/* * Strawberry Music Player * This file was part of Clementine. * Copyright 2010, David Sansome * Copyright 2018-2021, Jonas Kvinge * * Strawberry 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 3 of the License, or * (at your option) any later version. * * Strawberry 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 Strawberry. If not, see . * */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "core/logging.h" #include "core/signalchecker.h" #include "transcoder.h" int Transcoder::JobFinishedEvent::sEventType = -1; TranscoderPreset::TranscoderPreset(const Song::FileType filetype, const QString &name, const QString &extension, const QString &codec_mimetype, const QString &muxer_mimetype) : filetype_(filetype), name_(name), extension_(extension), codec_mimetype_(codec_mimetype), muxer_mimetype_(muxer_mimetype) {} GstElement *Transcoder::CreateElement(const QString &factory_name, GstElement *bin, const QString &name) { GstElement *ret = gst_element_factory_make(factory_name.toLatin1().constData(), name.isNull() ? factory_name.toLatin1().constData() : name.toLatin1().constData()); if (ret && bin) gst_bin_add(GST_BIN(bin), ret); if (ret) { SetElementProperties(factory_name, G_OBJECT(ret)); } else { emit LogLine(tr("Could not create the GStreamer element \"%1\" - make sure you have all the required GStreamer plugins installed").arg(factory_name)); } return ret; } struct SuitableElement { explicit SuitableElement(const QString &name = QString(), int rank = 0) : name_(name), rank_(rank) {} bool operator<(const SuitableElement &other) const { return rank_ < other.rank_; } QString name_; int rank_; }; GstElement *Transcoder::CreateElementForMimeType(const QString &element_type, const QString &mime_type, GstElement *bin) { if (mime_type.isEmpty()) return nullptr; // HACK: Force mp4mux because it doesn't set any useful src caps if (mime_type == "audio/mp4") { emit LogLine(QString("Using '%1' (rank %2)").arg("mp4mux").arg(-1)); return CreateElement("mp4mux", bin); } // Keep track of all the suitable elements we find and figure out which is the best at the end. QList suitable_elements_; // The caps we're trying to find GstCaps *target_caps = gst_caps_from_string(mime_type.toUtf8().constData()); GstRegistry *registry = gst_registry_get(); GList *const features = gst_registry_get_feature_list(registry, GST_TYPE_ELEMENT_FACTORY); for (GList *f = features; f; f = g_list_next(f)) { GstElementFactory *factory = GST_ELEMENT_FACTORY(f->data); // Is this the right type of plugin? if (QString(gst_element_factory_get_klass(factory)).contains(element_type)) { const GList *const templates = gst_element_factory_get_static_pad_templates(factory); for (const GList *t = templates; t; t = g_list_next(t)) { // Only interested in source pads GstStaticPadTemplate *pad_template = reinterpret_cast(t->data); if (pad_template->direction != GST_PAD_SRC) continue; // Does this pad support the mime type we want? GstCaps *caps = gst_static_pad_template_get_caps(pad_template); GstCaps *intersection = gst_caps_intersect(caps, target_caps); gst_caps_unref(caps); if (intersection) { if (!gst_caps_is_empty(intersection)) { int rank = static_cast(gst_plugin_feature_get_rank(GST_PLUGIN_FEATURE(factory))); QString name = GST_OBJECT_NAME(factory); if (name.startsWith("ffmux") || name.startsWith("ffenc")) { rank = -1; // ffmpeg usually sucks } suitable_elements_ << SuitableElement(name, rank); } gst_caps_unref(intersection); } } } } gst_plugin_feature_list_free(features); gst_caps_unref(target_caps); if (suitable_elements_.isEmpty()) return nullptr; // Sort by rank std::sort(suitable_elements_.begin(), suitable_elements_.end()); const