { if (retentionDurationInMinutes == null \|\| retentionDurationInMinutes <= 0) { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, 0); } else { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, retentionDurationInMinutes); } return this; } void populatePropertyBag() { this.jsonSerializable.populatePropertyBag(); } JsonSerializable getJsonSerializable() { return this.jsonSerializable; } }
Copied from existing API, agreed, we should use minutes directly.	public static ChangeFeedPolicy createAllVersionsAndDeletesPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes((int)(retentionDuration.getSeconds() / 60)); return policy; }	policy.setAllVersionsAndDeletesRetentionDurationInMinutes((int)(retentionDuration.getSeconds() / 60));	public static ChangeFeedPolicy createAllVersionsAndDeletesPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes((int)retentionDuration.toMinutes()); return policy; }	class ChangeFeedPolicy { private final JsonSerializable jsonSerializable; /** * Creates a ChangeFeedPolicy with retention duration for {@link ChangeFeedMode * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with {@link ChangeFeedMode * * @return ChangeFeedPolicy for {@link ChangeFeedMode * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createFullFidelityPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes((int)(retentionDuration.getSeconds() / 60)); return policy; } /* * Creates a ChangeFeedPolicy with retention duration for {@link ChangeFeedMode * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with {@link ChangeFeedMode * * @return ChangeFeedPolicy for {@link ChangeFeedMode / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/{@link ChangeFeedMode * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/{@link ChangeFeedMode * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createIncrementalPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes(null); return policy; } /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/{@link ChangeFeedMode * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/{@link ChangeFeedMode / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public static ChangeFeedPolicy createLatestVersionPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setAllVersionsAndDeletesRetentionDurationInMinutes(null); return policy; } /* * Initializes a new instance of the {@link ChangeFeedPolicy} class for the Azure Cosmos DB service. / ChangeFeedPolicy() { this.jsonSerializable = new JsonSerializable(); } /* * Instantiates a new change feed policy. * * @param jsonString the json string / ChangeFeedPolicy(String jsonString) { this.jsonSerializable = new JsonSerializable(jsonString); } /* * Instantiates a new change feed policy. * * @param objectNode the object node. / ChangeFeedPolicy(ObjectNode objectNode) { this.jsonSerializable = new JsonSerializable(objectNode); } /* * Gets the retention duration in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * By default {@link ChangeFeedMode * * @return {@link ChangeFeedMode * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public Duration getFullFidelityRetentionDuration() { return Duration.ofMinutes(this.getAllVersionsAndDeletesRetentionDurationInMinutes()); } /* * Gets the retention duration in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * By default {@link ChangeFeedMode * * @return {@link ChangeFeedMode / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public Duration getAllVersionsAndDeletesRetentionDuration() { return Duration.ofMinutes(this.getAllVersionsAndDeletesRetentionDurationInMinutes()); } /* * Gets the retention duration in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * By default {@link ChangeFeedMode * * @return {@link ChangeFeedMode / int getAllVersionsAndDeletesRetentionDurationInMinutes() { Integer intValue = this.jsonSerializable.getInt(Constants.Properties.LOG_RETENTION_DURATION); if (intValue == null \|\| intValue < 0) { return 0; } return intValue; } /* * Sets the retention duration in minutes in which it will be possible to * process change feed events with {@link ChangeFeedMode * (meaning intermediary changes and deletes will be exposed in change feed). * If the value of the {@param retentionDurationInMinutes} argument is null, 0 or negative * no {@link ChangeFeedMode * be processed with the default mode {@link ChangeFeedMode * * @param retentionDurationInMinutes - {@link ChangeFeedMode */ ChangeFeedPolicy setAllVersionsAndDeletesRetentionDurationInMinutes(Integer retentionDurationInMinutes) { if (retentionDurationInMinutes == null \|\| retentionDurationInMinutes <= 0) { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, 0); } else { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, retentionDurationInMinutes); } return this; } void populatePropertyBag() { this.jsonSerializable.populatePropertyBag(); } JsonSerializable getJsonSerializable() { return this.jsonSerializable; } }	class ChangeFeedPolicy { private final JsonSerializable jsonSerializable; /** * Creates a ChangeFeedPolicy with retention duration for AllVersionsAndDeletes processing * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with AllVersionsAndDeletes mode. * * @return ChangeFeedPolicy for AllVersionsAndDeletes change feed. * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createFullFidelityPolicy(Duration retentionDuration) { if (retentionDuration.isNegative() \|\| retentionDuration.isZero() \|\| retentionDuration.getNano() != 0 \|\| retentionDuration.getSeconds() % 60 != 0) { throw new IllegalArgumentException( "Argument retentionDuration must be a duration of a positive number of minutes." ); } ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes((int)retentionDuration.toMinutes()); return policy; } /* * Creates a ChangeFeedPolicy with retention duration for AllVersionsAndDeletes processing * * @param retentionDuration - the retention duration (max granularity in minutes) in which it * will be possible to process change feed events with AllVersionsAndDeletes mode. * * @return ChangeFeedPolicy for AllVersionsAndDeletes change feed. / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/LatestVersion * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/LatestVersion change feed without AllVersionsAndDeletes. * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public static ChangeFeedPolicy createIncrementalPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes(null); return policy; } /* * Creates a default ChangeFeedPolicy without retention duration specified. With the default/LatestVersion * change feed it will not be possible to process intermediary changes or deletes. * <p> * This is the default policy being used when not specifying any ChangeFeedPolicy for the Container. * </p> * * @return ChangeFeedPolicy for default/LatestVersion change feed without AllVersionsAndDeletes. / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public static ChangeFeedPolicy createLatestVersionPolicy() { ChangeFeedPolicy policy = new ChangeFeedPolicy(); policy.setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes(null); return policy; } /* * Initializes a new instance of the {@link ChangeFeedPolicy} class for the Azure Cosmos DB service. / ChangeFeedPolicy() { this.jsonSerializable = new JsonSerializable(); } /* * Instantiates a new change feed policy. * * @param jsonString the json string / ChangeFeedPolicy(String jsonString) { this.jsonSerializable = new JsonSerializable(jsonString); } /* * Instantiates a new change feed policy. * * @param objectNode the object node. / ChangeFeedPolicy(ObjectNode objectNode) { this.jsonSerializable = new JsonSerializable(objectNode); } /* * Gets the retention duration in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * By default AllVersionsAndDeletes change feed is not enabled - so the retention duration would be Duration.ZERO. * * @return AllVersionsAndDeletes retention duration. * @deprecated use {@link ChangeFeedPolicy / @Beta(value = Beta.SinceVersion.V4_12_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) @Deprecated public Duration getFullFidelityRetentionDuration() { return this.getRetentionDurationForAllVersionsAndDeletesPolicy(); } /* * Gets the retention duration in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * By default AllVersionsAndDeletes change feed is not enabled - so the retention duration would be Duration.ZERO. * * @return AllVersionsAndDeletes retention duration. / @Beta(value = Beta.SinceVersion.V4_37_0, warningText = Beta.PREVIEW_SUBJECT_TO_CHANGE_WARNING) public Duration getRetentionDurationForAllVersionsAndDeletesPolicy() { return Duration.ofMinutes(this.getRetentionDurationForAllVersionsAndDeletesPolicyInMinutes()); } /* * Gets the retention duration in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * By default AllVersionsAndDeletes change feed is not enabled - so the retention duration would be Duration.ZERO. * * @return AllVersionsAndDeletes retention duration. / int getRetentionDurationForAllVersionsAndDeletesPolicyInMinutes() { Integer intValue = this.jsonSerializable.getInt(Constants.Properties.LOG_RETENTION_DURATION); if (intValue == null \|\| intValue < 0) { return 0; } return intValue; } /* * Sets the retention duration in minutes in which it will be possible to * process change feed events with AllVersionsAndDeletes mode * (meaning intermediary changes and deletes will be exposed in change feed). * If the value of the {@param retentionDurationInMinutes} argument is null, 0 or negative * no AllVersionsAndDeletes change feed is available for the container and change feed events can only * be processed with the default mode LatestVersion. * * @param retentionDurationInMinutes - AllVersionsAndDeletes retention duration in minutes. */ ChangeFeedPolicy setRetentionDurationForAllVersionsAndDeletesPolicyInMinutes(Integer retentionDurationInMinutes) { if (retentionDurationInMinutes == null \|\| retentionDurationInMinutes <= 0) { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, 0); } else { this.jsonSerializable.set( Constants.Properties.LOG_RETENTION_DURATION, retentionDurationInMinutes); } return this; } void populatePropertyBag() { this.jsonSerializable.populatePropertyBag(); } JsonSerializable getJsonSerializable() { return this.jsonSerializable; } }
Did you just now enable these tests, how were not failing before without the recordings?	void recognizeCustomEntitiesRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, asList(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME)); }	asList(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME,	void recognizeCustomEntitiesRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, asList(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME)); }	class TextAnalyticsClientTestBase extends TestBase { static final String BATCH_ERROR_EXCEPTION_MESSAGE = "Error in accessing the property on document id: 2, when %s returned with an error: Document text is empty. ErrorCodeValue: {InvalidDocument}"; static final String INVALID_DOCUMENT_BATCH_NPE_MESSAGE = "'documents' cannot be null."; static final String INVALID_DOCUMENT_EMPTY_LIST_EXCEPTION_MESSAGE = "'documents' cannot be empty."; static final String INVALID_DOCUMENT_NPE_MESSAGE = "'document' cannot be null."; static final String WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE = "The document contains very long words (longer than 64 characters). These words will be truncated and may result in unreliable model predictions."; static final String REDACTED = "REDACTED"; static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME"); static InterceptorManager interceptorManagerTestBase; Duration durationTestMode; /** * Use duration of nearly zero value for PLAYBACK test mode, otherwise, use default duration value for LIVE mode. / @Override protected void beforeTest() { if (interceptorManager.isPlaybackMode()) { durationTestMode = Duration.ofMillis(1); } else { durationTestMode = DEFAULT_POLL_INTERVAL; } interceptorManagerTestBase = interceptorManager; } protected <T, U> SyncPoller<T, U> setPollInterval(SyncPoller<T, U> syncPoller) { return syncPoller.setPollInterval(durationTestMode); } @Test abstract void detectLanguagesBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHintWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectSingleTextLanguage(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageInvalidCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageNoneCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputStringForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForCategoriesFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntityWithCategoriesFilterFromOtherResult(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithDefaultLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringWithLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullRequestOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullAnalyzeSentimentOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiUnicodeCodePoint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesForAssertion(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void cancelHealthcareLro(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithMultiSameKindActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithActionNames(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeEntitiesRecognitionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithCategoriesFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithDomainFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeLinkedEntityActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeKeyPhrasesExtractionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntitiesAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassificationAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiCategoryClassifyAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntities(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); void detectLanguageShowStatisticsRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { final List<DetectLanguageInput> detectLanguageInputs = TestUtils.getDetectLanguageInputs(); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(detectLanguageInputs, options); } void detectLanguageDuplicateIdRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(TestUtils.getDuplicateIdDetectLanguageInputs(), null); } void detectLanguagesCountryHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS, "US"); } void detectLanguagesBatchListCountryHintWithOptionsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.DETECT_LANGUAGE_INPUTS, options); } void detectLanguageStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS); } void detectLanguageRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(TestUtils.getDetectLanguageInputs()); } void detectSingleTextLanguageRunner(Consumer<String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(0)); } void detectLanguageInvalidCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "en"); } void detectLanguageEmptyCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), ""); } void detectLanguageNoneCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "none"); } void recognizeCategorizedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS.get(0)); } void recognizeCategorizedEntityStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS); } void recognizeCategorizedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizeCategorizedEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, "en"); } void recognizeBatchCategorizedEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchCategorizedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS)); } void recognizeBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizePiiSingleDocumentRunner(Consumer<String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0)); } void recognizePiiDomainFilterRunner(BiConsumer<String, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0), new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION)); } void recognizePiiLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizePiiEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchPiiEntitiesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS)); } void recognizeBatchPiiEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, RecognizePiiEntitiesOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS); RecognizePiiEntitiesOptions options = new RecognizePiiEntitiesOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchPiiEntitiesShowStatsRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setIncludeStatistics(true)); } void recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setCategoriesFilter( PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER)); } void recognizeLinkedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS.get(0)); } void recognizeBatchStringLinkedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizeBatchLinkedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS), options); } void recognizeLinkedLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, "en"); } void recognizeLinkedStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS); } void recognizeBatchLinkedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS)); } void recognizeBatchLinkedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS.get(1)); } void extractBatchStringKeyPhrasesShowStatsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void extractBatchKeyPhrasesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void extractKeyPhrasesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, "en"); } void extractKeyPhrasesStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS); } void extractBatchKeyPhrasesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS)); } void extractBatchKeyPhrasesDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesWarningRunner(Consumer<String> testRunner) { testRunner.accept(TOO_LONG_INPUT); } void extractKeyPhrasesBatchWarningRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getWarningsTextDocumentInputs()); } void analyzeSentimentForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0)); } void analyzeSentimentForTextInputWithOpinionMiningRunner(BiConsumer<String, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0), new AnalyzeSentimentOptions().setIncludeOpinionMining(true)); } void analyzeSentimentLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(SENTIMENT_INPUTS, "en"); } void analyzeSentimentStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(SENTIMENT_INPUTS); } void analyzeBatchSentimentRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS)); } void analyzeBatchSentimentDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner(BiConsumer<List<String>, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS, new AnalyzeSentimentOptions().setIncludeStatistics(true).setIncludeOpinionMining(true)); } void analyzeBatchSentimentShowStatsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void analyzeBatchSentimentOpinionMining(BiConsumer<List<TextDocumentInput>, AnalyzeSentimentOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new AnalyzeSentimentOptions().setIncludeOpinionMining(true) .setIncludeStatistics(true)); } void emptyTextRunner(Consumer<String> testRunner) { testRunner.accept(""); } void emptyListRunner(BiConsumer<List<TextDocumentInput>, String> testRunner) { testRunner.accept(new ArrayList<>(), "'documents' cannot be empty."); } void detectLanguageInputEmptyIdRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(asList(new DetectLanguageInput("", DETECT_LANGUAGE_INPUTS.get(0)))); } void textAnalyticsInputEmptyIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(asList(new TextDocumentInput("", CATEGORIZED_ENTITY_INPUTS.get(0)))); } void tooManyDocumentsRunner(Consumer<List<String>> testRunner) { final String documentInput = CATEGORIZED_ENTITY_INPUTS.get(0); testRunner.accept(asList( documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput)); } void emojiRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩 " + text); } void batchEmojiRunner(Consumer<List<TextDocumentInput>> testRunner, String text) { testRunner.accept(Collections.singletonList(new TextDocumentInput("0", "👩 " + text))); } void emojiWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻 " + text); } void emojiFamilyRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩‍👩‍👧‍👧 " + text); } void emojiFamilyWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻‍👩🏽‍👧🏾‍👦🏿 " + text); } void diacriticsNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void diacriticsNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void koreanNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void koreanNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void zalgoTextRunner(Consumer<String> testRunner, String text) { testRunner.accept("ơ̵̧̧̢̳̘̘͕͔͕̭̟̙͎͈̞͔̈̇̒̃͋̇̅͛̋͛̎́͑̄̐̂̎͗͝m̵͍͉̗̄̏͌̂̑̽̕͝͠g̵̢̡̢̡̨̡̧̛͉̞̯̠̤̣͕̟̫̫̼̰͓̦͖̣̣͎̋͒̈́̓̒̈̍̌̓̅͑̒̓̅̅͒̿̏́͗̀̇͛̏̀̈́̀̊̾̀̔͜͠͝ͅ " + text); } void healthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", HEALTHCARE_INPUTS.get(0)), new TextDocumentInput("1", HEALTHCARE_INPUTS.get(1))), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void healthcareLroPaginationRunner( BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner, int totalDocuments) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < totalDocuments; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void analyzeHealthcareEntitiesForAssertionRunner( BiConsumer<List<String>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept(asList( "All female participants that are premenopausal will be required to have a pregnancy test; " + "any participant who is pregnant or breastfeeding will not be included"), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(false)); } void cancelHealthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < 10; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions()); } void analyzeBatchActionsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction()) ); } void analyzeActionsWithMultiSameKindActionsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME), new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME), new AnalyzeSentimentAction()) ); } void analyzeActionsWithActionNamesRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME)) ); } void analyzeBatchActionsPaginationRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner, int documentsInTotal) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < documentsInTotal; i++) { documents.add(new TextDocumentInput(Integer.toString(i), PII_ENTITY_INPUTS.get(0))); } testRunner.accept(documents, new TextAnalyticsActions().setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void analyzeEntitiesRecognitionRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction())); } void analyzePiiEntityRecognitionWithCategoriesFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setCategoriesFilter(PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER) )); } void analyzePiiEntityRecognitionWithDomainFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION) )); } void analyzeLinkedEntityRecognitionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( LINKED_ENTITY_INPUTS, new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction())); } void extractKeyPhrasesRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(CATEGORIZED_ENTITY_INPUTS.get(0), PII_ENTITY_INPUTS.get(0)), new TextAnalyticsActions() .setDisplayName("Test1") .setExtractKeyPhrasesActions( new ExtractKeyPhrasesAction())); } void analyzeSentimentRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( SENTIMENT_INPUTS, new TextAnalyticsActions() .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void recognizeCustomEntitiesActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, new TextAnalyticsActions() .setRecognizeCustomEntitiesActions( new RecognizeCustomEntitiesAction(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME))); } void classifyCustomSingleCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, new TextAnalyticsActions() .setSingleLabelClassifyActions( new SingleLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomMultiCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, new TextAnalyticsActions() .setMultiLabelClassifyActions( new MultiLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomSingleLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME)); } void classifyCustomMultiLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME)); } String getEndpoint() { return interceptorManager.isPlaybackMode() ? "https: : Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_ENDPOINT"); } TextAnalyticsClientBuilder getTextAnalyticsAsyncClientBuilder(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { TextAnalyticsClientBuilder builder = new TextAnalyticsClientBuilder() .endpoint(getEndpoint()) .httpClient(httpClient == null ? interceptorManager.getPlaybackClient() : httpClient) .httpLogOptions(new HttpLogOptions().setLogLevel(HttpLogDetailLevel.BODY_AND_HEADERS)) .serviceVersion(serviceVersion); if (getTestMode() == TestMode.RECORD) { builder.addPolicy(interceptorManager.getRecordPolicy()); } if (getTestMode() == TestMode.PLAYBACK) { builder.credential(new AzureKeyCredential(FAKE_API_KEY)); } else { builder.credential((new AzureKeyCredential( Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_API_KEY")))); } return builder; } static void validateDetectLanguageResultCollectionWithResponse(boolean showStatistics, DetectLanguageResultCollection expected, int expectedStatusCode, Response<DetectLanguageResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateDetectLanguageResultCollection(showStatistics, expected, response.getValue()); } static void validateDetectLanguageResultCollection(boolean showStatistics, DetectLanguageResultCollection expected, DetectLanguageResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validatePrimaryLanguage(expectedItem.getPrimaryLanguage(), actualItem.getPrimaryLanguage())); } static void validateCategorizedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateCategorizedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateCategorizedEntitiesResultCollection(boolean showStatistics, RecognizeEntitiesResultCollection expected, RecognizeEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateCategorizedEntities(actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validatePiiEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizePiiEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validatePiiEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validatePiiEntitiesResultCollection(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, RecognizePiiEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> { final PiiEntityCollection expectedPiiEntityCollection = expectedItem.getEntities(); final PiiEntityCollection actualPiiEntityCollection = actualItem.getEntities(); assertEquals(expectedPiiEntityCollection.getRedactedText(), actualPiiEntityCollection.getRedactedText()); validatePiiEntities( expectedPiiEntityCollection.stream().collect(Collectors.toList()), actualPiiEntityCollection.stream().collect(Collectors.toList())); }); } static void validateLinkedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeLinkedEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateLinkedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateLinkedEntitiesResultCollection(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, RecognizeLinkedEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateLinkedEntities( expectedItem.getEntities().stream().collect(Collectors.toList()), actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validateExtractKeyPhrasesResultCollectionWithResponse(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, int expectedStatusCode, Response<ExtractKeyPhrasesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateExtractKeyPhrasesResultCollection(showStatistics, expected, response.getValue()); } static void validateExtractKeyPhrasesResultCollection(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, ExtractKeyPhrasesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateKeyPhrases( expectedItem.getKeyPhrases().stream().collect(Collectors.toList()), actualItem.getKeyPhrases().stream().collect(Collectors.toList()))); } static void validateAnalyzeSentimentResultCollectionWithResponse(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, int expectedStatusCode, Response<AnalyzeSentimentResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected, response.getValue()); } static void validateAnalyzeSentimentResultCollection(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, AnalyzeSentimentResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateDocumentSentiment(includeOpinionMining, expectedItem.getDocumentSentiment(), actualItem.getDocumentSentiment())); } static void validateHealthcareEntitiesResult(boolean showStatistics, AnalyzeHealthcareEntitiesResultCollection expected, AnalyzeHealthcareEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateHealthcareEntityDocumentResult(expectedItem, actualItem)); } /* * Helper method to validate a single detected language. * * @param expectedLanguage detectedLanguage returned by the service. * @param actualLanguage detectedLanguage returned by the API. / static void validatePrimaryLanguage(DetectedLanguage expectedLanguage, DetectedLanguage actualLanguage) { assertNotNull(actualLanguage.getIso6391Name()); assertNotNull(actualLanguage.getName()); assertNotNull(actualLanguage.getConfidenceScore()); } /* * Helper method to validate a single categorized entity. * * @param actualCategorizedEntity CategorizedEntity returned by the API. / static void validateCategorizedEntity(CategorizedEntity actualCategorizedEntity) { assertNotNull(actualCategorizedEntity.getText()); assertNotNull(actualCategorizedEntity.getOffset()); assertNotNull(actualCategorizedEntity.getCategory()); assertNotNull(actualCategorizedEntity.getConfidenceScore()); } /* * Helper method to validate a single Personally Identifiable Information entity. * * @param expectedPiiEntity PiiEntity returned by the service. * @param actualPiiEntity PiiEntity returned by the API. / static void validatePiiEntity(PiiEntity expectedPiiEntity, PiiEntity actualPiiEntity) { assertEquals(expectedPiiEntity.getOffset(), actualPiiEntity.getOffset()); assertEquals(expectedPiiEntity.getSubcategory(), actualPiiEntity.getSubcategory()); assertEquals(expectedPiiEntity.getText(), actualPiiEntity.getText()); assertEquals(expectedPiiEntity.getCategory(), actualPiiEntity.getCategory()); assertNotNull(actualPiiEntity.getConfidenceScore()); } /* * Helper method to validate a single linked entity. * * @param expectedLinkedEntity LinkedEntity returned by the service. * @param actualLinkedEntity LinkedEntity returned by the API. / static void validateLinkedEntity(LinkedEntity expectedLinkedEntity, LinkedEntity actualLinkedEntity) { assertEquals(expectedLinkedEntity.getName(), actualLinkedEntity.getName()); assertEquals(expectedLinkedEntity.getDataSource(), actualLinkedEntity.getDataSource()); assertEquals(expectedLinkedEntity.getLanguage(), actualLinkedEntity.getLanguage()); if (interceptorManagerTestBase.isPlaybackMode()) { assertEquals(REDACTED, actualLinkedEntity.getUrl()); } else { assertEquals(expectedLinkedEntity.getUrl(), actualLinkedEntity.getUrl()); } assertEquals(expectedLinkedEntity.getDataSourceEntityId(), actualLinkedEntity.getDataSourceEntityId()); validateLinkedEntityMatches(expectedLinkedEntity.getMatches().stream().collect(Collectors.toList()), actualLinkedEntity.getMatches().stream().collect(Collectors.toList())); } /* * Helper method to validate a single key phrase. * * @param expectedKeyPhrases key phrases returned by the service. * @param actualKeyPhrases key phrases returned by the API. / static void validateKeyPhrases(List<String> expectedKeyPhrases, List<String> actualKeyPhrases) { assertEquals(expectedKeyPhrases.size(), actualKeyPhrases.size()); Collections.sort(expectedKeyPhrases); Collections.sort(actualKeyPhrases); for (int i = 0; i < expectedKeyPhrases.size(); i++) { assertEquals(expectedKeyPhrases.get(i), actualKeyPhrases.get(i)); } } /* * Helper method to validate the list of categorized entities. * * @param actualCategorizedEntityList categorizedEntities returned by the API. / static void validateCategorizedEntities(List<CategorizedEntity> actualCategorizedEntityList) { for (int i = 0; i < actualCategorizedEntityList.size(); i++) { validateCategorizedEntity(actualCategorizedEntityList.get(i)); } } /* * Helper method to validate the list of Personally Identifiable Information entities. * * @param expectedPiiEntityList piiEntities returned by the service. * @param actualPiiEntityList piiEntities returned by the API. / static void validatePiiEntities(List<PiiEntity> expectedPiiEntityList, List<PiiEntity> actualPiiEntityList) { assertEquals(expectedPiiEntityList.size(), actualPiiEntityList.size()); expectedPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); actualPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); for (int i = 0; i < expectedPiiEntityList.size(); i++) { PiiEntity expectedPiiEntity = expectedPiiEntityList.get(i); PiiEntity actualPiiEntity = actualPiiEntityList.get(i); validatePiiEntity(expectedPiiEntity, actualPiiEntity); } } /* * Helper method to validate the list of linked entities. * * @param expectedLinkedEntityList linkedEntities returned by the service. * @param actualLinkedEntityList linkedEntities returned by the API. / static void validateLinkedEntities(List<LinkedEntity> expectedLinkedEntityList, List<LinkedEntity> actualLinkedEntityList) { assertEquals(expectedLinkedEntityList.size(), actualLinkedEntityList.size()); expectedLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); actualLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); for (int i = 0; i < expectedLinkedEntityList.size(); i++) { LinkedEntity expectedLinkedEntity = expectedLinkedEntityList.get(i); LinkedEntity actualLinkedEntity = actualLinkedEntityList.get(i); validateLinkedEntity(expectedLinkedEntity, actualLinkedEntity); } } /* * Helper method to validate the list of sentence sentiment. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentimentList a list of analyzed sentence sentiment returned by the service. * @param actualSentimentList a list of analyzed sentence sentiment returned by the API. / static void validateSentenceSentimentList(boolean includeOpinionMining, List<SentenceSentiment> expectedSentimentList, List<SentenceSentiment> actualSentimentList) { assertEquals(expectedSentimentList.size(), actualSentimentList.size()); for (int i = 0; i < expectedSentimentList.size(); i++) { validateSentenceSentiment(includeOpinionMining, expectedSentimentList.get(i), actualSentimentList.get(i)); } } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed sentence sentiment returned by the service. * @param actualSentiment analyzed sentence sentiment returned by the API. / static void validateSentenceSentiment(boolean includeOpinionMining, SentenceSentiment expectedSentiment, SentenceSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); assertEquals(expectedSentiment.getText(), actualSentiment.getText()); assertEquals(expectedSentiment.getOffset(), actualSentiment.getOffset()); assertEquals(expectedSentiment.getLength(), actualSentiment.getLength()); if (includeOpinionMining) { validateSentenceOpinions(expectedSentiment.getOpinions().stream().collect(Collectors.toList()), actualSentiment.getOpinions().stream().collect(Collectors.toList())); } else { assertNull(actualSentiment.getOpinions()); } } /* * Helper method to validate sentence's opinions. * * @param expectedSentenceOpinions a list of sentence opinions returned by the service. * @param actualSentenceOpinions a list of sentence opinions returned by the API. / static void validateSentenceOpinions(List<SentenceOpinion> expectedSentenceOpinions, List<SentenceOpinion> actualSentenceOpinions) { assertEquals(expectedSentenceOpinions.size(), actualSentenceOpinions.size()); for (int i = 0; i < actualSentenceOpinions.size(); i++) { final SentenceOpinion expectedSentenceOpinion = expectedSentenceOpinions.get(i); final SentenceOpinion actualSentenceOpinion = actualSentenceOpinions.get(i); validateTargetSentiment(expectedSentenceOpinion.getTarget(), actualSentenceOpinion.getTarget()); validateAssessmentList(expectedSentenceOpinion.getAssessments().stream().collect(Collectors.toList()), actualSentenceOpinion.getAssessments().stream().collect(Collectors.toList())); } } /* * Helper method to validate target sentiment. * * @param expected An expected target sentiment. * @param actual An actual target sentiment. / static void validateTargetSentiment(TargetSentiment expected, TargetSentiment actual) { assertEquals(expected.getSentiment(), actual.getSentiment()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); } /* * Helper method to validate a list of {@link AssessmentSentiment}. * * @param expected A list of expected assessment sentiments. * @param actual A list of actual assessment sentiments. / static void validateAssessmentList(List<AssessmentSentiment> expected, List<AssessmentSentiment> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateAssessmentSentiment(expected.get(i), actual.get(i)); } } /* * Helper method to validate assessment sentiment. * * @param expect An expected assessment sentiment. * @param actual An actual assessment sentiment. / static void validateAssessmentSentiment(AssessmentSentiment expect, AssessmentSentiment actual) { assertEquals(expect.getSentiment(), actual.getSentiment()); assertEquals(expect.getText(), actual.getText()); assertEquals(expect.isNegated(), actual.isNegated()); assertEquals(expect.getOffset(), actual.getOffset()); } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed document sentiment returned by the service. * @param actualSentiment analyzed document sentiment returned by the API. / static void validateDocumentSentiment(boolean includeOpinionMining, DocumentSentiment expectedSentiment, DocumentSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); validateSentenceSentimentList(includeOpinionMining, expectedSentiment.getSentences().stream().collect(Collectors.toList()), actualSentiment.getSentences().stream().collect(Collectors.toList())); } static void validateLabelClassificationResult(ClassifyDocumentResult documentResult) { assertNotNull(documentResult.getId()); if (documentResult.isError()) { assertNotNull(documentResult.getError()); } else { assertNull(documentResult.getError()); for (ClassificationCategory classification : documentResult.getClassifications()) { validateDocumentClassification(classification); } } } static void validateDocumentClassification(ClassificationCategory classificationCategory) { assertNotNull(classificationCategory.getCategory()); assertNotNull(classificationCategory.getConfidenceScore()); } static void validateHealthcareEntity(HealthcareEntity expected, HealthcareEntity actual) { assertEquals(expected.getCategory(), actual.getCategory()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); assertEquals(expected.getLength(), actual.getLength()); assertEquals(expected.getNormalizedText(), actual.getNormalizedText()); assertEquals(expected.getSubcategory(), actual.getSubcategory()); validateEntityAssertion(expected.getAssertion(), actual.getAssertion()); validateEntityDataSourceList(expected.getDataSources(), actual.getDataSources()); } static void validateEntityAssertion(HealthcareEntityAssertion expected, HealthcareEntityAssertion actual) { if (actual == expected) { return; } assertEquals(expected.getConditionality(), actual.getConditionality()); assertEquals(expected.getAssociation(), actual.getAssociation()); assertEquals(expected.getCertainty(), actual.getCertainty()); } static void validateEntityDataSourceList(IterableStream<EntityDataSource> expected, IterableStream<EntityDataSource> actual) { if (expected == actual) { return; } else if (expected == null \|\| actual == null) { assertTrue(false); } } static void validateHealthcareEntityDocumentResult(AnalyzeHealthcareEntitiesResult expected, AnalyzeHealthcareEntitiesResult actual) { validateHealthcareEntityRelations(expected.getEntityRelations().stream().collect(Collectors.toList()), actual.getEntityRelations().stream().collect(Collectors.toList())); validateHealthcareEntities(expected.getEntities().stream().collect(Collectors.toList()), actual.getEntities().stream().collect(Collectors.toList())); } static void validateHealthcareEntityRelations(List<HealthcareEntityRelation> expected, List<HealthcareEntityRelation> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntityRelation(expected.get(i), actual.get(i)); } } static void validateHealthcareEntityRelation(HealthcareEntityRelation expected, HealthcareEntityRelation actual) { final List<HealthcareEntityRelationRole> expectedRoles = expected.getRoles().stream().collect(Collectors.toList()); final List<HealthcareEntityRelationRole> actualRoles = actual.getRoles().stream().collect(Collectors.toList()); assertEquals(expected.getRelationType(), actual.getRelationType()); for (int i = 0; i < expectedRoles.size(); i++) { validateHealthcareEntityRelationRole(expectedRoles.get(i), actualRoles.get(i)); } } static void validateHealthcareEntityRelationRole(HealthcareEntityRelationRole expected, HealthcareEntityRelationRole actual) { assertEquals(expected.getName(), actual.getName()); validateHealthcareEntity(expected.getEntity(), actual.getEntity()); } static void validateHealthcareEntities(List<HealthcareEntity> expected, List<HealthcareEntity> actual) { assertEquals(expected.size(), actual.size()); expected.sort(Comparator.comparing(HealthcareEntity::getText)); actual.sort(Comparator.comparing(HealthcareEntity::getText)); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntity(expected.get(i), actual.get(i)); } } static void validateAnalyzeHealthcareEntitiesResultCollectionList(boolean showStatistics, List<AnalyzeHealthcareEntitiesResultCollection> expected, List<AnalyzeHealthcareEntitiesResultCollection> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateHealthcareEntitiesResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeBatchActionsResultList(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeActionsResult> expected, List<AnalyzeActionsResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeActionsResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateAnalyzeActionsResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeActionsResult expected, AnalyzeActionsResult actual) { validateRecognizeEntitiesActionResults(showStatistics, expected.getRecognizeEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeEntitiesResults().stream().collect(Collectors.toList())); validateRecognizeLinkedEntitiesActionResults(showStatistics, expected.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList())); validateRecognizePiiEntitiesActionResults(showStatistics, expected.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList())); validateExtractKeyPhrasesActionResults(showStatistics, expected.getExtractKeyPhrasesResults().stream().collect(Collectors.toList()), actual.getExtractKeyPhrasesResults().stream().collect(Collectors.toList())); validateAnalyzeSentimentActionResults(showStatistics, includeOpinionMining, expected.getAnalyzeSentimentResults().stream().collect(Collectors.toList()), actual.getAnalyzeSentimentResults().stream().collect(Collectors.toList())); } static void validateRecognizeEntitiesActionResults(boolean showStatistics, List<RecognizeEntitiesActionResult> expected, List<RecognizeEntitiesActionResult> actual) { for (int i = 0; i < actual.size(); i++) { validateRecognizeEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizeLinkedEntitiesActionResults(boolean showStatistics, List<RecognizeLinkedEntitiesActionResult> expected, List<RecognizeLinkedEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizeLinkedEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizePiiEntitiesActionResults(boolean showStatistics, List<RecognizePiiEntitiesActionResult> expected, List<RecognizePiiEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizePiiEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateExtractKeyPhrasesActionResults(boolean showStatistics, List<ExtractKeyPhrasesActionResult> expected, List<ExtractKeyPhrasesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateExtractKeyPhrasesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeSentimentActionResults(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeSentimentActionResult> expected, List<AnalyzeSentimentActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeSentimentActionResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateRecognizeEntitiesActionResult(boolean showStatistics, RecognizeEntitiesActionResult expected, RecognizeEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateCategorizedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizeLinkedEntitiesActionResult(boolean showStatistics, RecognizeLinkedEntitiesActionResult expected, RecognizeLinkedEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateLinkedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizePiiEntitiesActionResult(boolean showStatistics, RecognizePiiEntitiesActionResult expected, RecognizePiiEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validatePiiEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateExtractKeyPhrasesActionResult(boolean showStatistics, ExtractKeyPhrasesActionResult expected, ExtractKeyPhrasesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateExtractKeyPhrasesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateAnalyzeSentimentActionResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentActionResult expected, AnalyzeSentimentActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected.getDocumentsResults(), actual.getDocumentsResults()); } } /* * Helper method to verify {@link TextAnalyticsResult documents} returned in a batch request. / static <T extends TextAnalyticsResult, H extends IterableStream<T>> void validateTextAnalyticsResult( boolean showStatistics, H expectedResults, H actualResults, BiConsumer<T, T> additionalAssertions) { final Map<String, T> expected = expectedResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); final Map<String, T> actual = actualResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); assertEquals(expected.size(), actual.size()); if (showStatistics) { if (expectedResults instanceof AnalyzeSentimentResultCollection) { validateBatchStatistics(((AnalyzeSentimentResultCollection) expectedResults).getStatistics(), ((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { validateBatchStatistics(((DetectLanguageResultCollection) expectedResults).getStatistics(), ((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { validateBatchStatistics(((ExtractKeyPhrasesResultCollection) expectedResults).getStatistics(), ((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { validateBatchStatistics(((RecognizeEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { validateBatchStatistics(((RecognizeLinkedEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof AnalyzeHealthcareEntitiesResultCollection) { validateBatchStatistics(((AnalyzeHealthcareEntitiesResultCollection) expectedResults).getStatistics(), ((AnalyzeHealthcareEntitiesResultCollection) actualResults).getStatistics()); } } else { if (expectedResults instanceof AnalyzeSentimentResultCollection) { assertNull(((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { assertNull(((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { assertNull(((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { assertNull(((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { assertNull(((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } } expected.forEach((key, expectedValue) -> { T actualValue = actual.get(key); assertNotNull(actualValue); if (showStatistics) { validateDocumentStatistics(expectedValue.getStatistics(), actualValue.getStatistics()); } if (expectedValue.getError() == null) { assertNull(actualValue.getError()); } else { assertNotNull(actualValue.getError()); assertEquals(expectedValue.getError().getErrorCode(), actualValue.getError().getErrorCode()); validateErrorDocument(expectedValue.getError(), actualValue.getError()); } additionalAssertions.accept(expectedValue, actualValue); }); } /* * Helper method to verify TextBatchStatistics. * * @param expectedStatistics the expected value for TextBatchStatistics. * @param actualStatistics the value returned by API. / private static void validateBatchStatistics(TextDocumentBatchStatistics expectedStatistics, TextDocumentBatchStatistics actualStatistics) { assertEquals(expectedStatistics.getDocumentCount(), actualStatistics.getDocumentCount()); assertEquals(expectedStatistics.getInvalidDocumentCount(), actualStatistics.getInvalidDocumentCount()); assertEquals(expectedStatistics.getValidDocumentCount(), actualStatistics.getValidDocumentCount()); assertEquals(expectedStatistics.getTransactionCount(), actualStatistics.getTransactionCount()); } /* * Helper method to verify TextDocumentStatistics. * * @param expected the expected value for TextDocumentStatistics. * @param actual the value returned by API. / private static void validateDocumentStatistics(TextDocumentStatistics expected, TextDocumentStatistics actual) { assertEquals(expected.getCharacterCount(), actual.getCharacterCount()); assertEquals(expected.getTransactionCount(), actual.getTransactionCount()); } /* * Helper method to verify LinkedEntityMatches. * * @param expectedLinkedEntityMatches the expected value for LinkedEntityMatches. * @param actualLinkedEntityMatches the value returned by API. / private static void validateLinkedEntityMatches(List<LinkedEntityMatch> expectedLinkedEntityMatches, List<LinkedEntityMatch> actualLinkedEntityMatches) { assertEquals(expectedLinkedEntityMatches.size(), actualLinkedEntityMatches.size()); expectedLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); actualLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); for (int i = 0; i < expectedLinkedEntityMatches.size(); i++) { LinkedEntityMatch expectedLinkedEntity = expectedLinkedEntityMatches.get(i); LinkedEntityMatch actualLinkedEntity = actualLinkedEntityMatches.get(i); assertEquals(expectedLinkedEntity.getText(), actualLinkedEntity.getText()); assertEquals(expectedLinkedEntity.getOffset(), actualLinkedEntity.getOffset()); assertNotNull(actualLinkedEntity.getConfidenceScore()); } } /* * Helper method to verify the error document. * * @param expectedError the Error returned from the service. * @param actualError the Error returned from the API. */ static void validateErrorDocument(TextAnalyticsError expectedError, TextAnalyticsError actualError) { assertEquals(expectedError.getErrorCode(), actualError.getErrorCode()); assertNotNull(actualError.getMessage()); } }	class TextAnalyticsClientTestBase extends TestBase { static final String BATCH_ERROR_EXCEPTION_MESSAGE = "Error in accessing the property on document id: 2, when %s returned with an error: Document text is empty. ErrorCodeValue: {InvalidDocument}"; static final String INVALID_DOCUMENT_BATCH_NPE_MESSAGE = "'documents' cannot be null."; static final String INVALID_DOCUMENT_EMPTY_LIST_EXCEPTION_MESSAGE = "'documents' cannot be empty."; static final String INVALID_DOCUMENT_NPE_MESSAGE = "'document' cannot be null."; static final String WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE = "The document contains very long words (longer than 64 characters). These words will be truncated and may result in unreliable model predictions."; static final String REDACTED = "REDACTED"; static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME"); static InterceptorManager interceptorManagerTestBase; Duration durationTestMode; /** * Use duration of nearly zero value for PLAYBACK test mode, otherwise, use default duration value for LIVE mode. / @Override protected void beforeTest() { if (interceptorManager.isPlaybackMode()) { durationTestMode = Duration.ofMillis(1); } else { durationTestMode = DEFAULT_POLL_INTERVAL; } interceptorManagerTestBase = interceptorManager; } protected <T, U> SyncPoller<T, U> setPollInterval(SyncPoller<T, U> syncPoller) { return syncPoller.setPollInterval(durationTestMode); } @Test abstract void detectLanguagesBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHintWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectSingleTextLanguage(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageInvalidCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageNoneCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputStringForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForCategoriesFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntityWithCategoriesFilterFromOtherResult(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithDefaultLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringWithLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullRequestOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullAnalyzeSentimentOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiUnicodeCodePoint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesForAssertion(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void cancelHealthcareLro(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithMultiSameKindActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithActionNames(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeEntitiesRecognitionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithCategoriesFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithDomainFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeLinkedEntityActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeKeyPhrasesExtractionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntitiesAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassificationAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiCategoryClassifyAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntities(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); void detectLanguageShowStatisticsRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { final List<DetectLanguageInput> detectLanguageInputs = TestUtils.getDetectLanguageInputs(); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(detectLanguageInputs, options); } void detectLanguageDuplicateIdRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(TestUtils.getDuplicateIdDetectLanguageInputs(), null); } void detectLanguagesCountryHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS, "US"); } void detectLanguagesBatchListCountryHintWithOptionsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.DETECT_LANGUAGE_INPUTS, options); } void detectLanguageStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS); } void detectLanguageRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(TestUtils.getDetectLanguageInputs()); } void detectSingleTextLanguageRunner(Consumer<String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(0)); } void detectLanguageInvalidCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "en"); } void detectLanguageEmptyCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), ""); } void detectLanguageNoneCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "none"); } void recognizeCategorizedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS.get(0)); } void recognizeCategorizedEntityStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS); } void recognizeCategorizedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizeCategorizedEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, "en"); } void recognizeBatchCategorizedEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchCategorizedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS)); } void recognizeBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizePiiSingleDocumentRunner(Consumer<String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0)); } void recognizePiiDomainFilterRunner(BiConsumer<String, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0), new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION)); } void recognizePiiLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizePiiEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchPiiEntitiesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS)); } void recognizeBatchPiiEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, RecognizePiiEntitiesOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS); RecognizePiiEntitiesOptions options = new RecognizePiiEntitiesOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchPiiEntitiesShowStatsRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setIncludeStatistics(true)); } void recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setCategoriesFilter( PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER)); } void recognizeLinkedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS.get(0)); } void recognizeBatchStringLinkedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizeBatchLinkedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS), options); } void recognizeLinkedLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, "en"); } void recognizeLinkedStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS); } void recognizeBatchLinkedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS)); } void recognizeBatchLinkedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS.get(1)); } void extractBatchStringKeyPhrasesShowStatsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void extractBatchKeyPhrasesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void extractKeyPhrasesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, "en"); } void extractKeyPhrasesStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS); } void extractBatchKeyPhrasesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS)); } void extractBatchKeyPhrasesDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesWarningRunner(Consumer<String> testRunner) { testRunner.accept(TOO_LONG_INPUT); } void extractKeyPhrasesBatchWarningRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getWarningsTextDocumentInputs()); } void analyzeSentimentForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0)); } void analyzeSentimentForTextInputWithOpinionMiningRunner(BiConsumer<String, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0), new AnalyzeSentimentOptions().setIncludeOpinionMining(true)); } void analyzeSentimentLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(SENTIMENT_INPUTS, "en"); } void analyzeSentimentStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(SENTIMENT_INPUTS); } void analyzeBatchSentimentRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS)); } void analyzeBatchSentimentDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner(BiConsumer<List<String>, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS, new AnalyzeSentimentOptions().setIncludeStatistics(true).setIncludeOpinionMining(true)); } void analyzeBatchSentimentShowStatsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void analyzeBatchSentimentOpinionMining(BiConsumer<List<TextDocumentInput>, AnalyzeSentimentOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new AnalyzeSentimentOptions().setIncludeOpinionMining(true) .setIncludeStatistics(true)); } void emptyTextRunner(Consumer<String> testRunner) { testRunner.accept(""); } void emptyListRunner(BiConsumer<List<TextDocumentInput>, String> testRunner) { testRunner.accept(new ArrayList<>(), "'documents' cannot be empty."); } void detectLanguageInputEmptyIdRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(asList(new DetectLanguageInput("", DETECT_LANGUAGE_INPUTS.get(0)))); } void textAnalyticsInputEmptyIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(asList(new TextDocumentInput("", CATEGORIZED_ENTITY_INPUTS.get(0)))); } void tooManyDocumentsRunner(Consumer<List<String>> testRunner) { final String documentInput = CATEGORIZED_ENTITY_INPUTS.get(0); testRunner.accept(asList( documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput)); } void emojiRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩 " + text); } void batchEmojiRunner(Consumer<List<TextDocumentInput>> testRunner, String text) { testRunner.accept(Collections.singletonList(new TextDocumentInput("0", "👩 " + text))); } void emojiWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻 " + text); } void emojiFamilyRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩‍👩‍👧‍👧 " + text); } void emojiFamilyWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻‍👩🏽‍👧🏾‍👦🏿 " + text); } void diacriticsNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void diacriticsNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void koreanNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void koreanNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void zalgoTextRunner(Consumer<String> testRunner, String text) { testRunner.accept("ơ̵̧̧̢̳̘̘͕͔͕̭̟̙͎͈̞͔̈̇̒̃͋̇̅͛̋͛̎́͑̄̐̂̎͗͝m̵͍͉̗̄̏͌̂̑̽̕͝͠g̵̢̡̢̡̨̡̧̛͉̞̯̠̤̣͕̟̫̫̼̰͓̦͖̣̣͎̋͒̈́̓̒̈̍̌̓̅͑̒̓̅̅͒̿̏́͗̀̇͛̏̀̈́̀̊̾̀̔͜͠͝ͅ " + text); } void healthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", HEALTHCARE_INPUTS.get(0)), new TextDocumentInput("1", HEALTHCARE_INPUTS.get(1))), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void healthcareLroPaginationRunner( BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner, int totalDocuments) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < totalDocuments; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void analyzeHealthcareEntitiesForAssertionRunner( BiConsumer<List<String>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept(asList( "All female participants that are premenopausal will be required to have a pregnancy test; " + "any participant who is pregnant or breastfeeding will not be included"), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(false)); } void cancelHealthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < 10; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions()); } void analyzeBatchActionsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction()) ); } void analyzeActionsWithMultiSameKindActionsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME), new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME), new AnalyzeSentimentAction()) ); } void analyzeActionsWithActionNamesRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME)) ); } void analyzeBatchActionsPaginationRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner, int documentsInTotal) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < documentsInTotal; i++) { documents.add(new TextDocumentInput(Integer.toString(i), PII_ENTITY_INPUTS.get(0))); } testRunner.accept(documents, new TextAnalyticsActions().setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void analyzeEntitiesRecognitionRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction())); } void analyzePiiEntityRecognitionWithCategoriesFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setCategoriesFilter(PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER) )); } void analyzePiiEntityRecognitionWithDomainFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION) )); } void analyzeLinkedEntityRecognitionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( LINKED_ENTITY_INPUTS, new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction())); } void extractKeyPhrasesRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(CATEGORIZED_ENTITY_INPUTS.get(0), PII_ENTITY_INPUTS.get(0)), new TextAnalyticsActions() .setDisplayName("Test1") .setExtractKeyPhrasesActions( new ExtractKeyPhrasesAction())); } void analyzeSentimentRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( SENTIMENT_INPUTS, new TextAnalyticsActions() .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void recognizeCustomEntitiesActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, new TextAnalyticsActions() .setRecognizeCustomEntitiesActions( new RecognizeCustomEntitiesAction(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME))); } void classifyCustomSingleCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, new TextAnalyticsActions() .setSingleLabelClassifyActions( new SingleLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomMultiCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, new TextAnalyticsActions() .setMultiLabelClassifyActions( new MultiLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomSingleLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME)); } void classifyCustomMultiLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME)); } String getEndpoint() { return interceptorManager.isPlaybackMode() ? "https: : Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_ENDPOINT"); } TextAnalyticsClientBuilder getTextAnalyticsAsyncClientBuilder(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { TextAnalyticsClientBuilder builder = new TextAnalyticsClientBuilder() .endpoint(getEndpoint()) .httpClient(httpClient == null ? interceptorManager.getPlaybackClient() : httpClient) .httpLogOptions(new HttpLogOptions().setLogLevel(HttpLogDetailLevel.BODY_AND_HEADERS)) .serviceVersion(serviceVersion); if (getTestMode() == TestMode.RECORD) { builder.addPolicy(interceptorManager.getRecordPolicy()); } if (getTestMode() == TestMode.PLAYBACK) { builder.credential(new AzureKeyCredential(FAKE_API_KEY)); } else { builder.credential((new AzureKeyCredential( Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_API_KEY")))); } return builder; } static void validateDetectLanguageResultCollectionWithResponse(boolean showStatistics, DetectLanguageResultCollection expected, int expectedStatusCode, Response<DetectLanguageResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateDetectLanguageResultCollection(showStatistics, expected, response.getValue()); } static void validateDetectLanguageResultCollection(boolean showStatistics, DetectLanguageResultCollection expected, DetectLanguageResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validatePrimaryLanguage(expectedItem.getPrimaryLanguage(), actualItem.getPrimaryLanguage())); } static void validateCategorizedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateCategorizedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateCategorizedEntitiesResultCollection(boolean showStatistics, RecognizeEntitiesResultCollection expected, RecognizeEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateCategorizedEntities(actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validatePiiEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizePiiEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validatePiiEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validatePiiEntitiesResultCollection(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, RecognizePiiEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> { final PiiEntityCollection expectedPiiEntityCollection = expectedItem.getEntities(); final PiiEntityCollection actualPiiEntityCollection = actualItem.getEntities(); assertEquals(expectedPiiEntityCollection.getRedactedText(), actualPiiEntityCollection.getRedactedText()); validatePiiEntities( expectedPiiEntityCollection.stream().collect(Collectors.toList()), actualPiiEntityCollection.stream().collect(Collectors.toList())); }); } static void validateLinkedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeLinkedEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateLinkedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateLinkedEntitiesResultCollection(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, RecognizeLinkedEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateLinkedEntities( expectedItem.getEntities().stream().collect(Collectors.toList()), actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validateExtractKeyPhrasesResultCollectionWithResponse(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, int expectedStatusCode, Response<ExtractKeyPhrasesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateExtractKeyPhrasesResultCollection(showStatistics, expected, response.getValue()); } static void validateExtractKeyPhrasesResultCollection(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, ExtractKeyPhrasesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateKeyPhrases( expectedItem.getKeyPhrases().stream().collect(Collectors.toList()), actualItem.getKeyPhrases().stream().collect(Collectors.toList()))); } static void validateAnalyzeSentimentResultCollectionWithResponse(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, int expectedStatusCode, Response<AnalyzeSentimentResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected, response.getValue()); } static void validateAnalyzeSentimentResultCollection(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, AnalyzeSentimentResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateDocumentSentiment(includeOpinionMining, expectedItem.getDocumentSentiment(), actualItem.getDocumentSentiment())); } static void validateHealthcareEntitiesResult(boolean showStatistics, AnalyzeHealthcareEntitiesResultCollection expected, AnalyzeHealthcareEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateHealthcareEntityDocumentResult(expectedItem, actualItem)); } /* * Helper method to validate a single detected language. * * @param expectedLanguage detectedLanguage returned by the service. * @param actualLanguage detectedLanguage returned by the API. / static void validatePrimaryLanguage(DetectedLanguage expectedLanguage, DetectedLanguage actualLanguage) { assertNotNull(actualLanguage.getIso6391Name()); assertNotNull(actualLanguage.getName()); assertNotNull(actualLanguage.getConfidenceScore()); } /* * Helper method to validate a single categorized entity. * * @param actualCategorizedEntity CategorizedEntity returned by the API. / static void validateCategorizedEntity(CategorizedEntity actualCategorizedEntity) { assertNotNull(actualCategorizedEntity.getText()); assertNotNull(actualCategorizedEntity.getOffset()); assertNotNull(actualCategorizedEntity.getCategory()); assertNotNull(actualCategorizedEntity.getConfidenceScore()); } /* * Helper method to validate a single Personally Identifiable Information entity. * * @param expectedPiiEntity PiiEntity returned by the service. * @param actualPiiEntity PiiEntity returned by the API. / static void validatePiiEntity(PiiEntity expectedPiiEntity, PiiEntity actualPiiEntity) { assertEquals(expectedPiiEntity.getOffset(), actualPiiEntity.getOffset()); assertEquals(expectedPiiEntity.getSubcategory(), actualPiiEntity.getSubcategory()); assertEquals(expectedPiiEntity.getText(), actualPiiEntity.getText()); assertEquals(expectedPiiEntity.getCategory(), actualPiiEntity.getCategory()); assertNotNull(actualPiiEntity.getConfidenceScore()); } /* * Helper method to validate a single linked entity. * * @param expectedLinkedEntity LinkedEntity returned by the service. * @param actualLinkedEntity LinkedEntity returned by the API. / static void validateLinkedEntity(LinkedEntity expectedLinkedEntity, LinkedEntity actualLinkedEntity) { assertEquals(expectedLinkedEntity.getName(), actualLinkedEntity.getName()); assertEquals(expectedLinkedEntity.getDataSource(), actualLinkedEntity.getDataSource()); assertEquals(expectedLinkedEntity.getLanguage(), actualLinkedEntity.getLanguage()); if (interceptorManagerTestBase.isPlaybackMode()) { assertEquals(REDACTED, actualLinkedEntity.getUrl()); } else { assertEquals(expectedLinkedEntity.getUrl(), actualLinkedEntity.getUrl()); } assertEquals(expectedLinkedEntity.getDataSourceEntityId(), actualLinkedEntity.getDataSourceEntityId()); validateLinkedEntityMatches(expectedLinkedEntity.getMatches().stream().collect(Collectors.toList()), actualLinkedEntity.getMatches().stream().collect(Collectors.toList())); } /* * Helper method to validate a single key phrase. * * @param expectedKeyPhrases key phrases returned by the service. * @param actualKeyPhrases key phrases returned by the API. / static void validateKeyPhrases(List<String> expectedKeyPhrases, List<String> actualKeyPhrases) { assertEquals(expectedKeyPhrases.size(), actualKeyPhrases.size()); Collections.sort(expectedKeyPhrases); Collections.sort(actualKeyPhrases); for (int i = 0; i < expectedKeyPhrases.size(); i++) { assertEquals(expectedKeyPhrases.get(i), actualKeyPhrases.get(i)); } } /* * Helper method to validate the list of categorized entities. * * @param actualCategorizedEntityList categorizedEntities returned by the API. / static void validateCategorizedEntities(List<CategorizedEntity> actualCategorizedEntityList) { for (int i = 0; i < actualCategorizedEntityList.size(); i++) { validateCategorizedEntity(actualCategorizedEntityList.get(i)); } } /* * Helper method to validate the list of Personally Identifiable Information entities. * * @param expectedPiiEntityList piiEntities returned by the service. * @param actualPiiEntityList piiEntities returned by the API. / static void validatePiiEntities(List<PiiEntity> expectedPiiEntityList, List<PiiEntity> actualPiiEntityList) { assertEquals(expectedPiiEntityList.size(), actualPiiEntityList.size()); expectedPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); actualPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); for (int i = 0; i < expectedPiiEntityList.size(); i++) { PiiEntity expectedPiiEntity = expectedPiiEntityList.get(i); PiiEntity actualPiiEntity = actualPiiEntityList.get(i); validatePiiEntity(expectedPiiEntity, actualPiiEntity); } } /* * Helper method to validate the list of linked entities. * * @param expectedLinkedEntityList linkedEntities returned by the service. * @param actualLinkedEntityList linkedEntities returned by the API. / static void validateLinkedEntities(List<LinkedEntity> expectedLinkedEntityList, List<LinkedEntity> actualLinkedEntityList) { assertEquals(expectedLinkedEntityList.size(), actualLinkedEntityList.size()); expectedLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); actualLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); for (int i = 0; i < expectedLinkedEntityList.size(); i++) { LinkedEntity expectedLinkedEntity = expectedLinkedEntityList.get(i); LinkedEntity actualLinkedEntity = actualLinkedEntityList.get(i); validateLinkedEntity(expectedLinkedEntity, actualLinkedEntity); } } /* * Helper method to validate the list of sentence sentiment. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentimentList a list of analyzed sentence sentiment returned by the service. * @param actualSentimentList a list of analyzed sentence sentiment returned by the API. / static void validateSentenceSentimentList(boolean includeOpinionMining, List<SentenceSentiment> expectedSentimentList, List<SentenceSentiment> actualSentimentList) { assertEquals(expectedSentimentList.size(), actualSentimentList.size()); for (int i = 0; i < expectedSentimentList.size(); i++) { validateSentenceSentiment(includeOpinionMining, expectedSentimentList.get(i), actualSentimentList.get(i)); } } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed sentence sentiment returned by the service. * @param actualSentiment analyzed sentence sentiment returned by the API. / static void validateSentenceSentiment(boolean includeOpinionMining, SentenceSentiment expectedSentiment, SentenceSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); assertEquals(expectedSentiment.getText(), actualSentiment.getText()); assertEquals(expectedSentiment.getOffset(), actualSentiment.getOffset()); assertEquals(expectedSentiment.getLength(), actualSentiment.getLength()); if (includeOpinionMining) { validateSentenceOpinions(expectedSentiment.getOpinions().stream().collect(Collectors.toList()), actualSentiment.getOpinions().stream().collect(Collectors.toList())); } else { assertNull(actualSentiment.getOpinions()); } } /* * Helper method to validate sentence's opinions. * * @param expectedSentenceOpinions a list of sentence opinions returned by the service. * @param actualSentenceOpinions a list of sentence opinions returned by the API. / static void validateSentenceOpinions(List<SentenceOpinion> expectedSentenceOpinions, List<SentenceOpinion> actualSentenceOpinions) { assertEquals(expectedSentenceOpinions.size(), actualSentenceOpinions.size()); for (int i = 0; i < actualSentenceOpinions.size(); i++) { final SentenceOpinion expectedSentenceOpinion = expectedSentenceOpinions.get(i); final SentenceOpinion actualSentenceOpinion = actualSentenceOpinions.get(i); validateTargetSentiment(expectedSentenceOpinion.getTarget(), actualSentenceOpinion.getTarget()); validateAssessmentList(expectedSentenceOpinion.getAssessments().stream().collect(Collectors.toList()), actualSentenceOpinion.getAssessments().stream().collect(Collectors.toList())); } } /* * Helper method to validate target sentiment. * * @param expected An expected target sentiment. * @param actual An actual target sentiment. / static void validateTargetSentiment(TargetSentiment expected, TargetSentiment actual) { assertEquals(expected.getSentiment(), actual.getSentiment()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); } /* * Helper method to validate a list of {@link AssessmentSentiment}. * * @param expected A list of expected assessment sentiments. * @param actual A list of actual assessment sentiments. / static void validateAssessmentList(List<AssessmentSentiment> expected, List<AssessmentSentiment> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateAssessmentSentiment(expected.get(i), actual.get(i)); } } /* * Helper method to validate assessment sentiment. * * @param expect An expected assessment sentiment. * @param actual An actual assessment sentiment. / static void validateAssessmentSentiment(AssessmentSentiment expect, AssessmentSentiment actual) { assertEquals(expect.getSentiment(), actual.getSentiment()); assertEquals(expect.getText(), actual.getText()); assertEquals(expect.isNegated(), actual.isNegated()); assertEquals(expect.getOffset(), actual.getOffset()); } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed document sentiment returned by the service. * @param actualSentiment analyzed document sentiment returned by the API. / static void validateDocumentSentiment(boolean includeOpinionMining, DocumentSentiment expectedSentiment, DocumentSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); validateSentenceSentimentList(includeOpinionMining, expectedSentiment.getSentences().stream().collect(Collectors.toList()), actualSentiment.getSentences().stream().collect(Collectors.toList())); } static void validateLabelClassificationResult(ClassifyDocumentResult documentResult) { assertNotNull(documentResult.getId()); if (documentResult.isError()) { assertNotNull(documentResult.getError()); } else { assertNull(documentResult.getError()); for (ClassificationCategory classification : documentResult.getClassifications()) { validateDocumentClassification(classification); } } } static void validateDocumentClassification(ClassificationCategory classificationCategory) { assertNotNull(classificationCategory.getCategory()); assertNotNull(classificationCategory.getConfidenceScore()); } static void validateHealthcareEntity(HealthcareEntity expected, HealthcareEntity actual) { assertEquals(expected.getCategory(), actual.getCategory()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); assertEquals(expected.getLength(), actual.getLength()); assertEquals(expected.getNormalizedText(), actual.getNormalizedText()); assertEquals(expected.getSubcategory(), actual.getSubcategory()); validateEntityAssertion(expected.getAssertion(), actual.getAssertion()); validateEntityDataSourceList(expected.getDataSources(), actual.getDataSources()); } static void validateEntityAssertion(HealthcareEntityAssertion expected, HealthcareEntityAssertion actual) { if (actual == expected) { return; } assertEquals(expected.getConditionality(), actual.getConditionality()); assertEquals(expected.getAssociation(), actual.getAssociation()); assertEquals(expected.getCertainty(), actual.getCertainty()); } static void validateEntityDataSourceList(IterableStream<EntityDataSource> expected, IterableStream<EntityDataSource> actual) { if (expected == actual) { return; } else if (expected == null \|\| actual == null) { assertTrue(false); } } static void validateHealthcareEntityDocumentResult(AnalyzeHealthcareEntitiesResult expected, AnalyzeHealthcareEntitiesResult actual) { validateHealthcareEntityRelations(expected.getEntityRelations().stream().collect(Collectors.toList()), actual.getEntityRelations().stream().collect(Collectors.toList())); validateHealthcareEntities(expected.getEntities().stream().collect(Collectors.toList()), actual.getEntities().stream().collect(Collectors.toList())); } static void validateHealthcareEntityRelations(List<HealthcareEntityRelation> expected, List<HealthcareEntityRelation> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntityRelation(expected.get(i), actual.get(i)); } } static void validateHealthcareEntityRelation(HealthcareEntityRelation expected, HealthcareEntityRelation actual) { final List<HealthcareEntityRelationRole> expectedRoles = expected.getRoles().stream().collect(Collectors.toList()); final List<HealthcareEntityRelationRole> actualRoles = actual.getRoles().stream().collect(Collectors.toList()); assertEquals(expected.getRelationType(), actual.getRelationType()); for (int i = 0; i < expectedRoles.size(); i++) { validateHealthcareEntityRelationRole(expectedRoles.get(i), actualRoles.get(i)); } } static void validateHealthcareEntityRelationRole(HealthcareEntityRelationRole expected, HealthcareEntityRelationRole actual) { assertEquals(expected.getName(), actual.getName()); validateHealthcareEntity(expected.getEntity(), actual.getEntity()); } static void validateHealthcareEntities(List<HealthcareEntity> expected, List<HealthcareEntity> actual) { assertEquals(expected.size(), actual.size()); expected.sort(Comparator.comparing(HealthcareEntity::getText)); actual.sort(Comparator.comparing(HealthcareEntity::getText)); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntity(expected.get(i), actual.get(i)); } } static void validateAnalyzeHealthcareEntitiesResultCollectionList(boolean showStatistics, List<AnalyzeHealthcareEntitiesResultCollection> expected, List<AnalyzeHealthcareEntitiesResultCollection> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateHealthcareEntitiesResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeBatchActionsResultList(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeActionsResult> expected, List<AnalyzeActionsResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeActionsResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateAnalyzeActionsResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeActionsResult expected, AnalyzeActionsResult actual) { validateRecognizeEntitiesActionResults(showStatistics, expected.getRecognizeEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeEntitiesResults().stream().collect(Collectors.toList())); validateRecognizeLinkedEntitiesActionResults(showStatistics, expected.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList())); validateRecognizePiiEntitiesActionResults(showStatistics, expected.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList())); validateExtractKeyPhrasesActionResults(showStatistics, expected.getExtractKeyPhrasesResults().stream().collect(Collectors.toList()), actual.getExtractKeyPhrasesResults().stream().collect(Collectors.toList())); validateAnalyzeSentimentActionResults(showStatistics, includeOpinionMining, expected.getAnalyzeSentimentResults().stream().collect(Collectors.toList()), actual.getAnalyzeSentimentResults().stream().collect(Collectors.toList())); } static void validateRecognizeEntitiesActionResults(boolean showStatistics, List<RecognizeEntitiesActionResult> expected, List<RecognizeEntitiesActionResult> actual) { for (int i = 0; i < actual.size(); i++) { validateRecognizeEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizeLinkedEntitiesActionResults(boolean showStatistics, List<RecognizeLinkedEntitiesActionResult> expected, List<RecognizeLinkedEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizeLinkedEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizePiiEntitiesActionResults(boolean showStatistics, List<RecognizePiiEntitiesActionResult> expected, List<RecognizePiiEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizePiiEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateExtractKeyPhrasesActionResults(boolean showStatistics, List<ExtractKeyPhrasesActionResult> expected, List<ExtractKeyPhrasesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateExtractKeyPhrasesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeSentimentActionResults(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeSentimentActionResult> expected, List<AnalyzeSentimentActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeSentimentActionResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateRecognizeEntitiesActionResult(boolean showStatistics, RecognizeEntitiesActionResult expected, RecognizeEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateCategorizedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizeLinkedEntitiesActionResult(boolean showStatistics, RecognizeLinkedEntitiesActionResult expected, RecognizeLinkedEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateLinkedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizePiiEntitiesActionResult(boolean showStatistics, RecognizePiiEntitiesActionResult expected, RecognizePiiEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validatePiiEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateExtractKeyPhrasesActionResult(boolean showStatistics, ExtractKeyPhrasesActionResult expected, ExtractKeyPhrasesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateExtractKeyPhrasesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateAnalyzeSentimentActionResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentActionResult expected, AnalyzeSentimentActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected.getDocumentsResults(), actual.getDocumentsResults()); } } /* * Helper method to verify {@link TextAnalyticsResult documents} returned in a batch request. / static <T extends TextAnalyticsResult, H extends IterableStream<T>> void validateTextAnalyticsResult( boolean showStatistics, H expectedResults, H actualResults, BiConsumer<T, T> additionalAssertions) { final Map<String, T> expected = expectedResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); final Map<String, T> actual = actualResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); assertEquals(expected.size(), actual.size()); if (showStatistics) { if (expectedResults instanceof AnalyzeSentimentResultCollection) { validateBatchStatistics(((AnalyzeSentimentResultCollection) expectedResults).getStatistics(), ((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { validateBatchStatistics(((DetectLanguageResultCollection) expectedResults).getStatistics(), ((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { validateBatchStatistics(((ExtractKeyPhrasesResultCollection) expectedResults).getStatistics(), ((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { validateBatchStatistics(((RecognizeEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { validateBatchStatistics(((RecognizeLinkedEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof AnalyzeHealthcareEntitiesResultCollection) { validateBatchStatistics(((AnalyzeHealthcareEntitiesResultCollection) expectedResults).getStatistics(), ((AnalyzeHealthcareEntitiesResultCollection) actualResults).getStatistics()); } } else { if (expectedResults instanceof AnalyzeSentimentResultCollection) { assertNull(((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { assertNull(((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { assertNull(((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { assertNull(((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { assertNull(((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } } expected.forEach((key, expectedValue) -> { T actualValue = actual.get(key); assertNotNull(actualValue); if (showStatistics) { validateDocumentStatistics(expectedValue.getStatistics(), actualValue.getStatistics()); } if (expectedValue.getError() == null) { assertNull(actualValue.getError()); } else { assertNotNull(actualValue.getError()); assertEquals(expectedValue.getError().getErrorCode(), actualValue.getError().getErrorCode()); validateErrorDocument(expectedValue.getError(), actualValue.getError()); } additionalAssertions.accept(expectedValue, actualValue); }); } /* * Helper method to verify TextBatchStatistics. * * @param expectedStatistics the expected value for TextBatchStatistics. * @param actualStatistics the value returned by API. / private static void validateBatchStatistics(TextDocumentBatchStatistics expectedStatistics, TextDocumentBatchStatistics actualStatistics) { assertEquals(expectedStatistics.getDocumentCount(), actualStatistics.getDocumentCount()); assertEquals(expectedStatistics.getInvalidDocumentCount(), actualStatistics.getInvalidDocumentCount()); assertEquals(expectedStatistics.getValidDocumentCount(), actualStatistics.getValidDocumentCount()); assertEquals(expectedStatistics.getTransactionCount(), actualStatistics.getTransactionCount()); } /* * Helper method to verify TextDocumentStatistics. * * @param expected the expected value for TextDocumentStatistics. * @param actual the value returned by API. / private static void validateDocumentStatistics(TextDocumentStatistics expected, TextDocumentStatistics actual) { assertEquals(expected.getCharacterCount(), actual.getCharacterCount()); assertEquals(expected.getTransactionCount(), actual.getTransactionCount()); } /* * Helper method to verify LinkedEntityMatches. * * @param expectedLinkedEntityMatches the expected value for LinkedEntityMatches. * @param actualLinkedEntityMatches the value returned by API. / private static void validateLinkedEntityMatches(List<LinkedEntityMatch> expectedLinkedEntityMatches, List<LinkedEntityMatch> actualLinkedEntityMatches) { assertEquals(expectedLinkedEntityMatches.size(), actualLinkedEntityMatches.size()); expectedLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); actualLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); for (int i = 0; i < expectedLinkedEntityMatches.size(); i++) { LinkedEntityMatch expectedLinkedEntity = expectedLinkedEntityMatches.get(i); LinkedEntityMatch actualLinkedEntity = actualLinkedEntityMatches.get(i); assertEquals(expectedLinkedEntity.getText(), actualLinkedEntity.getText()); assertEquals(expectedLinkedEntity.getOffset(), actualLinkedEntity.getOffset()); assertNotNull(actualLinkedEntity.getConfidenceScore()); } } /* * Helper method to verify the error document. * * @param expectedError the Error returned from the service. * @param actualError the Error returned from the API. */ static void validateErrorDocument(TextAnalyticsError expectedError, TextAnalyticsError actualError) { assertEquals(expectedError.getErrorCode(), actualError.getErrorCode()); assertNotNull(actualError.getMessage()); } }
It wasn't test before. Somehow, for my PR merges to feature branch. Don't pick up a CI, so I would run the test when merging to main	void recognizeCustomEntitiesRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, asList(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME)); }	asList(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME,	void recognizeCustomEntitiesRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, asList(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME)); }	class TextAnalyticsClientTestBase extends TestBase { static final String BATCH_ERROR_EXCEPTION_MESSAGE = "Error in accessing the property on document id: 2, when %s returned with an error: Document text is empty. ErrorCodeValue: {InvalidDocument}"; static final String INVALID_DOCUMENT_BATCH_NPE_MESSAGE = "'documents' cannot be null."; static final String INVALID_DOCUMENT_EMPTY_LIST_EXCEPTION_MESSAGE = "'documents' cannot be empty."; static final String INVALID_DOCUMENT_NPE_MESSAGE = "'document' cannot be null."; static final String WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE = "The document contains very long words (longer than 64 characters). These words will be truncated and may result in unreliable model predictions."; static final String REDACTED = "REDACTED"; static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME"); static InterceptorManager interceptorManagerTestBase; Duration durationTestMode; /** * Use duration of nearly zero value for PLAYBACK test mode, otherwise, use default duration value for LIVE mode. / @Override protected void beforeTest() { if (interceptorManager.isPlaybackMode()) { durationTestMode = Duration.ofMillis(1); } else { durationTestMode = DEFAULT_POLL_INTERVAL; } interceptorManagerTestBase = interceptorManager; } protected <T, U> SyncPoller<T, U> setPollInterval(SyncPoller<T, U> syncPoller) { return syncPoller.setPollInterval(durationTestMode); } @Test abstract void detectLanguagesBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHintWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectSingleTextLanguage(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageInvalidCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageNoneCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputStringForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForCategoriesFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntityWithCategoriesFilterFromOtherResult(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithDefaultLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringWithLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullRequestOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullAnalyzeSentimentOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiUnicodeCodePoint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesForAssertion(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void cancelHealthcareLro(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithMultiSameKindActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithActionNames(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeEntitiesRecognitionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithCategoriesFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithDomainFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeLinkedEntityActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeKeyPhrasesExtractionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntitiesAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassificationAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiCategoryClassifyAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntities(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); void detectLanguageShowStatisticsRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { final List<DetectLanguageInput> detectLanguageInputs = TestUtils.getDetectLanguageInputs(); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(detectLanguageInputs, options); } void detectLanguageDuplicateIdRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(TestUtils.getDuplicateIdDetectLanguageInputs(), null); } void detectLanguagesCountryHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS, "US"); } void detectLanguagesBatchListCountryHintWithOptionsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.DETECT_LANGUAGE_INPUTS, options); } void detectLanguageStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS); } void detectLanguageRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(TestUtils.getDetectLanguageInputs()); } void detectSingleTextLanguageRunner(Consumer<String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(0)); } void detectLanguageInvalidCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "en"); } void detectLanguageEmptyCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), ""); } void detectLanguageNoneCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "none"); } void recognizeCategorizedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS.get(0)); } void recognizeCategorizedEntityStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS); } void recognizeCategorizedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizeCategorizedEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, "en"); } void recognizeBatchCategorizedEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchCategorizedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS)); } void recognizeBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizePiiSingleDocumentRunner(Consumer<String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0)); } void recognizePiiDomainFilterRunner(BiConsumer<String, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0), new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION)); } void recognizePiiLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizePiiEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchPiiEntitiesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS)); } void recognizeBatchPiiEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, RecognizePiiEntitiesOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS); RecognizePiiEntitiesOptions options = new RecognizePiiEntitiesOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchPiiEntitiesShowStatsRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setIncludeStatistics(true)); } void recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setCategoriesFilter( PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER)); } void recognizeLinkedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS.get(0)); } void recognizeBatchStringLinkedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizeBatchLinkedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS), options); } void recognizeLinkedLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, "en"); } void recognizeLinkedStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS); } void recognizeBatchLinkedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS)); } void recognizeBatchLinkedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS.get(1)); } void extractBatchStringKeyPhrasesShowStatsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void extractBatchKeyPhrasesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void extractKeyPhrasesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, "en"); } void extractKeyPhrasesStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS); } void extractBatchKeyPhrasesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS)); } void extractBatchKeyPhrasesDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesWarningRunner(Consumer<String> testRunner) { testRunner.accept(TOO_LONG_INPUT); } void extractKeyPhrasesBatchWarningRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getWarningsTextDocumentInputs()); } void analyzeSentimentForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0)); } void analyzeSentimentForTextInputWithOpinionMiningRunner(BiConsumer<String, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0), new AnalyzeSentimentOptions().setIncludeOpinionMining(true)); } void analyzeSentimentLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(SENTIMENT_INPUTS, "en"); } void analyzeSentimentStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(SENTIMENT_INPUTS); } void analyzeBatchSentimentRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS)); } void analyzeBatchSentimentDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner(BiConsumer<List<String>, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS, new AnalyzeSentimentOptions().setIncludeStatistics(true).setIncludeOpinionMining(true)); } void analyzeBatchSentimentShowStatsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void analyzeBatchSentimentOpinionMining(BiConsumer<List<TextDocumentInput>, AnalyzeSentimentOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new AnalyzeSentimentOptions().setIncludeOpinionMining(true) .setIncludeStatistics(true)); } void emptyTextRunner(Consumer<String> testRunner) { testRunner.accept(""); } void emptyListRunner(BiConsumer<List<TextDocumentInput>, String> testRunner) { testRunner.accept(new ArrayList<>(), "'documents' cannot be empty."); } void detectLanguageInputEmptyIdRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(asList(new DetectLanguageInput("", DETECT_LANGUAGE_INPUTS.get(0)))); } void textAnalyticsInputEmptyIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(asList(new TextDocumentInput("", CATEGORIZED_ENTITY_INPUTS.get(0)))); } void tooManyDocumentsRunner(Consumer<List<String>> testRunner) { final String documentInput = CATEGORIZED_ENTITY_INPUTS.get(0); testRunner.accept(asList( documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput)); } void emojiRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩 " + text); } void batchEmojiRunner(Consumer<List<TextDocumentInput>> testRunner, String text) { testRunner.accept(Collections.singletonList(new TextDocumentInput("0", "👩 " + text))); } void emojiWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻 " + text); } void emojiFamilyRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩‍👩‍👧‍👧 " + text); } void emojiFamilyWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻‍👩🏽‍👧🏾‍👦🏿 " + text); } void diacriticsNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void diacriticsNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void koreanNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void koreanNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void zalgoTextRunner(Consumer<String> testRunner, String text) { testRunner.accept("ơ̵̧̧̢̳̘̘͕͔͕̭̟̙͎͈̞͔̈̇̒̃͋̇̅͛̋͛̎́͑̄̐̂̎͗͝m̵͍͉̗̄̏͌̂̑̽̕͝͠g̵̢̡̢̡̨̡̧̛͉̞̯̠̤̣͕̟̫̫̼̰͓̦͖̣̣͎̋͒̈́̓̒̈̍̌̓̅͑̒̓̅̅͒̿̏́͗̀̇͛̏̀̈́̀̊̾̀̔͜͠͝ͅ " + text); } void healthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", HEALTHCARE_INPUTS.get(0)), new TextDocumentInput("1", HEALTHCARE_INPUTS.get(1))), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void healthcareLroPaginationRunner( BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner, int totalDocuments) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < totalDocuments; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void analyzeHealthcareEntitiesForAssertionRunner( BiConsumer<List<String>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept(asList( "All female participants that are premenopausal will be required to have a pregnancy test; " + "any participant who is pregnant or breastfeeding will not be included"), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(false)); } void cancelHealthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < 10; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions()); } void analyzeBatchActionsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction()) ); } void analyzeActionsWithMultiSameKindActionsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME), new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME), new AnalyzeSentimentAction()) ); } void analyzeActionsWithActionNamesRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME)) ); } void analyzeBatchActionsPaginationRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner, int documentsInTotal) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < documentsInTotal; i++) { documents.add(new TextDocumentInput(Integer.toString(i), PII_ENTITY_INPUTS.get(0))); } testRunner.accept(documents, new TextAnalyticsActions().setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void analyzeEntitiesRecognitionRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction())); } void analyzePiiEntityRecognitionWithCategoriesFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setCategoriesFilter(PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER) )); } void analyzePiiEntityRecognitionWithDomainFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION) )); } void analyzeLinkedEntityRecognitionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( LINKED_ENTITY_INPUTS, new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction())); } void extractKeyPhrasesRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(CATEGORIZED_ENTITY_INPUTS.get(0), PII_ENTITY_INPUTS.get(0)), new TextAnalyticsActions() .setDisplayName("Test1") .setExtractKeyPhrasesActions( new ExtractKeyPhrasesAction())); } void analyzeSentimentRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( SENTIMENT_INPUTS, new TextAnalyticsActions() .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void recognizeCustomEntitiesActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, new TextAnalyticsActions() .setRecognizeCustomEntitiesActions( new RecognizeCustomEntitiesAction(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME))); } void classifyCustomSingleCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, new TextAnalyticsActions() .setSingleLabelClassifyActions( new SingleLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomMultiCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, new TextAnalyticsActions() .setMultiLabelClassifyActions( new MultiLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomSingleLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME)); } void classifyCustomMultiLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME)); } String getEndpoint() { return interceptorManager.isPlaybackMode() ? "https: : Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_ENDPOINT"); } TextAnalyticsClientBuilder getTextAnalyticsAsyncClientBuilder(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { TextAnalyticsClientBuilder builder = new TextAnalyticsClientBuilder() .endpoint(getEndpoint()) .httpClient(httpClient == null ? interceptorManager.getPlaybackClient() : httpClient) .httpLogOptions(new HttpLogOptions().setLogLevel(HttpLogDetailLevel.BODY_AND_HEADERS)) .serviceVersion(serviceVersion); if (getTestMode() == TestMode.RECORD) { builder.addPolicy(interceptorManager.getRecordPolicy()); } if (getTestMode() == TestMode.PLAYBACK) { builder.credential(new AzureKeyCredential(FAKE_API_KEY)); } else { builder.credential((new AzureKeyCredential( Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_API_KEY")))); } return builder; } static void validateDetectLanguageResultCollectionWithResponse(boolean showStatistics, DetectLanguageResultCollection expected, int expectedStatusCode, Response<DetectLanguageResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateDetectLanguageResultCollection(showStatistics, expected, response.getValue()); } static void validateDetectLanguageResultCollection(boolean showStatistics, DetectLanguageResultCollection expected, DetectLanguageResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validatePrimaryLanguage(expectedItem.getPrimaryLanguage(), actualItem.getPrimaryLanguage())); } static void validateCategorizedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateCategorizedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateCategorizedEntitiesResultCollection(boolean showStatistics, RecognizeEntitiesResultCollection expected, RecognizeEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateCategorizedEntities(actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validatePiiEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizePiiEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validatePiiEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validatePiiEntitiesResultCollection(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, RecognizePiiEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> { final PiiEntityCollection expectedPiiEntityCollection = expectedItem.getEntities(); final PiiEntityCollection actualPiiEntityCollection = actualItem.getEntities(); assertEquals(expectedPiiEntityCollection.getRedactedText(), actualPiiEntityCollection.getRedactedText()); validatePiiEntities( expectedPiiEntityCollection.stream().collect(Collectors.toList()), actualPiiEntityCollection.stream().collect(Collectors.toList())); }); } static void validateLinkedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeLinkedEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateLinkedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateLinkedEntitiesResultCollection(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, RecognizeLinkedEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateLinkedEntities( expectedItem.getEntities().stream().collect(Collectors.toList()), actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validateExtractKeyPhrasesResultCollectionWithResponse(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, int expectedStatusCode, Response<ExtractKeyPhrasesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateExtractKeyPhrasesResultCollection(showStatistics, expected, response.getValue()); } static void validateExtractKeyPhrasesResultCollection(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, ExtractKeyPhrasesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateKeyPhrases( expectedItem.getKeyPhrases().stream().collect(Collectors.toList()), actualItem.getKeyPhrases().stream().collect(Collectors.toList()))); } static void validateAnalyzeSentimentResultCollectionWithResponse(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, int expectedStatusCode, Response<AnalyzeSentimentResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected, response.getValue()); } static void validateAnalyzeSentimentResultCollection(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, AnalyzeSentimentResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateDocumentSentiment(includeOpinionMining, expectedItem.getDocumentSentiment(), actualItem.getDocumentSentiment())); } static void validateHealthcareEntitiesResult(boolean showStatistics, AnalyzeHealthcareEntitiesResultCollection expected, AnalyzeHealthcareEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateHealthcareEntityDocumentResult(expectedItem, actualItem)); } /* * Helper method to validate a single detected language. * * @param expectedLanguage detectedLanguage returned by the service. * @param actualLanguage detectedLanguage returned by the API. / static void validatePrimaryLanguage(DetectedLanguage expectedLanguage, DetectedLanguage actualLanguage) { assertNotNull(actualLanguage.getIso6391Name()); assertNotNull(actualLanguage.getName()); assertNotNull(actualLanguage.getConfidenceScore()); } /* * Helper method to validate a single categorized entity. * * @param actualCategorizedEntity CategorizedEntity returned by the API. / static void validateCategorizedEntity(CategorizedEntity actualCategorizedEntity) { assertNotNull(actualCategorizedEntity.getText()); assertNotNull(actualCategorizedEntity.getOffset()); assertNotNull(actualCategorizedEntity.getCategory()); assertNotNull(actualCategorizedEntity.getConfidenceScore()); } /* * Helper method to validate a single Personally Identifiable Information entity. * * @param expectedPiiEntity PiiEntity returned by the service. * @param actualPiiEntity PiiEntity returned by the API. / static void validatePiiEntity(PiiEntity expectedPiiEntity, PiiEntity actualPiiEntity) { assertEquals(expectedPiiEntity.getOffset(), actualPiiEntity.getOffset()); assertEquals(expectedPiiEntity.getSubcategory(), actualPiiEntity.getSubcategory()); assertEquals(expectedPiiEntity.getText(), actualPiiEntity.getText()); assertEquals(expectedPiiEntity.getCategory(), actualPiiEntity.getCategory()); assertNotNull(actualPiiEntity.getConfidenceScore()); } /* * Helper method to validate a single linked entity. * * @param expectedLinkedEntity LinkedEntity returned by the service. * @param actualLinkedEntity LinkedEntity returned by the API. / static void validateLinkedEntity(LinkedEntity expectedLinkedEntity, LinkedEntity actualLinkedEntity) { assertEquals(expectedLinkedEntity.getName(), actualLinkedEntity.getName()); assertEquals(expectedLinkedEntity.getDataSource(), actualLinkedEntity.getDataSource()); assertEquals(expectedLinkedEntity.getLanguage(), actualLinkedEntity.getLanguage()); if (interceptorManagerTestBase.isPlaybackMode()) { assertEquals(REDACTED, actualLinkedEntity.getUrl()); } else { assertEquals(expectedLinkedEntity.getUrl(), actualLinkedEntity.getUrl()); } assertEquals(expectedLinkedEntity.getDataSourceEntityId(), actualLinkedEntity.getDataSourceEntityId()); validateLinkedEntityMatches(expectedLinkedEntity.getMatches().stream().collect(Collectors.toList()), actualLinkedEntity.getMatches().stream().collect(Collectors.toList())); } /* * Helper method to validate a single key phrase. * * @param expectedKeyPhrases key phrases returned by the service. * @param actualKeyPhrases key phrases returned by the API. / static void validateKeyPhrases(List<String> expectedKeyPhrases, List<String> actualKeyPhrases) { assertEquals(expectedKeyPhrases.size(), actualKeyPhrases.size()); Collections.sort(expectedKeyPhrases); Collections.sort(actualKeyPhrases); for (int i = 0; i < expectedKeyPhrases.size(); i++) { assertEquals(expectedKeyPhrases.get(i), actualKeyPhrases.get(i)); } } /* * Helper method to validate the list of categorized entities. * * @param actualCategorizedEntityList categorizedEntities returned by the API. / static void validateCategorizedEntities(List<CategorizedEntity> actualCategorizedEntityList) { for (int i = 0; i < actualCategorizedEntityList.size(); i++) { validateCategorizedEntity(actualCategorizedEntityList.get(i)); } } /* * Helper method to validate the list of Personally Identifiable Information entities. * * @param expectedPiiEntityList piiEntities returned by the service. * @param actualPiiEntityList piiEntities returned by the API. / static void validatePiiEntities(List<PiiEntity> expectedPiiEntityList, List<PiiEntity> actualPiiEntityList) { assertEquals(expectedPiiEntityList.size(), actualPiiEntityList.size()); expectedPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); actualPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); for (int i = 0; i < expectedPiiEntityList.size(); i++) { PiiEntity expectedPiiEntity = expectedPiiEntityList.get(i); PiiEntity actualPiiEntity = actualPiiEntityList.get(i); validatePiiEntity(expectedPiiEntity, actualPiiEntity); } } /* * Helper method to validate the list of linked entities. * * @param expectedLinkedEntityList linkedEntities returned by the service. * @param actualLinkedEntityList linkedEntities returned by the API. / static void validateLinkedEntities(List<LinkedEntity> expectedLinkedEntityList, List<LinkedEntity> actualLinkedEntityList) { assertEquals(expectedLinkedEntityList.size(), actualLinkedEntityList.size()); expectedLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); actualLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); for (int i = 0; i < expectedLinkedEntityList.size(); i++) { LinkedEntity expectedLinkedEntity = expectedLinkedEntityList.get(i); LinkedEntity actualLinkedEntity = actualLinkedEntityList.get(i); validateLinkedEntity(expectedLinkedEntity, actualLinkedEntity); } } /* * Helper method to validate the list of sentence sentiment. