| package URI; | |
| use strict; | |
| use warnings; | |
| our $VERSION = '5.34'; | |
| # 1=version 5.10 and earlier; 0=version 5.11 and later | |
| use constant HAS_RESERVED_SQUARE_BRACKETS => $ENV{URI_HAS_RESERVED_SQUARE_BRACKETS} ? 1 : 0; | |
| our ($ABS_REMOTE_LEADING_DOTS, $ABS_ALLOW_RELATIVE_SCHEME, $DEFAULT_QUERY_FORM_DELIMITER); | |
| my %implements; # mapping from scheme to implementor class | |
| # Some "official" character classes | |
| our $reserved = HAS_RESERVED_SQUARE_BRACKETS ? q(;/?:@&=+$,[]) : q(;/?:@&=+$,); | |
| our $mark = q(-_.!~*'()); #'; emacs | |
| our $unreserved = "A-Za-z0-9\Q$mark\E"; | |
| our $uric = quotemeta($reserved) . $unreserved . "%"; | |
| our $uric4host = $uric . ( HAS_RESERVED_SQUARE_BRACKETS ? '' : quotemeta( q([]) ) ); | |
| our $uric4user = quotemeta( q{!$'()*,;:._~%-+=%&} ) . "A-Za-z0-9" . ( HAS_RESERVED_SQUARE_BRACKETS ? quotemeta( q([]) ) : '' ); # RFC-3987: iuserinfo w/o UTF | |
| our $scheme_re = '[a-zA-Z][a-zA-Z0-9.+\-]*'; | |
| # These schemes don't have an IPv6+ address part. | |
| our $schemes_without_host_part_re = 'data|ldapi|urn|sqlite|sqlite3'; | |
| # These schemes can have an IPv6+ authority part: | |
| # file, ftp, gopher, http, https, ldap, ldaps, mms, news, nntp, nntps, pop, rlogin, rtsp, rtspu, rsync, sip, sips, snews, | |
| # smtp, telnet, tn3270, ssh, sftp | |
| # (all DB URIs, i.e. cassandra, couch, couchdb, etc.), except 'sqlite:', 'sqlite3:'. Others? | |
| #MAINT: URI has no test coverage for DB schemes | |
| #MAINT: decoupling - perhaps let each class decide itself by defining a member function 'scheme_has_authority_part()'? | |
| #MAINT: 'mailto:' needs special treatment for IPv* addresses / RFC 5321 (4.1.3). Until then: restore all '[', ']' | |
| # These schemes need fallback to previous (<= 5.10) encoding until a specific handler is available. | |
| our $fallback_schemes_re = 'mailto'; | |
| use Carp (); | |
| use URI::Escape (); | |
| use overload ('""' => sub { ${$_[0]} }, | |
| '==' => sub { _obj_eq(@_) }, | |
| '!=' => sub { !_obj_eq(@_) }, | |
| fallback => 1, | |
| ); | |
| # Check if two objects are the same object | |
| sub _obj_eq { | |
| return overload::StrVal($_[0]) eq overload::StrVal($_[1]); | |
| } | |
| sub new | |
| { | |
| my($class, $uri, $scheme) = @_; | |
| $uri = defined ($uri) ? "$uri" : ""; # stringify | |
| # Get rid of potential wrapping | |
| $uri =~ s/^<(?:URL:)?(.*)>$/$1/; # | |
| $uri =~ s/^"(.*)"$/$1/; | |
| $uri =~ s/^\s+//; | |
| $uri =~ s/\s+$//; | |
| my $impclass; | |
| if ($uri =~ m/^($scheme_re):/so) { | |
| $scheme = $1; | |
| } | |
| else { | |
| if (($impclass = ref($scheme))) { | |
| $scheme = $scheme->scheme; | |
| } | |
| elsif ($scheme && $scheme =~ m/^($scheme_re)(?::|$)/o) { | |
| $scheme = $1; | |
| } | |
| } | |
| $impclass ||= implementor($scheme) || | |
| do { | |
| require URI::_foreign; | |
| $impclass = 'URI::_foreign'; | |
| }; | |
| return $impclass->_init($uri, $scheme); | |
| } | |
| sub new_abs | |
| { | |
| my($class, $uri, $base) = @_; | |
| $uri = $class->new($uri, $base); | |
| $uri->abs($base); | |
| } | |
| sub _init | |
| { | |
| my $class = shift; | |
| my($str, $scheme) = @_; | |
| # find all funny characters and encode the bytes. | |
| $str = $class->_uric_escape($str); | |
| $str = "$scheme:$str" unless $str =~ /^$scheme_re:/o || | |
| $class->_no_scheme_ok; | |
| my $self = bless \$str, $class; | |
| $self; | |
| } | |
| #-- Version: 5.11+ | |
| # Since the complete URI will be percent-encoded including '[' and ']', | |
| # we selectively unescape square brackets from the authority/host part of the URI. | |
| # Derived modules that implement _uric_escape() should take this into account | |
| # if they do not rely on URI::_uric_escape(). | |
| # No unescaping is performed for the userinfo@ part of the authority part. | |
| sub _fix_uric_escape_for_host_part { | |
| return if HAS_RESERVED_SQUARE_BRACKETS; | |
| return if $_[0] !~ /%/; | |
| return if $_[0] =~ m{^(?:$URI::schemes_without_host_part_re):}os; | |
| # until a scheme specific handler is available, fall back to previous behavior of v5.10 (i.e. 'mailto:') | |
| if ($_[0] =~ m{^(?:$URI::fallback_schemes_re):}os) { | |
| $_[0] =~ s/\%5B/[/gi; | |
| $_[0] =~ s/\%5D/]/gi; | |
| return; | |
| } | |
| if ($_[0] =~ m{^((?:$URI::scheme_re:)?)//([^/?\#]+)(.*)$}os) { | |
| my $orig = $2; | |
| my ($user, $host) = $orig =~ /^(.*@)?([^@]*)$/; | |
| $user ||= ''; | |
| my $port = $host =~ s/(:\d+)$// ? $1 : ''; | |
| #MAINT: die() here if scheme indicates TCP/UDP and port is out of range [0..65535] ? | |
| $host =~ s/\%5B/[/gi; | |
| $host =~ s/\%5D/]/gi; | |
| $_[0] =~ s/\Q$orig\E/$user$host$port/; | |
| } | |
| } | |
| sub _uric_escape | |
| { | |
| my($class, $str) = @_; | |
| $str =~ s*([^$uric\#])* URI::Escape::escape_char($1) *ego; | |
| _fix_uric_escape_for_host_part( $str ); | |
| utf8::downgrade($str); | |
| return $str; | |
| } | |
| my %require_attempted; | |
| sub implementor | |
| { | |
| my($scheme, $impclass) = @_; | |
| if (!$scheme || $scheme !~ /\A$scheme_re\z/o) { | |
| require URI::_generic; | |
| return "URI::_generic"; | |
| } | |
| $scheme = lc($scheme); | |
| if ($impclass) { | |
| # Set the implementor class for a given scheme | |
| my $old = $implements{$scheme}; | |
| $impclass->_init_implementor($scheme); | |
| $implements{$scheme} = $impclass; | |
| return $old; | |
| } | |
| my $ic = $implements{$scheme}; | |
| return $ic if $ic; | |
| # scheme not yet known, look for internal or | |
| # preloaded (with 'use') implementation | |
| $ic = "URI::$scheme"; # default location | |
| # turn scheme into a valid perl identifier by a simple transformation... | |
| $ic =~ s/\+/_P/g; | |
| $ic =~ s/\./_O/g; | |
| $ic =~ s/\-/_/g; | |
| no strict 'refs'; | |
| # check we actually have one for the scheme: | |
| unless (@{"${ic}::ISA"}) { | |
| if (not exists $require_attempted{$ic}) { | |
| $require_attempted{$ic} = 1; | |
| # Try to load it | |
