/* * Copyright (C) 2003-2014 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_DECODER_CONTROL_HXX #define MPD_DECODER_CONTROL_HXX #include "DecoderCommand.hxx" #include "AudioFormat.hxx" #include "MixRampInfo.hxx" #include "thread/Mutex.hxx" #include "thread/Cond.hxx" #include "thread/Thread.hxx" #include "Chrono.hxx" #include "util/Error.hxx" #include #include /* damn you, windows.h! */ #ifdef ERROR #undef ERROR #endif class DetachedSong; class MusicBuffer; class MusicPipe; enum class DecoderState : uint8_t { STOP = 0, START, DECODE, /** * The last "START" command failed, because there was an I/O * error or because no decoder was able to decode the file. * This state will only come after START; once the state has * turned to DECODE, by definition no such error can occur. */ ERROR, }; struct DecoderControl { /** * The handle of the decoder thread. */ Thread thread; /** * This lock protects #state and #command. * * This is usually a reference to PlayerControl::mutex, so * that both player thread and decoder thread share a mutex. * This simplifies synchronization with #cond and * #client_cond. */ Mutex &mutex; /** * Trigger this object after you have modified #command. This * is also used by the decoder thread to notify the caller * when it has finished a command. */ Cond cond; /** * The trigger of this object's client. It is signalled * whenever an event occurs. * * This is usually a reference to PlayerControl::cond. */ Cond &client_cond; DecoderState state; DecoderCommand command; /** * The error that occurred in the decoder thread. This * attribute is only valid if #state is #DecoderState::ERROR. * The object must be freed when this object transitions to * any other state (usually #DecoderState::START). */ Error error; bool quit; /** * Is the client currently waiting for the DecoderThread? If * false, the DecoderThread may omit invoking Cond::signal(), * reducing the number of system calls. */ bool client_is_waiting; bool seek_error; bool seekable; SongTime seek_time; /** the format of the song file */ AudioFormat in_audio_format; /** the format being sent to the music pipe */ AudioFormat out_audio_format; /** * The song currently being decoded. This attribute is set by * the player thread, when it sends the #DecoderCommand::START * command. * * This is a duplicate, and must be freed when this attribute * is cleared. */ DetachedSong *song; /** * The initial seek position (in milliseconds), e.g. to the * start of a sub-track described by a CUE file. * * This attribute is set by Start(). */ unsigned start_ms; /** * The decoder will stop when it reaches this position (in * milliseconds). 0 means don't stop before the end of the * file. * * This attribute is set by Start(). */ unsigned end_ms; float total_time; /** the #MusicChunk allocator */ MusicBuffer *buffer; /** * The destination pipe for decoded chunks. The caller thread * owns this object, and is responsible for freeing it. */ MusicPipe *pipe; float replay_gain_db; float replay_gain_prev_db; MixRampInfo mix_ramp, previous_mix_ramp; /** * @param _mutex see #mutex * @param _client_cond see #client_cond */ DecoderControl(Mutex &_mutex, Cond &_client_cond); ~DecoderControl(); /** * Locks the object. */ void Lock() const { mutex.lock(); } /** * Unlocks the object. */ void Unlock() const { mutex.unlock(); } /** * Signals the object. This function is only valid in the * player thread. The object should be locked prior to * calling this function. */ void Signal() { cond.signal(); } /** * Waits for a signal on the #DecoderControl object. This function * is only valid in the decoder thread. The object must be locked * prior to calling this function. */ void Wait() { cond.wait(mutex); } /** * Waits for a signal from the decoder thread. This object * must be locked prior to calling this function. This method * is only valid in the player thread. * * Caller must hold the lock. */ void WaitForDecoder(); bool IsIdle() const { return state == DecoderState::STOP || state == DecoderState::ERROR; } gcc_pure bool LockIsIdle() const { Lock(); bool result = IsIdle(); Unlock(); return result; } bool IsStarting() const { return state == DecoderState::START; } gcc_pure bool LockIsStarting() const { Lock(); bool result = IsStarting(); Unlock(); return result; } bool HasFailed() const { assert(command == DecoderCommand::NONE); return state == DecoderState::ERROR; } gcc_pure bool LockHasFailed() const { Lock(); bool result = HasFailed(); Unlock(); return result; } /** * Checks whether an error has occurred, and if so, returns a * copy of the #Error object. * * Caller must lock the object. */ gcc_pure Error GetError() const { assert(command == DecoderCommand::NONE); assert(state != DecoderState::ERROR || error.IsDefined()); Error result; if (state == DecoderState::ERROR) result.Set(error); return result; } /** * Like GetError(), but locks and unlocks the object. */ gcc_pure Error LockGetError() const { Lock(); Error result = GetError(); Unlock(); return result; } /** * Clear the error condition and free the #Error object (if any). * * Caller must lock the object. */ void ClearError() { if (state == DecoderState::ERROR) { error.Clear(); state = DecoderState::STOP; } } /** * Check if the specified song is currently being decoded. If the * decoder is not running currently (or being started), then this * function returns false in any case. * * Caller must lock the object. */ gcc_pure bool IsCurrentSong(const DetachedSong &_song) const; gcc_pure bool LockIsCurrentSong(const DetachedSong &_song) const { Lock(); const bool result = IsCurrentSong(_song); Unlock(); return result; } private: /** * Wait for the command to be finished by the decoder thread. * * To be called from the client thread. Caller must lock the * object. */ void WaitCommandLocked() { while (command != DecoderCommand::NONE) WaitForDecoder(); } /** * Send a command to the decoder thread and synchronously wait * for it to finish. * * To be called from the client thread. Caller must lock the * object. */ void SynchronousCommandLocked(DecoderCommand cmd) { command = cmd; Signal(); WaitCommandLocked(); } /** * Send a command to the decoder thread and synchronously wait * for it to finish. * * To be called from the client thread. This method locks the * object. */ void LockSynchronousCommand(DecoderCommand cmd) { Lock(); ClearError(); SynchronousCommandLocked(cmd); Unlock(); } void LockAsynchronousCommand(DecoderCommand cmd) { Lock(); command = cmd; Signal(); Unlock(); } public: /** * Start the decoder. * * @param song the song to be decoded; the given instance will be * owned and freed by the decoder * @param start_ms see #DecoderControl * @param end_ms see #DecoderControl * @param pipe the pipe which receives the decoded chunks (owned by * the caller) */ void Start(DetachedSong *song, unsigned start_ms, unsigned end_ms, MusicBuffer &buffer, MusicPipe &pipe); void Stop(); bool Seek(SongTime t); void Quit(); const char *GetMixRampStart() const { return mix_ramp.GetStart(); } const char *GetMixRampEnd() const { return mix_ramp.GetEnd(); } const char *GetMixRampPreviousEnd() const { return previous_mix_ramp.GetEnd(); } void SetMixRamp(MixRampInfo &&new_value) { mix_ramp = std::move(new_value); } /** * Move mixramp_end to mixramp_prev_end and clear * mixramp_start/mixramp_end. */ void CycleMixRamp(); }; #endif