/* * Copyright 2003-2020 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_OUTPUT_CONTROL_HXX #define MPD_OUTPUT_CONTROL_HXX #include "Source.hxx" #include "pcm/AudioFormat.hxx" #include "thread/Thread.hxx" #include "thread/Mutex.hxx" #include "thread/Cond.hxx" #include "system/PeriodClock.hxx" #include "util/Compiler.h" #include #include #include #include #include enum class ReplayGainMode : uint8_t; struct FilteredAudioOutput; struct MusicChunk; struct ConfigBlock; class MusicPipe; class Mixer; class AudioOutputClient; /** * Controller for an #AudioOutput and its output thread. */ class AudioOutputControl { std::unique_ptr output; /** * A copy of FilteredAudioOutput::name which we need just in * case this is a "dummy" output (output==nullptr) because * this output has been moved to another partitioncommands. */ const std::string name; /** * The PlayerControl object which "owns" this output. This * object is needed to signal command completion. */ AudioOutputClient &client; /** * Source of audio data. */ AudioOutputSource source; /** * The error that occurred in the output thread. It is * cleared whenever the output is opened successfully. * * Protected by #mutex. */ std::exception_ptr last_error; /** * If not nullptr, the device has failed, and this timer is used * to estimate how long it should stay disabled (unless * explicitly reopened with "play"). */ PeriodClock fail_timer; /** * The thread handle, or nullptr if the output thread isn't * running. */ Thread thread; /** * This condition object wakes up the output thread after * #command has been set. */ Cond wake_cond; /** * This condition object signals #command completion to the * client. */ Cond client_cond; /** * Additional data for #command. Protected by #mutex. */ struct Request { /** * The #AudioFormat requested by #Command::OPEN. */ AudioFormat audio_format; /** * The #MusicPipe passed to #Command::OPEN. */ const MusicPipe *pipe; } request; /** * The next command to be performed by the output thread. */ enum class Command { NONE, ENABLE, DISABLE, /** * Open the output, or reopen it if it is already * open, adjusting for input #AudioFormat changes. */ OPEN, CLOSE, PAUSE, /** * Close or pause the device, depending on the * #always_on setting. */ RELEASE, /** * Drains the internal (hardware) buffers of the device. This * operation may take a while to complete. */ DRAIN, CANCEL, KILL } command = Command::NONE; /** * Will this output receive tags from the decoder? The * default is true, but it may be configured to false to * suppress sending tags to the output. */ bool tags; /** * Shall this output always play something (i.e. silence), * even when playback is stopped? */ bool always_on; /** * Has the user enabled this device? */ bool enabled = true; /** * Is this device actually enabled, i.e. the "enable" method * has succeeded? */ bool really_enabled = false; /** * Is the device (already) open and functional? * * This attribute may only be modified by the output thread. * It is protected with #mutex: write accesses inside the * output thread and read accesses outside of it may only be * performed while the lock is held. */ bool open = false; /** * Is the device paused? i.e. the output thread is in the * ao_pause() loop. */ bool pause = false; /** * When this flag is set, the output thread will not do any * playback. It will wait until the flag is cleared. * * This is used to synchronize the "clear" operation on the * shared music pipe during the CANCEL command. */ bool allow_play = true; /** * Was an #AudioOutputInterrupted caught? In this case, * playback is suspended, and the output thread waits for a * command. * * This field is only valid while the output is open. */ bool caught_interrupted; /** * True while the OutputThread is inside ao_play(). This * means the PlayerThread does not need to wake up the * OutputThread when new chunks are added to the MusicPipe, * because the OutputThread is already watching that. */ bool in_playback_loop = false; /** * Has the OutputThread been woken up to play more chunks? * This is set by audio_output_play() and reset by ao_play() * to reduce the number of duplicate wakeups. */ bool woken_for_play = false; /** * If this flag is set, then the next WaitForDelay() call is * skipped. This is used to avoid delays after resuming * playback. */ bool skip_delay; /** * Has Command::KILL already been sent? This field is only * defined if `thread` is defined. It shall avoid sending the * command twice. * * Protected by #mutex. */ bool killed; public: /** * This mutex protects #open, #fail_timer, #pipe. */ mutable Mutex mutex; AudioOutputControl(std::unique_ptr _output, AudioOutputClient &_client) noexcept; ~AudioOutputControl() noexcept; AudioOutputControl(const AudioOutputControl &) = delete; AudioOutputControl &operator=(const AudioOutputControl &) = delete; /** * Throws on error. */ void Configure(const ConfigBlock &block); gcc_pure const char *GetName() const noexcept; gcc_pure const char *GetPluginName() const noexcept; gcc_pure const char *GetLogName() const noexcept; AudioOutputClient &GetClient() noexcept { return client; } gcc_pure Mixer *GetMixer() const noexcept; bool IsDummy() const noexcept { return !output; } /** * Caller must lock the mutex. */ bool IsEnabled() const noexcept { return enabled; } /** * @return true if the value has been modified */ bool LockSetEnabled(bool new_value) noexcept; /** * @return the new "enabled" value */ bool LockToggleEnabled() noexcept; /** * Caller must lock the mutex. */ bool IsOpen() const noexcept { return open; } /** * Caller must lock the mutex. */ bool IsBusy() const noexcept { return IsOpen() && !IsCommandFinished(); } /** * Caller must lock the mutex. */ const std::exception_ptr &GetLastError() const noexcept { return last_error; } /** * Detach and return the #FilteredAudioOutput instance