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentimentList a list of analyzed sentence sentiment returned by the service. * @param actualSentimentList a list of analyzed sentence sentiment returned by the API. / static void validateSentenceSentimentList(boolean includeOpinionMining, List<SentenceSentiment> expectedSentimentList, List<SentenceSentiment> actualSentimentList) { assertEquals(expectedSentimentList.size(), actualSentimentList.size()); for (int i = 0; i < expectedSentimentList.size(); i++) { validateSentenceSentiment(includeOpinionMining, expectedSentimentList.get(i), actualSentimentList.get(i)); } } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed sentence sentiment returned by the service. * @param actualSentiment analyzed sentence sentiment returned by the API. / static void validateSentenceSentiment(boolean includeOpinionMining, SentenceSentiment expectedSentiment, SentenceSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); assertEquals(expectedSentiment.getText(), actualSentiment.getText()); assertEquals(expectedSentiment.getOffset(), actualSentiment.getOffset()); assertEquals(expectedSentiment.getLength(), actualSentiment.getLength()); if (includeOpinionMining) { validateSentenceOpinions(expectedSentiment.getOpinions().stream().collect(Collectors.toList()), actualSentiment.getOpinions().stream().collect(Collectors.toList())); } else { assertNull(actualSentiment.getOpinions()); } } /* * Helper method to validate sentence's opinions. * * @param expectedSentenceOpinions a list of sentence opinions returned by the service. * @param actualSentenceOpinions a list of sentence opinions returned by the API. / static void validateSentenceOpinions(List<SentenceOpinion> expectedSentenceOpinions, List<SentenceOpinion> actualSentenceOpinions) { assertEquals(expectedSentenceOpinions.size(), actualSentenceOpinions.size()); for (int i = 0; i < actualSentenceOpinions.size(); i++) { final SentenceOpinion expectedSentenceOpinion = expectedSentenceOpinions.get(i); final SentenceOpinion actualSentenceOpinion = actualSentenceOpinions.get(i); validateTargetSentiment(expectedSentenceOpinion.getTarget(), actualSentenceOpinion.getTarget()); validateAssessmentList(expectedSentenceOpinion.getAssessments().stream().collect(Collectors.toList()), actualSentenceOpinion.getAssessments().stream().collect(Collectors.toList())); } } /* * Helper method to validate target sentiment. * * @param expected An expected target sentiment. * @param actual An actual target sentiment. / static void validateTargetSentiment(TargetSentiment expected, TargetSentiment actual) { assertEquals(expected.getSentiment(), actual.getSentiment()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); } /* * Helper method to validate a list of {@link AssessmentSentiment}. * * @param expected A list of expected assessment sentiments. * @param actual A list of actual assessment sentiments. / static void validateAssessmentList(List<AssessmentSentiment> expected, List<AssessmentSentiment> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateAssessmentSentiment(expected.get(i), actual.get(i)); } } /* * Helper method to validate assessment sentiment. * * @param expect An expected assessment sentiment. * @param actual An actual assessment sentiment. / static void validateAssessmentSentiment(AssessmentSentiment expect, AssessmentSentiment actual) { assertEquals(expect.getSentiment(), actual.getSentiment()); assertEquals(expect.getText(), actual.getText()); assertEquals(expect.isNegated(), actual.isNegated()); assertEquals(expect.getOffset(), actual.getOffset()); } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed document sentiment returned by the service. * @param actualSentiment analyzed document sentiment returned by the API. / static void validateDocumentSentiment(boolean includeOpinionMining, DocumentSentiment expectedSentiment, DocumentSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); validateSentenceSentimentList(includeOpinionMining, expectedSentiment.getSentences().stream().collect(Collectors.toList()), actualSentiment.getSentences().stream().collect(Collectors.toList())); } static void validateLabelClassificationResult(ClassifyDocumentResult documentResult) { assertNotNull(documentResult.getId()); if (documentResult.isError()) { assertNotNull(documentResult.getError()); } else { assertNull(documentResult.getError()); for (ClassificationCategory classification : documentResult.getClassifications()) { validateDocumentClassification(classification); } } } static void validateDocumentClassification(ClassificationCategory classificationCategory) { assertNotNull(classificationCategory.getCategory()); assertNotNull(classificationCategory.getConfidenceScore()); } static void validateHealthcareEntity(HealthcareEntity expected, HealthcareEntity actual) { assertEquals(expected.getCategory(), actual.getCategory()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); assertEquals(expected.getLength(), actual.getLength()); assertEquals(expected.getNormalizedText(), actual.getNormalizedText()); assertEquals(expected.getSubcategory(), actual.getSubcategory()); validateEntityAssertion(expected.getAssertion(), actual.getAssertion()); validateEntityDataSourceList(expected.getDataSources(), actual.getDataSources()); } static void validateEntityAssertion(HealthcareEntityAssertion expected, HealthcareEntityAssertion actual) { if (actual == expected) { return; } assertEquals(expected.getConditionality(), actual.getConditionality()); assertEquals(expected.getAssociation(), actual.getAssociation()); assertEquals(expected.getCertainty(), actual.getCertainty()); } static void validateEntityDataSourceList(IterableStream<EntityDataSource> expected, IterableStream<EntityDataSource> actual) { if (expected == actual) { return; } else if (expected == null \|\| actual == null) { assertTrue(false); } } static void validateHealthcareEntityDocumentResult(AnalyzeHealthcareEntitiesResult expected, AnalyzeHealthcareEntitiesResult actual) { validateHealthcareEntityRelations(expected.getEntityRelations().stream().collect(Collectors.toList()), actual.getEntityRelations().stream().collect(Collectors.toList())); validateHealthcareEntities(expected.getEntities().stream().collect(Collectors.toList()), actual.getEntities().stream().collect(Collectors.toList())); } static void validateHealthcareEntityRelations(List<HealthcareEntityRelation> expected, List<HealthcareEntityRelation> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntityRelation(expected.get(i), actual.get(i)); } } static void validateHealthcareEntityRelation(HealthcareEntityRelation expected, HealthcareEntityRelation actual) { final List<HealthcareEntityRelationRole> expectedRoles = expected.getRoles().stream().collect(Collectors.toList()); final List<HealthcareEntityRelationRole> actualRoles = actual.getRoles().stream().collect(Collectors.toList()); assertEquals(expected.getRelationType(), actual.getRelationType()); for (int i = 0; i < expectedRoles.size(); i++) { validateHealthcareEntityRelationRole(expectedRoles.get(i), actualRoles.get(i)); } } static void validateHealthcareEntityRelationRole(HealthcareEntityRelationRole expected, HealthcareEntityRelationRole actual) { assertEquals(expected.getName(), actual.getName()); validateHealthcareEntity(expected.getEntity(), actual.getEntity()); } static void validateHealthcareEntities(List<HealthcareEntity> expected, List<HealthcareEntity> actual) { assertEquals(expected.size(), actual.size()); expected.sort(Comparator.comparing(HealthcareEntity::getText)); actual.sort(Comparator.comparing(HealthcareEntity::getText)); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntity(expected.get(i), actual.get(i)); } } static void validateAnalyzeHealthcareEntitiesResultCollectionList(boolean showStatistics, List<AnalyzeHealthcareEntitiesResultCollection> expected, List<AnalyzeHealthcareEntitiesResultCollection> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateHealthcareEntitiesResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeBatchActionsResultList(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeActionsResult> expected, List<AnalyzeActionsResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeActionsResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateAnalyzeActionsResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeActionsResult expected, AnalyzeActionsResult actual) { validateRecognizeEntitiesActionResults(showStatistics, expected.getRecognizeEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeEntitiesResults().stream().collect(Collectors.toList())); validateRecognizeLinkedEntitiesActionResults(showStatistics, expected.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList())); validateRecognizePiiEntitiesActionResults(showStatistics, expected.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList())); validateExtractKeyPhrasesActionResults(showStatistics, expected.getExtractKeyPhrasesResults().stream().collect(Collectors.toList()), actual.getExtractKeyPhrasesResults().stream().collect(Collectors.toList())); validateAnalyzeSentimentActionResults(showStatistics, includeOpinionMining, expected.getAnalyzeSentimentResults().stream().collect(Collectors.toList()), actual.getAnalyzeSentimentResults().stream().collect(Collectors.toList())); } static void validateRecognizeEntitiesActionResults(boolean showStatistics, List<RecognizeEntitiesActionResult> expected, List<RecognizeEntitiesActionResult> actual) { for (int i = 0; i < actual.size(); i++) { validateRecognizeEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizeLinkedEntitiesActionResults(boolean showStatistics, List<RecognizeLinkedEntitiesActionResult> expected, List<RecognizeLinkedEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizeLinkedEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizePiiEntitiesActionResults(boolean showStatistics, List<RecognizePiiEntitiesActionResult> expected, List<RecognizePiiEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizePiiEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateExtractKeyPhrasesActionResults(boolean showStatistics, List<ExtractKeyPhrasesActionResult> expected, List<ExtractKeyPhrasesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateExtractKeyPhrasesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeSentimentActionResults(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeSentimentActionResult> expected, List<AnalyzeSentimentActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeSentimentActionResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateRecognizeEntitiesActionResult(boolean showStatistics, RecognizeEntitiesActionResult expected, RecognizeEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateCategorizedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizeLinkedEntitiesActionResult(boolean showStatistics, RecognizeLinkedEntitiesActionResult expected, RecognizeLinkedEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateLinkedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizePiiEntitiesActionResult(boolean showStatistics, RecognizePiiEntitiesActionResult expected, RecognizePiiEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validatePiiEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateExtractKeyPhrasesActionResult(boolean showStatistics, ExtractKeyPhrasesActionResult expected, ExtractKeyPhrasesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateExtractKeyPhrasesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateAnalyzeSentimentActionResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentActionResult expected, AnalyzeSentimentActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected.getDocumentsResults(), actual.getDocumentsResults()); } } /* * Helper method to verify {@link TextAnalyticsResult documents} returned in a batch request. / static <T extends TextAnalyticsResult, H extends IterableStream<T>> void validateTextAnalyticsResult( boolean showStatistics, H expectedResults, H actualResults, BiConsumer<T, T> additionalAssertions) { final Map<String, T> expected = expectedResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); final Map<String, T> actual = actualResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); assertEquals(expected.size(), actual.size()); if (showStatistics) { if (expectedResults instanceof AnalyzeSentimentResultCollection) { validateBatchStatistics(((AnalyzeSentimentResultCollection) expectedResults).getStatistics(), ((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { validateBatchStatistics(((DetectLanguageResultCollection) expectedResults).getStatistics(), ((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { validateBatchStatistics(((ExtractKeyPhrasesResultCollection) expectedResults).getStatistics(), ((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { validateBatchStatistics(((RecognizeEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { validateBatchStatistics(((RecognizeLinkedEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof AnalyzeHealthcareEntitiesResultCollection) { validateBatchStatistics(((AnalyzeHealthcareEntitiesResultCollection) expectedResults).getStatistics(), ((AnalyzeHealthcareEntitiesResultCollection) actualResults).getStatistics()); } } else { if (expectedResults instanceof AnalyzeSentimentResultCollection) { assertNull(((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { assertNull(((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { assertNull(((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { assertNull(((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { assertNull(((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } } expected.forEach((key, expectedValue) -> { T actualValue = actual.get(key); assertNotNull(actualValue); if (showStatistics) { validateDocumentStatistics(expectedValue.getStatistics(), actualValue.getStatistics()); } if (expectedValue.getError() == null) { assertNull(actualValue.getError()); } else { assertNotNull(actualValue.getError()); assertEquals(expectedValue.getError().getErrorCode(), actualValue.getError().getErrorCode()); validateErrorDocument(expectedValue.getError(), actualValue.getError()); } additionalAssertions.accept(expectedValue, actualValue); }); } /* * Helper method to verify TextBatchStatistics. * * @param expectedStatistics the expected value for TextBatchStatistics. * @param actualStatistics the value returned by API. / private static void validateBatchStatistics(TextDocumentBatchStatistics expectedStatistics, TextDocumentBatchStatistics actualStatistics) { assertEquals(expectedStatistics.getDocumentCount(), actualStatistics.getDocumentCount()); assertEquals(expectedStatistics.getInvalidDocumentCount(), actualStatistics.getInvalidDocumentCount()); assertEquals(expectedStatistics.getValidDocumentCount(), actualStatistics.getValidDocumentCount()); assertEquals(expectedStatistics.getTransactionCount(), actualStatistics.getTransactionCount()); } /* * Helper method to verify TextDocumentStatistics. * * @param expected the expected value for TextDocumentStatistics. * @param actual the value returned by API. / private static void validateDocumentStatistics(TextDocumentStatistics expected, TextDocumentStatistics actual) { assertEquals(expected.getCharacterCount(), actual.getCharacterCount()); assertEquals(expected.getTransactionCount(), actual.getTransactionCount()); } /* * Helper method to verify LinkedEntityMatches. * * @param expectedLinkedEntityMatches the expected value for LinkedEntityMatches. * @param actualLinkedEntityMatches the value returned by API. / private static void validateLinkedEntityMatches(List<LinkedEntityMatch> expectedLinkedEntityMatches, List<LinkedEntityMatch> actualLinkedEntityMatches) { assertEquals(expectedLinkedEntityMatches.size(), actualLinkedEntityMatches.size()); expectedLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); actualLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); for (int i = 0; i < expectedLinkedEntityMatches.size(); i++) { LinkedEntityMatch expectedLinkedEntity = expectedLinkedEntityMatches.get(i); LinkedEntityMatch actualLinkedEntity = actualLinkedEntityMatches.get(i); assertEquals(expectedLinkedEntity.getText(), actualLinkedEntity.getText()); assertEquals(expectedLinkedEntity.getOffset(), actualLinkedEntity.getOffset()); assertNotNull(actualLinkedEntity.getConfidenceScore()); } } /* * Helper method to verify the error document. * * @param expectedError the Error returned from the service. * @param actualError the Error returned from the API. */ static void validateErrorDocument(TextAnalyticsError expectedError, TextAnalyticsError actualError) { assertEquals(expectedError.getErrorCode(), actualError.getErrorCode()); assertNotNull(actualError.getMessage()); } }	class TextAnalyticsClientTestBase extends TestBase { static final String BATCH_ERROR_EXCEPTION_MESSAGE = "Error in accessing the property on document id: 2, when %s returned with an error: Document text is empty. ErrorCodeValue: {InvalidDocument}"; static final String INVALID_DOCUMENT_BATCH_NPE_MESSAGE = "'documents' cannot be null."; static final String INVALID_DOCUMENT_EMPTY_LIST_EXCEPTION_MESSAGE = "'documents' cannot be empty."; static final String INVALID_DOCUMENT_NPE_MESSAGE = "'document' cannot be null."; static final String WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE = "The document contains very long words (longer than 64 characters). These words will be truncated and may result in unreliable model predictions."; static final String REDACTED = "REDACTED"; static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME"); static final String AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME = Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME"); static InterceptorManager interceptorManagerTestBase; Duration durationTestMode; /** * Use duration of nearly zero value for PLAYBACK test mode, otherwise, use default duration value for LIVE mode. / @Override protected void beforeTest() { if (interceptorManager.isPlaybackMode()) { durationTestMode = Duration.ofMillis(1); } else { durationTestMode = DEFAULT_POLL_INTERVAL; } interceptorManagerTestBase = interceptorManager; } protected <T, U> SyncPoller<T, U> setPollInterval(SyncPoller<T, U> syncPoller) { return syncPoller.setPollInterval(durationTestMode); } @Test abstract void detectLanguagesBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchListCountryHintWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguagesBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectSingleTextLanguage(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageInvalidCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageEmptyCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void detectLanguageNoneCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesForListWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputStringForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntitiesForBatchInputForCategoriesFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizePiiEntityWithCategoriesFilterFromOtherResult(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeLinkedEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void extractKeyPhrasesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithDefaultLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForTextInputWithOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringWithLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForListStringShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullRequestOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputWithNullAnalyzeSentimentOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentForBatchInputShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void healthcareLroEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiUnicodeCodePoint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeHealthcareEntitiesForAssertion(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void cancelHealthcareLro(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithMultiSameKindActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsWithActionNames(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeActionsEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeEntitiesRecognitionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithCategoriesFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzePiiEntityRecognitionWithDomainFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeLinkedEntityActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeKeyPhrasesExtractionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void analyzeSentimentAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntitiesAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassificationAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiCategoryClassifyAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void recognizeCustomEntities(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void singleLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); @Test abstract void multiLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion); void detectLanguageShowStatisticsRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { final List<DetectLanguageInput> detectLanguageInputs = TestUtils.getDetectLanguageInputs(); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(detectLanguageInputs, options); } void detectLanguageDuplicateIdRunner(BiConsumer<List<DetectLanguageInput>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(TestUtils.getDuplicateIdDetectLanguageInputs(), null); } void detectLanguagesCountryHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS, "US"); } void detectLanguagesBatchListCountryHintWithOptionsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.DETECT_LANGUAGE_INPUTS, options); } void detectLanguageStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS); } void detectLanguageRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(TestUtils.getDetectLanguageInputs()); } void detectSingleTextLanguageRunner(Consumer<String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(0)); } void detectLanguageInvalidCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "en"); } void detectLanguageEmptyCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), ""); } void detectLanguageNoneCountryHintRunner(BiConsumer<String, String> testRunner) { testRunner.accept(DETECT_LANGUAGE_INPUTS.get(1), "none"); } void recognizeCategorizedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS.get(0)); } void recognizeCategorizedEntityStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS); } void recognizeCategorizedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizeCategorizedEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, "en"); } void recognizeBatchCategorizedEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchCategorizedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS)); } void recognizeBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(CATEGORIZED_ENTITY_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchCategorizedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(CATEGORIZED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizePiiSingleDocumentRunner(Consumer<String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0)); } void recognizePiiDomainFilterRunner(BiConsumer<String, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS.get(0), new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION)); } void recognizePiiLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void recognizePiiEntitiesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, "en"); } void recognizeBatchPiiEntitySingleErrorRunner(Consumer<List<TextDocumentInput>> testRunner) { List<TextDocumentInput> inputs = Collections.singletonList(new TextDocumentInput("2", " ")); testRunner.accept(inputs); } void recognizeBatchPiiEntitiesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS)); } void recognizeBatchPiiEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, RecognizePiiEntitiesOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(PII_ENTITY_INPUTS); RecognizePiiEntitiesOptions options = new RecognizePiiEntitiesOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void recognizeStringBatchPiiEntitiesShowStatsRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setIncludeStatistics(true)); } void recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( BiConsumer<List<String>, RecognizePiiEntitiesOptions> testRunner) { testRunner.accept(PII_ENTITY_INPUTS, new RecognizePiiEntitiesOptions().setCategoriesFilter( PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER)); } void recognizeLinkedEntitiesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS.get(0)); } void recognizeBatchStringLinkedEntitiesShowStatsRunner( BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void recognizeBatchLinkedEntitiesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS), options); } void recognizeLinkedLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS, "en"); } void recognizeLinkedStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(LINKED_ENTITY_INPUTS); } void recognizeBatchLinkedEntityRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(LINKED_ENTITY_INPUTS)); } void recognizeBatchLinkedEntityDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS.get(1)); } void extractBatchStringKeyPhrasesShowStatsRunner(BiConsumer<List<String>, TextAnalyticsRequestOptions> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void extractBatchKeyPhrasesShowStatsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS); TextAnalyticsRequestOptions options = new TextAnalyticsRequestOptions().setIncludeStatistics(true); testRunner.accept(textDocumentInputs, options); } void extractKeyPhrasesLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS, "en"); } void extractKeyPhrasesStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(KEY_PHRASE_INPUTS); } void extractBatchKeyPhrasesRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(KEY_PHRASE_INPUTS)); } void extractBatchKeyPhrasesDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void extractKeyPhrasesWarningRunner(Consumer<String> testRunner) { testRunner.accept(TOO_LONG_INPUT); } void extractKeyPhrasesBatchWarningRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getWarningsTextDocumentInputs()); } void analyzeSentimentForSingleTextInputRunner(Consumer<String> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0)); } void analyzeSentimentForTextInputWithOpinionMiningRunner(BiConsumer<String, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS.get(0), new AnalyzeSentimentOptions().setIncludeOpinionMining(true)); } void analyzeSentimentLanguageHintRunner(BiConsumer<List<String>, String> testRunner) { testRunner.accept(SENTIMENT_INPUTS, "en"); } void analyzeSentimentStringInputRunner(Consumer<List<String>> testRunner) { testRunner.accept(SENTIMENT_INPUTS); } void analyzeBatchSentimentRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS)); } void analyzeBatchSentimentDuplicateIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(getDuplicateTextDocumentInputs()); } void analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner(BiConsumer<List<String>, AnalyzeSentimentOptions> testRunner) { testRunner.accept(SENTIMENT_INPUTS, new AnalyzeSentimentOptions().setIncludeStatistics(true).setIncludeOpinionMining(true)); } void analyzeBatchSentimentShowStatsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsRequestOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new TextAnalyticsRequestOptions().setIncludeStatistics(true)); } void analyzeBatchSentimentOpinionMining(BiConsumer<List<TextDocumentInput>, AnalyzeSentimentOptions> testRunner) { final List<TextDocumentInput> textDocumentInputs = TestUtils.getTextDocumentInputs(SENTIMENT_INPUTS); testRunner.accept(textDocumentInputs, new AnalyzeSentimentOptions().setIncludeOpinionMining(true) .setIncludeStatistics(true)); } void emptyTextRunner(Consumer<String> testRunner) { testRunner.accept(""); } void emptyListRunner(BiConsumer<List<TextDocumentInput>, String> testRunner) { testRunner.accept(new ArrayList<>(), "'documents' cannot be empty."); } void detectLanguageInputEmptyIdRunner(Consumer<List<DetectLanguageInput>> testRunner) { testRunner.accept(asList(new DetectLanguageInput("", DETECT_LANGUAGE_INPUTS.get(0)))); } void textAnalyticsInputEmptyIdRunner(Consumer<List<TextDocumentInput>> testRunner) { testRunner.accept(asList(new TextDocumentInput("", CATEGORIZED_ENTITY_INPUTS.get(0)))); } void tooManyDocumentsRunner(Consumer<List<String>> testRunner) { final String documentInput = CATEGORIZED_ENTITY_INPUTS.get(0); testRunner.accept(asList( documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput, documentInput)); } void emojiRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩 " + text); } void batchEmojiRunner(Consumer<List<TextDocumentInput>> testRunner, String text) { testRunner.accept(Collections.singletonList(new TextDocumentInput("0", "👩 " + text))); } void emojiWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻 " + text); } void emojiFamilyRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩‍👩‍👧‍👧 " + text); } void emojiFamilyWithSkinToneModifierRunner(Consumer<String> testRunner, String text) { testRunner.accept("👩🏻‍👩🏽‍👧🏾‍👦🏿 " + text); } void diacriticsNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void diacriticsNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("año " + text); } void koreanNfcRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void koreanNfdRunner(Consumer<String> testRunner, String text) { testRunner.accept("아가 " + text); } void zalgoTextRunner(Consumer<String> testRunner, String text) { testRunner.accept("ơ̵̧̧̢̳̘̘͕͔͕̭̟̙͎͈̞͔̈̇̒̃͋̇̅͛̋͛̎́͑̄̐̂̎͗͝m̵͍͉̗̄̏͌̂̑̽̕͝͠g̵̢̡̢̡̨̡̧̛͉̞̯̠̤̣͕̟̫̫̼̰͓̦͖̣̣͎̋͒̈́̓̒̈̍̌̓̅͑̒̓̅̅͒̿̏́͗̀̇͛̏̀̈́̀̊̾̀̔͜͠͝ͅ " + text); } void healthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", HEALTHCARE_INPUTS.get(0)), new TextDocumentInput("1", HEALTHCARE_INPUTS.get(1))), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void healthcareLroPaginationRunner( BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner, int totalDocuments) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < totalDocuments; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(true)); } void analyzeHealthcareEntitiesForAssertionRunner( BiConsumer<List<String>, AnalyzeHealthcareEntitiesOptions> testRunner) { testRunner.accept(asList( "All female participants that are premenopausal will be required to have a pregnancy test; " + "any participant who is pregnant or breastfeeding will not be included"), new AnalyzeHealthcareEntitiesOptions().setIncludeStatistics(false)); } void cancelHealthcareLroRunner(BiConsumer<List<TextDocumentInput>, AnalyzeHealthcareEntitiesOptions> testRunner) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < 10; i++) { documents.add(new TextDocumentInput(Integer.toString(i), HEALTHCARE_INPUTS.get(0))); } testRunner.accept(documents, new AnalyzeHealthcareEntitiesOptions()); } void analyzeBatchActionsRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction()) ); } void analyzeActionsWithMultiSameKindActionsRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeEntitiesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizePiiEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME), new ExtractKeyPhrasesAction()) .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME), new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME), new AnalyzeSentimentAction()) ); } void analyzeActionsWithActionNamesRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction().setActionName(CUSTOM_ACTION_NAME)) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction().setActionName(CUSTOM_ACTION_NAME)) .setAnalyzeSentimentActions(new AnalyzeSentimentAction().setActionName(CUSTOM_ACTION_NAME)) ); } void analyzeBatchActionsPaginationRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner, int documentsInTotal) { List<TextDocumentInput> documents = new ArrayList<>(); for (int i = 0; i < documentsInTotal; i++) { documents.add(new TextDocumentInput(Integer.toString(i), PII_ENTITY_INPUTS.get(0))); } testRunner.accept(documents, new TextAnalyticsActions().setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction()) .setExtractKeyPhrasesActions(new ExtractKeyPhrasesAction()) .setRecognizePiiEntitiesActions(new RecognizePiiEntitiesAction()) .setRecognizeLinkedEntitiesActions(new RecognizeLinkedEntitiesAction()) .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void analyzeEntitiesRecognitionRunner(BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(0))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeEntitiesActions(new RecognizeEntitiesAction())); } void analyzePiiEntityRecognitionWithCategoriesFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setCategoriesFilter(PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER, PiiEntityCategory.ABA_ROUTING_NUMBER) )); } void analyzePiiEntityRecognitionWithDomainFiltersRunner( BiConsumer<List<TextDocumentInput>, TextAnalyticsActions> testRunner) { testRunner.accept( asList( new TextDocumentInput("0", PII_ENTITY_INPUTS.get(0)), new TextDocumentInput("1", PII_ENTITY_INPUTS.get(1))), new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizePiiEntitiesActions( new RecognizePiiEntitiesAction() .setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION) )); } void analyzeLinkedEntityRecognitionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( LINKED_ENTITY_INPUTS, new TextAnalyticsActions() .setDisplayName("Test1") .setRecognizeLinkedEntitiesActions( new RecognizeLinkedEntitiesAction())); } void extractKeyPhrasesRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( asList(CATEGORIZED_ENTITY_INPUTS.get(0), PII_ENTITY_INPUTS.get(0)), new TextAnalyticsActions() .setDisplayName("Test1") .setExtractKeyPhrasesActions( new ExtractKeyPhrasesAction())); } void analyzeSentimentRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept( SENTIMENT_INPUTS, new TextAnalyticsActions() .setAnalyzeSentimentActions(new AnalyzeSentimentAction())); } void recognizeCustomEntitiesActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_ENTITIES_INPUT, new TextAnalyticsActions() .setRecognizeCustomEntitiesActions( new RecognizeCustomEntitiesAction(AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_ENTITIES_DEPLOYMENT_NAME))); } void classifyCustomSingleCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, new TextAnalyticsActions() .setSingleLabelClassifyActions( new SingleLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomMultiCategoryActionRunner(BiConsumer<List<String>, TextAnalyticsActions> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, new TextAnalyticsActions() .setMultiLabelClassifyActions( new MultiLabelClassifyAction(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME))); } void classifyCustomSingleLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_SINGLE_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_SINGLE_CLASSIFICATION_DEPLOYMENT_NAME)); } void classifyCustomMultiLabelRunner(BiConsumer<List<String>, List<String>> testRunner) { testRunner.accept(CUSTOM_MULTI_CLASSIFICATION, asList(AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_PROJECT_NAME, AZURE_TEXT_ANALYTICS_CUSTOM_MULTI_CLASSIFICATION_DEPLOYMENT_NAME)); } String getEndpoint() { return interceptorManager.isPlaybackMode() ? "https: : Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_ENDPOINT"); } TextAnalyticsClientBuilder getTextAnalyticsAsyncClientBuilder(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { TextAnalyticsClientBuilder builder = new TextAnalyticsClientBuilder() .endpoint(getEndpoint()) .httpClient(httpClient == null ? interceptorManager.getPlaybackClient() : httpClient) .httpLogOptions(new HttpLogOptions().setLogLevel(HttpLogDetailLevel.BODY_AND_HEADERS)) .serviceVersion(serviceVersion); if (getTestMode() == TestMode.RECORD) { builder.addPolicy(interceptorManager.getRecordPolicy()); } if (getTestMode() == TestMode.PLAYBACK) { builder.credential(new AzureKeyCredential(FAKE_API_KEY)); } else { builder.credential((new AzureKeyCredential( Configuration.getGlobalConfiguration().get("AZURE_TEXT_ANALYTICS_API_KEY")))); } return builder; } static void validateDetectLanguageResultCollectionWithResponse(boolean showStatistics, DetectLanguageResultCollection expected, int expectedStatusCode, Response<DetectLanguageResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateDetectLanguageResultCollection(showStatistics, expected, response.getValue()); } static void validateDetectLanguageResultCollection(boolean showStatistics, DetectLanguageResultCollection expected, DetectLanguageResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validatePrimaryLanguage(expectedItem.getPrimaryLanguage(), actualItem.getPrimaryLanguage())); } static void validateCategorizedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateCategorizedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateCategorizedEntitiesResultCollection(boolean showStatistics, RecognizeEntitiesResultCollection expected, RecognizeEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateCategorizedEntities(actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validatePiiEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizePiiEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validatePiiEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validatePiiEntitiesResultCollection(boolean showStatistics, RecognizePiiEntitiesResultCollection expected, RecognizePiiEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> { final PiiEntityCollection expectedPiiEntityCollection = expectedItem.getEntities(); final PiiEntityCollection actualPiiEntityCollection = actualItem.getEntities(); assertEquals(expectedPiiEntityCollection.getRedactedText(), actualPiiEntityCollection.getRedactedText()); validatePiiEntities( expectedPiiEntityCollection.stream().collect(Collectors.toList()), actualPiiEntityCollection.stream().collect(Collectors.toList())); }); } static void validateLinkedEntitiesResultCollectionWithResponse(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, int expectedStatusCode, Response<RecognizeLinkedEntitiesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateLinkedEntitiesResultCollection(showStatistics, expected, response.getValue()); } static void validateLinkedEntitiesResultCollection(boolean showStatistics, RecognizeLinkedEntitiesResultCollection expected, RecognizeLinkedEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateLinkedEntities( expectedItem.getEntities().stream().collect(Collectors.toList()), actualItem.getEntities().stream().collect(Collectors.toList()))); } static void validateExtractKeyPhrasesResultCollectionWithResponse(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, int expectedStatusCode, Response<ExtractKeyPhrasesResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateExtractKeyPhrasesResultCollection(showStatistics, expected, response.getValue()); } static void validateExtractKeyPhrasesResultCollection(boolean showStatistics, ExtractKeyPhrasesResultCollection expected, ExtractKeyPhrasesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateKeyPhrases( expectedItem.getKeyPhrases().stream().collect(Collectors.toList()), actualItem.getKeyPhrases().stream().collect(Collectors.toList()))); } static void validateAnalyzeSentimentResultCollectionWithResponse(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, int expectedStatusCode, Response<AnalyzeSentimentResultCollection> response) { assertNotNull(response); assertEquals(expectedStatusCode, response.getStatusCode()); validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected, response.getValue()); } static void validateAnalyzeSentimentResultCollection(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentResultCollection expected, AnalyzeSentimentResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateDocumentSentiment(includeOpinionMining, expectedItem.getDocumentSentiment(), actualItem.getDocumentSentiment())); } static void validateHealthcareEntitiesResult(boolean showStatistics, AnalyzeHealthcareEntitiesResultCollection expected, AnalyzeHealthcareEntitiesResultCollection actual) { validateTextAnalyticsResult(showStatistics, expected, actual, (expectedItem, actualItem) -> validateHealthcareEntityDocumentResult(expectedItem, actualItem)); } /* * Helper method to validate a single detected language. * * @param expectedLanguage detectedLanguage returned by the service. * @param actualLanguage detectedLanguage returned by the API. / static void validatePrimaryLanguage(DetectedLanguage expectedLanguage, DetectedLanguage actualLanguage) { assertNotNull(actualLanguage.getIso6391Name()); assertNotNull(actualLanguage.getName()); assertNotNull(actualLanguage.getConfidenceScore()); } /* * Helper method to validate a single categorized entity. * * @param actualCategorizedEntity CategorizedEntity returned by the API. / static void validateCategorizedEntity(CategorizedEntity actualCategorizedEntity) { assertNotNull(actualCategorizedEntity.getText()); assertNotNull(actualCategorizedEntity.getOffset()); assertNotNull(actualCategorizedEntity.getCategory()); assertNotNull(actualCategorizedEntity.getConfidenceScore()); } /* * Helper method to validate a single Personally Identifiable Information entity. * * @param expectedPiiEntity PiiEntity returned by the service. * @param actualPiiEntity PiiEntity returned by the API. / static void validatePiiEntity(PiiEntity expectedPiiEntity, PiiEntity actualPiiEntity) { assertEquals(expectedPiiEntity.getOffset(), actualPiiEntity.getOffset()); assertEquals(expectedPiiEntity.getSubcategory(), actualPiiEntity.getSubcategory()); assertEquals(expectedPiiEntity.getText(), actualPiiEntity.getText()); assertEquals(expectedPiiEntity.getCategory(), actualPiiEntity.getCategory()); assertNotNull(actualPiiEntity.getConfidenceScore()); } /* * Helper method to validate a single linked entity. * * @param expectedLinkedEntity LinkedEntity returned by the service. * @param actualLinkedEntity LinkedEntity returned by the API. / static void validateLinkedEntity(LinkedEntity expectedLinkedEntity, LinkedEntity actualLinkedEntity) { assertEquals(expectedLinkedEntity.getName(), actualLinkedEntity.getName()); assertEquals(expectedLinkedEntity.getDataSource(), actualLinkedEntity.getDataSource()); assertEquals(expectedLinkedEntity.getLanguage(), actualLinkedEntity.getLanguage()); if (interceptorManagerTestBase.isPlaybackMode()) { assertEquals(REDACTED, actualLinkedEntity.getUrl()); } else { assertEquals(expectedLinkedEntity.getUrl(), actualLinkedEntity.getUrl()); } assertEquals(expectedLinkedEntity.getDataSourceEntityId(), actualLinkedEntity.getDataSourceEntityId()); validateLinkedEntityMatches(expectedLinkedEntity.getMatches().stream().collect(Collectors.toList()), actualLinkedEntity.getMatches().stream().collect(Collectors.toList())); } /* * Helper method to validate a single key phrase. * * @param expectedKeyPhrases key phrases returned by the service. * @param actualKeyPhrases key phrases returned by the API. / static void validateKeyPhrases(List<String> expectedKeyPhrases, List<String> actualKeyPhrases) { assertEquals(expectedKeyPhrases.size(), actualKeyPhrases.size()); Collections.sort(expectedKeyPhrases); Collections.sort(actualKeyPhrases); for (int i = 0; i < expectedKeyPhrases.size(); i++) { assertEquals(expectedKeyPhrases.get(i), actualKeyPhrases.get(i)); } } /* * Helper method to validate the list of categorized entities. * * @param actualCategorizedEntityList categorizedEntities returned by the API. / static void validateCategorizedEntities(List<CategorizedEntity> actualCategorizedEntityList) { for (int i = 0; i < actualCategorizedEntityList.size(); i++) { validateCategorizedEntity(actualCategorizedEntityList.get(i)); } } /* * Helper method to validate the list of Personally Identifiable Information entities. * * @param expectedPiiEntityList piiEntities returned by the service. * @param actualPiiEntityList piiEntities returned by the API. / static void validatePiiEntities(List<PiiEntity> expectedPiiEntityList, List<PiiEntity> actualPiiEntityList) { assertEquals(expectedPiiEntityList.size(), actualPiiEntityList.size()); expectedPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); actualPiiEntityList.sort(Comparator.comparing(PiiEntity::getText)); for (int i = 0; i < expectedPiiEntityList.size(); i++) { PiiEntity expectedPiiEntity = expectedPiiEntityList.get(i); PiiEntity actualPiiEntity = actualPiiEntityList.get(i); validatePiiEntity(expectedPiiEntity, actualPiiEntity); } } /* * Helper method to validate the list of linked entities. * * @param expectedLinkedEntityList linkedEntities returned by the service. * @param actualLinkedEntityList linkedEntities returned by the API. / static void validateLinkedEntities(List<LinkedEntity> expectedLinkedEntityList, List<LinkedEntity> actualLinkedEntityList) { assertEquals(expectedLinkedEntityList.size(), actualLinkedEntityList.size()); expectedLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); actualLinkedEntityList.sort(Comparator.comparing(LinkedEntity::getName)); for (int i = 0; i < expectedLinkedEntityList.size(); i++) { LinkedEntity expectedLinkedEntity = expectedLinkedEntityList.get(i); LinkedEntity actualLinkedEntity = actualLinkedEntityList.get(i); validateLinkedEntity(expectedLinkedEntity, actualLinkedEntity); } } /* * Helper method to validate the list of sentence sentiment. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentimentList a list of analyzed sentence sentiment returned by the service. * @param actualSentimentList a list of analyzed sentence sentiment returned by the API. / static void validateSentenceSentimentList(boolean includeOpinionMining, List<SentenceSentiment> expectedSentimentList, List<SentenceSentiment> actualSentimentList) { assertEquals(expectedSentimentList.size(), actualSentimentList.size()); for (int i = 0; i < expectedSentimentList.size(); i++) { validateSentenceSentiment(includeOpinionMining, expectedSentimentList.get(i), actualSentimentList.get(i)); } } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed sentence sentiment returned by the service. * @param actualSentiment analyzed sentence sentiment returned by the API. / static void validateSentenceSentiment(boolean includeOpinionMining, SentenceSentiment expectedSentiment, SentenceSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); assertEquals(expectedSentiment.getText(), actualSentiment.getText()); assertEquals(expectedSentiment.getOffset(), actualSentiment.getOffset()); assertEquals(expectedSentiment.getLength(), actualSentiment.getLength()); if (includeOpinionMining) { validateSentenceOpinions(expectedSentiment.getOpinions().stream().collect(Collectors.toList()), actualSentiment.getOpinions().stream().collect(Collectors.toList())); } else { assertNull(actualSentiment.getOpinions()); } } /* * Helper method to validate sentence's opinions. * * @param expectedSentenceOpinions a list of sentence opinions returned by the service. * @param actualSentenceOpinions a list of sentence opinions returned by the API. / static void validateSentenceOpinions(List<SentenceOpinion> expectedSentenceOpinions, List<SentenceOpinion> actualSentenceOpinions) { assertEquals(expectedSentenceOpinions.size(), actualSentenceOpinions.size()); for (int i = 0; i < actualSentenceOpinions.size(); i++) { final SentenceOpinion expectedSentenceOpinion = expectedSentenceOpinions.get(i); final SentenceOpinion actualSentenceOpinion = actualSentenceOpinions.get(i); validateTargetSentiment(expectedSentenceOpinion.getTarget(), actualSentenceOpinion.getTarget()); validateAssessmentList(expectedSentenceOpinion.getAssessments().stream().collect(Collectors.toList()), actualSentenceOpinion.getAssessments().stream().collect(Collectors.toList())); } } /* * Helper method to validate target sentiment. * * @param expected An expected target sentiment. * @param actual An actual target sentiment. / static void validateTargetSentiment(TargetSentiment expected, TargetSentiment actual) { assertEquals(expected.getSentiment(), actual.getSentiment()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); } /* * Helper method to validate a list of {@link AssessmentSentiment}. * * @param expected A list of expected assessment sentiments. * @param actual A list of actual assessment sentiments. / static void validateAssessmentList(List<AssessmentSentiment> expected, List<AssessmentSentiment> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateAssessmentSentiment(expected.get(i), actual.get(i)); } } /* * Helper method to validate assessment sentiment. * * @param expect An expected assessment sentiment. * @param actual An actual assessment sentiment. / static void validateAssessmentSentiment(AssessmentSentiment expect, AssessmentSentiment actual) { assertEquals(expect.getSentiment(), actual.getSentiment()); assertEquals(expect.getText(), actual.getText()); assertEquals(expect.isNegated(), actual.isNegated()); assertEquals(expect.getOffset(), actual.getOffset()); } /* * Helper method to validate one pair of analyzed sentiments. Can't really validate score numbers because it * frequently changed by background model computation. * * @param expectedSentiment analyzed document sentiment returned by the service. * @param actualSentiment analyzed document sentiment returned by the API. / static void validateDocumentSentiment(boolean includeOpinionMining, DocumentSentiment expectedSentiment, DocumentSentiment actualSentiment) { assertEquals(expectedSentiment.getSentiment(), actualSentiment.getSentiment()); validateSentenceSentimentList(includeOpinionMining, expectedSentiment.getSentences().stream().collect(Collectors.toList()), actualSentiment.getSentences().stream().collect(Collectors.toList())); } static void validateLabelClassificationResult(ClassifyDocumentResult documentResult) { assertNotNull(documentResult.getId()); if (documentResult.isError()) { assertNotNull(documentResult.getError()); } else { assertNull(documentResult.getError()); for (ClassificationCategory classification : documentResult.getClassifications()) { validateDocumentClassification(classification); } } } static void validateDocumentClassification(ClassificationCategory classificationCategory) { assertNotNull(classificationCategory.getCategory()); assertNotNull(classificationCategory.getConfidenceScore()); } static void validateHealthcareEntity(HealthcareEntity expected, HealthcareEntity actual) { assertEquals(expected.getCategory(), actual.getCategory()); assertEquals(expected.getText(), actual.getText()); assertEquals(expected.getOffset(), actual.getOffset()); assertEquals(expected.getLength(), actual.getLength()); assertEquals(expected.getNormalizedText(), actual.getNormalizedText()); assertEquals(expected.getSubcategory(), actual.getSubcategory()); validateEntityAssertion(expected.getAssertion(), actual.getAssertion()); validateEntityDataSourceList(expected.getDataSources(), actual.getDataSources()); } static void validateEntityAssertion(HealthcareEntityAssertion expected, HealthcareEntityAssertion actual) { if (actual == expected) { return; } assertEquals(expected.getConditionality(), actual.getConditionality()); assertEquals(expected.getAssociation(), actual.getAssociation()); assertEquals(expected.getCertainty(), actual.getCertainty()); } static void validateEntityDataSourceList(IterableStream<EntityDataSource> expected, IterableStream<EntityDataSource> actual) { if (expected == actual) { return; } else if (expected == null \|\| actual == null) { assertTrue(false); } } static void validateHealthcareEntityDocumentResult(AnalyzeHealthcareEntitiesResult expected, AnalyzeHealthcareEntitiesResult actual) { validateHealthcareEntityRelations(expected.getEntityRelations().stream().collect(Collectors.toList()), actual.getEntityRelations().stream().collect(Collectors.toList())); validateHealthcareEntities(expected.getEntities().stream().collect(Collectors.toList()), actual.getEntities().stream().collect(Collectors.toList())); } static void validateHealthcareEntityRelations(List<HealthcareEntityRelation> expected, List<HealthcareEntityRelation> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntityRelation(expected.get(i), actual.get(i)); } } static void validateHealthcareEntityRelation(HealthcareEntityRelation expected, HealthcareEntityRelation actual) { final List<HealthcareEntityRelationRole> expectedRoles = expected.getRoles().stream().collect(Collectors.toList()); final List<HealthcareEntityRelationRole> actualRoles = actual.getRoles().stream().collect(Collectors.toList()); assertEquals(expected.getRelationType(), actual.getRelationType()); for (int i = 0; i < expectedRoles.size(); i++) { validateHealthcareEntityRelationRole(expectedRoles.get(i), actualRoles.get(i)); } } static void validateHealthcareEntityRelationRole(HealthcareEntityRelationRole expected, HealthcareEntityRelationRole actual) { assertEquals(expected.getName(), actual.getName()); validateHealthcareEntity(expected.getEntity(), actual.getEntity()); } static void validateHealthcareEntities(List<HealthcareEntity> expected, List<HealthcareEntity> actual) { assertEquals(expected.size(), actual.size()); expected.sort(Comparator.comparing(HealthcareEntity::getText)); actual.sort(Comparator.comparing(HealthcareEntity::getText)); for (int i = 0; i < expected.size(); i++) { validateHealthcareEntity(expected.get(i), actual.get(i)); } } static void validateAnalyzeHealthcareEntitiesResultCollectionList(boolean showStatistics, List<AnalyzeHealthcareEntitiesResultCollection> expected, List<AnalyzeHealthcareEntitiesResultCollection> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateHealthcareEntitiesResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeBatchActionsResultList(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeActionsResult> expected, List<AnalyzeActionsResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeActionsResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateAnalyzeActionsResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeActionsResult expected, AnalyzeActionsResult actual) { validateRecognizeEntitiesActionResults(showStatistics, expected.getRecognizeEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeEntitiesResults().stream().collect(Collectors.toList())); validateRecognizeLinkedEntitiesActionResults(showStatistics, expected.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizeLinkedEntitiesResults().stream().collect(Collectors.toList())); validateRecognizePiiEntitiesActionResults(showStatistics, expected.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList()), actual.getRecognizePiiEntitiesResults().stream().collect(Collectors.toList())); validateExtractKeyPhrasesActionResults(showStatistics, expected.getExtractKeyPhrasesResults().stream().collect(Collectors.toList()), actual.getExtractKeyPhrasesResults().stream().collect(Collectors.toList())); validateAnalyzeSentimentActionResults(showStatistics, includeOpinionMining, expected.getAnalyzeSentimentResults().stream().collect(Collectors.toList()), actual.getAnalyzeSentimentResults().stream().collect(Collectors.toList())); } static void validateRecognizeEntitiesActionResults(boolean showStatistics, List<RecognizeEntitiesActionResult> expected, List<RecognizeEntitiesActionResult> actual) { for (int i = 0; i < actual.size(); i++) { validateRecognizeEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizeLinkedEntitiesActionResults(boolean showStatistics, List<RecognizeLinkedEntitiesActionResult> expected, List<RecognizeLinkedEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizeLinkedEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateRecognizePiiEntitiesActionResults(boolean showStatistics, List<RecognizePiiEntitiesActionResult> expected, List<RecognizePiiEntitiesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateRecognizePiiEntitiesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateExtractKeyPhrasesActionResults(boolean showStatistics, List<ExtractKeyPhrasesActionResult> expected, List<ExtractKeyPhrasesActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateExtractKeyPhrasesActionResult(showStatistics, expected.get(i), actual.get(i)); } } static void validateAnalyzeSentimentActionResults(boolean showStatistics, boolean includeOpinionMining, List<AnalyzeSentimentActionResult> expected, List<AnalyzeSentimentActionResult> actual) { assertEquals(expected.size(), actual.size()); for (int i = 0; i < actual.size(); i++) { validateAnalyzeSentimentActionResult(showStatistics, includeOpinionMining, expected.get(i), actual.get(i)); } } static void validateRecognizeEntitiesActionResult(boolean showStatistics, RecognizeEntitiesActionResult expected, RecognizeEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateCategorizedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizeLinkedEntitiesActionResult(boolean showStatistics, RecognizeLinkedEntitiesActionResult expected, RecognizeLinkedEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateLinkedEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateRecognizePiiEntitiesActionResult(boolean showStatistics, RecognizePiiEntitiesActionResult expected, RecognizePiiEntitiesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validatePiiEntitiesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateExtractKeyPhrasesActionResult(boolean showStatistics, ExtractKeyPhrasesActionResult expected, ExtractKeyPhrasesActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateExtractKeyPhrasesResultCollection(showStatistics, expected.getDocumentsResults(), actual.getDocumentsResults()); } } static void validateAnalyzeSentimentActionResult(boolean showStatistics, boolean includeOpinionMining, AnalyzeSentimentActionResult expected, AnalyzeSentimentActionResult actual) { assertEquals(expected.isError(), actual.isError()); if (actual.isError()) { if (expected.getError() == null) { assertNull(actual.getError()); } else { assertNotNull(actual.getError()); validateErrorDocument(expected.getError(), actual.getError()); } } else { validateAnalyzeSentimentResultCollection(showStatistics, includeOpinionMining, expected.getDocumentsResults(), actual.getDocumentsResults()); } } /* * Helper method to verify {@link TextAnalyticsResult documents} returned in a batch request. / static <T extends TextAnalyticsResult, H extends IterableStream<T>> void validateTextAnalyticsResult( boolean showStatistics, H expectedResults, H actualResults, BiConsumer<T, T> additionalAssertions) { final Map<String, T> expected = expectedResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); final Map<String, T> actual = actualResults.stream().collect( Collectors.toMap(TextAnalyticsResult::getId, r -> r)); assertEquals(expected.size(), actual.size()); if (showStatistics) { if (expectedResults instanceof AnalyzeSentimentResultCollection) { validateBatchStatistics(((AnalyzeSentimentResultCollection) expectedResults).getStatistics(), ((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { validateBatchStatistics(((DetectLanguageResultCollection) expectedResults).getStatistics(), ((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { validateBatchStatistics(((ExtractKeyPhrasesResultCollection) expectedResults).getStatistics(), ((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { validateBatchStatistics(((RecognizeEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { validateBatchStatistics(((RecognizeLinkedEntitiesResultCollection) expectedResults).getStatistics(), ((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof AnalyzeHealthcareEntitiesResultCollection) { validateBatchStatistics(((AnalyzeHealthcareEntitiesResultCollection) expectedResults).getStatistics(), ((AnalyzeHealthcareEntitiesResultCollection) actualResults).getStatistics()); } } else { if (expectedResults instanceof AnalyzeSentimentResultCollection) { assertNull(((AnalyzeSentimentResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof DetectLanguageResultCollection) { assertNull(((DetectLanguageResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof ExtractKeyPhrasesResultCollection) { assertNull(((ExtractKeyPhrasesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeEntitiesResultCollection) { assertNull(((RecognizeEntitiesResultCollection) actualResults).getStatistics()); } else if (expectedResults instanceof RecognizeLinkedEntitiesResultCollection) { assertNull(((RecognizeLinkedEntitiesResultCollection) actualResults).getStatistics()); } } expected.forEach((key, expectedValue) -> { T actualValue = actual.get(key); assertNotNull(actualValue); if (showStatistics) { validateDocumentStatistics(expectedValue.getStatistics(), actualValue.getStatistics()); } if (expectedValue.getError() == null) { assertNull(actualValue.getError()); } else { assertNotNull(actualValue.getError()); assertEquals(expectedValue.getError().getErrorCode(), actualValue.getError().getErrorCode()); validateErrorDocument(expectedValue.getError(), actualValue.getError()); } additionalAssertions.accept(expectedValue, actualValue); }); } /* * Helper method to verify TextBatchStatistics. * * @param expectedStatistics the expected value for TextBatchStatistics. * @param actualStatistics the value returned by API. / private static void validateBatchStatistics(TextDocumentBatchStatistics expectedStatistics, TextDocumentBatchStatistics actualStatistics) { assertEquals(expectedStatistics.getDocumentCount(), actualStatistics.getDocumentCount()); assertEquals(expectedStatistics.getInvalidDocumentCount(), actualStatistics.getInvalidDocumentCount()); assertEquals(expectedStatistics.getValidDocumentCount(), actualStatistics.getValidDocumentCount()); assertEquals(expectedStatistics.getTransactionCount(), actualStatistics.getTransactionCount()); } /* * Helper method to verify TextDocumentStatistics. * * @param expected the expected value for TextDocumentStatistics. * @param actual the value returned by API. / private static void validateDocumentStatistics(TextDocumentStatistics expected, TextDocumentStatistics actual) { assertEquals(expected.getCharacterCount(), actual.getCharacterCount()); assertEquals(expected.getTransactionCount(), actual.getTransactionCount()); } /* * Helper method to verify LinkedEntityMatches. * * @param expectedLinkedEntityMatches the expected value for LinkedEntityMatches. * @param actualLinkedEntityMatches the value returned by API. / private static void validateLinkedEntityMatches(List<LinkedEntityMatch> expectedLinkedEntityMatches, List<LinkedEntityMatch> actualLinkedEntityMatches) { assertEquals(expectedLinkedEntityMatches.size(), actualLinkedEntityMatches.size()); expectedLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); actualLinkedEntityMatches.sort(Comparator.comparing(LinkedEntityMatch::getText)); for (int i = 0; i < expectedLinkedEntityMatches.size(); i++) { LinkedEntityMatch expectedLinkedEntity = expectedLinkedEntityMatches.get(i); LinkedEntityMatch actualLinkedEntity = actualLinkedEntityMatches.get(i); assertEquals(expectedLinkedEntity.getText(), actualLinkedEntity.getText()); assertEquals(expectedLinkedEntity.getOffset(), actualLinkedEntity.getOffset()); assertNotNull(actualLinkedEntity.getConfidenceScore()); } } /* * Helper method to verify the error document. * * @param expectedError the Error returned from the service. * @param actualError the Error returned from the API. */ static void validateErrorDocument(TextAnalyticsError expectedError, TextAnalyticsError actualError) { assertEquals(expectedError.getErrorCode(), actualError.getErrorCode()); assertNotNull(actualError.getMessage()); } }
Note: This is required, it was missing before when this policy got updated via #29730	public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return; } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBodyAsBinaryData() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } }	return;	public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return; } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBodyAsBinaryData() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override @SuppressWarnings("unchecked") @Override public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; } public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override @SuppressWarnings("unchecked") @Override public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; } public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }
The second parameter should be the content type, not the charset. In the `com.nimbusds.jose.util.DefaultResourceRetriever#retrieveResource`, it will change the exception `ClassCastException` to `ClassCastException`, I think this should be added in current method.	public Resource retrieveResource(URL url) throws IOException { HttpHeaders headers = new HttpHeaders(); headers.setAccept(Arrays.asList(MediaType.APPLICATION_JSON, APPLICATION_JWK_SET_JSON)); ResponseEntity<String> response = getResponse(url, headers); if (response.getStatusCodeValue() != HttpStatus.OK.value()) { throw new IOException(response.toString()); } return new Resource(response.getBody(), "UTF-8"); }	return new Resource(response.getBody(), "UTF-8");	public Resource retrieveResource(URL url) throws IOException { HttpHeaders headers = new HttpHeaders(); headers.setAccept(Arrays.asList(MediaType.APPLICATION_JSON, APPLICATION_JWK_SET_JSON)); ResponseEntity<String> response = getResponse(url, headers); if (response.getStatusCodeValue() != HttpStatus.OK.value()) { throw new IOException(response.toString()); } return new Resource(response.getBody(), "UTF-8"); }	class RestOperationsResourceRetriever implements ResourceRetriever { private static final MediaType APPLICATION_JWK_SET_JSON = new MediaType("application", "jwk-set+json"); private final RestOperations restOperations; public RestOperationsResourceRetriever(RestOperations restOperations) { Assert.notNull(restOperations, "restOperations cannot be null"); this.restOperations = restOperations; } @Override private ResponseEntity<String> getResponse(URL url, HttpHeaders headers) throws IOException { try { RequestEntity<Void> request = new RequestEntity<>(headers, HttpMethod.GET, url.toURI()); return this.restOperations.exchange(request, String.class); } catch (Exception ex) { throw new IOException(ex); } } }	class RestOperationsResourceRetriever implements ResourceRetriever { private static final MediaType APPLICATION_JWK_SET_JSON = new MediaType("application", "jwk-set+json"); private final RestOperations restOperations; public RestOperationsResourceRetriever(RestOperations restOperations) { Assert.notNull(restOperations, "restOperations cannot be null"); this.restOperations = restOperations; } @Override private ResponseEntity<String> getResponse(URL url, HttpHeaders headers) throws IOException { try { RequestEntity<Void> request = new RequestEntity<>(headers, HttpMethod.GET, url.toURI()); return this.restOperations.exchange(request, String.class); } catch (Exception ex) { throw new IOException(ex); } } }
1. About `contentType` 1.1. The `Resource`'s java doc didn't say what it should be like. ![image](https://user-images.githubusercontent.com/13167207/187103687-bf528509-b61b-440a-b1db-627a418ed928.png) 1.2. Current callers also set the content type to `UTF-8` ![image](https://user-images.githubusercontent.com/13167207/187103770-91b4a8a1-b828-43d0-9654-1a4014c85ff7.png) 1.3. This class is copied from spring-security framework. Let's keep it same with upstream. If there is some but, we should let spring-security framework update it first. 2. About `ClassCastException `. Same to `1.3`. I will not change this.	public Resource retrieveResource(URL url) throws IOException { HttpHeaders headers = new HttpHeaders(); headers.setAccept(Arrays.asList(MediaType.APPLICATION_JSON, APPLICATION_JWK_SET_JSON)); ResponseEntity<String> response = getResponse(url, headers); if (response.getStatusCodeValue() != HttpStatus.OK.value()) { throw new IOException(response.toString()); } return new Resource(response.getBody(), "UTF-8"); }	return new Resource(response.getBody(), "UTF-8");	public Resource retrieveResource(URL url) throws IOException { HttpHeaders headers = new HttpHeaders(); headers.setAccept(Arrays.asList(MediaType.APPLICATION_JSON, APPLICATION_JWK_SET_JSON)); ResponseEntity<String> response = getResponse(url, headers); if (response.getStatusCodeValue() != HttpStatus.OK.value()) { throw new IOException(response.toString()); } return new Resource(response.getBody(), "UTF-8"); }	class RestOperationsResourceRetriever implements ResourceRetriever { private static final MediaType APPLICATION_JWK_SET_JSON = new MediaType("application", "jwk-set+json"); private final RestOperations restOperations; public RestOperationsResourceRetriever(RestOperations restOperations) { Assert.notNull(restOperations, "restOperations cannot be null"); this.restOperations = restOperations; } @Override private ResponseEntity<String> getResponse(URL url, HttpHeaders headers) throws IOException { try { RequestEntity<Void> request = new RequestEntity<>(headers, HttpMethod.GET, url.toURI()); return this.restOperations.exchange(request, String.class); } catch (Exception ex) { throw new IOException(ex); } } }	class RestOperationsResourceRetriever implements ResourceRetriever { private static final MediaType APPLICATION_JWK_SET_JSON = new MediaType("application", "jwk-set+json"); private final RestOperations restOperations; public RestOperationsResourceRetriever(RestOperations restOperations) { Assert.notNull(restOperations, "restOperations cannot be null"); this.restOperations = restOperations; } @Override private ResponseEntity<String> getResponse(URL url, HttpHeaders headers) throws IOException { try { RequestEntity<Void> request = new RequestEntity<>(headers, HttpMethod.GET, url.toURI()); return this.restOperations.exchange(request, String.class); } catch (Exception ex) { throw new IOException(ex); } } }
Why do we need a `FormHttpMessageConverter` here? In which case the content type will be "application/x-www-form-urlencoded"?	FormHttpMessageConverter formHttpMessageConverter() { return new FormHttpMessageConverter(); }	return new FormHttpMessageConverter();	FormHttpMessageConverter formHttpMessageConverter() { return new FormHttpMessageConverter(); }	class AadRestOperationConfiguration { /** * Declare {@link RestOperations} bean which will be used when send http request to Azure AD and Azure AD B2C. * <br/> * For example: * <ul> * <li> In {@link ResourceRetriever} declared in {@link AadAuthenticationFilterAutoConfiguration}. * <li> In kinds of {@link OAuth2AccessTokenResponseClient} bean(like * {@link DefaultAuthorizationCodeTokenResponseClient}) declared in {@link AadOAuth2ClientConfiguration} and * {@link AadB2cOAuth2ClientConfiguration}. * <li> In {@link JwtDecoder} declared in {@link AadResourceServerConfiguration} and * {@link AadB2cResourceServerAutoConfiguration} * </ul> * * @param builder The RestTemplateBuilder bean, which can be provided in {@link RestTemplateAutoConfiguration} * if customer not provide this bean. * @return RestOperations bean / @Bean @ConditionalOnMissingBean(RestOperations.class) public RestOperations aadAuthRestOperations(RestTemplateBuilder builder) { return builder.build(); } /* * {@link FormHttpMessageConverter} is necessary for kinds of {@link OAuth2AccessTokenResponseClient} * implementations(like {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return FormHttpMessageConverter bean / @Bean @ConditionalOnMissingBean /* * {@link OAuth2AccessTokenResponseHttpMessageConverter} is necessary for kinds of * {@link OAuth2AccessTokenResponseClient} implementations(like * {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return OAuth2AccessTokenResponseHttpMessageConverter bean */ @Bean @ConditionalOnMissingBean public OAuth2AccessTokenResponseHttpMessageConverter oAuth2AccessTokenResponseHttpMessageConverter() { return new OAuth2AccessTokenResponseHttpMessageConverter(); } }	class AadRestOperationConfiguration { /** * Declare {@link RestOperations} bean which will be used when send http request to Azure AD and Azure AD B2C. * <br/> * For example: * <ul> * <li> In {@link ResourceRetriever} declared in {@link AadAuthenticationFilterAutoConfiguration}. * <li> In kinds of {@link OAuth2AccessTokenResponseClient} bean(like * {@link DefaultAuthorizationCodeTokenResponseClient}) declared in {@link AadOAuth2ClientConfiguration} and * {@link AadB2cOAuth2ClientConfiguration}. * <li> In {@link JwtDecoder} declared in {@link AadResourceServerConfiguration} and * {@link AadB2cResourceServerAutoConfiguration} * </ul> * * @param builder The RestTemplateBuilder bean, which can be provided in {@link RestTemplateAutoConfiguration} * if customer not provide this bean. * @return RestOperations bean / @Bean @ConditionalOnMissingBean(RestOperations.class) public RestOperations aadAuthRestOperations(RestTemplateBuilder builder) { return builder.build(); } /* * {@link FormHttpMessageConverter} is necessary for kinds of {@link OAuth2AccessTokenResponseClient} * implementations(like {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return FormHttpMessageConverter bean / @Bean @ConditionalOnMissingBean /* * {@link OAuth2AccessTokenResponseHttpMessageConverter} is necessary for kinds of * {@link OAuth2AccessTokenResponseClient} implementations(like * {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return OAuth2AccessTokenResponseHttpMessageConverter bean */ @Bean @ConditionalOnMissingBean public OAuth2AccessTokenResponseHttpMessageConverter oAuth2AccessTokenResponseHttpMessageConverter() { return new OAuth2AccessTokenResponseHttpMessageConverter(); } }
In http request. For example: https://docs.microsoft.com/en-us/azure/active-directory/develop/v2-oauth2-auth-code-flow#request-an-access-token-with-a-client_secret ![image](https://user-images.githubusercontent.com/13167207/188099335-a8f9bb49-8f5c-4cd5-ba1c-6128908cbc71.png)	FormHttpMessageConverter formHttpMessageConverter() { return new FormHttpMessageConverter(); }	return new FormHttpMessageConverter();	FormHttpMessageConverter formHttpMessageConverter() { return new FormHttpMessageConverter(); }	class AadRestOperationConfiguration { /** * Declare {@link RestOperations} bean which will be used when send http request to Azure AD and Azure AD B2C. * <br/> * For example: * <ul> * <li> In {@link ResourceRetriever} declared in {@link AadAuthenticationFilterAutoConfiguration}. * <li> In kinds of {@link OAuth2AccessTokenResponseClient} bean(like * {@link DefaultAuthorizationCodeTokenResponseClient}) declared in {@link AadOAuth2ClientConfiguration} and * {@link AadB2cOAuth2ClientConfiguration}. * <li> In {@link JwtDecoder} declared in {@link AadResourceServerConfiguration} and * {@link AadB2cResourceServerAutoConfiguration} * </ul> * * @param builder The RestTemplateBuilder bean, which can be provided in {@link RestTemplateAutoConfiguration} * if customer not provide this bean. * @return RestOperations bean / @Bean @ConditionalOnMissingBean(RestOperations.class) public RestOperations aadAuthRestOperations(RestTemplateBuilder builder) { return builder.build(); } /* * {@link FormHttpMessageConverter} is necessary for kinds of {@link OAuth2AccessTokenResponseClient} * implementations(like {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return FormHttpMessageConverter bean / @Bean @ConditionalOnMissingBean /* * {@link OAuth2AccessTokenResponseHttpMessageConverter} is necessary for kinds of * {@link OAuth2AccessTokenResponseClient} implementations(like * {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return OAuth2AccessTokenResponseHttpMessageConverter bean */ @Bean @ConditionalOnMissingBean public OAuth2AccessTokenResponseHttpMessageConverter oAuth2AccessTokenResponseHttpMessageConverter() { return new OAuth2AccessTokenResponseHttpMessageConverter(); } }	class AadRestOperationConfiguration { /** * Declare {@link RestOperations} bean which will be used when send http request to Azure AD and Azure AD B2C. * <br/> * For example: * <ul> * <li> In {@link ResourceRetriever} declared in {@link AadAuthenticationFilterAutoConfiguration}. * <li> In kinds of {@link OAuth2AccessTokenResponseClient} bean(like * {@link DefaultAuthorizationCodeTokenResponseClient}) declared in {@link AadOAuth2ClientConfiguration} and * {@link AadB2cOAuth2ClientConfiguration}. * <li> In {@link JwtDecoder} declared in {@link AadResourceServerConfiguration} and * {@link AadB2cResourceServerAutoConfiguration} * </ul> * * @param builder The RestTemplateBuilder bean, which can be provided in {@link RestTemplateAutoConfiguration} * if customer not provide this bean. * @return RestOperations bean / @Bean @ConditionalOnMissingBean(RestOperations.class) public RestOperations aadAuthRestOperations(RestTemplateBuilder builder) { return builder.build(); } /* * {@link FormHttpMessageConverter} is necessary for kinds of {@link OAuth2AccessTokenResponseClient} * implementations(like {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return FormHttpMessageConverter bean / @Bean @ConditionalOnMissingBean /* * {@link OAuth2AccessTokenResponseHttpMessageConverter} is necessary for kinds of * {@link OAuth2AccessTokenResponseClient} implementations(like * {@link DefaultAuthorizationCodeTokenResponseClient}). This bean will be used in * {@link HttpMessageConvertersAutoConfiguration}. * @return OAuth2AccessTokenResponseHttpMessageConverter bean */ @Bean @ConditionalOnMissingBean public OAuth2AccessTokenResponseHttpMessageConverter oAuth2AccessTokenResponseHttpMessageConverter() { return new OAuth2AccessTokenResponseHttpMessageConverter(); } }
nit: finalSyncPollResponse.	public PollResponse<T> waitForCompletion() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalAsyncPollResponse = pollingLoopSync(context); PollResponse<T> response = toPollResponse(finalAsyncPollResponse); this.terminalPollContext = context; return response; } }	PollResponse<T> response = toPollResponse(finalAsyncPollResponse);	public PollResponse<T> waitForCompletion() { return waitForCompletionHelper(null); }	class SimpleSyncPoller<T, U> implements SyncPoller<T, U> { private static final ClientLogger LOGGER = new ClientLogger(SimpleSyncPoller.class); private final Function<PollingContext<T>, PollResponse<T>> pollOperation; private final BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation; private final Function<PollingContext<T>, U> fetchResultOperation; private final PollResponse<T> activationResponse; private final PollingContext<T> pollingContext = new PollingContext<>(); private volatile PollingContext<T> terminalPollContext; private volatile Duration pollInterval; /** * Creates SimpleSyncPoller. * * @param pollInterval the polling interval. * @param syncActivationOperation the operation to synchronously activate (start) the long running operation, * this operation will be called with a new {@link PollingContext}. * @param pollOperation the operation to poll the current state of long running operation, this parameter * is required and the operation will be called with current {@link PollingContext}. * @param cancelOperation a {@link Function} that represents the operation to cancel the long running operation * if service supports cancellation, this parameter is required and if service does not support cancellation * then the implementer should return Mono.error with an error message indicating absence of cancellation * support, the operation will be called with current {@link PollingContext}. * @param fetchResultOperation a {@link Function} that represents the operation to retrieve final result of * the long running operation if service support it, this parameter is required and operation will be called * current {@link PollingContext}, if service does not have an api to fetch final result and if final result * is same as final poll response value then implementer can choose to simply return value from provided * final poll response. / public SimpleSyncPoller(Duration pollInterval, Function<PollingContext<T>, PollResponse<T>> syncActivationOperation, Function<PollingContext<T>, PollResponse<T>> pollOperation, BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation, Function<PollingContext<T>, U> fetchResultOperation) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'defaultPollInterval' is not allowed.")); } this.pollInterval = pollInterval; Objects.requireNonNull(syncActivationOperation, "'syncActivationOperation' cannot be null."); this.pollOperation = Objects.requireNonNull(pollOperation, "'pollOperation' cannot be null."); this.cancelOperation = Objects.requireNonNull(cancelOperation, "'cancelOperation' cannot be null."); this.fetchResultOperation = Objects.requireNonNull(fetchResultOperation, "'fetchResultOperation' cannot be null."); this.activationResponse = syncActivationOperation.apply(this.pollingContext); this.pollingContext.setOnetimeActivationResponse(this.activationResponse); this.pollingContext.setLatestResponse(this.activationResponse); if (this.activationResponse.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext; } } @Override public synchronized PollResponse<T> poll() { PollResponse<T> response = this.pollOperation .apply(this.pollingContext); this.pollingContext.setLatestResponse(response); if (response.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext.copy(); } return response; } @Override @Override public PollResponse<T> waitForCompletion(Duration timeout) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalSyncPollResponse = pollingLoopSync(context, timeout); PollResponse<T> response = toPollResponse(finalSyncPollResponse); this.terminalPollContext = context; return response; } } @Override public PollResponse<T> waitUntil(LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> syncPollResponse = pollingLoopSync(context, statusToWaitFor); if (!syncPollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } PollResponse<T> response = toPollResponse(syncPollResponse); if (response.getStatus().isComplete()) { this.terminalPollContext = context; } return response; } } @Override public PollResponse<T> waitUntil(Duration timeout, LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> syncPollResponse = pollingLoopSync(context, timeout, statusToWaitFor); if (!syncPollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } PollResponse<T> response = toPollResponse(syncPollResponse); if (response.getStatus().isComplete()) { this.terminalPollContext = context; } return response; } } @Override public U getFinalResult() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return this.fetchResultOperation .apply(currentTerminalPollContext); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalAsyncPollResponse = pollingLoopSync(context); this.terminalPollContext = context; return finalAsyncPollResponse.getFinalResult(); } } @Override public void cancelOperation() { PollingContext<T> context1 = this.pollingContext.copy(); if (context1.getActivationResponse() == context1.getLatestResponse()) { this.cancelOperation.apply(context1, context1.getActivationResponse()); } else { try { this.cancelOperation.apply(null, this.activationResponse); } catch (PollContextRequiredException crp) { PollingContext<T> context2 = this.pollingContext.copy(); pollingLoopSync(context2); this.cancelOperation .apply(context2, this.activationResponse); } } } @Override public SyncPoller<T, U> setPollInterval(Duration pollInterval) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'pollInterval' is not allowed.")); } this.pollInterval = pollInterval; return this; } private static <T, U> PollResponse<T> toPollResponse(SyncPollResponse<T, U> syncPollResponse) { return new PollResponse<>(syncPollResponse.getStatus(), syncPollResponse.getValue(), syncPollResponse.getRetryAfter()); } private boolean matchStatus(AsyncPollResponse<T, U> currentPollResponse, LongRunningOperationStatus statusToWaitFor) { if (currentPollResponse == null \|\| statusToWaitFor == null) { return false; } if (statusToWaitFor == currentPollResponse.getStatus()) { return true; } return false; } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext) { return this.pollingLoopSync(pollingContext, Optional.empty(), Optional.empty()); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, LongRunningOperationStatus statusToWaitFor) { return this.pollingLoopSync(pollingContext, Optional.empty(), Optional.of(statusToWaitFor)); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Duration timeout, LongRunningOperationStatus statusToWaitFor) { return this.pollingLoopSync(pollingContext, Optional.of(timeout), Optional.of(statusToWaitFor)); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Duration timeout) { return this.pollingLoopSync(pollingContext, Optional.of(timeout), Optional.empty()); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Optional<Duration> timeout, Optional<LongRunningOperationStatus> statusToWaitFor) { boolean timeBound = timeout.isPresent(); long startTime = System.currentTimeMillis(); PollResponse<T> pollResponse = pollOperation.apply(pollingContext); pollingContext.setLatestResponse(pollResponse); SyncPollResponse<T, U> intermediatePollResponse = new SyncPollResponse<>(pollingContext, this.cancelOperation, this.fetchResultOperation); while (!pollResponse.getStatus().isComplete() && (timeBound ? (System.currentTimeMillis() - startTime) < timeout.get().toMillis() : true)) { try { if (statusToWaitFor.isPresent() && pollResponse.getStatus().equals(statusToWaitFor.get())) { return intermediatePollResponse; } Thread.sleep(getDelay(pollResponse).toMillis()); pollResponse = pollOperation.apply(pollingContext); pollingContext.setLatestResponse(pollResponse); intermediatePollResponse = new SyncPollResponse<>(pollingContext, this.cancelOperation, this.fetchResultOperation); } catch (InterruptedException ex) { throw LOGGER.logExceptionAsError(Exceptions.propagate(ex)); } } return intermediatePollResponse; } /* * Get the duration to wait before making next poll attempt. * * @param pollResponse the poll response to retrieve delay duration from * @return the delay */ private Duration getDelay(PollResponse<T> pollResponse) { Duration retryAfter = pollResponse.getRetryAfter(); if (retryAfter == null) { return this.pollInterval; } else { return retryAfter.compareTo(Duration.ZERO) > 0 ? retryAfter : this.pollInterval; } } }	class SimpleSyncPoller<T, U> implements SyncPoller<T, U> { private static final ClientLogger LOGGER = new ClientLogger(SimpleSyncPoller.class); private final Function<PollingContext<T>, PollResponse<T>> pollOperation; private final BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation; private final Function<PollingContext<T>, U> fetchResultOperation; private final PollResponse<T> activationResponse; private final PollingContext<T> pollingContext = new PollingContext<>(); private volatile PollingContext<T> terminalPollContext; private volatile Duration pollInterval; /** * Creates SimpleSyncPoller. * * @param pollInterval the polling interval. * @param syncActivationOperation the operation to synchronously activate (start) the long running operation, * this operation will be called with a new {@link PollingContext}. * @param pollOperation the operation to poll the current state of long running operation, this parameter * is required and the operation will be called with current {@link PollingContext}. * @param cancelOperation a {@link Function} that represents the operation to cancel the long running operation * if service supports cancellation, this parameter is required and if service does not support cancellation * then the implementer should return Mono.error with an error message indicating absence of cancellation * support, the operation will be called with current {@link PollingContext}. * @param fetchResultOperation a {@link Function} that represents the operation to retrieve final result of * the long running operation if service support it, this parameter is required and operation will be called * current {@link PollingContext}, if service does not have an api to fetch final result and if final result * is same as final poll response value then implementer can choose to simply return value from provided * final poll response. */ SimpleSyncPoller(Duration pollInterval, Function<PollingContext<T>, PollResponse<T>> syncActivationOperation, Function<PollingContext<T>, PollResponse<T>> pollOperation, BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation, Function<PollingContext<T>, U> fetchResultOperation) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'defaultPollInterval' is not allowed.")); } this.pollInterval = pollInterval; Objects.requireNonNull(syncActivationOperation, "'syncActivationOperation' cannot be null."); this.pollOperation = Objects.requireNonNull(pollOperation, "'pollOperation' cannot be null."); this.cancelOperation = Objects.requireNonNull(cancelOperation, "'cancelOperation' cannot be null."); this.fetchResultOperation = Objects.requireNonNull(fetchResultOperation, "'fetchResultOperation' cannot be null."); this.activationResponse = syncActivationOperation.apply(this.pollingContext); this.pollingContext.setOnetimeActivationResponse(this.activationResponse); this.pollingContext.setLatestResponse(this.activationResponse); if (this.activationResponse.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext; } } @Override public synchronized PollResponse<T> poll() { PollResponse<T> response = this.pollOperation .apply(this.pollingContext); this.pollingContext.setLatestResponse(response); if (response.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext.copy(); } return response; } @Override @Override public PollResponse<T> waitForCompletion(Duration timeout) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } return waitForCompletionHelper(timeout); } @Override public PollResponse<T> waitUntil(LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); return waitUntilHelper(null, statusToWaitFor); } @Override public PollResponse<T> waitUntil(Duration timeout, LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); return waitUntilHelper(timeout, statusToWaitFor); } private PollResponse<T> waitUntilHelper(Duration timeout, LongRunningOperationStatus statusToWaitFor) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); PollResponse<T> pollResponse = PollingUtil.pollingLoop(pollingContext, timeout, statusToWaitFor, pollOperation, pollInterval); if (!pollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } if (pollResponse.getStatus().isComplete()) { this.terminalPollContext = context; } return pollResponse; } } private PollResponse<T> waitForCompletionHelper(Duration timeout) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); PollResponse<T> pollResponse = PollingUtil.pollingLoop(pollingContext, timeout, null, pollOperation, pollInterval); this.terminalPollContext = context; return pollResponse; } } @Override public U getFinalResult() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return this.fetchResultOperation .apply(currentTerminalPollContext); } else { PollingContext<T> context = this.pollingContext.copy(); PollingUtil.pollingLoop(pollingContext, null, null, pollOperation, pollInterval); this.terminalPollContext = context; return getFinalResult(); } } @Override public void cancelOperation() { PollingContext<T> context1 = this.pollingContext.copy(); if (context1.getActivationResponse() == context1.getLatestResponse()) { this.cancelOperation.apply(context1, context1.getActivationResponse()); } else { try { this.cancelOperation.apply(null, this.activationResponse); } catch (PollContextRequiredException crp) { PollingContext<T> context2 = this.pollingContext.copy(); PollingUtil.pollingLoop(pollingContext, null, null, pollOperation, pollInterval); this.cancelOperation .apply(context2, this.activationResponse); } } } @Override public SyncPoller<T, U> setPollInterval(Duration pollInterval) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'pollInterval' is not allowed.")); } this.pollInterval = pollInterval; return this; } }
Why are we setting a default page size here? Shouldn't this be handled by the creator of this type?	public ContinuablePagedIterable(ContinuablePagedFlux<C, T, P> pagedFlux, int batchSize) { super(pagedFlux); this.pagedFlux = pagedFlux; this.batchSize = batchSize; this.defaultPageSize = 1; this.continuationPredicate = null; this.syncPageRetrieverProvider = null; }	this.defaultPageSize = 1;	public ContinuablePagedIterable(ContinuablePagedFlux<C, T, P> pagedFlux, int batchSize) { super(pagedFlux); this.pagedFlux = pagedFlux; this.batchSize = batchSize; this.defaultPageSize = null; this.continuationPredicate = null; this.pageRetrieverSyncProvider = null; }	class ContinuablePagedIterable<C, T, P extends ContinuablePage<C, T>> extends IterableStream<T> { private static final ClientLogger LOGGER = new ClientLogger(ContinuablePagedIterable.class); private final ContinuablePagedFlux<C, T, P> pagedFlux; private final int batchSize; private final Supplier<SyncPageRetriever<C, P>> syncPageRetrieverProvider; final Integer defaultPageSize; private final Predicate<C> continuationPredicate; /** * Creates instance with the given {@link ContinuablePagedFlux}. * * @param pagedFlux the paged flux use as iterable / public ContinuablePagedIterable(ContinuablePagedFlux<C, T, P> pagedFlux) { this(pagedFlux, 1); } /* * Creates instance with the given {@link ContinuablePagedFlux}. * * @param pagedFlux the paged flux use as iterable * @param batchSize the bounded capacity to prefetch from the {@link ContinuablePagedFlux} / /* * Creates instance with the given {@link SyncPageRetriever provider}. * * @param syncPageRetrieverProvider A provider that returns {@link SyncPageRetriever}. * @param pageSize The preferred page size. * @param continuationPredicate A predicate which determines if paging should continue. * @throws NullPointerException If {@code syncPageRetrieverProvider} is null. * @throws IllegalArgumentException If {@code pageSize} is not null and is less than or equal to zero. / public ContinuablePagedIterable(Supplier<SyncPageRetriever<C, P>> syncPageRetrieverProvider, Integer pageSize, Predicate<C> continuationPredicate) { super(new ContinuablePagedByItemIterable<>(syncPageRetrieverProvider.get(), null, continuationPredicate, pageSize)); this.syncPageRetrieverProvider = Objects.requireNonNull(syncPageRetrieverProvider, "'syncPageRetrieverProvider' function cannot be null."); if (pageSize != null && pageSize <= 0) { throw LOGGER.logExceptionAsError( new IllegalArgumentException("'pageSize' must be greater than 0 required but provided: " + pageSize)); } this.continuationPredicate = continuationPredicate; this.defaultPageSize = pageSize; this.pagedFlux = null; this.batchSize = 1; } @Override public Stream<T> stream() { return StreamSupport.stream(iterableByItemInternal().spliterator(), false); } /* * Retrieve the {@link Stream}, one page at a time. It will provide same {@link Stream} of T values from starting if * called multiple times. * * @return {@link Stream} of a pages / public Stream<P> streamByPage() { return streamByPageInternal(null, null, () -> this.pagedFlux.byPage().toStream(batchSize)); } /* * Retrieve the {@link Stream}, one page at a time, starting from the next page associated with the given * continuation token. To start from first page, use {@link * * @param continuationToken The continuation token used to fetch the next page * @return {@link Stream} of a pages / public Stream<P> streamByPage(C continuationToken) { return streamByPageInternal(continuationToken, null, () -> this.pagedFlux.byPage(continuationToken).toStream(batchSize)); } /* * Retrieve the {@link Stream}, one page at a time, with each page containing {@code preferredPageSize} items. * * It will provide same {@link Stream} of T values from starting if called multiple times. * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @return {@link Stream} of a pages / public Stream<P> streamByPage(int preferredPageSize) { return streamByPageInternal(null, preferredPageSize, () -> this.pagedFlux.byPage(preferredPageSize).toStream(batchSize)); } /* * Retrieve the {@link Stream}, one page at a time, with each page containing {@code preferredPageSize} items, * starting from the next page associated with the given continuation token. To start from first page, use {@link * * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @param continuationToken The continuation token used to fetch the next page * @return {@link Stream} of a pages / public Stream<P> streamByPage(C continuationToken, int preferredPageSize) { return streamByPageInternal(continuationToken, preferredPageSize, () -> this.pagedFlux.byPage(continuationToken, preferredPageSize).toStream(batchSize)); } @Override public Iterator<T> iterator() { return iterableByItemInternal().iterator(); } /* * Retrieve the {@link Iterable}, one page at a time. It will provide same {@link Iterable} of T values from * starting if called multiple times. * * @return {@link Stream} of a pages / public Iterable<P> iterableByPage() { return iterableByPageInternal(null, null, () -> this.pagedFlux.byPage().toIterable(batchSize)); } /* * Retrieve the {@link Iterable}, one page at a time, starting from the next page associated with the given * continuation token. To start from first page, use {@link * * @param continuationToken The continuation token used to fetch the next page * @return {@link Iterable} of a pages / public Iterable<P> iterableByPage(C continuationToken) { return iterableByPageInternal(continuationToken, null, () -> this.pagedFlux.byPage(continuationToken).toIterable(batchSize)); } /* * Retrieve the {@link Iterable}, one page at a time, with each page containing {@code preferredPageSize} items. * * It will provide same {@link Iterable} of T values from starting if called multiple times. * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @return {@link Iterable} of a pages / public Iterable<P> iterableByPage(int preferredPageSize) { return iterableByPageInternal(null, preferredPageSize, () -> this.pagedFlux.byPage(preferredPageSize).toIterable(batchSize)); } /* * Retrieve the {@link Iterable}, one page at a time, with each page containing {@code preferredPageSize} items, * starting from the next page associated with the given continuation token. To start from first page, use {@link * * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @param continuationToken The continuation token used to fetch the next page * @return {@link Iterable} of a pages */ public Iterable<P> iterableByPage(C continuationToken, int preferredPageSize) { return iterableByPageInternal(continuationToken, preferredPageSize, () -> this.pagedFlux.byPage(continuationToken, preferredPageSize).toIterable(batchSize)); } private Stream<P> streamByPageInternal(C continuationToken, Integer preferredPageSize, Supplier<Stream<P>> nonPagedFluxCoreIterableSupplier) { if (pagedFlux == null) { return StreamSupport.stream(iterableByPageInternal(continuationToken, preferredPageSize, null) .spliterator(), false); } if (pagedFlux instanceof ContinuablePagedFluxCore) { return StreamSupport.stream(iterableByPageInternal(continuationToken, preferredPageSize, null) .spliterator(), false); } else { return nonPagedFluxCoreIterableSupplier.get(); } } private Iterable<P> iterableByPageInternal(C continuationToken, Integer preferredPageSize, Supplier<Iterable<P>> nonPagedFluxCoreIterableSupplier) { if (pagedFlux == null) { return new ContinuablePagedByPageIterable<>(syncPageRetrieverProvider.get(), continuationToken, this.continuationPredicate, preferredPageSize); } if (pagedFlux instanceof ContinuablePagedFluxCore) { ContinuablePagedFluxCore<C, T, P> pagedFluxCore = (ContinuablePagedFluxCore<C, T, P>) pagedFlux; return new ContinuablePagedByPageIterable<>(pagedFluxCore.pageRetrieverProvider.get(), continuationToken, pagedFluxCore.getContinuationPredicate(), preferredPageSize); } else { return nonPagedFluxCoreIterableSupplier.get(); } } private Iterable<T> iterableByItemInternal() { if (pagedFlux == null) { return new ContinuablePagedByItemIterable<>(this.syncPageRetrieverProvider.get(), null, this.continuationPredicate, null); } if (pagedFlux instanceof ContinuablePagedFluxCore) { ContinuablePagedFluxCore<C, T, P> pagedFluxCore = (ContinuablePagedFluxCore<C, T, P>) pagedFlux; return new ContinuablePagedByItemIterable<>(pagedFluxCore.pageRetrieverProvider.get(), null, pagedFluxCore.getContinuationPredicate(), null); } else { return this.pagedFlux.toIterable(this.batchSize); } } }	class ContinuablePagedIterable<C, T, P extends ContinuablePage<C, T>> extends IterableStream<T> { private static final ClientLogger LOGGER = new ClientLogger(ContinuablePagedIterable.class); private final ContinuablePagedFlux<C, T, P> pagedFlux; private final int batchSize; private final Supplier<PageRetrieverSync<C, P>> pageRetrieverSyncProvider; final Integer defaultPageSize; private final Predicate<C> continuationPredicate; /** * Creates instance with the given {@link ContinuablePagedFlux}. * * @param pagedFlux the paged flux use as iterable / public ContinuablePagedIterable(ContinuablePagedFlux<C, T, P> pagedFlux) { this(pagedFlux, 1); } /* * Creates instance with the given {@link ContinuablePagedFlux}. * * @param pagedFlux the paged flux use as iterable * @param batchSize the bounded capacity to prefetch from the {@link ContinuablePagedFlux} / /* * Creates instance with the given {@link PageRetrieverSync provider}. * * @param pageRetrieverSyncProvider A provider that returns {@link PageRetrieverSync}. * @param pageSize The preferred page size. * @param continuationPredicate A predicate which determines if paging should continue. * @throws NullPointerException If {@code pageRetrieverSyncProvider} is null. * @throws IllegalArgumentException If {@code pageSize} is not null and is less than or equal to zero. / public ContinuablePagedIterable(Supplier<PageRetrieverSync<C, P>> pageRetrieverSyncProvider, Integer pageSize, Predicate<C> continuationPredicate) { super(new ContinuablePagedByItemIterable<>(pageRetrieverSyncProvider.get(), null, continuationPredicate, pageSize)); this.pageRetrieverSyncProvider = Objects.requireNonNull(pageRetrieverSyncProvider, "'pageRetrieverSyncProvider' function cannot be null."); if (pageSize != null && pageSize <= 0) { throw LOGGER.logExceptionAsError( new IllegalArgumentException("'pageSize' must be greater than 0 required but provided: " + pageSize)); } this.continuationPredicate = (continuationPredicate == null) ? Objects::nonNull : continuationPredicate; this.defaultPageSize = pageSize; this.batchSize = 1; this.pagedFlux = null; } @Override public Stream<T> stream() { return StreamSupport.stream(iterableByItemInternal().spliterator(), false); } /* * Retrieve the {@link Stream}, one page at a time. It will provide same {@link Stream} of T values from starting if * called multiple times. * * @return {@link Stream} of a pages / public Stream<P> streamByPage() { return streamByPageInternal(null, null, () -> this.pagedFlux.byPage().toStream(batchSize)); } /* * Retrieve the {@link Stream}, one page at a time, starting from the next page associated with the given * continuation token. To start from first page, use {@link * * @param continuationToken The continuation token used to fetch the next page * @return {@link Stream} of a pages / public Stream<P> streamByPage(C continuationToken) { return streamByPageInternal(continuationToken, null, () -> this.pagedFlux.byPage(continuationToken).toStream(batchSize)); } /* * Retrieve the {@link Stream}, one page at a time, with each page containing {@code preferredPageSize} items. * * It will provide same {@link Stream} of T values from starting if called multiple times. * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @return {@link Stream} of a pages / public Stream<P> streamByPage(int preferredPageSize) { return streamByPageInternal(null, preferredPageSize, () -> this.pagedFlux.byPage(preferredPageSize).toStream(batchSize)); } /* * Retrieve the {@link Stream}, one page at a time, with each page containing {@code preferredPageSize} items, * starting from the next page associated with the given continuation token. To start from first page, use {@link * * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @param continuationToken The continuation token used to fetch the next page * @return {@link Stream} of a pages / public Stream<P> streamByPage(C continuationToken, int preferredPageSize) { return streamByPageInternal(continuationToken, preferredPageSize, () -> this.pagedFlux.byPage(continuationToken, preferredPageSize).toStream(batchSize)); } @Override public Iterator<T> iterator() { return iterableByItemInternal().iterator(); } /* * Retrieve the {@link Iterable}, one page at a time. It will provide same {@link Iterable} of T values from * starting if called multiple times. * * @return {@link Stream} of a pages / public Iterable<P> iterableByPage() { return iterableByPageInternal(null, null, () -> this.pagedFlux.byPage().toIterable(batchSize)); } /* * Retrieve the {@link Iterable}, one page at a time, starting from the next page associated with the given * continuation token. To start from first page, use {@link * * @param continuationToken The continuation token used to fetch the next page * @return {@link Iterable} of a pages / public Iterable<P> iterableByPage(C continuationToken) { return iterableByPageInternal(continuationToken, null, () -> this.pagedFlux.byPage(continuationToken).toIterable(batchSize)); } /* * Retrieve the {@link Iterable}, one page at a time, with each page containing {@code preferredPageSize} items. * * It will provide same {@link Iterable} of T values from starting if called multiple times. * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @return {@link Iterable} of a pages / public Iterable<P> iterableByPage(int preferredPageSize) { return iterableByPageInternal(null, preferredPageSize, () -> this.pagedFlux.byPage(preferredPageSize).toIterable(batchSize)); } /* * Retrieve the {@link Iterable}, one page at a time, with each page containing {@code preferredPageSize} items, * starting from the next page associated with the given continuation token. To start from first page, use {@link * * * @param preferredPageSize the preferred page size, service may or may not honor the page size preference hence * client MUST be prepared to handle pages with different page size. * @param continuationToken The continuation token used to fetch the next page * @return {@link Iterable} of a pages */ public Iterable<P> iterableByPage(C continuationToken, int preferredPageSize) { return iterableByPageInternal(continuationToken, preferredPageSize, () -> this.pagedFlux.byPage(continuationToken, preferredPageSize).toIterable(batchSize)); } private Stream<P> streamByPageInternal(C continuationToken, Integer preferredPageSize, Supplier<Stream<P>> nonPagedFluxCoreIterableSupplier) { if (pagedFlux == null) { return StreamSupport.stream(iterableByPageInternal(continuationToken, preferredPageSize, null) .spliterator(), false); } if (pagedFlux instanceof ContinuablePagedFluxCore) { return StreamSupport.stream(iterableByPageInternal(continuationToken, preferredPageSize, null) .spliterator(), false); } else { return nonPagedFluxCoreIterableSupplier.get(); } } private Iterable<P> iterableByPageInternal(C continuationToken, Integer preferredPageSize, Supplier<Iterable<P>> nonPagedFluxCoreIterableSupplier) { if (pagedFlux == null) { return new ContinuablePagedByPageIterable<>(pageRetrieverSyncProvider.get(), continuationToken, this.continuationPredicate, preferredPageSize); } if (pagedFlux instanceof ContinuablePagedFluxCore) { ContinuablePagedFluxCore<C, T, P> pagedFluxCore = (ContinuablePagedFluxCore<C, T, P>) pagedFlux; return new ContinuablePagedByPageIterable<>(pagedFluxCore.pageRetrieverProvider.get(), continuationToken, pagedFluxCore.getContinuationPredicate(), preferredPageSize); } else { return nonPagedFluxCoreIterableSupplier.get(); } } private Iterable<T> iterableByItemInternal() { if (pagedFlux == null) { return new ContinuablePagedByItemIterable<>(this.pageRetrieverSyncProvider.get(), null, this.continuationPredicate, null); } if (pagedFlux instanceof ContinuablePagedFluxCore) { ContinuablePagedFluxCore<C, T, P> pagedFluxCore = (ContinuablePagedFluxCore<C, T, P>) pagedFlux; return new ContinuablePagedByItemIterable<>(pagedFluxCore.pageRetrieverProvider.get(), null, pagedFluxCore.getContinuationPredicate(), null); } else { return this.pagedFlux.toIterable(this.batchSize); } } }