| my $_old_error = $@; | |
| eval "require $ic"; | |
| die $@ if $@ && $@ !~ /Can\'t locate.*in \@INC/; | |
| $@ = $_old_error; | |
| } | |
| return undef unless @{"${ic}::ISA"}; | |
| } | |
| $ic->_init_implementor($scheme); | |
| $implements{$scheme} = $ic; | |
| $ic; | |
| } | |
| sub _init_implementor | |
| { | |
| my($class, $scheme) = @_; | |
| # Remember that one implementor class may actually | |
| # serve to implement several URI schemes. | |
| } | |
| sub clone | |
| { | |
| my $self = shift; | |
| my $other = $$self; | |
| bless \$other, ref $self; | |
| } | |
| sub TO_JSON { ${$_[0]} } | |
| sub _no_scheme_ok { 0 } | |
| sub _scheme | |
| { | |
| my $self = shift; | |
| unless (@_) { | |
| return undef unless $$self =~ /^($scheme_re):/o; | |
| return $1; | |
| } | |
| my $old; | |
| my $new = shift; | |
| if (defined($new) && length($new)) { | |
| Carp::croak("Bad scheme '$new'") unless $new =~ /^$scheme_re$/o; | |
| $old = $1 if $$self =~ s/^($scheme_re)://o; | |
| my $newself = URI->new("$new:$$self"); | |
| $$self = $$newself; | |
| bless $self, ref($newself); | |
| } | |
| else { | |
| if ($self->_no_scheme_ok) { | |
| $old = $1 if $$self =~ s/^($scheme_re)://o; | |
| Carp::carp("Oops, opaque part now look like scheme") | |
| if $^W && $$self =~ m/^$scheme_re:/o | |
| } | |
| else { | |
| $old = $1 if $$self =~ m/^($scheme_re):/o; | |
| } | |
| } | |
| return $old; | |
| } | |
| sub scheme | |
| { | |
| my $scheme = shift->_scheme(@_); | |
| return undef unless defined $scheme; | |
| lc($scheme); | |
| } | |
| sub has_recognized_scheme { | |
| my $self = shift; | |
| return ref($self) !~ /^URI::_(?:foreign|generic)\z/; | |
| } | |
| sub opaque | |
| { | |
| my $self = shift; | |
| unless (@_) { | |
| $$self =~ /^(?:$scheme_re:)?([^\#]*)/o or die; | |
| return $1; | |
| } | |
| $$self =~ /^($scheme_re:)? # optional scheme | |
| ([^\#]*) # opaque | |
| (\#.*)? # optional fragment | |
| $/sx or die; | |
| my $old_scheme = $1; | |
| my $old_opaque = $2; | |
| my $old_frag = $3; | |
| my $new_opaque = shift; | |
| $new_opaque = "" unless defined $new_opaque; | |
| $new_opaque =~ s/([^$uric])/ URI::Escape::escape_char($1)/ego; | |
| utf8::downgrade($new_opaque); | |
| $$self = defined($old_scheme) ? $old_scheme : ""; | |
| $$self .= $new_opaque; | |
| $$self .= $old_frag if defined $old_frag; | |
| $old_opaque; | |
| } | |
| sub path { goto &opaque } # alias | |
| sub fragment | |
| { | |
| my $self = shift; | |
| unless (@_) { | |
| return undef unless $$self =~ /\#(.*)/s; | |
| return $1; | |
| } | |
| my $old; | |
| $old = $1 if $$self =~ s/\#(.*)//s; | |
| my $new_frag = shift; | |
| if (defined $new_frag) { | |
| $new_frag =~ s/([^$uric])/ URI::Escape::escape_char($1) /ego; | |
| utf8::downgrade($new_frag); | |
| $$self .= "#$new_frag"; | |
| } | |
| $old; | |
| } | |
| sub as_string | |
| { | |
| my $self = shift; | |
| $$self; | |
| } | |
| sub as_iri | |
| { | |
| my $self = shift; | |
| my $str = $$self; | |
| if ($str =~ s/%([89a-fA-F][0-9a-fA-F])/chr(hex($1))/eg) { | |
| # All this crap because the more obvious: | |
| # | |
| # Encode::decode("UTF-8", $str, sub { sprintf "%%%02X", shift }) | |
| # | |
| # doesn't work before Encode 2.39. Wait for a standard release | |
| # to bundle that version. | |
| require Encode; | |
| my $enc = Encode::find_encoding("UTF-8"); | |
| my $u = ""; | |
| while (length $str) { | |
| $u .= $enc->decode($str, Encode::FB_QUIET()); | |
| if (length $str) { | |
| # escape next char | |
| $u .= URI::Escape::escape_char(substr($str, 0, 1, "")); | |
| } | |
| } | |
| $str = $u; | |
| } | |
| return $str; | |
| } | |
| sub canonical | |
| { | |
| # Make sure scheme is lowercased, that we don't escape unreserved chars, | |
| # and that we use upcase escape sequences. | |
| my $self = shift; | |
| my $scheme = $self->_scheme || ""; | |
| my $uc_scheme = $scheme =~ /[A-Z]/; | |
| my $esc = $$self =~ /%[a-fA-F0-9]{2}/; | |
| return $self unless $uc_scheme || $esc; | |
| my $other = $self->clone; | |
| if ($uc_scheme) { | |
| $other->_scheme(lc $scheme); | |
| } | |
| if ($esc) { | |
| $$other =~ s{%([0-9a-fA-F]{2})} | |
| { my $a = chr(hex($1)); | |
| $a =~ /^[$unreserved]\z/o ? $a : "%\U$1" | |
| }ge; | |
| } | |
| return $other; | |
| } | |
| # Compare two URIs, subclasses will provide a more correct implementation | |
| sub eq { | |
| my($self, $other) = @_; | |
| $self = URI->new($self, $other) unless ref $self; | |
| $other = URI->new($other, $self) unless ref $other; | |
| ref($self) eq ref($other) && # same class | |
| $self->canonical->as_string eq $other->canonical->as_string; | |
| } | |
| # generic-URI transformation methods | |
| sub abs { $_[0]; } | |
| sub rel { $_[0]; } | |
| sub secure { 0 } | |
| # help out Storable | |
| sub STORABLE_freeze { | |
| my($self, $cloning) = @_; | |
| return $$self; | |
| } | |
| sub STORABLE_thaw { | |
| my($self, $cloning, $str) = @_; | |
| $$self = $str; | |
| } | |
| 1; | |
| __END__ | |
| =head1 NAME | |
| URI - Uniform Resource Identifiers (absolute and relative) | |
| =head1 SYNOPSIS | |
| use URI (); | |
| $u1 = URI->new("http://www.example.com"); | |
| $u2 = URI->new("foo", "http"); | |
| $u3 = $u2->abs($u1); | |
| $u4 = $u3->clone; | |
| $u5 = URI->new("HTTP://WWW.example.com:80")->canonical; | |
| $str = $u->as_string; | |
| $str = "$u"; | |
| $scheme = $u->scheme; | |
| $opaque = $u->opaque; | |
| $path = $u->path; | |
| $frag = $u->fragment; | |
| $u->scheme("ftp"); | |
| $u->host("ftp.example.com"); | |
| $u->path("cpan/"); | |
| =head1 DESCRIPTION | |
| This module implements the C<URI> class. Objects of this class | |
| represent "Uniform Resource Identifier references" as specified in RFC | |
| 2396 (and updated by RFC 2732). | |
| A Uniform Resource Identifier is a compact string of characters that | |
| identifies an abstract or physical resource. A Uniform Resource | |
| Identifier can be further classified as either a Uniform Resource Locator | |
