/* * Copyright 2003-2021 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. */ #include "Bridge.hxx" #include "DecoderAPI.hxx" #include "Domain.hxx" #include "Control.hxx" #include "song/DetachedSong.hxx" #include "pcm/Convert.hxx" #include "MusicPipe.hxx" #include "MusicBuffer.hxx" #include "MusicChunk.hxx" #include "tag/Tag.hxx" #include "Log.hxx" #include "input/InputStream.hxx" #include "input/LocalOpen.hxx" #include "input/cache/Manager.hxx" #include "input/cache/Stream.hxx" #include "fs/Path.hxx" #include "util/ConstBuffer.hxx" #include "util/StringBuffer.hxx" #include #include #include #include DecoderBridge::DecoderBridge(DecoderControl &_dc, bool _initial_seek_pending, bool _initial_seek_essential, std::unique_ptr _tag) noexcept :dc(_dc), initial_seek_pending(_initial_seek_pending), initial_seek_essential(_initial_seek_essential), song_tag(std::move(_tag)) {} DecoderBridge::~DecoderBridge() noexcept { /* caller must flush the chunk */ assert(current_chunk == nullptr); } InputStreamPtr DecoderBridge::OpenLocal(Path path_fs, const char *uri_utf8) { if (dc.input_cache != nullptr) { auto lease = dc.input_cache->Get(uri_utf8, true); if (lease) { auto is = std::make_unique(std::move(lease), dc.mutex); is->SetHandler(&dc); return is; } } auto is = OpenLocalInputStream(path_fs, dc.mutex); is->SetHandler(&dc); return is; } bool DecoderBridge::CheckCancelRead() const noexcept { if (error) /* this translates to DecoderCommand::STOP */ return true; if (dc.command == DecoderCommand::NONE) return false; /* ignore the SEEK command during initialization, the plugin should handle that after it has initialized successfully */ if (dc.command == DecoderCommand::SEEK && (dc.state == DecoderState::START || seeking || initial_seek_running)) return false; return true; } /** * All chunks are full of decoded data; wait for the player to free * one. */ static DecoderCommand NeedChunks(DecoderControl &dc, std::unique_lock &lock) noexcept { if (dc.command == DecoderCommand::NONE) dc.Wait(lock); return dc.command; } static DecoderCommand LockNeedChunks(DecoderControl &dc) noexcept { std::unique_lock lock(dc.mutex); return NeedChunks(dc, lock); } MusicChunk * DecoderBridge::GetChunk() noexcept { DecoderCommand cmd; if (current_chunk != nullptr) return current_chunk.get(); do { current_chunk = dc.buffer->Allocate(); if (current_chunk != nullptr) { current_chunk->replay_gain_serial = replay_gain_serial; if (replay_gain_serial != 0) current_chunk->replay_gain_info = replay_gain_info; return current_chunk.get(); } cmd = LockNeedChunks(dc); } while (cmd == DecoderCommand::NONE); return nullptr; } void DecoderBridge::FlushChunk() noexcept { assert(!seeking); assert(!initial_seek_running); assert(!initial_seek_pending); assert(current_chunk != nullptr); auto chunk = std::move(current_chunk); if (!chunk->IsEmpty()) dc.pipe->Push(std::move(chunk)); const std::lock_guard protect(dc.mutex); dc.client_cond.notify_one(); } bool DecoderBridge::PrepareInitialSeek() noexcept { assert(dc.pipe != nullptr); if (dc.state != DecoderState::DECODE) /* wait until the decoder has finished initialisation (reading file headers etc.) before emitting the virtual "SEEK" command */ return false; if (initial_seek_running) /* initial seek has already begun - override any other command */ return true; if (initial_seek_pending) { if (!dc.seekable) { /* seeking is not possible */ initial_seek_pending = false; return false; } if (dc.command == DecoderCommand::NONE) { /* begin initial seek */ initial_seek_pending = false; initial_seek_running = true; return true; } /* skip initial seek when there's another command (e.g. STOP) */ initial_seek_pending = false; } return false; } DecoderCommand DecoderBridge::GetVirtualCommand() noexcept { if (error) /* an error has occurred: stop the decoder plugin */ return DecoderCommand::STOP; assert(dc.pipe != nullptr); if (PrepareInitialSeek()) return DecoderCommand::SEEK; return dc.command; } DecoderCommand DecoderBridge::LockGetVirtualCommand() noexcept { const std::lock_guard protect(dc.mutex); return GetVirtualCommand(); } DecoderCommand DecoderBridge::DoSendTag(const Tag &tag) noexcept { if (current_chunk != nullptr) { /* there