nit: finalSyncPollResponse.	public U getFinalResult() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return this.fetchResultOperation .apply(currentTerminalPollContext); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalAsyncPollResponse = pollingLoopSync(context); this.terminalPollContext = context; return finalAsyncPollResponse.getFinalResult(); } }	SyncPollResponse<T, U> finalAsyncPollResponse = pollingLoopSync(context);	public U getFinalResult() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return this.fetchResultOperation .apply(currentTerminalPollContext); } else { PollingContext<T> context = this.pollingContext.copy(); PollingUtil.pollingLoop(pollingContext, null, null, pollOperation, pollInterval); this.terminalPollContext = context; return getFinalResult(); } }	class SimpleSyncPoller<T, U> implements SyncPoller<T, U> { private static final ClientLogger LOGGER = new ClientLogger(SimpleSyncPoller.class); private final Function<PollingContext<T>, PollResponse<T>> pollOperation; private final BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation; private final Function<PollingContext<T>, U> fetchResultOperation; private final PollResponse<T> activationResponse; private final PollingContext<T> pollingContext = new PollingContext<>(); private volatile PollingContext<T> terminalPollContext; private volatile Duration pollInterval; /** * Creates SimpleSyncPoller. * * @param pollInterval the polling interval. * @param syncActivationOperation the operation to synchronously activate (start) the long running operation, * this operation will be called with a new {@link PollingContext}. * @param pollOperation the operation to poll the current state of long running operation, this parameter * is required and the operation will be called with current {@link PollingContext}. * @param cancelOperation a {@link Function} that represents the operation to cancel the long running operation * if service supports cancellation, this parameter is required and if service does not support cancellation * then the implementer should return Mono.error with an error message indicating absence of cancellation * support, the operation will be called with current {@link PollingContext}. * @param fetchResultOperation a {@link Function} that represents the operation to retrieve final result of * the long running operation if service support it, this parameter is required and operation will be called * current {@link PollingContext}, if service does not have an api to fetch final result and if final result * is same as final poll response value then implementer can choose to simply return value from provided * final poll response. / public SimpleSyncPoller(Duration pollInterval, Function<PollingContext<T>, PollResponse<T>> syncActivationOperation, Function<PollingContext<T>, PollResponse<T>> pollOperation, BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation, Function<PollingContext<T>, U> fetchResultOperation) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'defaultPollInterval' is not allowed.")); } this.pollInterval = pollInterval; Objects.requireNonNull(syncActivationOperation, "'syncActivationOperation' cannot be null."); this.pollOperation = Objects.requireNonNull(pollOperation, "'pollOperation' cannot be null."); this.cancelOperation = Objects.requireNonNull(cancelOperation, "'cancelOperation' cannot be null."); this.fetchResultOperation = Objects.requireNonNull(fetchResultOperation, "'fetchResultOperation' cannot be null."); this.activationResponse = syncActivationOperation.apply(this.pollingContext); this.pollingContext.setOnetimeActivationResponse(this.activationResponse); this.pollingContext.setLatestResponse(this.activationResponse); if (this.activationResponse.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext; } } @Override public synchronized PollResponse<T> poll() { PollResponse<T> response = this.pollOperation .apply(this.pollingContext); this.pollingContext.setLatestResponse(response); if (response.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext.copy(); } return response; } @Override public PollResponse<T> waitForCompletion() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalAsyncPollResponse = pollingLoopSync(context); PollResponse<T> response = toPollResponse(finalAsyncPollResponse); this.terminalPollContext = context; return response; } } @Override public PollResponse<T> waitForCompletion(Duration timeout) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalSyncPollResponse = pollingLoopSync(context, timeout); PollResponse<T> response = toPollResponse(finalSyncPollResponse); this.terminalPollContext = context; return response; } } @Override public PollResponse<T> waitUntil(LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> syncPollResponse = pollingLoopSync(context, statusToWaitFor); if (!syncPollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } PollResponse<T> response = toPollResponse(syncPollResponse); if (response.getStatus().isComplete()) { this.terminalPollContext = context; } return response; } } @Override public PollResponse<T> waitUntil(Duration timeout, LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> syncPollResponse = pollingLoopSync(context, timeout, statusToWaitFor); if (!syncPollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } PollResponse<T> response = toPollResponse(syncPollResponse); if (response.getStatus().isComplete()) { this.terminalPollContext = context; } return response; } } @Override @Override public void cancelOperation() { PollingContext<T> context1 = this.pollingContext.copy(); if (context1.getActivationResponse() == context1.getLatestResponse()) { this.cancelOperation.apply(context1, context1.getActivationResponse()); } else { try { this.cancelOperation.apply(null, this.activationResponse); } catch (PollContextRequiredException crp) { PollingContext<T> context2 = this.pollingContext.copy(); pollingLoopSync(context2); this.cancelOperation .apply(context2, this.activationResponse); } } } @Override public SyncPoller<T, U> setPollInterval(Duration pollInterval) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'pollInterval' is not allowed.")); } this.pollInterval = pollInterval; return this; } private static <T, U> PollResponse<T> toPollResponse(SyncPollResponse<T, U> syncPollResponse) { return new PollResponse<>(syncPollResponse.getStatus(), syncPollResponse.getValue(), syncPollResponse.getRetryAfter()); } private boolean matchStatus(AsyncPollResponse<T, U> currentPollResponse, LongRunningOperationStatus statusToWaitFor) { if (currentPollResponse == null \|\| statusToWaitFor == null) { return false; } if (statusToWaitFor == currentPollResponse.getStatus()) { return true; } return false; } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext) { return this.pollingLoopSync(pollingContext, Optional.empty(), Optional.empty()); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, LongRunningOperationStatus statusToWaitFor) { return this.pollingLoopSync(pollingContext, Optional.empty(), Optional.of(statusToWaitFor)); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Duration timeout, LongRunningOperationStatus statusToWaitFor) { return this.pollingLoopSync(pollingContext, Optional.of(timeout), Optional.of(statusToWaitFor)); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Duration timeout) { return this.pollingLoopSync(pollingContext, Optional.of(timeout), Optional.empty()); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Optional<Duration> timeout, Optional<LongRunningOperationStatus> statusToWaitFor) { boolean timeBound = timeout.isPresent(); long startTime = System.currentTimeMillis(); PollResponse<T> pollResponse = pollOperation.apply(pollingContext); pollingContext.setLatestResponse(pollResponse); SyncPollResponse<T, U> intermediatePollResponse = new SyncPollResponse<>(pollingContext, this.cancelOperation, this.fetchResultOperation); while (!pollResponse.getStatus().isComplete() && (timeBound ? (System.currentTimeMillis() - startTime) < timeout.get().toMillis() : true)) { try { if (statusToWaitFor.isPresent() && pollResponse.getStatus().equals(statusToWaitFor.get())) { return intermediatePollResponse; } Thread.sleep(getDelay(pollResponse).toMillis()); pollResponse = pollOperation.apply(pollingContext); pollingContext.setLatestResponse(pollResponse); intermediatePollResponse = new SyncPollResponse<>(pollingContext, this.cancelOperation, this.fetchResultOperation); } catch (InterruptedException ex) { throw LOGGER.logExceptionAsError(Exceptions.propagate(ex)); } } return intermediatePollResponse; } /* * Get the duration to wait before making next poll attempt. * * @param pollResponse the poll response to retrieve delay duration from * @return the delay */ private Duration getDelay(PollResponse<T> pollResponse) { Duration retryAfter = pollResponse.getRetryAfter(); if (retryAfter == null) { return this.pollInterval; } else { return retryAfter.compareTo(Duration.ZERO) > 0 ? retryAfter : this.pollInterval; } } }	class SimpleSyncPoller<T, U> implements SyncPoller<T, U> { private static final ClientLogger LOGGER = new ClientLogger(SimpleSyncPoller.class); private final Function<PollingContext<T>, PollResponse<T>> pollOperation; private final BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation; private final Function<PollingContext<T>, U> fetchResultOperation; private final PollResponse<T> activationResponse; private final PollingContext<T> pollingContext = new PollingContext<>(); private volatile PollingContext<T> terminalPollContext; private volatile Duration pollInterval; /** * Creates SimpleSyncPoller. * * @param pollInterval the polling interval. * @param syncActivationOperation the operation to synchronously activate (start) the long running operation, * this operation will be called with a new {@link PollingContext}. * @param pollOperation the operation to poll the current state of long running operation, this parameter * is required and the operation will be called with current {@link PollingContext}. * @param cancelOperation a {@link Function} that represents the operation to cancel the long running operation * if service supports cancellation, this parameter is required and if service does not support cancellation * then the implementer should return Mono.error with an error message indicating absence of cancellation * support, the operation will be called with current {@link PollingContext}. * @param fetchResultOperation a {@link Function} that represents the operation to retrieve final result of * the long running operation if service support it, this parameter is required and operation will be called * current {@link PollingContext}, if service does not have an api to fetch final result and if final result * is same as final poll response value then implementer can choose to simply return value from provided * final poll response. */ SimpleSyncPoller(Duration pollInterval, Function<PollingContext<T>, PollResponse<T>> syncActivationOperation, Function<PollingContext<T>, PollResponse<T>> pollOperation, BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation, Function<PollingContext<T>, U> fetchResultOperation) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'defaultPollInterval' is not allowed.")); } this.pollInterval = pollInterval; Objects.requireNonNull(syncActivationOperation, "'syncActivationOperation' cannot be null."); this.pollOperation = Objects.requireNonNull(pollOperation, "'pollOperation' cannot be null."); this.cancelOperation = Objects.requireNonNull(cancelOperation, "'cancelOperation' cannot be null."); this.fetchResultOperation = Objects.requireNonNull(fetchResultOperation, "'fetchResultOperation' cannot be null."); this.activationResponse = syncActivationOperation.apply(this.pollingContext); this.pollingContext.setOnetimeActivationResponse(this.activationResponse); this.pollingContext.setLatestResponse(this.activationResponse); if (this.activationResponse.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext; } } @Override public synchronized PollResponse<T> poll() { PollResponse<T> response = this.pollOperation .apply(this.pollingContext); this.pollingContext.setLatestResponse(response); if (response.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext.copy(); } return response; } @Override public PollResponse<T> waitForCompletion() { return waitForCompletionHelper(null); } @Override public PollResponse<T> waitForCompletion(Duration timeout) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } return waitForCompletionHelper(timeout); } @Override public PollResponse<T> waitUntil(LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); return waitUntilHelper(null, statusToWaitFor); } @Override public PollResponse<T> waitUntil(Duration timeout, LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); return waitUntilHelper(timeout, statusToWaitFor); } private PollResponse<T> waitUntilHelper(Duration timeout, LongRunningOperationStatus statusToWaitFor) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); PollResponse<T> pollResponse = PollingUtil.pollingLoop(pollingContext, timeout, statusToWaitFor, pollOperation, pollInterval); if (!pollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } if (pollResponse.getStatus().isComplete()) { this.terminalPollContext = context; } return pollResponse; } } private PollResponse<T> waitForCompletionHelper(Duration timeout) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); PollResponse<T> pollResponse = PollingUtil.pollingLoop(pollingContext, timeout, null, pollOperation, pollInterval); this.terminalPollContext = context; return pollResponse; } } @Override @Override public void cancelOperation() { PollingContext<T> context1 = this.pollingContext.copy(); if (context1.getActivationResponse() == context1.getLatestResponse()) { this.cancelOperation.apply(context1, context1.getActivationResponse()); } else { try { this.cancelOperation.apply(null, this.activationResponse); } catch (PollContextRequiredException crp) { PollingContext<T> context2 = this.pollingContext.copy(); PollingUtil.pollingLoop(pollingContext, null, null, pollOperation, pollInterval); this.cancelOperation .apply(context2, this.activationResponse); } } } @Override public SyncPoller<T, U> setPollInterval(Duration pollInterval) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'pollInterval' is not allowed.")); } this.pollInterval = pollInterval; return this; } }
The CI pipeline tests have a few failures indicating we cannot cast things like `String` to `BinaryData`, is this expected?	public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; }	request.setBody((BinaryData) (contentOptional.get()));	public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } } @SuppressWarnings("unchecked") @Override public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return; } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBodyAsBinaryData() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } } @SuppressWarnings("unchecked") @Override public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }
Should this be getBodyAsBinaryData too?	public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } }	if (request.getBody() != null) {	public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return; } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBodyAsBinaryData() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override @SuppressWarnings("unchecked") @Override public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; } public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override @SuppressWarnings("unchecked") @Override public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; } public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }
yeah	public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } }	if (request.getBody() != null) {	public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return; } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBodyAsBinaryData() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override @SuppressWarnings("unchecked") @Override public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; } public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override @SuppressWarnings("unchecked") @Override public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; } public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }
updated the tests	public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; }	request.setBody((BinaryData) (contentOptional.get()));	public boolean authorizeRequestOnChallengeSync(HttpPipelineCallContext context, HttpResponse response) { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((BinaryData) (contentOptional.get())); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return false; } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return false; } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return true; }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } } @SuppressWarnings("unchecked") @Override public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }	class KeyVaultCredentialPolicy extends BearerTokenAuthenticationPolicy { private static final String BEARER_TOKEN_PREFIX = "Bearer "; private static final String CONTENT_LENGTH_HEADER = "Content-Length"; private static final String KEY_VAULT_STASHED_CONTENT_KEY = "KeyVaultCredentialPolicyStashedBody"; private static final String KEY_VAULT_STASHED_CONTENT_LENGTH_KEY = "KeyVaultCredentialPolicyStashedContentLength"; private static final String WWW_AUTHENTICATE = "WWW-Authenticate"; private static final ConcurrentMap<String, ChallengeParameters> CHALLENGE_CACHE = new ConcurrentHashMap<>(); private ChallengeParameters challenge; /** * Creates a {@link KeyVaultCredentialPolicy}. * * @param credential The token credential to authenticate the request. / public KeyVaultCredentialPolicy(TokenCredential credential) { super(credential); } @Override public Mono<Void> authorizeRequest(HttpPipelineCallContext context) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext); } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBody() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBody()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((Flux<ByteBuffer>) null); } } return Mono.empty(); }); } @SuppressWarnings("unchecked") @Override public Mono<Boolean> authorizeRequestOnChallenge(HttpPipelineCallContext context, HttpResponse response) { return Mono.defer(() -> { HttpRequest request = context.getHttpRequest(); Optional<Object> contentOptional = context.getData(KEY_VAULT_STASHED_CONTENT_KEY); Optional<Object> contentLengthOptional = context.getData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY); if (request.getBody() == null && contentOptional.isPresent() && contentLengthOptional.isPresent()) { request.setBody((Flux<ByteBuffer>) contentOptional.get()); request.setHeader(CONTENT_LENGTH_HEADER, (String) contentLengthOptional.get()); } String authority = getRequestAuthority(request); Map<String, String> challengeAttributes = extractChallengeAttributes(response.getHeaderValue(WWW_AUTHENTICATE), BEARER_TOKEN_PREFIX); String scope = challengeAttributes.get("resource"); if (scope != null) { scope = scope + "/.default"; } else { scope = challengeAttributes.get("scope"); } if (scope == null) { this.challenge = CHALLENGE_CACHE.get(authority); if (this.challenge == null) { return Mono.just(false); } } else { String authorization = challengeAttributes.get("authorization"); if (authorization == null) { authorization = challengeAttributes.get("authorization_uri"); } final URI authorizationUri; try { authorizationUri = new URI(authorization); } catch (URISyntaxException e) { return Mono.just(false); } this.challenge = new ChallengeParameters(authorizationUri, new String[] {scope}); CHALLENGE_CACHE.put(authority, this.challenge); } TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); return setAuthorizationHeader(context, tokenRequestContext) .then(Mono.just(true)); }); } /* * Extracts attributes off the bearer challenge in the authentication header. * * @param authenticateHeader The authentication header containing the challenge. * @param authChallengePrefix The authentication challenge name. * * @return A challenge attributes map. / private static Map<String, String> extractChallengeAttributes(String authenticateHeader, String authChallengePrefix) { if (!isBearerChallenge(authenticateHeader, authChallengePrefix)) { return Collections.emptyMap(); } authenticateHeader = authenticateHeader.toLowerCase(Locale.ROOT).replace(authChallengePrefix.toLowerCase(Locale.ROOT), ""); String[] attributes = authenticateHeader.split(", "); Map<String, String> attributeMap = new HashMap<>(); for (String pair : attributes) { String[] keyValue = pair.split("="); attributeMap.put(keyValue[0].replaceAll("\"", ""), keyValue[1].replaceAll("\"", "")); } return attributeMap; } /* * Verifies whether a challenge is bearer or not. * * @param authenticateHeader The authentication header containing all the challenges. * @param authChallengePrefix The authentication challenge name. * * @return A boolean indicating if the challenge is a bearer challenge or not. / private static boolean isBearerChallenge(String authenticateHeader, String authChallengePrefix) { return (!CoreUtils.isNullOrEmpty(authenticateHeader) && authenticateHeader.toLowerCase(Locale.ROOT).startsWith(authChallengePrefix.toLowerCase(Locale.ROOT))); } @Override public void authorizeRequestSync(HttpPipelineCallContext context) { HttpRequest request = context.getHttpRequest(); if (this.challenge == null) { String authority = getRequestAuthority(request); this.challenge = CHALLENGE_CACHE.get(authority); } if (this.challenge != null) { TokenRequestContext tokenRequestContext = new TokenRequestContext() .addScopes(this.challenge.getScopes()) .setTenantId(this.challenge.getTenantId()); setAuthorizationHeaderSync(context, tokenRequestContext); return; } if (!context.getData(KEY_VAULT_STASHED_CONTENT_KEY).isPresent()) { if (request.getBodyAsBinaryData() != null) { context.setData(KEY_VAULT_STASHED_CONTENT_KEY, request.getBodyAsBinaryData()); context.setData(KEY_VAULT_STASHED_CONTENT_LENGTH_KEY, request.getHeaders().getValue(CONTENT_LENGTH_HEADER)); request.setHeader(CONTENT_LENGTH_HEADER, "0"); request.setBody((BinaryData) null); } } } @SuppressWarnings("unchecked") @Override public static void clearCache() { CHALLENGE_CACHE.clear(); } private static class ChallengeParameters { private final URI authorizationUri; private final String tenantId; private final String[] scopes; ChallengeParameters(URI authorizationUri, String[] scopes) { this.authorizationUri = authorizationUri; tenantId = authorizationUri.getPath().split("/")[1]; this.scopes = scopes; } /* * Get the {@code authorization} or {@code authorization_uri} parameter from the challenge response. / public URI getAuthorizationUri() { return authorizationUri; } /* * Get the {@code resource} or {@code scope} parameter from the challenge response. This should end with * "/.default". / public String[] getScopes() { return scopes; } /* * Get the tenant ID from {@code authorizationUri}. / public String getTenantId() { return tenantId; } } /* * Gets the host name and port of the Key Vault or Managed HSM endpoint. * * @param request The {@link HttpRequest} to extract the host name and port from. * @return The host name and port of the Key Vault or Managed HSM endpoint. */ private static String getRequestAuthority(HttpRequest request) { URL url = request.getUrl(); String authority = url.getAuthority(); int port = url.getPort(); if (!authority.contains(":") && port > 0) { authority = authority + ":" + port; } return authority; } }
nit: Since we're using an if/else, I think this can be `final`.	public ServiceBusSenderAsyncClient buildAsyncClient() { final ServiceBusConnectionProcessor connectionProcessor = getOrCreateConnectionProcessor(messageSerializer); final MessagingEntityType entityType = validateEntityPaths(connectionStringEntityName, topicName, queueName); final String entityName; switch (entityType) { case QUEUE: entityName = queueName; break; case SUBSCRIPTION: entityName = topicName; break; case UNKNOWN: entityName = connectionStringEntityName; break; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown entity type: " + entityType)); } String clientIdentifier; if (clientOptions instanceof AmqpClientOptions) { String clientOptionIdentifier = ((AmqpClientOptions) clientOptions).getIdentifier(); clientIdentifier = CoreUtils.isNullOrEmpty(clientOptionIdentifier) ? UUID.randomUUID().toString() : clientOptionIdentifier; } else { clientIdentifier = UUID.randomUUID().toString(); } return new ServiceBusSenderAsyncClient(entityName, entityType, connectionProcessor, retryOptions, tracerProvider, messageSerializer, ServiceBusClientBuilder.this::onClientClose, null, clientIdentifier); }	String clientIdentifier;	public ServiceBusSenderAsyncClient buildAsyncClient() { final ServiceBusConnectionProcessor connectionProcessor = getOrCreateConnectionProcessor(messageSerializer); final MessagingEntityType entityType = validateEntityPaths(connectionStringEntityName, topicName, queueName); final String entityName; switch (entityType) { case QUEUE: entityName = queueName; break; case SUBSCRIPTION: entityName = topicName; break; case UNKNOWN: entityName = connectionStringEntityName; break; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown entity type: " + entityType)); } final String clientIdentifier; if (clientOptions instanceof AmqpClientOptions) { String clientOptionIdentifier = ((AmqpClientOptions) clientOptions).getIdentifier(); clientIdentifier = CoreUtils.isNullOrEmpty(clientOptionIdentifier) ? UUID.randomUUID().toString() : clientOptionIdentifier; } else { clientIdentifier = UUID.randomUUID().toString(); } return new ServiceBusSenderAsyncClient(entityName, entityType, connectionProcessor, retryOptions, tracerProvider, messageSerializer, ServiceBusClientBuilder.this::onClientClose, null, clientIdentifier); }	class ServiceBusSenderClientBuilder { private String queueName; private String topicName; private ServiceBusSenderClientBuilder() { } /** * Sets the name of the Service Bus queue to publish messages to. * * @param queueName Name of the queue. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder queueName(String queueName) { this.queueName = queueName; return this; } /* * Sets the name of the Service Bus topic to publish messages to. * * @param topicName Name of the topic. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder topicName(String topicName) { this.topicName = topicName; return this; } /* * Creates an <b>asynchronous</b> {@link ServiceBusSenderAsyncClient client} for transmitting {@link * ServiceBusMessage} to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. / /* * Creates a <b>synchronous</b> {@link ServiceBusSenderClient client} for transmitting {@link ServiceBusMessage} * to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. */ public ServiceBusSenderClient buildClient() { return new ServiceBusSenderClient(buildAsyncClient(), MessageUtils.getTotalTimeout(retryOptions)); } }	class ServiceBusSenderClientBuilder { private String queueName; private String topicName; private ServiceBusSenderClientBuilder() { } /** * Sets the name of the Service Bus queue to publish messages to. * * @param queueName Name of the queue. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder queueName(String queueName) { this.queueName = queueName; return this; } /* * Sets the name of the Service Bus topic to publish messages to. * * @param topicName Name of the topic. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder topicName(String topicName) { this.topicName = topicName; return this; } /* * Creates an <b>asynchronous</b> {@link ServiceBusSenderAsyncClient client} for transmitting {@link * ServiceBusMessage} to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. / /* * Creates a <b>synchronous</b> {@link ServiceBusSenderClient client} for transmitting {@link ServiceBusMessage} * to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. */ public ServiceBusSenderClient buildClient() { return new ServiceBusSenderClient(buildAsyncClient(), MessageUtils.getTotalTimeout(retryOptions)); } }
Same with the other instance below. I like `final` because you get compiler errors if you try to reassign it to make sure there's no unintentional reassignment. Personal preference tho!	public ServiceBusSenderAsyncClient buildAsyncClient() { final ServiceBusConnectionProcessor connectionProcessor = getOrCreateConnectionProcessor(messageSerializer); final MessagingEntityType entityType = validateEntityPaths(connectionStringEntityName, topicName, queueName); final String entityName; switch (entityType) { case QUEUE: entityName = queueName; break; case SUBSCRIPTION: entityName = topicName; break; case UNKNOWN: entityName = connectionStringEntityName; break; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown entity type: " + entityType)); } String clientIdentifier; if (clientOptions instanceof AmqpClientOptions) { String clientOptionIdentifier = ((AmqpClientOptions) clientOptions).getIdentifier(); clientIdentifier = CoreUtils.isNullOrEmpty(clientOptionIdentifier) ? UUID.randomUUID().toString() : clientOptionIdentifier; } else { clientIdentifier = UUID.randomUUID().toString(); } return new ServiceBusSenderAsyncClient(entityName, entityType, connectionProcessor, retryOptions, tracerProvider, messageSerializer, ServiceBusClientBuilder.this::onClientClose, null, clientIdentifier); }	String clientIdentifier;	public ServiceBusSenderAsyncClient buildAsyncClient() { final ServiceBusConnectionProcessor connectionProcessor = getOrCreateConnectionProcessor(messageSerializer); final MessagingEntityType entityType = validateEntityPaths(connectionStringEntityName, topicName, queueName); final String entityName; switch (entityType) { case QUEUE: entityName = queueName; break; case SUBSCRIPTION: entityName = topicName; break; case UNKNOWN: entityName = connectionStringEntityName; break; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown entity type: " + entityType)); } final String clientIdentifier; if (clientOptions instanceof AmqpClientOptions) { String clientOptionIdentifier = ((AmqpClientOptions) clientOptions).getIdentifier(); clientIdentifier = CoreUtils.isNullOrEmpty(clientOptionIdentifier) ? UUID.randomUUID().toString() : clientOptionIdentifier; } else { clientIdentifier = UUID.randomUUID().toString(); } return new ServiceBusSenderAsyncClient(entityName, entityType, connectionProcessor, retryOptions, tracerProvider, messageSerializer, ServiceBusClientBuilder.this::onClientClose, null, clientIdentifier); }	class ServiceBusSenderClientBuilder { private String queueName; private String topicName; private ServiceBusSenderClientBuilder() { } /** * Sets the name of the Service Bus queue to publish messages to. * * @param queueName Name of the queue. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder queueName(String queueName) { this.queueName = queueName; return this; } /* * Sets the name of the Service Bus topic to publish messages to. * * @param topicName Name of the topic. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder topicName(String topicName) { this.topicName = topicName; return this; } /* * Creates an <b>asynchronous</b> {@link ServiceBusSenderAsyncClient client} for transmitting {@link * ServiceBusMessage} to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. / /* * Creates a <b>synchronous</b> {@link ServiceBusSenderClient client} for transmitting {@link ServiceBusMessage} * to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. */ public ServiceBusSenderClient buildClient() { return new ServiceBusSenderClient(buildAsyncClient(), MessageUtils.getTotalTimeout(retryOptions)); } }	class ServiceBusSenderClientBuilder { private String queueName; private String topicName; private ServiceBusSenderClientBuilder() { } /** * Sets the name of the Service Bus queue to publish messages to. * * @param queueName Name of the queue. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder queueName(String queueName) { this.queueName = queueName; return this; } /* * Sets the name of the Service Bus topic to publish messages to. * * @param topicName Name of the topic. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder topicName(String topicName) { this.topicName = topicName; return this; } /* * Creates an <b>asynchronous</b> {@link ServiceBusSenderAsyncClient client} for transmitting {@link * ServiceBusMessage} to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. / /* * Creates a <b>synchronous</b> {@link ServiceBusSenderClient client} for transmitting {@link ServiceBusMessage} * to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. */ public ServiceBusSenderClient buildClient() { return new ServiceBusSenderClient(buildAsyncClient(), MessageUtils.getTotalTimeout(retryOptions)); } }
Sure! will change it!	public ServiceBusSenderAsyncClient buildAsyncClient() { final ServiceBusConnectionProcessor connectionProcessor = getOrCreateConnectionProcessor(messageSerializer); final MessagingEntityType entityType = validateEntityPaths(connectionStringEntityName, topicName, queueName); final String entityName; switch (entityType) { case QUEUE: entityName = queueName; break; case SUBSCRIPTION: entityName = topicName; break; case UNKNOWN: entityName = connectionStringEntityName; break; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown entity type: " + entityType)); } String clientIdentifier; if (clientOptions instanceof AmqpClientOptions) { String clientOptionIdentifier = ((AmqpClientOptions) clientOptions).getIdentifier(); clientIdentifier = CoreUtils.isNullOrEmpty(clientOptionIdentifier) ? UUID.randomUUID().toString() : clientOptionIdentifier; } else { clientIdentifier = UUID.randomUUID().toString(); } return new ServiceBusSenderAsyncClient(entityName, entityType, connectionProcessor, retryOptions, tracerProvider, messageSerializer, ServiceBusClientBuilder.this::onClientClose, null, clientIdentifier); }	String clientIdentifier;	public ServiceBusSenderAsyncClient buildAsyncClient() { final ServiceBusConnectionProcessor connectionProcessor = getOrCreateConnectionProcessor(messageSerializer); final MessagingEntityType entityType = validateEntityPaths(connectionStringEntityName, topicName, queueName); final String entityName; switch (entityType) { case QUEUE: entityName = queueName; break; case SUBSCRIPTION: entityName = topicName; break; case UNKNOWN: entityName = connectionStringEntityName; break; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown entity type: " + entityType)); } final String clientIdentifier; if (clientOptions instanceof AmqpClientOptions) { String clientOptionIdentifier = ((AmqpClientOptions) clientOptions).getIdentifier(); clientIdentifier = CoreUtils.isNullOrEmpty(clientOptionIdentifier) ? UUID.randomUUID().toString() : clientOptionIdentifier; } else { clientIdentifier = UUID.randomUUID().toString(); } return new ServiceBusSenderAsyncClient(entityName, entityType, connectionProcessor, retryOptions, tracerProvider, messageSerializer, ServiceBusClientBuilder.this::onClientClose, null, clientIdentifier); }	class ServiceBusSenderClientBuilder { private String queueName; private String topicName; private ServiceBusSenderClientBuilder() { } /** * Sets the name of the Service Bus queue to publish messages to. * * @param queueName Name of the queue. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder queueName(String queueName) { this.queueName = queueName; return this; } /* * Sets the name of the Service Bus topic to publish messages to. * * @param topicName Name of the topic. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder topicName(String topicName) { this.topicName = topicName; return this; } /* * Creates an <b>asynchronous</b> {@link ServiceBusSenderAsyncClient client} for transmitting {@link * ServiceBusMessage} to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. / /* * Creates a <b>synchronous</b> {@link ServiceBusSenderClient client} for transmitting {@link ServiceBusMessage} * to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. */ public ServiceBusSenderClient buildClient() { return new ServiceBusSenderClient(buildAsyncClient(), MessageUtils.getTotalTimeout(retryOptions)); } }	class ServiceBusSenderClientBuilder { private String queueName; private String topicName; private ServiceBusSenderClientBuilder() { } /** * Sets the name of the Service Bus queue to publish messages to. * * @param queueName Name of the queue. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder queueName(String queueName) { this.queueName = queueName; return this; } /* * Sets the name of the Service Bus topic to publish messages to. * * @param topicName Name of the topic. * * @return The modified {@link ServiceBusSenderClientBuilder} object. / public ServiceBusSenderClientBuilder topicName(String topicName) { this.topicName = topicName; return this; } /* * Creates an <b>asynchronous</b> {@link ServiceBusSenderAsyncClient client} for transmitting {@link * ServiceBusMessage} to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. / /* * Creates a <b>synchronous</b> {@link ServiceBusSenderClient client} for transmitting {@link ServiceBusMessage} * to a Service Bus queue or topic. * * @return A new {@link ServiceBusSenderAsyncClient} for transmitting to a Service queue or topic. * @throws IllegalStateException if {@link * topicName} are not set or, both of these fields are set. It is also thrown if the Service Bus {@link * * {@link * @throws IllegalArgumentException if the entity type is not a queue or a topic. */ public ServiceBusSenderClient buildClient() { return new ServiceBusSenderClient(buildAsyncClient(), MessageUtils.getTotalTimeout(retryOptions)); } }
Because this is non-public API, and if you want people to always use the other API, you could consider just removing this constructor.	public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); }	}	public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); } }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * @param meter Instance of {@link Meter} to report metrics to. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); } }
I'm curious what the expectation is in this method if the Meter given in the constructor is null?	AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); }	ignored -> new AmqpMetricsProvider(meter, namespace, entityPath));	AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); } /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); } /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * @param meter Instance of {@link Meter} to report metrics to. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ }
You're casting to Float, but then putting a double into the builder?	static void addAttribute(io.opentelemetry.api.common.AttributesBuilder attributesBuilder, String key, Object value) { if (value instanceof Boolean) { attributesBuilder.put(AttributeKey.booleanKey(key), (Boolean) value); } else if (value instanceof String) { attributesBuilder.put(AttributeKey.stringKey(key), (String) value); } else if (value instanceof Double) { attributesBuilder.put(AttributeKey.doubleKey(key), (Double) value); } else if (value instanceof Float) { attributesBuilder.put(AttributeKey.doubleKey(key), ((Float) value).doubleValue()); } else if (value instanceof Long) { attributesBuilder.put(AttributeKey.longKey(key), (Long) value); } else if (value instanceof Integer) { attributesBuilder.put(AttributeKey.longKey(key), (Integer) value); } else if (value instanceof Short) { attributesBuilder.put(AttributeKey.longKey(key), (Short) value); } else if (value instanceof Byte) { attributesBuilder.put(AttributeKey.longKey(key), (Byte) value); } else { LOGGER.warning("Could not populate attribute with key '{}', type {} is not supported.", key, value.getClass().getName()); } }	attributesBuilder.put(AttributeKey.doubleKey(key), ((Float) value).doubleValue());	static void addAttribute(io.opentelemetry.api.common.AttributesBuilder attributesBuilder, String key, Object value) { if (value instanceof Boolean) { attributesBuilder.put(AttributeKey.booleanKey(key), (Boolean) value); } else if (value instanceof String) { attributesBuilder.put(AttributeKey.stringKey(key), (String) value); } else if (value instanceof Double) { attributesBuilder.put(AttributeKey.doubleKey(key), (Double) value); } else if (value instanceof Float) { attributesBuilder.put(AttributeKey.doubleKey(key), ((Float) value).doubleValue()); } else if (value instanceof Long) { attributesBuilder.put(AttributeKey.longKey(key), (Long) value); } else if (value instanceof Integer) { attributesBuilder.put(AttributeKey.longKey(key), (Integer) value); } else if (value instanceof Short) { attributesBuilder.put(AttributeKey.longKey(key), (Short) value); } else if (value instanceof Byte) { attributesBuilder.put(AttributeKey.longKey(key), (Byte) value); } else { LOGGER.warning("Could not populate attribute with key '{}', type {} is not supported.", key, value.getClass().getName()); } }	class OpenTelemetryUtils { private static final ClientLogger LOGGER = new ClientLogger(OpenTelemetryUtils.class); /** * Adds attribute key-value pair to OpenTelemetry {@link io.opentelemetry.api.common.AttributesBuilder}, if value type is not supported by * OpenTelemetry, drops the attribute. * @param attributesBuilder initialized {@link io.opentelemetry.api.common.AttributesBuilder} instance * @param key key of the attribute to be added * @param value value of the attribute to be added / /* * Returns OpenTelemetry trace context from given com.azure.core.Context under PARENT_TRACE_CONTEXT_KEY. * If not context is found, returns {@link io.opentelemetry.context.Context */ static io.opentelemetry.context.Context getTraceContextOrCurrent(Context azContext) { Optional<Object> traceContextOpt = azContext.getData(PARENT_TRACE_CONTEXT_KEY); if (traceContextOpt.isPresent()) { Object traceContextObj = traceContextOpt.get(); if (traceContextObj instanceof io.opentelemetry.context.Context) { return (io.opentelemetry.context.Context) traceContextObj; } else if (traceContextObj != null) { LOGGER.warning("Expected instance of `io.opentelemetry.context.Context` under `PARENT_TRACE_CONTEXT_KEY`, but got {}, ignoring it.", traceContextObj.getClass().getName()); } } LOGGER.verbose("No context is found under `PARENT_TRACE_CONTEXT_KEY`, getting current context"); return io.opentelemetry.context.Context.current(); } static Attributes getAttributes(TelemetryAttributes attributesBuilder) { if (attributesBuilder instanceof OpenTelemetryAttributes) { return ((OpenTelemetryAttributes) attributesBuilder).get(); } if (attributesBuilder != null) { LOGGER.warning("Expected instance of `OpenTelemetryAttributeBuilder` in `attributeCollection`, but got {}, ignoring it.", attributesBuilder.getClass().getName()); } return Attributes.empty(); } }	class OpenTelemetryUtils { private static final ClientLogger LOGGER = new ClientLogger(OpenTelemetryUtils.class); /** * Adds attribute key-value pair to OpenTelemetry {@link io.opentelemetry.api.common.AttributesBuilder}, if value type is not supported by * OpenTelemetry, drops the attribute. * @param attributesBuilder initialized {@link io.opentelemetry.api.common.AttributesBuilder} instance * @param key key of the attribute to be added * @param value value of the attribute to be added / /* * Returns OpenTelemetry trace context from given com.azure.core.Context under PARENT_TRACE_CONTEXT_KEY. * If not context is found, returns {@link io.opentelemetry.context.Context */ static io.opentelemetry.context.Context getTraceContextOrCurrent(Context azContext) { Optional<Object> traceContextOpt = azContext.getData(PARENT_TRACE_CONTEXT_KEY); if (traceContextOpt.isPresent()) { Object traceContextObj = traceContextOpt.get(); if (traceContextObj instanceof io.opentelemetry.context.Context) { return (io.opentelemetry.context.Context) traceContextObj; } else if (traceContextObj != null) { LOGGER.warning("Expected instance of `io.opentelemetry.context.Context` under `PARENT_TRACE_CONTEXT_KEY`, but got {}, ignoring it.", traceContextObj.getClass().getName()); } } LOGGER.verbose("No context is found under `PARENT_TRACE_CONTEXT_KEY`, getting current context"); return io.opentelemetry.context.Context.current(); } static Attributes getAttributes(TelemetryAttributes attributesBuilder) { if (attributesBuilder instanceof OpenTelemetryAttributes) { return ((OpenTelemetryAttributes) attributesBuilder).get(); } if (attributesBuilder != null) { LOGGER.warning("Expected instance of `OpenTelemetryAttributeBuilder` in `attributeCollection`, but got {}, ignoring it.", attributesBuilder.getClass().getName()); } return Attributes.empty(); } }
EventHubs and ServiceBus will call into this constructor, Since we can never guarantee version alignment between azure-core-amqp and client libs, I'd really like to keep this constructor even after SB/EH start using it for a while to minimize version conflicts	public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); }	}	public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); } }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * @param meter Instance of {@link Meter} to report metrics to. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); } }
if meter is null, `AmqpMetricsProvider` uses default meter (i.e. creates one using default options). The next step would be creating meter in EH/SB and plumbing it through to AMQP core so the default meter will never be used and users will be able to configure metrics if they want. I'm just phasing this work across several releases to reduce dependency mismatch pain with the new EB/EH + old amqp core.	AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); }	ignored -> new AmqpMetricsProvider(meter, namespace, entityPath));	AmqpMetricsProvider getMetricProvider(String namespace, String entityPath) { if (meter != null && !meter.isEnabled()) { return AmqpMetricsProvider.noop(); } return metricsCache.computeIfAbsent( namespace + (entityPath == null ? "" : "/" + entityPath), ignored -> new AmqpMetricsProvider(meter, namespace, entityPath)); }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); } /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ }	class ReactorHandlerProvider { private static final ClientLogger LOGGER = new ClientLogger(ReactorHandlerProvider.class); private final ConcurrentHashMap<String, AmqpMetricsProvider> metricsCache = new ConcurrentHashMap<>(); private final Meter meter; private final ReactorProvider provider; /** * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * * @throws NullPointerException If {@code provider} is {@code null}. * @deprecated use {@link ReactorHandlerProvider / @Deprecated public ReactorHandlerProvider(ReactorProvider provider) { this(provider, null); } /* * Creates a new instance with the reactor provider to handle {@link ReactorDispatcher ReactorDispatchers} to its * generated handlers. * * @param provider The provider that creates and manages {@link Reactor} instances. * @param meter Instance of {@link Meter} to report metrics to. * * @throws NullPointerException If {@code provider} is {@code null}. / public ReactorHandlerProvider(ReactorProvider provider, Meter meter) { this.provider = Objects.requireNonNull(provider, "'provider' cannot be null."); this.meter = meter; } /* * Creates a new connection handler with the given {@code connectionId} and {@code hostname}. * * @param connectionId Identifier associated with this connection. * @param options Options for the connection. * @return A new {@link ConnectionHandler}. * * @throws NullPointerException If {@code connectionId}, {@code productName}, {@code clientVersion}, * {@code options} is {@code null}. / public ConnectionHandler createConnectionHandler(String connectionId, ConnectionOptions options) { Objects.requireNonNull(connectionId, "'connectionId' cannot be null."); Objects.requireNonNull(options, "'options' cannot be null."); AmqpMetricsProvider metricsProvider = getMetricProvider(options.getFullyQualifiedNamespace(), null); if (options.getTransportType() == AmqpTransportType.AMQP) { final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new ConnectionHandler(connectionId, options, peerDetails, metricsProvider); } if (options.getTransportType() != AmqpTransportType.AMQP_WEB_SOCKETS) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException(String.format(Locale.US, "This transport type '%s' is not supported.", options.getTransportType()))); } final boolean isCustomEndpointConfigured = !options.getFullyQualifiedNamespace().equals(options.getHostname()); final boolean isUserProxyConfigured = options.getProxyOptions() != null && options.getProxyOptions().isProxyAddressConfigured(); final boolean isSystemProxyConfigured = WebSocketsProxyConnectionHandler.shouldUseProxy( options.getFullyQualifiedNamespace(), options.getPort()); if (isCustomEndpointConfigured && (isUserProxyConfigured \|\| isSystemProxyConfigured)) { throw LOGGER.logExceptionAsError(new UnsupportedOperationException(String.format( "Unable to proxy connection to custom endpoint. Custom endpoint: %s. Proxy settings: %s. " + "Namespace: %s", options.getHostname(), options.getProxyOptions().getProxyAddress(), options.getFullyQualifiedNamespace()))); } if (isUserProxyConfigured) { LOGGER.info("Using user configured proxy to connect to: '{}:{}'. Proxy: {}", options.getFullyQualifiedNamespace(), options.getPort(), options.getProxyOptions().getProxyAddress()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, options.getProxyOptions(), peerDetails, metricsProvider); } else if (isSystemProxyConfigured) { LOGGER.info("System default proxy configured for hostname:port '{}:{}'. Using proxy.", options.getFullyQualifiedNamespace(), options.getPort()); final SslPeerDetails peerDetails = Proton.sslPeerDetails(options.getHostname(), options.getPort()); return new WebSocketsProxyConnectionHandler(connectionId, options, ProxyOptions.SYSTEM_DEFAULTS, peerDetails, metricsProvider); } final SslPeerDetails peerDetails = isCustomEndpointConfigured ? Proton.sslPeerDetails(options.getHostname(), options.getPort()) : Proton.sslPeerDetails(options.getFullyQualifiedNamespace(), options.getPort()); return new WebSocketsConnectionHandler(connectionId, options, peerDetails, metricsProvider); } /* * Creates a new session handler with the given {@code connectionId}, {@code hostname}, and {@code sessionName}. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Host of the parent connection. * @param sessionName Name of the session. * @param openTimeout Duration to wait for the session to open. * @return A new {@link SessionHandler}. / public SessionHandler createSessionHandler(String connectionId, String hostname, String sessionName, Duration openTimeout) { return new SessionHandler(connectionId, hostname, sessionName, provider.getReactorDispatcher(), openTimeout, getMetricProvider(hostname, sessionName)); } /* * Creates a new link handler for sending messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param senderName Name of the send link. * * @return A new {@link SendLinkHandler}. / public SendLinkHandler createSendLinkHandler(String connectionId, String hostname, String senderName, String entityPath) { return new SendLinkHandler(connectionId, hostname, senderName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Creates a new link handler for receiving messages. * * @param connectionId Identifier of the parent connection that created this session. * @param hostname Fully qualified namespace of the parent connection. * @param receiverName Name of the send link. * @return A new {@link ReceiveLinkHandler}. / public ReceiveLinkHandler createReceiveLinkHandler(String connectionId, String hostname, String receiverName, String entityPath) { return new ReceiveLinkHandler(connectionId, hostname, receiverName, entityPath, getMetricProvider(hostname, entityPath)); } /* * Returns cached {@link AmqpMetricsProvider} (or creates one) for given meter and entity. * It's recommended to keep returned value in instance variable and to avoid calling * this method extensively. */ }
OTel does not support float attributes, so I have to cast it to double this way:(	static void addAttribute(io.opentelemetry.api.common.AttributesBuilder attributesBuilder, String key, Object value) { if (value instanceof Boolean) { attributesBuilder.put(AttributeKey.booleanKey(key), (Boolean) value); } else if (value instanceof String) { attributesBuilder.put(AttributeKey.stringKey(key), (String) value); } else if (value instanceof Double) { attributesBuilder.put(AttributeKey.doubleKey(key), (Double) value); } else if (value instanceof Float) { attributesBuilder.put(AttributeKey.doubleKey(key), ((Float) value).doubleValue()); } else if (value instanceof Long) { attributesBuilder.put(AttributeKey.longKey(key), (Long) value); } else if (value instanceof Integer) { attributesBuilder.put(AttributeKey.longKey(key), (Integer) value); } else if (value instanceof Short) { attributesBuilder.put(AttributeKey.longKey(key), (Short) value); } else if (value instanceof Byte) { attributesBuilder.put(AttributeKey.longKey(key), (Byte) value); } else { LOGGER.warning("Could not populate attribute with key '{}', type {} is not supported.", key, value.getClass().getName()); } }	attributesBuilder.put(AttributeKey.doubleKey(key), ((Float) value).doubleValue());	static void addAttribute(io.opentelemetry.api.common.AttributesBuilder attributesBuilder, String key, Object value) { if (value instanceof Boolean) { attributesBuilder.put(AttributeKey.booleanKey(key), (Boolean) value); } else if (value instanceof String) { attributesBuilder.put(AttributeKey.stringKey(key), (String) value); } else if (value instanceof Double) { attributesBuilder.put(AttributeKey.doubleKey(key), (Double) value); } else if (value instanceof Float) { attributesBuilder.put(AttributeKey.doubleKey(key), ((Float) value).doubleValue()); } else if (value instanceof Long) { attributesBuilder.put(AttributeKey.longKey(key), (Long) value); } else if (value instanceof Integer) { attributesBuilder.put(AttributeKey.longKey(key), (Integer) value); } else if (value instanceof Short) { attributesBuilder.put(AttributeKey.longKey(key), (Short) value); } else if (value instanceof Byte) { attributesBuilder.put(AttributeKey.longKey(key), (Byte) value); } else { LOGGER.warning("Could not populate attribute with key '{}', type {} is not supported.", key, value.getClass().getName()); } }	class OpenTelemetryUtils { private static final ClientLogger LOGGER = new ClientLogger(OpenTelemetryUtils.class); /** * Adds attribute key-value pair to OpenTelemetry {@link io.opentelemetry.api.common.AttributesBuilder}, if value type is not supported by * OpenTelemetry, drops the attribute. * @param attributesBuilder initialized {@link io.opentelemetry.api.common.AttributesBuilder} instance * @param key key of the attribute to be added * @param value value of the attribute to be added / /* * Returns OpenTelemetry trace context from given com.azure.core.Context under PARENT_TRACE_CONTEXT_KEY. * If not context is found, returns {@link io.opentelemetry.context.Context */ static io.opentelemetry.context.Context getTraceContextOrCurrent(Context azContext) { Optional<Object> traceContextOpt = azContext.getData(PARENT_TRACE_CONTEXT_KEY); if (traceContextOpt.isPresent()) { Object traceContextObj = traceContextOpt.get(); if (traceContextObj instanceof io.opentelemetry.context.Context) { return (io.opentelemetry.context.Context) traceContextObj; } else if (traceContextObj != null) { LOGGER.warning("Expected instance of `io.opentelemetry.context.Context` under `PARENT_TRACE_CONTEXT_KEY`, but got {}, ignoring it.", traceContextObj.getClass().getName()); } } LOGGER.verbose("No context is found under `PARENT_TRACE_CONTEXT_KEY`, getting current context"); return io.opentelemetry.context.Context.current(); } static Attributes getAttributes(TelemetryAttributes attributesBuilder) { if (attributesBuilder instanceof OpenTelemetryAttributes) { return ((OpenTelemetryAttributes) attributesBuilder).get(); } if (attributesBuilder != null) { LOGGER.warning("Expected instance of `OpenTelemetryAttributeBuilder` in `attributeCollection`, but got {}, ignoring it.", attributesBuilder.getClass().getName()); } return Attributes.empty(); } }	class OpenTelemetryUtils { private static final ClientLogger LOGGER = new ClientLogger(OpenTelemetryUtils.class); /** * Adds attribute key-value pair to OpenTelemetry {@link io.opentelemetry.api.common.AttributesBuilder}, if value type is not supported by * OpenTelemetry, drops the attribute. * @param attributesBuilder initialized {@link io.opentelemetry.api.common.AttributesBuilder} instance * @param key key of the attribute to be added * @param value value of the attribute to be added / /* * Returns OpenTelemetry trace context from given com.azure.core.Context under PARENT_TRACE_CONTEXT_KEY. * If not context is found, returns {@link io.opentelemetry.context.Context */ static io.opentelemetry.context.Context getTraceContextOrCurrent(Context azContext) { Optional<Object> traceContextOpt = azContext.getData(PARENT_TRACE_CONTEXT_KEY); if (traceContextOpt.isPresent()) { Object traceContextObj = traceContextOpt.get(); if (traceContextObj instanceof io.opentelemetry.context.Context) { return (io.opentelemetry.context.Context) traceContextObj; } else if (traceContextObj != null) { LOGGER.warning("Expected instance of `io.opentelemetry.context.Context` under `PARENT_TRACE_CONTEXT_KEY`, but got {}, ignoring it.", traceContextObj.getClass().getName()); } } LOGGER.verbose("No context is found under `PARENT_TRACE_CONTEXT_KEY`, getting current context"); return io.opentelemetry.context.Context.current(); } static Attributes getAttributes(TelemetryAttributes attributesBuilder) { if (attributesBuilder instanceof OpenTelemetryAttributes) { return ((OpenTelemetryAttributes) attributesBuilder).get(); } if (attributesBuilder != null) { LOGGER.warning("Expected instance of `OpenTelemetryAttributeBuilder` in `attributeCollection`, but got {}, ignoring it.", attributesBuilder.getClass().getName()); } return Attributes.empty(); } }
I am curious why we have the `- 1` here and then `+ 1` when defining RESPONSE_CODES_COUNT. A comment where RESPONSE_CODES_COUNT could help in the future if someone is checking this out.	private TelemetryAttributes getResponseCodeAttributes(AmqpResponseCode code, String operation) { int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal(); AttributeCache codeAttributes = requestResponseAttributeCache[ind]; if (codeAttributes == null) { codeAttributes = createResponseCodeAttribute(code, ind); } return codeAttributes.getOrCreate(operation); }	int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal();	private TelemetryAttributes getResponseCodeAttributes(AmqpResponseCode code, String operation) { int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal(); AttributeCache codeAttributes = requestResponseAttributeCache[ind]; if (codeAttributes == null) { codeAttributes = createResponseCodeAttribute(code, ind); } return codeAttributes.getOrCreate(operation); }	class AmqpMetricsProvider { public static final String STATUS_CODE_KEY = "amqpStatusCode"; public static final String MANAGEMENT_OPERATION_KEY = "amqpOperation"; private static final ClientLogger LOGGER = new ClientLogger(AmqpMetricsProvider.class); private static final Symbol ENQUEUED_TIME_ANNOTATION = Symbol.valueOf(ENQUEUED_TIME_UTC_ANNOTATION_NAME.getValue()); private static final String AZURE_CORE_AMQP_PROPERTIES_NAME = "azure-core.properties"; private static final String AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY = "version"; private static final String AZURE_CORE_VERSION = CoreUtils .getProperties(AZURE_CORE_AMQP_PROPERTIES_NAME) .getOrDefault(AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY, null); private static final int DELIVERY_STATES_COUNT = DeliveryState.DeliveryStateType.values().length + 1; private static final int RESPONSE_CODES_COUNT = AmqpResponseCode.values().length + 1; private static final Meter DEFAULT_METER = MeterProvider.getDefaultProvider().createMeter("azure-core-amqp", AZURE_CORE_VERSION, new MetricsOptions()); private static final AmqpMetricsProvider NOOP = new AmqpMetricsProvider(); private final boolean isEnabled; private final Meter meter; private Map<String, Object> commonAttributesMap; private DoubleHistogram sendDuration = null; private DoubleHistogram requestResponseDuration = null; private LongCounter closedConnections = null; private LongCounter sessionErrors = null; private LongCounter linkErrors = null; private LongCounter transportErrors = null; private DoubleHistogram receivedLag = null; private LongCounter addCredits = null; private TelemetryAttributes[] sendAttributeCache = null; private AttributeCache[] requestResponseAttributeCache = null; private AttributeCache amqpErrorAttributeCache = null; private TelemetryAttributes commonAttributes = null; private AmqpMetricsProvider() { this.isEnabled = false; this.meter = DEFAULT_METER; } public enum ErrorSource { LINK, SESSION, TRANSPORT } public AmqpMetricsProvider(Meter meter, String namespace, String entityPath) { this.meter = meter != null ? meter : DEFAULT_METER; this.isEnabled = this.meter.isEnabled(); if (isEnabled) { this.commonAttributesMap = new HashMap<>(); commonAttributesMap.put(ClientConstants.HOSTNAME_KEY, namespace); if (entityPath != null) { int entityNameEnd = entityPath.indexOf('/'); if (entityNameEnd > 0) { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath.substring(0, entityNameEnd)); commonAttributesMap.put(ClientConstants.ENTITY_PATH_KEY, entityPath); } else { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath); } } this.commonAttributes = this.meter.createAttributes(commonAttributesMap); this.requestResponseAttributeCache = new AttributeCache[RESPONSE_CODES_COUNT]; this.sendAttributeCache = new TelemetryAttributes[DELIVERY_STATES_COUNT]; this.amqpErrorAttributeCache = new AttributeCache(ClientConstants.ERROR_CONDITION_KEY, commonAttributesMap); this.sendDuration = this.meter.createDoubleHistogram("messaging.az.amqp.producer.send.duration", "Duration of AMQP-level send call.", "ms"); this.requestResponseDuration = this.meter.createDoubleHistogram("messaging.az.amqp.management.request.duration", "Duration of AMQP request-response operation.", "ms"); this.closedConnections = this.meter.createLongCounter("messaging.az.amqp.client.connections.closed", "Closed connections", "connections"); this.sessionErrors = this.meter.createLongCounter("messaging.az.amqp.client.session.errors", "AMQP session errors", "errors"); this.linkErrors = this.meter.createLongCounter("messaging.az.amqp.client.link.errors", "AMQP link errors", "errors"); this.transportErrors = this.meter.createLongCounter("messaging.az.amqp.client.transport.errors", "AMQP session errors", "errors"); this.addCredits = this.meter.createLongCounter("messaging.az.amqp.consumer.credits.requested", "Number of requested credits", "credits"); this.receivedLag = this.meter.createDoubleHistogram("messaging.az.amqp.consumer.lag", "Approximate lag between time message was received and time it was enqueued on the broker.", "sec"); } } public static AmqpMetricsProvider noop() { return NOOP; } /** * Checks if record delivers is enabled (for micro-optimizations). / public boolean isSendDeliveryEnabled() { return isEnabled && sendDuration.isEnabled(); } /* * Records duration of AMQP send call. / public void recordSend(long start, DeliveryState.DeliveryStateType deliveryState) { if (isEnabled && sendDuration.isEnabled()) { sendDuration.record(Instant.now().toEpochMilli() - start, getDeliveryStateAttribute(deliveryState), Context.NONE); } } /* * Records duration of AMQP management call. / public void recordRequestResponseDuration(long start, String operationName, AmqpResponseCode responseCode) { if (isEnabled && requestResponseDuration.isEnabled()) { requestResponseDuration.record(Instant.now().toEpochMilli() - start, getResponseCodeAttributes(responseCode, operationName), Context.NONE); } } /* * Records connection close. / public void recordConnectionClosed(ErrorCondition condition) { if (isEnabled && closedConnections.isEnabled()) { Symbol conditionSymbol = condition != null ? condition.getCondition() : null; String conditionStr = conditionSymbol != null ? conditionSymbol.toString() : "ok"; closedConnections.add(1, amqpErrorAttributeCache.getOrCreate(conditionStr), Context.NONE); } } /* * Records the message was received. / public void recordReceivedMessage(Message message) { if (!isEnabled \|\| !receivedLag.isEnabled() \|\| message == null \|\| message.getMessageAnnotations() == null \|\| message.getBody() == null) { return; } Map<Symbol, Object> properties = message.getMessageAnnotations().getValue(); Object enqueuedTimeDate = properties != null ? properties.get(ENQUEUED_TIME_ANNOTATION) : null; if (enqueuedTimeDate instanceof Date) { Instant enqueuedTime = ((Date) enqueuedTimeDate).toInstant(); long deltaMs = Instant.now().toEpochMilli() - enqueuedTime.toEpochMilli(); if (deltaMs < 0) { deltaMs = 0; } receivedLag.record(deltaMs / 1000d, commonAttributes, Context.NONE); } else { LOGGER.verbose("Received message has unexpected `x-opt-enqueued-time` annotation value - `{}`. Ignoring it.", enqueuedTimeDate); } } /* * Records that credits were added to link / public void recordAddCredits(int credits) { if (isEnabled && addCredits.isEnabled()) { addCredits.add(credits, commonAttributes, Context.NONE); } } /* * Records link error. Noop if condition is null (no error). */ public void recordHandlerError(ErrorSource source, ErrorCondition condition) { if (isEnabled && condition != null && condition.getCondition() != null) { TelemetryAttributes attributes = amqpErrorAttributeCache.getOrCreate(condition.getCondition().toString()); switch (source) { case LINK: if (linkErrors.isEnabled()) { linkErrors.add(1, attributes, Context.NONE); } break; case SESSION: if (sessionErrors.isEnabled()) { sessionErrors.add(1, attributes, Context.NONE); } break; case TRANSPORT: if (transportErrors.isEnabled()) { transportErrors.add(1, attributes, Context.NONE); } break; default: LOGGER.verbose("Unexpected error source: {}", source); } } } private TelemetryAttributes getDeliveryStateAttribute(DeliveryState.DeliveryStateType state) { int ind = state == null ? DELIVERY_STATES_COUNT - 1 : state.ordinal(); TelemetryAttributes attrs = sendAttributeCache[ind]; if (attrs != null) { return attrs; } return createDeliveryStateAttribute(state, ind); } private synchronized AttributeCache createResponseCodeAttribute(AmqpResponseCode code, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(STATUS_CODE_KEY, responseCodeToLowerCaseString(code)); requestResponseAttributeCache[ind] = new AttributeCache(MANAGEMENT_OPERATION_KEY, attrs); return requestResponseAttributeCache[ind]; } private synchronized TelemetryAttributes createDeliveryStateAttribute(DeliveryState.DeliveryStateType state, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(ClientConstants.DELIVERY_STATE_KEY, deliveryStateToLowerCaseString(state)); sendAttributeCache[ind] = this.meter.createAttributes(attrs); return sendAttributeCache[ind]; } private static String deliveryStateToLowerCaseString(DeliveryState.DeliveryStateType state) { if (state == null) { return "error"; } switch (state) { case Accepted: return "accepted"; case Declared: return "declared"; case Modified: return "modified"; case Received: return "received"; case Rejected: return "rejected"; case Released: return "released"; case Transactional: return "transactional"; default: return "unknown"; } } private static String responseCodeToLowerCaseString(AmqpResponseCode response) { if (response == null) { return "error"; } switch (response) { case OK: return "ok"; case ACCEPTED: return "accepted"; case BAD_REQUEST: return "bad_request"; case NOT_FOUND: return "not_found"; case FORBIDDEN: return "forbidden"; case INTERNAL_SERVER_ERROR: return "internal_server_error"; case UNAUTHORIZED: return "unauthorized"; case CONTINUE: return "continue"; case SWITCHING_PROTOCOLS: return "switching_protocols"; case CREATED: return "created"; case NON_AUTHORITATIVE_INFORMATION: return "not_authoritative_information"; case NO_CONTENT: return "no_content"; case RESET_CONTENT: return "reset_content"; case PARTIAL_CONTENT: return "partial_content"; case AMBIGUOUS: return "ambiguous"; case MULTIPLE_CHOICES: return "multiple_choices"; case MOVED: return "moved"; case MOVED_PERMANENTLY: return "moved_permanently"; case FOUND: return "found"; case REDIRECT: return "redirect"; case REDIRECT_METHOD: return "redirect_method"; case SEE_OTHER: return "see_other"; case NOT_MODIFIED: return "not_modified"; case USE_PROXY: return "use_proxy"; case UNUSED: return "unused"; case REDIRECT_KEEP_VERB: return "redirect_keep_verb"; case TEMPORARY_REDIRECT: return "temporary_redirect"; case PAYMENT_REQUIRED: return "payment_required"; case METHOD_NOT_ALLOWED: return "method_no_allowed"; case NOT_ACCEPTABLE: return "not_acceptable"; case PROXY_AUTHENTICATION_REQUIRED: return "proxy_authentication_required"; case REQUEST_TIMEOUT: return "request_timeout"; case CONFLICT: return "conflict"; case GONE: return "gone"; case LENGTH_REQUIRED: return "length_required"; case PRECONDITION_FAILED: return "precondition_failed"; case REQUEST_ENTITY_TOO_LARGE: return "request_entity_is_too_large"; case REQUEST_URI_TOO_LONG: return "request_uri_too_long"; case UNSUPPORTED_MEDIA_TYPE: return "unsupported_media_type"; case REQUESTED_RANGE_NOT_SATISFIABLE: return "requested_range_not_satisfiable"; case EXPECTATION_FAILED: return "expectation_failed"; case UPGRADE_REQUIRED: return "upgrade_required"; case NOT_IMPLEMENTED: return "no_implemented"; case BAD_GATEWAY: return "bad_gateway"; case SERVICE_UNAVAILABLE: return "service_unavailable"; case GATEWAY_TIMEOUT: return "gateway_timeout"; case HTTP_VERSION_NOT_SUPPORTED: return "http_version_not_supported"; default: return "error"; } } private class AttributeCache { private final Map<String, TelemetryAttributes> attr = new ConcurrentHashMap<>(); private final Map<String, Object> common; private final String dimensionName; AttributeCache(String dimensionName, Map<String, Object> common) { this.dimensionName = dimensionName; this.common = common; } public TelemetryAttributes getOrCreate(String value) { return attr.computeIfAbsent(value, this::create); } private TelemetryAttributes create(String value) { Map<String, Object> attributes = new HashMap<>(common); attributes.put(dimensionName, value); return meter.createAttributes(attributes); } } }	class AmqpMetricsProvider { public static final String STATUS_CODE_KEY = "amqpStatusCode"; public static final String MANAGEMENT_OPERATION_KEY = "amqpOperation"; private static final ClientLogger LOGGER = new ClientLogger(AmqpMetricsProvider.class); private static final Symbol ENQUEUED_TIME_ANNOTATION = Symbol.valueOf(ENQUEUED_TIME_UTC_ANNOTATION_NAME.getValue()); private static final String AZURE_CORE_AMQP_PROPERTIES_NAME = "azure-core.properties"; private static final String AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY = "version"; private static final String AZURE_CORE_VERSION = CoreUtils .getProperties(AZURE_CORE_AMQP_PROPERTIES_NAME) .getOrDefault(AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY, null); private static final int DELIVERY_STATES_COUNT = DeliveryState.DeliveryStateType.values().length + 1; private static final int RESPONSE_CODES_COUNT = AmqpResponseCode.values().length + 1; private static final Meter DEFAULT_METER = MeterProvider.getDefaultProvider().createMeter("azure-core-amqp", AZURE_CORE_VERSION, new MetricsOptions()); private static final AmqpMetricsProvider NOOP = new AmqpMetricsProvider(); private final boolean isEnabled; private final Meter meter; private Map<String, Object> commonAttributesMap; private DoubleHistogram sendDuration = null; private DoubleHistogram requestResponseDuration = null; private LongCounter closedConnections = null; private LongCounter sessionErrors = null; private LongCounter linkErrors = null; private LongCounter transportErrors = null; private DoubleHistogram receivedLag = null; private LongCounter addCredits = null; /** * Cache of sendDuration attributes. Each element has * namespace, entity name and path, and also a delivery state. * Element index is ordinal number of state in the enum definition. * * The last element in the array represents no delivery (e.g. timeout or network issues) * case and w ill be stored as last element in the array. / private TelemetryAttributes[] sendAttributeCache = null; /* * Stores attribute caches with Management operation and response code. * AmqpResponseCode ordinal number serves as index in this array, * (the last element represents no response). * * Each element is a cache on its own that holds attribute sets for * namespace, entity name and path, and management operation. / private AttributeCache[] requestResponseAttributeCache = null; /* * There is no enum for AMQP condition, so we just use a cache * that holds attribute sets representing namespace, entity name and path, * and error condition. * Error condition serves as a key, and other attributes are shared across all attribute sets. / private AttributeCache amqpErrorAttributeCache = null; private TelemetryAttributes commonAttributes = null; private AmqpMetricsProvider() { this.isEnabled = false; this.meter = DEFAULT_METER; } public enum ErrorSource { LINK, SESSION, TRANSPORT } public AmqpMetricsProvider(Meter meter, String namespace, String entityPath) { this.meter = meter != null ? meter : DEFAULT_METER; this.isEnabled = this.meter.isEnabled(); if (isEnabled) { this.commonAttributesMap = new HashMap<>(); commonAttributesMap.put(ClientConstants.HOSTNAME_KEY, namespace); if (entityPath != null) { int entityNameEnd = entityPath.indexOf('/'); if (entityNameEnd > 0) { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath.substring(0, entityNameEnd)); commonAttributesMap.put(ClientConstants.ENTITY_PATH_KEY, entityPath); } else { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath); } } this.commonAttributes = this.meter.createAttributes(commonAttributesMap); this.requestResponseAttributeCache = new AttributeCache[RESPONSE_CODES_COUNT]; this.sendAttributeCache = new TelemetryAttributes[DELIVERY_STATES_COUNT]; this.amqpErrorAttributeCache = new AttributeCache(ClientConstants.ERROR_CONDITION_KEY, commonAttributesMap); this.sendDuration = this.meter.createDoubleHistogram("messaging.az.amqp.producer.send.duration", "Duration of AMQP-level send call.", "ms"); this.requestResponseDuration = this.meter.createDoubleHistogram("messaging.az.amqp.management.request.duration", "Duration of AMQP request-response operation.", "ms"); this.closedConnections = this.meter.createLongCounter("messaging.az.amqp.client.connections.closed", "Closed connections", "connections"); this.sessionErrors = this.meter.createLongCounter("messaging.az.amqp.client.session.errors", "AMQP session errors", "errors"); this.linkErrors = this.meter.createLongCounter("messaging.az.amqp.client.link.errors", "AMQP link errors", "errors"); this.transportErrors = this.meter.createLongCounter("messaging.az.amqp.client.transport.errors", "AMQP session errors", "errors"); this.addCredits = this.meter.createLongCounter("messaging.az.amqp.consumer.credits.requested", "Number of requested credits", "credits"); this.receivedLag = this.meter.createDoubleHistogram("messaging.az.amqp.consumer.lag", "Approximate lag between time message was received and time it was enqueued on the broker.", "sec"); } } public static AmqpMetricsProvider noop() { return NOOP; } /* * Checks if record delivers is enabled (for micro-optimizations). / public boolean isSendDeliveryEnabled() { return isEnabled && sendDuration.isEnabled(); } /* * Records duration of AMQP send call. / public void recordSend(long start, DeliveryState.DeliveryStateType deliveryState) { if (isEnabled && sendDuration.isEnabled()) { sendDuration.record(Instant.now().toEpochMilli() - start, getDeliveryStateAttribute(deliveryState), Context.NONE); } } /* * Records duration of AMQP management call. / public void recordRequestResponseDuration(long start, String operationName, AmqpResponseCode responseCode) { if (isEnabled && requestResponseDuration.isEnabled()) { requestResponseDuration.record(Instant.now().toEpochMilli() - start, getResponseCodeAttributes(responseCode, operationName), Context.NONE); } } /* * Records connection close. / public void recordConnectionClosed(ErrorCondition condition) { if (isEnabled && closedConnections.isEnabled()) { Symbol conditionSymbol = condition != null ? condition.getCondition() : null; String conditionStr = conditionSymbol != null ? conditionSymbol.toString() : "ok"; closedConnections.add(1, amqpErrorAttributeCache.getOrCreate(conditionStr), Context.NONE); } } /* * Records the message was received. / public void recordReceivedMessage(Message message) { if (!isEnabled \|\| !receivedLag.isEnabled() \|\| message == null \|\| message.getMessageAnnotations() == null \|\| message.getBody() == null) { return; } Map<Symbol, Object> properties = message.getMessageAnnotations().getValue(); Object enqueuedTimeDate = properties != null ? properties.get(ENQUEUED_TIME_ANNOTATION) : null; if (enqueuedTimeDate instanceof Date) { Instant enqueuedTime = ((Date) enqueuedTimeDate).toInstant(); long deltaMs = Instant.now().toEpochMilli() - enqueuedTime.toEpochMilli(); if (deltaMs < 0) { deltaMs = 0; } receivedLag.record(deltaMs / 1000d, commonAttributes, Context.NONE); } else if (enqueuedTimeDate != null) { LOGGER.verbose("Received message has unexpected `x-opt-enqueued-time` annotation value - `{}`. Ignoring it.", enqueuedTimeDate); } } /* * Records that credits were added to link / public void recordAddCredits(int credits) { if (isEnabled && addCredits.isEnabled()) { addCredits.add(credits, commonAttributes, Context.NONE); } } /* * Records link error. Noop if condition is null (no error). */ public void recordHandlerError(ErrorSource source, ErrorCondition condition) { if (isEnabled && condition != null && condition.getCondition() != null) { TelemetryAttributes attributes = amqpErrorAttributeCache.getOrCreate(condition.getCondition().toString()); switch (source) { case LINK: if (linkErrors.isEnabled()) { linkErrors.add(1, attributes, Context.NONE); } break; case SESSION: if (sessionErrors.isEnabled()) { sessionErrors.add(1, attributes, Context.NONE); } break; case TRANSPORT: if (transportErrors.isEnabled()) { transportErrors.add(1, attributes, Context.NONE); } break; default: LOGGER.verbose("Unexpected error source: {}", source); } } } private TelemetryAttributes getDeliveryStateAttribute(DeliveryState.DeliveryStateType state) { int ind = state == null ? DELIVERY_STATES_COUNT - 1 : state.ordinal(); TelemetryAttributes attrs = sendAttributeCache[ind]; if (attrs != null) { return attrs; } return createDeliveryStateAttribute(state, ind); } private synchronized AttributeCache createResponseCodeAttribute(AmqpResponseCode code, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(STATUS_CODE_KEY, responseCodeToLowerCaseString(code)); requestResponseAttributeCache[ind] = new AttributeCache(MANAGEMENT_OPERATION_KEY, attrs); return requestResponseAttributeCache[ind]; } private synchronized TelemetryAttributes createDeliveryStateAttribute(DeliveryState.DeliveryStateType state, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(ClientConstants.DELIVERY_STATE_KEY, deliveryStateToLowerCaseString(state)); sendAttributeCache[ind] = this.meter.createAttributes(attrs); return sendAttributeCache[ind]; } private static String deliveryStateToLowerCaseString(DeliveryState.DeliveryStateType state) { if (state == null) { return "error"; } switch (state) { case Accepted: return "accepted"; case Declared: return "declared"; case Modified: return "modified"; case Received: return "received"; case Rejected: return "rejected"; case Released: return "released"; case Transactional: return "transactional"; default: return "unknown"; } } private static String responseCodeToLowerCaseString(AmqpResponseCode response) { if (response == null) { return "error"; } switch (response) { case OK: return "ok"; case ACCEPTED: return "accepted"; case BAD_REQUEST: return "bad_request"; case NOT_FOUND: return "not_found"; case FORBIDDEN: return "forbidden"; case INTERNAL_SERVER_ERROR: return "internal_server_error"; case UNAUTHORIZED: return "unauthorized"; case CONTINUE: return "continue"; case SWITCHING_PROTOCOLS: return "switching_protocols"; case CREATED: return "created"; case NON_AUTHORITATIVE_INFORMATION: return "not_authoritative_information"; case NO_CONTENT: return "no_content"; case RESET_CONTENT: return "reset_content"; case PARTIAL_CONTENT: return "partial_content"; case AMBIGUOUS: return "ambiguous"; case MULTIPLE_CHOICES: return "multiple_choices"; case MOVED: return "moved"; case MOVED_PERMANENTLY: return "moved_permanently"; case FOUND: return "found"; case REDIRECT: return "redirect"; case REDIRECT_METHOD: return "redirect_method"; case SEE_OTHER: return "see_other"; case NOT_MODIFIED: return "not_modified"; case USE_PROXY: return "use_proxy"; case UNUSED: return "unused"; case REDIRECT_KEEP_VERB: return "redirect_keep_verb"; case TEMPORARY_REDIRECT: return "temporary_redirect"; case PAYMENT_REQUIRED: return "payment_required"; case METHOD_NOT_ALLOWED: return "method_no_allowed"; case NOT_ACCEPTABLE: return "not_acceptable"; case PROXY_AUTHENTICATION_REQUIRED: return "proxy_authentication_required"; case REQUEST_TIMEOUT: return "request_timeout"; case CONFLICT: return "conflict"; case GONE: return "gone"; case LENGTH_REQUIRED: return "length_required"; case PRECONDITION_FAILED: return "precondition_failed"; case REQUEST_ENTITY_TOO_LARGE: return "request_entity_is_too_large"; case REQUEST_URI_TOO_LONG: return "request_uri_too_long"; case UNSUPPORTED_MEDIA_TYPE: return "unsupported_media_type"; case REQUESTED_RANGE_NOT_SATISFIABLE: return "requested_range_not_satisfiable"; case EXPECTATION_FAILED: return "expectation_failed"; case UPGRADE_REQUIRED: return "upgrade_required"; case NOT_IMPLEMENTED: return "no_implemented"; case BAD_GATEWAY: return "bad_gateway"; case SERVICE_UNAVAILABLE: return "service_unavailable"; case GATEWAY_TIMEOUT: return "gateway_timeout"; case HTTP_VERSION_NOT_SUPPORTED: return "http_version_not_supported"; default: return "error"; } } private class AttributeCache { private final Map<String, TelemetryAttributes> attr = new ConcurrentHashMap<>(); private final Map<String, Object> common; private final String dimensionName; AttributeCache(String dimensionName, Map<String, Object> common) { this.dimensionName = dimensionName; this.common = common; } public TelemetryAttributes getOrCreate(String value) { return attr.computeIfAbsent(value, this::create); } private TelemetryAttributes create(String value) { Map<String, Object> attributes = new HashMap<>(common); attributes.put(dimensionName, value); return meter.createAttributes(attributes); } } }
thanks for the feedback, I added comments in the code!	private TelemetryAttributes getResponseCodeAttributes(AmqpResponseCode code, String operation) { int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal(); AttributeCache codeAttributes = requestResponseAttributeCache[ind]; if (codeAttributes == null) { codeAttributes = createResponseCodeAttribute(code, ind); } return codeAttributes.getOrCreate(operation); }	int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal();	private TelemetryAttributes getResponseCodeAttributes(AmqpResponseCode code, String operation) { int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal(); AttributeCache codeAttributes = requestResponseAttributeCache[ind]; if (codeAttributes == null) { codeAttributes = createResponseCodeAttribute(code, ind); } return codeAttributes.getOrCreate(operation); }	class AmqpMetricsProvider { public static final String STATUS_CODE_KEY = "amqpStatusCode"; public static final String MANAGEMENT_OPERATION_KEY = "amqpOperation"; private static final ClientLogger LOGGER = new ClientLogger(AmqpMetricsProvider.class); private static final Symbol ENQUEUED_TIME_ANNOTATION = Symbol.valueOf(ENQUEUED_TIME_UTC_ANNOTATION_NAME.getValue()); private static final String AZURE_CORE_AMQP_PROPERTIES_NAME = "azure-core.properties"; private static final String AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY = "version"; private static final String AZURE_CORE_VERSION = CoreUtils .getProperties(AZURE_CORE_AMQP_PROPERTIES_NAME) .getOrDefault(AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY, null); private static final int DELIVERY_STATES_COUNT = DeliveryState.DeliveryStateType.values().length + 1; private static final int RESPONSE_CODES_COUNT = AmqpResponseCode.values().length + 1; private static final Meter DEFAULT_METER = MeterProvider.getDefaultProvider().createMeter("azure-core-amqp", AZURE_CORE_VERSION, new MetricsOptions()); private static final AmqpMetricsProvider NOOP = new AmqpMetricsProvider(); private final boolean isEnabled; private final Meter meter; private Map<String, Object> commonAttributesMap; private DoubleHistogram sendDuration = null; private DoubleHistogram requestResponseDuration = null; private LongCounter closedConnections = null; private LongCounter sessionErrors = null; private LongCounter linkErrors = null; private LongCounter transportErrors = null; private DoubleHistogram receivedLag = null; private LongCounter addCredits = null; private TelemetryAttributes[] sendAttributeCache = null; private AttributeCache[] requestResponseAttributeCache = null; private AttributeCache amqpErrorAttributeCache = null; private TelemetryAttributes commonAttributes = null; private AmqpMetricsProvider() { this.isEnabled = false; this.meter = DEFAULT_METER; } public enum ErrorSource { LINK, SESSION, TRANSPORT } public AmqpMetricsProvider(Meter meter, String namespace, String entityPath) { this.meter = meter != null ? meter : DEFAULT_METER; this.isEnabled = this.meter.isEnabled(); if (isEnabled) { this.commonAttributesMap = new HashMap<>(); commonAttributesMap.put(ClientConstants.HOSTNAME_KEY, namespace); if (entityPath != null) { int entityNameEnd = entityPath.indexOf('/'); if (entityNameEnd > 0) { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath.substring(0, entityNameEnd)); commonAttributesMap.put(ClientConstants.ENTITY_PATH_KEY, entityPath); } else { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath); } } this.commonAttributes = this.meter.createAttributes(commonAttributesMap); this.requestResponseAttributeCache = new AttributeCache[RESPONSE_CODES_COUNT]; this.sendAttributeCache = new TelemetryAttributes[DELIVERY_STATES_COUNT]; this.amqpErrorAttributeCache = new AttributeCache(ClientConstants.ERROR_CONDITION_KEY, commonAttributesMap); this.sendDuration = this.meter.createDoubleHistogram("messaging.az.amqp.producer.send.duration", "Duration of AMQP-level send call.", "ms"); this.requestResponseDuration = this.meter.createDoubleHistogram("messaging.az.amqp.management.request.duration", "Duration of AMQP request-response operation.", "ms"); this.closedConnections = this.meter.createLongCounter("messaging.az.amqp.client.connections.closed", "Closed connections", "connections"); this.sessionErrors = this.meter.createLongCounter("messaging.az.amqp.client.session.errors", "AMQP session errors", "errors"); this.linkErrors = this.meter.createLongCounter("messaging.az.amqp.client.link.errors", "AMQP link errors", "errors"); this.transportErrors = this.meter.createLongCounter("messaging.az.amqp.client.transport.errors", "AMQP session errors", "errors"); this.addCredits = this.meter.createLongCounter("messaging.az.amqp.consumer.credits.requested", "Number of requested credits", "credits"); this.receivedLag = this.meter.createDoubleHistogram("messaging.az.amqp.consumer.lag", "Approximate lag between time message was received and time it was enqueued on the broker.", "sec"); } } public static AmqpMetricsProvider noop() { return NOOP; } /** * Checks if record delivers is enabled (for micro-optimizations). / public boolean isSendDeliveryEnabled() { return isEnabled && sendDuration.isEnabled(); } /* * Records duration of AMQP send call. / public void recordSend(long start, DeliveryState.DeliveryStateType deliveryState) { if (isEnabled && sendDuration.isEnabled()) { sendDuration.record(Instant.now().toEpochMilli() - start, getDeliveryStateAttribute(deliveryState), Context.NONE); } } /* * Records duration of AMQP management call. / public void recordRequestResponseDuration(long start, String operationName, AmqpResponseCode responseCode) { if (isEnabled && requestResponseDuration.isEnabled()) { requestResponseDuration.record(Instant.now().toEpochMilli() - start, getResponseCodeAttributes(responseCode, operationName), Context.NONE); } } /* * Records connection close. / public void recordConnectionClosed(ErrorCondition condition) { if (isEnabled && closedConnections.isEnabled()) { Symbol conditionSymbol = condition != null ? condition.getCondition() : null; String conditionStr = conditionSymbol != null ? conditionSymbol.toString() : "ok"; closedConnections.add(1, amqpErrorAttributeCache.getOrCreate(conditionStr), Context.NONE); } } /* * Records the message was received. / public void recordReceivedMessage(Message message) { if (!isEnabled \|\| !receivedLag.isEnabled() \|\| message == null \|\| message.getMessageAnnotations() == null \|\| message.getBody() == null) { return; } Map<Symbol, Object> properties = message.getMessageAnnotations().getValue(); Object enqueuedTimeDate = properties != null ? properties.get(ENQUEUED_TIME_ANNOTATION) : null; if (enqueuedTimeDate instanceof Date) { Instant enqueuedTime = ((Date) enqueuedTimeDate).toInstant(); long deltaMs = Instant.now().toEpochMilli() - enqueuedTime.toEpochMilli(); if (deltaMs < 0) { deltaMs = 0; } receivedLag.record(deltaMs / 1000d, commonAttributes, Context.NONE); } else { LOGGER.verbose("Received message has unexpected `x-opt-enqueued-time` annotation value - `{}`. Ignoring it.", enqueuedTimeDate); } } /* * Records that credits were added to link / public void recordAddCredits(int credits) { if (isEnabled && addCredits.isEnabled()) { addCredits.add(credits, commonAttributes, Context.NONE); } } /* * Records link error. Noop if condition is null (no error). */ public void recordHandlerError(ErrorSource source, ErrorCondition condition) { if (isEnabled && condition != null && condition.getCondition() != null) { TelemetryAttributes attributes = amqpErrorAttributeCache.getOrCreate(condition.getCondition().toString()); switch (source) { case LINK: if (linkErrors.isEnabled()) { linkErrors.add(1, attributes, Context.NONE); } break; case SESSION: if (sessionErrors.isEnabled()) { sessionErrors.add(1, attributes, Context.NONE); } break; case TRANSPORT: if (transportErrors.isEnabled()) { transportErrors.add(1, attributes, Context.NONE); } break; default: LOGGER.verbose("Unexpected error source: {}", source); } } } private TelemetryAttributes getDeliveryStateAttribute(DeliveryState.DeliveryStateType state) { int ind = state == null ? DELIVERY_STATES_COUNT - 1 : state.ordinal(); TelemetryAttributes attrs = sendAttributeCache[ind]; if (attrs != null) { return attrs; } return createDeliveryStateAttribute(state, ind); } private synchronized AttributeCache createResponseCodeAttribute(AmqpResponseCode code, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(STATUS_CODE_KEY, responseCodeToLowerCaseString(code)); requestResponseAttributeCache[ind] = new AttributeCache(MANAGEMENT_OPERATION_KEY, attrs); return requestResponseAttributeCache[ind]; } private synchronized TelemetryAttributes createDeliveryStateAttribute(DeliveryState.DeliveryStateType state, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(ClientConstants.DELIVERY_STATE_KEY, deliveryStateToLowerCaseString(state)); sendAttributeCache[ind] = this.meter.createAttributes(attrs); return sendAttributeCache[ind]; } private static String deliveryStateToLowerCaseString(DeliveryState.DeliveryStateType state) { if (state == null) { return "error"; } switch (state) { case Accepted: return "accepted"; case Declared: return "declared"; case Modified: return "modified"; case Received: return "received"; case Rejected: return "rejected"; case Released: return "released"; case Transactional: return "transactional"; default: return "unknown"; } } private static String responseCodeToLowerCaseString(AmqpResponseCode response) { if (response == null) { return "error"; } switch (response) { case OK: return "ok"; case ACCEPTED: return "accepted"; case BAD_REQUEST: return "bad_request"; case NOT_FOUND: return "not_found"; case FORBIDDEN: return "forbidden"; case INTERNAL_SERVER_ERROR: return "internal_server_error"; case UNAUTHORIZED: return "unauthorized"; case CONTINUE: return "continue"; case SWITCHING_PROTOCOLS: return "switching_protocols"; case CREATED: return "created"; case NON_AUTHORITATIVE_INFORMATION: return "not_authoritative_information"; case NO_CONTENT: return "no_content"; case RESET_CONTENT: return "reset_content"; case PARTIAL_CONTENT: return "partial_content"; case AMBIGUOUS: return "ambiguous"; case MULTIPLE_CHOICES: return "multiple_choices"; case MOVED: return "moved"; case MOVED_PERMANENTLY: return "moved_permanently"; case FOUND: return "found"; case REDIRECT: return "redirect"; case REDIRECT_METHOD: return "redirect_method"; case SEE_OTHER: return "see_other"; case NOT_MODIFIED: return "not_modified"; case USE_PROXY: return "use_proxy"; case UNUSED: return "unused"; case REDIRECT_KEEP_VERB: return "redirect_keep_verb"; case TEMPORARY_REDIRECT: return "temporary_redirect"; case PAYMENT_REQUIRED: return "payment_required"; case METHOD_NOT_ALLOWED: return "method_no_allowed"; case NOT_ACCEPTABLE: return "not_acceptable"; case PROXY_AUTHENTICATION_REQUIRED: return "proxy_authentication_required"; case REQUEST_TIMEOUT: return "request_timeout"; case CONFLICT: return "conflict"; case GONE: return "gone"; case LENGTH_REQUIRED: return "length_required"; case PRECONDITION_FAILED: return "precondition_failed"; case REQUEST_ENTITY_TOO_LARGE: return "request_entity_is_too_large"; case REQUEST_URI_TOO_LONG: return "request_uri_too_long"; case UNSUPPORTED_MEDIA_TYPE: return "unsupported_media_type"; case REQUESTED_RANGE_NOT_SATISFIABLE: return "requested_range_not_satisfiable"; case EXPECTATION_FAILED: return "expectation_failed"; case UPGRADE_REQUIRED: return "upgrade_required"; case NOT_IMPLEMENTED: return "no_implemented"; case BAD_GATEWAY: return "bad_gateway"; case SERVICE_UNAVAILABLE: return "service_unavailable"; case GATEWAY_TIMEOUT: return "gateway_timeout"; case HTTP_VERSION_NOT_SUPPORTED: return "http_version_not_supported"; default: return "error"; } } private class AttributeCache { private final Map<String, TelemetryAttributes> attr = new ConcurrentHashMap<>(); private final Map<String, Object> common; private final String dimensionName; AttributeCache(String dimensionName, Map<String, Object> common) { this.dimensionName = dimensionName; this.common = common; } public TelemetryAttributes getOrCreate(String value) { return attr.computeIfAbsent(value, this::create); } private TelemetryAttributes create(String value) { Map<String, Object> attributes = new HashMap<>(common); attributes.put(dimensionName, value); return meter.createAttributes(attributes); } } }	class AmqpMetricsProvider { public static final String STATUS_CODE_KEY = "amqpStatusCode"; public static final String MANAGEMENT_OPERATION_KEY = "amqpOperation"; private static final ClientLogger LOGGER = new ClientLogger(AmqpMetricsProvider.class); private static final Symbol ENQUEUED_TIME_ANNOTATION = Symbol.valueOf(ENQUEUED_TIME_UTC_ANNOTATION_NAME.getValue()); private static final String AZURE_CORE_AMQP_PROPERTIES_NAME = "azure-core.properties"; private static final String AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY = "version"; private static final String AZURE_CORE_VERSION = CoreUtils .getProperties(AZURE_CORE_AMQP_PROPERTIES_NAME) .getOrDefault(AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY, null); private static final int DELIVERY_STATES_COUNT = DeliveryState.DeliveryStateType.values().length + 1; private static final int RESPONSE_CODES_COUNT = AmqpResponseCode.values().length + 1; private static final Meter DEFAULT_METER = MeterProvider.getDefaultProvider().createMeter("azure-core-amqp", AZURE_CORE_VERSION, new MetricsOptions()); private static final AmqpMetricsProvider NOOP = new AmqpMetricsProvider(); private final boolean isEnabled; private final Meter meter; private Map<String, Object> commonAttributesMap; private DoubleHistogram sendDuration = null; private DoubleHistogram requestResponseDuration = null; private LongCounter closedConnections = null; private LongCounter sessionErrors = null; private LongCounter linkErrors = null; private LongCounter transportErrors = null; private DoubleHistogram receivedLag = null; private LongCounter addCredits = null; /** * Cache of sendDuration attributes. Each element has * namespace, entity name and path, and also a delivery state. * Element index is ordinal number of state in the enum definition. * * The last element in the array represents no delivery (e.g. timeout or network issues) * case and w ill be stored as last element in the array. / private TelemetryAttributes[] sendAttributeCache = null; /* * Stores attribute caches with Management operation and response code. * AmqpResponseCode ordinal number serves as index in this array, * (the last element represents no response). * * Each element is a cache on its own that holds attribute sets for * namespace, entity name and path, and management operation. / private AttributeCache[] requestResponseAttributeCache = null; /* * There is no enum for AMQP condition, so we just use a cache * that holds attribute sets representing namespace, entity name and path, * and error condition. * Error condition serves as a key, and other attributes are shared across all attribute sets. / private AttributeCache amqpErrorAttributeCache = null; private TelemetryAttributes commonAttributes = null; private AmqpMetricsProvider() { this.isEnabled = false; this.meter = DEFAULT_METER; } public enum ErrorSource { LINK, SESSION, TRANSPORT } public AmqpMetricsProvider(Meter meter, String namespace, String entityPath) { this.meter = meter != null ? meter : DEFAULT_METER; this.isEnabled = this.meter.isEnabled(); if (isEnabled) { this.commonAttributesMap = new HashMap<>(); commonAttributesMap.put(ClientConstants.HOSTNAME_KEY, namespace); if (entityPath != null) { int entityNameEnd = entityPath.indexOf('/'); if (entityNameEnd > 0) { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath.substring(0, entityNameEnd)); commonAttributesMap.put(ClientConstants.ENTITY_PATH_KEY, entityPath); } else { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath); } } this.commonAttributes = this.meter.createAttributes(commonAttributesMap); this.requestResponseAttributeCache = new AttributeCache[RESPONSE_CODES_COUNT]; this.sendAttributeCache = new TelemetryAttributes[DELIVERY_STATES_COUNT]; this.amqpErrorAttributeCache = new AttributeCache(ClientConstants.ERROR_CONDITION_KEY, commonAttributesMap); this.sendDuration = this.meter.createDoubleHistogram("messaging.az.amqp.producer.send.duration", "Duration of AMQP-level send call.", "ms"); this.requestResponseDuration = this.meter.createDoubleHistogram("messaging.az.amqp.management.request.duration", "Duration of AMQP request-response operation.", "ms"); this.closedConnections = this.meter.createLongCounter("messaging.az.amqp.client.connections.closed", "Closed connections", "connections"); this.sessionErrors = this.meter.createLongCounter("messaging.az.amqp.client.session.errors", "AMQP session errors", "errors"); this.linkErrors = this.meter.createLongCounter("messaging.az.amqp.client.link.errors", "AMQP link errors", "errors"); this.transportErrors = this.meter.createLongCounter("messaging.az.amqp.client.transport.errors", "AMQP session errors", "errors"); this.addCredits = this.meter.createLongCounter("messaging.az.amqp.consumer.credits.requested", "Number of requested credits", "credits"); this.receivedLag = this.meter.createDoubleHistogram("messaging.az.amqp.consumer.lag", "Approximate lag between time message was received and time it was enqueued on the broker.", "sec"); } } public static AmqpMetricsProvider noop() { return NOOP; } /* * Checks if record delivers is enabled (for micro-optimizations). / public boolean isSendDeliveryEnabled() { return isEnabled && sendDuration.isEnabled(); } /* * Records duration of AMQP send call. / public void recordSend(long start, DeliveryState.DeliveryStateType deliveryState) { if (isEnabled && sendDuration.isEnabled()) { sendDuration.record(Instant.now().toEpochMilli() - start, getDeliveryStateAttribute(deliveryState), Context.NONE); } } /* * Records duration of AMQP management call. / public void recordRequestResponseDuration(long start, String operationName, AmqpResponseCode responseCode) { if (isEnabled && requestResponseDuration.isEnabled()) { requestResponseDuration.record(Instant.now().toEpochMilli() - start, getResponseCodeAttributes(responseCode, operationName), Context.NONE); } } /* * Records connection close. / public void recordConnectionClosed(ErrorCondition condition) { if (isEnabled && closedConnections.isEnabled()) { Symbol conditionSymbol = condition != null ? condition.getCondition() : null; String conditionStr = conditionSymbol != null ? conditionSymbol.toString() : "ok"; closedConnections.add(1, amqpErrorAttributeCache.getOrCreate(conditionStr), Context.NONE); } } /* * Records the message was received. / public void recordReceivedMessage(Message message) { if (!isEnabled \|\| !receivedLag.isEnabled() \|\| message == null \|\| message.getMessageAnnotations() == null \|\| message.getBody() == null) { return; } Map<Symbol, Object> properties = message.getMessageAnnotations().getValue(); Object enqueuedTimeDate = properties != null ? properties.get(ENQUEUED_TIME_ANNOTATION) : null; if (enqueuedTimeDate instanceof Date) { Instant enqueuedTime = ((Date) enqueuedTimeDate).toInstant(); long deltaMs = Instant.now().toEpochMilli() - enqueuedTime.toEpochMilli(); if (deltaMs < 0) { deltaMs = 0; } receivedLag.record(deltaMs / 1000d, commonAttributes, Context.NONE); } else if (enqueuedTimeDate != null) { LOGGER.verbose("Received message has unexpected `x-opt-enqueued-time` annotation value - `{}`. Ignoring it.", enqueuedTimeDate); } } /* * Records that credits were added to link / public void recordAddCredits(int credits) { if (isEnabled && addCredits.isEnabled()) { addCredits.add(credits, commonAttributes, Context.NONE); } } /* * Records link error. Noop if condition is null (no error). */ public void recordHandlerError(ErrorSource source, ErrorCondition condition) { if (isEnabled && condition != null && condition.getCondition() != null) { TelemetryAttributes attributes = amqpErrorAttributeCache.getOrCreate(condition.getCondition().toString()); switch (source) { case LINK: if (linkErrors.isEnabled()) { linkErrors.add(1, attributes, Context.NONE); } break; case SESSION: if (sessionErrors.isEnabled()) { sessionErrors.add(1, attributes, Context.NONE); } break; case TRANSPORT: if (transportErrors.isEnabled()) { transportErrors.add(1, attributes, Context.NONE); } break; default: LOGGER.verbose("Unexpected error source: {}", source); } } } private TelemetryAttributes getDeliveryStateAttribute(DeliveryState.DeliveryStateType state) { int ind = state == null ? DELIVERY_STATES_COUNT - 1 : state.ordinal(); TelemetryAttributes attrs = sendAttributeCache[ind]; if (attrs != null) { return attrs; } return createDeliveryStateAttribute(state, ind); } private synchronized AttributeCache createResponseCodeAttribute(AmqpResponseCode code, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(STATUS_CODE_KEY, responseCodeToLowerCaseString(code)); requestResponseAttributeCache[ind] = new AttributeCache(MANAGEMENT_OPERATION_KEY, attrs); return requestResponseAttributeCache[ind]; } private synchronized TelemetryAttributes createDeliveryStateAttribute(DeliveryState.DeliveryStateType state, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(ClientConstants.DELIVERY_STATE_KEY, deliveryStateToLowerCaseString(state)); sendAttributeCache[ind] = this.meter.createAttributes(attrs); return sendAttributeCache[ind]; } private static String deliveryStateToLowerCaseString(DeliveryState.DeliveryStateType state) { if (state == null) { return "error"; } switch (state) { case Accepted: return "accepted"; case Declared: return "declared"; case Modified: return "modified"; case Received: return "received"; case Rejected: return "rejected"; case Released: return "released"; case Transactional: return "transactional"; default: return "unknown"; } } private static String responseCodeToLowerCaseString(AmqpResponseCode response) { if (response == null) { return "error"; } switch (response) { case OK: return "ok"; case ACCEPTED: return "accepted"; case BAD_REQUEST: return "bad_request"; case NOT_FOUND: return "not_found"; case FORBIDDEN: return "forbidden"; case INTERNAL_SERVER_ERROR: return "internal_server_error"; case UNAUTHORIZED: return "unauthorized"; case CONTINUE: return "continue"; case SWITCHING_PROTOCOLS: return "switching_protocols"; case CREATED: return "created"; case NON_AUTHORITATIVE_INFORMATION: return "not_authoritative_information"; case NO_CONTENT: return "no_content"; case RESET_CONTENT: return "reset_content"; case PARTIAL_CONTENT: return "partial_content"; case AMBIGUOUS: return "ambiguous"; case MULTIPLE_CHOICES: return "multiple_choices"; case MOVED: return "moved"; case MOVED_PERMANENTLY: return "moved_permanently"; case FOUND: return "found"; case REDIRECT: return "redirect"; case REDIRECT_METHOD: return "redirect_method"; case SEE_OTHER: return "see_other"; case NOT_MODIFIED: return "not_modified"; case USE_PROXY: return "use_proxy"; case UNUSED: return "unused"; case REDIRECT_KEEP_VERB: return "redirect_keep_verb"; case TEMPORARY_REDIRECT: return "temporary_redirect"; case PAYMENT_REQUIRED: return "payment_required"; case METHOD_NOT_ALLOWED: return "method_no_allowed"; case NOT_ACCEPTABLE: return "not_acceptable"; case PROXY_AUTHENTICATION_REQUIRED: return "proxy_authentication_required"; case REQUEST_TIMEOUT: return "request_timeout"; case CONFLICT: return "conflict"; case GONE: return "gone"; case LENGTH_REQUIRED: return "length_required"; case PRECONDITION_FAILED: return "precondition_failed"; case REQUEST_ENTITY_TOO_LARGE: return "request_entity_is_too_large"; case REQUEST_URI_TOO_LONG: return "request_uri_too_long"; case UNSUPPORTED_MEDIA_TYPE: return "unsupported_media_type"; case REQUESTED_RANGE_NOT_SATISFIABLE: return "requested_range_not_satisfiable"; case EXPECTATION_FAILED: return "expectation_failed"; case UPGRADE_REQUIRED: return "upgrade_required"; case NOT_IMPLEMENTED: return "no_implemented"; case BAD_GATEWAY: return "bad_gateway"; case SERVICE_UNAVAILABLE: return "service_unavailable"; case GATEWAY_TIMEOUT: return "gateway_timeout"; case HTTP_VERSION_NOT_SUPPORTED: return "http_version_not_supported"; default: return "error"; } } private class AttributeCache { private final Map<String, TelemetryAttributes> attr = new ConcurrentHashMap<>(); private final Map<String, Object> common; private final String dimensionName; AttributeCache(String dimensionName, Map<String, Object> common) { this.dimensionName = dimensionName; this.common = common; } public TelemetryAttributes getOrCreate(String value) { return attr.computeIfAbsent(value, this::create); } private TelemetryAttributes create(String value) { Map<String, Object> attributes = new HashMap<>(common); attributes.put(dimensionName, value); return meter.createAttributes(attributes); } } }
