/* * Strawberry Music Player * This file was part of Clementine. * Copyright 2010, David Sansome * Copyright 2017-2018, 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 "core/timeconstants.h" #include "core/taskmanager.h" #include "core/logging.h" #include "engine_fwd.h" #include "enginebase.h" #include "enginetype.h" #include "vlcengine.h" #include "vlcscopedref.h" VLCEngine::VLCEngine(TaskManager *task_manager) : instance_(nullptr), player_(nullptr), state_(Engine::Empty) { Q_UNUSED(task_manager); type_ = Engine::VLC; ReloadSettings(); } VLCEngine::~VLCEngine() { if (state_ == Engine::Playing || state_ == Engine::Paused) { libvlc_media_player_stop(player_); } libvlc_event_manager_t *player_em = libvlc_media_player_event_manager(player_); if (player_em) { libvlc_event_detach(player_em, libvlc_MediaPlayerEncounteredError, StateChangedCallback, this); libvlc_event_detach(player_em, libvlc_MediaPlayerNothingSpecial, StateChangedCallback, this); libvlc_event_detach(player_em, libvlc_MediaPlayerOpening, StateChangedCallback, this); libvlc_event_detach(player_em, libvlc_MediaPlayerBuffering, StateChangedCallback, this); libvlc_event_detach(player_em, libvlc_MediaPlayerPlaying, StateChangedCallback, this); libvlc_event_detach(player_em, libvlc_MediaPlayerPaused, StateChangedCallback, this); libvlc_event_detach(player_em, libvlc_MediaPlayerStopped, StateChangedCallback, this); libvlc_event_detach(player_em, libvlc_MediaPlayerEndReached, StateChangedCallback, this); } libvlc_media_player_release(player_); libvlc_release(instance_); } bool VLCEngine::Init() { // Create the VLC instance instance_ = libvlc_new(0, nullptr); if (!instance_) return false; // Create the media player player_ = libvlc_media_player_new(instance_); if (!player_) return false; // Add event handlers libvlc_event_manager_t *player_em = libvlc_media_player_event_manager(player_); if (!player_em) return false; AttachCallback(player_em, libvlc_MediaPlayerEncounteredError, StateChangedCallback); AttachCallback(player_em, libvlc_MediaPlayerNothingSpecial, StateChangedCallback); AttachCallback(player_em, libvlc_MediaPlayerOpening, StateChangedCallback); AttachCallback(player_em, libvlc_MediaPlayerBuffering, StateChangedCallback); AttachCallback(player_em, libvlc_MediaPlayerPlaying, StateChangedCallback); AttachCallback(player_em, libvlc_MediaPlayerPaused, StateChangedCallback); AttachCallback(player_em, libvlc_MediaPlayerStopped, StateChangedCallback); AttachCallback(player_em, libvlc_MediaPlayerEndReached, StateChangedCallback); return true; } bool VLCEngine::Load(const QUrl &stream_url, const QUrl &original_url, const Engine::TrackChangeFlags change, const bool force_stop_at_end, const quint64 beginning_nanosec, const qint64 end_nanosec) { Q_UNUSED(original_url); Q_UNUSED(change); Q_UNUSED(force_stop_at_end); Q_UNUSED(beginning_nanosec); Q_UNUSED(end_nanosec); if (!Initialized()) return false; // Create the media object VlcScopedRef media(libvlc_media_new_location(instance_, stream_url.toEncoded().constData())); libvlc_media_player_set_media(player_, media); return true; } bool VLCEngine::Play(const quint64 offset_nanosec) { if (!Initialized()) return false; // Set audio output if (!output_.isEmpty() && output_ != "auto") { int result = libvlc_audio_output_set(player_, output_.toUtf8().constData()); if (result != 0) qLog(Error) << "Failed to set output to" << output_; } // Set audio device if (device_.isValid() && #if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0) device_.metaType().id() == QMetaType::QString #else device_.type() == QVariant::String #endif && !device_.toString().isEmpty()) { libvlc_audio_output_device_set(player_, nullptr, device_.toString().toLocal8Bit().data()); } int result = libvlc_media_player_play(player_); if (result != 0) return false; Seek(offset_nanosec); return true; } void VLCEngine::Stop(const bool stop_after) { Q_UNUSED(stop_after); if (!Initialized()) return; libvlc_media_player_stop(player_); } void VLCEngine::Pause() { if (!Initialized()) return; libvlc_media_player_pause(player_); } void VLCEngine::Unpause() { if (!Initialized()) return; libvlc_media_player_play(player_); } void VLCEngine::Seek(const quint64 offset_nanosec) { if (!Initialized()) return; int offset = (offset_nanosec / kNsecPerMsec); uint len = length(); if (len == 0) return; float pos = float(offset) / len; libvlc_media_player_set_position(player_, pos); } void VLCEngine::SetVolumeSW(const uint