| (URL) or a Uniform Resource Name (URN). The distinction between URL | |
| and URN does not matter to the C<URI> class interface. A | |
| "URI-reference" is a URI that may have additional information attached | |
| in the form of a fragment identifier. | |
| An absolute URI reference consists of three parts: a I<scheme>, a | |
| I<scheme-specific part> and a I<fragment> identifier. A subset of URI | |
| references share a common syntax for hierarchical namespaces. For | |
| these, the scheme-specific part is further broken down into | |
| I<authority>, I<path> and I<query> components. These URIs can also | |
| take the form of relative URI references, where the scheme (and | |
| usually also the authority) component is missing, but implied by the | |
| context of the URI reference. The three forms of URI reference | |
| syntax are summarized as follows: | |
| <scheme>:<scheme-specific-part>#<fragment> | |
| <scheme>://<authority><path>?<query>#<fragment> | |
| <path>?<query>#<fragment> | |
| The components into which a URI reference can be divided depend on the | |
| I<scheme>. The C<URI> class provides methods to get and set the | |
| individual components. The methods available for a specific | |
| C<URI> object depend on the scheme. | |
| =head1 CONSTRUCTORS | |
| The following methods construct new C<URI> objects: | |
| =over 4 | |
| =item $uri = URI->new( $str ) | |
| =item $uri = URI->new( $str, $scheme ) | |
| Constructs a new URI object. The string | |
| representation of a URI is given as argument, together with an optional | |
| scheme specification. Common URI wrappers like "" and <>, as well as | |
| leading and trailing white space, are automatically removed from | |
| the $str argument before it is processed further. | |
| The constructor determines the scheme, maps this to an appropriate | |
| URI subclass, constructs a new object of that class and returns it. | |
| If the scheme isn't one of those that URI recognizes, you still get | |
| an URI object back that you can access the generic methods on. The | |
| C<< $uri->has_recognized_scheme >> method can be used to test for | |
| this. | |
| The $scheme argument is only used when $str is a | |
| relative URI. It can be either a simple string that | |
| denotes the scheme, a string containing an absolute URI reference, or | |
| an absolute C<URI> object. If no $scheme is specified for a relative | |
| URI $str, then $str is simply treated as a generic URI (no scheme-specific | |
| methods available). | |
| The set of characters available for building URI references is | |
| restricted (see L<URI::Escape>). Characters outside this set are | |
| automatically escaped by the URI constructor. | |
| =item $uri = URI->new_abs( $str, $base_uri ) | |
| Constructs a new absolute URI object. The $str argument can | |
| denote a relative or absolute URI. If relative, then it is | |
| absolutized using $base_uri as base. The $base_uri must be an absolute | |
| URI. | |
| =item $uri = URI::file->new( $filename ) | |
| =item $uri = URI::file->new( $filename, $os ) | |
| Constructs a new I<file> URI from a file name. See L<URI::file>. | |
| =item $uri = URI::file->new_abs( $filename ) | |
| =item $uri = URI::file->new_abs( $filename, $os ) | |
| Constructs a new absolute I<file> URI from a file name. See | |
| L<URI::file>. | |
| =item $uri = URI::file->cwd | |
| Returns the current working directory as a I<file> URI. See | |
| L<URI::file>. | |
| =item $uri->clone | |
| Returns a copy of the $uri. | |
| =back | |
| =head1 COMMON METHODS | |
| The methods described in this section are available for all C<URI> | |
| objects. | |
| Methods that give access to components of a URI always return the | |
| old value of the component. The value returned is C<undef> if the | |
| component was not present. There is generally a difference between a | |
| component that is empty (represented as C<"">) and a component that is | |
| missing (represented as C<undef>). If an accessor method is given an | |
| argument, it updates the corresponding component in addition to | |
| returning the old value of the component. Passing an undefined | |
| argument removes the component (if possible). The description of | |
| each accessor method indicates whether the component is passed as | |
| an escaped (percent-encoded) or an unescaped string. A component that can be further | |
| divided into sub-parts are usually passed escaped, as unescaping might | |
| change its semantics. | |
| The common methods available for all URI are: | |
| =over 4 | |
| =item $uri->scheme | |
| =item $uri->scheme( $new_scheme ) | |
| Sets and returns the scheme part of the $uri. If the $uri is | |
| relative, then $uri->scheme returns C<undef>. If called with an | |
| argument, it updates the scheme of $uri, possibly changing the | |
| class of $uri, and returns the old scheme value. The method croaks | |
| if the new scheme name is illegal; a scheme name must begin with a | |
| letter and must consist of only US-ASCII letters, numbers, and a few | |
| special marks: ".", "+", "-". This restriction effectively means | |
| that the scheme must be passed unescaped. Passing an undefined | |
| argument to the scheme method makes the URI relative (if possible). | |
| Letter case does not matter for scheme names. The string | |
| returned by $uri->scheme is always lowercase. If you want the scheme | |
| just as it was written in the URI in its original case, | |
| you can use the $uri->_scheme method instead. | |
| =item $uri->has_recognized_scheme | |
| Returns TRUE if the URI scheme is one that URI recognizes. | |
| It will also be TRUE for relative URLs where a recognized | |
| scheme was provided to the constructor, even if C<< $uri->scheme >> | |
| returns C<undef> for these. | |
| =item $uri->opaque | |
| =item $uri->opaque( $new_opaque ) | |
| Sets and returns the scheme-specific part of the $uri | |