I am curious how this will version when we add more values to `DeliveryState.DeliveryStateType`. Will we then need to correlate the library version to the ordinal? `DELIVERY_STATES_COUNT - 1` could be the vague "error" state in v1, but when we add a new enum value, that would be a valid enum in v2, v1's values may look like valid response states.	private TelemetryAttributes getDeliveryStateAttribute(DeliveryState.DeliveryStateType state) { int ind = state == null ? DELIVERY_STATES_COUNT - 1 : state.ordinal(); TelemetryAttributes attrs = sendAttributeCache[ind]; if (attrs != null) { return attrs; } return createDeliveryStateAttribute(state, ind); }	int ind = state == null ? DELIVERY_STATES_COUNT - 1 : state.ordinal();	private TelemetryAttributes getDeliveryStateAttribute(DeliveryState.DeliveryStateType state) { int ind = state == null ? DELIVERY_STATES_COUNT - 1 : state.ordinal(); TelemetryAttributes attrs = sendAttributeCache[ind]; if (attrs != null) { return attrs; } return createDeliveryStateAttribute(state, ind); }	class AmqpMetricsProvider { public static final String STATUS_CODE_KEY = "amqpStatusCode"; public static final String MANAGEMENT_OPERATION_KEY = "amqpOperation"; private static final ClientLogger LOGGER = new ClientLogger(AmqpMetricsProvider.class); private static final Symbol ENQUEUED_TIME_ANNOTATION = Symbol.valueOf(ENQUEUED_TIME_UTC_ANNOTATION_NAME.getValue()); private static final String AZURE_CORE_AMQP_PROPERTIES_NAME = "azure-core.properties"; private static final String AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY = "version"; private static final String AZURE_CORE_VERSION = CoreUtils .getProperties(AZURE_CORE_AMQP_PROPERTIES_NAME) .getOrDefault(AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY, null); private static final int DELIVERY_STATES_COUNT = DeliveryState.DeliveryStateType.values().length + 1; private static final int RESPONSE_CODES_COUNT = AmqpResponseCode.values().length + 1; private static final Meter DEFAULT_METER = MeterProvider.getDefaultProvider().createMeter("azure-core-amqp", AZURE_CORE_VERSION, new MetricsOptions()); private static final AmqpMetricsProvider NOOP = new AmqpMetricsProvider(); private final boolean isEnabled; private final Meter meter; private Map<String, Object> commonAttributesMap; private DoubleHistogram sendDuration = null; private DoubleHistogram requestResponseDuration = null; private LongCounter closedConnections = null; private LongCounter sessionErrors = null; private LongCounter linkErrors = null; private LongCounter transportErrors = null; private DoubleHistogram receivedLag = null; private LongCounter addCredits = null; /** * Cache of sendDuration attributes. Each element has * namespace, entity name and path, and also a delivery state. * Element index is ordinal number of state in the enum definition. * * The last element in the array represents no delivery (e.g. timeout or network issues) * case and w ill be stored as last element in the array. / private TelemetryAttributes[] sendAttributeCache = null; /* * Stores attribute caches with Management operation and response code. * AmqpResponseCode ordinal number serves as index in this array, * (the last element represents no response). * * Each element is a cache on its own that holds attribute sets for * namespace, entity name and path, and management operation. / private AttributeCache[] requestResponseAttributeCache = null; /* * There is no enum for AMQP condition, so we just use a cache * that holds attribute sets representing namespace, entity name and path, * and error condition. * Error condition serves as a key, and other attributes are shared across all attribute sets. / private AttributeCache amqpErrorAttributeCache = null; private TelemetryAttributes commonAttributes = null; private AmqpMetricsProvider() { this.isEnabled = false; this.meter = DEFAULT_METER; } public enum ErrorSource { LINK, SESSION, TRANSPORT } public AmqpMetricsProvider(Meter meter, String namespace, String entityPath) { this.meter = meter != null ? meter : DEFAULT_METER; this.isEnabled = this.meter.isEnabled(); if (isEnabled) { this.commonAttributesMap = new HashMap<>(); commonAttributesMap.put(ClientConstants.HOSTNAME_KEY, namespace); if (entityPath != null) { int entityNameEnd = entityPath.indexOf('/'); if (entityNameEnd > 0) { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath.substring(0, entityNameEnd)); commonAttributesMap.put(ClientConstants.ENTITY_PATH_KEY, entityPath); } else { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath); } } this.commonAttributes = this.meter.createAttributes(commonAttributesMap); this.requestResponseAttributeCache = new AttributeCache[RESPONSE_CODES_COUNT]; this.sendAttributeCache = new TelemetryAttributes[DELIVERY_STATES_COUNT]; this.amqpErrorAttributeCache = new AttributeCache(ClientConstants.ERROR_CONDITION_KEY, commonAttributesMap); this.sendDuration = this.meter.createDoubleHistogram("messaging.az.amqp.producer.send.duration", "Duration of AMQP-level send call.", "ms"); this.requestResponseDuration = this.meter.createDoubleHistogram("messaging.az.amqp.management.request.duration", "Duration of AMQP request-response operation.", "ms"); this.closedConnections = this.meter.createLongCounter("messaging.az.amqp.client.connections.closed", "Closed connections", "connections"); this.sessionErrors = this.meter.createLongCounter("messaging.az.amqp.client.session.errors", "AMQP session errors", "errors"); this.linkErrors = this.meter.createLongCounter("messaging.az.amqp.client.link.errors", "AMQP link errors", "errors"); this.transportErrors = this.meter.createLongCounter("messaging.az.amqp.client.transport.errors", "AMQP session errors", "errors"); this.addCredits = this.meter.createLongCounter("messaging.az.amqp.consumer.credits.requested", "Number of requested credits", "credits"); this.receivedLag = this.meter.createDoubleHistogram("messaging.az.amqp.consumer.lag", "Approximate lag between time message was received and time it was enqueued on the broker.", "sec"); } } public static AmqpMetricsProvider noop() { return NOOP; } /* * Checks if record delivers is enabled (for micro-optimizations). / public boolean isSendDeliveryEnabled() { return isEnabled && sendDuration.isEnabled(); } /* * Records duration of AMQP send call. / public void recordSend(long start, DeliveryState.DeliveryStateType deliveryState) { if (isEnabled && sendDuration.isEnabled()) { sendDuration.record(Instant.now().toEpochMilli() - start, getDeliveryStateAttribute(deliveryState), Context.NONE); } } /* * Records duration of AMQP management call. / public void recordRequestResponseDuration(long start, String operationName, AmqpResponseCode responseCode) { if (isEnabled && requestResponseDuration.isEnabled()) { requestResponseDuration.record(Instant.now().toEpochMilli() - start, getResponseCodeAttributes(responseCode, operationName), Context.NONE); } } /* * Records connection close. / public void recordConnectionClosed(ErrorCondition condition) { if (isEnabled && closedConnections.isEnabled()) { Symbol conditionSymbol = condition != null ? condition.getCondition() : null; String conditionStr = conditionSymbol != null ? conditionSymbol.toString() : "ok"; closedConnections.add(1, amqpErrorAttributeCache.getOrCreate(conditionStr), Context.NONE); } } /* * Records the message was received. / public void recordReceivedMessage(Message message) { if (!isEnabled \|\| !receivedLag.isEnabled() \|\| message == null \|\| message.getMessageAnnotations() == null \|\| message.getBody() == null) { return; } Map<Symbol, Object> properties = message.getMessageAnnotations().getValue(); Object enqueuedTimeDate = properties != null ? properties.get(ENQUEUED_TIME_ANNOTATION) : null; if (enqueuedTimeDate instanceof Date) { Instant enqueuedTime = ((Date) enqueuedTimeDate).toInstant(); long deltaMs = Instant.now().toEpochMilli() - enqueuedTime.toEpochMilli(); if (deltaMs < 0) { deltaMs = 0; } receivedLag.record(deltaMs / 1000d, commonAttributes, Context.NONE); } else if (enqueuedTimeDate != null) { LOGGER.verbose("Received message has unexpected `x-opt-enqueued-time` annotation value - `{}`. Ignoring it.", enqueuedTimeDate); } } /* * Records that credits were added to link / public void recordAddCredits(int credits) { if (isEnabled && addCredits.isEnabled()) { addCredits.add(credits, commonAttributes, Context.NONE); } } /* * Records link error. Noop if condition is null (no error). */ public void recordHandlerError(ErrorSource source, ErrorCondition condition) { if (isEnabled && condition != null && condition.getCondition() != null) { TelemetryAttributes attributes = amqpErrorAttributeCache.getOrCreate(condition.getCondition().toString()); switch (source) { case LINK: if (linkErrors.isEnabled()) { linkErrors.add(1, attributes, Context.NONE); } break; case SESSION: if (sessionErrors.isEnabled()) { sessionErrors.add(1, attributes, Context.NONE); } break; case TRANSPORT: if (transportErrors.isEnabled()) { transportErrors.add(1, attributes, Context.NONE); } break; default: LOGGER.verbose("Unexpected error source: {}", source); } } } private TelemetryAttributes getResponseCodeAttributes(AmqpResponseCode code, String operation) { int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal(); AttributeCache codeAttributes = requestResponseAttributeCache[ind]; if (codeAttributes == null) { codeAttributes = createResponseCodeAttribute(code, ind); } return codeAttributes.getOrCreate(operation); } private synchronized AttributeCache createResponseCodeAttribute(AmqpResponseCode code, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(STATUS_CODE_KEY, responseCodeToLowerCaseString(code)); requestResponseAttributeCache[ind] = new AttributeCache(MANAGEMENT_OPERATION_KEY, attrs); return requestResponseAttributeCache[ind]; } private synchronized TelemetryAttributes createDeliveryStateAttribute(DeliveryState.DeliveryStateType state, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(ClientConstants.DELIVERY_STATE_KEY, deliveryStateToLowerCaseString(state)); sendAttributeCache[ind] = this.meter.createAttributes(attrs); return sendAttributeCache[ind]; } private static String deliveryStateToLowerCaseString(DeliveryState.DeliveryStateType state) { if (state == null) { return "error"; } switch (state) { case Accepted: return "accepted"; case Declared: return "declared"; case Modified: return "modified"; case Received: return "received"; case Rejected: return "rejected"; case Released: return "released"; case Transactional: return "transactional"; default: return "unknown"; } } private static String responseCodeToLowerCaseString(AmqpResponseCode response) { if (response == null) { return "error"; } switch (response) { case OK: return "ok"; case ACCEPTED: return "accepted"; case BAD_REQUEST: return "bad_request"; case NOT_FOUND: return "not_found"; case FORBIDDEN: return "forbidden"; case INTERNAL_SERVER_ERROR: return "internal_server_error"; case UNAUTHORIZED: return "unauthorized"; case CONTINUE: return "continue"; case SWITCHING_PROTOCOLS: return "switching_protocols"; case CREATED: return "created"; case NON_AUTHORITATIVE_INFORMATION: return "not_authoritative_information"; case NO_CONTENT: return "no_content"; case RESET_CONTENT: return "reset_content"; case PARTIAL_CONTENT: return "partial_content"; case AMBIGUOUS: return "ambiguous"; case MULTIPLE_CHOICES: return "multiple_choices"; case MOVED: return "moved"; case MOVED_PERMANENTLY: return "moved_permanently"; case FOUND: return "found"; case REDIRECT: return "redirect"; case REDIRECT_METHOD: return "redirect_method"; case SEE_OTHER: return "see_other"; case NOT_MODIFIED: return "not_modified"; case USE_PROXY: return "use_proxy"; case UNUSED: return "unused"; case REDIRECT_KEEP_VERB: return "redirect_keep_verb"; case TEMPORARY_REDIRECT: return "temporary_redirect"; case PAYMENT_REQUIRED: return "payment_required"; case METHOD_NOT_ALLOWED: return "method_no_allowed"; case NOT_ACCEPTABLE: return "not_acceptable"; case PROXY_AUTHENTICATION_REQUIRED: return "proxy_authentication_required"; case REQUEST_TIMEOUT: return "request_timeout"; case CONFLICT: return "conflict"; case GONE: return "gone"; case LENGTH_REQUIRED: return "length_required"; case PRECONDITION_FAILED: return "precondition_failed"; case REQUEST_ENTITY_TOO_LARGE: return "request_entity_is_too_large"; case REQUEST_URI_TOO_LONG: return "request_uri_too_long"; case UNSUPPORTED_MEDIA_TYPE: return "unsupported_media_type"; case REQUESTED_RANGE_NOT_SATISFIABLE: return "requested_range_not_satisfiable"; case EXPECTATION_FAILED: return "expectation_failed"; case UPGRADE_REQUIRED: return "upgrade_required"; case NOT_IMPLEMENTED: return "no_implemented"; case BAD_GATEWAY: return "bad_gateway"; case SERVICE_UNAVAILABLE: return "service_unavailable"; case GATEWAY_TIMEOUT: return "gateway_timeout"; case HTTP_VERSION_NOT_SUPPORTED: return "http_version_not_supported"; default: return "error"; } } private class AttributeCache { private final Map<String, TelemetryAttributes> attr = new ConcurrentHashMap<>(); private final Map<String, Object> common; private final String dimensionName; AttributeCache(String dimensionName, Map<String, Object> common) { this.dimensionName = dimensionName; this.common = common; } public TelemetryAttributes getOrCreate(String value) { return attr.computeIfAbsent(value, this::create); } private TelemetryAttributes create(String value) { Map<String, Object> attributes = new HashMap<>(common); attributes.put(dimensionName, value); return meter.createAttributes(attributes); } } }	class AmqpMetricsProvider { public static final String STATUS_CODE_KEY = "amqpStatusCode"; public static final String MANAGEMENT_OPERATION_KEY = "amqpOperation"; private static final ClientLogger LOGGER = new ClientLogger(AmqpMetricsProvider.class); private static final Symbol ENQUEUED_TIME_ANNOTATION = Symbol.valueOf(ENQUEUED_TIME_UTC_ANNOTATION_NAME.getValue()); private static final String AZURE_CORE_AMQP_PROPERTIES_NAME = "azure-core.properties"; private static final String AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY = "version"; private static final String AZURE_CORE_VERSION = CoreUtils .getProperties(AZURE_CORE_AMQP_PROPERTIES_NAME) .getOrDefault(AZURE_CORE_AMQP_PROPERTIES_VERSION_KEY, null); private static final int DELIVERY_STATES_COUNT = DeliveryState.DeliveryStateType.values().length + 1; private static final int RESPONSE_CODES_COUNT = AmqpResponseCode.values().length + 1; private static final Meter DEFAULT_METER = MeterProvider.getDefaultProvider().createMeter("azure-core-amqp", AZURE_CORE_VERSION, new MetricsOptions()); private static final AmqpMetricsProvider NOOP = new AmqpMetricsProvider(); private final boolean isEnabled; private final Meter meter; private Map<String, Object> commonAttributesMap; private DoubleHistogram sendDuration = null; private DoubleHistogram requestResponseDuration = null; private LongCounter closedConnections = null; private LongCounter sessionErrors = null; private LongCounter linkErrors = null; private LongCounter transportErrors = null; private DoubleHistogram receivedLag = null; private LongCounter addCredits = null; /** * Cache of sendDuration attributes. Each element has * namespace, entity name and path, and also a delivery state. * Element index is ordinal number of state in the enum definition. * * The last element in the array represents no delivery (e.g. timeout or network issues) * case and w ill be stored as last element in the array. / private TelemetryAttributes[] sendAttributeCache = null; /* * Stores attribute caches with Management operation and response code. * AmqpResponseCode ordinal number serves as index in this array, * (the last element represents no response). * * Each element is a cache on its own that holds attribute sets for * namespace, entity name and path, and management operation. / private AttributeCache[] requestResponseAttributeCache = null; /* * There is no enum for AMQP condition, so we just use a cache * that holds attribute sets representing namespace, entity name and path, * and error condition. * Error condition serves as a key, and other attributes are shared across all attribute sets. / private AttributeCache amqpErrorAttributeCache = null; private TelemetryAttributes commonAttributes = null; private AmqpMetricsProvider() { this.isEnabled = false; this.meter = DEFAULT_METER; } public enum ErrorSource { LINK, SESSION, TRANSPORT } public AmqpMetricsProvider(Meter meter, String namespace, String entityPath) { this.meter = meter != null ? meter : DEFAULT_METER; this.isEnabled = this.meter.isEnabled(); if (isEnabled) { this.commonAttributesMap = new HashMap<>(); commonAttributesMap.put(ClientConstants.HOSTNAME_KEY, namespace); if (entityPath != null) { int entityNameEnd = entityPath.indexOf('/'); if (entityNameEnd > 0) { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath.substring(0, entityNameEnd)); commonAttributesMap.put(ClientConstants.ENTITY_PATH_KEY, entityPath); } else { commonAttributesMap.put(ClientConstants.ENTITY_NAME_KEY, entityPath); } } this.commonAttributes = this.meter.createAttributes(commonAttributesMap); this.requestResponseAttributeCache = new AttributeCache[RESPONSE_CODES_COUNT]; this.sendAttributeCache = new TelemetryAttributes[DELIVERY_STATES_COUNT]; this.amqpErrorAttributeCache = new AttributeCache(ClientConstants.ERROR_CONDITION_KEY, commonAttributesMap); this.sendDuration = this.meter.createDoubleHistogram("messaging.az.amqp.producer.send.duration", "Duration of AMQP-level send call.", "ms"); this.requestResponseDuration = this.meter.createDoubleHistogram("messaging.az.amqp.management.request.duration", "Duration of AMQP request-response operation.", "ms"); this.closedConnections = this.meter.createLongCounter("messaging.az.amqp.client.connections.closed", "Closed connections", "connections"); this.sessionErrors = this.meter.createLongCounter("messaging.az.amqp.client.session.errors", "AMQP session errors", "errors"); this.linkErrors = this.meter.createLongCounter("messaging.az.amqp.client.link.errors", "AMQP link errors", "errors"); this.transportErrors = this.meter.createLongCounter("messaging.az.amqp.client.transport.errors", "AMQP session errors", "errors"); this.addCredits = this.meter.createLongCounter("messaging.az.amqp.consumer.credits.requested", "Number of requested credits", "credits"); this.receivedLag = this.meter.createDoubleHistogram("messaging.az.amqp.consumer.lag", "Approximate lag between time message was received and time it was enqueued on the broker.", "sec"); } } public static AmqpMetricsProvider noop() { return NOOP; } /* * Checks if record delivers is enabled (for micro-optimizations). / public boolean isSendDeliveryEnabled() { return isEnabled && sendDuration.isEnabled(); } /* * Records duration of AMQP send call. / public void recordSend(long start, DeliveryState.DeliveryStateType deliveryState) { if (isEnabled && sendDuration.isEnabled()) { sendDuration.record(Instant.now().toEpochMilli() - start, getDeliveryStateAttribute(deliveryState), Context.NONE); } } /* * Records duration of AMQP management call. / public void recordRequestResponseDuration(long start, String operationName, AmqpResponseCode responseCode) { if (isEnabled && requestResponseDuration.isEnabled()) { requestResponseDuration.record(Instant.now().toEpochMilli() - start, getResponseCodeAttributes(responseCode, operationName), Context.NONE); } } /* * Records connection close. / public void recordConnectionClosed(ErrorCondition condition) { if (isEnabled && closedConnections.isEnabled()) { Symbol conditionSymbol = condition != null ? condition.getCondition() : null; String conditionStr = conditionSymbol != null ? conditionSymbol.toString() : "ok"; closedConnections.add(1, amqpErrorAttributeCache.getOrCreate(conditionStr), Context.NONE); } } /* * Records the message was received. / public void recordReceivedMessage(Message message) { if (!isEnabled \|\| !receivedLag.isEnabled() \|\| message == null \|\| message.getMessageAnnotations() == null \|\| message.getBody() == null) { return; } Map<Symbol, Object> properties = message.getMessageAnnotations().getValue(); Object enqueuedTimeDate = properties != null ? properties.get(ENQUEUED_TIME_ANNOTATION) : null; if (enqueuedTimeDate instanceof Date) { Instant enqueuedTime = ((Date) enqueuedTimeDate).toInstant(); long deltaMs = Instant.now().toEpochMilli() - enqueuedTime.toEpochMilli(); if (deltaMs < 0) { deltaMs = 0; } receivedLag.record(deltaMs / 1000d, commonAttributes, Context.NONE); } else if (enqueuedTimeDate != null) { LOGGER.verbose("Received message has unexpected `x-opt-enqueued-time` annotation value - `{}`. Ignoring it.", enqueuedTimeDate); } } /* * Records that credits were added to link / public void recordAddCredits(int credits) { if (isEnabled && addCredits.isEnabled()) { addCredits.add(credits, commonAttributes, Context.NONE); } } /* * Records link error. Noop if condition is null (no error). */ public void recordHandlerError(ErrorSource source, ErrorCondition condition) { if (isEnabled && condition != null && condition.getCondition() != null) { TelemetryAttributes attributes = amqpErrorAttributeCache.getOrCreate(condition.getCondition().toString()); switch (source) { case LINK: if (linkErrors.isEnabled()) { linkErrors.add(1, attributes, Context.NONE); } break; case SESSION: if (sessionErrors.isEnabled()) { sessionErrors.add(1, attributes, Context.NONE); } break; case TRANSPORT: if (transportErrors.isEnabled()) { transportErrors.add(1, attributes, Context.NONE); } break; default: LOGGER.verbose("Unexpected error source: {}", source); } } } private TelemetryAttributes getResponseCodeAttributes(AmqpResponseCode code, String operation) { int ind = code == null ? RESPONSE_CODES_COUNT - 1 : code.ordinal(); AttributeCache codeAttributes = requestResponseAttributeCache[ind]; if (codeAttributes == null) { codeAttributes = createResponseCodeAttribute(code, ind); } return codeAttributes.getOrCreate(operation); } private synchronized AttributeCache createResponseCodeAttribute(AmqpResponseCode code, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(STATUS_CODE_KEY, responseCodeToLowerCaseString(code)); requestResponseAttributeCache[ind] = new AttributeCache(MANAGEMENT_OPERATION_KEY, attrs); return requestResponseAttributeCache[ind]; } private synchronized TelemetryAttributes createDeliveryStateAttribute(DeliveryState.DeliveryStateType state, int ind) { Map<String, Object> attrs = new HashMap<>(commonAttributesMap); attrs.put(ClientConstants.DELIVERY_STATE_KEY, deliveryStateToLowerCaseString(state)); sendAttributeCache[ind] = this.meter.createAttributes(attrs); return sendAttributeCache[ind]; } private static String deliveryStateToLowerCaseString(DeliveryState.DeliveryStateType state) { if (state == null) { return "error"; } switch (state) { case Accepted: return "accepted"; case Declared: return "declared"; case Modified: return "modified"; case Received: return "received"; case Rejected: return "rejected"; case Released: return "released"; case Transactional: return "transactional"; default: return "unknown"; } } private static String responseCodeToLowerCaseString(AmqpResponseCode response) { if (response == null) { return "error"; } switch (response) { case OK: return "ok"; case ACCEPTED: return "accepted"; case BAD_REQUEST: return "bad_request"; case NOT_FOUND: return "not_found"; case FORBIDDEN: return "forbidden"; case INTERNAL_SERVER_ERROR: return "internal_server_error"; case UNAUTHORIZED: return "unauthorized"; case CONTINUE: return "continue"; case SWITCHING_PROTOCOLS: return "switching_protocols"; case CREATED: return "created"; case NON_AUTHORITATIVE_INFORMATION: return "not_authoritative_information"; case NO_CONTENT: return "no_content"; case RESET_CONTENT: return "reset_content"; case PARTIAL_CONTENT: return "partial_content"; case AMBIGUOUS: return "ambiguous"; case MULTIPLE_CHOICES: return "multiple_choices"; case MOVED: return "moved"; case MOVED_PERMANENTLY: return "moved_permanently"; case FOUND: return "found"; case REDIRECT: return "redirect"; case REDIRECT_METHOD: return "redirect_method"; case SEE_OTHER: return "see_other"; case NOT_MODIFIED: return "not_modified"; case USE_PROXY: return "use_proxy"; case UNUSED: return "unused"; case REDIRECT_KEEP_VERB: return "redirect_keep_verb"; case TEMPORARY_REDIRECT: return "temporary_redirect"; case PAYMENT_REQUIRED: return "payment_required"; case METHOD_NOT_ALLOWED: return "method_no_allowed"; case NOT_ACCEPTABLE: return "not_acceptable"; case PROXY_AUTHENTICATION_REQUIRED: return "proxy_authentication_required"; case REQUEST_TIMEOUT: return "request_timeout"; case CONFLICT: return "conflict"; case GONE: return "gone"; case LENGTH_REQUIRED: return "length_required"; case PRECONDITION_FAILED: return "precondition_failed"; case REQUEST_ENTITY_TOO_LARGE: return "request_entity_is_too_large"; case REQUEST_URI_TOO_LONG: return "request_uri_too_long"; case UNSUPPORTED_MEDIA_TYPE: return "unsupported_media_type"; case REQUESTED_RANGE_NOT_SATISFIABLE: return "requested_range_not_satisfiable"; case EXPECTATION_FAILED: return "expectation_failed"; case UPGRADE_REQUIRED: return "upgrade_required"; case NOT_IMPLEMENTED: return "no_implemented"; case BAD_GATEWAY: return "bad_gateway"; case SERVICE_UNAVAILABLE: return "service_unavailable"; case GATEWAY_TIMEOUT: return "gateway_timeout"; case HTTP_VERSION_NOT_SUPPORTED: return "http_version_not_supported"; default: return "error"; } } private class AttributeCache { private final Map<String, TelemetryAttributes> attr = new ConcurrentHashMap<>(); private final Map<String, Object> common; private final String dimensionName; AttributeCache(String dimensionName, Map<String, Object> common) { this.dimensionName = dimensionName; this.common = common; } public TelemetryAttributes getOrCreate(String value) { return attr.computeIfAbsent(value, this::create); } private TelemetryAttributes create(String value) { Map<String, Object> attributes = new HashMap<>(common); attributes.put(dimensionName, value); return meter.createAttributes(attributes); } } }
We should have this check for `waitForCompletion(Duration timeout)` overload too if `timeout` is not null.	public PollResponse<T> waitUntil(Duration timeout, LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> syncPollResponse = pollingLoopSync(context, timeout, statusToWaitFor); if (!syncPollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } PollResponse<T> response = toPollResponse(syncPollResponse); if (response.getStatus().isComplete()) { this.terminalPollContext = context; } return response; } }	}	public PollResponse<T> waitUntil(Duration timeout, LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); return waitUntilHelper(timeout, statusToWaitFor); }	class SimpleSyncPoller<T, U> implements SyncPoller<T, U> { private static final ClientLogger LOGGER = new ClientLogger(SimpleSyncPoller.class); private final Function<PollingContext<T>, PollResponse<T>> pollOperation; private final BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation; private final Function<PollingContext<T>, U> fetchResultOperation; private final PollResponse<T> activationResponse; private final PollingContext<T> pollingContext = new PollingContext<>(); private volatile PollingContext<T> terminalPollContext; private volatile Duration pollInterval; /** * Creates SimpleSyncPoller. * * @param pollInterval the polling interval. * @param syncActivationOperation the operation to synchronously activate (start) the long running operation, * this operation will be called with a new {@link PollingContext}. * @param pollOperation the operation to poll the current state of long running operation, this parameter * is required and the operation will be called with current {@link PollingContext}. * @param cancelOperation a {@link Function} that represents the operation to cancel the long running operation * if service supports cancellation, this parameter is required and if service does not support cancellation * then the implementer should return Mono.error with an error message indicating absence of cancellation * support, the operation will be called with current {@link PollingContext}. * @param fetchResultOperation a {@link Function} that represents the operation to retrieve final result of * the long running operation if service support it, this parameter is required and operation will be called * current {@link PollingContext}, if service does not have an api to fetch final result and if final result * is same as final poll response value then implementer can choose to simply return value from provided * final poll response. / public SimpleSyncPoller(Duration pollInterval, Function<PollingContext<T>, PollResponse<T>> syncActivationOperation, Function<PollingContext<T>, PollResponse<T>> pollOperation, BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation, Function<PollingContext<T>, U> fetchResultOperation) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'defaultPollInterval' is not allowed.")); } this.pollInterval = pollInterval; Objects.requireNonNull(syncActivationOperation, "'syncActivationOperation' cannot be null."); this.pollOperation = Objects.requireNonNull(pollOperation, "'pollOperation' cannot be null."); this.cancelOperation = Objects.requireNonNull(cancelOperation, "'cancelOperation' cannot be null."); this.fetchResultOperation = Objects.requireNonNull(fetchResultOperation, "'fetchResultOperation' cannot be null."); this.activationResponse = syncActivationOperation.apply(this.pollingContext); this.pollingContext.setOnetimeActivationResponse(this.activationResponse); this.pollingContext.setLatestResponse(this.activationResponse); if (this.activationResponse.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext; } } @Override public synchronized PollResponse<T> poll() { PollResponse<T> response = this.pollOperation .apply(this.pollingContext); this.pollingContext.setLatestResponse(response); if (response.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext.copy(); } return response; } @Override public PollResponse<T> waitForCompletion() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalAsyncPollResponse = pollingLoopSync(context); PollResponse<T> response = toPollResponse(finalAsyncPollResponse); this.terminalPollContext = context; return response; } } @Override public PollResponse<T> waitForCompletion(Duration timeout) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalSyncPollResponse = pollingLoopSync(context, timeout); PollResponse<T> response = toPollResponse(finalSyncPollResponse); this.terminalPollContext = context; return response; } } @Override public PollResponse<T> waitUntil(LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> syncPollResponse = pollingLoopSync(context, statusToWaitFor); if (!syncPollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } PollResponse<T> response = toPollResponse(syncPollResponse); if (response.getStatus().isComplete()) { this.terminalPollContext = context; } return response; } } @Override @Override public U getFinalResult() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return this.fetchResultOperation .apply(currentTerminalPollContext); } else { PollingContext<T> context = this.pollingContext.copy(); SyncPollResponse<T, U> finalAsyncPollResponse = pollingLoopSync(context); this.terminalPollContext = context; return finalAsyncPollResponse.getFinalResult(); } } @Override public void cancelOperation() { PollingContext<T> context1 = this.pollingContext.copy(); if (context1.getActivationResponse() == context1.getLatestResponse()) { this.cancelOperation.apply(context1, context1.getActivationResponse()); } else { try { this.cancelOperation.apply(null, this.activationResponse); } catch (PollContextRequiredException crp) { PollingContext<T> context2 = this.pollingContext.copy(); pollingLoopSync(context2); this.cancelOperation .apply(context2, this.activationResponse); } } } @Override public SyncPoller<T, U> setPollInterval(Duration pollInterval) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'pollInterval' is not allowed.")); } this.pollInterval = pollInterval; return this; } private static <T, U> PollResponse<T> toPollResponse(SyncPollResponse<T, U> syncPollResponse) { return new PollResponse<>(syncPollResponse.getStatus(), syncPollResponse.getValue(), syncPollResponse.getRetryAfter()); } private boolean matchStatus(AsyncPollResponse<T, U> currentPollResponse, LongRunningOperationStatus statusToWaitFor) { if (currentPollResponse == null \|\| statusToWaitFor == null) { return false; } if (statusToWaitFor == currentPollResponse.getStatus()) { return true; } return false; } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext) { return this.pollingLoopSync(pollingContext, Optional.empty(), Optional.empty()); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, LongRunningOperationStatus statusToWaitFor) { return this.pollingLoopSync(pollingContext, Optional.empty(), Optional.of(statusToWaitFor)); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Duration timeout, LongRunningOperationStatus statusToWaitFor) { return this.pollingLoopSync(pollingContext, Optional.of(timeout), Optional.of(statusToWaitFor)); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Duration timeout) { return this.pollingLoopSync(pollingContext, Optional.of(timeout), Optional.empty()); } private SyncPollResponse<T, U> pollingLoopSync(PollingContext<T> pollingContext, Optional<Duration> timeout, Optional<LongRunningOperationStatus> statusToWaitFor) { boolean timeBound = timeout.isPresent(); long startTime = System.currentTimeMillis(); PollResponse<T> pollResponse = pollOperation.apply(pollingContext); pollingContext.setLatestResponse(pollResponse); SyncPollResponse<T, U> intermediatePollResponse = new SyncPollResponse<>(pollingContext, this.cancelOperation, this.fetchResultOperation); while (!pollResponse.getStatus().isComplete() && (timeBound ? (System.currentTimeMillis() - startTime) < timeout.get().toMillis() : true)) { try { if (statusToWaitFor.isPresent() && pollResponse.getStatus().equals(statusToWaitFor.get())) { return intermediatePollResponse; } Thread.sleep(getDelay(pollResponse).toMillis()); pollResponse = pollOperation.apply(pollingContext); pollingContext.setLatestResponse(pollResponse); intermediatePollResponse = new SyncPollResponse<>(pollingContext, this.cancelOperation, this.fetchResultOperation); } catch (InterruptedException ex) { throw LOGGER.logExceptionAsError(Exceptions.propagate(ex)); } } return intermediatePollResponse; } /* * Get the duration to wait before making next poll attempt. * * @param pollResponse the poll response to retrieve delay duration from * @return the delay */ private Duration getDelay(PollResponse<T> pollResponse) { Duration retryAfter = pollResponse.getRetryAfter(); if (retryAfter == null) { return this.pollInterval; } else { return retryAfter.compareTo(Duration.ZERO) > 0 ? retryAfter : this.pollInterval; } } }	class SimpleSyncPoller<T, U> implements SyncPoller<T, U> { private static final ClientLogger LOGGER = new ClientLogger(SimpleSyncPoller.class); private final Function<PollingContext<T>, PollResponse<T>> pollOperation; private final BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation; private final Function<PollingContext<T>, U> fetchResultOperation; private final PollResponse<T> activationResponse; private final PollingContext<T> pollingContext = new PollingContext<>(); private volatile PollingContext<T> terminalPollContext; private volatile Duration pollInterval; /** * Creates SimpleSyncPoller. * * @param pollInterval the polling interval. * @param syncActivationOperation the operation to synchronously activate (start) the long running operation, * this operation will be called with a new {@link PollingContext}. * @param pollOperation the operation to poll the current state of long running operation, this parameter * is required and the operation will be called with current {@link PollingContext}. * @param cancelOperation a {@link Function} that represents the operation to cancel the long running operation * if service supports cancellation, this parameter is required and if service does not support cancellation * then the implementer should return Mono.error with an error message indicating absence of cancellation * support, the operation will be called with current {@link PollingContext}. * @param fetchResultOperation a {@link Function} that represents the operation to retrieve final result of * the long running operation if service support it, this parameter is required and operation will be called * current {@link PollingContext}, if service does not have an api to fetch final result and if final result * is same as final poll response value then implementer can choose to simply return value from provided * final poll response. */ SimpleSyncPoller(Duration pollInterval, Function<PollingContext<T>, PollResponse<T>> syncActivationOperation, Function<PollingContext<T>, PollResponse<T>> pollOperation, BiFunction<PollingContext<T>, PollResponse<T>, T> cancelOperation, Function<PollingContext<T>, U> fetchResultOperation) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'defaultPollInterval' is not allowed.")); } this.pollInterval = pollInterval; Objects.requireNonNull(syncActivationOperation, "'syncActivationOperation' cannot be null."); this.pollOperation = Objects.requireNonNull(pollOperation, "'pollOperation' cannot be null."); this.cancelOperation = Objects.requireNonNull(cancelOperation, "'cancelOperation' cannot be null."); this.fetchResultOperation = Objects.requireNonNull(fetchResultOperation, "'fetchResultOperation' cannot be null."); this.activationResponse = syncActivationOperation.apply(this.pollingContext); this.pollingContext.setOnetimeActivationResponse(this.activationResponse); this.pollingContext.setLatestResponse(this.activationResponse); if (this.activationResponse.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext; } } @Override public synchronized PollResponse<T> poll() { PollResponse<T> response = this.pollOperation .apply(this.pollingContext); this.pollingContext.setLatestResponse(response); if (response.getStatus().isComplete()) { this.terminalPollContext = this.pollingContext.copy(); } return response; } @Override public PollResponse<T> waitForCompletion() { return waitForCompletionHelper(null); } @Override public PollResponse<T> waitForCompletion(Duration timeout) { Objects.requireNonNull(timeout, "'timeout' cannot be null."); if (timeout.isNegative() \|\| timeout.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for timeout is not allowed.")); } return waitForCompletionHelper(timeout); } @Override public PollResponse<T> waitUntil(LongRunningOperationStatus statusToWaitFor) { Objects.requireNonNull(statusToWaitFor, "'statusToWaitFor' cannot be null."); return waitUntilHelper(null, statusToWaitFor); } @Override private PollResponse<T> waitUntilHelper(Duration timeout, LongRunningOperationStatus statusToWaitFor) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null && currentTerminalPollContext.getLatestResponse().getStatus() == statusToWaitFor) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); PollResponse<T> pollResponse = PollingUtil.pollingLoop(pollingContext, timeout, statusToWaitFor, pollOperation, pollInterval); if (!pollResponse.getStatus().equals(statusToWaitFor)) { throw LOGGER.logExceptionAsError(new NoSuchElementException("Polling completed without" + " receiving the given status '" + statusToWaitFor + "'.")); } if (pollResponse.getStatus().isComplete()) { this.terminalPollContext = context; } return pollResponse; } } private PollResponse<T> waitForCompletionHelper(Duration timeout) { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return currentTerminalPollContext.getLatestResponse(); } else { PollingContext<T> context = this.pollingContext.copy(); PollResponse<T> pollResponse = PollingUtil.pollingLoop(pollingContext, timeout, null, pollOperation, pollInterval); this.terminalPollContext = context; return pollResponse; } } @Override public U getFinalResult() { PollingContext<T> currentTerminalPollContext = this.terminalPollContext; if (currentTerminalPollContext != null) { return this.fetchResultOperation .apply(currentTerminalPollContext); } else { PollingContext<T> context = this.pollingContext.copy(); PollingUtil.pollingLoop(pollingContext, null, null, pollOperation, pollInterval); this.terminalPollContext = context; return getFinalResult(); } } @Override public void cancelOperation() { PollingContext<T> context1 = this.pollingContext.copy(); if (context1.getActivationResponse() == context1.getLatestResponse()) { this.cancelOperation.apply(context1, context1.getActivationResponse()); } else { try { this.cancelOperation.apply(null, this.activationResponse); } catch (PollContextRequiredException crp) { PollingContext<T> context2 = this.pollingContext.copy(); PollingUtil.pollingLoop(pollingContext, null, null, pollOperation, pollInterval); this.cancelOperation .apply(context2, this.activationResponse); } } } @Override public SyncPoller<T, U> setPollInterval(Duration pollInterval) { Objects.requireNonNull(pollInterval, "'pollInterval' cannot be null."); if (pollInterval.isNegative() \|\| pollInterval.isZero()) { throw LOGGER.logExceptionAsWarning(new IllegalArgumentException( "Negative or zero value for 'pollInterval' is not allowed.")); } this.pollInterval = pollInterval; return this; } }
This may be able to be cut down to 128 but that needs more research.	public PercentEscaper(String safeCharacters, boolean usePlusForSpace) { this.usePlusForSpace = usePlusForSpace; if (usePlusForSpace && safeCharacters != null && safeCharacters.contains(" ")) { throw LOGGER.logExceptionAsError(new IllegalArgumentException( "' ' as a safe character with 'usePlusForSpace = true' is an invalid configuration.")); } this.safeCharacterPoints = Arrays.copyOf(SAFE_CHARACTERS, 256); if (!CoreUtils.isNullOrEmpty(safeCharacters)) { safeCharacters.codePoints().forEach(c -> safeCharacterPoints[c] = true); } }	this.safeCharacterPoints = Arrays.copyOf(SAFE_CHARACTERS, 256);	public PercentEscaper(String safeCharacters, boolean usePlusForSpace) { this.usePlusForSpace = usePlusForSpace; if (usePlusForSpace && safeCharacters != null && safeCharacters.contains(" ")) { throw LOGGER.logExceptionAsError(new IllegalArgumentException( "' ' as a safe character with 'usePlusForSpace = true' is an invalid configuration.")); } this.safeCharacterPoints = Arrays.copyOf(SAFE_CHARACTERS, 256); if (!CoreUtils.isNullOrEmpty(safeCharacters)) { safeCharacters.codePoints().forEach(c -> safeCharacterPoints[c] = true); } }	class PercentEscaper { private static final char[] HEX_CHARACTERS = "0123456789ABCDEF".toCharArray(); private static final boolean[] SAFE_CHARACTERS; static { SAFE_CHARACTERS = new boolean[256]; Arrays.fill(SAFE_CHARACTERS, 'a', 'z' + 1, true); Arrays.fill(SAFE_CHARACTERS, 'A', 'Z' + 1, true); Arrays.fill(SAFE_CHARACTERS, '0', '9' + 1, true); } private static final ClientLogger LOGGER = new ClientLogger(PercentEscaper.class); private final boolean usePlusForSpace; private final boolean[] safeCharacterPoints; /** * Creates a percent escaper. * * @param safeCharacters Collection of characters that won't be escaped. * @param usePlusForSpace If true {@code ' '} will be escaped as {@code '+'} instead of {@code "%20"}. / /* * Escapes a string with the current settings on the escaper. * * @param original the origin string to escape * @return the escaped string / public String escape(String original) { if (CoreUtils.isNullOrEmpty(original)) { return original; } StringBuilder escapedBuilder = new StringBuilder((int) Math.ceil(original.length() 1.5)); int last = 0; int index = 0; int end = original.length(); char[] buffer = new char[12]; /* * When the UTF-8 character is more than one byte the bytes will be converted to hex in reverse order to allow * for simpler logic being used. To make this easier a temporary character array will be used to keep track of * the conversion. / while (index < end) { int codePoint = getCodePoint(original, index, end); int toIndex = index; index += (Character.isSupplementaryCodePoint(codePoint)) ? 2 : 1; if (codePoint < 256 && safeCharacterPoints[codePoint]) { continue; } escapedBuilder.append(original, last, toIndex); last = index; if (usePlusForSpace && codePoint == ' ') { escapedBuilder.append('+'); } else if (codePoint <= 0x7F) { escapedBuilder.append('%'); escapedBuilder.append(HEX_CHARACTERS[codePoint >>> 4]); escapedBuilder.append(HEX_CHARACTERS[codePoint & 0xF]); } else if (codePoint <= 0x7FF) { / * Character is two bytes, use the format '%xx%xx'. Leading bits in the first byte are always 110 and * the leading bits in the second byte are always 10. The conversion will happen using the following * logic: * * 1. Mask with bits 1111 to get the last hex character. * 2. Shift right 4 times to move to the next hex quad bits. * 3. Mask with bits 11 and then bitwise or with bits 1000 to get the leading hex in the second byte. * 4. Shift right 2 times to move to the next hex quad bits. * a. This is only shifted twice since the bits 10 are the encoded value but not in the code point. * 5. Mask with bits 1111 to get the second hex character in the first byte. * 6. Shift right 4 times to move to the next hex quad bits. * 7. Bitwise or with bits 1100 to get the leading hex character. / buffer[0] = '%'; buffer[3] = '%'; buffer[5] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[4] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[2] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[1] = HEX_CHARACTERS[codePoint \| 0xC]; escapedBuilder.append(buffer, 0, 6); } else if (codePoint <= 0xFFFF) { / * Character is three bytes, use the format '%Ex%xx%xx'. Leading bits in the first byte are always * 1110 (hence it is '%Ex'), the leading bits in both the second and third byte are always 10. The * conversion will happen using the following logic: * * 1. Mask with bits 1111 to get the last hex character. * 2. Shift right 4 times to move to the next hex quad bits. * 3. Mask with bits 11 and then bitwise or with bits 1000 to get the leading hex in the third byte. * 4. Shift right 2 times to move to the next hex quad bits. * a. This is only shifted twice since the bits 10 are the encoded value but not in the code point. * 5. Repeat steps 1-4 to convert the second byte. * 6. Mask with bits 1111 to get the second hex character in the first byte. * * Note: No work is needed for the leading hex character since it is always 'E'. / buffer[0] = '%'; buffer[1] = 'E'; buffer[3] = '%'; buffer[6] = '%'; buffer[8] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[7] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[5] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[4] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[2] = HEX_CHARACTERS[codePoint & 0xF]; escapedBuilder.append(buffer, 0, 9); } else if (codePoint <= 0x10FFFF) { / * Character is four bytes, use the format '%Fx%xx%xx%xx'. Leading bits in the first byte are always * 11110 (hence it is '%Fx'), the leading bits in the other bytes are always 10. The conversion will * happen using the following logic: * * 1. Mask with bits 1111 to get the last hex character. * 2. Shift right 4 times to move to the next hex quad bits. * 3. Mask with bits 11 and then bitwise or with bits 1000 to get the leading hex in the fourth byte. * 4. Shift right 2 times to move to the next hex quad bits. * a. This is only shifted twice since the bits 10 are the encoded value but not in the code point. * 5. Repeat steps 1-4 to convert the second and third bytes. * 6. Mask with bits 111 to get the second hex character in the first byte. * * Note: No work is needed for the leading hex character since it is always 'F'. / buffer[0] = '%'; buffer[1] = 'F'; buffer[3] = '%'; buffer[6] = '%'; buffer[9] = '%'; buffer[11] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[10] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[8] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[7] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[5] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[4] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[2] = HEX_CHARACTERS[codePoint & 0x7]; escapedBuilder.append(buffer); } } if (last < end) { escapedBuilder.append(original, last, end); } return escapedBuilder.toString(); } / * Java uses UTF-16 to represent Strings, due to characters only being 2 bytes they must use surrogate pairs to * get the correct code point for characters above 0xFFFF. */ private static int getCodePoint(String original, int index, int end) { char char1 = original.charAt(index++); if (!Character.isSurrogate(char1)) { return char1; } else if (Character.isHighSurrogate(char1)) { if (index == end) { throw LOGGER.logExceptionAsError(new IllegalStateException( "String contains trailing high surrogate without paired low surrogate.")); } char char2 = original.charAt(index); if (Character.isLowSurrogate(char2)) { return Character.toCodePoint(char1, char2); } throw LOGGER.logExceptionAsError(new IllegalStateException( "String contains high surrogate without trailing low surrogate.")); } else { throw LOGGER.logExceptionAsError(new IllegalStateException( "String contains low surrogate without leading high surrogate.")); } } }	class PercentEscaper { private static final char[] HEX_CHARACTERS = "0123456789ABCDEF".toCharArray(); private static final boolean[] SAFE_CHARACTERS; static { SAFE_CHARACTERS = new boolean[256]; Arrays.fill(SAFE_CHARACTERS, 'a', 'z' + 1, true); Arrays.fill(SAFE_CHARACTERS, 'A', 'Z' + 1, true); Arrays.fill(SAFE_CHARACTERS, '0', '9' + 1, true); } private static final ClientLogger LOGGER = new ClientLogger(PercentEscaper.class); private final boolean usePlusForSpace; private final boolean[] safeCharacterPoints; /** * Creates a percent escaper. * * @param safeCharacters Collection of characters that won't be escaped. * @param usePlusForSpace If true {@code ' '} will be escaped as {@code '+'} instead of {@code "%20"}. / /* * Escapes a string with the current settings on the escaper. * * @param original the origin string to escape * @return the escaped string / public String escape(String original) { if (CoreUtils.isNullOrEmpty(original)) { return original; } StringBuilder escapedBuilder = new StringBuilder((int) Math.ceil(original.length() 1.5)); int last = 0; int index = 0; int end = original.length(); char[] buffer = new char[12]; /* * When the UTF-8 character is more than one byte the bytes will be converted to hex in reverse order to allow * for simpler logic being used. To make this easier a temporary character array will be used to keep track of * the conversion. / while (index < end) { int codePoint = getCodePoint(original, index, end); int toIndex = index; index += (Character.isSupplementaryCodePoint(codePoint)) ? 2 : 1; if (codePoint < 256 && safeCharacterPoints[codePoint]) { continue; } escapedBuilder.append(original, last, toIndex); last = index; if (usePlusForSpace && codePoint == ' ') { escapedBuilder.append('+'); } else if (codePoint <= 0x7F) { escapedBuilder.append('%'); escapedBuilder.append(HEX_CHARACTERS[codePoint >>> 4]); escapedBuilder.append(HEX_CHARACTERS[codePoint & 0xF]); } else if (codePoint <= 0x7FF) { / * Character is two bytes, use the format '%xx%xx'. Leading bits in the first byte are always 110 and * the leading bits in the second byte are always 10. The conversion will happen using the following * logic: * * 1. Mask with bits 1111 to get the last hex character. * 2. Shift right 4 times to move to the next hex quad bits. * 3. Mask with bits 11 and then bitwise or with bits 1000 to get the leading hex in the second byte. * 4. Shift right 2 times to move to the next hex quad bits. * a. This is only shifted twice since the bits 10 are the encoded value but not in the code point. * 5. Mask with bits 1111 to get the second hex character in the first byte. * 6. Shift right 4 times to move to the next hex quad bits. * 7. Bitwise or with bits 1100 to get the leading hex character. / buffer[0] = '%'; buffer[3] = '%'; buffer[5] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[4] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[2] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[1] = HEX_CHARACTERS[codePoint \| 0xC]; escapedBuilder.append(buffer, 0, 6); } else if (codePoint <= 0xFFFF) { / * Character is three bytes, use the format '%Ex%xx%xx'. Leading bits in the first byte are always * 1110 (hence it is '%Ex'), the leading bits in both the second and third byte are always 10. The * conversion will happen using the following logic: * * 1. Mask with bits 1111 to get the last hex character. * 2. Shift right 4 times to move to the next hex quad bits. * 3. Mask with bits 11 and then bitwise or with bits 1000 to get the leading hex in the third byte. * 4. Shift right 2 times to move to the next hex quad bits. * a. This is only shifted twice since the bits 10 are the encoded value but not in the code point. * 5. Repeat steps 1-4 to convert the second byte. * 6. Mask with bits 1111 to get the second hex character in the first byte. * * Note: No work is needed for the leading hex character since it is always 'E'. / buffer[0] = '%'; buffer[1] = 'E'; buffer[3] = '%'; buffer[6] = '%'; buffer[8] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[7] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[5] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[4] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[2] = HEX_CHARACTERS[codePoint & 0xF]; escapedBuilder.append(buffer, 0, 9); } else if (codePoint <= 0x10FFFF) { / * Character is four bytes, use the format '%Fx%xx%xx%xx'. Leading bits in the first byte are always * 11110 (hence it is '%Fx'), the leading bits in the other bytes are always 10. The conversion will * happen using the following logic: * * 1. Mask with bits 1111 to get the last hex character. * 2. Shift right 4 times to move to the next hex quad bits. * 3. Mask with bits 11 and then bitwise or with bits 1000 to get the leading hex in the fourth byte. * 4. Shift right 2 times to move to the next hex quad bits. * a. This is only shifted twice since the bits 10 are the encoded value but not in the code point. * 5. Repeat steps 1-4 to convert the second and third bytes. * 6. Mask with bits 111 to get the second hex character in the first byte. * * Note: No work is needed for the leading hex character since it is always 'F'. / buffer[0] = '%'; buffer[1] = 'F'; buffer[3] = '%'; buffer[6] = '%'; buffer[9] = '%'; buffer[11] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[10] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[8] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[7] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[5] = HEX_CHARACTERS[codePoint & 0xF]; codePoint >>>= 4; buffer[4] = HEX_CHARACTERS[0x8 \| (codePoint & 0x3)]; codePoint >>>= 2; buffer[2] = HEX_CHARACTERS[codePoint & 0x7]; escapedBuilder.append(buffer); } } if (last < end) { escapedBuilder.append(original, last, end); } return escapedBuilder.toString(); } / * Java uses UTF-16 to represent Strings, due to characters only being 2 bytes they must use surrogate pairs to * get the correct code point for characters above 0xFFFF. */ private static int getCodePoint(String original, int index, int end) { char char1 = original.charAt(index++); if (!Character.isSurrogate(char1)) { return char1; } else if (Character.isHighSurrogate(char1)) { if (index == end) { throw LOGGER.logExceptionAsError(new IllegalStateException( "String contains trailing high surrogate without paired low surrogate.")); } char char2 = original.charAt(index); if (Character.isLowSurrogate(char2)) { return Character.toCodePoint(char1, char2); } throw LOGGER.logExceptionAsError(new IllegalStateException( "String contains high surrogate without trailing low surrogate.")); } else { throw LOGGER.logExceptionAsError(new IllegalStateException( "String contains low surrogate without leading high surrogate.")); } } }
Was this changed due to the header map not being treated as case-insensitive? Based on @FabianMeiswinkel's PR which introduced `TreeMap` and `ConcurrentSkipListMap` it was to handle headers being case-insensitive. I don't know if this is a time we'd want to look at using `HttpHeaders` from `azure-core` internally which handles case-insensitivity (also this is an area we're looking at improving performance wise given how critical it is for HTTP-based clients).	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3");	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }
@alzimmermsft this handles case insensitivity, with the APIs that call the headers and their values. However, I agree, we can use HttpHeaders. Interestingly, when we were migrating to azure-sdk-for-java, I introduced HttpHeaders into azure-cosmos SDK, since at that time we weren't taking dependency on azure-core. Later when we released v4, we didn't make this change, so all of azure-cosmos uses its own HttpHeader layer, which is hooked into implementation. Nevertheless, its a good weekend project, but not for today :)	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3");	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }
Yeah, transitioning over to `HttpHeaders` is something that can be discussed in the future. As for the case-insensitivity part I should clarify a bit. Before this PR the header map had the following insertions: ```java HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY1", "value3"); ``` Which then was used to construct the `StoreResponse` and tested that the resulting `StoreReponse` overrode `key1` with the value from `KEY1`, testing: ```java assertThat(sp.getHeaderValue("key1")).isEqualTo("value3"); assertThat(sp.getHeaderValue("kEy1")).isEqualTo("value3"); assertThat(sp.getHeaderValue("KEY2")).isEqualTo("value2"); ``` This PR changes the header map to: ```java HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); ``` Which is not longer testing that `StoreResponse` will treat header names as case-insensitive.	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3");	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }
Agreed, I get your point, however, there is no way that in the same version from cosmos db backend, using the same SDK, the backend will return different headers with same name and different case for the same http response. (and if it did, it would mean that backend is returning duplicate headers with different values, which will actually violate the http contract). The whole point of case insensitivity comes from the fact that Http headers are case insensitive in general and SDK should not rely on casing when getting the header values. I just reverted two optimizations that were done (one by me - which was incorrect, and one by Fabian which was correct but not performant). So the current code in this PR is the code that we have had since our v1 Java SDK, so we should be good in terms of correctness. Hope this helps!	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3");	public void headerNamesAreCaseInsensitive() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); headerMap.put("KEY3", "value3"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("keY1")).isEqualTo("value1"); assertThat(sp.getHeaderValue("kEy2")).isEqualTo("value2"); assertThat(sp.getHeaderValue("KEY3")).isEqualTo("value3"); }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }	class StoreResponseTest { @Test(groups = { "unit" }) public void stringContent() { String content = "I am body"; HashMap<String, String> headerMap = new HashMap<>(); headerMap.put("key1", "value1"); headerMap.put("key2", "value2"); StoreResponse sp = new StoreResponse(200, headerMap, getUTF8BytesOrNull(content)); assertThat(sp.getStatus()).isEqualTo(200); assertThat(sp.getResponseBody()).isEqualTo(getUTF8BytesOrNull(content)); assertThat(sp.getHeaderValue("key1")).isEqualTo("value1"); } @Test(groups = { "unit" }) }
Should this be closed? If not, can we just use the StringBuilder directly?	private static String bufferStruct(JsonParser parser) throws IOException { StringBuilder buffer = new StringBuilder(128); Writer bufferWriter = new StringBuilderWriter(buffer); buffer.append(parser.getText()); int depth = 1; while (depth > 0) { JsonToken next = parser.nextToken(); switch (next) { case START_ARRAY: case START_OBJECT: depth++; buffer.append(next == JsonToken.START_OBJECT ? '{' : '['); break; case END_ARRAY: case END_OBJECT: depth--; buffer.append(next == JsonToken.END_OBJECT ? '}' : ']'); break; case FIELD_NAME: case VALUE_STRING: buffer.append("\""); parser.getText(bufferWriter); buffer.append(next == JsonToken.FIELD_NAME ? "\":" : "\""); break; default: parser.getText(bufferWriter); break; } } return buffer.toString(); } }	Writer bufferWriter = new StringBuilderWriter(buffer);	private static String bufferStruct(JsonParser parser) throws IOException { StringBuilder buffer = new StringBuilder(128); Writer bufferWriter = new StringBuilderWriter(buffer); buffer.append(parser.currentToken() == JsonToken.START_OBJECT ? '{' : '['); JsonToken previous = parser.currentToken(); int depth = 1; while (depth > 0) { JsonToken next = parser.nextToken(); if (!(previous.isStructStart() \|\| next.isStructEnd() \|\| previous == JsonToken.FIELD_NAME)) { buffer.append(','); } previous = next; switch (next) { case START_ARRAY: case START_OBJECT: depth++; buffer.append(next == JsonToken.START_OBJECT ? '{' : '['); break; case END_ARRAY: case END_OBJECT: depth--; buffer.append(next == JsonToken.END_OBJECT ? '}' : ']'); break; case FIELD_NAME: case VALUE_STRING: buffer.append("\""); parser.getText(bufferWriter); buffer.append(next == JsonToken.FIELD_NAME ? "\":" : "\""); break; default: parser.getText(bufferWriter); break; } } return buffer.toString(); } }	class BinaryDataDeserializer extends JsonDeserializer<BinaryData> { /** * Gets a module wrapping this serializer as an adapter for the Jackson ObjectMapper. * * @return a simple module to be plugged onto Jackson ObjectMapper. */ public static SimpleModule getModule() { SimpleModule module = new SimpleModule(); module.addDeserializer(BinaryData.class, new BinaryDataDeserializer()); return module; } @Override public BinaryData deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { JsonToken token = p.currentToken(); if (token == JsonToken.VALUE_NULL) { return null; } else if (token.isStructStart()) { return BinaryData.fromString(bufferStruct(p)); } else { return BinaryData.fromString(p.getText()); } }	class BinaryDataDeserializer extends JsonDeserializer<BinaryData> { /** * Gets a module wrapping this serializer as an adapter for the Jackson ObjectMapper. * * @return a simple module to be plugged onto Jackson ObjectMapper. */ public static SimpleModule getModule() { SimpleModule module = new SimpleModule(); module.addDeserializer(BinaryData.class, new BinaryDataDeserializer()); return module; } @Override public BinaryData deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { JsonToken token = p.currentToken(); if (token == JsonToken.VALUE_NULL) { return null; } else if (token.isStructStart()) { return BinaryData.fromString(bufferStruct(p)); } else { return BinaryData.fromString(p.getText()); } }
This can just be `buffer.append(parser.getText())` if we remove the writer.	private static String bufferStruct(JsonParser parser) throws IOException { StringBuilder buffer = new StringBuilder(128); Writer bufferWriter = new StringBuilderWriter(buffer); buffer.append(parser.getText()); int depth = 1; while (depth > 0) { JsonToken next = parser.nextToken(); switch (next) { case START_ARRAY: case START_OBJECT: depth++; buffer.append(next == JsonToken.START_OBJECT ? '{' : '['); break; case END_ARRAY: case END_OBJECT: depth--; buffer.append(next == JsonToken.END_OBJECT ? '}' : ']'); break; case FIELD_NAME: case VALUE_STRING: buffer.append("\""); parser.getText(bufferWriter); buffer.append(next == JsonToken.FIELD_NAME ? "\":" : "\""); break; default: parser.getText(bufferWriter); break; } } return buffer.toString(); } }	parser.getText(bufferWriter);	private static String bufferStruct(JsonParser parser) throws IOException { StringBuilder buffer = new StringBuilder(128); Writer bufferWriter = new StringBuilderWriter(buffer); buffer.append(parser.currentToken() == JsonToken.START_OBJECT ? '{' : '['); JsonToken previous = parser.currentToken(); int depth = 1; while (depth > 0) { JsonToken next = parser.nextToken(); if (!(previous.isStructStart() \|\| next.isStructEnd() \|\| previous == JsonToken.FIELD_NAME)) { buffer.append(','); } previous = next; switch (next) { case START_ARRAY: case START_OBJECT: depth++; buffer.append(next == JsonToken.START_OBJECT ? '{' : '['); break; case END_ARRAY: case END_OBJECT: depth--; buffer.append(next == JsonToken.END_OBJECT ? '}' : ']'); break; case FIELD_NAME: case VALUE_STRING: buffer.append("\""); parser.getText(bufferWriter); buffer.append(next == JsonToken.FIELD_NAME ? "\":" : "\""); break; default: parser.getText(bufferWriter); break; } } return buffer.toString(); } }	class BinaryDataDeserializer extends JsonDeserializer<BinaryData> { /** * Gets a module wrapping this serializer as an adapter for the Jackson ObjectMapper. * * @return a simple module to be plugged onto Jackson ObjectMapper. */ public static SimpleModule getModule() { SimpleModule module = new SimpleModule(); module.addDeserializer(BinaryData.class, new BinaryDataDeserializer()); return module; } @Override public BinaryData deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { JsonToken token = p.currentToken(); if (token == JsonToken.VALUE_NULL) { return null; } else if (token.isStructStart()) { return BinaryData.fromString(bufferStruct(p)); } else { return BinaryData.fromString(p.getText()); } }	class BinaryDataDeserializer extends JsonDeserializer<BinaryData> { /** * Gets a module wrapping this serializer as an adapter for the Jackson ObjectMapper. * * @return a simple module to be plugged onto Jackson ObjectMapper. */ public static SimpleModule getModule() { SimpleModule module = new SimpleModule(); module.addDeserializer(BinaryData.class, new BinaryDataDeserializer()); return module; } @Override public BinaryData deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { JsonToken token = p.currentToken(); if (token == JsonToken.VALUE_NULL) { return null; } else if (token.isStructStart()) { return BinaryData.fromString(bufferStruct(p)); } else { return BinaryData.fromString(p.getText()); } }
Shouldn't need to be closed as `StringBuilderWriter` is akin to other I/O types like `ByteArrayOutputStream` where it is just a simple wrapper around a store that handles the resource.	private static String bufferStruct(JsonParser parser) throws IOException { StringBuilder buffer = new StringBuilder(128); Writer bufferWriter = new StringBuilderWriter(buffer); buffer.append(parser.getText()); int depth = 1; while (depth > 0) { JsonToken next = parser.nextToken(); switch (next) { case START_ARRAY: case START_OBJECT: depth++; buffer.append(next == JsonToken.START_OBJECT ? '{' : '['); break; case END_ARRAY: case END_OBJECT: depth--; buffer.append(next == JsonToken.END_OBJECT ? '}' : ']'); break; case FIELD_NAME: case VALUE_STRING: buffer.append("\""); parser.getText(bufferWriter); buffer.append(next == JsonToken.FIELD_NAME ? "\":" : "\""); break; default: parser.getText(bufferWriter); break; } } return buffer.toString(); } }	Writer bufferWriter = new StringBuilderWriter(buffer);	private static String bufferStruct(JsonParser parser) throws IOException { StringBuilder buffer = new StringBuilder(128); Writer bufferWriter = new StringBuilderWriter(buffer); buffer.append(parser.currentToken() == JsonToken.START_OBJECT ? '{' : '['); JsonToken previous = parser.currentToken(); int depth = 1; while (depth > 0) { JsonToken next = parser.nextToken(); if (!(previous.isStructStart() \|\| next.isStructEnd() \|\| previous == JsonToken.FIELD_NAME)) { buffer.append(','); } previous = next; switch (next) { case START_ARRAY: case START_OBJECT: depth++; buffer.append(next == JsonToken.START_OBJECT ? '{' : '['); break; case END_ARRAY: case END_OBJECT: depth--; buffer.append(next == JsonToken.END_OBJECT ? '}' : ']'); break; case FIELD_NAME: case VALUE_STRING: buffer.append("\""); parser.getText(bufferWriter); buffer.append(next == JsonToken.FIELD_NAME ? "\":" : "\""); break; default: parser.getText(bufferWriter); break; } } return buffer.toString(); } }	class BinaryDataDeserializer extends JsonDeserializer<BinaryData> { /** * Gets a module wrapping this serializer as an adapter for the Jackson ObjectMapper. * * @return a simple module to be plugged onto Jackson ObjectMapper. */ public static SimpleModule getModule() { SimpleModule module = new SimpleModule(); module.addDeserializer(BinaryData.class, new BinaryDataDeserializer()); return module; } @Override public BinaryData deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { JsonToken token = p.currentToken(); if (token == JsonToken.VALUE_NULL) { return null; } else if (token.isStructStart()) { return BinaryData.fromString(bufferStruct(p)); } else { return BinaryData.fromString(p.getText()); } }	class BinaryDataDeserializer extends JsonDeserializer<BinaryData> { /** * Gets a module wrapping this serializer as an adapter for the Jackson ObjectMapper. * * @return a simple module to be plugged onto Jackson ObjectMapper. */ public static SimpleModule getModule() { SimpleModule module = new SimpleModule(); module.addDeserializer(BinaryData.class, new BinaryDataDeserializer()); return module; } @Override public BinaryData deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { JsonToken token = p.currentToken(); if (token == JsonToken.VALUE_NULL) { return null; } else if (token.isStructStart()) { return BinaryData.fromString(bufferStruct(p)); } else { return BinaryData.fromString(p.getText()); } }
I am not sure how this fixes the issue? To fix the `maxDurationTime` issue, shouldn't we change the above if condition?	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() < System.currentTimeMillis()) { return false; } return true; }	return true;	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() > System.currentTimeMillis()) { return false; } return true; }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }
Case 1: maxDurationTime is null 1st if condition is activated and maxNumberofOperations property is used Case 2: maxDurationTime is populated for example 48hrs 2nd if condition will be kicked in when the startTIme of the workload + 48hrs is greater than the current time, meaning 48hrs are over, the workload should end. Until then it would return true, so the workload will keep on running. This change was tested in the AsyncNonBlocking Cache testing workloads. I just missed pushing it with that PR.	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() < System.currentTimeMillis()) { return false; } return true; }	return true;	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() > System.currentTimeMillis()) { return false; } return true; }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }
Exactly, here the condition is not greater than, rather less than -> `startTimeMillis + maxDurationTime.toMillis() < System.currentTimeMillis()` Also, what about if both maxDurationTime and maxNumberOfOperations are passed. In that case, earlier the code was stopping on condition whichever reached first, but now we are not doing that.	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() < System.currentTimeMillis()) { return false; } return true; }	return true;	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() > System.currentTimeMillis()) { return false; } return true; }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }
You're right it should be greater than instead of less than. I'll update the if statement. Also, both the maxDurationTime and maxNumberOfOperations properties are used to set the duration of the workload. It doesn't make any sense to use both properties together. But I can add a check for maxNumberOfOperations, if that is required.	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() < System.currentTimeMillis()) { return false; } return true; }	return true;	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() > System.currentTimeMillis()) { return false; } return true; }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }
That's okay, if both are not supposed to be used together, we should be fine.	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() < System.currentTimeMillis()) { return false; } return true; }	return true;	public static boolean shouldContinue(long startTimeMillis, long iterationCount, Configuration configuration) { Duration maxDurationTime = configuration.getMaxRunningTimeDuration(); int maxNumberOfOperations = configuration.getNumberOfOperations(); if (maxDurationTime == null) { return iterationCount < maxNumberOfOperations; } if (startTimeMillis + maxDurationTime.toMillis() > System.currentTimeMillis()) { return false; } return true; }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }	class BenchmarkHelper { public static PojoizedJson generateDocument(String idString, String dataFieldValue, String partitionKey, int dataFieldCount) { PojoizedJson instance = new PojoizedJson(); Map<String, Object> properties = instance.getInstance(); properties.put("id", idString); properties.put(partitionKey, idString); for (int i = 0; i < dataFieldCount; i++) { properties.put("dataField" + i, dataFieldValue); } return instance; } }
Two minor nits: - This returns a reactive response and can be reactively chained - There is two Flux<ByteBuffer> length APIs in BinaryData, the one being used here will buffer the stream whereas the overload will allow this to be configured. We should call that out here	public static void main(String[] args) throws IOException { /* * For more information on this setup, please refer to the BasicExample. / String accountName = SampleHelper.getAccountName(); String accountKey = SampleHelper.getAccountKey(); StorageSharedKeyCredential credential = new StorageSharedKeyCredential(accountName, accountKey); String endpoint = String.format(Locale.ROOT, "https: String containerName = "myjavacontainerbuffereduploadlength" + System.currentTimeMillis(); BlobServiceAsyncClient storageClient = new BlobServiceClientBuilder().endpoint(endpoint).credential(credential) .buildAsyncClient(); BlobContainerAsyncClient containerClient = storageClient.getBlobContainerAsyncClient(containerName); containerClient.create().block(); uploadSourceBlob(endpoint, credential, containerName); BlobAsyncClient blobClient = containerClient.getBlobAsyncClient("HelloWorld.txt"); / sourceData has a network stream as its source and therefore likely does not support multiple subscribers. Even if it did support multiple subscribers, it would not produce the same data each time it was subscribed to. While we could inspect the http headers for the content-length, let us suppose that this information is unavailable at this time. All three of these factors would individually make the use of the standard upload method impossible--the first two because retries would not work and the third one because we could not satisfy the argument list. / Flux<ByteBuffer> sourceData = getSourceBlobClient(endpoint, credential, containerName).downloadStream() .map(BufferedUploadWithKnownLengthExample::bufferTransformation); / Although this upload overload permits the use of such unreliable data sources, with known length we can speed up the upload process. A buffer size and maximum concurrency can still be passed in to achieve optimized upload. / long length = 10; long blockSize = 10 1024; int maxConcurrency = 5; ParallelTransferOptions parallelTransferOptions = new ParallelTransferOptions() .setBlockSizeLong(blockSize) .setMaxConcurrency(maxConcurrency); BinaryData binaryData = BinaryData.fromFlux(sourceData, length).block(); BlobParallelUploadOptions parallelUploadOptions = new BlobParallelUploadOptions(binaryData) .setParallelTransferOptions(parallelTransferOptions); blobClient.uploadWithResponse(parallelUploadOptions).block(); }	BinaryData binaryData = BinaryData.fromFlux(sourceData, length).block();	public static void main(String[] args) throws IOException { /* * For more information on this setup, please refer to the BasicExample. / String accountName = SampleHelper.getAccountName(); String accountKey = SampleHelper.getAccountKey(); StorageSharedKeyCredential credential = new StorageSharedKeyCredential(accountName, accountKey); String endpoint = String.format(Locale.ROOT, "https: String containerName = "myjavacontainerbuffereduploadlength" + System.currentTimeMillis(); BlobServiceAsyncClient storageClient = new BlobServiceClientBuilder().endpoint(endpoint).credential(credential) .buildAsyncClient(); BlobContainerAsyncClient containerClient = storageClient.getBlobContainerAsyncClient(containerName); containerClient.create().block(); uploadSourceBlob(endpoint, credential, containerName); BlobAsyncClient blobClient = containerClient.getBlobAsyncClient("HelloWorld.txt"); / sourceData has a network stream as its source and therefore likely does not support multiple subscribers. Even if it did support multiple subscribers, it would not produce the same data each time it was subscribed to. While we could inspect the http headers for the content-length, let us suppose that this information is unavailable at this time. All three of these factors would individually make the use of the standard upload method impossible--the first two because retries would not work and the third one because we could not satisfy the argument list. / Flux<ByteBuffer> sourceData = getSourceBlobClient(endpoint, credential, containerName).downloadStream() .map(BufferedUploadWithKnownLengthExample::bufferTransformation); / Although this upload overload permits the use of such unreliable data sources, with known length we can speed up the upload process. A buffer size and maximum concurrency can still be passed in to achieve optimized upload. / long length = 10; long blockSize = 10 1024; int maxConcurrency = 5; ParallelTransferOptions parallelTransferOptions = new ParallelTransferOptions() .setBlockSizeLong(blockSize) .setMaxConcurrency(maxConcurrency); BinaryData.fromFlux(sourceData, length, false).flatMap(binaryData -> blobClient.uploadWithResponse(new BlobParallelUploadOptions(binaryData) .setParallelTransferOptions(parallelTransferOptions))); }	class BufferedUploadWithKnownLengthExample { /** * Entry point into the basic examples for Storage blobs. * @param args Unused. Arguments to the program. * @throws IOException If an I/O error occurs * @throws RuntimeException If the downloaded data doesn't match the uploaded data */ @SuppressWarnings("cast") private static ByteBuffer bufferTransformation(ByteBuffer buffer) { int length = 10; return (ByteBuffer) buffer.limit(length); } private static void uploadSourceBlob(String endpoint, StorageSharedKeyCredential credential, String containerName) { getSourceBlobClient(endpoint, credential, containerName) .upload(Flux.just(ByteBuffer.wrap("Hello world".getBytes(Charset.defaultCharset()))), "Hello world".length()).block(); } private static BlockBlobAsyncClient getSourceBlobClient(String endpoint, StorageSharedKeyCredential credential, String containerName) { return new BlobServiceClientBuilder().endpoint(endpoint).credential(credential).buildAsyncClient() .getBlobContainerAsyncClient(containerName).getBlobAsyncClient("sourceBlob").getBlockBlobAsyncClient(); } }	class BufferedUploadWithKnownLengthExample { /** * Entry point into the basic examples for Storage blobs. * @param args Unused. Arguments to the program. * @throws IOException If an I/O error occurs * @throws RuntimeException If the downloaded data doesn't match the uploaded data */ @SuppressWarnings("cast") private static ByteBuffer bufferTransformation(ByteBuffer buffer) { int length = 10; return (ByteBuffer) buffer.limit(length); } private static void uploadSourceBlob(String endpoint, StorageSharedKeyCredential credential, String containerName) { getSourceBlobClient(endpoint, credential, containerName) .upload(Flux.just(ByteBuffer.wrap("Hello world".getBytes(Charset.defaultCharset()))), "Hello world".length()).block(); } private static BlockBlobAsyncClient getSourceBlobClient(String endpoint, StorageSharedKeyCredential credential, String containerName) { return new BlobServiceClientBuilder().endpoint(endpoint).credential(credential).buildAsyncClient() .getBlobContainerAsyncClient(containerName).getBlobAsyncClient("sourceBlob").getBlockBlobAsyncClient(); } }
since URI is not used here, please remove unused import of URI. Otherwise the pipeline doesn't allow it to build. https://dev.azure.com/azure-sdk/public/_build/results?buildId=1810223&view=logs&j=b70e5e73-bbb6-5567-0939-8415943fadb9&t=ba3cf43a-b2bf-50f9-f95f-93049ca44ad1	public void recordingOperations(HttpClient httpClient) { CallAutomationAsyncClient client = getCallingServerClientUsingConnectionString(httpClient) .addPolicy((context, next) -> logHeaders("recordingOperationsAsync", next)) .buildAsyncClient(); try { String ngrok = "https: String serverCallId = "serverCallId"; CallRecordingAsync callRecording = client.getCallRecordingAsync(); RecordingStateResult recordingResponse = callRecording.startRecording( new StartRecordingOptions(new ServerCallLocator(serverCallId)) .setRecordingStateCallbackUrl(ngrok)) .block(); assertNotNull(recordingResponse); String recordingId = recordingResponse.getRecordingId(); assertNotNull(recordingId); recordingResponse = callRecording.getRecordingState(recordingId).block(); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.pauseRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId).block(); assertNotNull(recordingResponse); assertEquals(RecordingState.INACTIVE, recordingResponse.getRecordingState()); callRecording.resumeRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId).block(); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.stopRecording(recordingId).block(); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(recordingId).block()); } catch (Exception ex) { fail("Unexpected exception received", ex); } }	.setRecordingStateCallbackUrl(ngrok))	public void recordingOperations(HttpClient httpClient) { CallAutomationAsyncClient client = getCallingServerClientUsingConnectionString(httpClient) .addPolicy((context, next) -> logHeaders("recordingOperationsAsync", next)) .buildAsyncClient(); try { String ngrok = "https: String serverCallId = "serverCallId"; CallRecordingAsync callRecording = client.getCallRecordingAsync(); RecordingStateResult recordingResponse = callRecording.startRecording( new StartRecordingOptions(new ServerCallLocator(serverCallId)) .setRecordingStateCallbackUrl(ngrok)) .block(); assertNotNull(recordingResponse); String recordingId = recordingResponse.getRecordingId(); assertNotNull(recordingId); recordingResponse = callRecording.getRecordingState(recordingId).block(); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.pauseRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId).block(); assertNotNull(recordingResponse); assertEquals(RecordingState.INACTIVE, recordingResponse.getRecordingState()); callRecording.resumeRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId).block(); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.stopRecording(recordingId).block(); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(recordingId).block()); } catch (Exception ex) { fail("Unexpected exception received", ex); } }	class CallRecordingAsyncLiveTests extends CallAutomationLiveTestBase { @ParameterizedTest @MethodSource("com.azure.core.test.TestBase @DisabledIfEnvironmentVariable( named = "SKIP_LIVE_TEST", matches = "(?i)(true)", disabledReason = "Requires human intervention") }	class CallRecordingAsyncLiveTests extends CallAutomationLiveTestBase { @ParameterizedTest @MethodSource("com.azure.core.test.TestBase @DisabledIfEnvironmentVariable( named = "SKIP_LIVE_TEST", matches = "(?i)(true)", disabledReason = "Requires human intervention") }
same as above	public void startRecordingRelativeUriFails() { validateError(InvalidParameterException.class, callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); }	.setRecordingStateCallbackUrl("/not/absolute/uri")	public void startRecordingRelativeUriFails() { validateError(InvalidParameterException.class, callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); }	class CallRecordingAsyncUnitTests extends CallRecordingUnitTestBase { private CallRecordingAsync callRecording; @BeforeEach public void setup() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient(new ArrayList<>()); callRecording = callingServerClient.getCallRecordingAsync(); } @Test @Test public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); validateError(InvalidParameterException.class, callRecording.startRecordingWithResponse(startRecordingOptions)); } @Test public void recordingOperationsTest() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient( recordingOperationsResponses ); callRecording = callingServerClient.getCallRecordingAsync(); validateRecordingState( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); validateOperationWithRecordingState(callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); validateOperationWithRecordingState(callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE); validateOperation(callRecording.stopRecording(RECORDING_ID)); validateError(CallingServerErrorException.class, callRecording.getRecordingState(RECORDING_ID)); } private void validateRecordingState(Publisher<RecordingStateResult> publisher, RecordingState status) { StepVerifier.create(publisher) .consumeNextWith(recordingStateResponse -> validateRecording(recordingStateResponse, status)) .verifyComplete(); } private void validateOperationWithRecordingState(Publisher<Void> operation, RecordingState expectedRecordingState) { validateOperation(operation); validateRecordingState( callRecording.getRecordingState(RECORDING_ID), expectedRecordingState ); } private void validateOperation(Publisher<Void> operation) { StepVerifier.create(operation).verifyComplete(); } private <T, U> void validateError(Class<T> exception, Publisher<U> publisher) { StepVerifier.create(publisher) .consumeErrorWith(error -> assertEquals(error.getClass().toString(), exception.toString())) .verify(); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }	class CallRecordingAsyncUnitTests extends CallRecordingUnitTestBase { private CallRecordingAsync callRecording; @BeforeEach public void setup() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient(new ArrayList<>()); callRecording = callingServerClient.getCallRecordingAsync(); } @Test @Test public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); validateError(InvalidParameterException.class, callRecording.startRecordingWithResponse(startRecordingOptions)); } @Test public void recordingOperationsTest() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient( recordingOperationsResponses ); callRecording = callingServerClient.getCallRecordingAsync(); validateRecordingState( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); validateOperationWithRecordingState(callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); validateOperationWithRecordingState(callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE); validateOperation(callRecording.stopRecording(RECORDING_ID)); validateError(CallingServerErrorException.class, callRecording.getRecordingState(RECORDING_ID)); } private void validateRecordingState(Publisher<RecordingStateResult> publisher, RecordingState status) { StepVerifier.create(publisher) .consumeNextWith(recordingStateResponse -> validateRecording(recordingStateResponse, status)) .verifyComplete(); } private void validateOperationWithRecordingState(Publisher<Void> operation, RecordingState expectedRecordingState) { validateOperation(operation); validateRecordingState( callRecording.getRecordingState(RECORDING_ID), expectedRecordingState ); } private void validateOperation(Publisher<Void> operation) { StepVerifier.create(operation).verifyComplete(); } private <T, U> void validateError(Class<T> exception, Publisher<U> publisher) { StepVerifier.create(publisher) .consumeErrorWith(error -> assertEquals(error.getClass().toString(), exception.toString())) .verify(); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }
same as above	public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); validateError(InvalidParameterException.class, callRecording.startRecordingWithResponse(startRecordingOptions)); }	.setRecordingStateCallbackUrl("/not/absolute/uri")	public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); validateError(InvalidParameterException.class, callRecording.startRecordingWithResponse(startRecordingOptions)); }	class CallRecordingAsyncUnitTests extends CallRecordingUnitTestBase { private CallRecordingAsync callRecording; @BeforeEach public void setup() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient(new ArrayList<>()); callRecording = callingServerClient.getCallRecordingAsync(); } @Test public void startRecordingRelativeUriFails() { validateError(InvalidParameterException.class, callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); } @Test @Test public void recordingOperationsTest() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient( recordingOperationsResponses ); callRecording = callingServerClient.getCallRecordingAsync(); validateRecordingState( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); validateOperationWithRecordingState(callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); validateOperationWithRecordingState(callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE); validateOperation(callRecording.stopRecording(RECORDING_ID)); validateError(CallingServerErrorException.class, callRecording.getRecordingState(RECORDING_ID)); } private void validateRecordingState(Publisher<RecordingStateResult> publisher, RecordingState status) { StepVerifier.create(publisher) .consumeNextWith(recordingStateResponse -> validateRecording(recordingStateResponse, status)) .verifyComplete(); } private void validateOperationWithRecordingState(Publisher<Void> operation, RecordingState expectedRecordingState) { validateOperation(operation); validateRecordingState( callRecording.getRecordingState(RECORDING_ID), expectedRecordingState ); } private void validateOperation(Publisher<Void> operation) { StepVerifier.create(operation).verifyComplete(); } private <T, U> void validateError(Class<T> exception, Publisher<U> publisher) { StepVerifier.create(publisher) .consumeErrorWith(error -> assertEquals(error.getClass().toString(), exception.toString())) .verify(); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }	class CallRecordingAsyncUnitTests extends CallRecordingUnitTestBase { private CallRecordingAsync callRecording; @BeforeEach public void setup() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient(new ArrayList<>()); callRecording = callingServerClient.getCallRecordingAsync(); } @Test public void startRecordingRelativeUriFails() { validateError(InvalidParameterException.class, callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); } @Test @Test public void recordingOperationsTest() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient( recordingOperationsResponses ); callRecording = callingServerClient.getCallRecordingAsync(); validateRecordingState( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); validateOperationWithRecordingState(callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); validateOperationWithRecordingState(callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE); validateOperation(callRecording.stopRecording(RECORDING_ID)); validateError(CallingServerErrorException.class, callRecording.getRecordingState(RECORDING_ID)); } private void validateRecordingState(Publisher<RecordingStateResult> publisher, RecordingState status) { StepVerifier.create(publisher) .consumeNextWith(recordingStateResponse -> validateRecording(recordingStateResponse, status)) .verifyComplete(); } private void validateOperationWithRecordingState(Publisher<Void> operation, RecordingState expectedRecordingState) { validateOperation(operation); validateRecordingState( callRecording.getRecordingState(RECORDING_ID), expectedRecordingState ); } private void validateOperation(Publisher<Void> operation) { StepVerifier.create(operation).verifyComplete(); } private <T, U> void validateError(Class<T> exception, Publisher<U> publisher) { StepVerifier.create(publisher) .consumeErrorWith(error -> assertEquals(error.getClass().toString(), exception.toString())) .verify(); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }
same as above	public void recordingOperationsTest() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient( recordingOperationsResponses ); callRecording = callingServerClient.getCallRecordingAsync(); validateRecordingState( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); validateOperationWithRecordingState(callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); validateOperationWithRecordingState(callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE); validateOperation(callRecording.stopRecording(RECORDING_ID)); validateError(CallingServerErrorException.class, callRecording.getRecordingState(RECORDING_ID)); }	.setRecordingStateCallbackUrl("https:	public void recordingOperationsTest() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient( recordingOperationsResponses ); callRecording = callingServerClient.getCallRecordingAsync(); validateRecordingState( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); validateOperationWithRecordingState(callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); validateOperationWithRecordingState(callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE); validateOperation(callRecording.stopRecording(RECORDING_ID)); validateError(CallingServerErrorException.class, callRecording.getRecordingState(RECORDING_ID)); }	class CallRecordingAsyncUnitTests extends CallRecordingUnitTestBase { private CallRecordingAsync callRecording; @BeforeEach public void setup() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient(new ArrayList<>()); callRecording = callingServerClient.getCallRecordingAsync(); } @Test public void startRecordingRelativeUriFails() { validateError(InvalidParameterException.class, callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); } @Test public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); validateError(InvalidParameterException.class, callRecording.startRecordingWithResponse(startRecordingOptions)); } @Test private void validateRecordingState(Publisher<RecordingStateResult> publisher, RecordingState status) { StepVerifier.create(publisher) .consumeNextWith(recordingStateResponse -> validateRecording(recordingStateResponse, status)) .verifyComplete(); } private void validateOperationWithRecordingState(Publisher<Void> operation, RecordingState expectedRecordingState) { validateOperation(operation); validateRecordingState( callRecording.getRecordingState(RECORDING_ID), expectedRecordingState ); } private void validateOperation(Publisher<Void> operation) { StepVerifier.create(operation).verifyComplete(); } private <T, U> void validateError(Class<T> exception, Publisher<U> publisher) { StepVerifier.create(publisher) .consumeErrorWith(error -> assertEquals(error.getClass().toString(), exception.toString())) .verify(); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }	class CallRecordingAsyncUnitTests extends CallRecordingUnitTestBase { private CallRecordingAsync callRecording; @BeforeEach public void setup() { CallAutomationAsyncClient callingServerClient = CallAutomationUnitTestBase.getCallAutomationAsyncClient(new ArrayList<>()); callRecording = callingServerClient.getCallRecordingAsync(); } @Test public void startRecordingRelativeUriFails() { validateError(InvalidParameterException.class, callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); } @Test public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); validateError(InvalidParameterException.class, callRecording.startRecordingWithResponse(startRecordingOptions)); } @Test private void validateRecordingState(Publisher<RecordingStateResult> publisher, RecordingState status) { StepVerifier.create(publisher) .consumeNextWith(recordingStateResponse -> validateRecording(recordingStateResponse, status)) .verifyComplete(); } private void validateOperationWithRecordingState(Publisher<Void> operation, RecordingState expectedRecordingState) { validateOperation(operation); validateRecordingState( callRecording.getRecordingState(RECORDING_ID), expectedRecordingState ); } private void validateOperation(Publisher<Void> operation) { StepVerifier.create(operation).verifyComplete(); } private <T, U> void validateError(Class<T> exception, Publisher<U> publisher) { StepVerifier.create(publisher) .consumeErrorWith(error -> assertEquals(error.getClass().toString(), exception.toString())) .verify(); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }
same as above	public void recordingOperations(HttpClient httpClient) { CallAutomationClient client = getCallingServerClientUsingConnectionString(httpClient) .addPolicy((context, next) -> logHeaders("recordingOperations", next)) .buildClient(); try { String ngrok = "https: String serverCallId = "serverCallId"; CallRecording callRecording = client.getCallRecording(); RecordingStateResult recordingResponse = callRecording.startRecording( new StartRecordingOptions(new ServerCallLocator(serverCallId)) .setRecordingStateCallbackUrl(ngrok)); assertNotNull(recordingResponse); String recordingId = recordingResponse.getRecordingId(); assertNotNull(recordingId); recordingResponse = callRecording.getRecordingState(recordingId); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.pauseRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId); assertNotNull(recordingResponse); assertEquals(RecordingState.INACTIVE, recordingResponse.getRecordingState()); callRecording.resumeRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.stopRecording(recordingId); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(recordingId)); } catch (Exception ex) { fail("Unexpected exception received", ex); } }	.setRecordingStateCallbackUrl(ngrok));	public void recordingOperations(HttpClient httpClient) { CallAutomationClient client = getCallingServerClientUsingConnectionString(httpClient) .addPolicy((context, next) -> logHeaders("recordingOperations", next)) .buildClient(); try { String ngrok = "https: String serverCallId = "serverCallId"; CallRecording callRecording = client.getCallRecording(); RecordingStateResult recordingResponse = callRecording.startRecording( new StartRecordingOptions(new ServerCallLocator(serverCallId)) .setRecordingStateCallbackUrl(ngrok)); assertNotNull(recordingResponse); String recordingId = recordingResponse.getRecordingId(); assertNotNull(recordingId); recordingResponse = callRecording.getRecordingState(recordingId); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.pauseRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId); assertNotNull(recordingResponse); assertEquals(RecordingState.INACTIVE, recordingResponse.getRecordingState()); callRecording.resumeRecording(recordingId); recordingResponse = callRecording.getRecordingState(recordingId); assertNotNull(recordingResponse); assertEquals(RecordingState.ACTIVE, recordingResponse.getRecordingState()); callRecording.stopRecording(recordingId); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(recordingId)); } catch (Exception ex) { fail("Unexpected exception received", ex); } }	class CallRecordingLiveTests extends CallAutomationLiveTestBase { @ParameterizedTest @MethodSource("com.azure.core.test.TestBase @DisabledIfEnvironmentVariable( named = "SKIP_LIVE_TEST", matches = "(?i)(true)", disabledReason = "Requires human intervention") }	class CallRecordingLiveTests extends CallAutomationLiveTestBase { @ParameterizedTest @MethodSource("com.azure.core.test.TestBase @DisabledIfEnvironmentVariable( named = "SKIP_LIVE_TEST", matches = "(?i)(true)", disabledReason = "Requires human intervention") }
same as above	public void startRecordingRelativeUriFails() { assertThrows( InvalidParameterException.class, () -> callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); }	.setRecordingStateCallbackUrl("/not/absolute/uri")	public void startRecordingRelativeUriFails() { assertThrows( InvalidParameterException.class, () -> callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); }	class CallRecordingUnitTests extends CallRecordingUnitTestBase { private CallRecording callRecording; @BeforeEach public void setup() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient(new ArrayList<>()); callRecording = callAutomationClient.getCallRecording(); } @Test @Test public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); assertThrows( InvalidParameterException.class, () -> callRecording.startRecordingWithResponse(startRecordingOptions, Context.NONE) ); } @Test public void recordingOperationsTest() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient( recordingOperationsResponses ); callRecording = callAutomationClient.getCallRecording(); validateRecording( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); verifyOperationWithRecordingState( () -> callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); verifyOperationWithRecordingState( () -> callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE ); callRecording.stopRecording(RECORDING_ID); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(RECORDING_ID)); } private void verifyOperationWithRecordingState(Runnable operation, RecordingState expectedStatus) { operation.run(); RecordingStateResult recordingState = callRecording.getRecordingState(RECORDING_ID); validateRecording(recordingState, expectedStatus); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }	class CallRecordingUnitTests extends CallRecordingUnitTestBase { private CallRecording callRecording; @BeforeEach public void setup() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient(new ArrayList<>()); callRecording = callAutomationClient.getCallRecording(); } @Test @Test public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); assertThrows( InvalidParameterException.class, () -> callRecording.startRecordingWithResponse(startRecordingOptions, Context.NONE) ); } @Test public void recordingOperationsTest() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient( recordingOperationsResponses ); callRecording = callAutomationClient.getCallRecording(); validateRecording( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); verifyOperationWithRecordingState( () -> callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); verifyOperationWithRecordingState( () -> callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE ); callRecording.stopRecording(RECORDING_ID); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(RECORDING_ID)); } private void verifyOperationWithRecordingState(Runnable operation, RecordingState expectedStatus) { operation.run(); RecordingStateResult recordingState = callRecording.getRecordingState(RECORDING_ID); validateRecording(recordingState, expectedStatus); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }
same as above	public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); assertThrows( InvalidParameterException.class, () -> callRecording.startRecordingWithResponse(startRecordingOptions, Context.NONE) ); }	.setRecordingStateCallbackUrl("/not/absolute/uri")	public void startRecordingWithFullParamsFails() { StartRecordingOptions startRecordingOptions = new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingContent(RecordingContent.AUDIO_VIDEO) .setRecordingChannel(RecordingChannel.MIXED) .setRecordingFormat(RecordingFormat.MP4) .setRecordingStateCallbackUrl("/not/absolute/uri") .setChannelAffinity(new ArrayList<ChannelAffinity>(Arrays.asList( new ChannelAffinity(0, new CommunicationUserIdentifier("rawId1")), new ChannelAffinity(1, new CommunicationUserIdentifier("rawId2"))))); assertThrows( InvalidParameterException.class, () -> callRecording.startRecordingWithResponse(startRecordingOptions, Context.NONE) ); }	class CallRecordingUnitTests extends CallRecordingUnitTestBase { private CallRecording callRecording; @BeforeEach public void setup() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient(new ArrayList<>()); callRecording = callAutomationClient.getCallRecording(); } @Test public void startRecordingRelativeUriFails() { assertThrows( InvalidParameterException.class, () -> callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); } @Test @Test public void recordingOperationsTest() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient( recordingOperationsResponses ); callRecording = callAutomationClient.getCallRecording(); validateRecording( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); verifyOperationWithRecordingState( () -> callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); verifyOperationWithRecordingState( () -> callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE ); callRecording.stopRecording(RECORDING_ID); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(RECORDING_ID)); } private void verifyOperationWithRecordingState(Runnable operation, RecordingState expectedStatus) { operation.run(); RecordingStateResult recordingState = callRecording.getRecordingState(RECORDING_ID); validateRecording(recordingState, expectedStatus); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }	class CallRecordingUnitTests extends CallRecordingUnitTestBase { private CallRecording callRecording; @BeforeEach public void setup() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient(new ArrayList<>()); callRecording = callAutomationClient.getCallRecording(); } @Test public void startRecordingRelativeUriFails() { assertThrows( InvalidParameterException.class, () -> callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("/not/absolute/uri") )); } @Test @Test public void recordingOperationsTest() { CallAutomationClient callAutomationClient = CallAutomationUnitTestBase.getCallAutomationClient( recordingOperationsResponses ); callRecording = callAutomationClient.getCallRecording(); validateRecording( callRecording.startRecording(new StartRecordingOptions(new ServerCallLocator(SERVER_CALL_ID)) .setRecordingStateCallbackUrl("https: RecordingState.ACTIVE ); verifyOperationWithRecordingState( () -> callRecording.pauseRecording(RECORDING_ID), RecordingState.INACTIVE ); verifyOperationWithRecordingState( () -> callRecording.resumeRecording(RECORDING_ID), RecordingState.ACTIVE ); callRecording.stopRecording(RECORDING_ID); assertThrows(CallingServerErrorException.class, () -> callRecording.getRecordingState(RECORDING_ID)); } private void verifyOperationWithRecordingState(Runnable operation, RecordingState expectedStatus) { operation.run(); RecordingStateResult recordingState = callRecording.getRecordingState(RECORDING_ID); validateRecording(recordingState, expectedStatus); } private void validateRecording(RecordingStateResult recordingState, RecordingState expectedStatus) { assertEquals(RECORDING_ID, recordingState.getRecordingId()); assertEquals(expectedStatus, recordingState.getRecordingState()); } }
Can we remove this commented code?	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }		public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
Why do we have `blockLast` in async client test? We should test this fully asynchronously.	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	.blockLast();	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
Why do we need to `sleep` here? Isn't delete a long-running operation and we can just poll until complete?	public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); }	sleepInRecordMode(40000);	public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
@srnagar Would something like this work? ```java StepVerifier.create(certPoller.last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertNotNull(expected); assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); ```	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	.blockLast();	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
I must say though, that we would need to do this for all our other Key Vault libraries as they all do the same as Vinay did here for tests involving pollers.	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	.blockLast();	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
If we follow Srikanta's recommendation, we should remove all blocking statements and uses of `SyncPoller`.	public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); }	}	public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
@vcolin7 yeah, the codesnippet above seems to be the async equivalent (last()) of the blockLast() call	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	.blockLast();	public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
Service side has transient additional delay to reflect the change on the server, this sleep covers that.	public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy createdCert = lastResponse.getFinalResult().block(); byte[] backupBytes = certificateAsyncClient.backupCertificate(certificateName).block(); assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); deleteAndPurgeCertificate(certificateName); sleepInRecordMode(40000); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(backupBytes)) .assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCert.getPolicy()); }).verifyComplete(); }); }	sleepInRecordMode(40000);	public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } private void deleteAndPurgeCertificate(String certName) { SyncPoller<DeletedCertificate, Void> deletePoller = certificateAsyncClient.beginDeleteCertificate(certName) .getSyncPoller(); deletePoller.poll(); deletePoller.waitForCompletion(); certificateAsyncClient.purgeDeletedCertificate(certName).block(); pollOnCertificatePurge(certName); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } private void validateMapResponse(Map<String, String> expected, Map<String, String> returned) { for (String key : expected.keySet()) { String val = returned.get(key); String expectedVal = expected.get(key); assertEquals(expectedVal, val); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult() .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); DeletedCertificate deletedCertificate = lastDeletedCertPollResponse.getValue(); assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<DeletedCertificate, Void> deleteCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deleteCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.getDeletedCertificate(certificateName)) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate createdCertificate = lastResponse.getFinalResult().block(); PollerFlux<DeletedCertificate, Void> deletedCertPoller = certificateAsyncClient.beginDeleteCertificate(certificateName); AsyncPollResponse<DeletedCertificate, Void> lastDeletedCertPollResponse = deletedCertPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<KeyVaultCertificateWithPolicy, Void> recoverPoller = certificateAsyncClient.beginRecoverDeletedCertificate(certificateName); AsyncPollResponse<KeyVaultCertificateWithPolicy, Void> recoverPollResponse = recoverPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificate recoveredCert = recoverPollResponse.getValue(); assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate, recoveredCert); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.backupCertificate(certificateName)) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCertResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> retrievePoller = certificateAsyncClient.getCertificateOperation(certificateName); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastRetrieveResponse = retrievePoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy expectedCert = lastCertResponse.getFinalResult().block(); StepVerifier.create(lastRetrieveResponse.getFinalResult()) .assertNext(retrievedCert -> { validateCertificate(expectedCert, retrievedCert); validatePolicy(expectedCert.getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .blockLast(); StepVerifier.create(lastResponse.cancelOperation()) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastCancelResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .blockLast(); StepVerifier.create(lastCancelResponse.getFinalResult()) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); StepVerifier.create(lastResponse.getFinalResult()) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); KeyVaultCertificateWithPolicy certificate = lastResponse.getFinalResult().block(); StepVerifier.create(certificateAsyncClient.updateCertificatePolicy(certificateName, certificate.getPolicy())) .assertNext(certificatePolicy -> validatePolicy(certificate.getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); List<CertificateProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates().map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); })).assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } sleepInRecordMode(90000); certificateAsyncClient.listPropertiesOfCertificates(false).map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).blockLast(); assertEquals(0, certificates.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.getIssuer(issuer.getName())) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuer).block(); StepVerifier.create(certificateAsyncClient.deleteIssuer(issuer.getName())) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer, deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); for (CertificateIssuer issuer : certificateIssuersToList.values()) { CertificateIssuer certificateIssuer = certificateAsyncClient.createIssuer(issuer).block(); assertTrue(issuerCreatedCorrectly(issuer, certificateIssuer)); } List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); })).assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); for (CertificateIssuer issuer : certificateIssuers.values()) { certificateAsyncClient.deleteIssuer(issuer.getName()).block(); } }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { CertificateIssuer createdIssuer = certificateAsyncClient.createIssuer(issuerToCreate).block(); StepVerifier.create(certificateAsyncClient.updateIssuer(issuerToUpdate)) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); certificateAsyncClient.deleteContacts().blockLast(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertRestException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { SyncPoller<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()).getSyncPoller(); certPoller.waitForCompletion(); } AtomicInteger createdVersions = new AtomicInteger(); certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .flatMap(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.empty(); }).blockLast(); assertEquals(versionsToCreate, createdVersions.get()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); AsyncPollResponse<CertificateOperation, KeyVaultCertificateWithPolicy> lastResponse = certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); AsyncPollResponse<DeletedCertificate, Void> lastResponse = poller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .blockLast(); assertNotNull(lastResponse.getValue()); } certificateAsyncClient.listDeletedCertificates().map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getDeletedOn()); return Mono.empty(); }).blockLast(); assertEquals(0, certificatesToDelete.size()); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertRestException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } private void pollOnCertificatePurge(String certificateName) { int pendingPollCount = 0; while (pendingPollCount < 10) { DeletedCertificate deletedCertificate = null; try { deletedCertificate = certificateAsyncClient.getDeletedCertificate(certificateName).block(); } catch (ResourceNotFoundException ignored) { } if (deletedCertificate != null) { sleepInRecordMode(2000); pendingPollCount += 1; } else { return; } } System.err.printf("Deleted Key %s was not purged \n", certificateName); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
nit; We could make these checks before saving the bytes to `backup`.	public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); }	assertTrue(backupBytes.length > 0);	public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(Flux.fromIterable(certificateIssuers.values()) .flatMap(issuer -> certificateAsyncClient.createIssuerWithResponse(issuer)).last().map(ignored -> certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); }))) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
The recording for this test turned out empty because we are not waiting for the async operation to complete. ```suggestion assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)) .verifyComplete(); ```	public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }); }); }	assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer));	public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(Flux.fromIterable(certificateIssuers.values()) .flatMap(issuer -> certificateAsyncClient.createIssuerWithResponse(issuer)).last().map(ignored -> certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); }))) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
The recording for this test turned out empty because we are not waiting for the async operation to complete. ```suggestion }).verifyComplete(); ```	public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); }	});	public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(Flux.fromIterable(certificateIssuers.values()) .flatMap(issuer -> certificateAsyncClient.createIssuerWithResponse(issuer)).last().map(ignored -> certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); }))) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") }
The recording for this test turned out empty because we are not waiting for the async operation to complete. ```suggestion .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())) .verifyComplete(); ```	public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(Flux.fromIterable(certificateIssuers.values()) .flatMap(issuer -> certificateAsyncClient.createIssuerWithResponse(issuer)).last().map(ignored -> certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); }))) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); }); }	.assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size()));	public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
The recording for this test turned out empty because we are not waiting for the async operation to complete. ```suggestion }).verifyComplete(); ```	public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); }	});	public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(Flux.fromIterable(certificateIssuers.values()) .flatMap(issuer -> certificateAsyncClient.createIssuerWithResponse(issuer)).last().map(ignored -> certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); }))) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