is a partial chunk - flush it, we want the tag in a new chunk */ FlushChunk(); } assert(current_chunk == nullptr); auto *chunk = GetChunk(); if (chunk == nullptr) { assert(dc.command != DecoderCommand::NONE); return dc.command; } chunk->tag = std::make_unique(tag); return DecoderCommand::NONE; } bool DecoderBridge::UpdateStreamTag(InputStream *is) noexcept { auto tag = is != nullptr ? is->LockReadTag() : nullptr; if (tag == nullptr) { tag = std::move(song_tag); if (tag == nullptr) return false; /* no stream tag present - submit the song tag instead */ } else /* discard the song tag; we don't need it */ song_tag.reset(); stream_tag = std::move(tag); return true; } void DecoderBridge::Ready(const AudioFormat audio_format, bool seekable, SignedSongTime duration) noexcept { assert(convert == nullptr); assert(stream_tag == nullptr); assert(decoder_tag == nullptr); assert(!seeking); FormatDebug(decoder_domain, "audio_format=%s, seekable=%s", ToString(audio_format).c_str(), seekable ? "true" : "false"); { const std::lock_guard protect(dc.mutex); dc.SetReady(audio_format, seekable, duration); } if (dc.in_audio_format != dc.out_audio_format) { FormatDebug(decoder_domain, "converting to %s", ToString(dc.out_audio_format).c_str()); try { convert = std::make_unique(dc.in_audio_format, dc.out_audio_format); } catch (...) { error = std::current_exception(); } } } DecoderCommand DecoderBridge::GetCommand() noexcept { return LockGetVirtualCommand(); } void DecoderBridge::CommandFinished() noexcept { const std::lock_guard protect(dc.mutex); assert(dc.command != DecoderCommand::NONE || initial_seek_running); assert(dc.command != DecoderCommand::SEEK || initial_seek_running || dc.seek_error || seeking); assert(dc.pipe != nullptr); if (initial_seek_running) { assert(!seeking); assert(current_chunk == nullptr); assert(dc.pipe->IsEmpty()); initial_seek_running = false; timestamp = std::chrono::duration_cast(dc.start_time); absolute_frame = dc.start_time.ToScale(dc.in_audio_format.sample_rate); return; } if (seeking) { seeking = false; /* delete frames from the old song position */ current_chunk.reset(); dc.pipe->Clear(); if (convert != nullptr) convert->Reset(); timestamp = std::chrono::duration_cast(dc.seek_time); absolute_frame = dc.seek_time.ToScale(dc.in_audio_format.sample_rate); } dc.command = DecoderCommand::NONE; dc.client_cond.notify_one(); } SongTime DecoderBridge::GetSeekTime() noexcept { assert(dc.pipe != nullptr); if (initial_seek_running) return dc.start_time; assert(dc.command == DecoderCommand::SEEK); seeking = true; return dc.seek_time; } uint64_t DecoderBridge::GetSeekFrame() noexcept { return GetSeekTime().ToScale(dc.in_audio_format.sample_rate); } void DecoderBridge::SeekError() noexcept { assert(dc.pipe != nullptr); if (initial_seek_running) { /* d'oh, we can't seek to the sub-song start position, what now? - no idea, ignoring the problem for now. */ initial_seek_running = false; if (initial_seek_essential) error = std::make_exception_ptr(std::runtime_error("Decoder failed to seek")); return; } assert(dc.command == DecoderCommand::SEEK); dc.seek_error = true; seeking = false; CommandFinished(); } InputStreamPtr DecoderBridge::OpenUri(const char *uri) { assert(dc.state == DecoderState::START || dc.state == DecoderState::DECODE); Mutex &mutex = dc.mutex; Cond &cond = dc.cond; auto is = InputStream::Open(uri, mutex); is->SetHandler(&dc); std::unique_lock lock(mutex); while (true) { if (dc.command == DecoderCommand::STOP) throw StopDecoder(); is->Update(); if (is->IsReady()) { is->Check(); return is; } cond.wait(lock); } } size_t DecoderBridge::Read(InputStream &is, void *buffer, size_t length) noexcept try { assert(buffer != nullptr); assert(dc.state == DecoderState::START || dc.state == DecoderState::DECODE); if (length == 0) return 0; std::unique_lock lock(is.mutex); while (true) { if (CheckCancelRead()) return 0; if (is.IsAvailable()) break; dc.cond.wait(lock); } size_t nbytes = is.Read(lock, buffer, length); assert(nbytes > 0 || is.IsEOF()); return nbytes; } catch (...) { error = std::current_exception(); return 0; } void DecoderBridge::SubmitTimestamp(FloatDuration t) noexcept { assert(t.count() >= 0); timestamp = t; absolute_frame = uint64_t(t.count() * dc.in_audio_format.sample_rate); } DecoderCommand DecoderBridge::SubmitData(InputStream *is, const void *data, size_t length, uint16_t kbit_rate) noexcept { assert(dc.state == DecoderState::DECODE); assert(dc.pipe != nullptr); assert(length % dc.in_audio_format.GetFrameSize() == 0); DecoderCommand cmd = LockGetVirtualCommand(); if (cmd == DecoderCommand::STOP || cmd == DecoderCommand::SEEK || length == 0) return cmd; assert(!initial_seek_pending); assert(!initial_seek_running); /* send stream tags */ if (UpdateStreamTag(is)) { if (decoder_tag != nullptr) /* merge with tag from decoder plugin */ cmd = DoSendTag(*Tag::Merge(*decoder_tag, *stream_tag)); else /* send only the stream tag */ cmd = DoSendTag(*stream_tag); if (cmd != DecoderCommand::NONE) return cmd; } cmd = DecoderCommand::NONE; const size_t frame_size = dc.in_audio_format.GetFrameSize(); size_t data_frames = length / frame_size; if (dc.end_time.IsPositive()) { /* enforce the given end time */ const auto end_frame = dc.end_time.ToScale(dc.in_audio_format.sample_rate); if (absolute_frame >= end_frame) return DecoderCommand::STOP; const uint64_t remaining_frames = end_frame - absolute_frame; if (data_frames >= remaining_frames) { /* past the end of the range: truncate this data submission and stop the decoder */ data_frames = remaining_frames; length = data_frames * frame_size; cmd = DecoderCommand::STOP; } } if (convert != nullptr) { assert(dc.in_audio_format != dc.out_audio_format); try { auto result = convert->Convert({data, length}); data = result.data; length = result.size; } catch (...) { /* the PCM conversion has failed - stop playback, since we have no better way to bail out */ error = std::current_exception(); return DecoderCommand::STOP; } } else { assert(dc.in_audio_format == dc.out_audio_format); } while (length > 0) { bool full; auto *chunk = GetChunk(); if (chunk == nullptr) { assert(dc.command != DecoderCommand::NONE); return dc.command; } const auto dest = chunk->Write(dc.out_audio_format, SongTime::Cast(timestamp) - dc.song->GetStartTime(), kbit_rate); if (dest.empty()) { /* the chunk is full, flush it */ FlushChunk(); continue; } const size_t nbytes = std::min(dest.size, length); /* copy the buffer */ memcpy(dest.data, data, nbytes); /* expand the music pipe chunk */ full = chunk->Expand(dc.out_audio_format, nbytes); if (full) { /* the chunk is full, flush it */ FlushChunk(); } data = (const uint8_t *)data + nbytes; length -= nbytes; timestamp += dc.out_audio_format.SizeToTime(nbytes); } absolute_frame += data_frames; return cmd; } DecoderCommand DecoderBridge::SubmitTag(InputStream *is, Tag &&tag) noexcept { DecoderCommand cmd; assert(dc.state == DecoderState::DECODE); assert(dc.pipe != nullptr); /* save the tag */ decoder_tag = std::make_unique(std::move(tag)); /* check for a new stream tag */ UpdateStreamTag(is); /* check if we're seeking */ if (PrepareInitialSeek()) /* during initial seek, no music chunk must be created until seeking is finished; skip the rest of the function here */ return DecoderCommand::SEEK; /* send tag to music pipe */ if (stream_tag != nullptr) /* merge with tag from input stream */ cmd = DoSendTag(*Tag::Merge(*stream_tag, *decoder_tag)); else /* send only the decoder tag */ cmd = DoSendTag(*decoder_tag); return cmd; } void DecoderBridge::SubmitReplayGain(const ReplayGainInfo *new_replay_gain_info) noexcept { if (new_replay_gain_info != nullptr) { static unsigned serial; if (++serial == 0) serial = 1; if (ReplayGainMode::OFF != dc.replay_gain_mode) { ReplayGainMode rgm = dc.replay_gain_mode; if (rgm != ReplayGainMode::ALBUM) rgm = ReplayGainMode::TRACK; const auto &tuple = new_replay_gain_info->Get(rgm); const auto scale = tuple.CalculateScale(dc.replay_gain_config); dc.replay_gain_db = 20.0f * std::log10(scale); } replay_gain_info = *new_replay_gain_info; replay_gain_serial = serial; if (current_chunk != nullptr) { /* flush the current chunk because the new replay gain values affect the following samples */ FlushChunk(); } } else replay_gain_serial = 0; } void DecoderBridge::SubmitMixRamp(MixRampInfo &&mix_ramp) noexcept { dc.SetMixRamp(std::move(mix_ramp)); }