| (everything between the scheme and the fragment) | |
| as an escaped string. | |
| =item $uri->path | |
| =item $uri->path( $new_path ) | |
| Sets and returns the same value as $uri->opaque unless the URI | |
| supports the generic syntax for hierarchical namespaces. | |
| In that case the generic method is overridden to set and return | |
| the part of the URI between the I<host name> and the I<fragment>. | |
| =item $uri->fragment | |
| =item $uri->fragment( $new_frag ) | |
| Returns the fragment identifier of a URI reference | |
| as an escaped string. | |
| =item $uri->as_string | |
| Returns a URI object to a plain ASCII string. URI objects are | |
| also converted to plain strings automatically by overloading. This | |
| means that $uri objects can be used as plain strings in most Perl | |
| constructs. | |
| =item $uri->as_iri | |
| Returns a Unicode string representing the URI. Escaped UTF-8 sequences | |
| representing non-ASCII characters are turned into their corresponding Unicode | |
| code point. | |
| =item $uri->canonical | |
| Returns a normalized version of the URI. The rules | |
| for normalization are scheme-dependent. They usually involve | |
| lowercasing the scheme and Internet host name components, | |
| removing the explicit port specification if it matches the default port, | |
| uppercasing all escape sequences, and unescaping octets that can be | |
| better represented as plain characters. | |
| For efficiency reasons, if the $uri is already in normalized form, | |
| then a reference to it is returned instead of a copy. | |
| =item $uri->eq( $other_uri ) | |
| =item URI::eq( $first_uri, $other_uri ) | |
| Tests whether two URI references are equal. URI references | |
| that normalize to the same string are considered equal. The method | |
| can also be used as a plain function which can also test two string | |
| arguments. | |
| If you need to test whether two C<URI> object references denote the | |
| same object, use the '==' operator. | |
| =item $uri->abs( $base_uri ) | |
| Returns an absolute URI reference. If $uri is already | |
| absolute, then a reference to it is simply returned. If the $uri | |
| is relative, then a new absolute URI is constructed by combining the | |
| $uri and the $base_uri, and returned. | |
| =item $uri->rel( $base_uri ) | |
| Returns a relative URI reference if it is possible to | |
| make one that denotes the same resource relative to $base_uri. | |
| If not, then $uri is simply returned. | |
| =item $uri->secure | |
| Returns a TRUE value if the URI is considered to point to a resource on | |
| a secure channel, such as an SSL or TLS encrypted one. | |
| =back | |
| =head1 GENERIC METHODS | |
| The following methods are available to schemes that use the | |
| common/generic syntax for hierarchical namespaces. The descriptions of | |
| schemes below indicate which these are. Unrecognized schemes are | |
| assumed to support the generic syntax, and therefore the following | |
| methods: | |
| =over 4 | |
| =item $uri->authority | |
| =item $uri->authority( $new_authority ) | |
| Sets and returns the escaped authority component | |
| of the $uri. | |
| =item $uri->path | |
| =item $uri->path( $new_path ) | |
| Sets and returns the escaped path component of | |
| the $uri (the part between the host name and the query or fragment). | |
| The path can never be undefined, but it can be the empty string. | |
| =item $uri->path_query | |
| =item $uri->path_query( $new_path_query ) | |
| Sets and returns the escaped path and query | |
| components as a single entity. The path and the query are | |
| separated by a "?" character, but the query can itself contain "?". | |
| =item $uri->path_segments | |
| =item $uri->path_segments( $segment, ... ) | |
| Sets and returns the path. In a scalar context, it returns | |
| the same value as $uri->path. In a list context, it returns the | |
| unescaped path segments that make up the path. Path segments that | |
| have parameters are returned as an anonymous array. The first element | |
| is the unescaped path segment proper; subsequent elements are escaped | |
| parameter strings. Such an anonymous array uses overloading so it can | |
| be treated as a string too, but this string does not include the | |
| parameters. | |
| Note that absolute paths have the empty string as their first | |
| I<path_segment>, i.e. the I<path> C</foo/bar> have 3 | |
| I<path_segments>; "", "foo" and "bar". | |
| =item $uri->query | |
| =item $uri->query( $new_query ) | |
| Sets and returns the escaped query component of | |
| the $uri. | |
| =item $uri->query_form | |
| =item $uri->query_form( $key1 => $val1, $key2 => $val2, ... ) | |
| =item $uri->query_form( $key1 => $val1, $key2 => $val2, ..., $delim ) | |
| =item $uri->query_form( \@key_value_pairs ) | |
| =item $uri->query_form( \@key_value_pairs, $delim ) | |
| =item $uri->query_form( \%hash ) | |
| =item $uri->query_form( \%hash, $delim ) | |
| Sets and returns query components that use the | |
| I<application/x-www-form-urlencoded> format. Key/value pairs are | |
| separated by "&", and the key is separated from the value by a "=" | |
| character. | |
| The form can be set either by passing separate key/value pairs, or via | |
| an array or hash reference. Passing an empty array or an empty hash | |
| removes the query component, whereas passing no arguments at all leaves | |
| the component unchanged. The order of keys is undefined if a hash | |
| reference is passed. The old value is always returned as a list of | |
| separate key/value pairs. Assigning this list to a hash is unwise as | |
| the keys returned might repeat. | |
| The values passed when setting the form can be plain strings or | |
| references to arrays of strings. Passing an array of values has the | |
| same effect as passing the key repeatedly with one value at a time. | |
| All the following statements have the same effect: | |
| $uri->query_form(foo => 1, foo => 2); | |