The recording for this test turned out empty because we are not waiting for the async operation to complete. ```suggestion }).verifyComplete(); ```	public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); }	});	public void listPropertiesOfCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listPropertiesOfCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates(false) .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); StepVerifier.create( Flux.fromIterable(certificates) .map(certName -> certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .last().map(ignored -> certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }))) .assertNext(ignore -> { assertEquals(0, certificates.size()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); List<IssuerProperties> output = new ArrayList<>(); StepVerifier.create(Flux.fromIterable(certificateIssuers.values()) .flatMap(issuer -> certificateAsyncClient.createIssuerWithResponse(issuer)).last().map(ignored -> certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { output.add(issuerProperties); return Mono.empty(); }))) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), output.size())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }); }); } }	class CertificateAsyncClientTest extends CertificateClientTestBase { private CertificateAsyncClient certificateAsyncClient; @Override protected void beforeTest() { beforeTestSetup(); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, null); } private void createCertificateAsyncClient(HttpClient httpClient, CertificateServiceVersion serviceVersion, String testTenantId) { HttpPipeline httpPipeline = getHttpPipeline(httpClient, testTenantId); certificateAsyncClient = spy(new CertificateClientBuilder() .vaultUrl(getEndpoint()) .pipeline(httpPipeline) .serviceVersion(serviceVersion) .buildAsyncClient()); if (interceptorManager.isPlaybackMode()) { when(certificateAsyncClient.getDefaultPollingInterval()).thenReturn(Duration.ofMillis(10)); } } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 25); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateWithMultipleTenants(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion, testResourceNamer.randomUuid()); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); KeyVaultCredentialPolicy.clearCache(); createCertificateRunner((certificatePolicy) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, certificatePolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expected -> { assertEquals(certName, expected.getName()); assertNotNull(expected.getProperties().getCreatedOn()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate("", CertificatePolicy.getDefault())) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNullPolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(testResourceNamer.randomName("tempCert", 20), null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createCertificateNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginCreateCertificate(null, null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), true, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateDisabledCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateDisabledCertificateRunner((originalTags, updatedTags) -> { String certName = testResourceNamer.randomName("testCert", 20); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault(), false, originalTags); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(cert -> certificateAsyncClient .updateCertificateProperties(cert.getProperties().setTags(updatedTags)))) .assertNext(cert -> { validateMapResponse(updatedTags, cert.getProperties().getTags()); assertFalse(cert.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificate(certificateName) .map(returnedCert -> validatePolicy(expectedCert.getPolicy(), returnedCert.getPolicy()))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateSpecificVersion(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateSpecificVersionRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(expectedCert -> certificateAsyncClient.getCertificateVersion(certificateName, expectedCert.getProperties().getVersion()) .map(returnedCert -> validateCertificate(expectedCert, returnedCert))) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.defer(() -> Mono.just(asyncPollResponse.getValue()))) )) .assertNext(expectedCert -> { assertNotNull(expectedCert.getDeletedOn()); assertNotNull(expectedCert.getRecoveryId()); assertNotNull(expectedCert.getScheduledPurgeDate()); assertEquals(certificateName, expectedCert.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getDeletedCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.beginDeleteCertificate(certificateName) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())))) .assertNext(deletedCertificate -> { assertNotNull(deletedCertificate.getDeletedOn()); assertNotNull(deletedCertificate.getRecoveryId()); assertNotNull(deletedCertificate.getScheduledPurgeDate()); assertEquals(certificateName, deletedCertificate.getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); recoverDeletedKeyRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(asyncPollResponse -> Mono.just(asyncPollResponse.getValue())); }) .flatMap(ignored -> certificateAsyncClient.beginRecoverDeletedCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(certAsyncResponse -> Mono.just(certAsyncResponse.getValue())))) .assertNext(recoveredCert -> { assertEquals(certificateName, recoveredCert.getName()); validateCertificate(createdCertificate.get(), recoveredCert); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void recoverDeletedCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.beginRecoverDeletedCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); backupCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.backupCertificate(certificateName))) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void backupCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); restoreCertificateRunner((certificateName) -> { CertificatePolicy initialPolicy = setupPolicy(); PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, initialPolicy); AtomicReference<KeyVaultCertificateWithPolicy> createdCertificate = new AtomicReference<>(); AtomicReference<Byte[]> backup = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { createdCertificate.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.backupCertificate(certificateName) .flatMap(backupBytes -> { Byte[] bytes = new Byte[backupBytes.length]; int i = 0; for (Byte bt : backupBytes) { bytes[i] = bt; i++; } backup.set(bytes); return Mono.just(backupBytes); }); })) .assertNext(backupBytes -> { assertNotNull(backupBytes); assertTrue(backupBytes.length > 0); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.beginDeleteCertificate(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().then(Mono.defer(() -> certificateAsyncClient.purgeDeletedCertificate(certificateName))) .then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)) .verifyComplete(); sleepInRecordMode(40000); StepVerifier.create(Mono.defer(() -> { byte[] backupBytes = new byte[backup.get().length]; for (int i = 0; i < backup.get().length; i++) { backupBytes[i] = backup.get()[i]; } return certificateAsyncClient.restoreCertificateBackup(backupBytes); })).assertNext(restoredCertificate -> { assertEquals(certificateName, restoredCertificate.getName()); validatePolicy(restoredCertificate.getPolicy(), createdCertificate.get().getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> expectedCert = new AtomicReference<>(); StepVerifier.create( certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { expectedCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.getCertificateOperation(certificateName) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult); })) .assertNext(retrievedCert -> { validateCertificate(expectedCert.get(), retrievedCert); validatePolicy(expectedCert.get().getPolicy(), retrievedCert.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void cancelCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); cancelCertificateOperationRunner((certName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.IN_PROGRESS) .last().flatMap(AsyncPollResponse::cancelOperation)) .assertNext(certificateOperation -> { assertTrue(certificateOperation.getCancellationRequested()); }).verifyComplete(); StepVerifier.create(certPoller.takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.USER_CANCELLED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { assertFalse(certificate.getProperties().isEnabled()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateOperation(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateOperationRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(ignored -> certificateAsyncClient.deleteCertificateOperation(certificateName))) .assertNext(certificateOperation -> { assertEquals("completed", certificateOperation.getStatus()); }).verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteCertificateOperation(certificateName)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult)) .assertNext(certificate -> { validatePolicy(setupPolicy(), certificate.getPolicy()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateCertificatePolicy(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateCertificatePolicyRunner((certificateName) -> { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certificateName, setupPolicy()); AtomicReference<KeyVaultCertificateWithPolicy> createdCert = new AtomicReference<>(); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult) .flatMap(keyVaultCertificateWithPolicy -> { keyVaultCertificateWithPolicy.getPolicy().setExportable(false); createdCert.set(keyVaultCertificateWithPolicy); return certificateAsyncClient.updateCertificatePolicy(certificateName, keyVaultCertificateWithPolicy.getPolicy()); })) .assertNext(certificatePolicy -> validatePolicy(createdCert.get().getPolicy(), certificatePolicy)).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void restoreCertificateFromMalformedBackup(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); byte[] keyBackupBytes = "non-existing".getBytes(); StepVerifier.create(certificateAsyncClient.restoreCertificateBackup(keyBackupBytes)) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceModifiedException.class, HttpURLConnection.HTTP_BAD_REQUEST); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificatesRunner((certificatesToList) -> { HashSet<String> certificates = new HashSet<>(certificatesToList); for (String certName : certificates) { StepVerifier.create(certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()) .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last()) .assertNext(response -> assertNotNull(response.getValue())) .verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificates() .map(certificate -> { certificates.remove(certificate.getName()); return Mono.empty(); }).last()) .assertNext(ignore -> { assertEquals(0, certificates.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); createIssuerRunner((issuer) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(createdIssuer -> { assertTrue(issuerCreatedCorrectly(issuer, createdIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerEmptyName(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", ""))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNullProvider(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(new CertificateIssuer("", null))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_BAD_METHOD)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void createIssuerNull(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.createIssuer(null)) .verifyErrorSatisfies(e -> assertEquals(NullPointerException.class, e.getClass())); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); getCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> certificateIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(createdIssuer -> { certificateIssuer.set(createdIssuer); return certificateAsyncClient.getIssuer(issuer.getName()); })) .assertNext(retrievedIssuer -> { assertTrue(issuerCreatedCorrectly(certificateIssuer.get(), retrievedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> { assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); deleteCertificateIssuerRunner((issuer) -> { AtomicReference<CertificateIssuer> createdIssuer = new AtomicReference<>(); StepVerifier.create(certificateAsyncClient.createIssuer(issuer) .flatMap(certificateIssuer -> { createdIssuer.set(certificateIssuer); return certificateAsyncClient.deleteIssuer(issuer.getName()); })) .assertNext(deletedIssuer -> { assertTrue(issuerCreatedCorrectly(createdIssuer.get(), deletedIssuer)); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void deleteCertificateIssuerNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.backupCertificate("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateIssuers(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); listCertificateIssuersRunner((certificateIssuers) -> { HashMap<String, CertificateIssuer> certificateIssuersToList = new HashMap<>(certificateIssuers); AtomicInteger count = new AtomicInteger(0); for (CertificateIssuer issuer : certificateIssuers.values()) { StepVerifier.create(certificateAsyncClient.createIssuer(issuer)) .assertNext(certificateIssuer -> { assertNotNull(certificateIssuer.getName()); }).verifyComplete(); } StepVerifier.create(certificateAsyncClient.listPropertiesOfIssuers() .map(issuerProperties -> { if (certificateIssuersToList.containsKey(issuerProperties.getName())) { count.incrementAndGet(); } return Mono.empty(); }).last()) .assertNext(ignore -> assertEquals(certificateIssuersToList.size(), count.get())) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void updateIssuer(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); updateIssuerRunner((issuerToCreate, issuerToUpdate) -> { StepVerifier.create(certificateAsyncClient.createIssuer(issuerToCreate) .flatMap(createdIssuer -> certificateAsyncClient.updateIssuer(issuerToUpdate))) .assertNext(updatedIssuer -> assertTrue(issuerUpdatedCorrectly(issuerToCreate, updatedIssuer))).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void setContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts().then(Mono.just("complete"))) .assertNext(input -> assertEquals("complete", input)).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void listContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); sleepInRecordMode(6000); StepVerifier.create(certificateAsyncClient.listContacts()) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void deleteContacts(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); List<CertificateContact> contacts = Arrays.asList(setupContact()); StepVerifier.create(certificateAsyncClient.setContacts(contacts)) .assertNext(contact -> validateContact(setupContact(), contact)) .verifyComplete(); StepVerifier.create(certificateAsyncClient.deleteContacts()) .assertNext(contact -> { validateContact(setupContact(), contact); }).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificateOperationNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificateOperation("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void getCertificatePolicyNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.getCertificatePolicy("non-existing")) .verifyErrorSatisfies(e -> assertResponseException(e, ResourceNotFoundException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listCertificateVersions(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); String certName = testResourceNamer.randomName("testListCertVersion", 25); int versionsToCreate = 5; for (int i = 0; i < versionsToCreate; i++) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last().flatMap(AsyncPollResponse::getFinalResult).then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } AtomicInteger createdVersions = new AtomicInteger(); StepVerifier.create(certificateAsyncClient.listPropertiesOfCertificateVersions(certName) .map(certificateProperties -> { createdVersions.getAndIncrement(); return Mono.just("complete"); }).last()).assertNext(ignored -> assertEquals(versionsToCreate, createdVersions.get())).verifyComplete(); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void listDeletedCertificates(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); if (interceptorManager.isLiveMode()) { return; } listDeletedCertificatesRunner((certificates) -> { HashSet<String> certificatesToDelete = new HashSet<>(certificates); for (String certName : certificatesToDelete) { PollerFlux<CertificateOperation, KeyVaultCertificateWithPolicy> certPoller = certificateAsyncClient.beginCreateCertificate(certName, CertificatePolicy.getDefault()); StepVerifier.create(certPoller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED).last() .then(Mono.just("complete"))).assertNext(input -> assertEquals("complete", input)).verifyComplete(); } for (String certName : certificates) { PollerFlux<DeletedCertificate, Void> poller = certificateAsyncClient.beginDeleteCertificate(certName); StepVerifier.create(poller .takeUntil(apr -> apr.getStatus() == LongRunningOperationStatus.SUCCESSFULLY_COMPLETED) .last()).assertNext(asyncPollResponse -> assertNotNull(asyncPollResponse.getValue())).verifyComplete(); } sleepInRecordMode(4000); StepVerifier.create(certificateAsyncClient.listDeletedCertificates() .map(deletedCertificate -> { certificatesToDelete.remove(deletedCertificate.getName()); return Mono.just("complete"); }).last()) .assertNext(ignored -> { assertEquals(0, certificatesToDelete.size()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); importCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertTrue(toHexString(importedCertificate.getProperties().getX509Thumbprint()) .equalsIgnoreCase("7cb8b7539d87ba7215357b9b9049dff2d3fa59ba")); assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); X509Certificate x509Certificate = null; try { x509Certificate = loadCerToX509Certificate(importedCertificate); } catch (CertificateException \| IOException e) { e.printStackTrace(); fail(); } assertEquals("CN=KeyVaultTest", x509Certificate.getSubjectX500Principal().getName()); assertEquals("CN=Root Agency", x509Certificate.getIssuerX500Principal().getName()); }).verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") @SuppressWarnings("ArraysAsListWithZeroOrOneArgument") public void mergeCertificateNotFound(HttpClient httpClient, CertificateServiceVersion serviceVersion) { createCertificateAsyncClient(httpClient, serviceVersion); StepVerifier.create(certificateAsyncClient.mergeCertificate( new MergeCertificateOptions(testResourceNamer.randomName("testCert", 20), Arrays.asList("test".getBytes())))) .verifyErrorSatisfies(e -> assertResponseException(e, HttpResponseException.class, HttpURLConnection.HTTP_NOT_FOUND)); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("getTestParameters") public void importPemCertificate(HttpClient httpClient, CertificateServiceVersion serviceVersion) throws IOException { createCertificateAsyncClient(httpClient, serviceVersion); importPemCertificateRunner((importCertificateOptions) -> { StepVerifier.create(certificateAsyncClient.importCertificate(importCertificateOptions)) .assertNext(importedCertificate -> { assertEquals(importCertificateOptions.isEnabled(), importedCertificate.getProperties().isEnabled()); assertEquals(CertificateContentType.PEM, importedCertificate.getPolicy().getContentType()); }).verifyComplete(); }); } }
confirm with v-team	public static OperationDetails toOperationDetails(com.azure.ai.formrecognizer.documentanalysis.implementation.models.OperationDetails innerOperationDetails) { OperationDetails operationDetails = null; if (innerOperationDetails != null) { if (innerOperationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) { DocumentModelBuildOperationDetails buildOperationDetails = new DocumentModelBuildOperationDetails(); DocumentModelBuildOperationDetailsHelper.setResult(buildOperationDetails, toDocumentModelDetails(((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) innerOperationDetails).getResult())); operationDetails = buildOperationDetails; } else if (innerOperationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) { DocumentModelComposeOperationDetails composeOperationDetails = new DocumentModelComposeOperationDetails(); DocumentModelComposeOperationDetailsHelper.setResult(composeOperationDetails, toDocumentModelDetails(((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) innerOperationDetails).getResult())); operationDetails = composeOperationDetails; } else if (innerOperationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) { DocumentModelCopyToOperationDetails copyToOperationDetails = new DocumentModelCopyToOperationDetails(); DocumentModelCopyToOperationDetailsHelper.setResult(copyToOperationDetails, toDocumentModelDetails(((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) innerOperationDetails).getResult())); operationDetails = copyToOperationDetails; } OperationDetailsHelper.setOperationId(operationDetails, innerOperationDetails.getOperationId()); OperationDetailsHelper.setCreatedOn(operationDetails, innerOperationDetails.getCreatedDateTime()); OperationDetailsHelper.setLastUpdatedOn(operationDetails, innerOperationDetails.getLastUpdatedDateTime()); OperationDetailsHelper.setPercentCompleted(operationDetails, innerOperationDetails.getPercentCompleted() == null ? Integer.valueOf(0) : innerOperationDetails.getPercentCompleted()); OperationDetailsHelper.setStatus(operationDetails, OperationStatus.fromString(innerOperationDetails.getStatus().toString())); OperationDetailsHelper.setResourceLocation(operationDetails, innerOperationDetails.getResourceLocation()); OperationDetailsHelper.setError(operationDetails, toResponseError(innerOperationDetails.getError())); OperationDetailsHelper.setTags(operationDetails, innerOperationDetails.getTags()); } return operationDetails; }		public static OperationDetails toOperationDetails(com.azure.ai.formrecognizer.documentanalysis.implementation.models.OperationDetails innerOperationDetails) { OperationDetails operationDetails = null; if (innerOperationDetails != null) { if (innerOperationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) { DocumentModelBuildOperationDetails buildOperationDetails = new DocumentModelBuildOperationDetails(); DocumentModelBuildOperationDetailsHelper.setResult(buildOperationDetails, toDocumentModelDetails(((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) innerOperationDetails).getResult())); operationDetails = buildOperationDetails; } else if (innerOperationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) { DocumentModelComposeOperationDetails composeOperationDetails = new DocumentModelComposeOperationDetails(); DocumentModelComposeOperationDetailsHelper.setResult(composeOperationDetails, toDocumentModelDetails(((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) innerOperationDetails).getResult())); operationDetails = composeOperationDetails; } else if (innerOperationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) { DocumentModelCopyToOperationDetails copyToOperationDetails = new DocumentModelCopyToOperationDetails(); DocumentModelCopyToOperationDetailsHelper.setResult(copyToOperationDetails, toDocumentModelDetails(((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) innerOperationDetails).getResult())); operationDetails = copyToOperationDetails; } OperationDetailsHelper.setOperationId(operationDetails, innerOperationDetails.getOperationId()); OperationDetailsHelper.setCreatedOn(operationDetails, innerOperationDetails.getCreatedDateTime()); OperationDetailsHelper.setLastUpdatedOn(operationDetails, innerOperationDetails.getLastUpdatedDateTime()); OperationDetailsHelper.setPercentCompleted(operationDetails, innerOperationDetails.getPercentCompleted() == null ? Integer.valueOf(0) : innerOperationDetails.getPercentCompleted()); OperationDetailsHelper.setStatus(operationDetails, OperationStatus.fromString(innerOperationDetails.getStatus().toString())); OperationDetailsHelper.setResourceLocation(operationDetails, innerOperationDetails.getResourceLocation()); OperationDetailsHelper.setError(operationDetails, toResponseError(innerOperationDetails.getError())); OperationDetailsHelper.setTags(operationDetails, innerOperationDetails.getTags()); } return operationDetails; }	class Transforms { public static AnalyzeResult toAnalyzeResultOperation( com.azure.ai.formrecognizer.documentanalysis.implementation.models.AnalyzeResult innerAnalyzeResult) { AnalyzeResult analyzeResult = new AnalyzeResult(); if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getDocuments())) { AnalyzeResultHelper.setDocuments(analyzeResult, innerAnalyzeResult.getDocuments().stream() .map(document -> { AnalyzedDocument analyzedDocument = new AnalyzedDocument(); AnalyzedDocumentHelper.setBoundingRegions(analyzedDocument, toBoundingRegions(document.getBoundingRegions())); AnalyzedDocumentHelper.setConfidence(analyzedDocument, document.getConfidence()); AnalyzedDocumentHelper.setDocType(analyzedDocument, document.getDocType()); AnalyzedDocumentHelper.setFields(analyzedDocument, toDocumentFields(document.getFields())); AnalyzedDocumentHelper.setSpans(analyzedDocument, toDocumentSpans(document.getSpans())); return analyzedDocument; }) .collect(Collectors.toList())); } AnalyzeResultHelper.setContent(analyzeResult, innerAnalyzeResult.getContent()); AnalyzeResultHelper.setModelId(analyzeResult, innerAnalyzeResult.getModelId()); if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getLanguages())) { AnalyzeResultHelper.setLanguages(analyzeResult, innerAnalyzeResult.getLanguages() .stream() .map(innerLanguage -> { DocumentLanguage documentLanguage = new DocumentLanguage(); DocumentLanguageHelper.setLocale(documentLanguage, innerLanguage.getLocale()); DocumentLanguageHelper.setSpans(documentLanguage, toDocumentSpans(innerLanguage.getSpans())); DocumentLanguageHelper.setConfidence(documentLanguage, innerLanguage.getConfidence()); return documentLanguage; }) .collect(Collectors.toList())); } AnalyzeResultHelper.setPages(analyzeResult, innerAnalyzeResult.getPages().stream() .map(innerDocumentPage -> { DocumentPage documentPage = new DocumentPage(); DocumentPageHelper.setAngle(documentPage, innerDocumentPage.getAngle()); DocumentPageHelper.setHeight(documentPage, innerDocumentPage.getHeight()); DocumentPageHelper.setWidth(documentPage, innerDocumentPage.getWidth()); DocumentPageHelper.setPageNumber(documentPage, innerDocumentPage.getPageNumber()); DocumentPageHelper.setUnit(documentPage, innerDocumentPage.getUnit() == null ? null : LengthUnit.fromString(innerDocumentPage.getUnit().toString())); DocumentPageHelper.setSpans(documentPage, toDocumentSpans(innerDocumentPage.getSpans())); DocumentPageHelper.setSelectionMarks(documentPage, innerDocumentPage.getSelectionMarks() == null ? null : innerDocumentPage.getSelectionMarks() .stream() .map(innerSelectionMark -> { DocumentSelectionMark documentSelectionMark = new DocumentSelectionMark(); DocumentSelectionMarkHelper.setBoundingPolygon(documentSelectionMark, toPolygonPoints(innerSelectionMark.getPolygon())); DocumentSelectionMarkHelper.setConfidence(documentSelectionMark, innerSelectionMark.getConfidence()); DocumentSelectionMarkHelper.setSpan(documentSelectionMark, getDocumentSpan(innerSelectionMark.getSpan())); DocumentSelectionMarkHelper.setState(documentSelectionMark, SelectionMarkState.fromString(innerSelectionMark.getState().toString())); return documentSelectionMark; }) .collect(Collectors.toList())); DocumentPageHelper.setLines(documentPage, innerDocumentPage.getLines() == null ? null : innerDocumentPage.getLines() .stream() .map(innerDocumentLine -> { DocumentLine documentLine = new DocumentLine(); DocumentLineHelper.setBoundingPolygon(documentLine, toPolygonPoints(innerDocumentLine.getPolygon())); DocumentLineHelper.setContent(documentLine, innerDocumentLine.getContent()); DocumentLineHelper.setSpans(documentLine, toDocumentSpans(innerDocumentLine.getSpans())); DocumentLineHelper.setPageWords(documentLine, toDocumentWords(innerDocumentPage)); return documentLine; }) .collect(Collectors.toList())); DocumentPageHelper.setWords(documentPage, toDocumentWords(innerDocumentPage)); return documentPage; }) .collect(Collectors.toList())); if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getKeyValuePairs())) { AnalyzeResultHelper.setKeyValuePairs(analyzeResult, innerAnalyzeResult.getKeyValuePairs() .stream() .map(innerKeyValuePair -> { DocumentKeyValuePair documentKeyValuePair = new DocumentKeyValuePair(); DocumentKeyValuePairHelper.setValue(documentKeyValuePair, toDocumentKeyValueElement(innerKeyValuePair.getValue())); DocumentKeyValuePairHelper.setKey(documentKeyValuePair, toDocumentKeyValueElement(innerKeyValuePair.getKey())); DocumentKeyValuePairHelper.setConfidence(documentKeyValuePair, innerKeyValuePair.getConfidence()); return documentKeyValuePair; }) .collect(Collectors.toList())); } if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getStyles())) { AnalyzeResultHelper.setStyles(analyzeResult, innerAnalyzeResult.getStyles() .stream() .map(innerDocumentStyle -> { DocumentStyle documentStyle = new DocumentStyle(); DocumentStyleHelper.setConfidence(documentStyle, innerDocumentStyle.getConfidence()); DocumentStyleHelper.setIsHandwritten(documentStyle, innerDocumentStyle.isHandwritten()); DocumentStyleHelper.setSpans(documentStyle, toDocumentSpans(innerDocumentStyle.getSpans())); return documentStyle; }) .collect(Collectors.toList())); } if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getParagraphs())) { AnalyzeResultHelper.setParagraphs(analyzeResult, innerAnalyzeResult.getParagraphs() .stream() .map(innerParagraph -> { DocumentParagraph documentParagraph = new DocumentParagraph(); DocumentParagraphHelper.setContent(documentParagraph, innerParagraph.getContent()); DocumentParagraphHelper.setRole(documentParagraph, innerParagraph.getRole() == null ? null : ParagraphRole.fromString(innerParagraph.getRole().toString())); DocumentParagraphHelper.setBoundingRegions(documentParagraph, toBoundingRegions(innerParagraph.getBoundingRegions())); DocumentParagraphHelper.setSpans(documentParagraph, toDocumentSpans(innerParagraph.getSpans())); return documentParagraph; }) .collect(Collectors.toList())); } if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getTables())) { AnalyzeResultHelper.setTables(analyzeResult, innerAnalyzeResult.getTables() .stream() .map(innerDocumentTable -> { DocumentTable documentTable = new DocumentTable(); DocumentTableHelper.setCells(documentTable, innerDocumentTable.getCells() .stream() .map(innerDocumentCell -> { DocumentTableCell documentTableCell = new DocumentTableCell(); DocumentTableCellHelper.setBoundingRegions(documentTableCell, toBoundingRegions(innerDocumentTable.getBoundingRegions())); DocumentTableCellHelper.setSpans(documentTableCell, toDocumentSpans(innerDocumentTable.getSpans())); DocumentTableCellHelper.setContent(documentTableCell, innerDocumentCell.getContent()); DocumentTableCellHelper.setColumnIndex(documentTableCell, innerDocumentCell.getColumnIndex()); DocumentTableCellHelper.setKind(documentTableCell, innerDocumentCell.getKind() == null ? DocumentTableCellKind.CONTENT : DocumentTableCellKind.fromString(innerDocumentCell.getKind().toString())); DocumentTableCellHelper.setRowIndex(documentTableCell, innerDocumentCell.getRowIndex()); DocumentTableCellHelper.setColumnSpan(documentTableCell, innerDocumentCell.getColumnSpan()); DocumentTableCellHelper.setRowSpan(documentTableCell, innerDocumentCell.getRowSpan()); return documentTableCell; }) .collect(Collectors.toList())); DocumentTableHelper.setBoundingRegions(documentTable, toBoundingRegions(innerDocumentTable.getBoundingRegions())); DocumentTableHelper.setSpans(documentTable, toDocumentSpans(innerDocumentTable.getSpans())); DocumentTableHelper.setColumnCount(documentTable, innerDocumentTable.getColumnCount()); DocumentTableHelper.setRowCount(documentTable, innerDocumentTable.getRowCount()); return documentTable; }) .collect(Collectors.toList())); } return analyzeResult; } /** * Mapping a {@link ErrorResponseException} to {@link HttpResponseException}. * * @param throwable A {@link Throwable}. * @return A {@link HttpResponseException} or the original throwable type. */ public static Throwable mapToHttpResponseExceptionIfExists(Throwable throwable) { if (throwable instanceof ErrorResponseException) { ErrorResponseException errorResponseException = (ErrorResponseException) throwable; com.azure.ai.formrecognizer.documentanalysis.implementation.models.Error error = null; if (errorResponseException.getValue() != null && errorResponseException.getValue().getError() != null) { error = (errorResponseException.getValue().getError()); } return new HttpResponseException( errorResponseException.getMessage(), errorResponseException.getResponse(), toResponseError(error) ); } return throwable; } public static HttpResponseException mapResponseErrorToHttpResponseException(com.azure.ai.formrecognizer.documentanalysis.implementation.models.Error error) { return new HttpResponseException( error.getMessage(), null, toResponseError(error) ); } public static CopyAuthorization toCopyAuthorization( com.azure.ai.formrecognizer.documentanalysis.implementation.models.CopyAuthorization innerCopyAuthorization) { return new CopyAuthorization(innerCopyAuthorization.getTargetResourceId(), innerCopyAuthorization.getTargetResourceRegion(), innerCopyAuthorization.getTargetModelId(), innerCopyAuthorization.getTargetModelLocation(), innerCopyAuthorization.getAccessToken(), innerCopyAuthorization.getExpirationDateTime()); } public static ResourceDetails toAccountProperties( com.azure.ai.formrecognizer.documentanalysis.implementation.models.ResourceDetails getInfoResponse) { ResourceDetails resourceDetails = new ResourceDetails(); ResourceDetailsHelper.setDocumentModelCount(resourceDetails, getInfoResponse.getCustomDocumentModels().getCount()); ResourceDetailsHelper.setDocumentModelLimit(resourceDetails, getInfoResponse.getCustomDocumentModels().getLimit()); return resourceDetails; } public static DocumentModelDetails toDocumentModelFromOperationId(com.azure.ai.formrecognizer.documentanalysis.implementation.models.OperationDetails operationDetails) { if (operationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) { com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails buildOperationModelResult = ((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) operationDetails).getResult(); return toDocumentModelDetails(buildOperationModelResult); } else if (operationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) { com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails copyOperationModelResult = ((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) operationDetails).getResult(); return toDocumentModelDetails(copyOperationModelResult); } else if (operationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) { com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails composeOperationModelResult = ((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) operationDetails).getResult(); return toDocumentModelDetails(composeOperationModelResult); } return new DocumentModelDetails(); } public static DocumentModelDetails toDocumentModelDetails(com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails modelDetails) { DocumentModelDetails documentModelDetails = new DocumentModelDetails(); DocumentModelDetailsHelper.setModelId(documentModelDetails, modelDetails.getModelId()); DocumentModelDetailsHelper.setDescription(documentModelDetails, modelDetails.getDescription()); Map<String, DocumentTypeDetails> docTypeMap = getStringDocTypeInfoMap(modelDetails); DocumentModelDetailsHelper.setDocTypes(documentModelDetails, docTypeMap); DocumentModelDetailsHelper.setCreatedOn(documentModelDetails, modelDetails.getCreatedDateTime()); DocumentModelDetailsHelper.setTags(documentModelDetails, modelDetails.getTags()); return documentModelDetails; } private static Map<String, DocumentTypeDetails> getStringDocTypeInfoMap( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails modelInfo) { if (!CoreUtils.isNullOrEmpty(modelInfo.getDocTypes())) { Map<String, DocumentTypeDetails> docTypeMap = new HashMap<>(); modelInfo.getDocTypes().forEach((key, innerDocTypeInfo) -> { DocumentTypeDetails documentTypeDetails = new DocumentTypeDetails(); DocumentTypeDetailsHelper.setDescription(documentTypeDetails, innerDocTypeInfo.getDescription()); Map<String, DocumentFieldSchema> schemaMap = new HashMap<>(); innerDocTypeInfo.getFieldSchema().forEach((schemaKey, innerDocSchema) -> schemaMap.put(schemaKey, toDocumentFieldSchema(innerDocSchema))); DocumentTypeDetailsHelper.setFieldSchema(documentTypeDetails, schemaMap); DocumentTypeDetailsHelper.setFieldConfidence(documentTypeDetails, innerDocTypeInfo.getFieldConfidence()); docTypeMap.put(key, documentTypeDetails); DocumentTypeDetailsHelper.setBuildMode(documentTypeDetails, innerDocTypeInfo.getBuildMode() != null ? DocumentModelBuildMode.fromString(innerDocTypeInfo.getBuildMode().toString()) : null); }); return docTypeMap; } return null; } private static DocumentFieldSchema toDocumentFieldSchema( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldSchema innerDocSchema) { if (innerDocSchema != null) { DocumentFieldSchema documentFieldSchema = new DocumentFieldSchema(); DocumentFieldSchemaHelper.setDescription(documentFieldSchema, innerDocSchema.getDescription()); DocumentFieldSchemaHelper.setExample(documentFieldSchema, innerDocSchema.getExample()); DocumentFieldSchemaHelper.setType(documentFieldSchema, DocumentFieldType.fromString(innerDocSchema.getType().toString())); if (innerDocSchema.getItems() != null) { DocumentFieldSchemaHelper.setItems(documentFieldSchema, toDocumentFieldSchema(innerDocSchema.getItems())); } if (!CoreUtils.isNullOrEmpty(innerDocSchema.getProperties())) { DocumentFieldSchemaHelper.setProperties(documentFieldSchema, toDocumentFieldProperties(innerDocSchema.getProperties())); } return documentFieldSchema; } return null; } private static Map<String, DocumentFieldSchema> toDocumentFieldProperties( Map<String, com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldSchema> properties) { Map<String, DocumentFieldSchema> schemaMap = new HashMap<>(); properties.forEach((key, innerDocFieldSchema) -> schemaMap.put(key, toDocumentFieldSchema(innerDocFieldSchema))); return schemaMap; } private static DocumentKeyValueElement toDocumentKeyValueElement( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentKeyValueElement innerDocKeyValElement) { if (innerDocKeyValElement == null) { return null; } DocumentKeyValueElement documentKeyValueElement = new DocumentKeyValueElement(); DocumentKeyValueElementHelper.setContent(documentKeyValueElement, innerDocKeyValElement.getContent()); DocumentKeyValueElementHelper.setBoundingRegions(documentKeyValueElement, toBoundingRegions(innerDocKeyValElement.getBoundingRegions())); DocumentKeyValueElementHelper.setSpans(documentKeyValueElement, toDocumentSpans(innerDocKeyValElement.getSpans())); return documentKeyValueElement; } private static Map<String, DocumentField> toDocumentFields( Map<String, com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentField> innerFields) { Map<String, DocumentField> documentFieldMap = new HashMap<>(); innerFields.forEach((key, innerDocumentField) -> documentFieldMap.put(key, toDocumentField(innerDocumentField))); return documentFieldMap; } private static DocumentField toDocumentField( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentField innerDocumentField) { DocumentField documentField = new DocumentField(); DocumentFieldHelper.setType(documentField, DocumentFieldType.fromString(innerDocumentField.getType().toString())); DocumentFieldHelper.setBoundingRegions(documentField, toBoundingRegions(innerDocumentField.getBoundingRegions())); DocumentFieldHelper.setContent(documentField, innerDocumentField.getContent()); DocumentFieldHelper.setSpans(documentField, toDocumentSpans(innerDocumentField.getSpans())); DocumentFieldHelper.setConfidence(documentField, innerDocumentField.getConfidence()); setDocumentFieldValue(innerDocumentField, documentField); return documentField; } private static void setDocumentFieldValue( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentField innerDocumentField, DocumentField documentField) { if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.STRING.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueString(documentField, innerDocumentField.getValueString()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.DATE.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueDate(documentField, innerDocumentField.getValueDate()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.TIME.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueTime(documentField, innerDocumentField.getValueTime() == null ? null : LocalTime.parse(innerDocumentField.getValueTime(), DateTimeFormatter.ofPattern("HH:mm:ss"))); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.PHONE_NUMBER.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValuePhoneNumber(documentField, innerDocumentField.getValuePhoneNumber()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.NUMBER.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueNumber(documentField, innerDocumentField.getValueNumber()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.INTEGER.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueInteger(documentField, innerDocumentField.getValueInteger()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.SELECTION_MARK.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueSelectionMark() == null) { DocumentFieldHelper.setValueSelectionMark(documentField, null); } else { DocumentFieldHelper.setValueSelectionMark(documentField, SelectionMarkState.fromString(innerDocumentField.getValueSelectionMark().toString())); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.COUNTRY_REGION.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueCountryRegion(documentField, innerDocumentField.getValueCountryRegion()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.SIGNATURE.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueSignature() != null) { DocumentFieldHelper.setValueSignature(documentField, DocumentSignatureType.fromString(innerDocumentField.getValueSignature().toString())); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.ARRAY.equals( innerDocumentField.getType())) { if (CoreUtils.isNullOrEmpty(innerDocumentField.getValueArray())) { DocumentFieldHelper.setValueArray(documentField, null); } else { DocumentFieldHelper.setValueArray(documentField, innerDocumentField.getValueArray() .stream() .map(Transforms::toDocumentField) .collect(Collectors.toList())); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.OBJECT.equals( innerDocumentField.getType())) { if (CoreUtils.isNullOrEmpty(innerDocumentField.getValueObject())) { DocumentFieldHelper.setValueObject(documentField, null); } else { HashMap<String, DocumentField> documentFieldMap = new HashMap<>(); innerDocumentField.getValueObject() .forEach((key, innerMapDocumentField) -> documentFieldMap.put(key, toDocumentField(innerMapDocumentField))); DocumentFieldHelper.setValueObject(documentField, documentFieldMap); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.CURRENCY.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueCurrency() == null) { DocumentFieldHelper.setValueCurrency(documentField, null); } else { CurrencyValue currencyValue = new CurrencyValue(); CurrencyValueHelper.setAmount(currencyValue, innerDocumentField.getValueCurrency().getAmount()); CurrencyValueHelper.setCurrencySymbol(currencyValue, innerDocumentField.getValueCurrency().getCurrencySymbol()); DocumentFieldHelper.setValueCurrency(documentField, currencyValue); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.ADDRESS.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueAddress() == null) { DocumentFieldHelper.setValueAddress(documentField, null); } else { AddressValue addressValue = new AddressValue(); AddressValueHelper.setCity(addressValue, innerDocumentField.getValueAddress().getCity()); AddressValueHelper.setStreetAddress(addressValue, innerDocumentField.getValueAddress().getStreetAddress()); AddressValueHelper.setCountryRegion(addressValue, innerDocumentField.getValueAddress().getCountryRegion()); AddressValueHelper.setHouseNumber(addressValue, innerDocumentField.getValueAddress().getHouseNumber()); AddressValueHelper.setRoad(addressValue, innerDocumentField.getValueAddress().getRoad()); AddressValueHelper.setPoBox(addressValue, innerDocumentField.getValueAddress().getPoBox()); AddressValueHelper.setPostalCode(addressValue, innerDocumentField.getValueAddress().getPostalCode()); AddressValueHelper.setState(addressValue, innerDocumentField.getValueAddress().getState()); DocumentFieldHelper.setValueAddress(documentField, addressValue); } } } private static List<DocumentSpan> toDocumentSpans( List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentSpan> innerDocumentSpans) { if (!CoreUtils.isNullOrEmpty(innerDocumentSpans)) { return innerDocumentSpans .stream() .map(Transforms::getDocumentSpan) .collect(Collectors.toList()); } else { return null; } } private static DocumentSpan getDocumentSpan( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentSpan innerDocumentSpan) { DocumentSpan documentSpan = new DocumentSpan(); DocumentSpanHelper.setLength(documentSpan, innerDocumentSpan.getLength()); DocumentSpanHelper.setOffset(documentSpan, innerDocumentSpan.getOffset()); return documentSpan; } private static List<BoundingRegion> toBoundingRegions( List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.BoundingRegion> innerBoundingRegions) { if (!CoreUtils.isNullOrEmpty(innerBoundingRegions)) { return innerBoundingRegions .stream() .map(innerBoundingRegion -> { BoundingRegion boundingRegion = new BoundingRegion(); BoundingRegionHelper.setBoundingPolygon(boundingRegion, toPolygonPoints(innerBoundingRegion.getPolygon())); BoundingRegionHelper.setPageNumber(boundingRegion, innerBoundingRegion.getPageNumber()); return boundingRegion; }) .collect(Collectors.toList()); } else { return null; } } private static List<Point> toPolygonPoints(List<Float> polygonValues) { if (CoreUtils.isNullOrEmpty(polygonValues) \|\| (polygonValues.size() % 2) != 0) { return null; } List<Point> pointList = new ArrayList<>(); for (int i = 0; i < polygonValues.size(); i++) { Point polygonPoint = new Point(); PointHelper.setX(polygonPoint, polygonValues.get(i)); PointHelper.setY(polygonPoint, polygonValues.get(++i)); pointList.add(polygonPoint); } return pointList; } public static List<DocumentModelSummary> toDocumentModelInfo( List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelSummary> modelSummaryList) { return modelSummaryList .stream() .map(modelSummary -> { DocumentModelSummary documentModelSummary = new DocumentModelSummary(); DocumentModelSummaryHelper.setModelId(documentModelSummary, modelSummary.getModelId()); DocumentModelSummaryHelper.setDescription(documentModelSummary, modelSummary.getDescription()); DocumentModelSummaryHelper.setCreatedOn(documentModelSummary, modelSummary.getCreatedDateTime()); DocumentModelSummaryHelper.setTags(documentModelSummary, modelSummary.getTags()); return documentModelSummary; }).collect(Collectors.toList()); } public static List<OperationSummary> toOperationSummary(List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.OperationSummary> operationSummary) { return operationSummary .stream() .map(operationSummaryItem -> { OperationSummary documentModelOperationSummary = new OperationSummary(); OperationSummaryHelper.setOperationId(documentModelOperationSummary, operationSummaryItem.getOperationId()); OperationSummaryHelper.setCreatedOn(documentModelOperationSummary, operationSummaryItem.getCreatedDateTime()); OperationSummaryHelper.setKind(documentModelOperationSummary, operationSummaryItem.getKind() == null ? null : OperationKind.fromString(operationSummaryItem.getKind().toString())); OperationSummaryHelper.setLastUpdatedOn(documentModelOperationSummary, operationSummaryItem.getLastUpdatedDateTime()); OperationSummaryHelper.setPercentCompleted(documentModelOperationSummary, operationSummaryItem.getPercentCompleted() == null ? Integer.valueOf(0) : operationSummaryItem.getPercentCompleted()); OperationSummaryHelper.setStatus(documentModelOperationSummary, operationSummaryItem.getStatus() == null ? null : OperationStatus.fromString(operationSummaryItem.getStatus().toString())); OperationSummaryHelper.setResourceLocation(documentModelOperationSummary, operationSummaryItem.getResourceLocation()); OperationSummaryHelper.setTags(documentModelOperationSummary, operationSummaryItem.getTags()); return documentModelOperationSummary; }).collect(Collectors.toList()); } public static DocumentOperationResult toDocumentOperationResult( String operationLocation) { DocumentOperationResult documentOperationResult = new DocumentOperationResult(); DocumentOperationResultHelper.setResultId( documentOperationResult, Utility.parseResultId(operationLocation)); return documentOperationResult; } private static ResponseError toResponseError(com.azure.ai.formrecognizer.documentanalysis.implementation.models.Error error) { if (error == null) { return null; } com.azure.ai.formrecognizer.documentanalysis.implementation.models.InnerError innerError = error.getInnererror(); String message = error.getMessage(); StringBuilder errorInformationStringBuilder = new StringBuilder().append(message); if (innerError != null) { errorInformationStringBuilder.append(", " + "errorCode" + ": [") .append(innerError.getCode()).append("], ").append("message") .append(": ").append(innerError.getMessage()); } return new ResponseError(error.getCode(), errorInformationStringBuilder.toString()); } private static List<DocumentWord> toDocumentWords( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentPage innerDocumentPage) { return innerDocumentPage.getWords() == null ? null : innerDocumentPage.getWords() .stream() .map(innerDocumentWord -> { DocumentWord documentWord = new DocumentWord(); DocumentWordHelper.setBoundingPolygon(documentWord, toPolygonPoints(innerDocumentWord.getPolygon())); DocumentWordHelper.setConfidence(documentWord, innerDocumentWord.getConfidence()); DocumentWordHelper.setSpan(documentWord, getDocumentSpan(innerDocumentWord.getSpan())); DocumentWordHelper.setContent(documentWord, innerDocumentWord.getContent()); return documentWord; }) .collect(Collectors.toList()); } }	class Transforms { public static AnalyzeResult toAnalyzeResultOperation( com.azure.ai.formrecognizer.documentanalysis.implementation.models.AnalyzeResult innerAnalyzeResult) { AnalyzeResult analyzeResult = new AnalyzeResult(); if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getDocuments())) { AnalyzeResultHelper.setDocuments(analyzeResult, innerAnalyzeResult.getDocuments().stream() .map(document -> { AnalyzedDocument analyzedDocument = new AnalyzedDocument(); AnalyzedDocumentHelper.setBoundingRegions(analyzedDocument, toBoundingRegions(document.getBoundingRegions())); AnalyzedDocumentHelper.setConfidence(analyzedDocument, document.getConfidence()); AnalyzedDocumentHelper.setDocType(analyzedDocument, document.getDocType()); AnalyzedDocumentHelper.setFields(analyzedDocument, toDocumentFields(document.getFields())); AnalyzedDocumentHelper.setSpans(analyzedDocument, toDocumentSpans(document.getSpans())); return analyzedDocument; }) .collect(Collectors.toList())); } AnalyzeResultHelper.setContent(analyzeResult, innerAnalyzeResult.getContent()); AnalyzeResultHelper.setModelId(analyzeResult, innerAnalyzeResult.getModelId()); if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getLanguages())) { AnalyzeResultHelper.setLanguages(analyzeResult, innerAnalyzeResult.getLanguages() .stream() .map(innerLanguage -> { DocumentLanguage documentLanguage = new DocumentLanguage(); DocumentLanguageHelper.setLocale(documentLanguage, innerLanguage.getLocale()); DocumentLanguageHelper.setSpans(documentLanguage, toDocumentSpans(innerLanguage.getSpans())); DocumentLanguageHelper.setConfidence(documentLanguage, innerLanguage.getConfidence()); return documentLanguage; }) .collect(Collectors.toList())); } AnalyzeResultHelper.setPages(analyzeResult, innerAnalyzeResult.getPages().stream() .map(innerDocumentPage -> { DocumentPage documentPage = new DocumentPage(); DocumentPageHelper.setAngle(documentPage, innerDocumentPage.getAngle()); DocumentPageHelper.setHeight(documentPage, innerDocumentPage.getHeight()); DocumentPageHelper.setWidth(documentPage, innerDocumentPage.getWidth()); DocumentPageHelper.setPageNumber(documentPage, innerDocumentPage.getPageNumber()); DocumentPageHelper.setUnit(documentPage, innerDocumentPage.getUnit() == null ? null : LengthUnit.fromString(innerDocumentPage.getUnit().toString())); DocumentPageHelper.setSpans(documentPage, toDocumentSpans(innerDocumentPage.getSpans())); DocumentPageHelper.setSelectionMarks(documentPage, innerDocumentPage.getSelectionMarks() == null ? null : innerDocumentPage.getSelectionMarks() .stream() .map(innerSelectionMark -> { DocumentSelectionMark documentSelectionMark = new DocumentSelectionMark(); DocumentSelectionMarkHelper.setBoundingPolygon(documentSelectionMark, toPolygonPoints(innerSelectionMark.getPolygon())); DocumentSelectionMarkHelper.setConfidence(documentSelectionMark, innerSelectionMark.getConfidence()); DocumentSelectionMarkHelper.setSpan(documentSelectionMark, getDocumentSpan(innerSelectionMark.getSpan())); DocumentSelectionMarkHelper.setState(documentSelectionMark, SelectionMarkState.fromString(innerSelectionMark.getState().toString())); return documentSelectionMark; }) .collect(Collectors.toList())); DocumentPageHelper.setLines(documentPage, innerDocumentPage.getLines() == null ? null : innerDocumentPage.getLines() .stream() .map(innerDocumentLine -> { DocumentLine documentLine = new DocumentLine(); DocumentLineHelper.setBoundingPolygon(documentLine, toPolygonPoints(innerDocumentLine.getPolygon())); DocumentLineHelper.setContent(documentLine, innerDocumentLine.getContent()); DocumentLineHelper.setSpans(documentLine, toDocumentSpans(innerDocumentLine.getSpans())); DocumentLineHelper.setPageWords(documentLine, toDocumentWords(innerDocumentPage)); return documentLine; }) .collect(Collectors.toList())); DocumentPageHelper.setWords(documentPage, toDocumentWords(innerDocumentPage)); return documentPage; }) .collect(Collectors.toList())); if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getKeyValuePairs())) { AnalyzeResultHelper.setKeyValuePairs(analyzeResult, innerAnalyzeResult.getKeyValuePairs() .stream() .map(innerKeyValuePair -> { DocumentKeyValuePair documentKeyValuePair = new DocumentKeyValuePair(); DocumentKeyValuePairHelper.setValue(documentKeyValuePair, toDocumentKeyValueElement(innerKeyValuePair.getValue())); DocumentKeyValuePairHelper.setKey(documentKeyValuePair, toDocumentKeyValueElement(innerKeyValuePair.getKey())); DocumentKeyValuePairHelper.setConfidence(documentKeyValuePair, innerKeyValuePair.getConfidence()); return documentKeyValuePair; }) .collect(Collectors.toList())); } if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getStyles())) { AnalyzeResultHelper.setStyles(analyzeResult, innerAnalyzeResult.getStyles() .stream() .map(innerDocumentStyle -> { DocumentStyle documentStyle = new DocumentStyle(); DocumentStyleHelper.setConfidence(documentStyle, innerDocumentStyle.getConfidence()); DocumentStyleHelper.setIsHandwritten(documentStyle, innerDocumentStyle.isHandwritten()); DocumentStyleHelper.setSpans(documentStyle, toDocumentSpans(innerDocumentStyle.getSpans())); return documentStyle; }) .collect(Collectors.toList())); } if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getParagraphs())) { AnalyzeResultHelper.setParagraphs(analyzeResult, innerAnalyzeResult.getParagraphs() .stream() .map(innerParagraph -> { DocumentParagraph documentParagraph = new DocumentParagraph(); DocumentParagraphHelper.setContent(documentParagraph, innerParagraph.getContent()); DocumentParagraphHelper.setRole(documentParagraph, innerParagraph.getRole() == null ? null : ParagraphRole.fromString(innerParagraph.getRole().toString())); DocumentParagraphHelper.setBoundingRegions(documentParagraph, toBoundingRegions(innerParagraph.getBoundingRegions())); DocumentParagraphHelper.setSpans(documentParagraph, toDocumentSpans(innerParagraph.getSpans())); return documentParagraph; }) .collect(Collectors.toList())); } if (!CoreUtils.isNullOrEmpty(innerAnalyzeResult.getTables())) { AnalyzeResultHelper.setTables(analyzeResult, innerAnalyzeResult.getTables() .stream() .map(innerDocumentTable -> { DocumentTable documentTable = new DocumentTable(); DocumentTableHelper.setCells(documentTable, innerDocumentTable.getCells() .stream() .map(innerDocumentCell -> { DocumentTableCell documentTableCell = new DocumentTableCell(); DocumentTableCellHelper.setBoundingRegions(documentTableCell, toBoundingRegions(innerDocumentTable.getBoundingRegions())); DocumentTableCellHelper.setSpans(documentTableCell, toDocumentSpans(innerDocumentTable.getSpans())); DocumentTableCellHelper.setContent(documentTableCell, innerDocumentCell.getContent()); DocumentTableCellHelper.setColumnIndex(documentTableCell, innerDocumentCell.getColumnIndex()); DocumentTableCellHelper.setKind(documentTableCell, innerDocumentCell.getKind() == null ? DocumentTableCellKind.CONTENT : DocumentTableCellKind.fromString(innerDocumentCell.getKind().toString())); DocumentTableCellHelper.setRowIndex(documentTableCell, innerDocumentCell.getRowIndex()); DocumentTableCellHelper.setColumnSpan(documentTableCell, innerDocumentCell.getColumnSpan()); DocumentTableCellHelper.setRowSpan(documentTableCell, innerDocumentCell.getRowSpan()); return documentTableCell; }) .collect(Collectors.toList())); DocumentTableHelper.setBoundingRegions(documentTable, toBoundingRegions(innerDocumentTable.getBoundingRegions())); DocumentTableHelper.setSpans(documentTable, toDocumentSpans(innerDocumentTable.getSpans())); DocumentTableHelper.setColumnCount(documentTable, innerDocumentTable.getColumnCount()); DocumentTableHelper.setRowCount(documentTable, innerDocumentTable.getRowCount()); return documentTable; }) .collect(Collectors.toList())); } return analyzeResult; } /** * Mapping a {@link ErrorResponseException} to {@link HttpResponseException}. * * @param throwable A {@link Throwable}. * @return A {@link HttpResponseException} or the original throwable type. */ public static Throwable mapToHttpResponseExceptionIfExists(Throwable throwable) { if (throwable instanceof ErrorResponseException) { ErrorResponseException errorResponseException = (ErrorResponseException) throwable; com.azure.ai.formrecognizer.documentanalysis.implementation.models.Error error = null; if (errorResponseException.getValue() != null && errorResponseException.getValue().getError() != null) { error = (errorResponseException.getValue().getError()); } return new HttpResponseException( errorResponseException.getMessage(), errorResponseException.getResponse(), toResponseError(error) ); } return throwable; } public static HttpResponseException mapResponseErrorToHttpResponseException(com.azure.ai.formrecognizer.documentanalysis.implementation.models.Error error) { return new HttpResponseException( error.getMessage(), null, toResponseError(error) ); } public static CopyAuthorization toCopyAuthorization( com.azure.ai.formrecognizer.documentanalysis.implementation.models.CopyAuthorization innerCopyAuthorization) { return new CopyAuthorization(innerCopyAuthorization.getTargetResourceId(), innerCopyAuthorization.getTargetResourceRegion(), innerCopyAuthorization.getTargetModelId(), innerCopyAuthorization.getTargetModelLocation(), innerCopyAuthorization.getAccessToken(), innerCopyAuthorization.getExpirationDateTime()); } public static ResourceDetails toAccountProperties( com.azure.ai.formrecognizer.documentanalysis.implementation.models.ResourceDetails getInfoResponse) { ResourceDetails resourceDetails = new ResourceDetails(); ResourceDetailsHelper.setDocumentModelCount(resourceDetails, getInfoResponse.getCustomDocumentModels().getCount()); ResourceDetailsHelper.setDocumentModelLimit(resourceDetails, getInfoResponse.getCustomDocumentModels().getLimit()); return resourceDetails; } public static DocumentModelDetails toDocumentModelFromOperationId(com.azure.ai.formrecognizer.documentanalysis.implementation.models.OperationDetails operationDetails) { if (operationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) { com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails buildOperationModelResult = ((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelBuildOperationDetails) operationDetails).getResult(); return toDocumentModelDetails(buildOperationModelResult); } else if (operationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) { com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails copyOperationModelResult = ((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelCopyToOperationDetails) operationDetails).getResult(); return toDocumentModelDetails(copyOperationModelResult); } else if (operationDetails instanceof com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) { com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails composeOperationModelResult = ((com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelComposeOperationDetails) operationDetails).getResult(); return toDocumentModelDetails(composeOperationModelResult); } return new DocumentModelDetails(); } public static DocumentModelDetails toDocumentModelDetails(com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails modelDetails) { DocumentModelDetails documentModelDetails = new DocumentModelDetails(); DocumentModelDetailsHelper.setModelId(documentModelDetails, modelDetails.getModelId()); DocumentModelDetailsHelper.setDescription(documentModelDetails, modelDetails.getDescription()); Map<String, DocumentTypeDetails> docTypeMap = getStringDocTypeInfoMap(modelDetails); DocumentModelDetailsHelper.setDocTypes(documentModelDetails, docTypeMap); DocumentModelDetailsHelper.setCreatedOn(documentModelDetails, modelDetails.getCreatedDateTime()); DocumentModelDetailsHelper.setTags(documentModelDetails, modelDetails.getTags()); return documentModelDetails; } private static Map<String, DocumentTypeDetails> getStringDocTypeInfoMap( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelDetails modelInfo) { if (!CoreUtils.isNullOrEmpty(modelInfo.getDocTypes())) { Map<String, DocumentTypeDetails> docTypeMap = new HashMap<>(); modelInfo.getDocTypes().forEach((key, innerDocTypeInfo) -> { DocumentTypeDetails documentTypeDetails = new DocumentTypeDetails(); DocumentTypeDetailsHelper.setDescription(documentTypeDetails, innerDocTypeInfo.getDescription()); Map<String, DocumentFieldSchema> schemaMap = new HashMap<>(); innerDocTypeInfo.getFieldSchema().forEach((schemaKey, innerDocSchema) -> schemaMap.put(schemaKey, toDocumentFieldSchema(innerDocSchema))); DocumentTypeDetailsHelper.setFieldSchema(documentTypeDetails, schemaMap); DocumentTypeDetailsHelper.setFieldConfidence(documentTypeDetails, innerDocTypeInfo.getFieldConfidence()); docTypeMap.put(key, documentTypeDetails); DocumentTypeDetailsHelper.setBuildMode(documentTypeDetails, innerDocTypeInfo.getBuildMode() != null ? DocumentModelBuildMode.fromString(innerDocTypeInfo.getBuildMode().toString()) : null); }); return docTypeMap; } return null; } private static DocumentFieldSchema toDocumentFieldSchema( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldSchema innerDocSchema) { if (innerDocSchema != null) { DocumentFieldSchema documentFieldSchema = new DocumentFieldSchema(); DocumentFieldSchemaHelper.setDescription(documentFieldSchema, innerDocSchema.getDescription()); DocumentFieldSchemaHelper.setExample(documentFieldSchema, innerDocSchema.getExample()); DocumentFieldSchemaHelper.setType(documentFieldSchema, DocumentFieldType.fromString(innerDocSchema.getType().toString())); if (innerDocSchema.getItems() != null) { DocumentFieldSchemaHelper.setItems(documentFieldSchema, toDocumentFieldSchema(innerDocSchema.getItems())); } if (!CoreUtils.isNullOrEmpty(innerDocSchema.getProperties())) { DocumentFieldSchemaHelper.setProperties(documentFieldSchema, toDocumentFieldProperties(innerDocSchema.getProperties())); } return documentFieldSchema; } return null; } private static Map<String, DocumentFieldSchema> toDocumentFieldProperties( Map<String, com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldSchema> properties) { Map<String, DocumentFieldSchema> schemaMap = new HashMap<>(); properties.forEach((key, innerDocFieldSchema) -> schemaMap.put(key, toDocumentFieldSchema(innerDocFieldSchema))); return schemaMap; } private static DocumentKeyValueElement toDocumentKeyValueElement( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentKeyValueElement innerDocKeyValElement) { if (innerDocKeyValElement == null) { return null; } DocumentKeyValueElement documentKeyValueElement = new DocumentKeyValueElement(); DocumentKeyValueElementHelper.setContent(documentKeyValueElement, innerDocKeyValElement.getContent()); DocumentKeyValueElementHelper.setBoundingRegions(documentKeyValueElement, toBoundingRegions(innerDocKeyValElement.getBoundingRegions())); DocumentKeyValueElementHelper.setSpans(documentKeyValueElement, toDocumentSpans(innerDocKeyValElement.getSpans())); return documentKeyValueElement; } private static Map<String, DocumentField> toDocumentFields( Map<String, com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentField> innerFields) { Map<String, DocumentField> documentFieldMap = new HashMap<>(); innerFields.forEach((key, innerDocumentField) -> documentFieldMap.put(key, toDocumentField(innerDocumentField))); return documentFieldMap; } private static DocumentField toDocumentField( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentField innerDocumentField) { DocumentField documentField = new DocumentField(); DocumentFieldHelper.setType(documentField, DocumentFieldType.fromString(innerDocumentField.getType().toString())); DocumentFieldHelper.setBoundingRegions(documentField, toBoundingRegions(innerDocumentField.getBoundingRegions())); DocumentFieldHelper.setContent(documentField, innerDocumentField.getContent()); DocumentFieldHelper.setSpans(documentField, toDocumentSpans(innerDocumentField.getSpans())); DocumentFieldHelper.setConfidence(documentField, innerDocumentField.getConfidence()); setDocumentFieldValue(innerDocumentField, documentField); return documentField; } private static void setDocumentFieldValue( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentField innerDocumentField, DocumentField documentField) { if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.STRING.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueString(documentField, innerDocumentField.getValueString()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.DATE.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueDate(documentField, innerDocumentField.getValueDate()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.TIME.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueTime(documentField, innerDocumentField.getValueTime() == null ? null : LocalTime.parse(innerDocumentField.getValueTime(), DateTimeFormatter.ofPattern("HH:mm:ss"))); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.PHONE_NUMBER.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValuePhoneNumber(documentField, innerDocumentField.getValuePhoneNumber()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.NUMBER.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueNumber(documentField, innerDocumentField.getValueNumber()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.INTEGER.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueInteger(documentField, innerDocumentField.getValueInteger()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.SELECTION_MARK.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueSelectionMark() == null) { DocumentFieldHelper.setValueSelectionMark(documentField, null); } else { DocumentFieldHelper.setValueSelectionMark(documentField, SelectionMarkState.fromString(innerDocumentField.getValueSelectionMark().toString())); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.COUNTRY_REGION.equals( innerDocumentField.getType())) { DocumentFieldHelper.setValueCountryRegion(documentField, innerDocumentField.getValueCountryRegion()); } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.SIGNATURE.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueSignature() != null) { DocumentFieldHelper.setValueSignature(documentField, DocumentSignatureType.fromString(innerDocumentField.getValueSignature().toString())); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.ARRAY.equals( innerDocumentField.getType())) { if (CoreUtils.isNullOrEmpty(innerDocumentField.getValueArray())) { DocumentFieldHelper.setValueArray(documentField, null); } else { DocumentFieldHelper.setValueArray(documentField, innerDocumentField.getValueArray() .stream() .map(Transforms::toDocumentField) .collect(Collectors.toList())); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.OBJECT.equals( innerDocumentField.getType())) { if (CoreUtils.isNullOrEmpty(innerDocumentField.getValueObject())) { DocumentFieldHelper.setValueObject(documentField, null); } else { HashMap<String, DocumentField> documentFieldMap = new HashMap<>(); innerDocumentField.getValueObject() .forEach((key, innerMapDocumentField) -> documentFieldMap.put(key, toDocumentField(innerMapDocumentField))); DocumentFieldHelper.setValueObject(documentField, documentFieldMap); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.CURRENCY.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueCurrency() == null) { DocumentFieldHelper.setValueCurrency(documentField, null); } else { CurrencyValue currencyValue = new CurrencyValue(); CurrencyValueHelper.setAmount(currencyValue, innerDocumentField.getValueCurrency().getAmount()); CurrencyValueHelper.setCurrencySymbol(currencyValue, innerDocumentField.getValueCurrency().getCurrencySymbol()); DocumentFieldHelper.setValueCurrency(documentField, currencyValue); } } else if (com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentFieldType.ADDRESS.equals( innerDocumentField.getType())) { if (innerDocumentField.getValueAddress() == null) { DocumentFieldHelper.setValueAddress(documentField, null); } else { AddressValue addressValue = new AddressValue(); AddressValueHelper.setCity(addressValue, innerDocumentField.getValueAddress().getCity()); AddressValueHelper.setStreetAddress(addressValue, innerDocumentField.getValueAddress().getStreetAddress()); AddressValueHelper.setCountryRegion(addressValue, innerDocumentField.getValueAddress().getCountryRegion()); AddressValueHelper.setHouseNumber(addressValue, innerDocumentField.getValueAddress().getHouseNumber()); AddressValueHelper.setRoad(addressValue, innerDocumentField.getValueAddress().getRoad()); AddressValueHelper.setPoBox(addressValue, innerDocumentField.getValueAddress().getPoBox()); AddressValueHelper.setPostalCode(addressValue, innerDocumentField.getValueAddress().getPostalCode()); AddressValueHelper.setState(addressValue, innerDocumentField.getValueAddress().getState()); DocumentFieldHelper.setValueAddress(documentField, addressValue); } } } private static List<DocumentSpan> toDocumentSpans( List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentSpan> innerDocumentSpans) { if (!CoreUtils.isNullOrEmpty(innerDocumentSpans)) { return innerDocumentSpans .stream() .map(Transforms::getDocumentSpan) .collect(Collectors.toList()); } else { return null; } } private static DocumentSpan getDocumentSpan( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentSpan innerDocumentSpan) { DocumentSpan documentSpan = new DocumentSpan(); DocumentSpanHelper.setLength(documentSpan, innerDocumentSpan.getLength()); DocumentSpanHelper.setOffset(documentSpan, innerDocumentSpan.getOffset()); return documentSpan; } private static List<BoundingRegion> toBoundingRegions( List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.BoundingRegion> innerBoundingRegions) { if (!CoreUtils.isNullOrEmpty(innerBoundingRegions)) { return innerBoundingRegions .stream() .map(innerBoundingRegion -> { BoundingRegion boundingRegion = new BoundingRegion(); BoundingRegionHelper.setBoundingPolygon(boundingRegion, toPolygonPoints(innerBoundingRegion.getPolygon())); BoundingRegionHelper.setPageNumber(boundingRegion, innerBoundingRegion.getPageNumber()); return boundingRegion; }) .collect(Collectors.toList()); } else { return null; } } private static List<Point> toPolygonPoints(List<Float> polygonValues) { if (CoreUtils.isNullOrEmpty(polygonValues) \|\| (polygonValues.size() % 2) != 0) { return null; } List<Point> pointList = new ArrayList<>(); for (int i = 0; i < polygonValues.size(); i++) { Point polygonPoint = new Point(); PointHelper.setX(polygonPoint, polygonValues.get(i)); PointHelper.setY(polygonPoint, polygonValues.get(++i)); pointList.add(polygonPoint); } return pointList; } public static List<DocumentModelSummary> toDocumentModelInfo( List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentModelSummary> modelSummaryList) { return modelSummaryList .stream() .map(modelSummary -> { DocumentModelSummary documentModelSummary = new DocumentModelSummary(); DocumentModelSummaryHelper.setModelId(documentModelSummary, modelSummary.getModelId()); DocumentModelSummaryHelper.setDescription(documentModelSummary, modelSummary.getDescription()); DocumentModelSummaryHelper.setCreatedOn(documentModelSummary, modelSummary.getCreatedDateTime()); DocumentModelSummaryHelper.setTags(documentModelSummary, modelSummary.getTags()); return documentModelSummary; }).collect(Collectors.toList()); } public static List<OperationSummary> toOperationSummary(List<com.azure.ai.formrecognizer.documentanalysis.implementation.models.OperationSummary> operationSummary) { return operationSummary .stream() .map(operationSummaryItem -> { OperationSummary documentModelOperationSummary = new OperationSummary(); OperationSummaryHelper.setOperationId(documentModelOperationSummary, operationSummaryItem.getOperationId()); OperationSummaryHelper.setCreatedOn(documentModelOperationSummary, operationSummaryItem.getCreatedDateTime()); OperationSummaryHelper.setKind(documentModelOperationSummary, operationSummaryItem.getKind() == null ? null : OperationKind.fromString(operationSummaryItem.getKind().toString())); OperationSummaryHelper.setLastUpdatedOn(documentModelOperationSummary, operationSummaryItem.getLastUpdatedDateTime()); OperationSummaryHelper.setPercentCompleted(documentModelOperationSummary, operationSummaryItem.getPercentCompleted() == null ? Integer.valueOf(0) : operationSummaryItem.getPercentCompleted()); OperationSummaryHelper.setStatus(documentModelOperationSummary, operationSummaryItem.getStatus() == null ? null : OperationStatus.fromString(operationSummaryItem.getStatus().toString())); OperationSummaryHelper.setResourceLocation(documentModelOperationSummary, operationSummaryItem.getResourceLocation()); OperationSummaryHelper.setTags(documentModelOperationSummary, operationSummaryItem.getTags()); return documentModelOperationSummary; }).collect(Collectors.toList()); } public static DocumentOperationResult toDocumentOperationResult( String operationLocation) { DocumentOperationResult documentOperationResult = new DocumentOperationResult(); DocumentOperationResultHelper.setResultId( documentOperationResult, Utility.parseResultId(operationLocation)); return documentOperationResult; } private static ResponseError toResponseError(com.azure.ai.formrecognizer.documentanalysis.implementation.models.Error error) { if (error == null) { return null; } com.azure.ai.formrecognizer.documentanalysis.implementation.models.InnerError innerError = error.getInnererror(); String message = error.getMessage(); StringBuilder errorInformationStringBuilder = new StringBuilder().append(message); if (innerError != null) { errorInformationStringBuilder.append(", " + "errorCode" + ": [") .append(innerError.getCode()).append("], ").append("message") .append(": ").append(innerError.getMessage()); } return new ResponseError(error.getCode(), errorInformationStringBuilder.toString()); } private static List<DocumentWord> toDocumentWords( com.azure.ai.formrecognizer.documentanalysis.implementation.models.DocumentPage innerDocumentPage) { return innerDocumentPage.getWords() == null ? null : innerDocumentPage.getWords() .stream() .map(innerDocumentWord -> { DocumentWord documentWord = new DocumentWord(); DocumentWordHelper.setBoundingPolygon(documentWord, toPolygonPoints(innerDocumentWord.getPolygon())); DocumentWordHelper.setConfidence(documentWord, innerDocumentWord.getConfidence()); DocumentWordHelper.setSpan(documentWord, getDocumentSpan(innerDocumentWord.getSpan())); DocumentWordHelper.setContent(documentWord, innerDocumentWord.getContent()); return documentWord; }) .collect(Collectors.toList()); } }
Is the perf benefit significant to compromise the readability on this?	public static String toRfc1123String(OffsetDateTime dateTime) { dateTime = dateTime.withOffsetSameInstant(ZoneOffset.UTC); byte[] bytes = new byte[29]; final DayOfWeek dayOfWeek = dateTime.getDayOfWeek(); switch (dayOfWeek) { case MONDAY: bytes[0] = 'M'; bytes[1] = 'o'; bytes[2] = 'n'; break; case TUESDAY: bytes[0] = 'T'; bytes[1] = 'u'; bytes[2] = 'e'; break; case WEDNESDAY: bytes[0] = 'W'; bytes[1] = 'e'; bytes[2] = 'd'; break; case THURSDAY: bytes[0] = 'T'; bytes[1] = 'h'; bytes[2] = 'u'; break; case FRIDAY: bytes[0] = 'F'; bytes[1] = 'r'; bytes[2] = 'i'; break; case SATURDAY: bytes[0] = 'S'; bytes[1] = 'a'; bytes[2] = 't'; break; case SUNDAY: bytes[0] = 'S'; bytes[1] = 'u'; bytes[2] = 'n'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown day of week " + dayOfWeek)); } bytes[3] = ','; bytes[4] = ' '; zeroPad(dateTime.getDayOfMonth(), bytes, 5); bytes[7] = ' '; final Month month = dateTime.getMonth(); switch (month) { case JANUARY: bytes[8] = 'J'; bytes[9] = 'a'; bytes[10] = 'n'; break; case FEBRUARY: bytes[8] = 'F'; bytes[9] = 'e'; bytes[10] = 'b'; break; case MARCH: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'r'; break; case APRIL: bytes[8] = 'A'; bytes[9] = 'p'; bytes[10] = 'r'; break; case MAY: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'y'; break; case JUNE: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'n'; break; case JULY: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'l'; break; case AUGUST: bytes[8] = 'A'; bytes[9] = 'u'; bytes[10] = 'g'; break; case SEPTEMBER: bytes[8] = 'S'; bytes[9] = 'e'; bytes[10] = 'p'; break; case OCTOBER: bytes[8] = 'O'; bytes[9] = 'c'; bytes[10] = 't'; break; case NOVEMBER: bytes[8] = 'N'; bytes[9] = 'o'; bytes[10] = 'v'; break; case DECEMBER: bytes[8] = 'D'; bytes[9] = 'e'; bytes[10] = 'c'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + month)); } bytes[11] = ' '; int year = dateTime.getYear(); int round = year / 1000; bytes[12] = (byte) ('0' + round); year = year - (1000 * round); round = year / 100; bytes[13] = (byte) ('0' + round); year = year - (100 * round); round = year / 10; bytes[14] = (byte) ('0' + round); bytes[15] = (byte) ('0' + (year - (10 * round))); bytes[16] = ' '; zeroPad(dateTime.getHour(), bytes, 17); bytes[19] = ':'; zeroPad(dateTime.getMinute(), bytes, 20); bytes[22] = ':'; zeroPad(dateTime.getSecond(), bytes, 23); bytes[25] = ' '; bytes[26] = 'G'; bytes[27] = 'M'; bytes[28] = 'T'; return new String(bytes, StandardCharsets.UTF_8); }	case MONDAY:	public static String toRfc1123String(OffsetDateTime dateTime) { dateTime = dateTime.withOffsetSameInstant(ZoneOffset.UTC); byte[] bytes = new byte[29]; final DayOfWeek dayOfWeek = dateTime.getDayOfWeek(); switch (dayOfWeek) { case MONDAY: bytes[0] = 'M'; bytes[1] = 'o'; bytes[2] = 'n'; break; case TUESDAY: bytes[0] = 'T'; bytes[1] = 'u'; bytes[2] = 'e'; break; case WEDNESDAY: bytes[0] = 'W'; bytes[1] = 'e'; bytes[2] = 'd'; break; case THURSDAY: bytes[0] = 'T'; bytes[1] = 'h'; bytes[2] = 'u'; break; case FRIDAY: bytes[0] = 'F'; bytes[1] = 'r'; bytes[2] = 'i'; break; case SATURDAY: bytes[0] = 'S'; bytes[1] = 'a'; bytes[2] = 't'; break; case SUNDAY: bytes[0] = 'S'; bytes[1] = 'u'; bytes[2] = 'n'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown day of week " + dayOfWeek)); } bytes[3] = ','; bytes[4] = ' '; zeroPad(dateTime.getDayOfMonth(), bytes, 5); bytes[7] = ' '; final Month month = dateTime.getMonth(); switch (month) { case JANUARY: bytes[8] = 'J'; bytes[9] = 'a'; bytes[10] = 'n'; break; case FEBRUARY: bytes[8] = 'F'; bytes[9] = 'e'; bytes[10] = 'b'; break; case MARCH: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'r'; break; case APRIL: bytes[8] = 'A'; bytes[9] = 'p'; bytes[10] = 'r'; break; case MAY: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'y'; break; case JUNE: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'n'; break; case JULY: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'l'; break; case AUGUST: bytes[8] = 'A'; bytes[9] = 'u'; bytes[10] = 'g'; break; case SEPTEMBER: bytes[8] = 'S'; bytes[9] = 'e'; bytes[10] = 'p'; break; case OCTOBER: bytes[8] = 'O'; bytes[9] = 'c'; bytes[10] = 't'; break; case NOVEMBER: bytes[8] = 'N'; bytes[9] = 'o'; bytes[10] = 'v'; break; case DECEMBER: bytes[8] = 'D'; bytes[9] = 'e'; bytes[10] = 'c'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + month)); } bytes[11] = ' '; int year = dateTime.getYear(); int round = year / 1000; bytes[12] = (byte) ('0' + round); year = year - (1000 * round); round = year / 100; bytes[13] = (byte) ('0' + round); year = year - (100 * round); round = year / 10; bytes[14] = (byte) ('0' + round); bytes[15] = (byte) ('0' + (year - (10 * round))); bytes[16] = ' '; zeroPad(dateTime.getHour(), bytes, 17); bytes[19] = ':'; zeroPad(dateTime.getMinute(), bytes, 20); bytes[22] = ':'; zeroPad(dateTime.getSecond(), bytes, 23); bytes[25] = ' '; bytes[26] = 'G'; bytes[27] = 'M'; bytes[28] = 'T'; return new String(bytes, StandardCharsets.UTF_8); }	class DateTimeRfc1123 { private static final ClientLogger LOGGER = new ClientLogger(DateTimeRfc1123.class); /** * The actual datetime object. / private final OffsetDateTime dateTime; /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param dateTime The DateTime object to wrap. / public DateTimeRfc1123(OffsetDateTime dateTime) { this.dateTime = dateTime; } /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param formattedString The datetime string in RFC1123 format / public DateTimeRfc1123(String formattedString) { this.dateTime = parse(formattedString); } /* * Returns the underlying DateTime. * @return The underlying DateTime. / public OffsetDateTime getDateTime() { return this.dateTime; } /* * JSON creator for DateTimeRfc1123. * <p> * If {@code date} is null or an empty string null will be returned. * * @param date RFC1123 datetime string. * @return The DateTimeRfc1123 representation of the datetime string, or null if {@code date} is null or empty. / @JsonCreator static DateTimeRfc1123 fromString(final String date) { if (CoreUtils.isNullOrEmpty(date)) { return null; } return new DateTimeRfc1123(date); } /* * Parses the RFC1123 format datetime string into OffsetDateTime. * * @param date The datetime string in RFC1123 format * @return The underlying OffsetDateTime. * * @throws DateTimeException If the processing character is not a digit character. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static OffsetDateTime parse(final String date) { try { return OffsetDateTime.of( parseInt(date, 12, 16), parseMonth(date, 8), parseInt(date, 5, 7), parseInt(date, 17, 19), parseInt(date, 20, 22), parseInt(date, 23, 25), 0, ZoneOffset.UTC); } catch (DateTimeException \| IllegalArgumentException \| IndexOutOfBoundsException e) { return OffsetDateTime.parse(date, DateTimeFormatter.RFC_1123_DATE_TIME); } } /* * Parses the specified substring of datetime to a 'int' value. * * @param date The datetime string in RFC1123 format. * @param beginIndex The beginning index, inclusive. * @param endIndex The ending index, exclusive. * @return The specified substring. * * @throws DateTimeException If the processing character is not digit character. / private static int parseInt(final CharSequence date, final int beginIndex, final int endIndex) { int num = 0; for (int i = beginIndex; i < endIndex; i++) { final char c = date.charAt(i); if (c < '0' \|\| c > '9') { throw LOGGER.logExceptionAsError(new DateTimeException("Invalid date time: " + date)); } num = num 10 + (c - '0'); } return num; } /** * Parses the specified month substring of date time to a number value, '1' represents the month of January, * '12' represents the month of December. * * @param date The date time string in RFC1123 format. * @param beginIndex The beginning index, inclusive, to the * @return The number value which represents the month of year. '1' represents the month of January, * '12' represents the month of December. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static int parseMonth(final CharSequence date, final int beginIndex) { switch (date.charAt(beginIndex)) { case 'J': switch (date.charAt(beginIndex + 1)) { case 'a': return 1; case 'u': switch (date.charAt(beginIndex + 2)) { case 'n': return 6; case 'l': return 7; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown month " + date)); } default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'F': return 2; case 'M': switch (date.charAt(beginIndex + 2)) { case 'r': return 3; case 'y': return 5; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'A': switch (date.charAt(beginIndex + 2)) { case 'r': return 4; case 'g': return 8; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'S': return 9; case 'O': return 10; case 'N': return 11; case 'D': return 12; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } } /* * Convert the {@link OffsetDateTime dateTime} to date time string in RFC1123 format. * * @param dateTime The date time in OffsetDateTime format. * @return The date time string in RFC1123 format. * @throws IllegalArgumentException If {@link OffsetDateTime * {@link OffsetDateTime / private static void zeroPad(int value, byte[] bytes, int index) { if (value < 10) { bytes[index++] = '0'; bytes[index] = (byte) ('0' + value); } else { int high = value / 10; bytes[index++] = (byte) ('0' + high); bytes[index] = (byte) ('0' + (value - (10 high))); } } @Override public String toString() { return toRfc1123String(this.dateTime); } @Override public int hashCode() { return this.dateTime.hashCode(); } @Override public boolean equals(Object obj) { if (obj == null) { return false; } if (!(obj instanceof DateTimeRfc1123)) { return false; } DateTimeRfc1123 rhs = (DateTimeRfc1123) obj; return this.dateTime.equals(rhs.getDateTime()); } }	class DateTimeRfc1123 { private static final ClientLogger LOGGER = new ClientLogger(DateTimeRfc1123.class); /** * The actual datetime object. / private final OffsetDateTime dateTime; /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param dateTime The DateTime object to wrap. / public DateTimeRfc1123(OffsetDateTime dateTime) { this.dateTime = dateTime; } /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param formattedString The datetime string in RFC1123 format / public DateTimeRfc1123(String formattedString) { this.dateTime = parse(formattedString); } /* * Returns the underlying DateTime. * @return The underlying DateTime. / public OffsetDateTime getDateTime() { return this.dateTime; } /* * JSON creator for DateTimeRfc1123. * <p> * If {@code date} is null or an empty string null will be returned. * * @param date RFC1123 datetime string. * @return The DateTimeRfc1123 representation of the datetime string, or null if {@code date} is null or empty. / @JsonCreator static DateTimeRfc1123 fromString(final String date) { if (CoreUtils.isNullOrEmpty(date)) { return null; } return new DateTimeRfc1123(date); } /* * Parses the RFC1123 format datetime string into OffsetDateTime. * * @param date The datetime string in RFC1123 format * @return The underlying OffsetDateTime. * * @throws DateTimeException If the processing character is not a digit character. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static OffsetDateTime parse(final String date) { try { return OffsetDateTime.of( parseInt(date, 12, 16), parseMonth(date, 8), parseInt(date, 5, 7), parseInt(date, 17, 19), parseInt(date, 20, 22), parseInt(date, 23, 25), 0, ZoneOffset.UTC); } catch (DateTimeException \| IllegalArgumentException \| IndexOutOfBoundsException e) { return OffsetDateTime.parse(date, DateTimeFormatter.RFC_1123_DATE_TIME); } } /* * Parses the specified substring of datetime to a 'int' value. * * @param date The datetime string in RFC1123 format. * @param beginIndex The beginning index, inclusive. * @param endIndex The ending index, exclusive. * @return The specified substring. * * @throws DateTimeException If the processing character is not digit character. / private static int parseInt(final CharSequence date, final int beginIndex, final int endIndex) { int num = 0; for (int i = beginIndex; i < endIndex; i++) { final char c = date.charAt(i); if (c < '0' \|\| c > '9') { throw LOGGER.logExceptionAsError(new DateTimeException("Invalid date time: " + date)); } num = num 10 + (c - '0'); } return num; } /** * Parses the specified month substring of date time to a number value, '1' represents the month of January, * '12' represents the month of December. * * @param date The date time string in RFC1123 format. * @param beginIndex The beginning index, inclusive, to the * @return The number value which represents the month of year. '1' represents the month of January, * '12' represents the month of December. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static int parseMonth(final CharSequence date, final int beginIndex) { switch (date.charAt(beginIndex)) { case 'J': switch (date.charAt(beginIndex + 1)) { case 'a': return 1; case 'u': switch (date.charAt(beginIndex + 2)) { case 'n': return 6; case 'l': return 7; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown month " + date)); } default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'F': return 2; case 'M': switch (date.charAt(beginIndex + 2)) { case 'r': return 3; case 'y': return 5; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'A': switch (date.charAt(beginIndex + 2)) { case 'r': return 4; case 'g': return 8; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'S': return 9; case 'O': return 10; case 'N': return 11; case 'D': return 12; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } } /* * Convert the {@link OffsetDateTime dateTime} to date time string in RFC1123 format. * * @param dateTime The date time in OffsetDateTime format. * @return The date time string in RFC1123 format. * @throws IllegalArgumentException If {@link OffsetDateTime * {@link OffsetDateTime / private static void zeroPad(int value, byte[] bytes, int index) { if (value < 10) { bytes[index++] = '0'; bytes[index] = (byte) ('0' + value); } else { int high = value / 10; bytes[index++] = (byte) ('0' + high); bytes[index] = (byte) ('0' + (value - (10 high))); } } @Override public String toString() { return toRfc1123String(this.dateTime); } @Override public int hashCode() { return this.dateTime.hashCode(); } @Override public boolean equals(Object obj) { if (obj == null) { return false; } if (!(obj instanceof DateTimeRfc1123)) { return false; } DateTimeRfc1123 rhs = (DateTimeRfc1123) obj; return this.dateTime.equals(rhs.getDateTime()); } }
I'll add my testing numbers but making this change had the following improvements: Java 17 Previous: 95 ns/op This: 50 ns/op Java 8 Previous: 190 ns/op This: 90 ns/op Effectively a 2x improvement. Also, since RFC1123 is effectively static this won't need to be modified for a long time	public static String toRfc1123String(OffsetDateTime dateTime) { dateTime = dateTime.withOffsetSameInstant(ZoneOffset.UTC); byte[] bytes = new byte[29]; final DayOfWeek dayOfWeek = dateTime.getDayOfWeek(); switch (dayOfWeek) { case MONDAY: bytes[0] = 'M'; bytes[1] = 'o'; bytes[2] = 'n'; break; case TUESDAY: bytes[0] = 'T'; bytes[1] = 'u'; bytes[2] = 'e'; break; case WEDNESDAY: bytes[0] = 'W'; bytes[1] = 'e'; bytes[2] = 'd'; break; case THURSDAY: bytes[0] = 'T'; bytes[1] = 'h'; bytes[2] = 'u'; break; case FRIDAY: bytes[0] = 'F'; bytes[1] = 'r'; bytes[2] = 'i'; break; case SATURDAY: bytes[0] = 'S'; bytes[1] = 'a'; bytes[2] = 't'; break; case SUNDAY: bytes[0] = 'S'; bytes[1] = 'u'; bytes[2] = 'n'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown day of week " + dayOfWeek)); } bytes[3] = ','; bytes[4] = ' '; zeroPad(dateTime.getDayOfMonth(), bytes, 5); bytes[7] = ' '; final Month month = dateTime.getMonth(); switch (month) { case JANUARY: bytes[8] = 'J'; bytes[9] = 'a'; bytes[10] = 'n'; break; case FEBRUARY: bytes[8] = 'F'; bytes[9] = 'e'; bytes[10] = 'b'; break; case MARCH: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'r'; break; case APRIL: bytes[8] = 'A'; bytes[9] = 'p'; bytes[10] = 'r'; break; case MAY: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'y'; break; case JUNE: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'n'; break; case JULY: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'l'; break; case AUGUST: bytes[8] = 'A'; bytes[9] = 'u'; bytes[10] = 'g'; break; case SEPTEMBER: bytes[8] = 'S'; bytes[9] = 'e'; bytes[10] = 'p'; break; case OCTOBER: bytes[8] = 'O'; bytes[9] = 'c'; bytes[10] = 't'; break; case NOVEMBER: bytes[8] = 'N'; bytes[9] = 'o'; bytes[10] = 'v'; break; case DECEMBER: bytes[8] = 'D'; bytes[9] = 'e'; bytes[10] = 'c'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + month)); } bytes[11] = ' '; int year = dateTime.getYear(); int round = year / 1000; bytes[12] = (byte) ('0' + round); year = year - (1000 * round); round = year / 100; bytes[13] = (byte) ('0' + round); year = year - (100 * round); round = year / 10; bytes[14] = (byte) ('0' + round); bytes[15] = (byte) ('0' + (year - (10 * round))); bytes[16] = ' '; zeroPad(dateTime.getHour(), bytes, 17); bytes[19] = ':'; zeroPad(dateTime.getMinute(), bytes, 20); bytes[22] = ':'; zeroPad(dateTime.getSecond(), bytes, 23); bytes[25] = ' '; bytes[26] = 'G'; bytes[27] = 'M'; bytes[28] = 'T'; return new String(bytes, StandardCharsets.UTF_8); }	case MONDAY:	public static String toRfc1123String(OffsetDateTime dateTime) { dateTime = dateTime.withOffsetSameInstant(ZoneOffset.UTC); byte[] bytes = new byte[29]; final DayOfWeek dayOfWeek = dateTime.getDayOfWeek(); switch (dayOfWeek) { case MONDAY: bytes[0] = 'M'; bytes[1] = 'o'; bytes[2] = 'n'; break; case TUESDAY: bytes[0] = 'T'; bytes[1] = 'u'; bytes[2] = 'e'; break; case WEDNESDAY: bytes[0] = 'W'; bytes[1] = 'e'; bytes[2] = 'd'; break; case THURSDAY: bytes[0] = 'T'; bytes[1] = 'h'; bytes[2] = 'u'; break; case FRIDAY: bytes[0] = 'F'; bytes[1] = 'r'; bytes[2] = 'i'; break; case SATURDAY: bytes[0] = 'S'; bytes[1] = 'a'; bytes[2] = 't'; break; case SUNDAY: bytes[0] = 'S'; bytes[1] = 'u'; bytes[2] = 'n'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown day of week " + dayOfWeek)); } bytes[3] = ','; bytes[4] = ' '; zeroPad(dateTime.getDayOfMonth(), bytes, 5); bytes[7] = ' '; final Month month = dateTime.getMonth(); switch (month) { case JANUARY: bytes[8] = 'J'; bytes[9] = 'a'; bytes[10] = 'n'; break; case FEBRUARY: bytes[8] = 'F'; bytes[9] = 'e'; bytes[10] = 'b'; break; case MARCH: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'r'; break; case APRIL: bytes[8] = 'A'; bytes[9] = 'p'; bytes[10] = 'r'; break; case MAY: bytes[8] = 'M'; bytes[9] = 'a'; bytes[10] = 'y'; break; case JUNE: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'n'; break; case JULY: bytes[8] = 'J'; bytes[9] = 'u'; bytes[10] = 'l'; break; case AUGUST: bytes[8] = 'A'; bytes[9] = 'u'; bytes[10] = 'g'; break; case SEPTEMBER: bytes[8] = 'S'; bytes[9] = 'e'; bytes[10] = 'p'; break; case OCTOBER: bytes[8] = 'O'; bytes[9] = 'c'; bytes[10] = 't'; break; case NOVEMBER: bytes[8] = 'N'; bytes[9] = 'o'; bytes[10] = 'v'; break; case DECEMBER: bytes[8] = 'D'; bytes[9] = 'e'; bytes[10] = 'c'; break; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + month)); } bytes[11] = ' '; int year = dateTime.getYear(); int round = year / 1000; bytes[12] = (byte) ('0' + round); year = year - (1000 * round); round = year / 100; bytes[13] = (byte) ('0' + round); year = year - (100 * round); round = year / 10; bytes[14] = (byte) ('0' + round); bytes[15] = (byte) ('0' + (year - (10 * round))); bytes[16] = ' '; zeroPad(dateTime.getHour(), bytes, 17); bytes[19] = ':'; zeroPad(dateTime.getMinute(), bytes, 20); bytes[22] = ':'; zeroPad(dateTime.getSecond(), bytes, 23); bytes[25] = ' '; bytes[26] = 'G'; bytes[27] = 'M'; bytes[28] = 'T'; return new String(bytes, StandardCharsets.UTF_8); }	class DateTimeRfc1123 { private static final ClientLogger LOGGER = new ClientLogger(DateTimeRfc1123.class); /** * The actual datetime object. / private final OffsetDateTime dateTime; /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param dateTime The DateTime object to wrap. / public DateTimeRfc1123(OffsetDateTime dateTime) { this.dateTime = dateTime; } /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param formattedString The datetime string in RFC1123 format / public DateTimeRfc1123(String formattedString) { this.dateTime = parse(formattedString); } /* * Returns the underlying DateTime. * @return The underlying DateTime. / public OffsetDateTime getDateTime() { return this.dateTime; } /* * JSON creator for DateTimeRfc1123. * <p> * If {@code date} is null or an empty string null will be returned. * * @param date RFC1123 datetime string. * @return The DateTimeRfc1123 representation of the datetime string, or null if {@code date} is null or empty. / @JsonCreator static DateTimeRfc1123 fromString(final String date) { if (CoreUtils.isNullOrEmpty(date)) { return null; } return new DateTimeRfc1123(date); } /* * Parses the RFC1123 format datetime string into OffsetDateTime. * * @param date The datetime string in RFC1123 format * @return The underlying OffsetDateTime. * * @throws DateTimeException If the processing character is not a digit character. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static OffsetDateTime parse(final String date) { try { return OffsetDateTime.of( parseInt(date, 12, 16), parseMonth(date, 8), parseInt(date, 5, 7), parseInt(date, 17, 19), parseInt(date, 20, 22), parseInt(date, 23, 25), 0, ZoneOffset.UTC); } catch (DateTimeException \| IllegalArgumentException \| IndexOutOfBoundsException e) { return OffsetDateTime.parse(date, DateTimeFormatter.RFC_1123_DATE_TIME); } } /* * Parses the specified substring of datetime to a 'int' value. * * @param date The datetime string in RFC1123 format. * @param beginIndex The beginning index, inclusive. * @param endIndex The ending index, exclusive. * @return The specified substring. * * @throws DateTimeException If the processing character is not digit character. / private static int parseInt(final CharSequence date, final int beginIndex, final int endIndex) { int num = 0; for (int i = beginIndex; i < endIndex; i++) { final char c = date.charAt(i); if (c < '0' \|\| c > '9') { throw LOGGER.logExceptionAsError(new DateTimeException("Invalid date time: " + date)); } num = num 10 + (c - '0'); } return num; } /** * Parses the specified month substring of date time to a number value, '1' represents the month of January, * '12' represents the month of December. * * @param date The date time string in RFC1123 format. * @param beginIndex The beginning index, inclusive, to the * @return The number value which represents the month of year. '1' represents the month of January, * '12' represents the month of December. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static int parseMonth(final CharSequence date, final int beginIndex) { switch (date.charAt(beginIndex)) { case 'J': switch (date.charAt(beginIndex + 1)) { case 'a': return 1; case 'u': switch (date.charAt(beginIndex + 2)) { case 'n': return 6; case 'l': return 7; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown month " + date)); } default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'F': return 2; case 'M': switch (date.charAt(beginIndex + 2)) { case 'r': return 3; case 'y': return 5; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'A': switch (date.charAt(beginIndex + 2)) { case 'r': return 4; case 'g': return 8; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'S': return 9; case 'O': return 10; case 'N': return 11; case 'D': return 12; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } } /* * Convert the {@link OffsetDateTime dateTime} to date time string in RFC1123 format. * * @param dateTime The date time in OffsetDateTime format. * @return The date time string in RFC1123 format. * @throws IllegalArgumentException If {@link OffsetDateTime * {@link OffsetDateTime / private static void zeroPad(int value, byte[] bytes, int index) { if (value < 10) { bytes[index++] = '0'; bytes[index] = (byte) ('0' + value); } else { int high = value / 10; bytes[index++] = (byte) ('0' + high); bytes[index] = (byte) ('0' + (value - (10 high))); } } @Override public String toString() { return toRfc1123String(this.dateTime); } @Override public int hashCode() { return this.dateTime.hashCode(); } @Override public boolean equals(Object obj) { if (obj == null) { return false; } if (!(obj instanceof DateTimeRfc1123)) { return false; } DateTimeRfc1123 rhs = (DateTimeRfc1123) obj; return this.dateTime.equals(rhs.getDateTime()); } }	class DateTimeRfc1123 { private static final ClientLogger LOGGER = new ClientLogger(DateTimeRfc1123.class); /** * The actual datetime object. / private final OffsetDateTime dateTime; /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param dateTime The DateTime object to wrap. / public DateTimeRfc1123(OffsetDateTime dateTime) { this.dateTime = dateTime; } /* * Creates a new DateTimeRfc1123 object with the specified DateTime. * @param formattedString The datetime string in RFC1123 format / public DateTimeRfc1123(String formattedString) { this.dateTime = parse(formattedString); } /* * Returns the underlying DateTime. * @return The underlying DateTime. / public OffsetDateTime getDateTime() { return this.dateTime; } /* * JSON creator for DateTimeRfc1123. * <p> * If {@code date} is null or an empty string null will be returned. * * @param date RFC1123 datetime string. * @return The DateTimeRfc1123 representation of the datetime string, or null if {@code date} is null or empty. / @JsonCreator static DateTimeRfc1123 fromString(final String date) { if (CoreUtils.isNullOrEmpty(date)) { return null; } return new DateTimeRfc1123(date); } /* * Parses the RFC1123 format datetime string into OffsetDateTime. * * @param date The datetime string in RFC1123 format * @return The underlying OffsetDateTime. * * @throws DateTimeException If the processing character is not a digit character. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static OffsetDateTime parse(final String date) { try { return OffsetDateTime.of( parseInt(date, 12, 16), parseMonth(date, 8), parseInt(date, 5, 7), parseInt(date, 17, 19), parseInt(date, 20, 22), parseInt(date, 23, 25), 0, ZoneOffset.UTC); } catch (DateTimeException \| IllegalArgumentException \| IndexOutOfBoundsException e) { return OffsetDateTime.parse(date, DateTimeFormatter.RFC_1123_DATE_TIME); } } /* * Parses the specified substring of datetime to a 'int' value. * * @param date The datetime string in RFC1123 format. * @param beginIndex The beginning index, inclusive. * @param endIndex The ending index, exclusive. * @return The specified substring. * * @throws DateTimeException If the processing character is not digit character. / private static int parseInt(final CharSequence date, final int beginIndex, final int endIndex) { int num = 0; for (int i = beginIndex; i < endIndex; i++) { final char c = date.charAt(i); if (c < '0' \|\| c > '9') { throw LOGGER.logExceptionAsError(new DateTimeException("Invalid date time: " + date)); } num = num 10 + (c - '0'); } return num; } /** * Parses the specified month substring of date time to a number value, '1' represents the month of January, * '12' represents the month of December. * * @param date The date time string in RFC1123 format. * @param beginIndex The beginning index, inclusive, to the * @return The number value which represents the month of year. '1' represents the month of January, * '12' represents the month of December. * @throws IllegalArgumentException if the given character is not recognized in the pattern of Month. such as 'Jan'. * @throws IndexOutOfBoundsException if the {@code beginIndex} is negative, or beginIndex is larger than length of * {@code date}. / private static int parseMonth(final CharSequence date, final int beginIndex) { switch (date.charAt(beginIndex)) { case 'J': switch (date.charAt(beginIndex + 1)) { case 'a': return 1; case 'u': switch (date.charAt(beginIndex + 2)) { case 'n': return 6; case 'l': return 7; default: throw LOGGER.logExceptionAsError( new IllegalArgumentException("Unknown month " + date)); } default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'F': return 2; case 'M': switch (date.charAt(beginIndex + 2)) { case 'r': return 3; case 'y': return 5; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'A': switch (date.charAt(beginIndex + 2)) { case 'r': return 4; case 'g': return 8; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } case 'S': return 9; case 'O': return 10; case 'N': return 11; case 'D': return 12; default: throw LOGGER.logExceptionAsError(new IllegalArgumentException("Unknown month " + date)); } } /* * Convert the {@link OffsetDateTime dateTime} to date time string in RFC1123 format. * * @param dateTime The date time in OffsetDateTime format. * @return The date time string in RFC1123 format. * @throws IllegalArgumentException If {@link OffsetDateTime * {@link OffsetDateTime / private static void zeroPad(int value, byte[] bytes, int index) { if (value < 10) { bytes[index++] = '0'; bytes[index] = (byte) ('0' + value); } else { int high = value / 10; bytes[index++] = (byte) ('0' + high); bytes[index] = (byte) ('0' + (value - (10 high))); } } @Override public String toString() { return toRfc1123String(this.dateTime); } @Override public int hashCode() { return this.dateTime.hashCode(); } @Override public boolean equals(Object obj) { if (obj == null) { return false; } if (!(obj instanceof DateTimeRfc1123)) { return false; } DateTimeRfc1123 rhs = (DateTimeRfc1123) obj; return this.dateTime.equals(rhs.getDateTime()); } }
