| // Copyright (c) 2019, QuantStack and Mamba Contributors | |
| // | |
| // Distributed under the terms of the BSD 3-Clause License. | |
| // | |
| // The full license is in the file LICENSE, distributed with this software. | |
| namespace mamba | |
| { | |
| const std::regex& token_regex(); | |
| const std::regex& http_basicauth_regex(); | |
| /** | |
| * Expand environment variables present in `s` | |
| * if matching R"(\$(\{\w+\}|\w+))" regex. | |
| */ | |
| std::string expandvars(std::string s); | |
| // Used when we want a callback which does nothing. | |
| struct no_op | |
| { | |
| void operator()() const noexcept | |
| { | |
| } | |
| }; | |
| bool lexists(const fs::u8path& p); | |
| bool lexists(const fs::u8path& p, std::error_code& ec); | |
| std::vector<fs::u8path> filter_dir(const fs::u8path& dir, const std::string& suffix); | |
| bool paths_equal(const fs::u8path& lhs, const fs::u8path& rhs); | |
| std::string | |
| read_contents(const fs::u8path& path, std::ios::openmode mode = std::ios::in | std::ios::binary); | |
| std::vector<std::string> read_lines(const fs::u8path& path); | |
| inline void make_executable(const fs::u8path& p) | |
| { | |
| fs::permissions( | |
| p, | |
| fs::perms::owner_all | fs::perms::group_all | fs::perms::others_read | fs::perms::others_exec | |
| ); | |
| } | |
| // @return `true` if `TemporaryFile` will not delete files once destroy. | |
| // If `set_persist_temporary_files` was not called, returns `false` by default. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe accessor for a global parameter: the returned value is | |
| // therefore obsolete before being obtained and should be considered as a hint. | |
| bool must_persist_temporary_files(); | |
| // Controls if `TemporaryFile` will delete files once destroy or not. | |
| // This is useful for debugging situations where temporary data lead to unexpected behavior. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe function setting a global parameter: if concurrent threads | |
| // are both calling this function with different value there is no guarantee as to which | |
| // value will be retained. | |
| // However if there is exactly one thread executing this function then the following is true: | |
| // const auto result = set_persist_temporary_files(must_persist); | |
| // result == must_persist && must_persist_temporary_files() == must_persist | |
| bool set_persist_temporary_files(bool will_persist); | |
| // @return `true` if `TemporaryDirectory` will not delete files once destroy. | |
| // If `set_persist_temporary_files` was not called, returns `false` by default. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe accessor for a global parameter: the returned value is | |
| // therefore obsolete before being obtained and should be considered as a hint. | |
| bool must_persist_temporary_directories(); | |
| // Controls if `TemporaryDirectory` will delete files once destroy or not. | |
| // This is useful for debugging situations where temporary data lead to unexpected behavior. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe function setting a global parameter: if concurrent threads | |
| // are both calling this function with different value there is no guarantee as to which | |
| // value will be retained. | |
| // However if there is exactly one thread executing this function then the following is true: | |
| // const auto result = set_persist_temporary_directories(must_persist); | |
| // result == must_persist && must_persist_temporary_directories() == must_persist | |
| bool set_persist_temporary_directories(bool will_persist); | |
| class TemporaryDirectory | |
| { | |
| public: | |
| TemporaryDirectory(); | |
| ~TemporaryDirectory(); | |
| TemporaryDirectory(const TemporaryDirectory&) = delete; | |
| TemporaryDirectory& operator=(const TemporaryDirectory&) = delete; | |
| TemporaryDirectory& operator=(TemporaryDirectory&&) = default; | |
| const fs::u8path& path() const; | |
| operator fs::u8path(); | |
| private: | |
| fs::u8path m_path; | |
| }; | |
| class TemporaryFile | |
| { | |
| public: | |
| TemporaryFile( | |
| const std::string& prefix = "mambaf", | |
| const std::string& suffix = "", | |
| const std::optional<fs::u8path>& dir = std::nullopt | |
| ); | |
| ~TemporaryFile(); | |
| TemporaryFile(const TemporaryFile&) = delete; | |
| TemporaryFile& operator=(const TemporaryFile&) = delete; | |
| TemporaryFile& operator=(TemporaryFile&&) = default; | |
| fs::u8path& path(); | |
| operator fs::u8path(); | |
| private: | |
| fs::u8path m_path; | |
| }; | |
| const std::size_t MAMBA_LOCK_POS = 21; | |
| class LockFileOwner; | |
| // @return `true` if constructing a `LockFile` will result in locking behavior, `false` if | |
| // using `LockFile will not lock the file and behave like a no-op. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe accessor for a global parameter: the returned value is | |