| $uri->query_form(foo => [1, 2]); | |
| $uri->query_form([ foo => 1, foo => 2 ]); | |
| $uri->query_form([ foo => [1, 2] ]); | |
| $uri->query_form({ foo => [1, 2] }); | |
| The $delim parameter can be passed as ";" to force the key/value pairs | |
| to be delimited by ";" instead of "&" in the query string. This | |
| practice is often recommended for URLs embedded in HTML or XML | |
| documents as this avoids the trouble of escaping the "&" character. | |
| You might also set the $URI::DEFAULT_QUERY_FORM_DELIMITER variable to | |
| ";" for the same global effect. | |
| =item @keys = $u->query_param | |
| =item @values = $u->query_param( $key ) | |
| =item $first_value = $u->query_param( $key ) | |
| =item $u->query_param( $key, $value,... ) | |
| If $u->query_param is called with no arguments, it returns all the | |
| distinct parameter keys of the URI. In a scalar context it returns the | |
| number of distinct keys. | |
| When a $key argument is given, the method returns the parameter values with the | |
| given key. In a scalar context, only the first parameter value is | |
| returned. | |
| If additional arguments are given, they are used to update successive | |
| parameters with the given key. If any of the values provided are | |
| array references, then the array is dereferenced to get the actual | |
| values. | |
| Please note that you can supply multiple values to this method, but you cannot | |
| supply multiple keys. | |
| Do this: | |
| $uri->query_param( widget_id => 1, 5, 9 ); | |
| Do NOT do this: | |
| $uri->query_param( widget_id => 1, frobnicator_id => 99 ); | |
| =item $u->query_param_append($key, $value,...) | |
| Adds new parameters with the given | |
| key without touching any old parameters with the same key. It | |
| can be explained as a more efficient version of: | |
| $u->query_param($key, | |
| $u->query_param($key), | |
| $value,...); | |
| One difference is that this expression would return the old values | |
| of $key, whereas the query_param_append() method does not. | |
| =item @values = $u->query_param_delete($key) | |
| =item $first_value = $u->query_param_delete($key) | |
| Deletes all key/value pairs with the given key. | |
| The old values are returned. In a scalar context, only the first value | |
| is returned. | |
| Using the query_param_delete() method is slightly more efficient than | |
| the equivalent: | |
| $u->query_param($key, []); | |
| =item $hashref = $u->query_form_hash | |
| =item $u->query_form_hash( \%new_form ) | |
| Returns a reference to a hash that represents the | |
| query form's key/value pairs. If a key occurs multiple times, then the hash | |
| value becomes an array reference. | |
| Note that sequence information is lost. This means that: | |
| $u->query_form_hash($u->query_form_hash); | |
| is not necessarily a no-op, as it may reorder the key/value pairs. | |
| The values returned by the query_param() method should stay the same | |
| though. | |
| =item $uri->query_keywords | |
| =item $uri->query_keywords( $keywords, ... ) | |
| =item $uri->query_keywords( \@keywords ) | |
| Sets and returns query components that use the | |
| keywords separated by "+" format. | |
| The keywords can be set either by passing separate keywords directly | |
| or by passing a reference to an array of keywords. Passing an empty | |
| array removes the query component, whereas passing no arguments at | |
| all leaves the component unchanged. The old value is always returned | |
| as a list of separate words. | |
| =back | |
| =head1 SERVER METHODS | |
| For schemes where the I<authority> component denotes an Internet host, | |
| the following methods are available in addition to the generic | |
| methods. | |
| =over 4 | |
| =item $uri->userinfo | |
| =item $uri->userinfo( $new_userinfo ) | |
| Sets and returns the escaped userinfo part of the | |
| authority component. | |
| For some schemes this is a user name and a password separated by | |
| a colon. This practice is not recommended. Embedding passwords in | |
| clear text (such as URI) has proven to be a security risk in almost | |
| every case where it has been used. | |
| =item $uri->host | |
| =item $uri->host( $new_host ) | |
| Sets and returns the unescaped hostname. | |
| If the C<$new_host> string ends with a colon and a number, then this | |
| number also sets the port. | |
| For IPv6 addresses the brackets around the raw address is removed in the return | |
| value from $uri->host. When setting the host attribute to an IPv6 address you | |
| can use a raw address or one enclosed in brackets. The address needs to be | |
| enclosed in brackets if you want to pass in a new port value as well. | |
| my $uri = URI->new("http://www.\xC3\xBCri-sample/foo/bar.html"); | |
| print $u->host; # www.xn--ri-sample-fra0f | |
| =item $uri->ihost | |
| Returns the host in Unicode form. Any IDNA A-labels (encoded unicode chars with | |
| I<xn--> prefix) are turned into U-labels (unicode chars). | |
| my $uri = URI->new("http://www.\xC3\xBCri-sample/foo/bar.html"); | |
| print $u->ihost; # www.\xC3\xBCri-sample | |
| =item $uri->port | |
| =item $uri->port( $new_port ) | |
| Sets and returns the port. The port is a simple integer | |
| that should be greater than 0. | |
| If a port is not specified explicitly in the URI, then the URI scheme's default port | |
| is returned. If you don't want the default port | |
| substituted, then you can use the $uri->_port method instead. | |
| =item $uri->host_port | |
| =item $uri->host_port( $new_host_port ) | |
| Sets and returns the host and port as a single | |
| unit. The returned value includes a port, even if it matches the | |
| default port. The host part and the port part are separated by a | |
| colon: ":". | |
| For IPv6 addresses the bracketing is preserved; thus | |
| URI->new("http://[::1]/")->host_port returns "[::1]:80". Contrast this with | |
| $uri->host which will remove the brackets. | |