How often do we needlessly formatKey when the value is null? It's probably not worth paying for a null check here, or changing this to be Supplier-based, but it might be worth considering.	public HttpHeaders set(String name, String value) { return setInternal(formatKey(name), name, value); }	return setInternal(formatKey(name), name, value);	public HttpHeaders set(String name, String value) { return setInternal(HttpHeadersHelper.formatKey(name), name, value); }	class HttpHeaders implements Iterable<HttpHeader> { private final Map<String, HttpHeader> headers; static { HttpHeadersHelper.setAccessor(new HttpHeadersHelper.HttpHeadersAccessor() { @Override public HttpHeaders setNoKeyFormat(HttpHeaders headers, String formattedName, String name, String value) { return headers.setInternal(formattedName, name, value); } @Override public HttpHeader getNoKeyFormat(HttpHeaders headers, String formattedName) { return headers.getInternal(formattedName); } @Override public String getValueNoKeyFormat(HttpHeaders headers, String formattedName) { return headers.getValueInternal(formattedName); } }); } /** * Create an empty HttpHeaders instance. / public HttpHeaders() { headers = new HashMap<>(); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the map of initial headers / public HttpHeaders(Map<String, String> headers) { this.headers = new HashMap<>(headers.size()); headers.forEach(this::set); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the collection of initial headers / public HttpHeaders(Iterable<HttpHeader> headers) { this.headers = new HashMap<>(); for (final HttpHeader header : headers) { this.set(header.getName(), header.getValue()); } } /* * Create a HttpHeaders instance with an initial {@code size} empty headers * * @param initialCapacity the initial capacity of headers map. / public HttpHeaders(int initialCapacity) { this.headers = new HashMap<>(initialCapacity); } /* * Gets the number of headers in the collection. * * @return the number of headers in this collection. / public int getSize() { return headers.size(); } /* * Adds a {@link HttpHeader header} with the given name and value if a header with that name doesn't already exist, * otherwise adds the {@code value} to the existing header. * * @param name The name of the header. * @param value The value of the header. * @return The updated HttpHeaders object. / public HttpHeaders add(String name, String value) { String caseInsensitiveName = formatKey(name); if (caseInsensitiveName == null \|\| value == null) { return this; } headers.compute(caseInsensitiveName, (key, header) -> { if (header == null) { return new HttpHeader(name, value); } else { header.addValue(value); return header; } }); return this; } /* * Sets a {@link HttpHeader header} with the given name and value. * * <p>If header with same name already exists then the value will be overwritten.</p> * * @param name the name * @param value the value * @return The updated HttpHeaders object * @deprecated Use {@link / @Deprecated public HttpHeaders put(String name, String value) { return set(name, value); } /* * Sets a {@link HttpHeader header} with the given name and value. If a header with same name already exists then * the value will be overwritten. If the given value is null, the header with the given name will be removed. * * @param name the name to set in the header. If it is null, this method will return with no changes to the * headers. * @param value the value * @return The updated HttpHeaders object / private HttpHeaders setInternal(String formattedName, String name, String value) { if (name == null) { return this; } if (value == null) { removeInternal(name); } else { headers.put(formattedName, new HttpHeader(name, value)); } return this; } /* * Sets a {@link HttpHeader header} with the given name and the list of values provided, such that the given values * will be comma-separated when necessary. If a header with same name already exists then the values will be * overwritten. If the given values list is null, the header with the given name will be removed. * * @param name the name * @param values the values that will be comma-separated as appropriate * @return The updated HttpHeaders object / public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } String caseInsensitiveName = formatKey(name); if (CoreUtils.isNullOrEmpty(values)) { removeInternal(caseInsensitiveName); } else { headers.put(caseInsensitiveName, new HttpHeader(name, values)); } return this; } /* * Sets all provided header key/values pairs into this HttpHeaders instance. This is equivalent to calling {@code * headers.forEach(this::set)}, and therefore the behavior is as specified in {@link * words, this will create a header for each key in the provided map, replacing or removing an existing one, * depending on the value. If the given values list is null, the header with the given name will be removed. If the * given name is already a header, it will be removed and replaced with the headers provided. * * @param headers a map containing keys representing header names, and keys representing the associated values. * @return The updated HttpHeaders object / public HttpHeaders setAll(Map<String, List<String>> headers) { headers.forEach(this::set); return this; } /* * Gets the {@link HttpHeader header} for the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to find. * @return the header if found, null otherwise. / public HttpHeader get(String name) { return headers.get(formatKey(name)); } private HttpHeader getInternal(String formattedName) { return headers.get(formattedName); } /* * Removes the {@link HttpHeader header} with the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to remove. * @return the header if removed, null otherwise. / public HttpHeader remove(String name) { return removeInternal(formatKey(name)); } private HttpHeader removeInternal(String lowerCaseName) { return headers.remove(lowerCaseName); } /* * Get the value for the provided header name. {@code Null} is returned if the header name isn't found. * * @param name the name of the header whose value is being retrieved. * @return the value of the header, or null if the header isn't found / public String getValue(String name) { return getValueInternal(formatKey(name)); } private String getValueInternal(String formattedName) { final HttpHeader header = getInternal(formattedName); return header == null ? null : header.getValue(); } /* * Get the values for the provided header name. {@code Null} is returned if the header name isn't found. * * <p>This returns {@link * * @param name the name of the header whose value is being retrieved. * @return the values of the header, or null if the header isn't found / public String[] getValues(String name) { final HttpHeader header = get(name); return header == null ? null : header.getValues(); } private String formatKey(final String key) { return (key == null) ? null : key.toLowerCase(Locale.ROOT); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / public Map<String, String> toMap() { final Map<String, String> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValue()); } return Collections.unmodifiableMap(result); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMultiMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / Map<String, String[]> toMultiMap() { final Map<String, String[]> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValues()); } return Collections.unmodifiableMap(result); } /* * {@inheritDoc} / @Override public Iterator<HttpHeader> iterator() { return headers.values().iterator(); } /* * Get a {@link Stream} representation of the HttpHeader values in this instance. * * @return A {@link Stream} of all header values in this instance. */ public Stream<HttpHeader> stream() { return headers.values().stream(); } @Override public String toString() { return this.stream() .map(header -> header.getName() + "=" + header.getValue()) .collect(Collectors.joining(", ")); } }	class HttpHeaders implements Iterable<HttpHeader> { private final Map<String, HttpHeader> headers; static { HttpHeadersHelper.setAccessor(new HttpHeadersHelper.HttpHeadersAccessor() { @Override public HttpHeaders setNoKeyFormatting(HttpHeaders headers, String formattedName, String name, String value) { return headers.setInternal(formattedName, name, value); } @Override public HttpHeader getNoKeyFormatting(HttpHeaders headers, String formattedName) { return headers.getInternal(formattedName); } @Override public String getValueNoKeyFormatting(HttpHeaders headers, String formattedName) { return headers.getValueInternal(formattedName); } }); } /** * Create an empty HttpHeaders instance. / public HttpHeaders() { headers = new HashMap<>(); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the map of initial headers / public HttpHeaders(Map<String, String> headers) { this.headers = new HashMap<>(headers.size()); headers.forEach(this::set); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the collection of initial headers / public HttpHeaders(Iterable<HttpHeader> headers) { this.headers = new HashMap<>(); for (final HttpHeader header : headers) { this.set(header.getName(), header.getValue()); } } /* * Create a HttpHeaders instance with an initial {@code size} empty headers * * @param initialCapacity the initial capacity of headers map. / public HttpHeaders(int initialCapacity) { this.headers = new HashMap<>(initialCapacity); } /* * Gets the number of headers in the collection. * * @return the number of headers in this collection. / public int getSize() { return headers.size(); } /* * Adds a {@link HttpHeader header} with the given name and value if a header with that name doesn't already exist, * otherwise adds the {@code value} to the existing header. * * @param name The name of the header. * @param value The value of the header. * @return The updated HttpHeaders object. / public HttpHeaders add(String name, String value) { String caseInsensitiveName = HttpHeadersHelper.formatKey(name); if (caseInsensitiveName == null \|\| value == null) { return this; } headers.compute(caseInsensitiveName, (key, header) -> { if (header == null) { return new HttpHeader(name, value); } else { header.addValue(value); return header; } }); return this; } /* * Sets a {@link HttpHeader header} with the given name and value. * * <p>If header with same name already exists then the value will be overwritten.</p> * * @param name the name * @param value the value * @return The updated HttpHeaders object * @deprecated Use {@link / @Deprecated public HttpHeaders put(String name, String value) { return set(name, value); } /* * Sets a {@link HttpHeader header} with the given name and value. If a header with same name already exists then * the value will be overwritten. If the given value is null, the header with the given name will be removed. * * @param name the name to set in the header. If it is null, this method will return with no changes to the * headers. * @param value the value * @return The updated HttpHeaders object / private HttpHeaders setInternal(String formattedName, String name, String value) { if (name == null) { return this; } if (value == null) { removeInternal(name); } else { headers.put(formattedName, new HttpHeader(name, value)); } return this; } /* * Sets a {@link HttpHeader header} with the given name and the list of values provided, such that the given values * will be comma-separated when necessary. If a header with same name already exists then the values will be * overwritten. If the given values list is null, the header with the given name will be removed. * * @param name the name * @param values the values that will be comma-separated as appropriate * @return The updated HttpHeaders object / public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } String caseInsensitiveName = HttpHeadersHelper.formatKey(name); if (CoreUtils.isNullOrEmpty(values)) { removeInternal(caseInsensitiveName); } else { headers.put(caseInsensitiveName, new HttpHeader(name, values)); } return this; } /* * Sets all provided header key/values pairs into this HttpHeaders instance. This is equivalent to calling {@code * headers.forEach(this::set)}, and therefore the behavior is as specified in {@link * words, this will create a header for each key in the provided map, replacing or removing an existing one, * depending on the value. If the given values list is null, the header with the given name will be removed. If the * given name is already a header, it will be removed and replaced with the headers provided. * * @param headers a map containing keys representing header names, and keys representing the associated values. * @return The updated HttpHeaders object / public HttpHeaders setAll(Map<String, List<String>> headers) { headers.forEach(this::set); return this; } /* * Gets the {@link HttpHeader header} for the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to find. * @return the header if found, null otherwise. / public HttpHeader get(String name) { return getInternal(HttpHeadersHelper.formatKey(name)); } private HttpHeader getInternal(String formattedName) { return headers.get(formattedName); } /* * Removes the {@link HttpHeader header} with the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to remove. * @return the header if removed, null otherwise. / public HttpHeader remove(String name) { return removeInternal(HttpHeadersHelper.formatKey(name)); } private HttpHeader removeInternal(String lowerCaseName) { return headers.remove(lowerCaseName); } /* * Get the value for the provided header name. {@code Null} is returned if the header name isn't found. * * @param name the name of the header whose value is being retrieved. * @return the value of the header, or null if the header isn't found / public String getValue(String name) { return getValueInternal(HttpHeadersHelper.formatKey(name)); } private String getValueInternal(String formattedName) { final HttpHeader header = getInternal(formattedName); return header == null ? null : header.getValue(); } /* * Get the values for the provided header name. {@code Null} is returned if the header name isn't found. * * <p>This returns {@link * * @param name the name of the header whose value is being retrieved. * @return the values of the header, or null if the header isn't found / public String[] getValues(String name) { final HttpHeader header = get(name); return header == null ? null : header.getValues(); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / public Map<String, String> toMap() { final Map<String, String> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValue()); } return Collections.unmodifiableMap(result); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMultiMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / Map<String, String[]> toMultiMap() { final Map<String, String[]> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValues()); } return Collections.unmodifiableMap(result); } /* * {@inheritDoc} / @Override public Iterator<HttpHeader> iterator() { return headers.values().iterator(); } /* * Get a {@link Stream} representation of the HttpHeader values in this instance. * * @return A {@link Stream} of all header values in this instance. */ public Stream<HttpHeader> stream() { return headers.values().stream(); } @Override public String toString() { return this.stream() .map(header -> header.getName() + "=" + header.getValue()) .collect(Collectors.joining(", ")); } }
Just for symmetry with the setter, should `get` call `getInternal`?	public HttpHeader get(String name) { return headers.get(formatKey(name)); }	return headers.get(formatKey(name));	public HttpHeader get(String name) { return getInternal(HttpHeadersHelper.formatKey(name)); }	class HttpHeaders implements Iterable<HttpHeader> { private final Map<String, HttpHeader> headers; static { HttpHeadersHelper.setAccessor(new HttpHeadersHelper.HttpHeadersAccessor() { @Override public HttpHeaders setNoKeyFormat(HttpHeaders headers, String formattedName, String name, String value) { return headers.setInternal(formattedName, name, value); } @Override public HttpHeader getNoKeyFormat(HttpHeaders headers, String formattedName) { return headers.getInternal(formattedName); } @Override public String getValueNoKeyFormat(HttpHeaders headers, String formattedName) { return headers.getValueInternal(formattedName); } }); } /** * Create an empty HttpHeaders instance. / public HttpHeaders() { headers = new HashMap<>(); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the map of initial headers / public HttpHeaders(Map<String, String> headers) { this.headers = new HashMap<>(headers.size()); headers.forEach(this::set); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the collection of initial headers / public HttpHeaders(Iterable<HttpHeader> headers) { this.headers = new HashMap<>(); for (final HttpHeader header : headers) { this.set(header.getName(), header.getValue()); } } /* * Create a HttpHeaders instance with an initial {@code size} empty headers * * @param initialCapacity the initial capacity of headers map. / public HttpHeaders(int initialCapacity) { this.headers = new HashMap<>(initialCapacity); } /* * Gets the number of headers in the collection. * * @return the number of headers in this collection. / public int getSize() { return headers.size(); } /* * Adds a {@link HttpHeader header} with the given name and value if a header with that name doesn't already exist, * otherwise adds the {@code value} to the existing header. * * @param name The name of the header. * @param value The value of the header. * @return The updated HttpHeaders object. / public HttpHeaders add(String name, String value) { String caseInsensitiveName = formatKey(name); if (caseInsensitiveName == null \|\| value == null) { return this; } headers.compute(caseInsensitiveName, (key, header) -> { if (header == null) { return new HttpHeader(name, value); } else { header.addValue(value); return header; } }); return this; } /* * Sets a {@link HttpHeader header} with the given name and value. * * <p>If header with same name already exists then the value will be overwritten.</p> * * @param name the name * @param value the value * @return The updated HttpHeaders object * @deprecated Use {@link / @Deprecated public HttpHeaders put(String name, String value) { return set(name, value); } /* * Sets a {@link HttpHeader header} with the given name and value. If a header with same name already exists then * the value will be overwritten. If the given value is null, the header with the given name will be removed. * * @param name the name to set in the header. If it is null, this method will return with no changes to the * headers. * @param value the value * @return The updated HttpHeaders object / public HttpHeaders set(String name, String value) { return setInternal(formatKey(name), name, value); } private HttpHeaders setInternal(String formattedName, String name, String value) { if (name == null) { return this; } if (value == null) { removeInternal(name); } else { headers.put(formattedName, new HttpHeader(name, value)); } return this; } /* * Sets a {@link HttpHeader header} with the given name and the list of values provided, such that the given values * will be comma-separated when necessary. If a header with same name already exists then the values will be * overwritten. If the given values list is null, the header with the given name will be removed. * * @param name the name * @param values the values that will be comma-separated as appropriate * @return The updated HttpHeaders object / public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } String caseInsensitiveName = formatKey(name); if (CoreUtils.isNullOrEmpty(values)) { removeInternal(caseInsensitiveName); } else { headers.put(caseInsensitiveName, new HttpHeader(name, values)); } return this; } /* * Sets all provided header key/values pairs into this HttpHeaders instance. This is equivalent to calling {@code * headers.forEach(this::set)}, and therefore the behavior is as specified in {@link * words, this will create a header for each key in the provided map, replacing or removing an existing one, * depending on the value. If the given values list is null, the header with the given name will be removed. If the * given name is already a header, it will be removed and replaced with the headers provided. * * @param headers a map containing keys representing header names, and keys representing the associated values. * @return The updated HttpHeaders object / public HttpHeaders setAll(Map<String, List<String>> headers) { headers.forEach(this::set); return this; } /* * Gets the {@link HttpHeader header} for the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to find. * @return the header if found, null otherwise. / private HttpHeader getInternal(String formattedName) { return headers.get(formattedName); } /* * Removes the {@link HttpHeader header} with the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to remove. * @return the header if removed, null otherwise. / public HttpHeader remove(String name) { return removeInternal(formatKey(name)); } private HttpHeader removeInternal(String lowerCaseName) { return headers.remove(lowerCaseName); } /* * Get the value for the provided header name. {@code Null} is returned if the header name isn't found. * * @param name the name of the header whose value is being retrieved. * @return the value of the header, or null if the header isn't found / public String getValue(String name) { return getValueInternal(formatKey(name)); } private String getValueInternal(String formattedName) { final HttpHeader header = getInternal(formattedName); return header == null ? null : header.getValue(); } /* * Get the values for the provided header name. {@code Null} is returned if the header name isn't found. * * <p>This returns {@link * * @param name the name of the header whose value is being retrieved. * @return the values of the header, or null if the header isn't found / public String[] getValues(String name) { final HttpHeader header = get(name); return header == null ? null : header.getValues(); } private String formatKey(final String key) { return (key == null) ? null : key.toLowerCase(Locale.ROOT); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / public Map<String, String> toMap() { final Map<String, String> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValue()); } return Collections.unmodifiableMap(result); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMultiMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / Map<String, String[]> toMultiMap() { final Map<String, String[]> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValues()); } return Collections.unmodifiableMap(result); } /* * {@inheritDoc} / @Override public Iterator<HttpHeader> iterator() { return headers.values().iterator(); } /* * Get a {@link Stream} representation of the HttpHeader values in this instance. * * @return A {@link Stream} of all header values in this instance. */ public Stream<HttpHeader> stream() { return headers.values().stream(); } @Override public String toString() { return this.stream() .map(header -> header.getName() + "=" + header.getValue()) .collect(Collectors.joining(", ")); } }	class HttpHeaders implements Iterable<HttpHeader> { private final Map<String, HttpHeader> headers; static { HttpHeadersHelper.setAccessor(new HttpHeadersHelper.HttpHeadersAccessor() { @Override public HttpHeaders setNoKeyFormatting(HttpHeaders headers, String formattedName, String name, String value) { return headers.setInternal(formattedName, name, value); } @Override public HttpHeader getNoKeyFormatting(HttpHeaders headers, String formattedName) { return headers.getInternal(formattedName); } @Override public String getValueNoKeyFormatting(HttpHeaders headers, String formattedName) { return headers.getValueInternal(formattedName); } }); } /** * Create an empty HttpHeaders instance. / public HttpHeaders() { headers = new HashMap<>(); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the map of initial headers / public HttpHeaders(Map<String, String> headers) { this.headers = new HashMap<>(headers.size()); headers.forEach(this::set); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the collection of initial headers / public HttpHeaders(Iterable<HttpHeader> headers) { this.headers = new HashMap<>(); for (final HttpHeader header : headers) { this.set(header.getName(), header.getValue()); } } /* * Create a HttpHeaders instance with an initial {@code size} empty headers * * @param initialCapacity the initial capacity of headers map. / public HttpHeaders(int initialCapacity) { this.headers = new HashMap<>(initialCapacity); } /* * Gets the number of headers in the collection. * * @return the number of headers in this collection. / public int getSize() { return headers.size(); } /* * Adds a {@link HttpHeader header} with the given name and value if a header with that name doesn't already exist, * otherwise adds the {@code value} to the existing header. * * @param name The name of the header. * @param value The value of the header. * @return The updated HttpHeaders object. / public HttpHeaders add(String name, String value) { String caseInsensitiveName = HttpHeadersHelper.formatKey(name); if (caseInsensitiveName == null \|\| value == null) { return this; } headers.compute(caseInsensitiveName, (key, header) -> { if (header == null) { return new HttpHeader(name, value); } else { header.addValue(value); return header; } }); return this; } /* * Sets a {@link HttpHeader header} with the given name and value. * * <p>If header with same name already exists then the value will be overwritten.</p> * * @param name the name * @param value the value * @return The updated HttpHeaders object * @deprecated Use {@link / @Deprecated public HttpHeaders put(String name, String value) { return set(name, value); } /* * Sets a {@link HttpHeader header} with the given name and value. If a header with same name already exists then * the value will be overwritten. If the given value is null, the header with the given name will be removed. * * @param name the name to set in the header. If it is null, this method will return with no changes to the * headers. * @param value the value * @return The updated HttpHeaders object / public HttpHeaders set(String name, String value) { return setInternal(HttpHeadersHelper.formatKey(name), name, value); } private HttpHeaders setInternal(String formattedName, String name, String value) { if (name == null) { return this; } if (value == null) { removeInternal(name); } else { headers.put(formattedName, new HttpHeader(name, value)); } return this; } /* * Sets a {@link HttpHeader header} with the given name and the list of values provided, such that the given values * will be comma-separated when necessary. If a header with same name already exists then the values will be * overwritten. If the given values list is null, the header with the given name will be removed. * * @param name the name * @param values the values that will be comma-separated as appropriate * @return The updated HttpHeaders object / public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } String caseInsensitiveName = HttpHeadersHelper.formatKey(name); if (CoreUtils.isNullOrEmpty(values)) { removeInternal(caseInsensitiveName); } else { headers.put(caseInsensitiveName, new HttpHeader(name, values)); } return this; } /* * Sets all provided header key/values pairs into this HttpHeaders instance. This is equivalent to calling {@code * headers.forEach(this::set)}, and therefore the behavior is as specified in {@link * words, this will create a header for each key in the provided map, replacing or removing an existing one, * depending on the value. If the given values list is null, the header with the given name will be removed. If the * given name is already a header, it will be removed and replaced with the headers provided. * * @param headers a map containing keys representing header names, and keys representing the associated values. * @return The updated HttpHeaders object / public HttpHeaders setAll(Map<String, List<String>> headers) { headers.forEach(this::set); return this; } /* * Gets the {@link HttpHeader header} for the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to find. * @return the header if found, null otherwise. / private HttpHeader getInternal(String formattedName) { return headers.get(formattedName); } /* * Removes the {@link HttpHeader header} with the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to remove. * @return the header if removed, null otherwise. / public HttpHeader remove(String name) { return removeInternal(HttpHeadersHelper.formatKey(name)); } private HttpHeader removeInternal(String lowerCaseName) { return headers.remove(lowerCaseName); } /* * Get the value for the provided header name. {@code Null} is returned if the header name isn't found. * * @param name the name of the header whose value is being retrieved. * @return the value of the header, or null if the header isn't found / public String getValue(String name) { return getValueInternal(HttpHeadersHelper.formatKey(name)); } private String getValueInternal(String formattedName) { final HttpHeader header = getInternal(formattedName); return header == null ? null : header.getValue(); } /* * Get the values for the provided header name. {@code Null} is returned if the header name isn't found. * * <p>This returns {@link * * @param name the name of the header whose value is being retrieved. * @return the values of the header, or null if the header isn't found / public String[] getValues(String name) { final HttpHeader header = get(name); return header == null ? null : header.getValues(); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / public Map<String, String> toMap() { final Map<String, String> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValue()); } return Collections.unmodifiableMap(result); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMultiMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / Map<String, String[]> toMultiMap() { final Map<String, String[]> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValues()); } return Collections.unmodifiableMap(result); } /* * {@inheritDoc} / @Override public Iterator<HttpHeader> iterator() { return headers.values().iterator(); } /* * Get a {@link Stream} representation of the HttpHeader values in this instance. * * @return A {@link Stream} of all header values in this instance. */ public Stream<HttpHeader> stream() { return headers.values().stream(); } @Override public String toString() { return this.stream() .map(header -> header.getName() + "=" + header.getValue()) .collect(Collectors.joining(", ")); } }
This should happen very rarely, only reason null-safe names were kept around is that it would be a runtime breaking change.	public HttpHeaders set(String name, String value) { return setInternal(formatKey(name), name, value); }	return setInternal(formatKey(name), name, value);	public HttpHeaders set(String name, String value) { return setInternal(HttpHeadersHelper.formatKey(name), name, value); }	class HttpHeaders implements Iterable<HttpHeader> { private final Map<String, HttpHeader> headers; static { HttpHeadersHelper.setAccessor(new HttpHeadersHelper.HttpHeadersAccessor() { @Override public HttpHeaders setNoKeyFormat(HttpHeaders headers, String formattedName, String name, String value) { return headers.setInternal(formattedName, name, value); } @Override public HttpHeader getNoKeyFormat(HttpHeaders headers, String formattedName) { return headers.getInternal(formattedName); } @Override public String getValueNoKeyFormat(HttpHeaders headers, String formattedName) { return headers.getValueInternal(formattedName); } }); } /** * Create an empty HttpHeaders instance. / public HttpHeaders() { headers = new HashMap<>(); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the map of initial headers / public HttpHeaders(Map<String, String> headers) { this.headers = new HashMap<>(headers.size()); headers.forEach(this::set); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the collection of initial headers / public HttpHeaders(Iterable<HttpHeader> headers) { this.headers = new HashMap<>(); for (final HttpHeader header : headers) { this.set(header.getName(), header.getValue()); } } /* * Create a HttpHeaders instance with an initial {@code size} empty headers * * @param initialCapacity the initial capacity of headers map. / public HttpHeaders(int initialCapacity) { this.headers = new HashMap<>(initialCapacity); } /* * Gets the number of headers in the collection. * * @return the number of headers in this collection. / public int getSize() { return headers.size(); } /* * Adds a {@link HttpHeader header} with the given name and value if a header with that name doesn't already exist, * otherwise adds the {@code value} to the existing header. * * @param name The name of the header. * @param value The value of the header. * @return The updated HttpHeaders object. / public HttpHeaders add(String name, String value) { String caseInsensitiveName = formatKey(name); if (caseInsensitiveName == null \|\| value == null) { return this; } headers.compute(caseInsensitiveName, (key, header) -> { if (header == null) { return new HttpHeader(name, value); } else { header.addValue(value); return header; } }); return this; } /* * Sets a {@link HttpHeader header} with the given name and value. * * <p>If header with same name already exists then the value will be overwritten.</p> * * @param name the name * @param value the value * @return The updated HttpHeaders object * @deprecated Use {@link / @Deprecated public HttpHeaders put(String name, String value) { return set(name, value); } /* * Sets a {@link HttpHeader header} with the given name and value. If a header with same name already exists then * the value will be overwritten. If the given value is null, the header with the given name will be removed. * * @param name the name to set in the header. If it is null, this method will return with no changes to the * headers. * @param value the value * @return The updated HttpHeaders object / private HttpHeaders setInternal(String formattedName, String name, String value) { if (name == null) { return this; } if (value == null) { removeInternal(name); } else { headers.put(formattedName, new HttpHeader(name, value)); } return this; } /* * Sets a {@link HttpHeader header} with the given name and the list of values provided, such that the given values * will be comma-separated when necessary. If a header with same name already exists then the values will be * overwritten. If the given values list is null, the header with the given name will be removed. * * @param name the name * @param values the values that will be comma-separated as appropriate * @return The updated HttpHeaders object / public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } String caseInsensitiveName = formatKey(name); if (CoreUtils.isNullOrEmpty(values)) { removeInternal(caseInsensitiveName); } else { headers.put(caseInsensitiveName, new HttpHeader(name, values)); } return this; } /* * Sets all provided header key/values pairs into this HttpHeaders instance. This is equivalent to calling {@code * headers.forEach(this::set)}, and therefore the behavior is as specified in {@link * words, this will create a header for each key in the provided map, replacing or removing an existing one, * depending on the value. If the given values list is null, the header with the given name will be removed. If the * given name is already a header, it will be removed and replaced with the headers provided. * * @param headers a map containing keys representing header names, and keys representing the associated values. * @return The updated HttpHeaders object / public HttpHeaders setAll(Map<String, List<String>> headers) { headers.forEach(this::set); return this; } /* * Gets the {@link HttpHeader header} for the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to find. * @return the header if found, null otherwise. / public HttpHeader get(String name) { return headers.get(formatKey(name)); } private HttpHeader getInternal(String formattedName) { return headers.get(formattedName); } /* * Removes the {@link HttpHeader header} with the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to remove. * @return the header if removed, null otherwise. / public HttpHeader remove(String name) { return removeInternal(formatKey(name)); } private HttpHeader removeInternal(String lowerCaseName) { return headers.remove(lowerCaseName); } /* * Get the value for the provided header name. {@code Null} is returned if the header name isn't found. * * @param name the name of the header whose value is being retrieved. * @return the value of the header, or null if the header isn't found / public String getValue(String name) { return getValueInternal(formatKey(name)); } private String getValueInternal(String formattedName) { final HttpHeader header = getInternal(formattedName); return header == null ? null : header.getValue(); } /* * Get the values for the provided header name. {@code Null} is returned if the header name isn't found. * * <p>This returns {@link * * @param name the name of the header whose value is being retrieved. * @return the values of the header, or null if the header isn't found / public String[] getValues(String name) { final HttpHeader header = get(name); return header == null ? null : header.getValues(); } private String formatKey(final String key) { return (key == null) ? null : key.toLowerCase(Locale.ROOT); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / public Map<String, String> toMap() { final Map<String, String> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValue()); } return Collections.unmodifiableMap(result); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMultiMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / Map<String, String[]> toMultiMap() { final Map<String, String[]> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValues()); } return Collections.unmodifiableMap(result); } /* * {@inheritDoc} / @Override public Iterator<HttpHeader> iterator() { return headers.values().iterator(); } /* * Get a {@link Stream} representation of the HttpHeader values in this instance. * * @return A {@link Stream} of all header values in this instance. */ public Stream<HttpHeader> stream() { return headers.values().stream(); } @Override public String toString() { return this.stream() .map(header -> header.getName() + "=" + header.getValue()) .collect(Collectors.joining(", ")); } }	class HttpHeaders implements Iterable<HttpHeader> { private final Map<String, HttpHeader> headers; static { HttpHeadersHelper.setAccessor(new HttpHeadersHelper.HttpHeadersAccessor() { @Override public HttpHeaders setNoKeyFormatting(HttpHeaders headers, String formattedName, String name, String value) { return headers.setInternal(formattedName, name, value); } @Override public HttpHeader getNoKeyFormatting(HttpHeaders headers, String formattedName) { return headers.getInternal(formattedName); } @Override public String getValueNoKeyFormatting(HttpHeaders headers, String formattedName) { return headers.getValueInternal(formattedName); } }); } /** * Create an empty HttpHeaders instance. / public HttpHeaders() { headers = new HashMap<>(); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the map of initial headers / public HttpHeaders(Map<String, String> headers) { this.headers = new HashMap<>(headers.size()); headers.forEach(this::set); } /* * Create a HttpHeaders instance with the provided initial headers. * * @param headers the collection of initial headers / public HttpHeaders(Iterable<HttpHeader> headers) { this.headers = new HashMap<>(); for (final HttpHeader header : headers) { this.set(header.getName(), header.getValue()); } } /* * Create a HttpHeaders instance with an initial {@code size} empty headers * * @param initialCapacity the initial capacity of headers map. / public HttpHeaders(int initialCapacity) { this.headers = new HashMap<>(initialCapacity); } /* * Gets the number of headers in the collection. * * @return the number of headers in this collection. / public int getSize() { return headers.size(); } /* * Adds a {@link HttpHeader header} with the given name and value if a header with that name doesn't already exist, * otherwise adds the {@code value} to the existing header. * * @param name The name of the header. * @param value The value of the header. * @return The updated HttpHeaders object. / public HttpHeaders add(String name, String value) { String caseInsensitiveName = HttpHeadersHelper.formatKey(name); if (caseInsensitiveName == null \|\| value == null) { return this; } headers.compute(caseInsensitiveName, (key, header) -> { if (header == null) { return new HttpHeader(name, value); } else { header.addValue(value); return header; } }); return this; } /* * Sets a {@link HttpHeader header} with the given name and value. * * <p>If header with same name already exists then the value will be overwritten.</p> * * @param name the name * @param value the value * @return The updated HttpHeaders object * @deprecated Use {@link / @Deprecated public HttpHeaders put(String name, String value) { return set(name, value); } /* * Sets a {@link HttpHeader header} with the given name and value. If a header with same name already exists then * the value will be overwritten. If the given value is null, the header with the given name will be removed. * * @param name the name to set in the header. If it is null, this method will return with no changes to the * headers. * @param value the value * @return The updated HttpHeaders object / private HttpHeaders setInternal(String formattedName, String name, String value) { if (name == null) { return this; } if (value == null) { removeInternal(name); } else { headers.put(formattedName, new HttpHeader(name, value)); } return this; } /* * Sets a {@link HttpHeader header} with the given name and the list of values provided, such that the given values * will be comma-separated when necessary. If a header with same name already exists then the values will be * overwritten. If the given values list is null, the header with the given name will be removed. * * @param name the name * @param values the values that will be comma-separated as appropriate * @return The updated HttpHeaders object / public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } String caseInsensitiveName = HttpHeadersHelper.formatKey(name); if (CoreUtils.isNullOrEmpty(values)) { removeInternal(caseInsensitiveName); } else { headers.put(caseInsensitiveName, new HttpHeader(name, values)); } return this; } /* * Sets all provided header key/values pairs into this HttpHeaders instance. This is equivalent to calling {@code * headers.forEach(this::set)}, and therefore the behavior is as specified in {@link * words, this will create a header for each key in the provided map, replacing or removing an existing one, * depending on the value. If the given values list is null, the header with the given name will be removed. If the * given name is already a header, it will be removed and replaced with the headers provided. * * @param headers a map containing keys representing header names, and keys representing the associated values. * @return The updated HttpHeaders object / public HttpHeaders setAll(Map<String, List<String>> headers) { headers.forEach(this::set); return this; } /* * Gets the {@link HttpHeader header} for the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to find. * @return the header if found, null otherwise. / public HttpHeader get(String name) { return getInternal(HttpHeadersHelper.formatKey(name)); } private HttpHeader getInternal(String formattedName) { return headers.get(formattedName); } /* * Removes the {@link HttpHeader header} with the provided header name. {@code Null} is returned if the header isn't * found. * * @param name the name of the header to remove. * @return the header if removed, null otherwise. / public HttpHeader remove(String name) { return removeInternal(HttpHeadersHelper.formatKey(name)); } private HttpHeader removeInternal(String lowerCaseName) { return headers.remove(lowerCaseName); } /* * Get the value for the provided header name. {@code Null} is returned if the header name isn't found. * * @param name the name of the header whose value is being retrieved. * @return the value of the header, or null if the header isn't found / public String getValue(String name) { return getValueInternal(HttpHeadersHelper.formatKey(name)); } private String getValueInternal(String formattedName) { final HttpHeader header = getInternal(formattedName); return header == null ? null : header.getValue(); } /* * Get the values for the provided header name. {@code Null} is returned if the header name isn't found. * * <p>This returns {@link * * @param name the name of the header whose value is being retrieved. * @return the values of the header, or null if the header isn't found / public String[] getValues(String name) { final HttpHeader header = get(name); return header == null ? null : header.getValues(); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / public Map<String, String> toMap() { final Map<String, String> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValue()); } return Collections.unmodifiableMap(result); } /* * Returns a copy of the http headers as an unmodifiable {@link Map} representation of the state of the headers at * the time of the toMultiMap call. This map will not change as the underlying http headers change, and nor will * modifying the key or values contained in the map have any effect on the state of the http headers. * * <p>Note that there may be performance implications of using Map APIs on the returned Map. It is highly * recommended that users prefer to use alternate APIs present on the HttpHeaders class, over using APIs present on * the returned Map class. For example, use the {@link * httpHeaders.toMap().get(name)}.</p> * * @return the headers in a copied and unmodifiable form. / Map<String, String[]> toMultiMap() { final Map<String, String[]> result = new HashMap<>(); for (final HttpHeader header : headers.values()) { result.put(header.getName(), header.getValues()); } return Collections.unmodifiableMap(result); } /* * {@inheritDoc} / @Override public Iterator<HttpHeader> iterator() { return headers.values().iterator(); } /* * Get a {@link Stream} representation of the HttpHeader values in this instance. * * @return A {@link Stream} of all header values in this instance. */ public Stream<HttpHeader> stream() { return headers.values().stream(); } @Override public String toString() { return this.stream() .map(header -> header.getName() + "=" + header.getValue()) .collect(Collectors.joining(", ")); } }
We should check that it is faster to 'get values and null check', versus 'contains check first'.	public HttpHeader get(String name) { List<String> values = nettyHeaders.getAll(name); return (CoreUtils.isNullOrEmpty(values)) ? null : new NettyHttpHeader(this, name, values); }	List<String> values = nettyHeaders.getAll(name);	public HttpHeader get(String name) { List<String> values = nettyHeaders.getAll(name); return (CoreUtils.isNullOrEmpty(values)) ? null : new NettyHttpHeader(this, name, values); }	class NettyToAzureCoreHttpHeadersWrapper extends HttpHeaders { private static final ClientLogger LOGGER = new ClientLogger(NettyToAzureCoreHttpHeadersWrapper.class); private final io.netty.handler.codec.http.HttpHeaders nettyHeaders; private Map<String, String> abstractMap; private Map<String, String[]> abstractMultiMap; public NettyToAzureCoreHttpHeadersWrapper(io.netty.handler.codec.http.HttpHeaders nettyHeaders) { this.nettyHeaders = nettyHeaders; } @Override public int getSize() { return nettyHeaders.size(); } @Override public HttpHeaders set(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.set(name, value); } return this; } @Override public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } if (values == null) { remove(name); } else { nettyHeaders.set(name, values); } return this; } public HttpHeaders add(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.add(name, value); } return this; } @Override @Override public HttpHeader remove(String name) { HttpHeader header = get(name); nettyHeaders.remove(name); return header; } @Override public String getValue(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValue(); } @Override public String[] getValues(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValues(); } @Override public Map<String, String> toMap() { if (abstractMap == null) { abstractMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> CoreUtils.stringJoin(",", getAll)); } return abstractMap; } Map<String, String[]> toMultiMap() { if (abstractMultiMap == null) { abstractMultiMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> getAll.toArray(new String[0])); } return abstractMultiMap; } @Override public Iterator<HttpHeader> iterator() { return stream().iterator(); } @Override public Stream<HttpHeader> stream() { return nettyHeaders.names().stream() .map(name -> new NettyHttpHeader(this, name, nettyHeaders.getAll(name))); } static class NettyHttpHeader extends HttpHeader { private final NettyToAzureCoreHttpHeadersWrapper allHeaders; NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, String value) { super(name, value); this.allHeaders = allHeaders; } NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, List<String> values) { super(name, values); this.allHeaders = allHeaders; } @Override public void addValue(String value) { super.addValue(value); allHeaders.add(getName(), value); } } }	class NettyToAzureCoreHttpHeadersWrapper extends HttpHeaders { private static final ClientLogger LOGGER = new ClientLogger(NettyToAzureCoreHttpHeadersWrapper.class); private final io.netty.handler.codec.http.HttpHeaders nettyHeaders; private Map<String, String> abstractMap; private Map<String, String[]> abstractMultiMap; public NettyToAzureCoreHttpHeadersWrapper(io.netty.handler.codec.http.HttpHeaders nettyHeaders) { this.nettyHeaders = nettyHeaders; } @Override public int getSize() { return nettyHeaders.size(); } @Override public HttpHeaders set(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.set(name, value); } return this; } @Override public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } if (values == null) { remove(name); } else { nettyHeaders.set(name, values); } return this; } public HttpHeaders add(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.add(name, value); } return this; } @Override @Override public HttpHeader remove(String name) { HttpHeader header = get(name); nettyHeaders.remove(name); return header; } @Override public String getValue(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValue(); } @Override public String[] getValues(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValues(); } @Override public Map<String, String> toMap() { if (abstractMap == null) { abstractMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> CoreUtils.stringJoin(",", getAll)); } return abstractMap; } Map<String, String[]> toMultiMap() { if (abstractMultiMap == null) { abstractMultiMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> getAll.toArray(new String[0])); } return abstractMultiMap; } @Override public Iterator<HttpHeader> iterator() { return stream().iterator(); } @Override public Stream<HttpHeader> stream() { return nettyHeaders.names().stream() .map(name -> new NettyHttpHeader(this, name, nettyHeaders.getAll(name))); } static class NettyHttpHeader extends HttpHeader { private final NettyToAzureCoreHttpHeadersWrapper allHeaders; NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, String value) { super(name, value); this.allHeaders = allHeaders; } NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, List<String> values) { super(name, values); this.allHeaders = allHeaders; } @Override public void addValue(String value) { super.addValue(value); allHeaders.add(getName(), value); } } }
You should optimize the other two ctors by checking the array and list sizes?	public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; }	this.value = value;	public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.values = new LinkedList<>(); Collections.addAll(this.values, values); } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.values = new LinkedList<>(values); } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new LinkedList<>(); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }
It should be faster when the header exists (without running formal validation). Internally, from what source code I read, Netty uses arrays that act as a direct Map bucket to contain headers where each bucket is a linked list, or a node list. `contains` and `getAll` both use the header name to determine which bucket may contain that header, if it exists, but `contains` will fast return true if a header with a matching name is found where `getAll` will iterate all headers in the bucket to find all values. Based on this, `getAll` without contains should be faster as we remove the `contains` bucket determination and any potential node looping by just doing a single loop on the nodes getting all values.	public HttpHeader get(String name) { List<String> values = nettyHeaders.getAll(name); return (CoreUtils.isNullOrEmpty(values)) ? null : new NettyHttpHeader(this, name, values); }	List<String> values = nettyHeaders.getAll(name);	public HttpHeader get(String name) { List<String> values = nettyHeaders.getAll(name); return (CoreUtils.isNullOrEmpty(values)) ? null : new NettyHttpHeader(this, name, values); }	class NettyToAzureCoreHttpHeadersWrapper extends HttpHeaders { private static final ClientLogger LOGGER = new ClientLogger(NettyToAzureCoreHttpHeadersWrapper.class); private final io.netty.handler.codec.http.HttpHeaders nettyHeaders; private Map<String, String> abstractMap; private Map<String, String[]> abstractMultiMap; public NettyToAzureCoreHttpHeadersWrapper(io.netty.handler.codec.http.HttpHeaders nettyHeaders) { this.nettyHeaders = nettyHeaders; } @Override public int getSize() { return nettyHeaders.size(); } @Override public HttpHeaders set(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.set(name, value); } return this; } @Override public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } if (values == null) { remove(name); } else { nettyHeaders.set(name, values); } return this; } public HttpHeaders add(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.add(name, value); } return this; } @Override @Override public HttpHeader remove(String name) { HttpHeader header = get(name); nettyHeaders.remove(name); return header; } @Override public String getValue(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValue(); } @Override public String[] getValues(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValues(); } @Override public Map<String, String> toMap() { if (abstractMap == null) { abstractMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> CoreUtils.stringJoin(",", getAll)); } return abstractMap; } Map<String, String[]> toMultiMap() { if (abstractMultiMap == null) { abstractMultiMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> getAll.toArray(new String[0])); } return abstractMultiMap; } @Override public Iterator<HttpHeader> iterator() { return stream().iterator(); } @Override public Stream<HttpHeader> stream() { return nettyHeaders.names().stream() .map(name -> new NettyHttpHeader(this, name, nettyHeaders.getAll(name))); } static class NettyHttpHeader extends HttpHeader { private final NettyToAzureCoreHttpHeadersWrapper allHeaders; NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, String value) { super(name, value); this.allHeaders = allHeaders; } NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, List<String> values) { super(name, values); this.allHeaders = allHeaders; } @Override public void addValue(String value) { super.addValue(value); allHeaders.add(getName(), value); } } }	class NettyToAzureCoreHttpHeadersWrapper extends HttpHeaders { private static final ClientLogger LOGGER = new ClientLogger(NettyToAzureCoreHttpHeadersWrapper.class); private final io.netty.handler.codec.http.HttpHeaders nettyHeaders; private Map<String, String> abstractMap; private Map<String, String[]> abstractMultiMap; public NettyToAzureCoreHttpHeadersWrapper(io.netty.handler.codec.http.HttpHeaders nettyHeaders) { this.nettyHeaders = nettyHeaders; } @Override public int getSize() { return nettyHeaders.size(); } @Override public HttpHeaders set(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.set(name, value); } return this; } @Override public HttpHeaders set(String name, List<String> values) { if (name == null) { return this; } if (values == null) { remove(name); } else { nettyHeaders.set(name, values); } return this; } public HttpHeaders add(String name, String value) { if (name == null) { return this; } if (value == null) { remove(name); } else { nettyHeaders.add(name, value); } return this; } @Override @Override public HttpHeader remove(String name) { HttpHeader header = get(name); nettyHeaders.remove(name); return header; } @Override public String getValue(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValue(); } @Override public String[] getValues(String name) { final HttpHeader header = get(name); return (header == null) ? null : header.getValues(); } @Override public Map<String, String> toMap() { if (abstractMap == null) { abstractMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> CoreUtils.stringJoin(",", getAll)); } return abstractMap; } Map<String, String[]> toMultiMap() { if (abstractMultiMap == null) { abstractMultiMap = new DeferredCacheImmutableMap<>(LOGGER, new HashMap<>(), nettyHeaders, getAll -> getAll.toArray(new String[0])); } return abstractMultiMap; } @Override public Iterator<HttpHeader> iterator() { return stream().iterator(); } @Override public Stream<HttpHeader> stream() { return nettyHeaders.names().stream() .map(name -> new NettyHttpHeader(this, name, nettyHeaders.getAll(name))); } static class NettyHttpHeader extends HttpHeader { private final NettyToAzureCoreHttpHeadersWrapper allHeaders; NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, String value) { super(name, value); this.allHeaders = allHeaders; } NettyHttpHeader(NettyToAzureCoreHttpHeadersWrapper allHeaders, String name, List<String> values) { super(name, values); this.allHeaders = allHeaders; } @Override public void addValue(String value) { super.addValue(value); allHeaders.add(getName(), value); } } }
For now I want to just do this to get the changes in as this should be the overwhelming use case	public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; }	this.value = value;	public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.values = new LinkedList<>(); Collections.addAll(this.values, values); } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.values = new LinkedList<>(values); } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new LinkedList<>(); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }
I'm not sure about that. The code path I was looking at yesterday (when on my PC, unlike now) always passed in the list, regardless of size, and I suspect it was the common path	public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; }	this.value = value;	public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.values = new LinkedList<>(); Collections.addAll(this.values, values); } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.values = new LinkedList<>(values); } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new LinkedList<>(); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }
In this scenario, I wonder if we can avoid defensively copying in some cases. We might need a different ctor to indicate it, but it might be possible in many cases (e.g. when Netty is giving us an already defensively copied list) to not copy it again needlessly.	public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } }	Collections.addAll(this.values, values);	public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }
I'm not sure this method is correct. It will only return the first value, even if new values are added. You need to ensure you're working correctly with the cached value. Same with query params below.	public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); }	return CACHED_STRING_VALUE_UPDATER.get(this);	public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }
`addValue` will set `value` to null if the header was created with a single value or set the cached String value to null when there are multiple values in the header, same logic for query parameter. ```java public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); // 4 was selected to add a buffer of 2 as seen in the constructor. values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } ```	public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); }	return CACHED_STRING_VALUE_UPDATER.get(this);	public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }
Lets file an issue for this as this number of changes in this PR keeps growing and it'll be good to see where the new hot spots are after this change.	public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } }	Collections.addAll(this.values, values);	public Header(String name, String... values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int length = values.length; if (length == 1) { this.value = values[0]; } else { this.values = new ArrayList<>(Math.max(length + 2, 4)); Collections.addAll(this.values, values); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }	class Header { private final String name; private String value; private List<String> values; private volatile String cachedStringValue; private static final AtomicReferenceFieldUpdater<Header, String> CACHED_STRING_VALUE_UPDATER = AtomicReferenceFieldUpdater.newUpdater(Header.class, String.class, "cachedStringValue"); /** * Create a Header instance using the provided name and value. * * @param name the name of the header. * @param value the value of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, String value) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; this.value = value; } /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / /* * Create a Header instance using the provided name and values. * * @param name the name of the header. * @param values the values of the header. * @throws NullPointerException if {@code name} is null. / public Header(String name, List<String> values) { Objects.requireNonNull(name, "'name' cannot be null."); this.name = name; int size = values.size(); if (size == 1) { this.value = values.get(0); } else { this.values = new ArrayList<>(Math.max(size + 2, 4)); this.values.addAll(values); } } /* * Gets the header name. * * @return the name of this {@link Header} / public String getName() { return name; } /* * Gets the combined, comma-separated value of this {@link Header}, taking into account all values provided. * * @return the value of this Header / public String getValue() { if (value != null) { return value; } checkCachedStringValue(); return CACHED_STRING_VALUE_UPDATER.get(this); } /* * Gets the comma separated value as an array. Changes made to this array will not be reflected in the headers. * * @return the values of this {@link Header} that are separated by a comma / public String[] getValues() { return (value != null) ? new String[] {value} : values.toArray(new String[0]); } /* * Returns all values associated with this header, represented as an unmodifiable list of strings. * * @return An unmodifiable list containing all values associated with this header. / public List<String> getValuesList() { return (value != null) ? Collections.singletonList(value) : Collections.unmodifiableList(values); } /* * Add a new value to the end of the Header. * * @param value the value to add / public void addValue(String value) { if (values == null) { values = new ArrayList<>(4); values.add(this.value); this.value = null; } this.values.add(value); CACHED_STRING_VALUE_UPDATER.set(this, null); } /* * Gets the String representation of the header. * * @return the String representation of this Header. */ @Override public String toString() { if (value != null) { return name + ":" + value; } checkCachedStringValue(); return name + ":" + CACHED_STRING_VALUE_UPDATER.get(this); } private void checkCachedStringValue() { CACHED_STRING_VALUE_UPDATER.compareAndSet(this, null, CoreUtils.stringJoin(",", values)); } }
Do we need a case for when topic is not null?	void topicDoesNotExistReturnNull() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); Assertions.assertNull(actualGet); }	}	void topicDoesNotExistReturnNull() { when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = getResourceCrud().get(getKey()); Assertions.assertNull(actualGet); }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata); } @Override void getStubManagementException(int statusCode, String message) { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(statusCode, message); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT2())).thenThrow(exception); } @Override void createStubManagementException() { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(500, "Create service bus namespace exception"); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT3())).thenThrow(exception); ServiceBusTopicCrud serviceBusTopicCrud = mock(ServiceBusTopicCrud.class); when(serviceBusTopicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); ServiceBusSubscription.DefinitionStages.WithCreate create = mock(ServiceBusSubscription.DefinitionStages.WithCreate.class); when(create.create()).thenThrow(exception); } @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Test @Test void topicDoesNotExistReturnNullToCreate() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); when(topicCrud.getOrCreate(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(topic); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); ServiceBusSubscription actualCreate = topicSubCrud.create(getKey()); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; private ServiceBusTopicCrud topicCrud; @BeforeEach void beforeEach() { topicCrud = mock(ServiceBusTopicCrud.class); super.beforeEach(); } @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata, this.topicCrud); } @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Override void getStubManagementException(int statusCode, String message) { ManagementException exception = createManagementException(statusCode, message); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.get(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenThrow(exception); } @Override void createStubManagementException() { ManagementException exception = createManagementException(500, "Create service bus namespace exception"); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.getOrCreate(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); } @Test @Test void topicDoesNotExistsShouldReturnNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(topicKey)).thenReturn(null); when(topicCrud.getOrCreate(topicKey)).thenReturn(topic); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } @Test void topicExistsSubscriptionDoesNotExistShouldReturnNonNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription subscription = mock(ServiceBusSubscription.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(this.topicCrud.getOrCreate(topicKey)).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenReturn(null); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); when(define.create()).thenReturn(subscription); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(subscription, actualCreate); } }
Seems like we can remove the namespaces in this case? Try to minimize the unnecessary code.	void createStubManagementException() { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(500, "Create service bus namespace exception"); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT3())).thenThrow(exception); ServiceBusTopicCrud serviceBusTopicCrud = mock(ServiceBusTopicCrud.class); when(serviceBusTopicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); ServiceBusSubscription.DefinitionStages.WithCreate create = mock(ServiceBusSubscription.DefinitionStages.WithCreate.class); when(create.create()).thenThrow(exception); }	when(serviceBusSubscriptions.getByName(getKey().getT3())).thenThrow(exception);	void createStubManagementException() { ManagementException exception = createManagementException(500, "Create service bus namespace exception"); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.getOrCreate(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata); } @Override void getStubManagementException(int statusCode, String message) { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(statusCode, message); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT2())).thenThrow(exception); } @Override @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Test void topicDoesNotExistReturnNull() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); Assertions.assertNull(actualGet); } @Test void topicDoesNotExistReturnNullToCreate() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); when(topicCrud.getOrCreate(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(topic); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); ServiceBusSubscription actualCreate = topicSubCrud.create(getKey()); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; private ServiceBusTopicCrud topicCrud; @BeforeEach void beforeEach() { topicCrud = mock(ServiceBusTopicCrud.class); super.beforeEach(); } @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata, this.topicCrud); } @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Override void getStubManagementException(int statusCode, String message) { ManagementException exception = createManagementException(statusCode, message); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.get(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenThrow(exception); } @Override @Test void topicDoesNotExistReturnNull() { when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = getResourceCrud().get(getKey()); Assertions.assertNull(actualGet); } @Test void topicDoesNotExistsShouldReturnNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(topicKey)).thenReturn(null); when(topicCrud.getOrCreate(topicKey)).thenReturn(topic); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } @Test void topicExistsSubscriptionDoesNotExistShouldReturnNonNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription subscription = mock(ServiceBusSubscription.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(this.topicCrud.getOrCreate(topicKey)).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenReturn(null); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); when(define.create()).thenReturn(subscription); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(subscription, actualCreate); } }
If we can mock the `ServiceBusTopicCrud`, we can reduce the code here?	void getStubManagementException(int statusCode, String message) { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(statusCode, message); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT2())).thenThrow(exception); }	when(serviceBusSubscriptions.getByName(getKey().getT2())).thenThrow(exception);	void getStubManagementException(int statusCode, String message) { ManagementException exception = createManagementException(statusCode, message); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.get(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenThrow(exception); }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata); } @Override @Override void createStubManagementException() { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(500, "Create service bus namespace exception"); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT3())).thenThrow(exception); ServiceBusTopicCrud serviceBusTopicCrud = mock(ServiceBusTopicCrud.class); when(serviceBusTopicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); ServiceBusSubscription.DefinitionStages.WithCreate create = mock(ServiceBusSubscription.DefinitionStages.WithCreate.class); when(create.create()).thenThrow(exception); } @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Test void topicDoesNotExistReturnNull() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); Assertions.assertNull(actualGet); } @Test void topicDoesNotExistReturnNullToCreate() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); when(topicCrud.getOrCreate(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(topic); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); ServiceBusSubscription actualCreate = topicSubCrud.create(getKey()); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; private ServiceBusTopicCrud topicCrud; @BeforeEach void beforeEach() { topicCrud = mock(ServiceBusTopicCrud.class); super.beforeEach(); } @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata, this.topicCrud); } @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Override @Override void createStubManagementException() { ManagementException exception = createManagementException(500, "Create service bus namespace exception"); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.getOrCreate(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); } @Test void topicDoesNotExistReturnNull() { when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = getResourceCrud().get(getKey()); Assertions.assertNull(actualGet); } @Test void topicDoesNotExistsShouldReturnNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(topicKey)).thenReturn(null); when(topicCrud.getOrCreate(topicKey)).thenReturn(topic); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } @Test void topicExistsSubscriptionDoesNotExistShouldReturnNonNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription subscription = mock(ServiceBusSubscription.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(this.topicCrud.getOrCreate(topicKey)).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenReturn(null); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); when(define.create()).thenReturn(subscription); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(subscription, actualCreate); } }
are all the tests returning a Media_Subscription_Id regardless of the mediaStreamingConfiguration was provided or not?	public void answerCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200) ))); Response<AnswerCallResult> answerCallResult = callAutomationAsyncClient.answerCallWithResponse( CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL, MEDIA_STREAMING_CONFIGURATION).block(); assertNotNull(answerCallResult); assertEquals(200, answerCallResult.getStatusCode()); assertNotNull(answerCallResult.getValue()); assertEquals("mediaSubscriptionId", answerCallResult.getValue().getCallConnectionProperties().getMediaSubscriptionId()); }	assertEquals("mediaSubscriptionId", answerCallResult.getValue().getCallConnectionProperties().getMediaSubscriptionId());	public void answerCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200) ))); Response<AnswerCallResult> answerCallResult = callAutomationAsyncClient.answerCallWithResponse( CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL, MEDIA_STREAMING_CONFIGURATION).block(); assertNotNull(answerCallResult); assertEquals(200, answerCallResult.getStatusCode()); assertNotNull(answerCallResult.getValue()); assertEquals("mediaSubscriptionId", answerCallResult.getValue().getCallConnectionProperties().getMediaSubscriptionId()); }	class CallAutomationAsyncClientUnitTests extends CallAutomationUnitTestBase { @Test public void createCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); CreateCallResult createCallResult = callAutomationAsyncClient.createCall(callOptions).block(); assertNotNull(createCallResult); } @Test public void createCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); callOptions.setMediaStreamingConfiguration(MEDIA_STREAMING_CONFIGURATION); Response<CreateCallResult> createCallResult = callAutomationAsyncClient.createCallWithResponse(callOptions).block(); assertNotNull(createCallResult); assertEquals(201, createCallResult.getStatusCode()); assertNotNull(createCallResult.getValue()); } @Test public void answerCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200) ))); AnswerCallResult answerCallResult = callAutomationAsyncClient.answerCall(CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL).block(); assertNotNull(answerCallResult); } @Test @Test public void redirectCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); callAutomationAsyncClient.redirectCall(CALL_INCOMING_CALL_CONTEXT, target); } @Test public void redirectCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); Response<Void> redirectCallResponse = callAutomationAsyncClient.redirectCallWithResponse( CALL_INCOMING_CALL_CONTEXT, target).block(); assertNotNull(redirectCallResponse); assertEquals(204, redirectCallResponse.getStatusCode()); } @Test public void rejectCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); callAutomationAsyncClient.rejectCall(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY); } @Test public void rejectCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); Response<Void> rejectCallResponse = callAutomationAsyncClient.rejectCallWithResponse(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY).block(); assertNotNull(rejectCallResponse); assertEquals(204, rejectCallResponse.getStatusCode()); } }	class CallAutomationAsyncClientUnitTests extends CallAutomationUnitTestBase { @Test public void createCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, null), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); CreateCallResult createCallResult = callAutomationAsyncClient.createCall(callOptions).block(); assertNotNull(createCallResult); } @Test public void createCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); callOptions.setMediaStreamingConfiguration(MEDIA_STREAMING_CONFIGURATION); Response<CreateCallResult> createCallResult = callAutomationAsyncClient.createCallWithResponse(callOptions).block(); assertNotNull(createCallResult); assertEquals(201, createCallResult.getStatusCode()); assertNotNull(createCallResult.getValue()); assertEquals("mediaSubscriptionId", createCallResult.getValue().getCallConnectionProperties().getMediaSubscriptionId()); } @Test public void answerCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, null), 200) ))); AnswerCallResult answerCallResult = callAutomationAsyncClient.answerCall(CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL).block(); assertNotNull(answerCallResult); } @Test @Test public void redirectCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); callAutomationAsyncClient.redirectCall(CALL_INCOMING_CALL_CONTEXT, target); } @Test public void redirectCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); Response<Void> redirectCallResponse = callAutomationAsyncClient.redirectCallWithResponse( CALL_INCOMING_CALL_CONTEXT, target).block(); assertNotNull(redirectCallResponse); assertEquals(204, redirectCallResponse.getStatusCode()); } @Test public void rejectCall() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); callAutomationAsyncClient.rejectCall(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY); } @Test public void rejectCallWithResponse() { CallAutomationAsyncClient callAutomationAsyncClient = getCallAutomationAsyncClient(new ArrayList<>( Collections.singletonList( new AbstractMap.SimpleEntry<>("", 204) )) ); Response<Void> rejectCallResponse = callAutomationAsyncClient.rejectCallWithResponse(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY).block(); assertNotNull(rejectCallResponse); assertEquals(204, rejectCallResponse.getStatusCode()); } }
added	void topicDoesNotExistReturnNull() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); Assertions.assertNull(actualGet); }	}	void topicDoesNotExistReturnNull() { when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription actualGet = getResourceCrud().get(getKey()); Assertions.assertNull(actualGet); }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata); } @Override void getStubManagementException(int statusCode, String message) { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(statusCode, message); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT2())).thenThrow(exception); } @Override void createStubManagementException() { ServiceBusNamespaces namespaces = mock(ServiceBusNamespaces.class); ServiceBusNamespace namespace = mock(ServiceBusNamespace.class); when(resourceManager.serviceBusNamespaces()).thenReturn(namespaces); ManagementException exception = getManagementException(500, "Create service bus namespace exception"); when(namespaces.getByResourceGroup(resourceMetadata.getResourceGroup(), getKey().getT1())) .thenReturn(namespace); Topics topics = mock(Topics.class); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(namespace.topics()).thenReturn(topics); when(topics.getByName(getKey().getT2())).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(getKey().getT3())).thenThrow(exception); ServiceBusTopicCrud serviceBusTopicCrud = mock(ServiceBusTopicCrud.class); when(serviceBusTopicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); ServiceBusSubscription.DefinitionStages.WithCreate create = mock(ServiceBusSubscription.DefinitionStages.WithCreate.class); when(create.create()).thenThrow(exception); } @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Test @Test void topicDoesNotExistReturnNullToCreate() { ServiceBusTopicCrud topicCrud = mock(ServiceBusTopicCrud.class); ServiceBusTopicSubscriptionCrud topicSubCrud = new ServiceBusTopicSubscriptionCrud(this.resourceManager, this.resourceMetadata, topicCrud); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(null); when(topicCrud.getOrCreate(Tuples.of(NAMESPACE, TOPIC_NAME))).thenReturn(topic); ServiceBusSubscription actualGet = topicSubCrud.get(getKey()); ServiceBusSubscription actualCreate = topicSubCrud.create(getKey()); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } }	class ServiceBusTopicSubscriptionCrudTests extends AbstractResourceCrudTests<ServiceBusSubscription, Tuple3<String, String, String>> { private static final String NAMESPACE = "namespace"; private static final String TOPIC_NAME = "topic"; private static final String SUBSCRIPTION_NAME = "subscription"; private ServiceBusTopicCrud topicCrud; @BeforeEach void beforeEach() { topicCrud = mock(ServiceBusTopicCrud.class); super.beforeEach(); } @Override AbstractResourceCrud<ServiceBusSubscription, Tuple3<String, String, String>> getResourceCrud() { return new ServiceBusTopicSubscriptionCrud(resourceManager, resourceMetadata, this.topicCrud); } @Override Tuple3<String, String, String> getKey() { return Tuples.of(NAMESPACE, TOPIC_NAME, SUBSCRIPTION_NAME); } @Override void getStubManagementException(int statusCode, String message) { ManagementException exception = createManagementException(statusCode, message); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.get(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenThrow(exception); } @Override void createStubManagementException() { ManagementException exception = createManagementException(500, "Create service bus namespace exception"); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); Tuple3<String, String, String> subscriptionKey = getKey(); when(this.topicCrud.getOrCreate(Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()))).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.define(SUBSCRIPTION_NAME)).thenReturn(define); when(define.create()).thenThrow(exception); } @Test @Test void topicDoesNotExistsShouldReturnNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); ServiceBusSubscription serviceBusSubscription = mock(ServiceBusSubscription.class); when(define.create()).thenReturn(serviceBusSubscription); when(topicCrud.get(topicKey)).thenReturn(null); when(topicCrud.getOrCreate(topicKey)).thenReturn(topic); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(serviceBusSubscription, actualCreate); } @Test void topicExistsSubscriptionDoesNotExistShouldReturnNonNullTopicAndCreateSub() { Tuple3<String, String, String> subscriptionKey = getKey(); Tuple2<String, String> topicKey = Tuples.of(subscriptionKey.getT1(), subscriptionKey.getT2()); Topic topic = mock(Topic.class); ServiceBusSubscriptions serviceBusSubscriptions = mock(ServiceBusSubscriptions.class); ServiceBusSubscription subscription = mock(ServiceBusSubscription.class); ServiceBusSubscription.DefinitionStages.Blank define = mock(ServiceBusSubscription.DefinitionStages.Blank.class); when(this.topicCrud.getOrCreate(topicKey)).thenReturn(topic); when(topic.subscriptions()).thenReturn(serviceBusSubscriptions); when(serviceBusSubscriptions.getByName(subscriptionKey.getT3())).thenReturn(null); when(serviceBusSubscriptions.define(subscriptionKey.getT3())).thenReturn(define); when(define.create()).thenReturn(subscription); ServiceBusSubscription actualGet = getResourceCrud().get(subscriptionKey); ServiceBusSubscription actualCreate = getResourceCrud().create(subscriptionKey); Assertions.assertNull(actualGet); Assertions.assertNotNull(actualCreate); Assertions.assertEquals(subscription, actualCreate); } }
The client is not added to the `argumentsList` here. So, the argumentsList is always empty.	static Stream<Arguments> getTestParameters() { List<Arguments> argumentsList = new ArrayList<>(); getHttpClients() .forEach(httpClient -> Arguments.of(httpClient)); return argumentsList.stream(); }	.forEach(httpClient -> Arguments.of(httpClient));	static Stream<Arguments> getTestParameters() { List<Arguments> argumentsList = new ArrayList<>(); getHttpClients() .forEach(httpClient -> argumentsList.add(Arguments.of(httpClient))); return argumentsList.stream(); }	class EmailTestBase extends TestBase { protected static final TestMode TEST_MODE = initializeTestMode(); protected static final String CONNECTION_STRING = Configuration.getGlobalConfiguration() .get("COMMUNICATION_CONNECTION_STRING", "endpoint=https: protected static final String RECIPIENT_ADDRESS = Configuration.getGlobalConfiguration() .get("RECIPIENT_ADDRESS", "customer@contoso.com"); protected static final String SECOND_RECIPIENT_ADDRESS = Configuration.getGlobalConfiguration() .get("SECOND_RECIPIENT_ADDRESS", "customer2@contoso.com"); protected static final String SENDER_ADDRESS = Configuration.getGlobalConfiguration() .get("SENDER_ADDRESS", "sender@domain.com"); protected EmailClient getEmailClient(HttpClient httpClient) { return getEmailClientBuilder(httpClient).buildClient(); } protected EmailAsyncClient getEmailAsyncClient(HttpClient httpClient) { return getEmailClientBuilder(httpClient).buildAsyncClient(); } private EmailClientBuilder getEmailClientBuilder(HttpClient httpClient) { EmailClientBuilder emailClientBuilder = new EmailClientBuilder() .connectionString(CONNECTION_STRING) .httpClient(getHttpClientOrUsePlayback(httpClient)); if (getTestMode() == TestMode.RECORD) { HttpPipelinePolicy recordPolicy = interceptorManager.getRecordPolicy(); emailClientBuilder.addPolicy(recordPolicy); emailClientBuilder.addPolicy( (context, next) -> next.process().flatMap(response -> redactResponseHeaders(response, recordPolicy)) ); } return emailClientBuilder; } private Mono<HttpResponse> redactResponseHeaders(HttpResponse response, HttpPipelinePolicy policy) { response.getHeaders().set("Operation-Location", "REDACTED"); return Mono.just(response); } private static TestMode initializeTestMode() { String azureTestMode = Configuration.getGlobalConfiguration().get("AZURE_TEST_MODE"); if (azureTestMode != null) { System.out.println("azureTestMode: " + azureTestMode); try { return TestMode.valueOf(azureTestMode.toUpperCase(Locale.US)); } catch (IllegalArgumentException var3) { return TestMode.PLAYBACK; } } else { return TestMode.PLAYBACK; } } }	class EmailTestBase extends TestBase { protected static final TestMode TEST_MODE = initializeTestMode(); protected static final String CONNECTION_STRING = Configuration.getGlobalConfiguration() .get("COMMUNICATION_CONNECTION_STRING_EMAIL", "endpoint=https: protected static final String RECIPIENT_ADDRESS = Configuration.getGlobalConfiguration() .get("RECIPIENT_ADDRESS", "customer@contoso.com"); protected static final String SECOND_RECIPIENT_ADDRESS = Configuration.getGlobalConfiguration() .get("SECOND_RECIPIENT_ADDRESS", "customer2@contoso.com"); protected static final String SENDER_ADDRESS = Configuration.getGlobalConfiguration() .get("SENDER_ADDRESS", "sender@domain.com"); protected EmailClient getEmailClient(HttpClient httpClient) { return getEmailClientBuilder(httpClient).buildClient(); } protected EmailAsyncClient getEmailAsyncClient(HttpClient httpClient) { return getEmailClientBuilder(httpClient).buildAsyncClient(); } private EmailClientBuilder getEmailClientBuilder(HttpClient httpClient) { EmailClientBuilder emailClientBuilder = new EmailClientBuilder() .connectionString(CONNECTION_STRING) .httpClient(getHttpClientOrUsePlayback(httpClient)); if (getTestMode() == TestMode.RECORD) { HttpPipelinePolicy recordPolicy = interceptorManager.getRecordPolicy(); emailClientBuilder.addPolicy(recordPolicy); emailClientBuilder.addPolicy( (context, next) -> next.process().flatMap(response -> redactResponseHeaders(response, recordPolicy)) ); } return emailClientBuilder; } private Mono<HttpResponse> redactResponseHeaders(HttpResponse response, HttpPipelinePolicy policy) { response.getHeaders().set("Operation-Location", "REDACTED"); return Mono.just(response); } private static TestMode initializeTestMode() { String azureTestMode = Configuration.getGlobalConfiguration().get("AZURE_TEST_MODE"); if (azureTestMode != null) { System.out.println("azureTestMode: " + azureTestMode); try { return TestMode.valueOf(azureTestMode.toUpperCase(Locale.US)); } catch (IllegalArgumentException var3) { return TestMode.PLAYBACK; } } else { return TestMode.PLAYBACK; } } }
interesting - are these updates due to changes in the service?	static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult2() { TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(156, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "six minutes"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 0.87); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 21); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "minimal"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.CONDITION_QUALIFIER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 38); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "ST depressions in the anterior lateral leads"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 46); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 44); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "fatigue"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity5, "Fatigue"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 108); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity6 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity6, "wrist pain"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity6, "Pain in wrist"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity6, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity6, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity6, 120); HealthcareEntityPropertiesHelper.setLength(healthcareEntity6, 10); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity6, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity7 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity7, "anginal equivalent"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity7, "Anginal equivalent"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity7, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity7, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity7, 137); HealthcareEntityPropertiesHelper.setLength(healthcareEntity7, 18); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity7, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult = new AnalyzeHealthcareEntitiesResult("1", textDocumentStatistics, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity5, healthcareEntity6, healthcareEntity7))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity1); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity3); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Qualifier"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity2); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.QUALIFIER_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role3, role2))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult; }	HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "ST depressions in the anterior lateral leads");	static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult2() { TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(156, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "six minutes"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 0.87); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 21); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "minimal"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.CONDITION_QUALIFIER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 38); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "ST depressions in the anterior lateral leads"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 46); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 44); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "fatigue"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity5, "Fatigue"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 108); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity6 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity6, "wrist pain"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity6, "Pain in wrist"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity6, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity6, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity6, 120); HealthcareEntityPropertiesHelper.setLength(healthcareEntity6, 10); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity6, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity7 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity7, "anginal equivalent"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity7, "Anginal equivalent"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity7, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity7, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity7, 137); HealthcareEntityPropertiesHelper.setLength(healthcareEntity7, 18); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity7, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult = new AnalyzeHealthcareEntitiesResult("1", textDocumentStatistics, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity5, healthcareEntity6, healthcareEntity7))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity1); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity3); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Qualifier"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity2); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.QUALIFIER_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role3, role2))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult; }	class TestUtils { private static final String DEFAULT_MODEL_VERSION = "2019-10-01"; static final OffsetDateTime TIME_NOW = OffsetDateTime.now(); static final String INVALID_URL = "htttttttps: static final String VALID_HTTPS_LOCALHOST = "https: static final String FAKE_API_KEY = "1234567890"; static final String AZURE_TEXT_ANALYTICS_API_KEY = "AZURE_TEXT_ANALYTICS_API_KEY"; static final String CUSTOM_ACTION_NAME = "customActionName"; static final List<String> CUSTOM_ENTITIES_INPUT = asList( "David Schmidt, senior vice president--Food Safety, International Food Information Council (IFIC), Washington," + " D.C., discussed the physical activity component."); static final List<String> CUSTOM_SINGLE_CLASSIFICATION = asList( "A recent report by the Government Accountability Office (GAO) found that the dramatic increase in oil" + " and natural gas development on federal lands over the past six years has stretched the staff of " + "the BLM to a point that it has been unable to meet its environmental protection responsibilities."); static final List<String> CUSTOM_MULTI_CLASSIFICATION = asList( "I need a reservation for an indoor restaurant in China. Please don't stop the music. Play music and add" + " it to my playlist"); static final List<String> SUMMARY_INPUTS = asList( "At Microsoft, we have been on a quest to advance AI beyond existing techniques, by taking a more holistic," + " human-centric approach to learning and understanding. As Chief Technology Officer of Azure AI " + "Cognitive Services, I have been working with a team of amazing scientists and engineers to turn this" + " quest into a reality. In my role, I enjoy a unique perspective in viewing the relationship among " + "three attributes of human cognition: monolingual text (X), audio or visual sensory signals, (Y) and" + " multilingual (Z). At the intersection of all three, there’s magic—what we call XYZ-code as" + " illustrated in Figure 1—a joint representation to create more powerful AI that can speak, hear, see," + " and understand humans better. We believe XYZ-code will enable us to fulfill our long-term vision:" + " cross-domain transfer learning, spanning modalities and languages. The goal is to have pretrained" + " models that can jointly learn representations to support a broad range of downstream AI tasks, much" + " in the way humans do today. Over the past five years, we have achieved human performance on benchmarks" + " in conversational speech recognition, machine translation, conversational question answering, machine" + " reading comprehension, and image captioning. These five breakthroughs provided us with strong signals" + " toward our more ambitious aspiration to produce a leap in AI capabilities, achieving multisensory and" + " multilingual learning that is closer in line with how humans learn and understand. I believe the joint" + " XYZ-code is a foundational component of this aspiration, if grounded with external knowledge sources" + " in the downstream AI tasks." ); static final List<String> SENTIMENT_INPUTS = asList( "The hotel was dark and unclean. The restaurant had amazing gnocchi.", "The restaurant had amazing gnocchi. The hotel was dark and unclean."); static final List<String> CATEGORIZED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> PII_ENTITY_INPUTS = asList( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", "Your ABA number - 111000025 - is the first 9 digits in the lower left hand corner of your personal check."); static final List<String> LINKED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> KEY_PHRASE_INPUTS = asList( "Hello world. This is some input text that I love.", "Bonjour tout le monde"); static final String TOO_LONG_INPUT = "Thisisaveryveryverylongtextwhichgoesonforalongtimeandwhichalmostdoesn'tseemtostopatanygivenpointintime.ThereasonforthistestistotryandseewhathappenswhenwesubmitaveryveryverylongtexttoLanguage.Thisshouldworkjustfinebutjustincaseitisalwaysgoodtohaveatestcase.ThisallowsustotestwhathappensifitisnotOK.Ofcourseitisgoingtobeokbutthenagainitisalsobettertobesure!"; static final List<String> KEY_PHRASE_FRENCH_INPUTS = asList( "Bonjour tout le monde.", "Je m'appelle Mondly."); static final List<String> DETECT_LANGUAGE_INPUTS = asList( "This is written in English", "Este es un documento escrito en Español.", "~@!~:)"); static final String PII_ENTITY_OFFSET_INPUT = "SSN: 859-98-0987"; static final String SENTIMENT_OFFSET_INPUT = "The hotel was unclean."; static final String HEALTHCARE_ENTITY_OFFSET_INPUT = "The patient is a 54-year-old"; static final List<String> HEALTHCARE_INPUTS = asList( "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , thought due to fatigue and wrist pain , his anginal equivalent."); static final List<String> SPANISH_SAME_AS_ENGLISH_INPUTS = asList("personal", "social"); static final DetectedLanguage DETECTED_LANGUAGE_SPANISH = new DetectedLanguage("Spanish", "es", 1.0, null); static final DetectedLanguage DETECTED_LANGUAGE_ENGLISH = new DetectedLanguage("English", "en", 1.0, null); static final List<DetectedLanguage> DETECT_SPANISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_SPANISH, DETECTED_LANGUAGE_SPANISH); static final List<DetectedLanguage> DETECT_ENGLISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_ENGLISH, DETECTED_LANGUAGE_ENGLISH); static final HttpResponseException HTTP_RESPONSE_EXCEPTION_CLASS = new HttpResponseException("", null); static final String DISPLAY_NAME_WITH_ARGUMENTS = "{displayName} with [{arguments}]"; private static final String AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS = "AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS"; static List<DetectLanguageInput> getDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("1", DETECT_LANGUAGE_INPUTS.get(1), "US"), new DetectLanguageInput("2", DETECT_LANGUAGE_INPUTS.get(2), "US") ); } static List<DetectLanguageInput> getDuplicateIdDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US") ); } static List<TextDocumentInput> getDuplicateTextDocumentInputs() { return asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)) ); } static List<TextDocumentInput> getWarningsTextDocumentInputs() { return asList( new TextDocumentInput("0", TOO_LONG_INPUT), new TextDocumentInput("1", CATEGORIZED_ENTITY_INPUTS.get(1)) ); } static List<TextDocumentInput> getTextDocumentInputs(List<String> inputs) { return IntStream.range(0, inputs.size()) .mapToObj(index -> new TextDocumentInput(String.valueOf(index), inputs.get(index))) .collect(Collectors.toList()); } /** * Helper method to get the expected Batch Detected Languages * * @return A {@link DetectLanguageResultCollection}. / static DetectLanguageResultCollection getExpectedBatchDetectedLanguages() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(3, 3, 0, 3); final List<DetectLanguageResult> detectLanguageResultList = asList( new DetectLanguageResult("0", new TextDocumentStatistics(26, 1), null, getDetectedLanguageEnglish()), new DetectLanguageResult("1", new TextDocumentStatistics(40, 1), null, getDetectedLanguageSpanish()), new DetectLanguageResult("2", new TextDocumentStatistics(6, 1), null, getUnknownDetectedLanguage())); return new DetectLanguageResultCollection(detectLanguageResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } static DetectedLanguage getDetectedLanguageEnglish() { return new DetectedLanguage("English", "en", 0.0, null); } static DetectedLanguage getDetectedLanguageSpanish() { return new DetectedLanguage("Spanish", "es", 0.0, null); } static DetectedLanguage getUnknownDetectedLanguage() { return new DetectedLanguage("(Unknown)", "(Unknown)", 0.0, null); } /* * Helper method to get the expected Batch Categorized Entities * * @return A {@link RecognizeEntitiesResultCollection}. / static RecognizeEntitiesResultCollection getExpectedBatchCategorizedEntities() { return new RecognizeEntitiesResultCollection( asList(getExpectedBatchCategorizedEntities1(), getExpectedBatchCategorizedEntities2()), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method to get the expected Categorized Entities List 1 / static List<CategorizedEntity> getCategorizedEntitiesList1() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("trip", EntityCategory.EVENT, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 18); CategorizedEntity categorizedEntity2 = new CategorizedEntity("Seattle", EntityCategory.LOCATION, "GPE", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 26); CategorizedEntity categorizedEntity3 = new CategorizedEntity("last week", EntityCategory.DATE_TIME, "DateRange", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 34); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3); } /* * Helper method to get the expected Categorized Entities List 2 / static List<CategorizedEntity> getCategorizedEntitiesList2() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 10); return asList(categorizedEntity1); } /* * Helper method to get the expected Categorized entity result for PII document input. / static List<CategorizedEntity> getCategorizedEntitiesForPiiInput() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 0); CategorizedEntity categorizedEntity2 = new CategorizedEntity("employee", EntityCategory.PERSON_TYPE, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 10); CategorizedEntity categorizedEntity3 = new CategorizedEntity("859", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 28); CategorizedEntity categorizedEntity4 = new CategorizedEntity("98", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity4, 32); CategorizedEntity categorizedEntity5 = new CategorizedEntity("0987", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity5, 35); CategorizedEntity categorizedEntity6 = new CategorizedEntity("API", EntityCategory.SKILL, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity6, 61); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3, categorizedEntity4, categorizedEntity5, categorizedEntity6); } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities1() { IterableStream<CategorizedEntity> categorizedEntityList1 = new IterableStream<>(getCategorizedEntitiesList1()); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(44, 1); RecognizeEntitiesResult recognizeEntitiesResult1 = new RecognizeEntitiesResult("0", textDocumentStatistics1, null, new CategorizedEntityCollection(categorizedEntityList1, null)); return recognizeEntitiesResult1; } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities2() { IterableStream<CategorizedEntity> categorizedEntityList2 = new IterableStream<>(getCategorizedEntitiesList2()); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(20, 1); RecognizeEntitiesResult recognizeEntitiesResult2 = new RecognizeEntitiesResult("1", textDocumentStatistics2, null, new CategorizedEntityCollection(categorizedEntityList2, null)); return recognizeEntitiesResult2; } /* * Helper method to get the expected batch of Personally Identifiable Information entities / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntities() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList2()), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected batch of Personally Identifiable Information entities for domain filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForDomainFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(getPiiEntitiesList1ForDomainFilter()), "****** employee with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(Arrays.asList(getPiiEntitiesList2().get(0), getPiiEntitiesList2().get(1), getPiiEntitiesList2().get(2))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Categorized Entities List 1 / static List<PiiEntity> getPiiEntitiesList1() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "Microsoft"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.ORGANIZATION); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setOffset(piiEntity0, 0); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, "employee"); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.fromString("PersonType")); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setOffset(piiEntity1, 10); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, "859-98-0987"); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setOffset(piiEntity2, 28); return asList(piiEntity0, piiEntity1, piiEntity2); } static List<PiiEntity> getPiiEntitiesList1ForDomainFilter() { return Arrays.asList(getPiiEntitiesList1().get(0), getPiiEntitiesList1().get(2)); } /* * Helper method to get the expected Categorized Entities List 2 / static List<PiiEntity> getPiiEntitiesList2() { String expectedText = "111000025"; final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.PHONE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity0, 0.8); PiiEntityPropertiesHelper.setOffset(piiEntity0, 18); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.ABA_ROUTING_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity1, 0.75); PiiEntityPropertiesHelper.setOffset(piiEntity1, 18); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.NZ_SOCIAL_WELFARE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity2, 0.65); PiiEntityPropertiesHelper.setOffset(piiEntity2, 18); return asList(piiEntity0, piiEntity1, piiEntity2); } /* * Helper method to get the expected batch of Personally Identifiable Information entities for categories filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForCategoriesFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList1().get(2))), "Microsoft employee with ssn ******** is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList2().get(1))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", null, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", null, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Batch Linked Entities * @return A {@link RecognizeLinkedEntitiesResultCollection}. / static RecognizeLinkedEntitiesResultCollection getExpectedBatchLinkedEntities() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); final List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResultList = asList( new RecognizeLinkedEntitiesResult( "0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult( "1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null))); return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected linked Entities List 1 / static List<LinkedEntity> getLinkedEntitiesList1() { final LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Seattle", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 26); LinkedEntity linkedEntity = new LinkedEntity( "Seattle", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Seattle", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "5fbba6b8-85e1-4d41-9444-d9055436e473"); return asList(linkedEntity); } /* * Helper method to get the expected linked Entities List 2 / static List<LinkedEntity> getLinkedEntitiesList2() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 10); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); return asList(linkedEntity); } static List<LinkedEntity> getLinkedEntitiesList3() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 0); LinkedEntityMatch linkedEntityMatch1 = new LinkedEntityMatch("API's", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch1, 61); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); LinkedEntity linkedEntity1 = new LinkedEntity( "Application programming interface", new IterableStream<>(Collections.singletonList(linkedEntityMatch1)), "en", "Application programming interface", "https: "Wikipedia"); return asList(linkedEntity, linkedEntity1); } /* * Helper method to get the expected Batch Key Phrases. / static ExtractKeyPhrasesResultCollection getExpectedBatchKeyPhrases() { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(49, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(21, 1); ExtractKeyPhraseResult extractKeyPhraseResult1 = new ExtractKeyPhraseResult("0", textDocumentStatistics1, null, new KeyPhrasesCollection(new IterableStream<>(asList("Hello world", "input text")), null)); ExtractKeyPhraseResult extractKeyPhraseResult2 = new ExtractKeyPhraseResult("1", textDocumentStatistics2, null, new KeyPhrasesCollection(new IterableStream<>(asList("Bonjour", "monde")), null)); TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); List<ExtractKeyPhraseResult> extractKeyPhraseResultList = asList(extractKeyPhraseResult1, extractKeyPhraseResult2); return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected Batch Text Sentiments / static AnalyzeSentimentResultCollection getExpectedBatchTextSentiment() { final TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(67, 1); final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", textDocumentStatistics, null, getExpectedDocumentSentiment()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", textDocumentStatistics, null, getExpectedDocumentSentiment2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method that get the first expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 14); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 23); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 51); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 4); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 59); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment3))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 31); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 32); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 35); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } /* * Helper method that get the second expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment2() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 50); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 59); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 19); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 27); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment3))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 40); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 35); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 36); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 31); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } / * This is the expected result for testing an input: * "I had a wonderful trip to Seattle last week." / static DocumentSentiment getExpectedDocumentSentimentForActions() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "I had a wonderful trip to Seattle last week.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 44); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } / * This is the expected result for testing an input: * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static DocumentSentiment getExpectedDocumentSentimentForActions2() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 67); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } /* * Helper method that get a single-page {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForSinglePage() { return asList( getExpectedAnalyzeHealthcareEntitiesResultCollection(2, asList(getRecognizeHealthcareEntitiesResult1("0"), getRecognizeHealthcareEntitiesResult2()))); } /* * Helper method that get a multiple-pages {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults1 = new ArrayList<>(); int i = startIndex; for (; i < startIndex + firstPage; i++) { healthcareEntitiesResults1.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults2 = new ArrayList<>(); for (; i < startIndex + firstPage + secondPage; i++) { healthcareEntitiesResults2.