| // therefore obsolete before being obtained and should be considered as a hint. | |
| bool is_file_locking_allowed(); | |
| // Controls if, with `true`, constructing a `LockFile` will result in locking behavior, | |
| // or, with `false, will not lock the file and behave like a no-op. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe function setting a global parameter: if concurrent threads | |
| // are both calling this function with different value there is no guarantee as to which | |
| // value will be retained. | |
| // However if there is exactly one thread executing this function then the following is true: | |
| // const auto result = allow_file_locking(allow); | |
| // result == allow && is_file_locking_allowed() == allow | |
| bool allow_file_locking(bool allow); | |
| // @return The file locking timeout used by `LockFile` at construction. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe accessor for a global parameter: the returned value is | |
| // therefore obsolete before being obtained and should be considered as a hint. | |
| std::chrono::seconds default_file_locking_timeout(); | |
| // Changes the locking duration when `LockFile` is constructed without a specified locking | |
| // timeout. | |
| // | |
| // @warning This function must be called in the execution scope `main()`, doing otherwise leads | |
| // to undefined behavior. | |
| // | |
| // @warning This is a thread-safe function setting a global parameter: if concurrent threads | |
| // are both calling this function with different value there is no guarantee as to which | |
| // value will be retained. | |
| // However if there is exactly one thread executing this function then the following is true: | |
| // const auto result = set_file_locking_timeout(timeout); | |
| // result == timeout && default_file_locking_timeout() == timeout | |
| std::chrono::seconds set_file_locking_timeout(const std::chrono::seconds& new_timeout); | |
| // This is a non-throwing file-locking mechanism. | |
| // It can be used on a file or directory path. In the case of a directory path a file will be | |
| // created to be locked. The locking will be implemented using the OS's filesystem locking | |
| // capabilities, if available. | |
| // | |
| // Once constructed, use `is_locked()` or `operator bool` to check if the lock did happen | |
| // successfully. When locking fails because of an error, the error can be retrieved using | |
| // `error()`. When attempting to lock a path which is already locked by another process, the | |
| // attempt will fail and `is_locked()` will return false. | |
| // | |
| // When the same process attempts to lock the same path more than once (multiple instances of | |
| // `LockFile` target the same path), creating a new `LockFile` for that path will always succeed | |
| // and increment the lock owner count which can be retrieved using `count_lock_owners()`. | |
| // Basically, all instacnes of `LockFile` locking the same path are sharing the lock, which will | |
| // only be released once there is no instance alive. | |
| // | |
| // Use `mamba::allow_file_locking(false)` to never have locking happen, in which case | |
| // the created `LockFile` instance will not be locked (`is_locked()` will return false) but will | |
| // have no error either (`error()` will return `noopt`). | |
| // | |
| // Example: | |
| // using namespace mamba; | |
| // LockFile some_work_on(some_path) | |
| // { | |
| // LockFile lock{ some_path, timeout }; | |
| // if(lock) // make sure the locking happened | |
| // { | |
| // print("locked file {}, locking counts: {}", some_path, | |
| // lock.count_lock_owners()); // success might mean we are locking the same path | |
| // from multiple threads do_something(some_path); // locking was a success | |
| // } | |
| // else // locking didnt succeed for some reason | |
| // { | |
| // if(auto error = lock.error) print(error); // some error happened while | |
| // attempting the lock, maybe some other process already locks the path else | |
| // print("didn't attempt locking {}", some_path); // locking didn't happen for some | |
| // other reason, maybe a configuration option | |
| // } | |
| // some_more_work(some_path); // do this that the lock failed or not | |
| // return lock; // The locking ownership can be transferred to another function if | |
| // necessary | |
| // } | |
| // | |
| class LockFile | |
| { | |
| public: | |
| // Non-throwing constructors, attempting lock on the provided path, file or directory. | |
| // In case of a directory, a lock-file will be created, located at `this->lockfile_path()` | |
| // and `this->is_locked()` (and `if(*this))` will always return true (unless this instance | |
| // is moved-from). If the lock acquisition failed or `allow_file_locking(false)` and until | |
