/* * Copyright 2003-2018 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 "config.h" #include "Control.hxx" #include "Bridge.hxx" #include "DecoderPlugin.hxx" #include "song/DetachedSong.hxx" #include "MusicPipe.hxx" #include "fs/Traits.hxx" #include "fs/AllocatedPath.hxx" #include "DecoderAPI.hxx" #include "input/InputStream.hxx" #include "input/LocalOpen.hxx" #include "input/Registry.hxx" #include "DecoderList.hxx" #include "system/Error.hxx" #include "util/MimeType.hxx" #include "util/UriUtil.hxx" #include "util/RuntimeError.hxx" #include "util/Domain.hxx" #include "util/ScopeExit.hxx" #include "util/StringCompare.hxx" #include "thread/Name.hxx" #include "tag/ApeReplayGain.hxx" #include "Log.hxx" #include #include #include static constexpr Domain decoder_thread_domain("decoder_thread"); /** * Opens the input stream with InputStream::Open(), and waits until * the stream gets ready. * * Unlock the decoder before calling this function. */ static InputStreamPtr decoder_input_stream_open(DecoderControl &dc, const char *uri) { auto is = InputStream::Open(uri, dc.mutex); is->SetHandler(&dc); /* wait for the input stream to become ready; its metadata will be available then */ const std::lock_guard protect(dc.mutex); is->Update(); while (!is->IsReady()) { if (dc.command == DecoderCommand::STOP) throw StopDecoder(); dc.Wait(); is->Update(); } is->Check(); return is; } static InputStreamPtr decoder_input_stream_open(DecoderControl &dc, Path path) { auto is = OpenLocalInputStream(path, dc.mutex); assert(is->IsReady()); return is; } /** * Decode a stream with the given decoder plugin. * * Caller holds DecoderControl::mutex. */ static bool decoder_stream_decode(const DecoderPlugin &plugin, DecoderBridge &bridge, InputStream &input_stream) { assert(plugin.stream_decode != nullptr); assert(bridge.stream_tag == nullptr); assert(bridge.decoder_tag == nullptr); assert(input_stream.IsReady()); assert(bridge.dc.state == DecoderState::START); FormatDebug(decoder_thread_domain, "probing plugin %s", plugin.name); if (bridge.dc.command == DecoderCommand::STOP) throw StopDecoder(); /* rewind the stream, so each plugin gets a fresh start */ try { input_stream.Rewind(); } catch (...) { } { const ScopeUnlock unlock(bridge.dc.mutex); FormatThreadName("decoder:%s", plugin.name); plugin.StreamDecode(bridge, input_stream); SetThreadName("decoder"); } assert(bridge.dc.state == DecoderState::START || bridge.dc.state == DecoderState::DECODE); return bridge.dc.state != DecoderState::START; } /** * Decode a file with the given decoder plugin. * * Caller holds DecoderControl::mutex. */ static bool decoder_file_decode(const DecoderPlugin &plugin, DecoderBridge &bridge, Path path) { assert(plugin.file_decode != nullptr); assert(bridge.stream_tag == nullptr); assert(bridge.decoder_tag == nullptr); assert(!path.IsNull()); assert(path.IsAbsolute()); assert(bridge.dc.state == DecoderState::START); FormatDebug(decoder_thread_domain, "probing plugin %s", plugin.name); if (bridge.dc.command == DecoderCommand::STOP) throw StopDecoder(); { const ScopeUnlock unlock(bridge.dc.mutex); FormatThreadName("decoder:%s", plugin.name); plugin.FileDecode(bridge, path); SetThreadName("decoder"); } assert(bridge.dc.state == DecoderState::START || bridge.dc.state == DecoderState::DECODE); return bridge.dc.state != DecoderState::START; } gcc_pure static bool decoder_check_plugin_mime(const DecoderPlugin &plugin, const InputStream &is) noexcept { assert(plugin.stream_decode != nullptr); const char *mime_type = is.GetMimeType(); return mime_type != nullptr && plugin.SupportsMimeType(GetMimeTypeBase(mime_type).c_str()); } gcc_pure static bool decoder_check_plugin_suffix(const DecoderPlugin &plugin, const char *suffix) noexcept { assert(plugin.stream_decode != nullptr); return suffix != nullptr && plugin.SupportsSuffix(suffix); } gcc_pure static bool decoder_check_plugin(const DecoderPlugin &plugin, const InputStream &is, const char *suffix) noexcept { return plugin.stream_decode != nullptr && (decoder_check_plugin_mime(plugin, is) || decoder_check_plugin_suffix(plugin, suffix)); } static bool decoder_run_stream_plugin(DecoderBridge &bridge, InputStream &is, const char *suffix, const DecoderPlugin &plugin, bool &tried_r) { if (!decoder_check_plugin(plugin, is, suffix)) return false; bridge.error = std::exception_ptr(); tried_r = true; return decoder_stream_decode(plugin, bridge, is); } static bool decoder_run_stream_locked(DecoderBridge &bridge, InputStream &is, const char *uri, bool &tried_r) { UriSuffixBuffer suffix_buffer; const char *const suffix = uri_get_suffix(uri, suffix_buffer); using namespace std::placeholders; const auto f = std::bind(decoder_run_stream_plugin, std::ref(bridge), std::ref(is), suffix, _1, std::ref(tried_r)); return decoder_plugins_try(f); } /** * Try decoding a stream, using the fallback plugin. */ static bool decoder_run_stream_fallback(DecoderBridge &bridge, InputStream &is) { const struct DecoderPlugin *plugin; #ifdef ENABLE_FFMPEG plugin = decoder_plugin_from_name("ffmpeg"); #else plugin = decoder_plugin_from_name("mad"); #endif return plugin != nullptr && plugin->stream_decode != nullptr && decoder_stream_decode(*plugin, bridge, is); } /** * Attempt to load replay gain data, and pass it to * DecoderClient::SubmitReplayGain(). */ static void LoadReplayGain(DecoderClient &client, InputStream &is) { ReplayGainInfo info; if (replay_gain_ape_read(is, info)) client.SubmitReplayGain(&info); } /** * Call LoadReplayGain() unless ReplayGain is disabled. This saves * the I/O overhead when the user is not interested in the feature. */ static void MaybeLoadReplayGain(DecoderBridge &bridge, InputStream &is) { { const std::lock_guard protect(bridge.dc.mutex); if (bridge.dc.replay_gain_mode == ReplayGainMode::OFF) /* ReplayGain is disabled */ return; } LoadReplayGain(bridge, is); } /** * Try decoding a stream. * * DecoderControl::mutex is not locked by caller. */ static bool decoder_run_stream(DecoderBridge &bridge, const char *uri) { DecoderControl &dc = bridge.dc; auto input_stream = decoder_input_stream_open(dc, uri); assert(input_stream); MaybeLoadReplayGain(bridge, *input_stream); const std::lock_guard protect(dc.mutex); bool tried = false; return dc.command == DecoderCommand::STOP || decoder_run_stream_locked(bridge, *input_stream, uri, tried) || /* fallback to mp3: this is needed for bastard streams that don't have a suffix or set the mimeType */ (!tried && decoder_run_stream_fallback(bridge, *input_stream)); } /** * Decode a file with the given decoder plugin. * * DecoderControl::mutex is not locked by caller. */ static bool TryDecoderFile(DecoderBridge &bridge, Path path_fs, const char *suffix, InputStream &input_stream, const DecoderPlugin &plugin) { if (!plugin.SupportsSuffix(suffix)) return false; bridge.error = std::exception_ptr(); DecoderControl &dc = bridge.dc; if (plugin.file_decode != nullptr) { const std::lock_guard protect(dc.mutex); return decoder_file_decode(plugin, bridge, path_fs); } else if (plugin.stream_decode != nullptr) { const std::lock_guard protect(dc.mutex); return decoder_stream_decode(plugin, bridge, input_stream); } else return false; } /** * Decode a container file with the given decoder plugin. * * DecoderControl::mutex is not locked by caller. */ static bool TryContainerDecoder(DecoderBridge &bridge, Path path_fs, const char *suffix, const DecoderPlugin &plugin) { if (plugin.container_scan == nullptr || plugin.file_decode == nullptr || !plugin.SupportsSuffix(suffix)) return false; bridge.error = nullptr; DecoderControl &dc = bridge.dc; const std::lock_guard protect(dc.mutex); return decoder_file_decode(plugin, bridge, path_fs); } /** * Decode a container file. * * DecoderControl::mutex is not locked by caller. */ static bool TryContainerDecoder(DecoderBridge &bridge, Path path_fs, const char *suffix) { return decoder_plugins_try([&bridge, path_fs, suffix](const DecoderPlugin &plugin){ return TryContainerDecoder(bridge, path_fs, suffix, plugin); }); } /** * Try decoding a file. * * DecoderControl::mutex is not locked by caller. */ static bool decoder_run_file(DecoderBridge &bridge, const char *uri_utf8, Path path_fs) { const char *suffix = uri_get_suffix(uri_utf8); if (suffix == nullptr) return false; InputStreamPtr input_stream; try { input_stream = decoder_input_stream_open(bridge.dc, path_fs); } catch (const std::system_error &e) { if (IsPathNotFound(e) && /* ENOTDIR means this may be a path inside a "container" file */ TryContainerDecoder(bridge, path_fs, suffix)) return true; throw; } assert(input_stream); MaybeLoadReplayGain(bridge, *input_stream); auto &is = *input_stream; return decoder_plugins_try([&bridge, path_fs, suffix, &is](const DecoderPlugin &plugin){ return TryDecoderFile(bridge, path_fs, suffix, is, plugin); }); } /** * Decode a song. * * DecoderControl::mutex is not locked. */ static bool DecoderUnlockedRunUri(DecoderBridge &bridge, const char *real_uri, Path path_fs) try { return !path_fs.IsNull() ? decoder_run_file(bridge, real_uri, path_fs) : decoder_run_stream(bridge, real_uri); } catch (StopDecoder) { return true; } catch (...) { const char *error_uri = real_uri; const std::string allocated = uri_remove_auth(error_uri); if (!allocated.empty()) error_uri = allocated.c_str(); std::throw_with_nested(FormatRuntimeError("Failed to decode %s", error_uri)); } /** * Try to guess whether tags attached to the given song are * "volatile", e.g. if they have been received by a live stream, but * are only kept as a cache to be displayed by the client; they shall * not be sent to the output. */ gcc_pure static bool SongHasVolatileTags(const DetachedSong &song) noexcept { return !song.IsFile() && !HasRemoteTagScanner(song.GetRealURI()); } /** * Decode a song addressed by a #DetachedSong. * * Caller holds DecoderControl::mutex. */ static void decoder_run_song(DecoderControl &dc, const DetachedSong &song, const char *uri, Path path_fs) { if (dc.command == DecoderCommand::SEEK) /* if the SEEK command arrived too late, start the decoder at the seek position */ dc.start_time = dc.seek_time; DecoderBridge bridge(dc, dc.start_time.IsPositive(), /* pass the song tag only if it's authoritative, i.e. if it's a local file - tags on "stream" songs are just remembered from the last time we played it*/ !SongHasVolatileTags(song) ? std::make_unique(song.GetTag()) : nullptr); dc.state = DecoderState::START; dc.CommandFinishedLocked(); bool success; { const ScopeUnlock unlock(dc.mutex); AtScopeExit(&bridge) { /* flush the last chunk */ if (bridge.current_chunk != nullptr) bridge.FlushChunk(); }; success = DecoderUnlockedRunUri(bridge, uri, path_fs); } if (bridge.error) { /* copy the Error from struct Decoder to DecoderControl */ std::rethrow_exception(bridge.error); } else if (success) dc.state = DecoderState::STOP; else { const char *error_uri = song.GetURI(); const std::string allocated = uri_remove_auth(error_uri); if (!allocated.empty()) error_uri = allocated.c_str(); throw FormatRuntimeError("Failed to decode %s", error_uri); } dc.client_cond.signal(); } /** * * Caller holds DecoderControl::mutex. */ static void decoder_run(DecoderControl &dc) noexcept try { dc.ClearError(); assert(dc.song != nullptr); const DetachedSong &song = *dc.song; const char *const uri_utf8 = song.GetRealURI(); Path path_fs = nullptr; AllocatedPath path_buffer = nullptr; if (PathTraitsUTF8::IsAbsolute(uri_utf8)) { path_buffer = AllocatedPath::FromUTF8Throw(uri_utf8); path_fs = path_buffer; } decoder_run_song(dc, song, uri_utf8, path_fs); } catch (...) { dc.state = DecoderState::ERROR; dc.command = DecoderCommand::NONE; dc.error = std::current_exception(); dc.client_cond.signal(); } void DecoderControl::RunThread() noexcept { SetThreadName("decoder"); const std::lock_guard protect(mutex); do { assert(state == DecoderState::STOP || state == DecoderState::ERROR); switch (command) { case DecoderCommand::START: CycleMixRamp(); replay_gain_prev_db = replay_gain_db; replay_gain_db = 0; decoder_run(*this); if (state == DecoderState::ERROR) { try { std::rethrow_exception(error); } catch (...) { LogError(std::current_exception()); } } break; case DecoderCommand::SEEK: /* this seek was too late, and the decoder had already finished; start a new decoder */ /* we need to clear the pipe here; usually the PlayerThread is responsible, but it is not aware that the decoder has finished */ pipe->Clear(); decoder_run(*this); break; case DecoderCommand::STOP: CommandFinishedLocked(); break; case DecoderCommand::NONE: Wait(); break; } } while (command != DecoderCommand::NONE || !quit); }