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResultCollection> result = new ArrayList<>(); result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(firstPage, healthcareEntitiesResults1)); if (secondPage != 0) { result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(secondPage, healthcareEntitiesResults2)); } return result; } /* * Helper method that get the expected {@link AnalyzeHealthcareEntitiesResultCollection} result. * * @param sizePerPage batch size per page. * @param healthcareEntitiesResults a collection of {@link AnalyzeHealthcareEntitiesResult}. / static AnalyzeHealthcareEntitiesResultCollection getExpectedAnalyzeHealthcareEntitiesResultCollection( int sizePerPage, List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults) { TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics( sizePerPage, sizePerPage, 0, sizePerPage); final AnalyzeHealthcareEntitiesResultCollection analyzeHealthcareEntitiesResultCollection = new AnalyzeHealthcareEntitiesResultCollection(IterableStream.of(healthcareEntitiesResults)); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setModelVersion(analyzeHealthcareEntitiesResultCollection, "2020-09-03"); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setStatistics(analyzeHealthcareEntitiesResultCollection, textDocumentBatchStatistics); return analyzeHealthcareEntitiesResultCollection; } /* * Result for * "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", / static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult1(String documentId) { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(105, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "54-year-old"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.AGE); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 17); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "gentleman"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity2, "Male population group"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.GENDER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 29); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 9); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "progressive"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.fromString("Course")); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 0.91); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 57); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity4 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity4, "angina"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity4, "Angina Pectoris"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity4, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity4, 0.81); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity4, 69); HealthcareEntityPropertiesHelper.setLength(healthcareEntity4, 6); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "past several months"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 85); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 19); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult1 = new AnalyzeHealthcareEntitiesResult(documentId, textDocumentStatistics1, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult1, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity4, healthcareEntity5))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Course"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity3); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity4); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.fromString("CourseOfCondition")); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity5); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role2, role3))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult1, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult1; } /* * Result for * "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , * thought due to fatigue and wrist pain , his anginal equivalent." / /* * RecognizeEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollection() { return new RecognizeEntitiesResultCollection( asList(new RecognizeEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesList1()), null)), new RecognizeEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null)) ), "2020-04-01", new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * RecognizePiiEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollection() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "last week"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.fromString("DateTime")); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, "DateRange"); PiiEntityPropertiesHelper.setOffset(piiEntity0, 34); return new RecognizePiiEntitiesResultCollection( asList( new RecognizePiiEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new PiiEntityCollection(new IterableStream<>(Arrays.asList(piiEntity0)), "I had a wonderful trip to Seattle ******.", null)), new RecognizePiiEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "***** **** with ssn ******* is using our awesome API's.", null))), "2020-07-01", new TextDocumentBatchStatistics(2, 2, 0, 2) ); } / * ExtractKeyPhrasesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollection() { return new ExtractKeyPhrasesResultCollection( asList(new ExtractKeyPhraseResult("0", new TextDocumentStatistics(44, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("wonderful trip", "Seattle")), null)), new ExtractKeyPhraseResult("1", new TextDocumentStatistics(67, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollection() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForActions() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForActions() { final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", null, null, getExpectedDocumentSentimentForActions()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", null, null, getExpectedDocumentSentimentForActions2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeEntitiesActionResult getExpectedRecognizeEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeEntitiesActionResult actionResult = new RecognizeEntitiesActionResult(); RecognizeEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizePiiEntitiesActionResult getExpectedRecognizePiiEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, RecognizePiiEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizePiiEntitiesActionResult actionResult = new RecognizePiiEntitiesActionResult(); RecognizePiiEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static ExtractKeyPhrasesActionResult getExpectedExtractKeyPhrasesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, ExtractKeyPhrasesResultCollection resultCollection, TextAnalyticsError actionError) { ExtractKeyPhrasesActionResult actionResult = new ExtractKeyPhrasesActionResult(); ExtractKeyPhrasesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizeLinkedEntitiesActionResult getExpectedRecognizeLinkedEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeLinkedEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeLinkedEntitiesActionResult actionResult = new RecognizeLinkedEntitiesActionResult(); RecognizeLinkedEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static AnalyzeSentimentActionResult getExpectedAnalyzeSentimentActionResult(boolean isError, String actionName, OffsetDateTime completeAt, AnalyzeSentimentResultCollection resultCollection, TextAnalyticsError actionError) { AnalyzeSentimentActionResult actionResult = new AnalyzeSentimentActionResult(); AnalyzeSentimentActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } /* * Helper method that get the expected AnalyzeBatchActionsResult result. / static AnalyzeActionsResult getExpectedAnalyzeBatchActionsResult( IterableStream<RecognizeEntitiesActionResult> recognizeEntitiesActionResults, IterableStream<RecognizeLinkedEntitiesActionResult> recognizeLinkedEntitiesActionResults, IterableStream<RecognizePiiEntitiesActionResult> recognizePiiEntitiesActionResults, IterableStream<ExtractKeyPhrasesActionResult> extractKeyPhrasesActionResults, IterableStream<AnalyzeSentimentActionResult> analyzeSentimentActionResults) { final AnalyzeActionsResult analyzeActionsResult = new AnalyzeActionsResult(); AnalyzeActionsResultPropertiesHelper.setRecognizeEntitiesResults(analyzeActionsResult, recognizeEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizePiiEntitiesResults(analyzeActionsResult, recognizePiiEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setExtractKeyPhrasesResults(analyzeActionsResult, extractKeyPhrasesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizeLinkedEntitiesResults(analyzeActionsResult, recognizeLinkedEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setAnalyzeSentimentResults(analyzeActionsResult, analyzeSentimentActionResults); return analyzeActionsResult; } /* * CategorizedEntityCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizeEntitiesResult> recognizeEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeEntitiesResults.add(new RecognizeEntitiesResult(Integer.toString(i), null, null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null))); } return new RecognizeEntitiesResultCollection(recognizeEntitiesResults, "2020-04-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizePiiEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizePiiEntitiesResult> recognizePiiEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizePiiEntitiesResults.add(new RecognizePiiEntitiesResult(Integer.toString(i), null, null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null))); } return new RecognizePiiEntitiesResultCollection(recognizePiiEntitiesResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } / * ExtractKeyPhrasesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollectionForPagination(int startIndex, int documentCount) { List<ExtractKeyPhraseResult> extractKeyPhraseResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { extractKeyPhraseResults.add(new ExtractKeyPhraseResult(Integer.toString(i), null, null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))); } return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizeLinkedEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForPagination( int startIndex, int documentCount) { List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeLinkedEntitiesResults.add(new RecognizeLinkedEntitiesResult(Integer.toString(i), null, null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null))); } return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * AnalyzeSentimentResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForPagination( int startIndex, int documentCount) { List<AnalyzeSentimentResult> analyzeSentimentResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { analyzeSentimentResults.add(new AnalyzeSentimentResult(Integer.toString(i), null, null, getExpectedDocumentSentimentForActions2())); } return new AnalyzeSentimentResultCollection(analyzeSentimentResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * Helper method that get a multiple-pages (AnalyzeActionsResult) list. / static List<AnalyzeActionsResult> getExpectedAnalyzeActionsResultListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeActionsResult> analyzeActionsResults = new ArrayList<>(); analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, firstPage), null))) )); startIndex += firstPage; analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, secondPage), null))) )); return analyzeActionsResults; } /* * Helper method that get a customized TextAnalyticsError. / static TextAnalyticsError getActionError(TextAnalyticsErrorCode errorCode, String taskName, String index) { return new TextAnalyticsError(errorCode, "", " } /* * Returns a stream of arguments that includes all combinations of eligible {@link HttpClient HttpClients} and * service versions that should be tested. * * @return A stream of HttpClient and service version combinations to test. / static Stream<Arguments> getTestParameters() { List<Arguments> argumentsList = new ArrayList<>(); getHttpClients() .forEach(httpClient -> { Arrays.stream(TextAnalyticsServiceVersion.values()).filter( TestUtils::shouldServiceVersionBeTested) .forEach(serviceVersion -> argumentsList.add(Arguments.of(httpClient, serviceVersion))); }); return argumentsList.stream(); } /* * Returns whether the given service version match the rules of test framework. * * <ul> * <li>Using latest service version as default if no environment variable is set.</li> * <li>If it's set to ALL, all Service versions in {@link TextAnalyticsServiceVersion} will be tested.</li> * <li>Otherwise, Service version string should match env variable.</li> * </ul> * * Environment values currently supported are: "ALL", "${version}". * Use comma to separate http clients want to test. * e.g. {@code set AZURE_TEST_SERVICE_VERSIONS = V1_0, V2_0} * * @param serviceVersion ServiceVersion needs to check * @return Boolean indicates whether filters out the service version or not. */ private static boolean shouldServiceVersionBeTested(TextAnalyticsServiceVersion serviceVersion) { String serviceVersionFromEnv = Configuration.getGlobalConfiguration().get(AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS); if (CoreUtils.isNullOrEmpty(serviceVersionFromEnv)) { return TextAnalyticsServiceVersion.getLatest().equals(serviceVersion); } if (AZURE_TEST_SERVICE_VERSIONS_VALUE_ALL.equalsIgnoreCase(serviceVersionFromEnv)) { return true; } String[] configuredServiceVersionList = serviceVersionFromEnv.split(","); return Arrays.stream(configuredServiceVersionList).anyMatch(configuredServiceVersion -> serviceVersion.getVersion().equals(configuredServiceVersion.trim())); } private TestUtils() { } }	class TestUtils { private static final String DEFAULT_MODEL_VERSION = "2019-10-01"; static final OffsetDateTime TIME_NOW = OffsetDateTime.now(); static final String INVALID_URL = "htttttttps: static final String VALID_HTTPS_LOCALHOST = "https: static final String FAKE_API_KEY = "1234567890"; static final String AZURE_TEXT_ANALYTICS_API_KEY = "AZURE_TEXT_ANALYTICS_API_KEY"; static final String CUSTOM_ACTION_NAME = "customActionName"; static final List<String> CUSTOM_ENTITIES_INPUT = asList( "David Schmidt, senior vice president--Food Safety, International Food Information Council (IFIC), Washington," + " D.C., discussed the physical activity component."); static final List<String> CUSTOM_SINGLE_CLASSIFICATION = asList( "A recent report by the Government Accountability Office (GAO) found that the dramatic increase in oil" + " and natural gas development on federal lands over the past six years has stretched the staff of " + "the BLM to a point that it has been unable to meet its environmental protection responsibilities."); static final List<String> CUSTOM_MULTI_CLASSIFICATION = asList( "I need a reservation for an indoor restaurant in China. Please don't stop the music. Play music and add" + " it to my playlist"); static final List<String> SUMMARY_INPUTS = asList( "At Microsoft, we have been on a quest to advance AI beyond existing techniques, by taking a more holistic," + " human-centric approach to learning and understanding. As Chief Technology Officer of Azure AI " + "Cognitive Services, I have been working with a team of amazing scientists and engineers to turn this" + " quest into a reality. In my role, I enjoy a unique perspective in viewing the relationship among " + "three attributes of human cognition: monolingual text (X), audio or visual sensory signals, (Y) and" + " multilingual (Z). At the intersection of all three, there’s magic—what we call XYZ-code as" + " illustrated in Figure 1—a joint representation to create more powerful AI that can speak, hear, see," + " and understand humans better. We believe XYZ-code will enable us to fulfill our long-term vision:" + " cross-domain transfer learning, spanning modalities and languages. The goal is to have pretrained" + " models that can jointly learn representations to support a broad range of downstream AI tasks, much" + " in the way humans do today. Over the past five years, we have achieved human performance on benchmarks" + " in conversational speech recognition, machine translation, conversational question answering, machine" + " reading comprehension, and image captioning. These five breakthroughs provided us with strong signals" + " toward our more ambitious aspiration to produce a leap in AI capabilities, achieving multisensory and" + " multilingual learning that is closer in line with how humans learn and understand. I believe the joint" + " XYZ-code is a foundational component of this aspiration, if grounded with external knowledge sources" + " in the downstream AI tasks." ); static final List<String> SENTIMENT_INPUTS = asList( "The hotel was dark and unclean. The restaurant had amazing gnocchi.", "The restaurant had amazing gnocchi. The hotel was dark and unclean."); static final List<String> CATEGORIZED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> PII_ENTITY_INPUTS = asList( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", "Your ABA number - 111000025 - is the first 9 digits in the lower left hand corner of your personal check."); static final List<String> LINKED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> KEY_PHRASE_INPUTS = asList( "Hello world. This is some input text that I love.", "Bonjour tout le monde"); static final String TOO_LONG_INPUT = "Thisisaveryveryverylongtextwhichgoesonforalongtimeandwhichalmostdoesn'tseemtostopatanygivenpointintime.ThereasonforthistestistotryandseewhathappenswhenwesubmitaveryveryverylongtexttoLanguage.Thisshouldworkjustfinebutjustincaseitisalwaysgoodtohaveatestcase.ThisallowsustotestwhathappensifitisnotOK.Ofcourseitisgoingtobeokbutthenagainitisalsobettertobesure!"; static final List<String> KEY_PHRASE_FRENCH_INPUTS = asList( "Bonjour tout le monde.", "Je m'appelle Mondly."); static final List<String> DETECT_LANGUAGE_INPUTS = asList( "This is written in English", "Este es un documento escrito en Español.", "~@!~:)"); static final String PII_ENTITY_OFFSET_INPUT = "SSN: 859-98-0987"; static final String SENTIMENT_OFFSET_INPUT = "The hotel was unclean."; static final String HEALTHCARE_ENTITY_OFFSET_INPUT = "The patient is a 54-year-old"; static final List<String> HEALTHCARE_INPUTS = asList( "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , thought due to fatigue and wrist pain , his anginal equivalent."); static final List<String> SPANISH_SAME_AS_ENGLISH_INPUTS = asList("personal", "social"); static final DetectedLanguage DETECTED_LANGUAGE_SPANISH = new DetectedLanguage("Spanish", "es", 1.0, null); static final DetectedLanguage DETECTED_LANGUAGE_ENGLISH = new DetectedLanguage("English", "en", 1.0, null); static final List<DetectedLanguage> DETECT_SPANISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_SPANISH, DETECTED_LANGUAGE_SPANISH); static final List<DetectedLanguage> DETECT_ENGLISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_ENGLISH, DETECTED_LANGUAGE_ENGLISH); static final HttpResponseException HTTP_RESPONSE_EXCEPTION_CLASS = new HttpResponseException("", null); static final String DISPLAY_NAME_WITH_ARGUMENTS = "{displayName} with [{arguments}]"; private static final String AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS = "AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS"; static List<DetectLanguageInput> getDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("1", DETECT_LANGUAGE_INPUTS.get(1), "US"), new DetectLanguageInput("2", DETECT_LANGUAGE_INPUTS.get(2), "US") ); } static List<DetectLanguageInput> getDuplicateIdDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US") ); } static List<TextDocumentInput> getDuplicateTextDocumentInputs() { return asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)) ); } static List<TextDocumentInput> getWarningsTextDocumentInputs() { return asList( new TextDocumentInput("0", TOO_LONG_INPUT), new TextDocumentInput("1", CATEGORIZED_ENTITY_INPUTS.get(1)) ); } static List<TextDocumentInput> getTextDocumentInputs(List<String> inputs) { return IntStream.range(0, inputs.size()) .mapToObj(index -> new TextDocumentInput(String.valueOf(index), inputs.get(index))) .collect(Collectors.toList()); } /** * Helper method to get the expected Batch Detected Languages * * @return A {@link DetectLanguageResultCollection}. / static DetectLanguageResultCollection getExpectedBatchDetectedLanguages() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(3, 3, 0, 3); final List<DetectLanguageResult> detectLanguageResultList = asList( new DetectLanguageResult("0", new TextDocumentStatistics(26, 1), null, getDetectedLanguageEnglish()), new DetectLanguageResult("1", new TextDocumentStatistics(40, 1), null, getDetectedLanguageSpanish()), new DetectLanguageResult("2", new TextDocumentStatistics(6, 1), null, getUnknownDetectedLanguage())); return new DetectLanguageResultCollection(detectLanguageResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } static DetectedLanguage getDetectedLanguageEnglish() { return new DetectedLanguage("English", "en", 0.0, null); } static DetectedLanguage getDetectedLanguageSpanish() { return new DetectedLanguage("Spanish", "es", 0.0, null); } static DetectedLanguage getUnknownDetectedLanguage() { return new DetectedLanguage("(Unknown)", "(Unknown)", 0.0, null); } /* * Helper method to get the expected Batch Categorized Entities * * @return A {@link RecognizeEntitiesResultCollection}. / static RecognizeEntitiesResultCollection getExpectedBatchCategorizedEntities() { return new RecognizeEntitiesResultCollection( asList(getExpectedBatchCategorizedEntities1(), getExpectedBatchCategorizedEntities2()), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method to get the expected Categorized Entities List 1 / static List<CategorizedEntity> getCategorizedEntitiesList1() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("trip", EntityCategory.EVENT, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 18); CategorizedEntity categorizedEntity2 = new CategorizedEntity("Seattle", EntityCategory.LOCATION, "GPE", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 26); CategorizedEntity categorizedEntity3 = new CategorizedEntity("last week", EntityCategory.DATE_TIME, "DateRange", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 34); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3); } /* * Helper method to get the expected Categorized Entities List 2 / static List<CategorizedEntity> getCategorizedEntitiesList2() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 10); return asList(categorizedEntity1); } /* * Helper method to get the expected Categorized entity result for PII document input. / static List<CategorizedEntity> getCategorizedEntitiesForPiiInput() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 0); CategorizedEntity categorizedEntity2 = new CategorizedEntity("employee", EntityCategory.PERSON_TYPE, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 10); CategorizedEntity categorizedEntity3 = new CategorizedEntity("859", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 28); CategorizedEntity categorizedEntity4 = new CategorizedEntity("98", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity4, 32); CategorizedEntity categorizedEntity5 = new CategorizedEntity("0987", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity5, 35); CategorizedEntity categorizedEntity6 = new CategorizedEntity("API", EntityCategory.SKILL, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity6, 61); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3, categorizedEntity4, categorizedEntity5, categorizedEntity6); } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities1() { IterableStream<CategorizedEntity> categorizedEntityList1 = new IterableStream<>(getCategorizedEntitiesList1()); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(44, 1); RecognizeEntitiesResult recognizeEntitiesResult1 = new RecognizeEntitiesResult("0", textDocumentStatistics1, null, new CategorizedEntityCollection(categorizedEntityList1, null)); return recognizeEntitiesResult1; } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities2() { IterableStream<CategorizedEntity> categorizedEntityList2 = new IterableStream<>(getCategorizedEntitiesList2()); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(20, 1); RecognizeEntitiesResult recognizeEntitiesResult2 = new RecognizeEntitiesResult("1", textDocumentStatistics2, null, new CategorizedEntityCollection(categorizedEntityList2, null)); return recognizeEntitiesResult2; } /* * Helper method to get the expected batch of Personally Identifiable Information entities / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntities() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList2()), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected batch of Personally Identifiable Information entities for domain filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForDomainFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(getPiiEntitiesList1ForDomainFilter()), "****** employee with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(Arrays.asList(getPiiEntitiesList2().get(0), getPiiEntitiesList2().get(1), getPiiEntitiesList2().get(2))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Categorized Entities List 1 / static List<PiiEntity> getPiiEntitiesList1() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "Microsoft"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.ORGANIZATION); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setOffset(piiEntity0, 0); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, "employee"); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.fromString("PersonType")); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setOffset(piiEntity1, 10); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, "859-98-0987"); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setOffset(piiEntity2, 28); return asList(piiEntity0, piiEntity1, piiEntity2); } static List<PiiEntity> getPiiEntitiesList1ForDomainFilter() { return Arrays.asList(getPiiEntitiesList1().get(0), getPiiEntitiesList1().get(2)); } /* * Helper method to get the expected Categorized Entities List 2 / static List<PiiEntity> getPiiEntitiesList2() { String expectedText = "111000025"; final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.PHONE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity0, 0.8); PiiEntityPropertiesHelper.setOffset(piiEntity0, 18); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.ABA_ROUTING_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity1, 0.75); PiiEntityPropertiesHelper.setOffset(piiEntity1, 18); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.NZ_SOCIAL_WELFARE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity2, 0.65); PiiEntityPropertiesHelper.setOffset(piiEntity2, 18); return asList(piiEntity0, piiEntity1, piiEntity2); } /* * Helper method to get the expected batch of Personally Identifiable Information entities for categories filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForCategoriesFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList1().get(2))), "Microsoft employee with ssn ******** is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList2().get(1))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", null, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", null, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Batch Linked Entities * @return A {@link RecognizeLinkedEntitiesResultCollection}. / static RecognizeLinkedEntitiesResultCollection getExpectedBatchLinkedEntities() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); final List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResultList = asList( new RecognizeLinkedEntitiesResult( "0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult( "1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null))); return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected linked Entities List 1 / static List<LinkedEntity> getLinkedEntitiesList1() { final LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Seattle", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 26); LinkedEntity linkedEntity = new LinkedEntity( "Seattle", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Seattle", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "5fbba6b8-85e1-4d41-9444-d9055436e473"); return asList(linkedEntity); } /* * Helper method to get the expected linked Entities List 2 / static List<LinkedEntity> getLinkedEntitiesList2() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 10); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); return asList(linkedEntity); } static List<LinkedEntity> getLinkedEntitiesList3() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 0); LinkedEntityMatch linkedEntityMatch1 = new LinkedEntityMatch("API's", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch1, 61); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); LinkedEntity linkedEntity1 = new LinkedEntity( "Application programming interface", new IterableStream<>(Collections.singletonList(linkedEntityMatch1)), "en", "Application programming interface", "https: "Wikipedia"); return asList(linkedEntity, linkedEntity1); } /* * Helper method to get the expected Batch Key Phrases. / static ExtractKeyPhrasesResultCollection getExpectedBatchKeyPhrases() { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(49, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(21, 1); ExtractKeyPhraseResult extractKeyPhraseResult1 = new ExtractKeyPhraseResult("0", textDocumentStatistics1, null, new KeyPhrasesCollection(new IterableStream<>(asList("Hello world", "input text")), null)); ExtractKeyPhraseResult extractKeyPhraseResult2 = new ExtractKeyPhraseResult("1", textDocumentStatistics2, null, new KeyPhrasesCollection(new IterableStream<>(asList("Bonjour", "monde")), null)); TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); List<ExtractKeyPhraseResult> extractKeyPhraseResultList = asList(extractKeyPhraseResult1, extractKeyPhraseResult2); return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected Batch Text Sentiments / static AnalyzeSentimentResultCollection getExpectedBatchTextSentiment() { final TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(67, 1); final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", textDocumentStatistics, null, getExpectedDocumentSentiment()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", textDocumentStatistics, null, getExpectedDocumentSentiment2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method that get the first expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 14); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 23); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 51); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 4); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 59); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment3))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 31); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 32); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 35); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } /* * Helper method that get the second expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment2() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 50); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 59); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 19); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 27); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment3))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 40); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 35); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 36); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 31); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } / * This is the expected result for testing an input: * "I had a wonderful trip to Seattle last week." / static DocumentSentiment getExpectedDocumentSentimentForActions() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "I had a wonderful trip to Seattle last week.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 44); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } / * This is the expected result for testing an input: * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static DocumentSentiment getExpectedDocumentSentimentForActions2() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 67); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } /* * Helper method that get a single-page {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForSinglePage() { return asList( getExpectedAnalyzeHealthcareEntitiesResultCollection(2, asList(getRecognizeHealthcareEntitiesResult1("0"), getRecognizeHealthcareEntitiesResult2()))); } /* * Helper method that get a multiple-pages {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults1 = new ArrayList<>(); int i = startIndex; for (; i < startIndex + firstPage; i++) { healthcareEntitiesResults1.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults2 = new ArrayList<>(); for (; i < startIndex + firstPage + secondPage; i++) { healthcareEntitiesResults2.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResultCollection> result = new ArrayList<>(); result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(firstPage, healthcareEntitiesResults1)); if (secondPage != 0) { result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(secondPage, healthcareEntitiesResults2)); } return result; } /* * Helper method that get the expected {@link AnalyzeHealthcareEntitiesResultCollection} result. * * @param sizePerPage batch size per page. * @param healthcareEntitiesResults a collection of {@link AnalyzeHealthcareEntitiesResult}. / static AnalyzeHealthcareEntitiesResultCollection getExpectedAnalyzeHealthcareEntitiesResultCollection( int sizePerPage, List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults) { TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics( sizePerPage, sizePerPage, 0, sizePerPage); final AnalyzeHealthcareEntitiesResultCollection analyzeHealthcareEntitiesResultCollection = new AnalyzeHealthcareEntitiesResultCollection(IterableStream.of(healthcareEntitiesResults)); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setModelVersion(analyzeHealthcareEntitiesResultCollection, "2020-09-03"); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setStatistics(analyzeHealthcareEntitiesResultCollection, textDocumentBatchStatistics); return analyzeHealthcareEntitiesResultCollection; } /* * Result for * "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", / static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult1(String documentId) { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(105, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "54-year-old"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.AGE); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 17); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "gentleman"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity2, "Male population group"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.GENDER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 29); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 9); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "progressive"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.fromString("Course")); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 0.91); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 57); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity4 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity4, "angina"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity4, "Angina Pectoris"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity4, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity4, 0.81); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity4, 69); HealthcareEntityPropertiesHelper.setLength(healthcareEntity4, 6); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "past several months"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 85); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 19); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult1 = new AnalyzeHealthcareEntitiesResult(documentId, textDocumentStatistics1, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult1, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity4, healthcareEntity5))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Course"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity3); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity4); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.fromString("CourseOfCondition")); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity5); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role2, role3))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult1, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult1; } /* * Result for * "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , * thought due to fatigue and wrist pain , his anginal equivalent." / /* * RecognizeEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollection() { return new RecognizeEntitiesResultCollection( asList(new RecognizeEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesList1()), null)), new RecognizeEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null)) ), "2020-04-01", new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * RecognizePiiEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollection() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "last week"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.fromString("DateTime")); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, "DateRange"); PiiEntityPropertiesHelper.setOffset(piiEntity0, 34); return new RecognizePiiEntitiesResultCollection( asList( new RecognizePiiEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new PiiEntityCollection(new IterableStream<>(Arrays.asList(piiEntity0)), "I had a wonderful trip to Seattle ******.", null)), new RecognizePiiEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "***** **** with ssn ******* is using our awesome API's.", null))), "2020-07-01", new TextDocumentBatchStatistics(2, 2, 0, 2) ); } / * ExtractKeyPhrasesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollection() { return new ExtractKeyPhrasesResultCollection( asList(new ExtractKeyPhraseResult("0", new TextDocumentStatistics(44, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("wonderful trip", "Seattle")), null)), new ExtractKeyPhraseResult("1", new TextDocumentStatistics(67, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollection() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForActions() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForActions() { final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", null, null, getExpectedDocumentSentimentForActions()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", null, null, getExpectedDocumentSentimentForActions2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeEntitiesActionResult getExpectedRecognizeEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeEntitiesActionResult actionResult = new RecognizeEntitiesActionResult(); RecognizeEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizePiiEntitiesActionResult getExpectedRecognizePiiEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, RecognizePiiEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizePiiEntitiesActionResult actionResult = new RecognizePiiEntitiesActionResult(); RecognizePiiEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static ExtractKeyPhrasesActionResult getExpectedExtractKeyPhrasesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, ExtractKeyPhrasesResultCollection resultCollection, TextAnalyticsError actionError) { ExtractKeyPhrasesActionResult actionResult = new ExtractKeyPhrasesActionResult(); ExtractKeyPhrasesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizeLinkedEntitiesActionResult getExpectedRecognizeLinkedEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeLinkedEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeLinkedEntitiesActionResult actionResult = new RecognizeLinkedEntitiesActionResult(); RecognizeLinkedEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static AnalyzeSentimentActionResult getExpectedAnalyzeSentimentActionResult(boolean isError, String actionName, OffsetDateTime completeAt, AnalyzeSentimentResultCollection resultCollection, TextAnalyticsError actionError) { AnalyzeSentimentActionResult actionResult = new AnalyzeSentimentActionResult(); AnalyzeSentimentActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } /* * Helper method that get the expected AnalyzeBatchActionsResult result. / static AnalyzeActionsResult getExpectedAnalyzeBatchActionsResult( IterableStream<RecognizeEntitiesActionResult> recognizeEntitiesActionResults, IterableStream<RecognizeLinkedEntitiesActionResult> recognizeLinkedEntitiesActionResults, IterableStream<RecognizePiiEntitiesActionResult> recognizePiiEntitiesActionResults, IterableStream<ExtractKeyPhrasesActionResult> extractKeyPhrasesActionResults, IterableStream<AnalyzeSentimentActionResult> analyzeSentimentActionResults) { final AnalyzeActionsResult analyzeActionsResult = new AnalyzeActionsResult(); AnalyzeActionsResultPropertiesHelper.setRecognizeEntitiesResults(analyzeActionsResult, recognizeEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizePiiEntitiesResults(analyzeActionsResult, recognizePiiEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setExtractKeyPhrasesResults(analyzeActionsResult, extractKeyPhrasesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizeLinkedEntitiesResults(analyzeActionsResult, recognizeLinkedEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setAnalyzeSentimentResults(analyzeActionsResult, analyzeSentimentActionResults); return analyzeActionsResult; } /* * CategorizedEntityCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizeEntitiesResult> recognizeEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeEntitiesResults.add(new RecognizeEntitiesResult(Integer.toString(i), null, null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null))); } return new RecognizeEntitiesResultCollection(recognizeEntitiesResults, "2020-04-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizePiiEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizePiiEntitiesResult> recognizePiiEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizePiiEntitiesResults.add(new RecognizePiiEntitiesResult(Integer.toString(i), null, null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null))); } return new RecognizePiiEntitiesResultCollection(recognizePiiEntitiesResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } / * ExtractKeyPhrasesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollectionForPagination(int startIndex, int documentCount) { List<ExtractKeyPhraseResult> extractKeyPhraseResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { extractKeyPhraseResults.add(new ExtractKeyPhraseResult(Integer.toString(i), null, null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))); } return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizeLinkedEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForPagination( int startIndex, int documentCount) { List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeLinkedEntitiesResults.add(new RecognizeLinkedEntitiesResult(Integer.toString(i), null, null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null))); } return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * AnalyzeSentimentResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForPagination( int startIndex, int documentCount) { List<AnalyzeSentimentResult> analyzeSentimentResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { analyzeSentimentResults.add(new AnalyzeSentimentResult(Integer.toString(i), null, null, getExpectedDocumentSentimentForActions2())); } return new AnalyzeSentimentResultCollection(analyzeSentimentResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * Helper method that get a multiple-pages (AnalyzeActionsResult) list. / static List<AnalyzeActionsResult> getExpectedAnalyzeActionsResultListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeActionsResult> analyzeActionsResults = new ArrayList<>(); analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, firstPage), null))) )); startIndex += firstPage; analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, secondPage), null))) )); return analyzeActionsResults; } /* * Helper method that get a customized TextAnalyticsError. / static TextAnalyticsError getActionError(TextAnalyticsErrorCode errorCode, String taskName, String index) { return new TextAnalyticsError(errorCode, "", " } /* * Returns a stream of arguments that includes all combinations of eligible {@link HttpClient HttpClients} and * service versions that should be tested. * * @return A stream of HttpClient and service version combinations to test. / static Stream<Arguments> getTestParameters() { List<Arguments> argumentsList = new ArrayList<>(); getHttpClients() .forEach(httpClient -> { Arrays.stream(TextAnalyticsServiceVersion.values()).filter( TestUtils::shouldServiceVersionBeTested) .forEach(serviceVersion -> argumentsList.add(Arguments.of(httpClient, serviceVersion))); }); return argumentsList.stream(); } /* * Returns whether the given service version match the rules of test framework. * * <ul> * <li>Using latest service version as default if no environment variable is set.</li> * <li>If it's set to ALL, all Service versions in {@link TextAnalyticsServiceVersion} will be tested.</li> * <li>Otherwise, Service version string should match env variable.</li> * </ul> * * Environment values currently supported are: "ALL", "${version}". * Use comma to separate http clients want to test. * e.g. {@code set AZURE_TEST_SERVICE_VERSIONS = V1_0, V2_0} * * @param serviceVersion ServiceVersion needs to check * @return Boolean indicates whether filters out the service version or not. */ private static boolean shouldServiceVersionBeTested(TextAnalyticsServiceVersion serviceVersion) { String serviceVersionFromEnv = Configuration.getGlobalConfiguration().get(AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS); if (CoreUtils.isNullOrEmpty(serviceVersionFromEnv)) { return TextAnalyticsServiceVersion.getLatest().equals(serviceVersion); } if (AZURE_TEST_SERVICE_VERSIONS_VALUE_ALL.equalsIgnoreCase(serviceVersionFromEnv)) { return true; } String[] configuredServiceVersionList = serviceVersionFromEnv.split(","); return Arrays.stream(configuredServiceVersionList).anyMatch(configuredServiceVersion -> serviceVersion.getVersion().equals(configuredServiceVersion.trim())); } private TestUtils() { } }
Yes. I ran the live test to record the response but found it is no longer a valid test.	static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult2() { TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(156, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "six minutes"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 0.87); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 21); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "minimal"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.CONDITION_QUALIFIER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 38); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "ST depressions in the anterior lateral leads"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 46); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 44); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "fatigue"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity5, "Fatigue"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 108); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity6 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity6, "wrist pain"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity6, "Pain in wrist"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity6, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity6, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity6, 120); HealthcareEntityPropertiesHelper.setLength(healthcareEntity6, 10); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity6, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity7 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity7, "anginal equivalent"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity7, "Anginal equivalent"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity7, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity7, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity7, 137); HealthcareEntityPropertiesHelper.setLength(healthcareEntity7, 18); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity7, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult = new AnalyzeHealthcareEntitiesResult("1", textDocumentStatistics, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity5, healthcareEntity6, healthcareEntity7))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity1); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity3); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Qualifier"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity2); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.QUALIFIER_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role3, role2))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult; }	HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "ST depressions in the anterior lateral leads");	static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult2() { TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(156, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "six minutes"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 0.87); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 21); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "minimal"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.CONDITION_QUALIFIER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 38); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "ST depressions in the anterior lateral leads"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 46); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 44); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "fatigue"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity5, "Fatigue"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 108); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 7); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity6 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity6, "wrist pain"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity6, "Pain in wrist"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity6, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity6, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity6, 120); HealthcareEntityPropertiesHelper.setLength(healthcareEntity6, 10); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity6, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity7 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity7, "anginal equivalent"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity7, "Anginal equivalent"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity7, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity7, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity7, 137); HealthcareEntityPropertiesHelper.setLength(healthcareEntity7, 18); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity7, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult = new AnalyzeHealthcareEntitiesResult("1", textDocumentStatistics, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity5, healthcareEntity6, healthcareEntity7))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity1); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity3); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Qualifier"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity2); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.QUALIFIER_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role3, role2))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult; }	class TestUtils { private static final String DEFAULT_MODEL_VERSION = "2019-10-01"; static final OffsetDateTime TIME_NOW = OffsetDateTime.now(); static final String INVALID_URL = "htttttttps: static final String VALID_HTTPS_LOCALHOST = "https: static final String FAKE_API_KEY = "1234567890"; static final String AZURE_TEXT_ANALYTICS_API_KEY = "AZURE_TEXT_ANALYTICS_API_KEY"; static final String CUSTOM_ACTION_NAME = "customActionName"; static final List<String> CUSTOM_ENTITIES_INPUT = asList( "David Schmidt, senior vice president--Food Safety, International Food Information Council (IFIC), Washington," + " D.C., discussed the physical activity component."); static final List<String> CUSTOM_SINGLE_CLASSIFICATION = asList( "A recent report by the Government Accountability Office (GAO) found that the dramatic increase in oil" + " and natural gas development on federal lands over the past six years has stretched the staff of " + "the BLM to a point that it has been unable to meet its environmental protection responsibilities."); static final List<String> CUSTOM_MULTI_CLASSIFICATION = asList( "I need a reservation for an indoor restaurant in China. Please don't stop the music. Play music and add" + " it to my playlist"); static final List<String> SUMMARY_INPUTS = asList( "At Microsoft, we have been on a quest to advance AI beyond existing techniques, by taking a more holistic," + " human-centric approach to learning and understanding. As Chief Technology Officer of Azure AI " + "Cognitive Services, I have been working with a team of amazing scientists and engineers to turn this" + " quest into a reality. In my role, I enjoy a unique perspective in viewing the relationship among " + "three attributes of human cognition: monolingual text (X), audio or visual sensory signals, (Y) and" + " multilingual (Z). At the intersection of all three, there’s magic—what we call XYZ-code as" + " illustrated in Figure 1—a joint representation to create more powerful AI that can speak, hear, see," + " and understand humans better. We believe XYZ-code will enable us to fulfill our long-term vision:" + " cross-domain transfer learning, spanning modalities and languages. The goal is to have pretrained" + " models that can jointly learn representations to support a broad range of downstream AI tasks, much" + " in the way humans do today. Over the past five years, we have achieved human performance on benchmarks" + " in conversational speech recognition, machine translation, conversational question answering, machine" + " reading comprehension, and image captioning. These five breakthroughs provided us with strong signals" + " toward our more ambitious aspiration to produce a leap in AI capabilities, achieving multisensory and" + " multilingual learning that is closer in line with how humans learn and understand. I believe the joint" + " XYZ-code is a foundational component of this aspiration, if grounded with external knowledge sources" + " in the downstream AI tasks." ); static final List<String> SENTIMENT_INPUTS = asList( "The hotel was dark and unclean. The restaurant had amazing gnocchi.", "The restaurant had amazing gnocchi. The hotel was dark and unclean."); static final List<String> CATEGORIZED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> PII_ENTITY_INPUTS = asList( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", "Your ABA number - 111000025 - is the first 9 digits in the lower left hand corner of your personal check."); static final List<String> LINKED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> KEY_PHRASE_INPUTS = asList( "Hello world. This is some input text that I love.", "Bonjour tout le monde"); static final String TOO_LONG_INPUT = "Thisisaveryveryverylongtextwhichgoesonforalongtimeandwhichalmostdoesn'tseemtostopatanygivenpointintime.ThereasonforthistestistotryandseewhathappenswhenwesubmitaveryveryverylongtexttoLanguage.Thisshouldworkjustfinebutjustincaseitisalwaysgoodtohaveatestcase.ThisallowsustotestwhathappensifitisnotOK.Ofcourseitisgoingtobeokbutthenagainitisalsobettertobesure!"; static final List<String> KEY_PHRASE_FRENCH_INPUTS = asList( "Bonjour tout le monde.", "Je m'appelle Mondly."); static final List<String> DETECT_LANGUAGE_INPUTS = asList( "This is written in English", "Este es un documento escrito en Español.", "~@!~:)"); static final String PII_ENTITY_OFFSET_INPUT = "SSN: 859-98-0987"; static final String SENTIMENT_OFFSET_INPUT = "The hotel was unclean."; static final String HEALTHCARE_ENTITY_OFFSET_INPUT = "The patient is a 54-year-old"; static final List<String> HEALTHCARE_INPUTS = asList( "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , thought due to fatigue and wrist pain , his anginal equivalent."); static final List<String> SPANISH_SAME_AS_ENGLISH_INPUTS = asList("personal", "social"); static final DetectedLanguage DETECTED_LANGUAGE_SPANISH = new DetectedLanguage("Spanish", "es", 1.0, null); static final DetectedLanguage DETECTED_LANGUAGE_ENGLISH = new DetectedLanguage("English", "en", 1.0, null); static final List<DetectedLanguage> DETECT_SPANISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_SPANISH, DETECTED_LANGUAGE_SPANISH); static final List<DetectedLanguage> DETECT_ENGLISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_ENGLISH, DETECTED_LANGUAGE_ENGLISH); static final HttpResponseException HTTP_RESPONSE_EXCEPTION_CLASS = new HttpResponseException("", null); static final String DISPLAY_NAME_WITH_ARGUMENTS = "{displayName} with [{arguments}]"; private static final String AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS = "AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS"; static List<DetectLanguageInput> getDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("1", DETECT_LANGUAGE_INPUTS.get(1), "US"), new DetectLanguageInput("2", DETECT_LANGUAGE_INPUTS.get(2), "US") ); } static List<DetectLanguageInput> getDuplicateIdDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US") ); } static List<TextDocumentInput> getDuplicateTextDocumentInputs() { return asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)) ); } static List<TextDocumentInput> getWarningsTextDocumentInputs() { return asList( new TextDocumentInput("0", TOO_LONG_INPUT), new TextDocumentInput("1", CATEGORIZED_ENTITY_INPUTS.get(1)) ); } static List<TextDocumentInput> getTextDocumentInputs(List<String> inputs) { return IntStream.range(0, inputs.size()) .mapToObj(index -> new TextDocumentInput(String.valueOf(index), inputs.get(index))) .collect(Collectors.toList()); } /** * Helper method to get the expected Batch Detected Languages * * @return A {@link DetectLanguageResultCollection}. / static DetectLanguageResultCollection getExpectedBatchDetectedLanguages() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(3, 3, 0, 3); final List<DetectLanguageResult> detectLanguageResultList = asList( new DetectLanguageResult("0", new TextDocumentStatistics(26, 1), null, getDetectedLanguageEnglish()), new DetectLanguageResult("1", new TextDocumentStatistics(40, 1), null, getDetectedLanguageSpanish()), new DetectLanguageResult("2", new TextDocumentStatistics(6, 1), null, getUnknownDetectedLanguage())); return new DetectLanguageResultCollection(detectLanguageResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } static DetectedLanguage getDetectedLanguageEnglish() { return new DetectedLanguage("English", "en", 0.0, null); } static DetectedLanguage getDetectedLanguageSpanish() { return new DetectedLanguage("Spanish", "es", 0.0, null); } static DetectedLanguage getUnknownDetectedLanguage() { return new DetectedLanguage("(Unknown)", "(Unknown)", 0.0, null); } /* * Helper method to get the expected Batch Categorized Entities * * @return A {@link RecognizeEntitiesResultCollection}. / static RecognizeEntitiesResultCollection getExpectedBatchCategorizedEntities() { return new RecognizeEntitiesResultCollection( asList(getExpectedBatchCategorizedEntities1(), getExpectedBatchCategorizedEntities2()), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method to get the expected Categorized Entities List 1 / static List<CategorizedEntity> getCategorizedEntitiesList1() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("trip", EntityCategory.EVENT, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 18); CategorizedEntity categorizedEntity2 = new CategorizedEntity("Seattle", EntityCategory.LOCATION, "GPE", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 26); CategorizedEntity categorizedEntity3 = new CategorizedEntity("last week", EntityCategory.DATE_TIME, "DateRange", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 34); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3); } /* * Helper method to get the expected Categorized Entities List 2 / static List<CategorizedEntity> getCategorizedEntitiesList2() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 10); return asList(categorizedEntity1); } /* * Helper method to get the expected Categorized entity result for PII document input. / static List<CategorizedEntity> getCategorizedEntitiesForPiiInput() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 0); CategorizedEntity categorizedEntity2 = new CategorizedEntity("employee", EntityCategory.PERSON_TYPE, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 10); CategorizedEntity categorizedEntity3 = new CategorizedEntity("859", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 28); CategorizedEntity categorizedEntity4 = new CategorizedEntity("98", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity4, 32); CategorizedEntity categorizedEntity5 = new CategorizedEntity("0987", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity5, 35); CategorizedEntity categorizedEntity6 = new CategorizedEntity("API", EntityCategory.SKILL, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity6, 61); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3, categorizedEntity4, categorizedEntity5, categorizedEntity6); } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities1() { IterableStream<CategorizedEntity> categorizedEntityList1 = new IterableStream<>(getCategorizedEntitiesList1()); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(44, 1); RecognizeEntitiesResult recognizeEntitiesResult1 = new RecognizeEntitiesResult("0", textDocumentStatistics1, null, new CategorizedEntityCollection(categorizedEntityList1, null)); return recognizeEntitiesResult1; } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities2() { IterableStream<CategorizedEntity> categorizedEntityList2 = new IterableStream<>(getCategorizedEntitiesList2()); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(20, 1); RecognizeEntitiesResult recognizeEntitiesResult2 = new RecognizeEntitiesResult("1", textDocumentStatistics2, null, new CategorizedEntityCollection(categorizedEntityList2, null)); return recognizeEntitiesResult2; } /* * Helper method to get the expected batch of Personally Identifiable Information entities / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntities() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList2()), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected batch of Personally Identifiable Information entities for domain filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForDomainFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(getPiiEntitiesList1ForDomainFilter()), "****** employee with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(Arrays.asList(getPiiEntitiesList2().get(0), getPiiEntitiesList2().get(1), getPiiEntitiesList2().get(2))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Categorized Entities List 1 / static List<PiiEntity> getPiiEntitiesList1() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "Microsoft"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.ORGANIZATION); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setOffset(piiEntity0, 0); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, "employee"); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.fromString("PersonType")); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setOffset(piiEntity1, 10); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, "859-98-0987"); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setOffset(piiEntity2, 28); return asList(piiEntity0, piiEntity1, piiEntity2); } static List<PiiEntity> getPiiEntitiesList1ForDomainFilter() { return Arrays.asList(getPiiEntitiesList1().get(0), getPiiEntitiesList1().get(2)); } /* * Helper method to get the expected Categorized Entities List 2 / static List<PiiEntity> getPiiEntitiesList2() { String expectedText = "111000025"; final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.PHONE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity0, 0.8); PiiEntityPropertiesHelper.setOffset(piiEntity0, 18); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.ABA_ROUTING_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity1, 0.75); PiiEntityPropertiesHelper.setOffset(piiEntity1, 18); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.NZ_SOCIAL_WELFARE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity2, 0.65); PiiEntityPropertiesHelper.setOffset(piiEntity2, 18); return asList(piiEntity0, piiEntity1, piiEntity2); } /* * Helper method to get the expected batch of Personally Identifiable Information entities for categories filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForCategoriesFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList1().get(2))), "Microsoft employee with ssn ******** is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList2().get(1))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", null, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", null, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Batch Linked Entities * @return A {@link RecognizeLinkedEntitiesResultCollection}. / static RecognizeLinkedEntitiesResultCollection getExpectedBatchLinkedEntities() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); final List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResultList = asList( new RecognizeLinkedEntitiesResult( "0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult( "1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null))); return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected linked Entities List 1 / static List<LinkedEntity> getLinkedEntitiesList1() { final LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Seattle", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 26); LinkedEntity linkedEntity = new LinkedEntity( "Seattle", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Seattle", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "5fbba6b8-85e1-4d41-9444-d9055436e473"); return asList(linkedEntity); } /* * Helper method to get the expected linked Entities List 2 / static List<LinkedEntity> getLinkedEntitiesList2() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 10); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); return asList(linkedEntity); } static List<LinkedEntity> getLinkedEntitiesList3() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 0); LinkedEntityMatch linkedEntityMatch1 = new LinkedEntityMatch("API's", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch1, 61); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); LinkedEntity linkedEntity1 = new LinkedEntity( "Application programming interface", new IterableStream<>(Collections.singletonList(linkedEntityMatch1)), "en", "Application programming interface", "https: "Wikipedia"); return asList(linkedEntity, linkedEntity1); } /* * Helper method to get the expected Batch Key Phrases. / static ExtractKeyPhrasesResultCollection getExpectedBatchKeyPhrases() { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(49, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(21, 1); ExtractKeyPhraseResult extractKeyPhraseResult1 = new ExtractKeyPhraseResult("0", textDocumentStatistics1, null, new KeyPhrasesCollection(new IterableStream<>(asList("Hello world", "input text")), null)); ExtractKeyPhraseResult extractKeyPhraseResult2 = new ExtractKeyPhraseResult("1", textDocumentStatistics2, null, new KeyPhrasesCollection(new IterableStream<>(asList("Bonjour", "monde")), null)); TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); List<ExtractKeyPhraseResult> extractKeyPhraseResultList = asList(extractKeyPhraseResult1, extractKeyPhraseResult2); return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected Batch Text Sentiments / static AnalyzeSentimentResultCollection getExpectedBatchTextSentiment() { final TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(67, 1); final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", textDocumentStatistics, null, getExpectedDocumentSentiment()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", textDocumentStatistics, null, getExpectedDocumentSentiment2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method that get the first expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 14); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 23); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 51); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 4); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 59); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment3))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 31); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 32); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 35); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } /* * Helper method that get the second expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment2() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 50); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 59); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 19); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 27); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment3))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 40); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 35); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 36); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 31); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } / * This is the expected result for testing an input: * "I had a wonderful trip to Seattle last week." / static DocumentSentiment getExpectedDocumentSentimentForActions() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "I had a wonderful trip to Seattle last week.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 44); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } / * This is the expected result for testing an input: * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static DocumentSentiment getExpectedDocumentSentimentForActions2() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 67); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } /* * Helper method that get a single-page {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForSinglePage() { return asList( getExpectedAnalyzeHealthcareEntitiesResultCollection(2, asList(getRecognizeHealthcareEntitiesResult1("0"), getRecognizeHealthcareEntitiesResult2()))); } /* * Helper method that get a multiple-pages {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults1 = new ArrayList<>(); int i = startIndex; for (; i < startIndex + firstPage; i++) { healthcareEntitiesResults1.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults2 = new ArrayList<>(); for (; i < startIndex + firstPage + secondPage; i++) { healthcareEntitiesResults2.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResultCollection> result = new ArrayList<>(); result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(firstPage, healthcareEntitiesResults1)); if (secondPage != 0) { result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(secondPage, healthcareEntitiesResults2)); } return result; } /* * Helper method that get the expected {@link AnalyzeHealthcareEntitiesResultCollection} result. * * @param sizePerPage batch size per page. * @param healthcareEntitiesResults a collection of {@link AnalyzeHealthcareEntitiesResult}. / static AnalyzeHealthcareEntitiesResultCollection getExpectedAnalyzeHealthcareEntitiesResultCollection( int sizePerPage, List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults) { TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics( sizePerPage, sizePerPage, 0, sizePerPage); final AnalyzeHealthcareEntitiesResultCollection analyzeHealthcareEntitiesResultCollection = new AnalyzeHealthcareEntitiesResultCollection(IterableStream.of(healthcareEntitiesResults)); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setModelVersion(analyzeHealthcareEntitiesResultCollection, "2020-09-03"); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setStatistics(analyzeHealthcareEntitiesResultCollection, textDocumentBatchStatistics); return analyzeHealthcareEntitiesResultCollection; } /* * Result for * "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", / static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult1(String documentId) { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(105, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "54-year-old"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.AGE); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 17); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "gentleman"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity2, "Male population group"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.GENDER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 29); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 9); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "progressive"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.fromString("Course")); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 0.91); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 57); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity4 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity4, "angina"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity4, "Angina Pectoris"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity4, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity4, 0.81); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity4, 69); HealthcareEntityPropertiesHelper.setLength(healthcareEntity4, 6); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "past several months"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 85); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 19); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult1 = new AnalyzeHealthcareEntitiesResult(documentId, textDocumentStatistics1, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult1, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity4, healthcareEntity5))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Course"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity3); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity4); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.fromString("CourseOfCondition")); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity5); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role2, role3))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult1, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult1; } /* * Result for * "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , * thought due to fatigue and wrist pain , his anginal equivalent." / /* * RecognizeEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollection() { return new RecognizeEntitiesResultCollection( asList(new RecognizeEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesList1()), null)), new RecognizeEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null)) ), "2020-04-01", new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * RecognizePiiEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollection() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "last week"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.fromString("DateTime")); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, "DateRange"); PiiEntityPropertiesHelper.setOffset(piiEntity0, 34); return new RecognizePiiEntitiesResultCollection( asList( new RecognizePiiEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new PiiEntityCollection(new IterableStream<>(Arrays.asList(piiEntity0)), "I had a wonderful trip to Seattle ******.", null)), new RecognizePiiEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "***** **** with ssn ******* is using our awesome API's.", null))), "2020-07-01", new TextDocumentBatchStatistics(2, 2, 0, 2) ); } / * ExtractKeyPhrasesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollection() { return new ExtractKeyPhrasesResultCollection( asList(new ExtractKeyPhraseResult("0", new TextDocumentStatistics(44, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("wonderful trip", "Seattle")), null)), new ExtractKeyPhraseResult("1", new TextDocumentStatistics(67, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollection() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForActions() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForActions() { final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", null, null, getExpectedDocumentSentimentForActions()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", null, null, getExpectedDocumentSentimentForActions2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeEntitiesActionResult getExpectedRecognizeEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeEntitiesActionResult actionResult = new RecognizeEntitiesActionResult(); RecognizeEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizePiiEntitiesActionResult getExpectedRecognizePiiEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, RecognizePiiEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizePiiEntitiesActionResult actionResult = new RecognizePiiEntitiesActionResult(); RecognizePiiEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static ExtractKeyPhrasesActionResult getExpectedExtractKeyPhrasesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, ExtractKeyPhrasesResultCollection resultCollection, TextAnalyticsError actionError) { ExtractKeyPhrasesActionResult actionResult = new ExtractKeyPhrasesActionResult(); ExtractKeyPhrasesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizeLinkedEntitiesActionResult getExpectedRecognizeLinkedEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeLinkedEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeLinkedEntitiesActionResult actionResult = new RecognizeLinkedEntitiesActionResult(); RecognizeLinkedEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static AnalyzeSentimentActionResult getExpectedAnalyzeSentimentActionResult(boolean isError, String actionName, OffsetDateTime completeAt, AnalyzeSentimentResultCollection resultCollection, TextAnalyticsError actionError) { AnalyzeSentimentActionResult actionResult = new AnalyzeSentimentActionResult(); AnalyzeSentimentActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } /* * Helper method that get the expected AnalyzeBatchActionsResult result. / static AnalyzeActionsResult getExpectedAnalyzeBatchActionsResult( IterableStream<RecognizeEntitiesActionResult> recognizeEntitiesActionResults, IterableStream<RecognizeLinkedEntitiesActionResult> recognizeLinkedEntitiesActionResults, IterableStream<RecognizePiiEntitiesActionResult> recognizePiiEntitiesActionResults, IterableStream<ExtractKeyPhrasesActionResult> extractKeyPhrasesActionResults, IterableStream<AnalyzeSentimentActionResult> analyzeSentimentActionResults) { final AnalyzeActionsResult analyzeActionsResult = new AnalyzeActionsResult(); AnalyzeActionsResultPropertiesHelper.setRecognizeEntitiesResults(analyzeActionsResult, recognizeEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizePiiEntitiesResults(analyzeActionsResult, recognizePiiEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setExtractKeyPhrasesResults(analyzeActionsResult, extractKeyPhrasesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizeLinkedEntitiesResults(analyzeActionsResult, recognizeLinkedEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setAnalyzeSentimentResults(analyzeActionsResult, analyzeSentimentActionResults); return analyzeActionsResult; } /* * CategorizedEntityCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizeEntitiesResult> recognizeEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeEntitiesResults.add(new RecognizeEntitiesResult(Integer.toString(i), null, null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null))); } return new RecognizeEntitiesResultCollection(recognizeEntitiesResults, "2020-04-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizePiiEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizePiiEntitiesResult> recognizePiiEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizePiiEntitiesResults.add(new RecognizePiiEntitiesResult(Integer.toString(i), null, null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null))); } return new RecognizePiiEntitiesResultCollection(recognizePiiEntitiesResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } / * ExtractKeyPhrasesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollectionForPagination(int startIndex, int documentCount) { List<ExtractKeyPhraseResult> extractKeyPhraseResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { extractKeyPhraseResults.add(new ExtractKeyPhraseResult(Integer.toString(i), null, null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))); } return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizeLinkedEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForPagination( int startIndex, int documentCount) { List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeLinkedEntitiesResults.add(new RecognizeLinkedEntitiesResult(Integer.toString(i), null, null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null))); } return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * AnalyzeSentimentResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForPagination( int startIndex, int documentCount) { List<AnalyzeSentimentResult> analyzeSentimentResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { analyzeSentimentResults.add(new AnalyzeSentimentResult(Integer.toString(i), null, null, getExpectedDocumentSentimentForActions2())); } return new AnalyzeSentimentResultCollection(analyzeSentimentResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * Helper method that get a multiple-pages (AnalyzeActionsResult) list. / static List<AnalyzeActionsResult> getExpectedAnalyzeActionsResultListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeActionsResult> analyzeActionsResults = new ArrayList<>(); analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, firstPage), null))) )); startIndex += firstPage; analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, secondPage), null))) )); return analyzeActionsResults; } /* * Helper method that get a customized TextAnalyticsError. / static TextAnalyticsError getActionError(TextAnalyticsErrorCode errorCode, String taskName, String index) { return new TextAnalyticsError(errorCode, "", " } /* * Returns a stream of arguments that includes all combinations of eligible {@link HttpClient HttpClients} and * service versions that should be tested. * * @return A stream of HttpClient and service version combinations to test. / static Stream<Arguments> getTestParameters() { List<Arguments> argumentsList = new ArrayList<>(); getHttpClients() .forEach(httpClient -> { Arrays.stream(TextAnalyticsServiceVersion.values()).filter( TestUtils::shouldServiceVersionBeTested) .forEach(serviceVersion -> argumentsList.add(Arguments.of(httpClient, serviceVersion))); }); return argumentsList.stream(); } /* * Returns whether the given service version match the rules of test framework. * * <ul> * <li>Using latest service version as default if no environment variable is set.</li> * <li>If it's set to ALL, all Service versions in {@link TextAnalyticsServiceVersion} will be tested.</li> * <li>Otherwise, Service version string should match env variable.</li> * </ul> * * Environment values currently supported are: "ALL", "${version}". * Use comma to separate http clients want to test. * e.g. {@code set AZURE_TEST_SERVICE_VERSIONS = V1_0, V2_0} * * @param serviceVersion ServiceVersion needs to check * @return Boolean indicates whether filters out the service version or not. */ private static boolean shouldServiceVersionBeTested(TextAnalyticsServiceVersion serviceVersion) { String serviceVersionFromEnv = Configuration.getGlobalConfiguration().get(AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS); if (CoreUtils.isNullOrEmpty(serviceVersionFromEnv)) { return TextAnalyticsServiceVersion.getLatest().equals(serviceVersion); } if (AZURE_TEST_SERVICE_VERSIONS_VALUE_ALL.equalsIgnoreCase(serviceVersionFromEnv)) { return true; } String[] configuredServiceVersionList = serviceVersionFromEnv.split(","); return Arrays.stream(configuredServiceVersionList).anyMatch(configuredServiceVersion -> serviceVersion.getVersion().equals(configuredServiceVersion.trim())); } private TestUtils() { } }	class TestUtils { private static final String DEFAULT_MODEL_VERSION = "2019-10-01"; static final OffsetDateTime TIME_NOW = OffsetDateTime.now(); static final String INVALID_URL = "htttttttps: static final String VALID_HTTPS_LOCALHOST = "https: static final String FAKE_API_KEY = "1234567890"; static final String AZURE_TEXT_ANALYTICS_API_KEY = "AZURE_TEXT_ANALYTICS_API_KEY"; static final String CUSTOM_ACTION_NAME = "customActionName"; static final List<String> CUSTOM_ENTITIES_INPUT = asList( "David Schmidt, senior vice president--Food Safety, International Food Information Council (IFIC), Washington," + " D.C., discussed the physical activity component."); static final List<String> CUSTOM_SINGLE_CLASSIFICATION = asList( "A recent report by the Government Accountability Office (GAO) found that the dramatic increase in oil" + " and natural gas development on federal lands over the past six years has stretched the staff of " + "the BLM to a point that it has been unable to meet its environmental protection responsibilities."); static final List<String> CUSTOM_MULTI_CLASSIFICATION = asList( "I need a reservation for an indoor restaurant in China. Please don't stop the music. Play music and add" + " it to my playlist"); static final List<String> SUMMARY_INPUTS = asList( "At Microsoft, we have been on a quest to advance AI beyond existing techniques, by taking a more holistic," + " human-centric approach to learning and understanding. As Chief Technology Officer of Azure AI " + "Cognitive Services, I have been working with a team of amazing scientists and engineers to turn this" + " quest into a reality. In my role, I enjoy a unique perspective in viewing the relationship among " + "three attributes of human cognition: monolingual text (X), audio or visual sensory signals, (Y) and" + " multilingual (Z). At the intersection of all three, there’s magic—what we call XYZ-code as" + " illustrated in Figure 1—a joint representation to create more powerful AI that can speak, hear, see," + " and understand humans better. We believe XYZ-code will enable us to fulfill our long-term vision:" + " cross-domain transfer learning, spanning modalities and languages. The goal is to have pretrained" + " models that can jointly learn representations to support a broad range of downstream AI tasks, much" + " in the way humans do today. Over the past five years, we have achieved human performance on benchmarks" + " in conversational speech recognition, machine translation, conversational question answering, machine" + " reading comprehension, and image captioning. These five breakthroughs provided us with strong signals" + " toward our more ambitious aspiration to produce a leap in AI capabilities, achieving multisensory and" + " multilingual learning that is closer in line with how humans learn and understand. I believe the joint" + " XYZ-code is a foundational component of this aspiration, if grounded with external knowledge sources" + " in the downstream AI tasks." ); static final List<String> SENTIMENT_INPUTS = asList( "The hotel was dark and unclean. The restaurant had amazing gnocchi.", "The restaurant had amazing gnocchi. The hotel was dark and unclean."); static final List<String> CATEGORIZED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> PII_ENTITY_INPUTS = asList( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", "Your ABA number - 111000025 - is the first 9 digits in the lower left hand corner of your personal check."); static final List<String> LINKED_ENTITY_INPUTS = asList( "I had a wonderful trip to Seattle last week.", "I work at Microsoft."); static final List<String> KEY_PHRASE_INPUTS = asList( "Hello world. This is some input text that I love.", "Bonjour tout le monde"); static final String TOO_LONG_INPUT = "Thisisaveryveryverylongtextwhichgoesonforalongtimeandwhichalmostdoesn'tseemtostopatanygivenpointintime.ThereasonforthistestistotryandseewhathappenswhenwesubmitaveryveryverylongtexttoLanguage.Thisshouldworkjustfinebutjustincaseitisalwaysgoodtohaveatestcase.ThisallowsustotestwhathappensifitisnotOK.Ofcourseitisgoingtobeokbutthenagainitisalsobettertobesure!"; static final List<String> KEY_PHRASE_FRENCH_INPUTS = asList( "Bonjour tout le monde.", "Je m'appelle Mondly."); static final List<String> DETECT_LANGUAGE_INPUTS = asList( "This is written in English", "Este es un documento escrito en Español.", "~@!~:)"); static final String PII_ENTITY_OFFSET_INPUT = "SSN: 859-98-0987"; static final String SENTIMENT_OFFSET_INPUT = "The hotel was unclean."; static final String HEALTHCARE_ENTITY_OFFSET_INPUT = "The patient is a 54-year-old"; static final List<String> HEALTHCARE_INPUTS = asList( "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , thought due to fatigue and wrist pain , his anginal equivalent."); static final List<String> SPANISH_SAME_AS_ENGLISH_INPUTS = asList("personal", "social"); static final DetectedLanguage DETECTED_LANGUAGE_SPANISH = new DetectedLanguage("Spanish", "es", 1.0, null); static final DetectedLanguage DETECTED_LANGUAGE_ENGLISH = new DetectedLanguage("English", "en", 1.0, null); static final List<DetectedLanguage> DETECT_SPANISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_SPANISH, DETECTED_LANGUAGE_SPANISH); static final List<DetectedLanguage> DETECT_ENGLISH_LANGUAGE_RESULTS = asList( DETECTED_LANGUAGE_ENGLISH, DETECTED_LANGUAGE_ENGLISH); static final HttpResponseException HTTP_RESPONSE_EXCEPTION_CLASS = new HttpResponseException("", null); static final String DISPLAY_NAME_WITH_ARGUMENTS = "{displayName} with [{arguments}]"; private static final String AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS = "AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS"; static List<DetectLanguageInput> getDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("1", DETECT_LANGUAGE_INPUTS.get(1), "US"), new DetectLanguageInput("2", DETECT_LANGUAGE_INPUTS.get(2), "US") ); } static List<DetectLanguageInput> getDuplicateIdDetectLanguageInputs() { return asList( new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US"), new DetectLanguageInput("0", DETECT_LANGUAGE_INPUTS.get(0), "US") ); } static List<TextDocumentInput> getDuplicateTextDocumentInputs() { return asList( new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)), new TextDocumentInput("0", CATEGORIZED_ENTITY_INPUTS.get(0)) ); } static List<TextDocumentInput> getWarningsTextDocumentInputs() { return asList( new TextDocumentInput("0", TOO_LONG_INPUT), new TextDocumentInput("1", CATEGORIZED_ENTITY_INPUTS.get(1)) ); } static List<TextDocumentInput> getTextDocumentInputs(List<String> inputs) { return IntStream.range(0, inputs.size()) .mapToObj(index -> new TextDocumentInput(String.valueOf(index), inputs.get(index))) .collect(Collectors.toList()); } /** * Helper method to get the expected Batch Detected Languages * * @return A {@link DetectLanguageResultCollection}. / static DetectLanguageResultCollection getExpectedBatchDetectedLanguages() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(3, 3, 0, 3); final List<DetectLanguageResult> detectLanguageResultList = asList( new DetectLanguageResult("0", new TextDocumentStatistics(26, 1), null, getDetectedLanguageEnglish()), new DetectLanguageResult("1", new TextDocumentStatistics(40, 1), null, getDetectedLanguageSpanish()), new DetectLanguageResult("2", new TextDocumentStatistics(6, 1), null, getUnknownDetectedLanguage())); return new DetectLanguageResultCollection(detectLanguageResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } static DetectedLanguage getDetectedLanguageEnglish() { return new DetectedLanguage("English", "en", 0.0, null); } static DetectedLanguage getDetectedLanguageSpanish() { return new DetectedLanguage("Spanish", "es", 0.0, null); } static DetectedLanguage getUnknownDetectedLanguage() { return new DetectedLanguage("(Unknown)", "(Unknown)", 0.0, null); } /* * Helper method to get the expected Batch Categorized Entities * * @return A {@link RecognizeEntitiesResultCollection}. / static RecognizeEntitiesResultCollection getExpectedBatchCategorizedEntities() { return new RecognizeEntitiesResultCollection( asList(getExpectedBatchCategorizedEntities1(), getExpectedBatchCategorizedEntities2()), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method to get the expected Categorized Entities List 1 / static List<CategorizedEntity> getCategorizedEntitiesList1() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("trip", EntityCategory.EVENT, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 18); CategorizedEntity categorizedEntity2 = new CategorizedEntity("Seattle", EntityCategory.LOCATION, "GPE", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 26); CategorizedEntity categorizedEntity3 = new CategorizedEntity("last week", EntityCategory.DATE_TIME, "DateRange", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 34); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3); } /* * Helper method to get the expected Categorized Entities List 2 / static List<CategorizedEntity> getCategorizedEntitiesList2() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 10); return asList(categorizedEntity1); } /* * Helper method to get the expected Categorized entity result for PII document input. / static List<CategorizedEntity> getCategorizedEntitiesForPiiInput() { CategorizedEntity categorizedEntity1 = new CategorizedEntity("Microsoft", EntityCategory.ORGANIZATION, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity1, 0); CategorizedEntity categorizedEntity2 = new CategorizedEntity("employee", EntityCategory.PERSON_TYPE, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity2, 10); CategorizedEntity categorizedEntity3 = new CategorizedEntity("859", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity3, 28); CategorizedEntity categorizedEntity4 = new CategorizedEntity("98", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity4, 32); CategorizedEntity categorizedEntity5 = new CategorizedEntity("0987", EntityCategory.QUANTITY, "Number", 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity5, 35); CategorizedEntity categorizedEntity6 = new CategorizedEntity("API", EntityCategory.SKILL, null, 0.0); CategorizedEntityPropertiesHelper.setOffset(categorizedEntity6, 61); return asList(categorizedEntity1, categorizedEntity2, categorizedEntity3, categorizedEntity4, categorizedEntity5, categorizedEntity6); } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities1() { IterableStream<CategorizedEntity> categorizedEntityList1 = new IterableStream<>(getCategorizedEntitiesList1()); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(44, 1); RecognizeEntitiesResult recognizeEntitiesResult1 = new RecognizeEntitiesResult("0", textDocumentStatistics1, null, new CategorizedEntityCollection(categorizedEntityList1, null)); return recognizeEntitiesResult1; } /* * Helper method to get the expected Batch Categorized Entities / static RecognizeEntitiesResult getExpectedBatchCategorizedEntities2() { IterableStream<CategorizedEntity> categorizedEntityList2 = new IterableStream<>(getCategorizedEntitiesList2()); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(20, 1); RecognizeEntitiesResult recognizeEntitiesResult2 = new RecognizeEntitiesResult("1", textDocumentStatistics2, null, new CategorizedEntityCollection(categorizedEntityList2, null)); return recognizeEntitiesResult2; } /* * Helper method to get the expected batch of Personally Identifiable Information entities / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntities() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList2()), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected batch of Personally Identifiable Information entities for domain filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForDomainFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(getPiiEntitiesList1ForDomainFilter()), "****** employee with ssn ******* is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(Arrays.asList(getPiiEntitiesList2().get(0), getPiiEntitiesList2().get(1), getPiiEntitiesList2().get(2))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(67, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(105, 1); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", textDocumentStatistics1, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", textDocumentStatistics2, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Categorized Entities List 1 / static List<PiiEntity> getPiiEntitiesList1() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "Microsoft"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.ORGANIZATION); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setOffset(piiEntity0, 0); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, "employee"); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.fromString("PersonType")); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setOffset(piiEntity1, 10); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, "859-98-0987"); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setOffset(piiEntity2, 28); return asList(piiEntity0, piiEntity1, piiEntity2); } static List<PiiEntity> getPiiEntitiesList1ForDomainFilter() { return Arrays.asList(getPiiEntitiesList1().get(0), getPiiEntitiesList1().get(2)); } /* * Helper method to get the expected Categorized Entities List 2 / static List<PiiEntity> getPiiEntitiesList2() { String expectedText = "111000025"; final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.PHONE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity0, 0.8); PiiEntityPropertiesHelper.setOffset(piiEntity0, 18); final PiiEntity piiEntity1 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity1, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity1, PiiEntityCategory.ABA_ROUTING_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity1, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity1, 0.75); PiiEntityPropertiesHelper.setOffset(piiEntity1, 18); final PiiEntity piiEntity2 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity2, expectedText); PiiEntityPropertiesHelper.setCategory(piiEntity2, PiiEntityCategory.NZ_SOCIAL_WELFARE_NUMBER); PiiEntityPropertiesHelper.setSubcategory(piiEntity2, null); PiiEntityPropertiesHelper.setConfidenceScore(piiEntity2, 0.65); PiiEntityPropertiesHelper.setOffset(piiEntity2, 18); return asList(piiEntity0, piiEntity1, piiEntity2); } /* * Helper method to get the expected batch of Personally Identifiable Information entities for categories filter / static RecognizePiiEntitiesResultCollection getExpectedBatchPiiEntitiesForCategoriesFilter() { PiiEntityCollection piiEntityCollection = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList1().get(2))), "Microsoft employee with ssn ******** is using our awesome API's.", null); PiiEntityCollection piiEntityCollection2 = new PiiEntityCollection( new IterableStream<>(asList(getPiiEntitiesList2().get(1))), "Your ABA number - ***** - is the first 9 digits in the lower left hand corner of your personal check.", null); RecognizePiiEntitiesResult recognizeEntitiesResult1 = new RecognizePiiEntitiesResult("0", null, null, piiEntityCollection); RecognizePiiEntitiesResult recognizeEntitiesResult2 = new RecognizePiiEntitiesResult("1", null, null, piiEntityCollection2); return new RecognizePiiEntitiesResultCollection( asList(recognizeEntitiesResult1, recognizeEntitiesResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } / * Helper method to get the expected Batch Linked Entities * @return A {@link RecognizeLinkedEntitiesResultCollection}. / static RecognizeLinkedEntitiesResultCollection getExpectedBatchLinkedEntities() { final TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); final List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResultList = asList( new RecognizeLinkedEntitiesResult( "0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult( "1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null))); return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected linked Entities List 1 / static List<LinkedEntity> getLinkedEntitiesList1() { final LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Seattle", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 26); LinkedEntity linkedEntity = new LinkedEntity( "Seattle", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Seattle", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "5fbba6b8-85e1-4d41-9444-d9055436e473"); return asList(linkedEntity); } /* * Helper method to get the expected linked Entities List 2 / static List<LinkedEntity> getLinkedEntitiesList2() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 10); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); return asList(linkedEntity); } static List<LinkedEntity> getLinkedEntitiesList3() { LinkedEntityMatch linkedEntityMatch = new LinkedEntityMatch("Microsoft", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch, 0); LinkedEntityMatch linkedEntityMatch1 = new LinkedEntityMatch("API's", 0.0); LinkedEntityMatchPropertiesHelper.setOffset(linkedEntityMatch1, 61); LinkedEntity linkedEntity = new LinkedEntity( "Microsoft", new IterableStream<>(Collections.singletonList(linkedEntityMatch)), "en", "Microsoft", "https: "Wikipedia"); LinkedEntityPropertiesHelper.setBingEntitySearchApiId(linkedEntity, "a093e9b9-90f5-a3d5-c4b8-5855e1b01f85"); LinkedEntity linkedEntity1 = new LinkedEntity( "Application programming interface", new IterableStream<>(Collections.singletonList(linkedEntityMatch1)), "en", "Application programming interface", "https: "Wikipedia"); return asList(linkedEntity, linkedEntity1); } /* * Helper method to get the expected Batch Key Phrases. / static ExtractKeyPhrasesResultCollection getExpectedBatchKeyPhrases() { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(49, 1); TextDocumentStatistics textDocumentStatistics2 = new TextDocumentStatistics(21, 1); ExtractKeyPhraseResult extractKeyPhraseResult1 = new ExtractKeyPhraseResult("0", textDocumentStatistics1, null, new KeyPhrasesCollection(new IterableStream<>(asList("Hello world", "input text")), null)); ExtractKeyPhraseResult extractKeyPhraseResult2 = new ExtractKeyPhraseResult("1", textDocumentStatistics2, null, new KeyPhrasesCollection(new IterableStream<>(asList("Bonjour", "monde")), null)); TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics(2, 2, 0, 2); List<ExtractKeyPhraseResult> extractKeyPhraseResultList = asList(extractKeyPhraseResult1, extractKeyPhraseResult2); return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResultList, DEFAULT_MODEL_VERSION, textDocumentBatchStatistics); } /* * Helper method to get the expected Batch Text Sentiments / static AnalyzeSentimentResultCollection getExpectedBatchTextSentiment() { final TextDocumentStatistics textDocumentStatistics = new TextDocumentStatistics(67, 1); final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", textDocumentStatistics, null, getExpectedDocumentSentiment()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", textDocumentStatistics, null, getExpectedDocumentSentiment2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * Helper method that get the first expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 14); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 23); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 51); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 4); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 59); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment3))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 31); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 32); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 35); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } /* * Helper method that get the second expected DocumentSentiment result. / static DocumentSentiment getExpectedDocumentSentiment2() { final AssessmentSentiment assessmentSentiment1 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment1, "dark"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment1, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment1, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment1, 50); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment1, 0); final AssessmentSentiment assessmentSentiment2 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment2, "unclean"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment2, TextSentiment.NEGATIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment2, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment2, 59); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment2, 0); final AssessmentSentiment assessmentSentiment3 = new AssessmentSentiment(); AssessmentSentimentPropertiesHelper.setText(assessmentSentiment3, "amazing"); AssessmentSentimentPropertiesHelper.setSentiment(assessmentSentiment3, TextSentiment.POSITIVE); AssessmentSentimentPropertiesHelper.setConfidenceScores(assessmentSentiment3, new SentimentConfidenceScores(0.0, 0.0, 0.0)); AssessmentSentimentPropertiesHelper.setNegated(assessmentSentiment3, false); AssessmentSentimentPropertiesHelper.setOffset(assessmentSentiment3, 19); AssessmentSentimentPropertiesHelper.setLength(assessmentSentiment3, 0); final TargetSentiment targetSentiment1 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment1, "gnocchi"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment1, TextSentiment.POSITIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment1, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment1, 27); final SentenceOpinion sentenceOpinion1 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion1, targetSentiment1); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion1, new IterableStream<>(asList(assessmentSentiment3))); final TargetSentiment targetSentiment2 = new TargetSentiment(); TargetSentimentPropertiesHelper.setText(targetSentiment2, "hotel"); TargetSentimentPropertiesHelper.setSentiment(targetSentiment2, TextSentiment.NEGATIVE); TargetSentimentPropertiesHelper.setConfidenceScores(targetSentiment2, new SentimentConfidenceScores(0.0, 0.0, 0.0)); TargetSentimentPropertiesHelper.setOffset(targetSentiment2, 40); final SentenceOpinion sentenceOpinion2 = new SentenceOpinion(); SentenceOpinionPropertiesHelper.setTarget(sentenceOpinion2, targetSentiment2); SentenceOpinionPropertiesHelper.setAssessments(sentenceOpinion2, new IterableStream<>(asList(assessmentSentiment1, assessmentSentiment2))); final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "The restaurant had amazing gnocchi.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, new IterableStream<>(asList(sentenceOpinion1))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 35); final SentenceSentiment sentenceSentiment2 = new SentenceSentiment( "The hotel was dark and unclean.", TextSentiment.NEGATIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment2, new IterableStream<>(asList(sentenceOpinion2))); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment2, 36); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment2, 31); return new DocumentSentiment(TextSentiment.MIXED, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1, sentenceSentiment2)), null); } / * This is the expected result for testing an input: * "I had a wonderful trip to Seattle last week." / static DocumentSentiment getExpectedDocumentSentimentForActions() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "I had a wonderful trip to Seattle last week.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 44); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } / * This is the expected result for testing an input: * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static DocumentSentiment getExpectedDocumentSentimentForActions2() { final SentenceSentiment sentenceSentiment1 = new SentenceSentiment( "Microsoft employee with ssn 859-98-0987 is using our awesome API's.", TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0)); SentenceSentimentPropertiesHelper.setOpinions(sentenceSentiment1, null); SentenceSentimentPropertiesHelper.setOffset(sentenceSentiment1, 0); SentenceSentimentPropertiesHelper.setLength(sentenceSentiment1, 67); return new DocumentSentiment(TextSentiment.POSITIVE, new SentimentConfidenceScores(0.0, 0.0, 0.0), new IterableStream<>(asList(sentenceSentiment1)), null); } /* * Helper method that get a single-page {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForSinglePage() { return asList( getExpectedAnalyzeHealthcareEntitiesResultCollection(2, asList(getRecognizeHealthcareEntitiesResult1("0"), getRecognizeHealthcareEntitiesResult2()))); } /* * Helper method that get a multiple-pages {@link AnalyzeHealthcareEntitiesResultCollection} list. / static List<AnalyzeHealthcareEntitiesResultCollection> getExpectedAnalyzeHealthcareEntitiesResultCollectionListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults1 = new ArrayList<>(); int i = startIndex; for (; i < startIndex + firstPage; i++) { healthcareEntitiesResults1.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults2 = new ArrayList<>(); for (; i < startIndex + firstPage + secondPage; i++) { healthcareEntitiesResults2.add(getRecognizeHealthcareEntitiesResult1(Integer.toString(i))); } List<AnalyzeHealthcareEntitiesResultCollection> result = new ArrayList<>(); result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(firstPage, healthcareEntitiesResults1)); if (secondPage != 0) { result.add(getExpectedAnalyzeHealthcareEntitiesResultCollection(secondPage, healthcareEntitiesResults2)); } return result; } /* * Helper method that get the expected {@link AnalyzeHealthcareEntitiesResultCollection} result. * * @param sizePerPage batch size per page. * @param healthcareEntitiesResults a collection of {@link AnalyzeHealthcareEntitiesResult}. / static AnalyzeHealthcareEntitiesResultCollection getExpectedAnalyzeHealthcareEntitiesResultCollection( int sizePerPage, List<AnalyzeHealthcareEntitiesResult> healthcareEntitiesResults) { TextDocumentBatchStatistics textDocumentBatchStatistics = new TextDocumentBatchStatistics( sizePerPage, sizePerPage, 0, sizePerPage); final AnalyzeHealthcareEntitiesResultCollection analyzeHealthcareEntitiesResultCollection = new AnalyzeHealthcareEntitiesResultCollection(IterableStream.of(healthcareEntitiesResults)); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setModelVersion(analyzeHealthcareEntitiesResultCollection, "2020-09-03"); AnalyzeHealthcareEntitiesResultCollectionPropertiesHelper.setStatistics(analyzeHealthcareEntitiesResultCollection, textDocumentBatchStatistics); return analyzeHealthcareEntitiesResultCollection; } /* * Result for * "The patient is a 54-year-old gentleman with a history of progressive angina over the past several months.", / static AnalyzeHealthcareEntitiesResult getRecognizeHealthcareEntitiesResult1(String documentId) { TextDocumentStatistics textDocumentStatistics1 = new TextDocumentStatistics(105, 1); final HealthcareEntity healthcareEntity1 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity1, "54-year-old"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity1, HealthcareEntityCategory.AGE); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity1, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity1, 17); HealthcareEntityPropertiesHelper.setLength(healthcareEntity1, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity1, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity2 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity2, "gentleman"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity2, "Male population group"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity2, HealthcareEntityCategory.GENDER); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity2, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity2, 29); HealthcareEntityPropertiesHelper.setLength(healthcareEntity2, 9); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity2, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity3 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity3, "progressive"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity3, HealthcareEntityCategory.fromString("Course")); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity3, 0.91); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity3, 57); HealthcareEntityPropertiesHelper.setLength(healthcareEntity3, 11); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity3, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity4 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity4, "angina"); HealthcareEntityPropertiesHelper.setNormalizedText(healthcareEntity4, "Angina Pectoris"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity4, HealthcareEntityCategory.SYMPTOM_OR_SIGN); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity4, 0.81); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity4, 69); HealthcareEntityPropertiesHelper.setLength(healthcareEntity4, 6); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity4, IterableStream.of(Collections.emptyList())); final HealthcareEntity healthcareEntity5 = new HealthcareEntity(); HealthcareEntityPropertiesHelper.setText(healthcareEntity5, "past several months"); HealthcareEntityPropertiesHelper.setCategory(healthcareEntity5, HealthcareEntityCategory.TIME); HealthcareEntityPropertiesHelper.setConfidenceScore(healthcareEntity5, 1.0); HealthcareEntityPropertiesHelper.setOffset(healthcareEntity5, 85); HealthcareEntityPropertiesHelper.setLength(healthcareEntity5, 19); HealthcareEntityPropertiesHelper.setDataSources(healthcareEntity5, IterableStream.of(Collections.emptyList())); final AnalyzeHealthcareEntitiesResult healthcareEntitiesResult1 = new AnalyzeHealthcareEntitiesResult(documentId, textDocumentStatistics1, null); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntities(healthcareEntitiesResult1, new IterableStream<>(asList(healthcareEntity1, healthcareEntity2, healthcareEntity3, healthcareEntity4, healthcareEntity5))); final HealthcareEntityRelation healthcareEntityRelation1 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role1 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role1, "Course"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role1, healthcareEntity3); final HealthcareEntityRelationRole role2 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role2, "Condition"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role2, healthcareEntity4); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation1, HealthcareEntityRelationType.fromString("CourseOfCondition")); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation1, IterableStream.of(asList(role1, role2))); final HealthcareEntityRelation healthcareEntityRelation2 = new HealthcareEntityRelation(); final HealthcareEntityRelationRole role3 = new HealthcareEntityRelationRole(); HealthcareEntityRelationRolePropertiesHelper.setName(role3, "Time"); HealthcareEntityRelationRolePropertiesHelper.setEntity(role3, healthcareEntity5); HealthcareEntityRelationPropertiesHelper.setRelationType(healthcareEntityRelation2, HealthcareEntityRelationType.TIME_OF_CONDITION); HealthcareEntityRelationPropertiesHelper.setRoles(healthcareEntityRelation2, IterableStream.of(asList(role2, role3))); AnalyzeHealthcareEntitiesResultPropertiesHelper.setEntityRelations(healthcareEntitiesResult1, IterableStream.of(asList(healthcareEntityRelation1, healthcareEntityRelation2))); return healthcareEntitiesResult1; } /* * Result for * "The patient went for six minutes with minimal ST depressions in the anterior lateral leads , * thought due to fatigue and wrist pain , his anginal equivalent." / /* * RecognizeEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollection() { return new RecognizeEntitiesResultCollection( asList(new RecognizeEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesList1()), null)), new RecognizeEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null)) ), "2020-04-01", new TextDocumentBatchStatistics(2, 2, 0, 2)); } /* * RecognizePiiEntitiesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollection() { final PiiEntity piiEntity0 = new PiiEntity(); PiiEntityPropertiesHelper.setText(piiEntity0, "last week"); PiiEntityPropertiesHelper.setCategory(piiEntity0, PiiEntityCategory.fromString("DateTime")); PiiEntityPropertiesHelper.setSubcategory(piiEntity0, "DateRange"); PiiEntityPropertiesHelper.setOffset(piiEntity0, 34); return new RecognizePiiEntitiesResultCollection( asList( new RecognizePiiEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new PiiEntityCollection(new IterableStream<>(Arrays.asList(piiEntity0)), "I had a wonderful trip to Seattle ******.", null)), new RecognizePiiEntitiesResult("1", new TextDocumentStatistics(67, 1), null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "***** **** with ssn ******* is using our awesome API's.", null))), "2020-07-01", new TextDocumentBatchStatistics(2, 2, 0, 2) ); } / * ExtractKeyPhrasesResultCollection result for * "I had a wonderful trip to Seattle last week." * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollection() { return new ExtractKeyPhrasesResultCollection( asList(new ExtractKeyPhraseResult("0", new TextDocumentStatistics(44, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("wonderful trip", "Seattle")), null)), new ExtractKeyPhraseResult("1", new TextDocumentStatistics(67, 1), null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollection() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList2()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForActions() { return new RecognizeLinkedEntitiesResultCollection( asList(new RecognizeLinkedEntitiesResult("0", new TextDocumentStatistics(44, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList1()), null)), new RecognizeLinkedEntitiesResult("1", new TextDocumentStatistics(20, 1), null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null)) ), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForActions() { final AnalyzeSentimentResult analyzeSentimentResult1 = new AnalyzeSentimentResult("0", null, null, getExpectedDocumentSentimentForActions()); final AnalyzeSentimentResult analyzeSentimentResult2 = new AnalyzeSentimentResult("1", null, null, getExpectedDocumentSentimentForActions2()); return new AnalyzeSentimentResultCollection( asList(analyzeSentimentResult1, analyzeSentimentResult2), DEFAULT_MODEL_VERSION, new TextDocumentBatchStatistics(2, 2, 0, 2)); } static RecognizeEntitiesActionResult getExpectedRecognizeEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeEntitiesActionResult actionResult = new RecognizeEntitiesActionResult(); RecognizeEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizePiiEntitiesActionResult getExpectedRecognizePiiEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, RecognizePiiEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizePiiEntitiesActionResult actionResult = new RecognizePiiEntitiesActionResult(); RecognizePiiEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static ExtractKeyPhrasesActionResult getExpectedExtractKeyPhrasesActionResult(boolean isError, String actionName, OffsetDateTime completedAt, ExtractKeyPhrasesResultCollection resultCollection, TextAnalyticsError actionError) { ExtractKeyPhrasesActionResult actionResult = new ExtractKeyPhrasesActionResult(); ExtractKeyPhrasesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completedAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static RecognizeLinkedEntitiesActionResult getExpectedRecognizeLinkedEntitiesActionResult(boolean isError, String actionName, OffsetDateTime completeAt, RecognizeLinkedEntitiesResultCollection resultCollection, TextAnalyticsError actionError) { RecognizeLinkedEntitiesActionResult actionResult = new RecognizeLinkedEntitiesActionResult(); RecognizeLinkedEntitiesActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } static AnalyzeSentimentActionResult getExpectedAnalyzeSentimentActionResult(boolean isError, String actionName, OffsetDateTime completeAt, AnalyzeSentimentResultCollection resultCollection, TextAnalyticsError actionError) { AnalyzeSentimentActionResult actionResult = new AnalyzeSentimentActionResult(); AnalyzeSentimentActionResultPropertiesHelper.setDocumentsResults(actionResult, resultCollection); TextAnalyticsActionResultPropertiesHelper.setActionName(actionResult, actionName); TextAnalyticsActionResultPropertiesHelper.setCompletedAt(actionResult, completeAt); TextAnalyticsActionResultPropertiesHelper.setIsError(actionResult, isError); TextAnalyticsActionResultPropertiesHelper.setError(actionResult, actionError); return actionResult; } /* * Helper method that get the expected AnalyzeBatchActionsResult result. / static AnalyzeActionsResult getExpectedAnalyzeBatchActionsResult( IterableStream<RecognizeEntitiesActionResult> recognizeEntitiesActionResults, IterableStream<RecognizeLinkedEntitiesActionResult> recognizeLinkedEntitiesActionResults, IterableStream<RecognizePiiEntitiesActionResult> recognizePiiEntitiesActionResults, IterableStream<ExtractKeyPhrasesActionResult> extractKeyPhrasesActionResults, IterableStream<AnalyzeSentimentActionResult> analyzeSentimentActionResults) { final AnalyzeActionsResult analyzeActionsResult = new AnalyzeActionsResult(); AnalyzeActionsResultPropertiesHelper.setRecognizeEntitiesResults(analyzeActionsResult, recognizeEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizePiiEntitiesResults(analyzeActionsResult, recognizePiiEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setExtractKeyPhrasesResults(analyzeActionsResult, extractKeyPhrasesActionResults); AnalyzeActionsResultPropertiesHelper.setRecognizeLinkedEntitiesResults(analyzeActionsResult, recognizeLinkedEntitiesActionResults); AnalyzeActionsResultPropertiesHelper.setAnalyzeSentimentResults(analyzeActionsResult, analyzeSentimentActionResults); return analyzeActionsResult; } /* * CategorizedEntityCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeEntitiesResultCollection getRecognizeEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizeEntitiesResult> recognizeEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeEntitiesResults.add(new RecognizeEntitiesResult(Integer.toString(i), null, null, new CategorizedEntityCollection(new IterableStream<>(getCategorizedEntitiesForPiiInput()), null))); } return new RecognizeEntitiesResultCollection(recognizeEntitiesResults, "2020-04-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizePiiEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizePiiEntitiesResultCollection getRecognizePiiEntitiesResultCollectionForPagination(int startIndex, int documentCount) { List<RecognizePiiEntitiesResult> recognizePiiEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizePiiEntitiesResults.add(new RecognizePiiEntitiesResult(Integer.toString(i), null, null, new PiiEntityCollection(new IterableStream<>(getPiiEntitiesList1()), "****** **** with ssn ******* is using our awesome API's.", null))); } return new RecognizePiiEntitiesResultCollection(recognizePiiEntitiesResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } / * ExtractKeyPhrasesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static ExtractKeyPhrasesResultCollection getExtractKeyPhrasesResultCollectionForPagination(int startIndex, int documentCount) { List<ExtractKeyPhraseResult> extractKeyPhraseResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { extractKeyPhraseResults.add(new ExtractKeyPhraseResult(Integer.toString(i), null, null, new KeyPhrasesCollection(new IterableStream<>(asList("Microsoft employee", "ssn", "awesome API")), null))); } return new ExtractKeyPhrasesResultCollection(extractKeyPhraseResults, "2020-07-01", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount)); } /* * RecognizeLinkedEntitiesResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static RecognizeLinkedEntitiesResultCollection getRecognizeLinkedEntitiesResultCollectionForPagination( int startIndex, int documentCount) { List<RecognizeLinkedEntitiesResult> recognizeLinkedEntitiesResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { recognizeLinkedEntitiesResults.add(new RecognizeLinkedEntitiesResult(Integer.toString(i), null, null, new LinkedEntityCollection(new IterableStream<>(getLinkedEntitiesList3()), null))); } return new RecognizeLinkedEntitiesResultCollection(recognizeLinkedEntitiesResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * AnalyzeSentimentResultCollection result for * "Microsoft employee with ssn 859-98-0987 is using our awesome API's." / static AnalyzeSentimentResultCollection getAnalyzeSentimentResultCollectionForPagination( int startIndex, int documentCount) { List<AnalyzeSentimentResult> analyzeSentimentResults = new ArrayList<>(); for (int i = startIndex; i < startIndex + documentCount; i++) { analyzeSentimentResults.add(new AnalyzeSentimentResult(Integer.toString(i), null, null, getExpectedDocumentSentimentForActions2())); } return new AnalyzeSentimentResultCollection(analyzeSentimentResults, "", new TextDocumentBatchStatistics(documentCount, documentCount, 0, documentCount) ); } /* * Helper method that get a multiple-pages (AnalyzeActionsResult) list. / static List<AnalyzeActionsResult> getExpectedAnalyzeActionsResultListForMultiplePages(int startIndex, int firstPage, int secondPage) { List<AnalyzeActionsResult> analyzeActionsResults = new ArrayList<>(); analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, firstPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, firstPage), null))) )); startIndex += firstPage; analyzeActionsResults.add(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult( false, null, TIME_NOW, getRecognizeEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult( false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult( false, null, TIME_NOW, getRecognizePiiEntitiesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult( false, null, TIME_NOW, getExtractKeyPhrasesResultCollectionForPagination(startIndex, secondPage), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult( false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForPagination(startIndex, secondPage), null))) )); return analyzeActionsResults; } /* * Helper method that get a customized TextAnalyticsError. / static TextAnalyticsError getActionError(TextAnalyticsErrorCode errorCode, String taskName, String index) { return new TextAnalyticsError(errorCode, "", " } /* * Returns a stream of arguments that includes all combinations of eligible {@link HttpClient HttpClients} and * service versions that should be tested. * * @return A stream of HttpClient and service version combinations to test. / static Stream<Arguments> getTestParameters() { List<Arguments> argumentsList = new ArrayList<>(); getHttpClients() .forEach(httpClient -> { Arrays.stream(TextAnalyticsServiceVersion.values()).filter( TestUtils::shouldServiceVersionBeTested) .forEach(serviceVersion -> argumentsList.add(Arguments.of(httpClient, serviceVersion))); }); return argumentsList.stream(); } /* * Returns whether the given service version match the rules of test framework. * * <ul> * <li>Using latest service version as default if no environment variable is set.</li> * <li>If it's set to ALL, all Service versions in {@link TextAnalyticsServiceVersion} will be tested.</li> * <li>Otherwise, Service version string should match env variable.</li> * </ul> * * Environment values currently supported are: "ALL", "${version}". * Use comma to separate http clients want to test. * e.g. {@code set AZURE_TEST_SERVICE_VERSIONS = V1_0, V2_0} * * @param serviceVersion ServiceVersion needs to check * @return Boolean indicates whether filters out the service version or not. */ private static boolean shouldServiceVersionBeTested(TextAnalyticsServiceVersion serviceVersion) { String serviceVersionFromEnv = Configuration.getGlobalConfiguration().get(AZURE_TEXT_ANALYTICS_TEST_SERVICE_VERSIONS); if (CoreUtils.isNullOrEmpty(serviceVersionFromEnv)) { return TextAnalyticsServiceVersion.getLatest().equals(serviceVersion); } if (AZURE_TEST_SERVICE_VERSIONS_VALUE_ALL.equalsIgnoreCase(serviceVersionFromEnv)) { return true; } String[] configuredServiceVersionList = serviceVersionFromEnv.split(","); return Arrays.stream(configuredServiceVersionList).anyMatch(configuredServiceVersion -> serviceVersion.getVersion().equals(configuredServiceVersion.trim())); } private TestUtils() { } }