| =item $uri->default_port | |
| Returns the default port of the URI scheme to which $uri | |
| belongs. For I<http> this is the number 80, for I<ftp> this | |
| is the number 21, etc. The default port for a scheme can not be | |
| changed. | |
| =back | |
| =head1 SCHEME-SPECIFIC SUPPORT | |
| Scheme-specific support is provided for the following URI schemes. For C<URI> | |
| objects that do not belong to one of these, you can only use the common and | |
| generic methods. | |
| =over 4 | |
| =item B<data>: | |
| The I<data> URI scheme is specified in RFC 2397. It allows inclusion | |
| of small data items as "immediate" data, as if it had been included | |
| externally. | |
| C<URI> objects belonging to the data scheme support the common methods | |
| and two new methods to access their scheme-specific components: | |
| $uri->media_type and $uri->data. See L<URI::data> for details. | |
| =item B<file>: | |
| An old specification of the I<file> URI scheme is found in RFC 1738. | |
| A new RFC 2396 based specification in not available yet, but file URI | |
| references are in common use. | |
| C<URI> objects belonging to the file scheme support the common and | |
| generic methods. In addition, they provide two methods for mapping file URIs | |
| back to local file names; $uri->file and $uri->dir. See L<URI::file> | |
| for details. | |
| =item B<ftp>: | |
| An old specification of the I<ftp> URI scheme is found in RFC 1738. A | |
| new RFC 2396 based specification in not available yet, but ftp URI | |
| references are in common use. | |
| C<URI> objects belonging to the ftp scheme support the common, | |
| generic and server methods. In addition, they provide two methods for | |
| accessing the userinfo sub-components: $uri->user and $uri->password. | |
| It also supports accessing to the encryption mode ($uri->encrypt_mode), | |
| which has its own defaults for I<ftps> and I<ftpes> URI schemes. | |
| =item B<gopher>: | |
| The I<gopher> URI scheme is specified in | |
| C<draft-murali-url-gopher-1996-12-04> and will hopefully be available | |
| as a RFC 2396 based specification. | |
| C<URI> objects belonging to the gopher scheme support the common, | |
| generic and server methods. In addition, they support some methods for | |
| accessing gopher-specific path components: $uri->gopher_type, | |
| $uri->selector, $uri->search, $uri->string. | |
| =item B<http>: | |
| The I<http> URI scheme is specified in RFC 2616. | |
| The scheme is used to reference resources hosted by HTTP servers. | |
| C<URI> objects belonging to the http scheme support the common, | |
| generic and server methods. | |
| =item B<https>: | |
| The I<https> URI scheme is a Netscape invention which is commonly | |
| implemented. The scheme is used to reference HTTP servers through SSL | |
| connections. Its syntax is the same as http, but the default | |
| port is different. | |
| =item B<geo>: | |
| The I<geo> URI scheme is specified in L<RFC 5870|http://tools.ietf.org/html/rfc5870>. | |
| The scheme is used to reference physical location in a two- or | |
| three-dimensional coordinate reference system in a compact, simple, | |
| human-readable, and protocol-independent way. | |
| C<URI> objects belonging to the geo scheme support the common methods. | |
| =item B<icap>: | |
| The I<icap> URI scheme is specified in L<RFC 3507|http://tools.ietf.org/html/rfc3507>. | |
| The scheme is used to reference resources hosted by ICAP servers. | |
| C<URI> objects belonging to the icap scheme support the common, | |
| generic and server methods. | |
| =item B<icaps>: | |
| The I<icaps> URI scheme is specified in L<RFC 3507|http://tools.ietf.org/html/rfc3507> as well. | |
| The scheme is used to reference ICAP servers through SSL | |
| connections. Its syntax is the same as icap, including the same | |
| default port. | |
| =item B<irc>: | |
| The I<irc> URI scheme is specified in L<draft-butcher-irc-url-04|https://datatracker.ietf.org/doc/html/draft-butcher-irc-url-04>. | |
| The scheme is used to reference IRC servers and their resources. | |
| C<URI> objects belonging to the irc or ircs scheme support login | |
| methods, and the following IRC-specific ones: $uri->entity, | |
| $uri->flags, $uri->options. | |
| =item B<ldap>: | |
| The I<ldap> URI scheme is specified in RFC 2255. LDAP is the | |
| Lightweight Directory Access Protocol. An ldap URI describes an LDAP | |
| search operation to perform to retrieve information from an LDAP | |
| directory. | |
| C<URI> objects belonging to the ldap scheme support the common, | |
| generic and server methods as well as ldap-specific methods: $uri->dn, | |
| $uri->attributes, $uri->scope, $uri->filter, $uri->extensions. See | |
| L<URI::ldap> for details. | |
| =item B<ldapi>: | |
| Like the I<ldap> URI scheme, but uses a UNIX domain socket. The | |
| server methods are not supported, and the local socket path is | |
| available as $uri->un_path. The I<ldapi> scheme is used by the | |
| OpenLDAP package. There is no real specification for it, but it is | |
| mentioned in various OpenLDAP manual pages. | |
| =item B<ldaps>: | |
| Like the I<ldap> URI scheme, but uses an SSL connection. This | |
| scheme is deprecated, as the preferred way is to use the I<start_tls> | |
| mechanism. | |
| =item B<mailto>: | |
| The I<mailto> URI scheme is specified in RFC 2368. The scheme was | |
| originally used to designate the Internet mailing address of an | |
| individual or service. It has (in RFC 2368) been extended to allow | |
| setting of other mail header fields and the message body. | |
| C<URI> objects belonging to the mailto scheme support the common | |
| methods and the generic query methods. In addition, they support the | |
| following mailto-specific methods: $uri->to, $uri->headers. | |
| Note that the "foo@example.com" part of a mailto is I<not> the | |
| C<userinfo> and C<host> but instead the C<path>. This allows a | |
