/* * Copyright 2003-2017 The Music Player Daemon Project * http://www.musicpd.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef MPD_INPUT_STREAM_HXX #define MPD_INPUT_STREAM_HXX #include "check.h" #include "Offset.hxx" #include "Ptr.hxx" #include "thread/Mutex.hxx" #include "Compiler.h" #include #include #include struct Tag; class InputStreamHandler; class InputStream { public: typedef ::offset_type offset_type; private: /** * The absolute URI which was used to open this stream. */ const std::string uri; public: /** * A mutex that protects the mutable attributes of this object * and its implementation. It must be locked before calling * any of the public methods. * * This object is allocated by the client, and the client is * responsible for freeing it. */ Mutex &mutex; private: /** * A cond that gets signalled when the state of this object * changes from the I/O thread. The client of this object may * wait on it. * * This object is allocated by the client, and the client is * responsible for freeing it. */ InputStreamHandler *handler = nullptr; protected: /** * indicates whether the stream is ready for reading and * whether the other attributes in this struct are valid */ bool ready = false; /** * if true, then the stream is fully seekable */ bool seekable = false; static constexpr offset_type UNKNOWN_SIZE = -1; /** * the size of the resource, or #UNKNOWN_SIZE if unknown */ offset_type size = UNKNOWN_SIZE; /** * the current offset within the stream */ offset_type offset = 0; private: /** * the MIME content type of the resource, or empty if unknown. */ std::string mime; public: InputStream(const char *_uri, Mutex &_mutex) noexcept :uri(_uri), mutex(_mutex) { assert(_uri != nullptr); } /** * Close the input stream and free resources. * * The caller must not lock the mutex. */ virtual ~InputStream() noexcept; /** * Opens a new input stream. You may not access it until the "ready" * flag is set. * * Throws std::runtime_error on error. * * @param mutex a mutex that is used to protect this object; must be * locked before calling any of the public methods * @param cond a cond that gets signalled when the state of * this object changes; may be nullptr if the caller doesn't want to get * notifications * @return an #InputStream object on success */ gcc_nonnull(1) static InputStreamPtr Open(const char *uri, Mutex &mutex); /** * Just like Open(), but waits for the stream to become ready. * It is a wrapper for Open(), WaitReady() and Check(). */ gcc_nonnull(1) static InputStreamPtr OpenReady(const char *uri, Mutex &mutex); /** * Install a new handler. * * The caller must lock the mutex. */ void SetHandler(InputStreamHandler *new_handler) noexcept { handler = new_handler; } /** * Install a new handler and return the old one. * * The caller must lock the mutex. */ InputStreamHandler *ExchangeHandler(InputStreamHandler *new_handler) noexcept { return std::exchange(handler, new_handler); } /** * The absolute URI which was used to open this stream. * * No lock necessary for this method. */ const char *GetURI() const noexcept { return uri.c_str(); } /** * Check for errors that may have occurred in the I/O thread. * Throws std::runtime_error on error. */ virtual void Check(); /** * Update the public attributes. Call before accessing attributes * such as "ready" or "offset". */ virtual void Update() noexcept; void SetReady() noexcept; /** * Return whether the stream is ready for reading and whether * the other attributes in this struct are valid. * * The caller must lock the mutex. */ bool IsReady() const { return ready; } gcc_pure bool HasMimeType() const noexcept { assert(ready); return !mime.empty(); } gcc_pure const char *GetMimeType() const noexcept { assert(ready); return mime.empty() ? nullptr : mime.c_str(); } void ClearMimeType() noexcept { mime.clear(); } gcc_nonnull_all void SetMimeType(const char *_mime) noexcept { assert(!ready); mime = _mime; } void SetMimeType(std::string &&_mime) noexcept { assert(!ready); mime = std::move(_mime); } gcc_pure bool KnownSize() const noexcept { assert(ready); return size != UNKNOWN_SIZE; } gcc_pure offset_type GetSize() const noexcept { assert(ready); assert(KnownSize()); return size; } void AddOffset(offset_type delta) noexcept { assert(ready); offset += delta; } gcc_pure offset_type GetOffset() const noexcept { assert(ready); return offset; } gcc_pure offset_type GetRest() const noexcept { assert(ready); assert(KnownSize()); return size - offset; } gcc_pure bool IsSeekable() const noexcept { assert(ready); return seekable; } /** * Determines whether seeking is cheap. This is true for local files. */ gcc_pure bool CheapSeeking() const noexcept; /** * Seeks to the specified position in the stream. This will most * likely fail if the "seekable" flag is false. * * The caller must lock the mutex. * * Throws std::runtime_error on error. * * @param offset the relative offset */ virtual void Seek(offset_type offset); /** * Wrapper for Seek() which locks and unlocks the mutex; the * caller must not be holding it already. */ void LockSeek(offset_type offset); /** * Rewind to the beginning of the stream. This is a wrapper * for Seek(0, error). */ void Rewind() { Seek(0); } void LockRewind() { LockSeek(0); } /** * Skip input bytes. */ void Skip(offset_type _offset) { Seek(GetOffset() + _offset); } void LockSkip(offset_type _offset); /** * Returns true if the stream has reached end-of-file. * * The caller must lock the mutex. */ gcc_pure virtual bool IsEOF() noexcept = 0; /** * Wrapper for IsEOF() which locks and unlocks the mutex; the * caller must not be holding it already. */ gcc_pure bool LockIsEOF() noexcept; /** * Reads the tag from the stream. * * The caller must lock the mutex. * * @return a tag object or nullptr if the tag has not changed * since the last call */ virtual std::unique_ptr ReadTag(); /** * Wrapper for ReadTag() which locks and unlocks the mutex; * the caller must not be holding it already. */ std::unique_ptr LockReadTag(); /** * Returns true if the next read operation will not block: either data * is available, or end-of-stream has been reached, or an error has * occurred. * * The caller must lock the mutex. */ gcc_pure virtual bool IsAvailable() noexcept; /** * Reads data from the stream into the caller-supplied buffer. * Returns 0 on error or eof (check with IsEOF()). * * The caller must lock the mutex. * * Throws std::runtime_error on error. * * @param ptr the buffer to read into * @param size the maximum number of bytes to read * @return the number of bytes read */ gcc_nonnull_all virtual size_t Read(void *ptr, size_t size) = 0; /** * Wrapper for Read() which locks and unlocks the mutex; * the caller must not be holding it already. * * Throws std::runtime_error on error. */ gcc_nonnull_all size_t LockRead(void *ptr, size_t size); /** * Reads the whole data from the stream into the caller-supplied buffer. * * The caller must lock the mutex. * * Throws std::runtime_error on error. * * @param ptr the buffer to read into * @param size the number of bytes to read * @return true if the whole data was read, false otherwise. */ gcc_nonnull_all void ReadFull(void *ptr, size_t size); /** * Wrapper for ReadFull() which locks and unlocks the mutex; * the caller must not be holding it already. * * Throws std::runtime_error on error. */ gcc_nonnull_all void LockReadFull(void *ptr, size_t size); protected: void InvokeOnReady() noexcept; void InvokeOnAvailable() noexcept; }; /** * Install an #InputStreamHandler during the scope in which this * variable lives, and restore the old handler afterwards. */ class ScopeExchangeInputStreamHandler { InputStream &is; InputStreamHandler *const old_handler; public: ScopeExchangeInputStreamHandler(InputStream &_is, InputStreamHandler *new_handler) noexcept :is(_is), old_handler(is.ExchangeHandler(new_handler)) {} ScopeExchangeInputStreamHandler(const ScopeExchangeInputStreamHandler &) = delete; ~ScopeExchangeInputStreamHandler() noexcept { is.SetHandler(old_handler); } }; #endif