SuitableElement &best = suitable_elements_.last(); emit LogLine(QString("Using '%1' (rank %2)").arg(best.name_).arg(best.rank_)); if (best.name_ == "lamemp3enc") { // Special case: we need to add xingmux and id3v2mux to the pipeline when using lamemp3enc because it doesn't write the VBR or ID3v2 headers itself. emit LogLine("Adding xingmux and id3v2mux to the pipeline"); // Create the bin GstElement *mp3bin = gst_bin_new("mp3bin"); gst_bin_add(GST_BIN(bin), mp3bin); // Create the elements GstElement *lame = CreateElement("lamemp3enc", mp3bin); GstElement *xing = CreateElement("xingmux", mp3bin); GstElement *id3v2 = CreateElement("id3v2mux", mp3bin); if (!lame || !xing || !id3v2) { return nullptr; } // Link the elements together gst_element_link_many(lame, xing, id3v2, nullptr); // Link the bin's ghost pads to the elements on each end GstPad *pad = gst_element_get_static_pad(lame, "sink"); gst_element_add_pad(mp3bin, gst_ghost_pad_new("sink", pad)); gst_object_unref(GST_OBJECT(pad)); pad = gst_element_get_static_pad(id3v2, "src"); gst_element_add_pad(mp3bin, gst_ghost_pad_new("src", pad)); gst_object_unref(GST_OBJECT(pad)); return mp3bin; } else { return CreateElement(best.name_, bin); } } Transcoder::JobFinishedEvent::JobFinishedEvent(JobState *state, bool success) : QEvent(static_cast(sEventType)), state_(state), success_(success) {} void Transcoder::JobState::PostFinished(const bool success) { if (success) { emit parent_->LogLine(tr("Successfully written %1").arg(QDir::toNativeSeparators(job_.output))); } QCoreApplication::postEvent(parent_, new Transcoder::JobFinishedEvent(this, success)); } Transcoder::Transcoder(QObject *parent, const QString &settings_postfix) : QObject(parent), max_threads_(QThread::idealThreadCount()), settings_postfix_(settings_postfix) { if (JobFinishedEvent::sEventType == -1) JobFinishedEvent::sEventType = QEvent::registerEventType(); // Initialize some settings for the lamemp3enc element. QSettings s; s.beginGroup("Transcoder/lamemp3enc" + settings_postfix_); if (s.value("target").isNull()) { s.setValue("target", 1); // 1 == bitrate } if (s.value("cbr").isNull()) { s.setValue("cbr", false); } s.endGroup(); } QList Transcoder::GetAllPresets() { QList ret; ret << PresetForFileType(Song::FileType_WAV); ret << PresetForFileType(Song::FileType_FLAC); ret << PresetForFileType(Song::FileType_WavPack); ret << PresetForFileType(Song::FileType_OggFlac); ret << PresetForFileType(Song::FileType_OggVorbis); ret << PresetForFileType(Song::FileType_OggOpus); ret << PresetForFileType(Song::FileType_OggSpeex); ret << PresetForFileType(Song::FileType_MPEG); ret << PresetForFileType(Song::FileType_MP4); ret << PresetForFileType(Song::FileType_ASF); return ret; } TranscoderPreset Transcoder::PresetForFileType(const Song::FileType filetype) { switch (filetype) { case Song::FileType_WAV: return TranscoderPreset(filetype, "Wav", "wav", QString(), "audio/x-wav"); case Song::FileType_FLAC: return TranscoderPreset(filetype, "FLAC", "flac", "audio/x-flac"); case Song::FileType_WavPack: return TranscoderPreset(filetype, "WavPack", "wv", "audio/x-wavpack"); case Song::FileType_OggFlac: return TranscoderPreset(filetype, "Ogg FLAC", "ogg", "audio/x-flac", "application/ogg"); case Song::FileType_OggVorbis: return TranscoderPreset(filetype, "Ogg Vorbis", "ogg", "audio/x-vorbis", "application/ogg"); case Song::FileType_OggOpus: return TranscoderPreset(filetype, "Ogg Opus", "opus", "audio/x-opus", "application/ogg"); case Song::FileType_OggSpeex: return TranscoderPreset(filetype, "Ogg Speex", "spx", "audio/x-speex", "application/ogg"); case Song::FileType_MPEG: return