| mailto URI to contain multiple comma separated email addresses. | |
| =item B<mms>: | |
| The I<mms> URL specification can be found at L<http://sdp.ppona.com/>. | |
| C<URI> objects belonging to the mms scheme support the common, | |
| generic, and server methods, with the exception of userinfo and | |
| query-related sub-components. | |
| =item B<news>: | |
| The I<news>, I<nntp> and I<snews> URI schemes are specified in | |
| <draft-gilman-news-url-01> and will hopefully be available as an RFC | |
| 2396 based specification soon. (Update: as of April 2010, they are in | |
| L<RFC 5538|https://tools.ietf.org/html/rfc5538>. | |
| C<URI> objects belonging to the news scheme support the common, | |
| generic and server methods. In addition, they provide some methods to | |
| access the path: $uri->group and $uri->message. | |
| =item B<nntp>: | |
| See I<news> scheme. | |
| =item B<nntps>: | |
| See I<news> scheme and L<RFC 5538|https://tools.ietf.org/html/rfc5538>. | |
| =item B<otpauth>: | |
| The I<otpauth> URI scheme is specified in L<https://github.com/google/google-authenticator/wiki/Key-Uri-Format>. | |
| The scheme is used to encode secret keys for use in TOTP or HOTP schemes. | |
| C<URI> objects belonging to the otpauth scheme support the common methods. | |
| =item B<pop>: | |
| The I<pop> URI scheme is specified in RFC 2384. The scheme is used to | |
| reference a POP3 mailbox. | |
| C<URI> objects belonging to the pop scheme support the common, generic | |
| and server methods, as well as two email authorization methods: | |
| C<user> and C<auth>. | |
| =item B<rlogin>: | |
| An old specification of the I<rlogin> URI scheme is found in RFC | |
| 1738. C<URI> objects belonging to the rlogin scheme support the | |
| common, generic and server methods. | |
| =item B<rtsp>: | |
| The I<rtsp> URL specification can be found in section 3.2 of RFC 2326. | |
| C<URI> objects belonging to the rtsp scheme support the common, | |
| generic, and server methods, with the exception of userinfo and | |
| query-related sub-components. | |
| =item B<rtspu>: | |
| The I<rtspu> URI scheme is used to talk to RTSP servers over UDP | |
| instead of TCP. The syntax is the same as rtsp. | |
| =item B<rsync>: | |
| Information about rsync is available from L<http://rsync.samba.org/>. | |
| C<URI> objects belonging to the rsync scheme support the common, | |
| generic and server methods. In addition, they provide methods to | |
| access the userinfo sub-components: $uri->user and $uri->password. | |
| =item B<sip>: | |
| The I<sip> URI specification is described in sections 19.1 and 25 | |
| of RFC 3261. C<URI> objects belonging to the sip scheme support the | |
| common, generic, and server methods with the exception of path related | |
| sub-components. In addition, they provide two methods to get and set | |
| I<sip> parameters: $uri->params_form and $uri->params. | |
| =item B<sips>: | |
| See I<sip> scheme. Its syntax is the same as sip, but the default | |
| port is different. | |
| =item B<smb>: | |
| C<URI> objects belonging to the smb scheme support the common, | |
| generic and server methods. In addition, they provide methods to | |
| access the userinfo sub-components ($uri->user and $uri->password) | |
| as well as $uri->authdomain and $uri->sharename methods. | |
| =item B<smtp>: | |
| The I<smtp> URI scheme is specified in L<draft-earhart-url-smtp-00|https://datatracker.ietf.org/doc/html/draft-earhart-url-smtp-00>. | |
| The scheme is used to reference a SMTP server. | |
| C<URI> objects belonging to the smtp scheme support the common, generic | |
| and server methods, as well as two email authorization methods: | |
| C<user> and C<auth>. | |
| =item B<snews>: | |
| See I<news> scheme. Its syntax is the same as news, but the default | |
| port is different. | |
| =item B<telnet>: | |
| An old specification of the I<telnet> URI scheme is found in RFC | |
| 1738. C<URI> objects belonging to the telnet scheme support the | |
| common, generic and server methods. | |
| =item B<tn3270>: | |
| These URIs are used like I<telnet> URIs but for connections to IBM | |
| mainframes. C<URI> objects belonging to the tn3270 scheme support the | |
| common, generic and server methods. | |
| =item B<ssh>: | |
| Information about ssh is available at L<http://www.openssh.com/>. | |
| C<URI> objects belonging to the ssh scheme support the common, | |
| generic and server methods. In addition, they provide methods to | |
| access the userinfo sub-components: $uri->user and $uri->password. | |
| =item B<sftp>: | |
| C<URI> objects belonging to the sftp scheme support the common, | |
| generic and server methods. In addition, they provide methods to | |
| access the userinfo sub-components: $uri->user and $uri->password. | |
| =item B<urn>: | |
| The syntax of Uniform Resource Names is specified in RFC 2141. C<URI> | |
| objects belonging to the urn scheme provide the common methods, and also the | |
| methods $uri->nid and $uri->nss, which return the Namespace Identifier | |
| and the Namespace-Specific String respectively. | |
| The Namespace Identifier basically works like the Scheme identifier of | |
| URIs, and further divides the URN namespace. Namespace Identifier | |
| assignments are maintained at | |
| L<http://www.iana.org/assignments/urn-namespaces>. | |
| Letter case is not significant for the Namespace Identifier. It is | |
| always returned in lower case by the $uri->nid method. The $uri->_nid | |
| method can be used if you want it in its original case. | |
| =item B<urn>:B<isbn>: | |
| The C<urn:isbn:> namespace contains International Standard Book | |
| Numbers (ISBNs) and is described in RFC 3187. A C<URI> object belonging | |
| to this namespace has the following extra methods (if the | |
| Business::ISBN module is available): $uri->isbn, | |
| $uri->isbn_publisher_code, $uri->isbn_group_code (formerly isbn_country_code, | |