Here the media subscription id is not even verified?	public void answerCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200) ))); Response<AnswerCallResult> answerCallResult = callAutomationClient.answerCallWithResponse( CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL, MEDIA_STREAMING_CONFIGURATION, Context.NONE); assertNotNull(answerCallResult); assertEquals(200, answerCallResult.getStatusCode()); assertNotNull(answerCallResult.getValue()); }	CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200)	public void answerCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200) ))); Response<AnswerCallResult> answerCallResult = callAutomationClient.answerCallWithResponse( CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL, MEDIA_STREAMING_CONFIGURATION, Context.NONE); assertNotNull(answerCallResult); assertEquals(200, answerCallResult.getStatusCode()); assertNotNull(answerCallResult.getValue()); assertEquals("mediaSubscriptionId", answerCallResult.getValue().getCallConnectionProperties().getMediaSubscriptionId()); }	class CallAutomationClientUnitTests extends CallAutomationUnitTestBase { @Test public void createCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); CreateCallResult createCallResult = callAutomationClient.createCall(callOptions); assertNotNull(createCallResult); } @Test public void createCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); Response<CreateCallResult> createCallResult = callAutomationClient.createCallWithResponse(callOptions, Context.NONE); assertNotNull(createCallResult); assertEquals(201, createCallResult.getStatusCode()); assertNotNull(createCallResult.getValue()); } @Test public void answerCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200) ))); AnswerCallResult answerCallResult = callAutomationClient.answerCall(CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL); assertNotNull(answerCallResult); } @Test @Test public void redirectCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); callAutomationClient.redirectCall(CALL_INCOMING_CALL_CONTEXT, target); } @Test public void redirectCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); Response<Void> redirectCallResponse = callAutomationClient.redirectCallWithResponse( CALL_INCOMING_CALL_CONTEXT, target, Context.NONE); assertEquals(204, redirectCallResponse.getStatusCode()); } @Test public void rejectCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); callAutomationClient.rejectCall(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY); } @Test public void rejectCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); Response<Void> rejectCallResponse = callAutomationClient.rejectCallWithResponse(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY, Context.NONE); assertEquals(204, rejectCallResponse.getStatusCode()); } }	class CallAutomationClientUnitTests extends CallAutomationUnitTestBase { @Test public void createCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); CreateCallResult createCallResult = callAutomationClient.createCall(callOptions); assertNotNull(createCallResult); } @Test public void createCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, null), 201) ))); CommunicationUserIdentifier caller = new CommunicationUserIdentifier(CALL_CALLER_ID); List<CommunicationIdentifier> targets = new ArrayList<>(Collections.singletonList(new CommunicationUserIdentifier(CALL_TARGET_ID))); CreateCallOptions callOptions = new CreateCallOptions(caller, targets, CALL_CALLBACK_URL); callOptions.setSubject(CALL_SUBJECT); Response<CreateCallResult> createCallResult = callAutomationClient.createCallWithResponse(callOptions, Context.NONE); assertNotNull(createCallResult); assertEquals(201, createCallResult.getStatusCode()); assertNotNull(createCallResult.getValue()); assertEquals(null, createCallResult.getValue().getCallConnectionProperties().getMediaSubscriptionId()); } @Test public void answerCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>(generateCallProperties(CALL_CONNECTION_ID, CALL_SERVER_CALL_ID, CALL_CALLER_ID, CALL_TARGET_ID, CALL_CONNECTION_STATE, CALL_SUBJECT, CALL_CALLBACK_URL, MEDIA_SUBSCRIPTION_ID), 200) ))); AnswerCallResult answerCallResult = callAutomationClient.answerCall(CALL_INCOMING_CALL_CONTEXT, CALL_CALLBACK_URL); assertNotNull(answerCallResult); } @Test @Test public void redirectCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); callAutomationClient.redirectCall(CALL_INCOMING_CALL_CONTEXT, target); } @Test public void redirectCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); CommunicationUserIdentifier target = new CommunicationUserIdentifier(CALL_TARGET_ID); Response<Void> redirectCallResponse = callAutomationClient.redirectCallWithResponse( CALL_INCOMING_CALL_CONTEXT, target, Context.NONE); assertEquals(204, redirectCallResponse.getStatusCode()); } @Test public void rejectCall() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); callAutomationClient.rejectCall(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY); } @Test public void rejectCallWithResponse() { CallAutomationClient callAutomationClient = getCallAutomationClient(new ArrayList<>( Collections.singletonList( new SimpleEntry<>("", 204) )) ); Response<Void> rejectCallResponse = callAutomationClient.rejectCallWithResponse(CALL_INCOMING_CALL_CONTEXT, CallRejectReason.BUSY, Context.NONE); assertEquals(204, rejectCallResponse.getStatusCode()); } }
nitpick: The test case can be more robust if the "operationName" value comes directly from the options bag object, so if for some reason it changed, there is no need to change the assert line too.	public void multiLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomMultiLabelRunner((documents, parameters) -> { SyncPoller<ClassifyDocumentOperationDetail, ClassifyDocumentPagedFlux> syncPoller = client.beginMultiLabelClassify(documents, parameters.get(0), parameters.get(1), "en", new MultiLabelClassifyOptions().setDisplayName("operationName")).getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<ClassifyDocumentOperationDetail> pollResponse = syncPoller.waitForCompletion(); assertEquals("operationName", pollResponse.getValue().getDisplayName()); ClassifyDocumentPagedFlux pagedFlux = syncPoller.getFinalResult(); pagedFlux.toStream().collect(Collectors.toList()).forEach(resultCollection -> resultCollection.forEach(documentResult -> validateLabelClassificationResult(documentResult))); }); }	assertEquals("operationName", pollResponse.getValue().getDisplayName());	public void multiLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomMultiLabelRunner((documents, parameters) -> { MultiLabelClassifyOptions options = new MultiLabelClassifyOptions().setDisplayName("operationName"); SyncPoller<ClassifyDocumentOperationDetail, ClassifyDocumentPagedFlux> syncPoller = client.beginMultiLabelClassify(documents, parameters.get(0), parameters.get(1), "en", options) .getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<ClassifyDocumentOperationDetail> pollResponse = syncPoller.waitForCompletion(); assertEquals(options.getDisplayName(), pollResponse.getValue().getDisplayName()); ClassifyDocumentPagedFlux pagedFlux = syncPoller.getFinalResult(); pagedFlux.toStream().collect(Collectors.toList()).forEach(resultCollection -> resultCollection.forEach(documentResult -> validateLabelClassificationResult(documentResult))); }); }	class TextAnalyticsAsyncClientTest extends TextAnalyticsClientTestBase { private TextAnalyticsAsyncClient client; @BeforeAll static void beforeAll() { StepVerifier.setDefaultTimeout(Duration.ofSeconds(30)); } @AfterAll static void afterAll() { StepVerifier.resetDefaultTimeout(); } private TextAnalyticsAsyncClient getTextAnalyticsAsyncClient(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { return getTextAnalyticsAsyncClientBuilder(httpClient, serviceVersion).buildAsyncClient(); } /** * Verify that we can get statistics on the collection result when given a batch of documents with request options. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageShowStatisticsRunner((inputs, options) -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, options)) .assertNext(response -> validateDetectLanguageResultCollectionWithResponse(true, getExpectedBatchDetectedLanguages(), 200, response)) .verifyComplete()); } /* * Test to detect language for each {@code DetectLanguageResult} input of a batch. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageRunner((inputs) -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, null)) .assertNext(response -> validateDetectLanguageResultCollectionWithResponse(false, getExpectedBatchDetectedLanguages(), 200, response)) .verifyComplete()); } /* * Test to detect language for each string input of batch with given country hint. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchListCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguagesCountryHintRunner((inputs, countryHint) -> StepVerifier.create(client.detectLanguageBatch(inputs, countryHint, null)) .assertNext(actualResults -> validateDetectLanguageResultCollection(false, getExpectedBatchDetectedLanguages(), actualResults)) .verifyComplete()); } /* * Test to detect language for each string input of batch with request options. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchListCountryHintWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguagesBatchListCountryHintWithOptionsRunner((inputs, options) -> StepVerifier.create(client.detectLanguageBatch(inputs, null, options)) .assertNext(response -> validateDetectLanguageResultCollection(true, getExpectedBatchDetectedLanguages(), response)) .verifyComplete()); } /* * Test to detect language for each string input of batch. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageStringInputRunner((inputs) -> StepVerifier.create(client.detectLanguageBatch(inputs, null, null)) .assertNext(response -> validateDetectLanguageResultCollection(false, getExpectedBatchDetectedLanguages(), response)) .verifyComplete()); } /* * Verifies that a single DetectedLanguage is returned for a document to detectLanguage. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectSingleTextLanguage(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectSingleTextLanguageRunner(input -> StepVerifier.create(client.detectLanguage(input)) .assertNext(response -> validatePrimaryLanguage(getDetectedLanguageEnglish(), response)) .verifyComplete()); } /* * Verifies that an TextAnalyticsException is thrown for a document with invalid country hint. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageInvalidCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageInvalidCountryHintRunner((input, countryHint) -> StepVerifier.create(client.detectLanguage(input, countryHint)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_COUNTRY_HINT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } /* * Verifies that TextAnalyticsException is thrown for an empty document. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.detectLanguage(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } /* * Verifies that a bad request exception is returned for input documents with same ids. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageDuplicateIdRunner((inputs, options) -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, options)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } /* * Verifies that an invalid document exception is returned for input documents with an empty ID. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageInputEmptyIdRunner(inputs -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } /* * Verify that with countryHint with empty string will not throw exception. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageEmptyCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageEmptyCountryHintRunner((input, countryHint) -> StepVerifier.create(client.detectLanguage(input, countryHint)) .assertNext(response -> validatePrimaryLanguage(getDetectedLanguageSpanish(), response)) .verifyComplete()); } /* * Verify that with countryHint with "none" will not throw exception. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageNoneCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageNoneCountryHintRunner((input, countryHint) -> StepVerifier.create(client.detectLanguage(input, countryHint)) .assertNext(response -> validatePrimaryLanguage(getDetectedLanguageSpanish(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntitiesForSingleTextInputRunner(input -> StepVerifier.create(client.recognizeEntities(input)) .assertNext(response -> validateCategorizedEntities(response.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.recognizeEntities(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify() ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntityDuplicateIdRunner(inputs -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchCategorizedEntitySingleErrorRunner((inputs) -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .assertNext(resultCollection -> resultCollection.getValue().forEach(recognizeEntitiesResult -> { Exception exception = assertThrows(TextAnalyticsException.class, recognizeEntitiesResult::getEntities); assertEquals(String.format(BATCH_ERROR_EXCEPTION_MESSAGE, "RecognizeEntitiesResult"), exception.getMessage()); })).verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchCategorizedEntityRunner((inputs) -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .assertNext(response -> validateCategorizedEntitiesResultCollectionWithResponse(false, getExpectedBatchCategorizedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchCategorizedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, options)) .assertNext(response -> validateCategorizedEntitiesResultCollectionWithResponse(true, getExpectedBatchCategorizedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntityStringInputRunner((inputs) -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, null, null)) .assertNext(response -> validateCategorizedEntitiesResultCollection(false, getExpectedBatchCategorizedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntitiesLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, language, null)) .assertNext(response -> validateCategorizedEntitiesResultCollection(false, getExpectedBatchCategorizedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForListWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchCategorizedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, null, options)) .assertNext(response -> validateCategorizedEntitiesResultCollection(true, getExpectedBatchCategorizedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(13, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void recognizeEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(15, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(22, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(30, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(14, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(15, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(13, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(13, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(126, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiSingleDocumentRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(response -> validatePiiEntities(getPiiEntitiesList1(), response.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntityDuplicateIdRunner(inputs -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitySingleErrorRunner((inputs) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .assertNext(resultCollection -> resultCollection.getValue().forEach(recognizePiiEntitiesResult -> { Exception exception = assertThrows(TextAnalyticsException.class, recognizePiiEntitiesResult::getEntities); assertEquals(String.format(BATCH_ERROR_EXCEPTION_MESSAGE, "RecognizePiiEntitiesResult"), exception.getMessage()); })).verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitiesRunner((inputs) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .assertNext(response -> validatePiiEntitiesResultCollectionWithResponse(false, getExpectedBatchPiiEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, options)) .assertNext(response -> validatePiiEntitiesResultCollectionWithResponse(true, getExpectedBatchPiiEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, language, null)) .assertNext(response -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchPiiEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, null, options)) .assertNext(response -> validatePiiEntitiesResultCollection(true, getExpectedBatchPiiEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(8, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void recognizePiiEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(10, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(17, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(25, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(9, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(10, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(8, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(8, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(121, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiDomainFilterRunner((document, options) -> StepVerifier.create(client.recognizePiiEntities(document, "en", options)) .assertNext(response -> validatePiiEntities(getPiiEntitiesList1ForDomainFilter(), response.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputStringForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, language, new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION))) .assertNext(response -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForDomainFilter(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitiesRunner((inputs) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION))) .assertNext(response -> validatePiiEntitiesResultCollectionWithResponse(false, getExpectedBatchPiiEntitiesForDomainFilter(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputForCategoriesFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( (inputs, options) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, "en", options)) .assertNext( resultCollection -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForCategoriesFilter(), resultCollection)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntityWithCategoriesFilterFromOtherResult(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( (inputs, options) -> { List<PiiEntityCategory> categories = new ArrayList<>(); StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, "en", options)) .assertNext( resultCollection -> { resultCollection.forEach(result -> result.getEntities().forEach(piiEntity -> { final PiiEntityCategory category = piiEntity.getCategory(); if (PiiEntityCategory.ABA_ROUTING_NUMBER == category \|\| PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER == category) { categories.add(category); } })); validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForCategoriesFilter(), resultCollection); }) .verifyComplete(); final PiiEntityCategory[] piiEntityCategories = categories.toArray(new PiiEntityCategory[categories.size()]); options.setCategoriesFilter(piiEntityCategories); StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, "en", options)) .assertNext( resultCollection -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForCategoriesFilter(), resultCollection)) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeLinkedEntitiesForSingleTextInputRunner(input -> StepVerifier.create(client.recognizeLinkedEntities(input)) .assertNext(response -> validateLinkedEntity(getLinkedEntitiesList1().get(0), response.iterator().next())) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.recognizeLinkedEntities(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchLinkedEntityDuplicateIdRunner(inputs -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchLinkedEntityRunner((inputs) -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, null)) .assertNext(response -> validateLinkedEntitiesResultCollectionWithResponse(false, getExpectedBatchLinkedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchLinkedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, options)) .assertNext(response -> validateLinkedEntitiesResultCollectionWithResponse(true, getExpectedBatchLinkedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeLinkedStringInputRunner((inputs) -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, null, null)) .assertNext(response -> validateLinkedEntitiesResultCollection(false, getExpectedBatchLinkedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeLinkedLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, language, null)) .assertNext(response -> validateLinkedEntitiesResultCollection(false, getExpectedBatchLinkedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchStringLinkedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, null, options)) .assertNext(response -> validateLinkedEntitiesResultCollection(true, getExpectedBatchLinkedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(13, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void recognizeLinkedEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(15, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(22, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(30, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(14, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(15, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(13, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(13, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(126, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesForSingleTextInputRunner(input -> StepVerifier.create(client.extractKeyPhrases(input)) .assertNext(keyPhrasesCollection -> validateKeyPhrases(asList("Bonjour", "monde"), keyPhrasesCollection.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.extractKeyPhrases(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchKeyPhrasesDuplicateIdRunner(inputs -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchKeyPhrasesRunner((inputs) -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .assertNext(response -> validateExtractKeyPhrasesResultCollectionWithResponse(false, getExpectedBatchKeyPhrases(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchKeyPhrasesShowStatsRunner((inputs, options) -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, options)) .assertNext(response -> validateExtractKeyPhrasesResultCollectionWithResponse(true, getExpectedBatchKeyPhrases(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesStringInputRunner((inputs) -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, null, null)) .assertNext(response -> validateExtractKeyPhrasesResultCollection(false, getExpectedBatchKeyPhrases(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesLanguageHintRunner((inputs, language) -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, language, null)) .assertNext(response -> validateExtractKeyPhrasesResultCollection(false, getExpectedBatchKeyPhrases(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchStringKeyPhrasesShowStatsRunner((inputs, options) -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, null, options)) .assertNext(response -> validateExtractKeyPhrasesResultCollection(true, getExpectedBatchKeyPhrases(), response)) .verifyComplete()); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesWarningRunner( input -> StepVerifier.create(client.extractKeyPhrases(input)) .assertNext(keyPhrasesResult -> { keyPhrasesResult.getWarnings().forEach(warning -> { assertTrue(WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE.equals(warning.getMessage())); assertTrue(LONG_WORDS_IN_DOCUMENT.equals(warning.getWarningCode())); }); }) .verifyComplete() ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesBatchWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesBatchWarningRunner( inputs -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .assertNext(response -> response.getValue().forEach(keyPhrasesResult -> keyPhrasesResult.getKeyPhrases().getWarnings().forEach(warning -> { assertTrue(WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE.equals(warning.getMessage())); assertTrue(LONG_WORDS_IN_DOCUMENT.equals(warning.getWarningCode())); }) )) .verifyComplete() ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } /* * Test analyzing sentiment for a string input. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentForSingleTextInputRunner(input -> StepVerifier.create(client.analyzeSentiment(input)) .assertNext(response -> validateDocumentSentiment(false, getExpectedDocumentSentiment(), response)) .verifyComplete() ); } /* * Test analyzing sentiment for a string input with default language hint. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForTextInputWithDefaultLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentForSingleTextInputRunner(input -> StepVerifier.create(client.analyzeSentiment(input, null)) .assertNext(response -> validateDocumentSentiment(false, getExpectedDocumentSentiment(), response)) .verifyComplete() ); } /* * Test analyzing sentiment for a string input and verifying the result of opinion mining. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForTextInputWithOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentForTextInputWithOpinionMiningRunner((input, options) -> StepVerifier.create(client.analyzeSentiment(input, "en", options)) .assertNext(response -> validateDocumentSentiment(true, getExpectedDocumentSentiment(), response)) .verifyComplete()); } /* * Verifies that an TextAnalyticsException is thrown for an empty document. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(document -> StepVerifier.create(client.analyzeSentiment(document)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify() ); } /* * Test analyzing sentiment for a duplicate ID list. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentDuplicateIdRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, new TextAnalyticsRequestOptions())) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } /* * Verifies that an invalid document exception is returned for input documents with an empty ID. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * String documents with null TextAnalyticsRequestOptions and null language code which will use the default language * code, 'en'. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions is null and null language code which will use the default language code, 'en'. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentStringInputRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, new TextAnalyticsRequestOptions())) .assertNext(response -> validateAnalyzeSentimentResultCollection(false, false, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * String documents with null TextAnalyticsRequestOptions and given a language code. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions is null and given a language code. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringWithLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentLanguageHintRunner((inputs, language) -> StepVerifier.create(client.analyzeSentimentBatch(inputs, language, new TextAnalyticsRequestOptions())) .assertNext(response -> validateAnalyzeSentimentResultCollection(false, false, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result includes request statistics but not sentence options when given a batch of * String documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which to show the request statistics only and verify the analyzed sentiment result. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, options.setIncludeOpinionMining(false))) .assertNext(response -> validateAnalyzeSentimentResultCollection(true, false, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result includes sentence options but not request statistics when given a batch of * String documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining and request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner((inputs, options) -> { options.setIncludeStatistics(false); StepVerifier.create(client.analyzeSentimentBatch(inputs, null, options)) .assertNext(response -> validateAnalyzeSentimentResultCollection(false, true, getExpectedBatchTextSentiment(), response)) .verifyComplete(); }); } /* * Verify that the collection result includes sentence options and request statistics when given a batch of * String documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining and request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, options)) .assertNext(response -> validateAnalyzeSentimentResultCollection(true, true, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * TextDocumentInput documents with null TextAnalyticsRequestOptions. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions is null. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputWithNullRequestOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, (TextAnalyticsRequestOptions) null)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(false, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that we can get statistics on the collection result when given a batch of * TextDocumentInput documents with TextAnalyticsRequestOptions. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions includes request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentShowStatsRunner((inputs, requestOptions) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, requestOptions)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(true, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * TextDocumentInput documents with null AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions is null. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputWithNullAnalyzeSentimentOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, (AnalyzeSentimentOptions) null)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(false, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that the collection result includes request statistics but not sentence options when given a batch of * TextDocumentInput documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes request statistics but not opinion mining. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, options.setIncludeOpinionMining(false))) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(true, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that the collection result includes sentence options but not request statistics when given a batch of * TextDocumentInput documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining but not request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> { options.setIncludeStatistics(false); StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, options)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(false, true, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete(); }); } /* * Verify that the collection result includes sentence options and request statistics when given a batch of * TextDocumentInput documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining and request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, options)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(true, true, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verifies that an InvalidDocumentBatch exception is returned for input documents with too many documents. */ @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(25, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(opinionSentiment -> { assertEquals(7, opinionSentiment.getLength()); assertEquals(17, opinionSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(7, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeSentimentBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(27, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(19, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(9, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext( result -> result.getSentences().forEach( sentenceSentiment -> { assertEquals(34, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(26, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(16, targetSentiment.getOffset()); }); }) ) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext( result -> result.getSentences().forEach( sentenceSentiment -> { assertEquals(42, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(34, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(24, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(26, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(18, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(8, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach( sentenceSentiment -> { assertEquals(27, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(19, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(9, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(25, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(17, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(7, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(25, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(17, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(7, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(138, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(130, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(120, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void healthcareLroPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); healthcareLroPaginationRunner((documents, options) -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); validateAnalyzeHealthcareEntitiesResultCollectionList( options.isIncludeStatistics(), getExpectedAnalyzeHealthcareEntitiesResultCollectionListForMultiplePages(0, 10, 0), analyzeHealthcareEntitiesPagedFlux.toStream().collect(Collectors.toList())); }, 10); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void healthcareLroWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); healthcareLroRunner((documents, options) -> { boolean isValidApiVersionForDisplayName = serviceVersion != TextAnalyticsServiceVersion.V3_0 && serviceVersion != TextAnalyticsServiceVersion.V3_1; if (isValidApiVersionForDisplayName) { options.setDisplayName("operationName"); } SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<AnalyzeHealthcareEntitiesOperationDetail> pollResponse = syncPoller.waitForCompletion(); if (isValidApiVersionForDisplayName) { assertEquals("operationName", pollResponse.getValue().getDisplayName()); } AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); validateAnalyzeHealthcareEntitiesResultCollectionList( options.isIncludeStatistics(), getExpectedAnalyzeHealthcareEntitiesResultCollectionListForSinglePage(), analyzeHealthcareEntitiesPagedFlux.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void healthcareLroEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyListRunner((documents, errorMessage) -> { StepVerifier.create(client.beginAnalyzeHealthcareEntities(documents, null)) .expectErrorMatches(throwable -> throwable instanceof IllegalArgumentException && errorMessage.equals(throwable.getMessage())) .verify(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeHealthcareEntitiesEmojiUnicodeCodePoint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(20, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(22, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(29, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(37, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeHealthcareEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(21, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeHealthcareEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(22, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(20, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(20, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(133, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesForAssertion(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeHealthcareEntitiesForAssertionRunner((documents, options) -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, "en", options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); final HealthcareEntityAssertion assertion = analyzeHealthcareEntitiesPagedFlux.toStream().collect(Collectors.toList()) .get(0).stream().collect(Collectors.toList()) .get(0).getEntities().stream().collect(Collectors.toList()) .get(1) .getAssertion(); assertEquals(EntityConditionality.HYPOTHETICAL, assertion.getConditionality()); assertNull(assertion.getAssociation()); assertNull(assertion.getCertainty()); }); } @Disabled("Temporary disable it for green test") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void cancelHealthcareLro(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); cancelHealthcareLroRunner((documents, options) -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.cancelOperation(); LongRunningOperationStatus operationStatus = syncPoller.poll().getStatus(); while (!LongRunningOperationStatus.USER_CANCELLED.equals(operationStatus)) { operationStatus = syncPoller.poll().getStatus(); } syncPoller.waitForCompletion(); Assertions.assertEquals(LongRunningOperationStatus.USER_CANCELLED, operationStatus); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchActionsRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult(false, null, TIME_NOW, getRecognizeEntitiesResultCollection(), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult(false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForActions(), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult(false, null, TIME_NOW, getRecognizePiiEntitiesResultCollection(), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult(false, null, TIME_NOW, getExtractKeyPhrasesResultCollection(), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult(false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForActions(), null))))), result.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsWithMultiSameKindActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeActionsWithMultiSameKindActionsRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach(actionsResult -> { assertEquals(2, actionsResult.getRecognizeEntitiesResults().stream().count()); assertEquals(2, actionsResult.getRecognizePiiEntitiesResults().stream().count()); assertEquals(2, actionsResult.getRecognizeLinkedEntitiesResults().stream().count()); assertEquals(2, actionsResult.getAnalyzeSentimentResults().stream().count()); assertEquals(2, actionsResult.getExtractKeyPhrasesResults().stream().count()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsWithActionNames(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeActionsWithActionNamesRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach(actionsResult -> { assertEquals(CUSTOM_ACTION_NAME, actionsResult.getRecognizeEntitiesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getRecognizePiiEntitiesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getRecognizeLinkedEntitiesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getAnalyzeSentimentResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getExtractKeyPhrasesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchActionsPaginationRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions( documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, getExpectedAnalyzeActionsResultListForMultiplePages(0, 20, 2), result.toStream().collect(Collectors.toList())); }, 22); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyListRunner((documents, errorMessage) -> StepVerifier.create(client.beginAnalyzeActions(documents, new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction()), null)) .expectErrorMatches(throwable -> throwable instanceof IllegalArgumentException && errorMessage.equals(throwable.getMessage())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeEntitiesRecognitionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeEntitiesRecognitionRunner( (documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult(false, null, TIME_NOW, getRecognizeEntitiesResultCollection(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); } ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzePiiEntityRecognitionWithCategoriesFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzePiiEntityRecognitionWithCategoriesFiltersRunner( (documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult(false, null, TIME_NOW, getExpectedBatchPiiEntitiesForCategoriesFilter(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); } ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzePiiEntityRecognitionWithDomainFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzePiiEntityRecognitionWithDomainFiltersRunner( (documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult(false, null, TIME_NOW, getExpectedBatchPiiEntitiesForDomainFilter(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); } ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("Linked entity recognition action doesn't contains bingId property. https: public void analyzeLinkedEntityActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeLinkedEntityRecognitionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList( false, false, asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult(false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollection(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()) )), result.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeKeyPhrasesExtractionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult(false, null, TIME_NOW, getExtractKeyPhrasesResultCollection(), null))), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); }); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult(false, null, TIME_NOW, getExpectedBatchTextSentiment(), null))))), result.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeCustomEntitiesAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCustomEntitiesActionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach( actionsResult -> actionsResult.getRecognizeCustomEntitiesResults().forEach( customEntitiesActionResult -> customEntitiesActionResult.getDocumentsResults().forEach( documentResult -> validateCategorizedEntities( documentResult.getEntities().stream().collect(Collectors.toList()))))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void singleLabelClassificationAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomSingleCategoryActionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach( actionsResult -> actionsResult.getSingleLabelClassifyResults().forEach( customSingleCategoryActionResult -> customSingleCategoryActionResult.getDocumentsResults().forEach( documentResult -> validateLabelClassificationResult(documentResult)))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void multiCategoryClassifyAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomMultiCategoryActionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach( actionsResult -> actionsResult.getMultiLabelClassifyResults().forEach( customMultiCategoryActionResult -> customMultiCategoryActionResult.getDocumentsResults().forEach( documentResult -> validateLabelClassificationResult(documentResult)))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeCustomEntities(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCustomEntitiesRunner((documents, parameters) -> { SyncPoller<RecognizeCustomEntitiesOperationDetail, RecognizeCustomEntitiesPagedFlux> syncPoller = client.beginRecognizeCustomEntities(documents, parameters.get(0), parameters.get(1), "en", new RecognizeCustomEntitiesOptions().setDisplayName("operationName")).getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<RecognizeCustomEntitiesOperationDetail> pollResponse = syncPoller.waitForCompletion(); assertEquals("operationName", pollResponse.getValue().getDisplayName()); RecognizeCustomEntitiesPagedFlux pagedFlux = syncPoller.getFinalResult(); pagedFlux.toStream().collect(Collectors.toList()).forEach(resultCollection -> resultCollection.forEach(documentResult -> validateCategorizedEntities(documentResult.getEntities().stream().collect(Collectors.toList())))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void singleLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomSingleLabelRunner((documents, parameters) -> { SyncPoller<ClassifyDocumentOperationDetail, ClassifyDocumentPagedFlux> syncPoller = client.beginSingleLabelClassify(documents, parameters.get(0), parameters.get(1), "en", new SingleLabelClassifyOptions().setDisplayName("operationName")).getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<ClassifyDocumentOperationDetail> pollResponse = syncPoller.waitForCompletion(); assertEquals("operationName", pollResponse.getValue().getDisplayName()); ClassifyDocumentPagedFlux pagedFlux = syncPoller.getFinalResult(); pagedFlux.toStream().collect(Collectors.toList()).forEach(resultCollection -> resultCollection.forEach(documentResult -> validateLabelClassificationResult(documentResult))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils }	class TextAnalyticsAsyncClientTest extends TextAnalyticsClientTestBase { private TextAnalyticsAsyncClient client; @BeforeAll static void beforeAll() { StepVerifier.setDefaultTimeout(Duration.ofSeconds(30)); } @AfterAll static void afterAll() { StepVerifier.resetDefaultTimeout(); } private TextAnalyticsAsyncClient getTextAnalyticsAsyncClient(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { return getTextAnalyticsAsyncClientBuilder(httpClient, serviceVersion).buildAsyncClient(); } /** * Verify that we can get statistics on the collection result when given a batch of documents with request options. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageShowStatisticsRunner((inputs, options) -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, options)) .assertNext(response -> validateDetectLanguageResultCollectionWithResponse(true, getExpectedBatchDetectedLanguages(), 200, response)) .verifyComplete()); } /* * Test to detect language for each {@code DetectLanguageResult} input of a batch. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageRunner((inputs) -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, null)) .assertNext(response -> validateDetectLanguageResultCollectionWithResponse(false, getExpectedBatchDetectedLanguages(), 200, response)) .verifyComplete()); } /* * Test to detect language for each string input of batch with given country hint. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchListCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguagesCountryHintRunner((inputs, countryHint) -> StepVerifier.create(client.detectLanguageBatch(inputs, countryHint, null)) .assertNext(actualResults -> validateDetectLanguageResultCollection(false, getExpectedBatchDetectedLanguages(), actualResults)) .verifyComplete()); } /* * Test to detect language for each string input of batch with request options. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchListCountryHintWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguagesBatchListCountryHintWithOptionsRunner((inputs, options) -> StepVerifier.create(client.detectLanguageBatch(inputs, null, options)) .assertNext(response -> validateDetectLanguageResultCollection(true, getExpectedBatchDetectedLanguages(), response)) .verifyComplete()); } /* * Test to detect language for each string input of batch. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguagesBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageStringInputRunner((inputs) -> StepVerifier.create(client.detectLanguageBatch(inputs, null, null)) .assertNext(response -> validateDetectLanguageResultCollection(false, getExpectedBatchDetectedLanguages(), response)) .verifyComplete()); } /* * Verifies that a single DetectedLanguage is returned for a document to detectLanguage. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectSingleTextLanguage(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectSingleTextLanguageRunner(input -> StepVerifier.create(client.detectLanguage(input)) .assertNext(response -> validatePrimaryLanguage(getDetectedLanguageEnglish(), response)) .verifyComplete()); } /* * Verifies that an TextAnalyticsException is thrown for a document with invalid country hint. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageInvalidCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageInvalidCountryHintRunner((input, countryHint) -> StepVerifier.create(client.detectLanguage(input, countryHint)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_COUNTRY_HINT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } /* * Verifies that TextAnalyticsException is thrown for an empty document. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.detectLanguage(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } /* * Verifies that a bad request exception is returned for input documents with same ids. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageDuplicateIdRunner((inputs, options) -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, options)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } /* * Verifies that an invalid document exception is returned for input documents with an empty ID. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageInputEmptyIdRunner(inputs -> StepVerifier.create(client.detectLanguageBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } /* * Verify that with countryHint with empty string will not throw exception. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageEmptyCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageEmptyCountryHintRunner((input, countryHint) -> StepVerifier.create(client.detectLanguage(input, countryHint)) .assertNext(response -> validatePrimaryLanguage(getDetectedLanguageSpanish(), response)) .verifyComplete()); } /* * Verify that with countryHint with "none" will not throw exception. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void detectLanguageNoneCountryHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); detectLanguageNoneCountryHintRunner((input, countryHint) -> StepVerifier.create(client.detectLanguage(input, countryHint)) .assertNext(response -> validatePrimaryLanguage(getDetectedLanguageSpanish(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntitiesForSingleTextInputRunner(input -> StepVerifier.create(client.recognizeEntities(input)) .assertNext(response -> validateCategorizedEntities(response.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.recognizeEntities(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify() ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntityDuplicateIdRunner(inputs -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchCategorizedEntitySingleErrorRunner((inputs) -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .assertNext(resultCollection -> resultCollection.getValue().forEach(recognizeEntitiesResult -> { Exception exception = assertThrows(TextAnalyticsException.class, recognizeEntitiesResult::getEntities); assertEquals(String.format(BATCH_ERROR_EXCEPTION_MESSAGE, "RecognizeEntitiesResult"), exception.getMessage()); })).verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchCategorizedEntityRunner((inputs) -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, null)) .assertNext(response -> validateCategorizedEntitiesResultCollectionWithResponse(false, getExpectedBatchCategorizedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchCategorizedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeEntitiesBatchWithResponse(inputs, options)) .assertNext(response -> validateCategorizedEntitiesResultCollectionWithResponse(true, getExpectedBatchCategorizedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntityStringInputRunner((inputs) -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, null, null)) .assertNext(response -> validateCategorizedEntitiesResultCollection(false, getExpectedBatchCategorizedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCategorizedEntitiesLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, language, null)) .assertNext(response -> validateCategorizedEntitiesResultCollection(false, getExpectedBatchCategorizedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesForListWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchCategorizedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, null, options)) .assertNext(response -> validateCategorizedEntitiesResultCollection(true, getExpectedBatchCategorizedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.recognizeEntitiesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(13, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void recognizeEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(15, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(22, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(30, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(14, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(15, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(13, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(13, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner(document -> StepVerifier.create(client.recognizeEntities(document)) .assertNext(result -> result.forEach(categorizedEntity -> { assertEquals(9, categorizedEntity.getLength()); assertEquals(126, categorizedEntity.getOffset()); })).verifyComplete(), CATEGORIZED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiSingleDocumentRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(response -> validatePiiEntities(getPiiEntitiesList1(), response.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntityDuplicateIdRunner(inputs -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesBatchInputSingleError(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitySingleErrorRunner((inputs) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .assertNext(resultCollection -> resultCollection.getValue().forEach(recognizePiiEntitiesResult -> { Exception exception = assertThrows(TextAnalyticsException.class, recognizePiiEntitiesResult::getEntities); assertEquals(String.format(BATCH_ERROR_EXCEPTION_MESSAGE, "RecognizePiiEntitiesResult"), exception.getMessage()); })).verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitiesRunner((inputs) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, null)) .assertNext(response -> validatePiiEntitiesResultCollectionWithResponse(false, getExpectedBatchPiiEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, options)) .assertNext(response -> validatePiiEntitiesResultCollectionWithResponse(true, getExpectedBatchPiiEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, language, null)) .assertNext(response -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchPiiEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, null, options)) .assertNext(response -> validatePiiEntitiesResultCollection(true, getExpectedBatchPiiEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(8, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void recognizePiiEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(10, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(17, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(25, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(9, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(10, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(8, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(8, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner(document -> StepVerifier.create(client.recognizePiiEntities(document)) .assertNext(result -> result.forEach(piiEntity -> { assertEquals(11, piiEntity.getLength()); assertEquals(121, piiEntity.getOffset()); })).verifyComplete(), PII_ENTITY_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiDomainFilterRunner((document, options) -> StepVerifier.create(client.recognizePiiEntities(document, "en", options)) .assertNext(response -> validatePiiEntities(getPiiEntitiesList1ForDomainFilter(), response.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputStringForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizePiiLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, language, new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION))) .assertNext(response -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForDomainFilter(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputForDomainFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchPiiEntitiesRunner((inputs) -> StepVerifier.create(client.recognizePiiEntitiesBatchWithResponse(inputs, new RecognizePiiEntitiesOptions().setDomainFilter(PiiEntityDomain.PROTECTED_HEALTH_INFORMATION))) .assertNext(response -> validatePiiEntitiesResultCollectionWithResponse(false, getExpectedBatchPiiEntitiesForDomainFilter(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntitiesForBatchInputForCategoriesFilter(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( (inputs, options) -> StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, "en", options)) .assertNext( resultCollection -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForCategoriesFilter(), resultCollection)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizePiiEntityWithCategoriesFilterFromOtherResult(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeStringBatchPiiEntitiesForCategoriesFilterRunner( (inputs, options) -> { List<PiiEntityCategory> categories = new ArrayList<>(); StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, "en", options)) .assertNext( resultCollection -> { resultCollection.forEach(result -> result.getEntities().forEach(piiEntity -> { final PiiEntityCategory category = piiEntity.getCategory(); if (PiiEntityCategory.ABA_ROUTING_NUMBER == category \|\| PiiEntityCategory.US_SOCIAL_SECURITY_NUMBER == category) { categories.add(category); } })); validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForCategoriesFilter(), resultCollection); }) .verifyComplete(); final PiiEntityCategory[] piiEntityCategories = categories.toArray(new PiiEntityCategory[categories.size()]); options.setCategoriesFilter(piiEntityCategories); StepVerifier.create(client.recognizePiiEntitiesBatch(inputs, "en", options)) .assertNext( resultCollection -> validatePiiEntitiesResultCollection(false, getExpectedBatchPiiEntitiesForCategoriesFilter(), resultCollection)) .verifyComplete(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeLinkedEntitiesForSingleTextInputRunner(input -> StepVerifier.create(client.recognizeLinkedEntities(input)) .assertNext(response -> validateLinkedEntity(getLinkedEntitiesList1().get(0), response.iterator().next())) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.recognizeLinkedEntities(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchLinkedEntityDuplicateIdRunner(inputs -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchLinkedEntityRunner((inputs) -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, null)) .assertNext(response -> validateLinkedEntitiesResultCollectionWithResponse(false, getExpectedBatchLinkedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchLinkedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeLinkedEntitiesBatchWithResponse(inputs, options)) .assertNext(response -> validateLinkedEntitiesResultCollectionWithResponse(true, getExpectedBatchLinkedEntities(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeLinkedStringInputRunner((inputs) -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, null, null)) .assertNext(response -> validateLinkedEntitiesResultCollection(false, getExpectedBatchLinkedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeLinkedLanguageHintRunner((inputs, language) -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, language, null)) .assertNext(response -> validateLinkedEntitiesResultCollection(false, getExpectedBatchLinkedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeBatchStringLinkedEntitiesShowStatsRunner((inputs, options) -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, null, options)) .assertNext(response -> validateLinkedEntitiesResultCollection(true, getExpectedBatchLinkedEntities(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.recognizeLinkedEntitiesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(13, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void recognizeLinkedEntitiesBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(15, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(22, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesEmojiFamilyWIthSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(30, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(14, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(15, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(13, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(13, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeLinkedEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner(document -> StepVerifier.create(client.recognizeLinkedEntities(document)) .assertNext(result -> result.forEach(linkedEntity -> { linkedEntity.getMatches().forEach(linkedEntityMatch -> { assertEquals(9, linkedEntityMatch.getLength()); assertEquals(126, linkedEntityMatch.getOffset()); }); })).verifyComplete(), LINKED_ENTITY_INPUTS.get(1) ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesForSingleTextInputRunner(input -> StepVerifier.create(client.extractKeyPhrases(input)) .assertNext(keyPhrasesCollection -> validateKeyPhrases(asList("Bonjour", "monde"), keyPhrasesCollection.stream().collect(Collectors.toList()))) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(input -> StepVerifier.create(client.extractKeyPhrases(input)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchKeyPhrasesDuplicateIdRunner(inputs -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForBatchInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchKeyPhrasesRunner((inputs) -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .assertNext(response -> validateExtractKeyPhrasesResultCollectionWithResponse(false, getExpectedBatchKeyPhrases(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchKeyPhrasesShowStatsRunner((inputs, options) -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, options)) .assertNext(response -> validateExtractKeyPhrasesResultCollectionWithResponse(true, getExpectedBatchKeyPhrases(), 200, response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesStringInputRunner((inputs) -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, null, null)) .assertNext(response -> validateExtractKeyPhrasesResultCollection(false, getExpectedBatchKeyPhrases(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForListLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesLanguageHintRunner((inputs, language) -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, language, null)) .assertNext(response -> validateExtractKeyPhrasesResultCollection(false, getExpectedBatchKeyPhrases(), response)) .verifyComplete()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesForListStringWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractBatchStringKeyPhrasesShowStatsRunner((inputs, options) -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, null, options)) .assertNext(response -> validateExtractKeyPhrasesResultCollection(true, getExpectedBatchKeyPhrases(), response)) .verifyComplete()); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesWarningRunner( input -> StepVerifier.create(client.extractKeyPhrases(input)) .assertNext(keyPhrasesResult -> { keyPhrasesResult.getWarnings().forEach(warning -> { assertTrue(WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE.equals(warning.getMessage())); assertTrue(LONG_WORDS_IN_DOCUMENT.equals(warning.getWarningCode())); }); }) .verifyComplete() ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesBatchWarning(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesBatchWarningRunner( inputs -> StepVerifier.create(client.extractKeyPhrasesBatchWithResponse(inputs, null)) .assertNext(response -> response.getValue().forEach(keyPhrasesResult -> keyPhrasesResult.getKeyPhrases().getWarnings().forEach(warning -> { assertTrue(WARNING_TOO_LONG_DOCUMENT_INPUT_MESSAGE.equals(warning.getMessage())); assertTrue(LONG_WORDS_IN_DOCUMENT.equals(warning.getWarningCode())); }) )) .verifyComplete() ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void extractKeyPhrasesBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.extractKeyPhrasesBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } /* * Test analyzing sentiment for a string input. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForTextInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentForSingleTextInputRunner(input -> StepVerifier.create(client.analyzeSentiment(input)) .assertNext(response -> validateDocumentSentiment(false, getExpectedDocumentSentiment(), response)) .verifyComplete() ); } /* * Test analyzing sentiment for a string input with default language hint. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForTextInputWithDefaultLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentForSingleTextInputRunner(input -> StepVerifier.create(client.analyzeSentiment(input, null)) .assertNext(response -> validateDocumentSentiment(false, getExpectedDocumentSentiment(), response)) .verifyComplete() ); } /* * Test analyzing sentiment for a string input and verifying the result of opinion mining. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForTextInputWithOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentForTextInputWithOpinionMiningRunner((input, options) -> StepVerifier.create(client.analyzeSentiment(input, "en", options)) .assertNext(response -> validateDocumentSentiment(true, getExpectedDocumentSentiment(), response)) .verifyComplete()); } /* * Verifies that an TextAnalyticsException is thrown for an empty document. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForEmptyText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyTextRunner(document -> StepVerifier.create(client.analyzeSentiment(document)) .expectErrorMatches(throwable -> throwable instanceof TextAnalyticsException && INVALID_DOCUMENT.equals(((TextAnalyticsException) throwable).getErrorCode())) .verify() ); } /* * Test analyzing sentiment for a duplicate ID list. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentDuplicateIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentDuplicateIdRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, new TextAnalyticsRequestOptions())) .verifyErrorSatisfies(ex -> assertEquals(HttpResponseException.class, ex.getClass()))); } /* * Verifies that an invalid document exception is returned for input documents with an empty ID. / @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmptyIdInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); textAnalyticsInputEmptyIdRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT, textAnalyticsError.getErrorCode()); })); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * String documents with null TextAnalyticsRequestOptions and null language code which will use the default language * code, 'en'. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions is null and null language code which will use the default language code, 'en'. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchStringInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentStringInputRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, new TextAnalyticsRequestOptions())) .assertNext(response -> validateAnalyzeSentimentResultCollection(false, false, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * String documents with null TextAnalyticsRequestOptions and given a language code. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions is null and given a language code. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringWithLanguageHint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentLanguageHintRunner((inputs, language) -> StepVerifier.create(client.analyzeSentimentBatch(inputs, language, new TextAnalyticsRequestOptions())) .assertNext(response -> validateAnalyzeSentimentResultCollection(false, false, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result includes request statistics but not sentence options when given a batch of * String documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which to show the request statistics only and verify the analyzed sentiment result. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, options.setIncludeOpinionMining(false))) .assertNext(response -> validateAnalyzeSentimentResultCollection(true, false, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result includes sentence options but not request statistics when given a batch of * String documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining and request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner((inputs, options) -> { options.setIncludeStatistics(false); StepVerifier.create(client.analyzeSentimentBatch(inputs, null, options)) .assertNext(response -> validateAnalyzeSentimentResultCollection(false, true, getExpectedBatchTextSentiment(), response)) .verifyComplete(); }); } /* * Verify that the collection result includes sentence options and request statistics when given a batch of * String documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining and request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForListStringShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchStringSentimentShowStatsAndIncludeOpinionMiningRunner((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, options)) .assertNext(response -> validateAnalyzeSentimentResultCollection(true, true, getExpectedBatchTextSentiment(), response)) .verifyComplete()); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * TextDocumentInput documents with null TextAnalyticsRequestOptions. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions is null. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputWithNullRequestOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, (TextAnalyticsRequestOptions) null)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(false, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that we can get statistics on the collection result when given a batch of * TextDocumentInput documents with TextAnalyticsRequestOptions. * * {@link TextAnalyticsAsyncClient * which TextAnalyticsRequestOptions includes request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputShowStatistics(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentShowStatsRunner((inputs, requestOptions) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, requestOptions)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(true, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that the collection result excludes request statistics and sentence options when given a batch of * TextDocumentInput documents with null AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions is null. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputWithNullAnalyzeSentimentOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, (AnalyzeSentimentOptions) null)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(false, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that the collection result includes request statistics but not sentence options when given a batch of * TextDocumentInput documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes request statistics but not opinion mining. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputShowStatisticsExcludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, options.setIncludeOpinionMining(false))) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(true, false, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verify that the collection result includes sentence options but not request statistics when given a batch of * TextDocumentInput documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining but not request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputNotShowStatisticsButIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> { options.setIncludeStatistics(false); StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, options)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(false, true, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete(); }); } /* * Verify that the collection result includes sentence options and request statistics when given a batch of * TextDocumentInput documents with AnalyzeSentimentOptions. * * {@link TextAnalyticsAsyncClient * which AnalyzeSentimentOptions includes opinion mining and request statistics. / @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentForBatchInputShowStatisticsAndIncludeOpinionMining(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchSentimentOpinionMining((inputs, options) -> StepVerifier.create(client.analyzeSentimentBatchWithResponse(inputs, options)) .assertNext(response -> validateAnalyzeSentimentResultCollectionWithResponse(true, true, getExpectedBatchTextSentiment(), 200, response)) .verifyComplete()); } /* * Verifies that an InvalidDocumentBatch exception is returned for input documents with too many documents. */ @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentBatchTooManyDocuments(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); tooManyDocumentsRunner(inputs -> StepVerifier.create(client.analyzeSentimentBatch(inputs, null, null)) .verifyErrorSatisfies(ex -> { final HttpResponseException httpResponseException = (HttpResponseException) ex; assertEquals(400, httpResponseException.getResponse().getStatusCode()); final TextAnalyticsError textAnalyticsError = (TextAnalyticsError) httpResponseException.getValue(); assertEquals(INVALID_DOCUMENT_BATCH, textAnalyticsError.getErrorCode()); })); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(25, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(opinionSentiment -> { assertEquals(7, opinionSentiment.getLength()); assertEquals(17, opinionSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(7, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeSentimentBatchWithResponseEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(27, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(19, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(9, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext( result -> result.getSentences().forEach( sentenceSentiment -> { assertEquals(34, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(26, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(16, targetSentiment.getOffset()); }); }) ) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext( result -> result.getSentences().forEach( sentenceSentiment -> { assertEquals(42, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(34, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(24, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(26, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(18, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(8, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach( sentenceSentiment -> { assertEquals(27, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(19, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(9, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(25, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(17, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(7, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(25, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(17, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(7, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner( document -> StepVerifier.create(client.analyzeSentiment(document, null, new AnalyzeSentimentOptions().setIncludeOpinionMining(true))) .assertNext(result -> result.getSentences().forEach(sentenceSentiment -> { assertEquals(138, sentenceSentiment.getLength()); assertEquals(0, sentenceSentiment.getOffset()); sentenceSentiment.getOpinions().forEach(opinion -> { opinion.getAssessments().forEach(assessmentSentiment -> { assertEquals(7, assessmentSentiment.getLength()); assertEquals(130, assessmentSentiment.getOffset()); }); final TargetSentiment targetSentiment = opinion.getTarget(); assertEquals(5, targetSentiment.getLength()); assertEquals(120, targetSentiment.getOffset()); }); })) .verifyComplete(), SENTIMENT_OFFSET_INPUT ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void healthcareLroPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); healthcareLroPaginationRunner((documents, options) -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); validateAnalyzeHealthcareEntitiesResultCollectionList( options.isIncludeStatistics(), getExpectedAnalyzeHealthcareEntitiesResultCollectionListForMultiplePages(0, 10, 0), analyzeHealthcareEntitiesPagedFlux.toStream().collect(Collectors.toList())); }, 10); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void healthcareLroWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); healthcareLroRunner((documents, options) -> { boolean isValidApiVersionForDisplayName = serviceVersion != TextAnalyticsServiceVersion.V3_0 && serviceVersion != TextAnalyticsServiceVersion.V3_1; if (isValidApiVersionForDisplayName) { options.setDisplayName("operationName"); } SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<AnalyzeHealthcareEntitiesOperationDetail> pollResponse = syncPoller.waitForCompletion(); if (isValidApiVersionForDisplayName) { assertEquals(options.getDisplayName(), pollResponse.getValue().getDisplayName()); } AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); validateAnalyzeHealthcareEntitiesResultCollectionList( options.isIncludeStatistics(), getExpectedAnalyzeHealthcareEntitiesResultCollectionListForSinglePage(), analyzeHealthcareEntitiesPagedFlux.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void healthcareLroEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyListRunner((documents, errorMessage) -> { StepVerifier.create(client.beginAnalyzeHealthcareEntities(documents, null)) .expectErrorMatches(throwable -> throwable instanceof IllegalArgumentException && errorMessage.equals(throwable.getMessage())) .verify(); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeHealthcareEntitiesEmojiUnicodeCodePoint(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmoji(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(20, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmojiWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiWithSkinToneModifierRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(22, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmojiFamily(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(29, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesEmojiFamilyWithSkinToneModifier(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emojiFamilyWithSkinToneModifierRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(37, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeHealthcareEntitiesDiacriticsNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfcRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(21, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzeHealthcareEntitiesDiacriticsNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); diacriticsNfdRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(22, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesKoreanNfc(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfcRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(20, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesKoreanNfd(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); koreanNfdRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(20, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesZalgoText(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); zalgoTextRunner( document -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities( Collections.singletonList(new TextDocumentInput("0", document)), null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); analyzeHealthcareEntitiesPagedFlux.toStream().forEach(result -> result.forEach( entitiesResult -> entitiesResult.getEntities().forEach( entity -> { assertEquals(11, entity.getLength()); assertEquals(133, entity.getOffset()); }))); }, HEALTHCARE_ENTITY_OFFSET_INPUT); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeHealthcareEntitiesForAssertion(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeHealthcareEntitiesForAssertionRunner((documents, options) -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, "en", options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeHealthcareEntitiesPagedFlux analyzeHealthcareEntitiesPagedFlux = syncPoller.getFinalResult(); final HealthcareEntityAssertion assertion = analyzeHealthcareEntitiesPagedFlux.toStream().collect(Collectors.toList()) .get(0).stream().collect(Collectors.toList()) .get(0).getEntities().stream().collect(Collectors.toList()) .get(1) .getAssertion(); assertEquals(EntityConditionality.HYPOTHETICAL, assertion.getConditionality()); assertNull(assertion.getAssociation()); assertNull(assertion.getCertainty()); }); } @Disabled("Temporary disable it for green test") @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void cancelHealthcareLro(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); cancelHealthcareLroRunner((documents, options) -> { SyncPoller<AnalyzeHealthcareEntitiesOperationDetail, AnalyzeHealthcareEntitiesPagedFlux> syncPoller = client.beginAnalyzeHealthcareEntities(documents, options).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.cancelOperation(); LongRunningOperationStatus operationStatus = syncPoller.poll().getStatus(); while (!LongRunningOperationStatus.USER_CANCELLED.equals(operationStatus)) { operationStatus = syncPoller.poll().getStatus(); } syncPoller.waitForCompletion(); Assertions.assertEquals(LongRunningOperationStatus.USER_CANCELLED, operationStatus); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsWithOptions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchActionsRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult(false, null, TIME_NOW, getRecognizeEntitiesResultCollection(), null))), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult(false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollectionForActions(), null))), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult(false, null, TIME_NOW, getRecognizePiiEntitiesResultCollection(), null))), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult(false, null, TIME_NOW, getExtractKeyPhrasesResultCollection(), null))), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult(false, null, TIME_NOW, getAnalyzeSentimentResultCollectionForActions(), null))))), result.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsWithMultiSameKindActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeActionsWithMultiSameKindActionsRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach(actionsResult -> { assertEquals(2, actionsResult.getRecognizeEntitiesResults().stream().count()); assertEquals(2, actionsResult.getRecognizePiiEntitiesResults().stream().count()); assertEquals(2, actionsResult.getRecognizeLinkedEntitiesResults().stream().count()); assertEquals(2, actionsResult.getAnalyzeSentimentResults().stream().count()); assertEquals(2, actionsResult.getExtractKeyPhrasesResults().stream().count()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsWithActionNames(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeActionsWithActionNamesRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach(actionsResult -> { assertEquals(CUSTOM_ACTION_NAME, actionsResult.getRecognizeEntitiesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getRecognizePiiEntitiesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getRecognizeLinkedEntitiesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getAnalyzeSentimentResults().stream() .collect(Collectors.toList()).get(0).getActionName()); assertEquals(CUSTOM_ACTION_NAME, actionsResult.getExtractKeyPhrasesResults().stream() .collect(Collectors.toList()).get(0).getActionName()); }); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsPagination(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeBatchActionsPaginationRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions( documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, getExpectedAnalyzeActionsResultListForMultiplePages(0, 20, 2), result.toStream().collect(Collectors.toList())); }, 22); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeActionsEmptyInput(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); emptyListRunner((documents, errorMessage) -> StepVerifier.create(client.beginAnalyzeActions(documents, new TextAnalyticsActions() .setRecognizeEntitiesActions(new RecognizeEntitiesAction()), null)) .expectErrorMatches(throwable -> throwable instanceof IllegalArgumentException && errorMessage.equals(throwable.getMessage())) .verify()); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeEntitiesRecognitionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeEntitiesRecognitionRunner( (documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(asList(getExpectedRecognizeEntitiesActionResult(false, null, TIME_NOW, getRecognizeEntitiesResultCollection(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); } ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzePiiEntityRecognitionWithCategoriesFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzePiiEntityRecognitionWithCategoriesFiltersRunner( (documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult(false, null, TIME_NOW, getExpectedBatchPiiEntitiesForCategoriesFilter(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); } ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("https: public void analyzePiiEntityRecognitionWithDomainFilters(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzePiiEntityRecognitionWithDomainFiltersRunner( (documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, Arrays.asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedRecognizePiiEntitiesActionResult(false, null, TIME_NOW, getExpectedBatchPiiEntitiesForDomainFilter(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); } ); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils @Disabled("Linked entity recognition action doesn't contains bingId property. https: public void analyzeLinkedEntityActions(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeLinkedEntityRecognitionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList( false, false, asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedRecognizeLinkedEntitiesActionResult(false, null, TIME_NOW, getRecognizeLinkedEntitiesResultCollection(), null))), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()) )), result.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeKeyPhrasesExtractionAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); extractKeyPhrasesRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedExtractKeyPhrasesActionResult(false, null, TIME_NOW, getExtractKeyPhrasesResultCollection(), null))), IterableStream.of(Collections.emptyList()))), result.toStream().collect(Collectors.toList())); }); } @Disabled("https: @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void analyzeSentimentAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); analyzeSentimentRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", new AnalyzeActionsOptions().setIncludeStatistics(false)).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); validateAnalyzeBatchActionsResultList(false, false, asList(getExpectedAnalyzeBatchActionsResult( IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(Collections.emptyList()), IterableStream.of(asList(getExpectedAnalyzeSentimentActionResult(false, null, TIME_NOW, getExpectedBatchTextSentiment(), null))))), result.toStream().collect(Collectors.toList())); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeCustomEntitiesAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCustomEntitiesActionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach( actionsResult -> actionsResult.getRecognizeCustomEntitiesResults().forEach( customEntitiesActionResult -> customEntitiesActionResult.getDocumentsResults().forEach( documentResult -> validateCategorizedEntities( documentResult.getEntities().stream().collect(Collectors.toList()))))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void singleLabelClassificationAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomSingleCategoryActionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach( actionsResult -> actionsResult.getSingleLabelClassifyResults().forEach( customSingleCategoryActionResult -> customSingleCategoryActionResult.getDocumentsResults().forEach( documentResult -> validateLabelClassificationResult(documentResult)))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void multiCategoryClassifyAction(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomMultiCategoryActionRunner((documents, tasks) -> { SyncPoller<AnalyzeActionsOperationDetail, AnalyzeActionsResultPagedFlux> syncPoller = client.beginAnalyzeActions(documents, tasks, "en", null).getSyncPoller(); syncPoller = setPollInterval(syncPoller); syncPoller.waitForCompletion(); AnalyzeActionsResultPagedFlux result = syncPoller.getFinalResult(); final List<AnalyzeActionsResult> actionsResults = result.toStream().collect(Collectors.toList()); actionsResults.forEach( actionsResult -> actionsResult.getMultiLabelClassifyResults().forEach( customMultiCategoryActionResult -> customMultiCategoryActionResult.getDocumentsResults().forEach( documentResult -> validateLabelClassificationResult(documentResult)))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void recognizeCustomEntities(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); recognizeCustomEntitiesRunner((documents, parameters) -> { RecognizeCustomEntitiesOptions options = new RecognizeCustomEntitiesOptions() .setDisplayName("operationName"); SyncPoller<RecognizeCustomEntitiesOperationDetail, RecognizeCustomEntitiesPagedFlux> syncPoller = client.beginRecognizeCustomEntities(documents, parameters.get(0), parameters.get(1), "en", options) .getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<RecognizeCustomEntitiesOperationDetail> pollResponse = syncPoller.waitForCompletion(); assertEquals(options.getDisplayName(), pollResponse.getValue().getDisplayName()); RecognizeCustomEntitiesPagedFlux pagedFlux = syncPoller.getFinalResult(); pagedFlux.toStream().collect(Collectors.toList()).forEach(resultCollection -> resultCollection.forEach(documentResult -> validateCategorizedEntities(documentResult.getEntities().stream().collect(Collectors.toList())))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils public void singleLabelClassification(HttpClient httpClient, TextAnalyticsServiceVersion serviceVersion) { client = getTextAnalyticsAsyncClient(httpClient, serviceVersion); classifyCustomSingleLabelRunner((documents, parameters) -> { SingleLabelClassifyOptions options = new SingleLabelClassifyOptions().setDisplayName("operationName"); SyncPoller<ClassifyDocumentOperationDetail, ClassifyDocumentPagedFlux> syncPoller = client.beginSingleLabelClassify(documents, parameters.get(0), parameters.get(1), "en", options) .getSyncPoller(); syncPoller = setPollInterval(syncPoller); PollResponse<ClassifyDocumentOperationDetail> pollResponse = syncPoller.waitForCompletion(); assertEquals(options.getDisplayName(), pollResponse.getValue().getDisplayName()); ClassifyDocumentPagedFlux pagedFlux = syncPoller.getFinalResult(); pagedFlux.toStream().collect(Collectors.toList()).forEach(resultCollection -> resultCollection.forEach(documentResult -> validateLabelClassificationResult(documentResult))); }); } @ParameterizedTest(name = DISPLAY_NAME_WITH_ARGUMENTS) @MethodSource("com.azure.ai.textanalytics.TestUtils }
retry code	private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); }	}	private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }
retry code	private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); }	}	private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }
do we have a test to cover this case?	public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); }		public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }
no test case, live test locally with change in code (and an invalid appId)	public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); }		public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }
Irrelevant: maybe we can put the refresh logic outside `submitCredentialsAsync`, since it's related more closely to refresh of `ServicePrincipal` rather than submitting credentials	private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); }	.then(Mono.defer(() -> {	private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }
pure format change?	private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); }	.flatMap(roleEntry -> manager()	private Mono<ServicePrincipal> submitRolesAsync(final ServicePrincipal servicePrincipal) { Mono<ServicePrincipal> create; if (rolesToCreate.isEmpty()) { create = Mono.just(servicePrincipal); } else { create = Flux .fromIterable(rolesToCreate.entrySet()) .flatMap(roleEntry -> manager() .roleAssignments() .define(this.manager().internalContext().randomUuid()) .forServicePrincipal(servicePrincipal) .withBuiltInRole(roleEntry.getValue()) .withScope(roleEntry.getKey()) .createAsync()) .doOnNext( indexable -> cachedRoleAssignments.put(indexable.id(), indexable)) .last() .map( indexable -> { rolesToCreate.clear(); return servicePrincipal; }); } Mono<ServicePrincipal> delete; if (rolesToDelete.isEmpty()) { delete = Mono.just(servicePrincipal); } else { delete = Flux .fromIterable(rolesToDelete) .flatMap( role -> manager() .roleAssignments() .deleteByIdAsync(cachedRoleAssignments.get(role).id()) .thenReturn(role)) .doOnNext(s -> cachedRoleAssignments.remove(s)) .last() .map( s -> { rolesToDelete.clear(); return servicePrincipal; }); } return create.mergeWith(delete).last(); }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }	class ServicePrincipalImpl extends CreatableUpdatableImpl<ServicePrincipal, MicrosoftGraphServicePrincipalInner, ServicePrincipalImpl> implements ServicePrincipal, ServicePrincipal.Definition, ServicePrincipal.Update, HasCredential<ServicePrincipalImpl> { private AuthorizationManager manager; private Map<String, PasswordCredential> cachedPasswordCredentials; private Map<String, CertificateCredential> cachedCertificateCredentials; private Map<String, RoleAssignment> cachedRoleAssignments; private Creatable<ActiveDirectoryApplication> applicationCreatable; private Map<String, BuiltInRole> rolesToCreate; private Set<String> rolesToDelete; String assignedSubscription; private List<CertificateCredentialImpl<?>> certificateCredentialsToCreate; private List<PasswordCredentialImpl<?>> passwordCredentialsToCreate; ServicePrincipalImpl(MicrosoftGraphServicePrincipalInner innerObject, AuthorizationManager manager) { super(innerObject.displayName(), innerObject); this.manager = manager; this.cachedRoleAssignments = new HashMap<>(); this.rolesToCreate = new HashMap<>(); this.rolesToDelete = new HashSet<>(); this.cachedCertificateCredentials = new HashMap<>(); this.certificateCredentialsToCreate = new ArrayList<>(); this.cachedPasswordCredentials = new HashMap<>(); this.passwordCredentialsToCreate = new ArrayList<>(); this.refreshCredentials(innerObject); } @Override public String applicationId() { return innerModel().appId(); } @Override public List<String> servicePrincipalNames() { return innerModel().servicePrincipalNames(); } @Override public Map<String, PasswordCredential> passwordCredentials() { return Collections.unmodifiableMap(cachedPasswordCredentials); } @Override public Map<String, CertificateCredential> certificateCredentials() { return Collections.unmodifiableMap(cachedCertificateCredentials); } @Override public Set<RoleAssignment> roleAssignments() { return Collections.unmodifiableSet(new HashSet<>(cachedRoleAssignments.values())); } @Override protected Mono<MicrosoftGraphServicePrincipalInner> getInnerAsync() { return manager.serviceClient().getServicePrincipalsServicePrincipals().getServicePrincipalAsync(id()) .doOnSuccess(this::refreshCredentials); } @Override public Mono<ServicePrincipal> createResourceAsync() { Retry retry = isInCreateMode() ? RetryUtils.backoffRetryFor404ResourceNotFound() : null; Mono<ServicePrincipal> sp; if (isInCreateMode()) { innerModel().withAccountEnabled(true); if (applicationCreatable != null) { ActiveDirectoryApplication application = this.taskResult(applicationCreatable.key()); innerModel().withAppId(application.applicationId()); } sp = manager.serviceClient().getServicePrincipalsServicePrincipals() .createServicePrincipalAsync(innerModel()).map(innerToFluentMap(this)); if (applicationCreatable != null) { sp = sp.retryWhen(RetryUtils.backoffRetryFor400BadRequest()); } } else { sp = manager().serviceClient().getServicePrincipalsServicePrincipals() .updateServicePrincipalAsync(id(), new MicrosoftGraphServicePrincipalInner() .withKeyCredentials(innerModel().keyCredentials()) .withPasswordCredentials(innerModel().passwordCredentials()) ).then(refreshAsync()); } return sp .flatMap( servicePrincipal -> submitCredentialsAsync(servicePrincipal, retry) .mergeWith(submitRolesAsync(servicePrincipal)) .last()) .map( servicePrincipal -> { for (PasswordCredentialImpl<?> passwordCredential : passwordCredentialsToCreate) { passwordCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); passwordCredential.consumeSecret(); } for (CertificateCredentialImpl<?> certificateCredential : certificateCredentialsToCreate) { certificateCredential.exportAuthFile((ServicePrincipalImpl) servicePrincipal); } passwordCredentialsToCreate.clear(); certificateCredentialsToCreate.clear(); return servicePrincipal; }); } private Mono<ServicePrincipal> submitCredentialsAsync(final ServicePrincipal servicePrincipal, Retry retry) { return Flux.defer(() -> Flux.fromIterable(passwordCredentialsToCreate) .flatMap(passwordCredential -> { Mono<MicrosoftGraphPasswordCredentialInner> monoAddPassword = manager().serviceClient().getServicePrincipals() .addPasswordAsync(id(), new ServicePrincipalsAddPasswordRequestBodyInner() .withPasswordCredential(passwordCredential.innerModel())); if (retry != null) { monoAddPassword = monoAddPassword.retryWhen(retry); } monoAddPassword = monoAddPassword.doOnNext(passwordCredential::setInner); return monoAddPassword; }) ) .then(Mono.defer(() -> { Mono<ServicePrincipal> monoRefresh = refreshAsync(); if (retry != null) { monoRefresh = monoRefresh.retryWhen(retry); } return monoRefresh; })); } @Override public boolean isInCreateMode() { return id() == null; } void refreshCredentials(MicrosoftGraphServicePrincipalInner inner) { cachedCertificateCredentials.clear(); cachedPasswordCredentials.clear(); if (inner.keyCredentials() != null) { inner.keyCredentials().forEach(keyCredentialInner -> { CertificateCredential certificateCredential = new CertificateCredentialImpl<>(keyCredentialInner); cachedCertificateCredentials.put(certificateCredential.name(), certificateCredential); }); } if (inner.passwordCredentials() != null) { inner.passwordCredentials().forEach(passwordCredentialInner -> { PasswordCredential passwordCredential = new PasswordCredentialImpl<>(passwordCredentialInner); cachedPasswordCredentials.put(passwordCredential.name(), passwordCredential); }); } } @Override public Mono<ServicePrincipal> refreshAsync() { return getInnerAsync().map(innerToFluentMap(this)); } @Override public CertificateCredentialImpl<ServicePrincipalImpl> defineCertificateCredential(String name) { return new CertificateCredentialImpl<>(name, this); } @Override public PasswordCredentialImpl<ServicePrincipalImpl> definePasswordCredential(String name) { return new PasswordCredentialImpl<>(name, this); } @Override public ServicePrincipalImpl withoutCredential(String name) { if (cachedPasswordCredentials.containsKey(name)) { innerModel().passwordCredentials().remove(cachedPasswordCredentials.get(name).innerModel()); } else if (cachedCertificateCredentials.containsKey(name)) { innerModel().keyCredentials().remove(cachedCertificateCredentials.get(name).innerModel()); } return this; } @Override public ServicePrincipalImpl withCertificateCredential(CertificateCredentialImpl<?> credential) { this.certificateCredentialsToCreate.add(credential); if (innerModel().keyCredentials() == null) { innerModel().withKeyCredentials(new ArrayList<>()); } innerModel().keyCredentials().add(credential.innerModel()); return this; } @Override public ServicePrincipalImpl withPasswordCredential(PasswordCredentialImpl<?> credential) { this.passwordCredentialsToCreate.add(credential); return this; } @Override public ServicePrincipalImpl withExistingApplication(String id) { innerModel().withAppId(id); return this; } @Override public ServicePrincipalImpl withExistingApplication(ActiveDirectoryApplication application) { innerModel().withAppId(application.applicationId()); return this; } @Override public ServicePrincipalImpl withNewApplication(Creatable<ActiveDirectoryApplication> applicationCreatable) { this.addDependency(applicationCreatable); this.applicationCreatable = applicationCreatable; return this; } @Override public ServicePrincipalImpl withNewApplication(String signOnUrl) { return withNewApplication( manager.applications().define(name()).withSignOnUrl(signOnUrl).withIdentifierUrl(signOnUrl)); } @Override public ServicePrincipalImpl withNewApplication() { return withNewApplication( manager.applications().define(name())); } @Override public ServicePrincipalImpl withNewRole(BuiltInRole role, String scope) { this.rolesToCreate.put(scope, role); return this; } @Override public ServicePrincipalImpl withNewRoleInSubscription(BuiltInRole role, String subscriptionId) { this.assignedSubscription = subscriptionId; return withNewRole(role, "subscriptions/" + subscriptionId); } @Override public ServicePrincipalImpl withNewRoleInResourceGroup(BuiltInRole role, ResourceGroup resourceGroup) { return withNewRole(role, resourceGroup.id()); } @Override public Update withoutRole(RoleAssignment roleAssignment) { this.rolesToDelete.add(roleAssignment.id()); return this; } @Override public String id() { return innerModel().id(); } @Override public AuthorizationManager manager() { return this.manager; } }

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