percent) { if (!Initialized()) return; if (!volume_control_ && percent != 100) return; libvlc_audio_set_volume(player_, percent); } qint64 VLCEngine::position_nanosec() const { if (state_ == Engine::Empty) return 0; const qint64 result = (position() * kNsecPerMsec); return qint64(qMax(0ll, result)); } qint64 VLCEngine::length_nanosec() const { if (state_ == Engine::Empty) return 0; const qint64 result = (end_nanosec_ - beginning_nanosec_); if (result > 0) { return result; } else { // Get the length from the pipeline if we don't know. return (length() * kNsecPerMsec); } } EngineBase::OutputDetailsList VLCEngine::GetOutputsList() const { OutputDetailsList ret; PluginDetailsList plugins = GetPluginList(); for (const PluginDetails &plugin : plugins) { OutputDetails output; output.name = plugin.name; output.description = plugin.description; if (plugin.name == "auto") output.iconname = "soundcard"; else if ((plugin.name == "alsa")||(plugin.name == "oss")) output.iconname = "alsa"; else if (plugin.name== "jack") output.iconname = "jack"; else if (plugin.name == "pulse") output.iconname = "pulseaudio"; else if (plugin.name == "afile") output.iconname = "document-new"; else output.iconname = "soundcard"; ret.append(output); } return ret; } bool VLCEngine::ValidOutput(const QString &output) { PluginDetailsList plugins = GetPluginList(); for (const PluginDetails &plugin : plugins) { if (plugin.name == output) return(true); } return(false); } bool VLCEngine::CustomDeviceSupport(const QString &output) { return (output == "auto" ? false : true); } bool VLCEngine::ALSADeviceSupport(const QString &output) { return (output == "alsa"); } uint VLCEngine::position() const { if (!Initialized()) return (0); bool is_playing = libvlc_media_player_is_playing(player_); if (!is_playing) return 0; float pos = libvlc_media_player_get_position(player_); return (pos * length()); } uint VLCEngine::length() const { if (!Initialized()) return(0); bool is_playing = libvlc_media_player_is_playing(player_); if (!is_playing) return 0; libvlc_time_t len = libvlc_media_player_get_length(player_); return len; } bool VLCEngine::CanDecode(const QUrl &url) { Q_UNUSED(url); return true; } void VLCEngine::AttachCallback(libvlc_event_manager_t *em, libvlc_event_type_t type, libvlc_callback_t callback) { if (libvlc_event_attach(em, type, callback, this) != 0) { qLog(Error) << "Failed to attach callback."; } } void VLCEngine::StateChangedCallback(const libvlc_event_t *e, void *data) { VLCEngine *engine = reinterpret_cast(data); switch (e->type) { case libvlc_MediaPlayerNothingSpecial: break; case libvlc_MediaPlayerStopped: engine->state_ = Engine::Empty; emit engine->StateChanged(engine->state_); break; case libvlc_MediaPlayerEncounteredError: engine->state_ = Engine::Error; emit engine->StateChanged(engine->state_); emit engine->FatalError(); break; case libvlc_MediaPlayerOpening: case libvlc_MediaPlayerBuffering: case libvlc_MediaPlayerPlaying: engine->state_ = Engine::Playing; emit engine->StateChanged(engine->state_); break; case libvlc_MediaPlayerPaused: engine->state_ = Engine::Paused; emit engine->StateChanged(engine->state_); break; case libvlc_MediaPlayerEndReached: engine->state_ = Engine::Idle; emit engine->TrackEnded(); return; // Don't emit state changed here } } EngineBase::PluginDetailsList VLCEngine::GetPluginList() const { PluginDetailsList ret; libvlc_audio_output_t *audio_output_list = libvlc_audio_output_list_get(instance_); { PluginDetails details; details.name = "auto"; details.description = "Automatically detected"; ret << details; } for (libvlc_audio_output_t *audio_output = audio_output_list ; audio_output ; audio_output = audio_output->p_next) { PluginDetails details; details.name = QString::fromUtf8(audio_output->psz_name); details.description = QString::fromUtf8(audio_output->psz_description); ret << details; //GetDevicesList(audio_output->psz_name); } libvlc_audio_output_list_release(audio_output_list); return ret; } void VLCEngine::GetDevicesList(const QString &output) const { Q_UNUSED(output); libvlc_audio_output_device_t *audio_output_device_list = libvlc_audio_output_device_list_get(instance_, output_.toUtf8().constData()); for (libvlc_audio_output_device_t *audio_device = audio_output_device_list ; audio_device ; audio_device = audio_device->p_next) { qLog(Debug) << audio_device->psz_device << audio_device->psz_description; } libvlc_audio_output_device_list_release(audio_output_device_list); }