| which is still supported by issues a deprecation warning), $uri->isbn_as_ean. | |
| =item B<urn>:B<oid>: | |
| The C<urn:oid:> namespace contains Object Identifiers (OIDs) and is | |
| described in RFC 3061. An object identifier consists of sequences of digits | |
| separated by dots. A C<URI> object belonging to this namespace has an | |
| additional method called $uri->oid that can be used to get/set the oid | |
| value. In a list context, oid numbers are returned as separate elements. | |
| =item B<ws>: | |
| The <ws> URI scheme is specified in L<RFC 6455|http://tools.ietf.org/html/rfc6455>. | |
| The C<WebSocket> Protocol enables two-way communication between a client | |
| running untrusted code in a controlled environment to a remote host | |
| that has opted-in to communications from that code. | |
| =item B<wss>: | |
| The I<wss> URI scheme is specified in L<RFC 6455|http://tools.ietf.org/html/rfc6455> as well. | |
| The scheme is used to reference C<WebSocket> servers through SSL connections. | |
| =back | |
| =head1 CONFIGURATION VARIABLES | |
| The following configuration variables influence how the class and its | |
| methods behave: | |
| =over 4 | |
| =item $URI::ABS_ALLOW_RELATIVE_SCHEME | |
| Some older parsers used to allow the scheme name to be present in the | |
| relative URL if it was the same as the base URL scheme. RFC 2396 says | |
| that this should be avoided, but you can enable this old behaviour by | |
| setting the $URI::ABS_ALLOW_RELATIVE_SCHEME variable to a TRUE value. | |
| The difference is demonstrated by the following examples: | |
| URI->new("http:foo")->abs("http://host/a/b") | |
| ==> "http:foo" | |
| local $URI::ABS_ALLOW_RELATIVE_SCHEME = 1; | |
| URI->new("http:foo")->abs("http://host/a/b") | |
| ==> "http:/host/a/foo" | |
| =item $URI::ABS_REMOTE_LEADING_DOTS | |
| You can also have the abs() method ignore excess ".." | |
| segments in the relative URI by setting $URI::ABS_REMOTE_LEADING_DOTS | |
| to a TRUE value. The difference is demonstrated by the following | |
| examples: | |
| URI->new("../../../foo")->abs("http://host/a/b") | |
| ==> "http://host/../../foo" | |
| local $URI::ABS_REMOTE_LEADING_DOTS = 1; | |
| URI->new("../../../foo")->abs("http://host/a/b") | |
| ==> "http://host/foo" | |
| =item $URI::DEFAULT_QUERY_FORM_DELIMITER | |
| This value can be set to ";" to have the query form C<key=value> pairs | |
| delimited by ";" instead of "&" which is the default. | |
| =back | |
| =head1 ENVIRONMENT VARIABLES | |
| =over 4 | |
| =item URI_HAS_RESERVED_SQUARE_BRACKETS | |
| Before version 5.11, URI treated square brackets as reserved characters | |
| throughout the whole URI string. However, these brackets are reserved | |
| only within the authority/host part of the URI and nowhere else (RFC 3986). | |
| Starting with version 5.11, URI takes this distinction into account. | |
| Setting the environment variable C<URI_HAS_RESERVED_SQUARE_BRACKETS> | |
| (programmatically or via the shell), restores the old behavior. | |
| #-- restore 5.10 behavior programmatically | |
| BEGIN { | |
| $ENV{URI_HAS_RESERVED_SQUARE_BRACKETS} = 1; | |
| } | |
| use URI (); | |
| I<Note>: This environment variable is just used during initialization and has to be set | |
| I<before> module URI is used/required. Changing it at run time has no effect. | |
| Its value can be checked programmatically by accessing the constant | |
| C<URI::HAS_RESERVED_SQUARE_BRACKETS>. | |
| =back | |
| =head1 BUGS | |
| There are some things that are not quite right: | |
| =over | |
| =item * | |
| Using regexp variables like $1 directly as arguments to the URI accessor methods | |
| does not work too well with current perl implementations. I would argue | |
| that this is actually a bug in perl. The workaround is to quote | |
| them. Example: | |
| /(...)/ || die; | |
| $u->query("$1"); | |
| =item * | |
| The escaping (percent encoding) of chars in the 128 .. 255 range passed to the | |
| URI constructor or when setting URI parts using the accessor methods depend on | |
| the state of the internal UTF8 flag (see utf8::is_utf8) of the string passed. | |
| If the UTF8 flag is set the UTF-8 encoded version of the character is percent | |
| encoded. If the UTF8 flag isn't set the Latin-1 version (byte) of the | |
| character is percent encoded. This basically exposes the internal encoding of | |
| Perl strings. | |
| =back | |
| =head1 PARSING URIs WITH REGEXP | |
| As an alternative to this module, the following (official) regular | |
| expression can be used to decode a URI: | |
| my($scheme, $authority, $path, $query, $fragment) = | |
| $uri =~ m|(?:([^:/?#]+):)?(?://([^/?#]*))?([^?#]*)(?:\?([^#]*))?(?:#(.*))?|; | |
| The C<URI::Split> module provides the function uri_split() as a | |
| readable alternative. | |
| =head1 SEE ALSO | |
| L<URI::file>, L<URI::WithBase>, L<URI::Escape>, | |
| L<URI::Split>, L<URI::Heuristic> | |
| RFC 2396: "Uniform Resource Identifiers (URI): Generic Syntax", | |
| Berners-Lee, Fielding, Masinter, August 1998. | |
| L<http://www.iana.org/assignments/uri-schemes> | |
| L<http://www.iana.org/assignments/urn-namespaces> | |
| L<http://www.w3.org/Addressing/> | |
| =head1 COPYRIGHT | |
| Copyright 1995-2009 Gisle Aas. | |
| Copyright 1995 Martijn Koster. | |
| This program is free software; you can redistribute it and/or modify | |
| it under the same terms as Perl itself. | |
| =head1 AUTHORS / ACKNOWLEDGMENTS | |
| This module is based on the C<URI::URL> module, which in turn was | |
| (distantly) based on the C<wwwurl.pl> code in the libwww-perl for | |
| perl4 developed by Roy Fielding, as part of the Arcadia project at the | |
| University of California, Irvine, with contributions from Brooks | |
| Cutter. | |
| C<URI::URL> was developed by Gisle Aas, Tim Bunce, Roy Fielding and | |
| Martijn Koster with input from other people on the libwww-perl mailing | |
| list. | |
| C<URI> and related subclasses was developed by Gisle Aas. | |
| =cut | |