and, * replacing it here with a "dummy" object. */ std::unique_ptr Steal() noexcept; void ReplaceDummy(std::unique_ptr new_output, bool _enabled) noexcept; void StartThread(); /** * Caller must lock the mutex. */ bool IsCommandFinished() const noexcept { return command == Command::NONE; } void CommandFinished() noexcept; /** * Waits for command completion. * * Caller must lock the mutex. */ void WaitForCommand(std::unique_lock &lock) noexcept; void LockWaitForCommand() noexcept { std::unique_lock lock(mutex); WaitForCommand(lock); } /** * Sends a command, but does not wait for completion. * * Caller must lock the mutex. */ void CommandAsync(Command cmd) noexcept; /** * Sends a command to the object and waits for completion. * * Caller must lock the mutex. */ void CommandWait(std::unique_lock &lock, Command cmd) noexcept; /** * Lock the object and execute the command synchronously. */ void LockCommandWait(Command cmd) noexcept; void BeginDestroy() noexcept; std::map GetAttributes() const noexcept; void SetAttribute(std::string &&name, std::string &&value); /** * Enables the device, but don't wait for completion. * * Caller must lock the mutex. */ void EnableAsync(); /** * Disables the device, but don't wait for completion. * * Caller must lock the mutex. */ void DisableAsync() noexcept; /** * Attempt to enable or disable the device as specified by the * #enabled attribute; attempt to sync it with #really_enabled * (wrapper for EnableAsync() or DisableAsync()). * * Caller must lock the mutex. */ void EnableDisableAsync(); void LockEnableDisableAsync() { const std::lock_guard protect(mutex); EnableDisableAsync(); } void LockPauseAsync() noexcept; void CloseWait(std::unique_lock &lock) noexcept; void LockCloseWait() noexcept; /** * Closes the audio output, but if the "always_on" flag is set, put it * into pause mode instead. */ void LockRelease() noexcept; void SetReplayGainMode(ReplayGainMode _mode) noexcept { source.SetReplayGainMode(_mode); } /** * Caller must lock the mutex. * * Throws on error. */ void InternalOpen2(AudioFormat in_audio_format); /** * Caller must lock the mutex. */ bool Open(std::unique_lock &lock, AudioFormat audio_format, const MusicPipe &mp) noexcept; /** * Opens or closes the device, depending on the "enabled" * flag. * * @param force true to ignore the #fail_timer * @return true if the device is open */ bool LockUpdate(const AudioFormat audio_format, const MusicPipe &mp, bool force) noexcept; /** * Did we already consumed this chunk? * * Caller must lock the mutex. */ gcc_pure bool IsChunkConsumed(const MusicChunk &chunk) const noexcept; gcc_pure bool LockIsChunkConsumed(const MusicChunk &chunk) const noexcept; /** * There's only one chunk left in the pipe (#pipe), and all * audio outputs have consumed it already. Clear the * reference. * * This stalls playback to give the caller a chance to shift * the #MusicPipe without getting disturbed; after this, * LockAllowPlay() must be called to resume playback. */ void ClearTailChunk(const MusicChunk &chunk) noexcept { if (!IsOpen()) return; source.ClearTailChunk(chunk); allow_play = false; } /** * Locking wrapper for ClearTailChunk(). */ void LockClearTailChunk(const MusicChunk &chunk) noexcept { const std::lock_guard lock(mutex); ClearTailChunk(chunk); } void LockPlay() noexcept; void LockDrainAsync() noexcept; /** * Clear the "allow_play" flag and send the "CANCEL" command * asynchronously. To finish the operation, the caller has to * call LockAllowPlay(). */ void LockCancelAsync() noexcept; /** * Set the "allow_play" and signal the thread. */ void LockAllowPlay() noexcept; private: /** * An error has occurred and this output is defunct. */ void Failure(std::exception_ptr e) noexcept { last_error = e; /* don't automatically reopen this device for 10 seconds */ fail_timer.Update(); } /** * Runs inside the OutputThread. * Caller must lock the mutex. * Handles exceptions. * * @return true on success */ bool InternalEnable() noexcept; /** * Runs inside the OutputThread. * Caller must lock the mutex. */ void InternalDisable() noexcept; /** * Runs inside the OutputThread. * Caller must lock the mutex. * Handles exceptions. */ void InternalOpen(AudioFormat audio_format, const MusicPipe &pipe) noexcept; /** * Runs inside the OutputThread. * Caller must lock the mutex. */ void InternalCloseOutput(bool drain) noexcept; /** * Runs inside the OutputThread. * Caller must lock the mutex. */ void InternalClose(bool drain) noexcept; /** * An error has occurred, and this output must be closed. */ void InternalCloseError(std::exception_ptr e) noexcept { Failure(e); InternalClose(false); } /** * Runs inside the OutputThread. * Caller must lock the mutex. */ void InternalCheckClose(bool drain) noexcept; /** * Wait until the output's delay reaches zero. * * @return true if playback should be continued, false if a * command was issued */ bool WaitForDelay(std::unique_lock &lock) noexcept; /** * Caller must lock the mutex. */ bool FillSourceOrClose() noexcept; /** * Caller must lock the mutex. */ bool PlayChunk(std::unique_lock &lock) noexcept; /** * Plays all remaining chunks, until the tail of the pipe has * been reached (and no more chunks are queued), or until a * command is received. * * Runs inside the OutputThread. * Caller must lock the mutex. * Handles exceptions. * * @return true if at least one chunk has been available, * false if the tail of the pipe was already reached */ bool InternalPlay(std::unique_lock &lock) noexcept; /** * Runs inside the OutputThread. * Caller must lock the mutex. * Handles exceptions. */ void InternalPause(std::unique_lock &lock) noexcept; /** * Runs inside the OutputThread. * Caller must lock the mutex. * Handles exceptions. */ void InternalDrain() noexcept; void StopThread() noexcept; /** * The OutputThread. */ void Task() noexcept; }; #endif