TranscoderPreset(filetype, "MP3", "mp3", "audio/mpeg, mpegversion=(int)1, layer=(int)3"); case Song::FileType_MP4: return TranscoderPreset(filetype, "M4A AAC", "mp4", "audio/mpeg, mpegversion=(int)4", "audio/mp4"); case Song::FileType_ASF: return TranscoderPreset(filetype, "Windows Media audio", "wma", "audio/x-wma", "video/x-ms-asf"); default: qLog(Warning) << "Unsupported format in PresetForFileType:" << filetype; return TranscoderPreset(); } } Song::FileType Transcoder::PickBestFormat(const QList &supported) { if (supported.isEmpty()) return Song::FileType_Unknown; QList best_formats; best_formats << Song::FileType_FLAC; best_formats << Song::FileType_OggFlac; best_formats << Song::FileType_WavPack; for (Song::FileType type : best_formats) { if (supported.isEmpty() || supported.contains(type)) return type; } return supported[0]; } QString Transcoder::GetFile(const QString &input, const TranscoderPreset &preset, const QString &output) { QFileInfo fileinfo_output; if (!output.isEmpty()) { fileinfo_output.setFile(output); } if (!fileinfo_output.isFile() || fileinfo_output.filePath().isEmpty() || fileinfo_output.path().isEmpty() || fileinfo_output.fileName().isEmpty() || fileinfo_output.suffix().isEmpty()) { QFileInfo fileinfo_input(input); QString temp_dir = QStandardPaths::writableLocation(QStandardPaths::CacheLocation) + "/transcoder"; if (!QDir(temp_dir).exists()) QDir().mkpath(temp_dir); QString filename = fileinfo_input.completeBaseName() + "." + preset.extension_; fileinfo_output.setFile(temp_dir + "/" + filename); } // Never overwrite existing files if (fileinfo_output.exists()) { QString path = fileinfo_output.path(); QString filename = fileinfo_output.completeBaseName(); QString suffix = fileinfo_output.suffix(); for (int i = 0;; ++i) { QString new_filename = QString("%1/%2-%3.%4").arg(path, filename).arg(i).arg(suffix); fileinfo_output.setFile(new_filename); if (!fileinfo_output.exists()) { break; } } } return fileinfo_output.filePath(); } void Transcoder::AddJob(const QString &input, const TranscoderPreset &preset, const QString &output) { Job job; job.input = input; job.preset = preset; job.output = output; queued_jobs_ << job; } void Transcoder::Start() { emit LogLine(tr("Transcoding %1 files using %2 threads").arg(queued_jobs_.count()).arg(max_threads())); forever { StartJobStatus status = MaybeStartNextJob(); if (status == AllThreadsBusy || status == NoMoreJobs) break; } } Transcoder::StartJobStatus Transcoder::MaybeStartNextJob() { if (current_jobs_.count() >= max_threads()) return AllThreadsBusy; if (queued_jobs_.isEmpty()) { if (current_jobs_.isEmpty()) { emit AllJobsComplete(); } return NoMoreJobs; } Job job = queued_jobs_.takeFirst(); if (StartJob(job)) { return StartedSuccessfully; } emit JobComplete(job.input, job.output, false); return FailedToStart; } void Transcoder::NewPadCallback(GstElement*, GstPad *pad, gpointer data) { JobState *state = reinterpret_cast(data); GstPad *const audiopad = gst_element_get_static_pad(state->convert_element_, "sink"); if (GST_PAD_IS_LINKED(audiopad)) { qLog(Debug) << "Audiopad is already linked, unlinking old pad"; gst_pad_unlink(audiopad, GST_PAD_PEER(audiopad)); } gst_pad_link(pad, audiopad); gst_object_unref(audiopad); } GstBusSyncReply Transcoder::BusCallbackSync(GstBus*, GstMessage *msg, gpointer data) { JobState *state = reinterpret_cast(data); switch (GST_MESSAGE_TYPE(msg)) { case GST_MESSAGE_EOS: state->PostFinished(true); break; case GST_MESSAGE_ERROR: state->ReportError(msg); state->PostFinished(false); break; default: break; } return GST_BUS_PASS; } void Transcoder::JobState::ReportError(GstMessage *msg) const { GError *error = nullptr; gchar *debugs = nullptr; gst_message_parse_error(msg, &error, &debugs); QString message = QString::fromLocal8Bit(error->message); g_error_free(error); g_free(debugs); emit parent_->LogLine(tr("Error processing %1: %2").arg(QDir::toNativeSeparators(job_.input), message)); } bool Transcoder::StartJob(const Job &job) { std::shared_ptr state = std::make_shared(job, this); emit LogLine(tr("Starting %1").arg(QDir::toNativeSeparators(job.input))); // Create the pipeline. // This should be a scoped_ptr, but scoped_ptr doesn't support custom destructors. state->pipeline_ = gst_pipeline_new("pipeline"); if (!state->pipeline_) return false; // Create all the elements GstElement *src = CreateElement("filesrc", state->pipeline_); GstElement *decode = CreateElement("decodebin", state->pipeline_); GstElement *convert = CreateElement("audioconvert", state->pipeline_); GstElement *resample = CreateElement("audioresample", state->pipeline_); GstElement *codec = CreateElementForMimeType("Codec/Encoder/Audio", job.preset.codec_mimetype_, state->pipeline_); GstElement *muxer = CreateElementForMimeType("Codec/Muxer", job.preset.muxer_mimetype_, state->pipeline_); GstElement *sink = CreateElement("filesink", state->pipeline_); if (!src || !decode || !convert || !sink) return false; if (!codec && !job.preset.codec_mimetype_.isEmpty()) { emit LogLine(tr("Couldn't find an encoder for %1, check you have the correct GStreamer plugins installed").arg(job.preset.codec_mimetype_)); return false; } if (!muxer && !job.preset.muxer_mimetype_.isEmpty()) { emit LogLine(tr("Couldn't find a muxer for %1, check you have the correct GStreamer plugins installed").arg(job.preset.muxer_mimetype_)); return false; } // Join them together gst_element_link(src, decode); if (codec && muxer) gst_element_link_many(convert, resample, codec, muxer, sink, nullptr); else if (codec) gst_element_link_many(convert, resample, codec, sink, nullptr); else if (muxer) gst_element_link_many(convert, resample, muxer, sink, nullptr); // Set properties g_object_set(src, "location", job.input.toUtf8().constData(), nullptr); g_object_set(sink, "location", job.output.toUtf8().constData(), nullptr); // Set callbacks state->convert_element_ = convert; CHECKED_GCONNECT(decode, "pad-added", &NewPadCallback, state.get()); gst_bus_set_sync_handler(gst_pipeline_get_bus(GST_PIPELINE(state->pipeline_)), BusCallbackSync, state.get(), nullptr); // Start the pipeline gst_element_set_state(state->pipeline_, GST_STATE_PLAYING); // GStreamer now transcodes in another thread, so we can return now and do something else. // Keep the JobState object around. It'll post an event to our event loop when it finishes. current_jobs_ << state; return true; } Transcoder::JobState::~JobState() { if (pipeline_) { gst_element_set_state(pipeline_, GST_STATE_NULL); gst_object_unref(pipeline_); } } bool Transcoder::event(QEvent *e) { if (e->type() == JobFinishedEvent::sEventType) { JobFinishedEvent *finished_event = static_cast(e); // Find this job in the list JobStateList::iterator it = current_jobs_.begin(); for (; it != current_jobs_.end(); ++it) { if (it->get() == finished_event->state_) break; } if (it == current_jobs_.end()) { // Couldn't find it, maybe GStreamer gave us an event after we'd destroyed the pipeline? return true; } QString input = (*it)->job_.input; QString output = (*it)->job_.output; // Remove event handlers from the gstreamer pipeline, so they don't get called after the pipeline is shutting down gst_bus_set_sync_handler(gst_pipeline_get_bus(GST_PIPELINE(finished_event->state_->pipeline_)), nullptr, nullptr, nullptr); // Remove it from the list - this