| // re-assigned: | |
| // - `this->is_locked() == false` and `if(*this) ...` will go in the `false` branch. | |
| // - accessors will throw, except `is_locked()`, `count_lock_owners()`, and `error()` | |
| explicit LockFile(const fs::u8path& path); | |
| LockFile(const fs::u8path& path, const std::chrono::seconds& timeout); | |
| ~LockFile(); | |
| LockFile(const LockFile&) = delete; | |
| LockFile& operator=(const LockFile&) = delete; | |
| LockFile(LockFile&&); | |
| LockFile& operator=(LockFile&&); | |
| // Returns true if this LockFile is currently maintaining a lock on the target path. | |
| // Returns false if this instance have been moved-from without being re-assigned, | |
| // or if the lock acquisition failed. | |
| bool is_locked() const | |
| { | |
| return impl.has_value() // we have a owner | |
| && (impl.value() ? true : false); // it's not null | |
| } | |
| // Convenient operator to check if a lockfile is actually locking a path. | |
| explicit operator bool() const | |
| { | |
| return is_locked(); | |
| } | |
| // Returns the fd of the path being locked, throws if `is_locked() == false`. | |
| int fd() const; | |
| // Returns the path being locked, throws if `is_locked() == false`. | |
| fs::u8path path() const; | |
| // Returns the path of the lock-file being locked, throws if `is_locked() == false`. | |
| fs::u8path lockfile_path() const; | |
| // Returns the count of LockFile instances which are currently locking | |
| // the same path/file from the same process. | |
| // Returns 0 if `is_locked() == false`. | |
| std::size_t count_lock_owners() const | |
| { | |
| return std::size_t(impl.has_value() ? impl.value().use_count() : 0); | |
| } | |
| // Using file descriptor on Windows may cause false negative | |
| static bool is_locked(const fs::u8path& path); | |
| // Opening a new file descriptor on Unix would clear locks | |
| static bool is_locked(int fd); | |
| static bool is_locked(const LockFile& lockfile) | |
| { | |
| return lockfile.is_locked() && | |
| is_locked(lockfile.lockfile_path()); | |
| // Opening a new file descriptor on Unix would clear locks | |
| is_locked(lockfile.fd()); | |
| } | |
| std::optional<mamba_error> error() const | |
| { | |
| if (impl.has_value()) | |
| { | |
| return {}; | |
| } | |
| else | |
| { | |
| return impl.error(); | |
| } | |
| } | |
| private: | |
| tl::expected<std::shared_ptr<LockFileOwner>, mamba_error> impl; | |
| }; | |
| void split_package_extension(const std::string& file, std::string& name, std::string& extension); | |
| std::string | |
| quote_for_shell(const std::vector<std::string>& arguments, const std::string& shell = ""); | |
| std::size_t clean_trash_files(const fs::u8path& prefix, bool deep_clean); | |
| std::size_t remove_or_rename(const fs::u8path& target_prefix, const fs::u8path& path); | |
| // Unindent a string literal | |
| std::string unindent(const char* p); | |
| std::string prepend(const std::string& p, const char* start, const char* newline = ""); | |
| std::string prepend(const char* p, const char* start, const char* newline = ""); | |
| std::string timestamp(const std::time_t& time); | |
| std::time_t utc_time_now(); | |
| std::string utc_timestamp_now(); | |
| std::time_t parse_utc_timestamp(const std::string& timestamp, int& error_code) noexcept; | |
| std::time_t parse_utc_timestamp(const std::string& timestamp); | |
| std::ofstream | |
| open_ofstream(const fs::u8path& path, std::ios::openmode mode = std::ios::out | std::ios::binary); | |
| std::ifstream | |
| open_ifstream(const fs::u8path& path, std::ios::openmode mode = std::ios::in | std::ios::binary); | |
| bool ensure_comspec_set(); | |
| std::unique_ptr<TemporaryFile> wrap_call( | |
| const fs::u8path& root_prefix, | |
| const fs::u8path& prefix, | |
| const std::vector<std::string>& arguments, // TODO: c++20 replace by std::span | |
| bool is_mamba_exe = false | |
| ); | |
| struct PreparedWrappedCall | |
| { | |
| std::vector<std::string> wrapped_command; | |
| std::unique_ptr<TemporaryFile> temporary_file; | |
| }; | |
| PreparedWrappedCall prepare_wrapped_call( | |
| const PrefixParams& prefix_params, | |
| const std::vector<std::string>& cmd, | |
| bool is_mamba_exe | |
| ); | |
| /// Returns `true` if the filename matches names of files which should be interpreted as YAML. | |
| /// NOTE: this does not check if the file exists. | |
| bool is_yaml_file_name(std::string_view filename); | |
| std::optional<std::string> | |
| proxy_match(const std::string& url, const std::map<std::string, std::string>& proxy_servers); | |
| std::string hide_secrets(std::string_view str); | |
| class non_copyable_base | |
| { | |
| public: | |
| non_copyable_base() | |
| { | |
| } | |
| private: | |
| non_copyable_base(const non_copyable_base&); | |
| non_copyable_base& operator=(const non_copyable_base&); | |
| }; | |
| } // namespace mamba | |