will also destroy the GStreamer pipeline current_jobs_.erase(it); // clazy:exclude=strict-iterators // Emit the finished signal emit JobComplete(input, output, finished_event->success_); // Start some more jobs MaybeStartNextJob(); return true; } return QObject::event(e); } void Transcoder::Cancel() { // Remove all pending jobs queued_jobs_.clear(); // Stop the running ones JobStateList::iterator it = current_jobs_.begin(); while (it != current_jobs_.end()) { std::shared_ptr state(*it); // Remove event handlers from the gstreamer pipeline, so they don't get called after the pipeline is shutting down gst_bus_set_sync_handler(gst_pipeline_get_bus(GST_PIPELINE(state->pipeline_)), nullptr, nullptr, nullptr); // Stop the pipeline if (gst_element_set_state(state->pipeline_, GST_STATE_NULL) == GST_STATE_CHANGE_ASYNC) { // Wait for it to finish stopping... gst_element_get_state(state->pipeline_, nullptr, nullptr, GST_CLOCK_TIME_NONE); } // Remove the job, this destroys the GStreamer pipeline too it = current_jobs_.erase(it); // clazy:exclude=strict-iterators } } QMap Transcoder::GetProgress() const { QMap ret; for (const auto &state : current_jobs_) { if (!state->pipeline_) continue; gint64 position = 0; gint64 duration = 0; gst_element_query_position(state->pipeline_, GST_FORMAT_TIME, &position); gst_element_query_duration(state->pipeline_, GST_FORMAT_TIME, &duration); ret[state->job_.input] = static_cast(position) / static_cast(duration); } return ret; } void Transcoder::SetElementProperties(const QString &name, GObject *object) { QSettings s; s.beginGroup("Transcoder/" + name + settings_postfix_); guint properties_count = 0; GParamSpec **properties = g_object_class_list_properties(G_OBJECT_GET_CLASS(object), &properties_count); for (uint i = 0; i < properties_count; ++i) { GParamSpec *property = properties[i]; if (!s.contains(property->name)) { continue; } const QVariant value = s.value(property->name); if (value.isNull()) { continue; } emit LogLine(QString("Setting %1 property: %2 = %3").arg(name, property->name, value.toString())); switch (property->value_type) { case G_TYPE_FLOAT:{ const double g_value = static_cast(value.toFloat()); qLog(Debug) << "Setting" << property->name << "float" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } case G_TYPE_DOUBLE:{ const double g_value = static_cast(value.toDouble()); qLog(Debug) << "Setting" << property->name << "(double)" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } case G_TYPE_BOOLEAN:{ const bool g_value = value.toBool(); qLog(Debug) << "Setting" << property->name << "(bool)" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } case G_TYPE_INT: case G_TYPE_ENUM:{ const gint g_value = static_cast(value.toInt()); qLog(Debug) << "Setting" << property->name << "(enum)" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } case G_TYPE_UINT:{ const guint g_value = static_cast(value.toUInt()); qLog(Debug) << "Setting" << property->name << "(uint)" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } case G_TYPE_LONG: case G_TYPE_INT64:{ const glong g_value = static_cast(value.toLongLong()); qLog(Debug) << "Setting" << property->name << "(long)" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } case G_TYPE_ULONG: case G_TYPE_UINT64:{ const gulong g_value = static_cast(value.toULongLong()); qLog(Debug) << "Setting" << property->name << "(ulong)" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } default:{ const gint g_value = static_cast(value.toInt()); qLog(Debug) << "Setting" << property->name << "(int)" << "to" << g_value; g_object_set(object, property->name, g_value, nullptr); break; } } } g_free(properties); s.endGroup(); }