/* * Copyright (C) 2003-2014 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. */ /* necessary because libavutil/common.h uses UINT64_C */ #define __STDC_CONSTANT_MACROS #include "lib/ffmpeg/Time.hxx" #include "config.h" #include "FfmpegDecoderPlugin.hxx" #include "lib/ffmpeg/Domain.hxx" #include "lib/ffmpeg/Error.hxx" #include "lib/ffmpeg/LogError.hxx" #include "lib/ffmpeg/LogCallback.hxx" #include "lib/ffmpeg/Buffer.hxx" #include "../DecoderAPI.hxx" #include "FfmpegMetaData.hxx" #include "FfmpegIo.hxx" #include "tag/TagBuilder.hxx" #include "tag/TagHandler.hxx" #include "tag/ReplayGain.hxx" #include "tag/MixRamp.hxx" #include "input/InputStream.hxx" #include "CheckAudioFormat.hxx" #include "util/ConstBuffer.hxx" #include "util/Error.hxx" #include "util/Domain.hxx" #include "LogV.hxx" extern "C" { #include #include #include #include #include #if LIBAVUTIL_VERSION_MAJOR >= 53 #include #endif } #include #include /** * API compatibility wrapper for av_open_input_stream() and * avformat_open_input(). */ static int mpd_ffmpeg_open_input(AVFormatContext **ic_ptr, AVIOContext *pb, const char *filename, AVInputFormat *fmt) { AVFormatContext *context = avformat_alloc_context(); if (context == nullptr) return AVERROR(ENOMEM); context->pb = pb; *ic_ptr = context; return avformat_open_input(ic_ptr, filename, fmt, nullptr); } static bool ffmpeg_init(gcc_unused const config_param ¶m) { av_log_set_callback(FfmpegLogCallback); av_register_all(); return true; } gcc_pure static int ffmpeg_find_audio_stream(const AVFormatContext &format_context) { for (unsigned i = 0; i < format_context.nb_streams; ++i) if (format_context.streams[i]->codec->codec_type == AVMEDIA_TYPE_AUDIO) return i; return -1; } /** * Accessor for AVStream::start_time that replaces AV_NOPTS_VALUE with * zero. We can't use AV_NOPTS_VALUE in calculations, and we simply * assume that the stream's start time is zero, which appears to be * the best way out of that situation. */ static constexpr int64_t start_time_fallback(const AVStream &stream) { return FfmpegTimestampFallback(stream.start_time, 0); } static void copy_interleave_frame2(uint8_t *dest, uint8_t **src, unsigned nframes, unsigned nchannels, unsigned sample_size) { for (unsigned frame = 0; frame < nframes; ++frame) { for (unsigned channel = 0; channel < nchannels; ++channel) { memcpy(dest, src[channel] + frame * sample_size, sample_size); dest += sample_size; } } } /** * Copy PCM data from a non-empty AVFrame to an interleaved buffer. */ static ConstBuffer copy_interleave_frame(const AVCodecContext &codec_context, const AVFrame &frame, FfmpegBuffer &global_buffer, Error &error) { assert(frame.nb_samples > 0); int plane_size; const int data_size = av_samples_get_buffer_size(&plane_size, codec_context.channels, frame.nb_samples, codec_context.sample_fmt, 1); assert(data_size != 0); if (data_size < 0) { SetFfmpegError(error, data_size); return 0; } void *output_buffer; if (av_sample_fmt_is_planar(codec_context.sample_fmt) && codec_context.channels > 1) { output_buffer = global_buffer.GetT(data_size); if (output_buffer == nullptr) { /* Not enough memory - shouldn't happen */ error.SetErrno(ENOMEM); return 0; } copy_interleave_frame2((uint8_t *)output_buffer, frame.extended_data, frame.nb_samples, codec_context.channels, av_get_bytes_per_sample(codec_context.sample_fmt)); } else { output_buffer = frame.extended_data[0]; } return { output_buffer, (size_t)data_size }; } /** * Decode an #AVPacket and send the resulting PCM data to the decoder * API. */ static DecoderCommand ffmpeg_send_packet(Decoder &decoder, InputStream &is, AVPacket packet, AVCodecContext &codec_context, const AVStream &stream, AVFrame &frame, FfmpegBuffer &buffer) { if (packet.pts >= 0 && packet.pts != (int64_t)AV_NOPTS_VALUE) { auto start = start_time_fallback(stream); if (packet.pts >= start) decoder_timestamp(decoder, FfmpegTimeToDouble(packet.pts - start, stream.time_base)); } Error error; DecoderCommand cmd = DecoderCommand::NONE; while (packet.size > 0 && cmd == DecoderCommand::NONE) { int got_frame = 0; int len = avcodec_decode_audio4(&codec_context, &frame, &got_frame, &packet); if (len < 0) { /* if error, we skip the frame */ LogFfmpegError(len, "decoding failed, frame skipped"); break; } packet.data += len; packet.size -= len; if (!got_frame || frame.nb_samples <= 0) continue; auto output_buffer = copy_interleave_frame(codec_context, frame, buffer, error); if (output_buffer.IsNull()) { /* this must be a serious error, e.g. OOM */ LogError(error); return DecoderCommand::STOP; } cmd = decoder_data(decoder, is, output_buffer.data, output_buffer.size, codec_context.bit_rate / 1000); } return cmd; } gcc_const static SampleFormat ffmpeg_sample_format(enum AVSampleFormat sample_fmt) { switch (sample_fmt) { case AV_SAMPLE_FMT_S16: case AV_SAMPLE_FMT_S16P: return SampleFormat::S16; case AV_SAMPLE_FMT_S32: case AV_SAMPLE_FMT_S32P: return SampleFormat::S32; case AV_SAMPLE_FMT_FLTP: return SampleFormat::FLOAT; default: break; } char buffer[64]; const char *name = av_get_sample_fmt_string(buffer, sizeof(buffer), sample_fmt); if (name != nullptr) FormatError(ffmpeg_domain, "Unsupported libavcodec SampleFormat value: %s (%d)", name, sample_fmt); else FormatError(ffmpeg_domain, "Unsupported libavcodec SampleFormat value: %d", sample_fmt); return SampleFormat::UNDEFINED; } static AVInputFormat * ffmpeg_probe(Decoder *decoder, InputStream &is) { constexpr size_t BUFFER_SIZE = 16384; constexpr size_t PADDING = 16; unsigned char buffer[BUFFER_SIZE]; size_t nbytes = decoder_read(decoder, is, buffer, BUFFER_SIZE); if (nbytes <= PADDING || !is.LockRewind(IgnoreError())) return nullptr; /* some ffmpeg parsers (e.g. ac3_parser.c) read a few bytes beyond the declared buffer limit, which makes valgrind angry; this workaround removes some padding from the buffer size */ nbytes -= PADDING; AVProbeData avpd; /* new versions of ffmpeg may add new attributes, and leaving them uninitialized may crash; hopefully, zero-initializing everything we don't know is ok */ memset(&avpd, 0, sizeof(avpd)); avpd.buf = buffer; avpd.buf_size = nbytes; avpd.filename = is.GetURI(); #ifdef AVPROBE_SCORE_MIME #if LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(56, 5, 1) /* this attribute was added in libav/ffmpeg version 11, but unfortunately it's "uint8_t" instead of "char", and it's not "const" - wtf? */ avpd.mime_type = (uint8_t *)const_cast(is.GetMimeType()); #else /* API problem fixed in FFmpeg 2.5 */ avpd.mime_type = is.GetMimeType(); #endif #endif return av_probe_input_format(&avpd, true); } static void FfmpegParseMetaData(AVDictionary &dict, ReplayGainInfo &rg, MixRampInfo &mr) { AVDictionaryEntry *i = nullptr; while ((i = av_dict_get(&dict, "", i, AV_DICT_IGNORE_SUFFIX)) != nullptr) { const char *name = i->key; const char *value = i->value; if (!ParseReplayGainTag(rg, name, value)) ParseMixRampTag(mr, name, value); } } static void FfmpegParseMetaData(const AVStream &stream, ReplayGainInfo &rg, MixRampInfo &mr) { FfmpegParseMetaData(*stream.metadata, rg, mr); } static void FfmpegParseMetaData(const AVFormatContext &format_context, int audio_stream, ReplayGainInfo &rg, MixRampInfo &mr) { assert(audio_stream >= 0); FfmpegParseMetaData(*format_context.metadata, rg, mr); FfmpegParseMetaData(*format_context.streams[audio_stream], rg, mr); } static void FfmpegParseMetaData(Decoder &decoder, const AVFormatContext &format_context, int audio_stream) { ReplayGainInfo rg; rg.Clear(); MixRampInfo mr; mr.Clear(); FfmpegParseMetaData(format_context, audio_stream, rg, mr); if (rg.IsDefined()) decoder_replay_gain(decoder, &rg); if (mr.IsDefined()) decoder_mixramp(decoder, std::move(mr)); } static void FfmpegScanMetadata(const AVStream &stream, const tag_handler &handler, void *handler_ctx) { FfmpegScanDictionary(stream.metadata, &handler, handler_ctx); } static void FfmpegScanMetadata(const AVFormatContext &format_context, int audio_stream, const tag_handler &handler, void *handler_ctx) { assert(audio_stream >= 0); FfmpegScanDictionary(format_context.metadata, &handler, handler_ctx); FfmpegScanMetadata(*format_context.streams[audio_stream], handler, handler_ctx); } #if LIBAVFORMAT_VERSION_INT >= AV_VERSION_INT(56, 1, 0) static void FfmpegScanTag(const AVFormatContext &format_context, int audio_stream, TagBuilder &tag) { FfmpegScanMetadata(format_context, audio_stream, full_tag_handler, &tag); } /** * Check if a new stream tag was received and pass it to * decoder_tag(). */ static void FfmpegCheckTag(Decoder &decoder, InputStream &is, AVFormatContext &format_context, int audio_stream) { AVStream &stream = *format_context.streams[audio_stream]; if ((stream.event_flags & AVSTREAM_EVENT_FLAG_METADATA_UPDATED) == 0) /* no new metadata */ return; /* clear the flag */ stream.event_flags &= ~AVSTREAM_EVENT_FLAG_METADATA_UPDATED; TagBuilder tag; FfmpegScanTag(format_context, audio_stream, tag); if (!tag.IsEmpty()) decoder_tag(decoder, is, tag.Commit()); } #endif static void FfmpegDecode(Decoder &decoder, InputStream &input, AVFormatContext &format_context) { const int find_result = avformat_find_stream_info(&format_context, nullptr); if (find_result < 0) { LogError(ffmpeg_domain, "Couldn't find stream info"); return; } int audio_stream = ffmpeg_find_audio_stream(format_context); if (audio_stream == -1) { LogError(ffmpeg_domain, "No audio stream inside"); return; } AVStream &av_stream = *format_context.streams[audio_stream]; AVCodecContext &codec_context = *av_stream.codec; #if LIBAVCODEC_VERSION_INT >= AV_VERSION_INT(54, 25, 0) const AVCodecDescriptor *codec_descriptor = avcodec_descriptor_get(codec_context.codec_id); if (codec_descriptor != nullptr) FormatDebug(ffmpeg_domain, "codec '%s'", codec_descriptor->name); #else if (codec_context.codec_name[0] != 0) FormatDebug(ffmpeg_domain, "codec '%s'", codec_context.codec_name); #endif AVCodec *codec = avcodec_find_decoder(codec_context.codec_id); if (!codec) { LogError(ffmpeg_domain, "Unsupported audio codec"); return; } const SampleFormat sample_format = ffmpeg_sample_format(codec_context.sample_fmt); if (sample_format == SampleFormat::UNDEFINED) { // (error message already done by ffmpeg_sample_format()) return; } Error error; AudioFormat audio_format; if (!audio_format_init_checked(audio_format, codec_context.sample_rate, sample_format, codec_context.channels, error)) { LogError(error); return; } /* the audio format must be read from AVCodecContext by now, because avcodec_open() has been demonstrated to fill bogus values into AVCodecContext.channels - a change that will be reverted later by avcodec_decode_audio3() */ const int open_result = avcodec_open2(&codec_context, codec, nullptr); if (open_result < 0) { LogError(ffmpeg_domain, "Could not open codec"); return; } const SignedSongTime total_time = FromFfmpegTimeChecked(av_stream.duration, av_stream.time_base); decoder_initialized(decoder, audio_format, input.IsSeekable(), total_time); FfmpegParseMetaData(decoder, format_context, audio_stream); #if LIBAVUTIL_VERSION_MAJOR >= 53 AVFrame *frame = av_frame_alloc(); #else AVFrame *frame = avcodec_alloc_frame(); #endif if (!frame) { LogError(ffmpeg_domain, "Could not allocate frame"); return; } FfmpegBuffer interleaved_buffer; DecoderCommand cmd; do { AVPacket packet; if (av_read_frame(&format_context, &packet) < 0) /* end of file */ break; #if LIBAVFORMAT_VERSION_INT >= AV_VERSION_INT(56, 1, 0) FfmpegCheckTag(decoder, input, format_context, audio_stream); #endif if (packet.stream_index == audio_stream) cmd = ffmpeg_send_packet(decoder, input, packet, codec_context, av_stream, *frame, interleaved_buffer); else cmd = decoder_get_command(decoder); av_free_packet(&packet); if (cmd == DecoderCommand::SEEK) { int64_t where = ToFfmpegTime(decoder_seek_time(decoder), av_stream.time_base) + start_time_fallback(av_stream); if (av_seek_frame(&format_context, audio_stream, where, AVSEEK_FLAG_ANY) < 0) decoder_seek_error(decoder); else { avcodec_flush_buffers(&codec_context); decoder_command_finished(decoder); } } } while (cmd != DecoderCommand::STOP); #if LIBAVUTIL_VERSION_MAJOR >= 53 av_frame_free(&frame); #elif LIBAVCODEC_VERSION_INT >= AV_VERSION_INT(54, 28, 0) avcodec_free_frame(&frame); #else av_free(frame); #endif avcodec_close(&codec_context); } static void ffmpeg_decode(Decoder &decoder, InputStream &input) { AVInputFormat *input_format = ffmpeg_probe(&decoder, input); if (input_format == nullptr) return; FormatDebug(ffmpeg_domain, "detected input format '%s' (%s)", input_format->name, input_format->long_name); AvioStream stream(&decoder, input); if (!stream.Open()) { LogError(ffmpeg_domain, "Failed to open stream"); return; } AVFormatContext *format_context = nullptr; if (mpd_ffmpeg_open_input(&format_context, stream.io, input.GetURI(), input_format) != 0) { LogError(ffmpeg_domain, "Open failed"); return; } FfmpegDecode(decoder, input, *format_context); avformat_close_input(&format_context); } static bool FfmpegScanStream(AVFormatContext &format_context, const struct tag_handler &handler, void *handler_ctx) { const int find_result = avformat_find_stream_info(&format_context, nullptr); if (find_result < 0) return false; const int audio_stream = ffmpeg_find_audio_stream(format_context); if (audio_stream < 0) return false; const AVStream &stream = *format_context.streams[audio_stream]; if (stream.duration != (int64_t)AV_NOPTS_VALUE) tag_handler_invoke_duration(&handler, handler_ctx, FromFfmpegTime(stream.duration, stream.time_base)); FfmpegScanMetadata(format_context, audio_stream, handler, handler_ctx); return true; } static bool ffmpeg_scan_stream(InputStream &is, const struct tag_handler *handler, void *handler_ctx) { AVInputFormat *input_format = ffmpeg_probe(nullptr, is); if (input_format == nullptr) return false; AvioStream stream(nullptr, is); if (!stream.Open()) return false; AVFormatContext *f = nullptr; if (mpd_ffmpeg_open_input(&f, stream.io, is.GetURI(), input_format) != 0) return false; bool result = FfmpegScanStream(*f, *handler, handler_ctx); avformat_close_input(&f); return result; } /** * A list of extensions found for the formats supported by ffmpeg. * This list is current as of 02-23-09; To find out if there are more * supported formats, check the ffmpeg changelog since this date for * more formats. */ static const char *const ffmpeg_suffixes[] = { "16sv", "3g2", "3gp", "4xm", "8svx", "aa3", "aac", "ac3", "afc", "aif", "aifc", "aiff", "al", "alaw", "amr", "anim", "apc", "ape", "asf", "atrac", "au", "aud", "avi", "avm2", "avs", "bap", "bfi", "c93", "cak", "cin", "cmv", "cpk", "daud", "dct", "divx", "dts", "dv", "dvd", "dxa", "eac3", "film", "flac", "flc", "fli", "fll", "flx", "flv", "g726", "gsm", "gxf", "iss", "m1v", "m2v", "m2t", "m2ts", "m4a", "m4b", "m4v", "mad", "mj2", "mjpeg", "mjpg", "mka", "mkv", "mlp", "mm", "mmf", "mov", "mp+", "mp1", "mp2", "mp3", "mp4", "mpc", "mpeg", "mpg", "mpga", "mpp", "mpu", "mve", "mvi", "mxf", "nc", "nsv", "nut", "nuv", "oga", "ogm", "ogv", "ogx", "oma", "ogg", "omg", "opus", "psp", "pva", "qcp", "qt", "r3d", "ra", "ram", "rl2", "rm", "rmvb", "roq", "rpl", "rvc", "shn", "smk", "snd", "sol", "son", "spx", "str", "swf", "tgi", "tgq", "tgv", "thp", "ts", "tsp", "tta", "xa", "xvid", "uv", "uv2", "vb", "vid", "vob", "voc", "vp6", "vmd", "wav", "webm", "wma", "wmv", "wsaud", "wsvga", "wv", "wve", nullptr }; static const char *const ffmpeg_mime_types[] = { "application/flv", "application/m4a", "application/mp4", "application/octet-stream", "application/ogg", "application/x-ms-wmz", "application/x-ms-wmd", "application/x-ogg", "application/x-shockwave-flash", "application/x-shorten", "audio/8svx", "audio/16sv", "audio/aac", "audio/aacp", "audio/ac3", "audio/aiff" "audio/amr", "audio/basic", "audio/flac", "audio/m4a", "audio/mp4", "audio/mpeg", "audio/musepack", "audio/ogg", "audio/opus", "audio/qcelp", "audio/vorbis", "audio/vorbis+ogg", "audio/x-8svx", "audio/x-16sv", "audio/x-aac", "audio/x-ac3", "audio/x-aiff" "audio/x-alaw", "audio/x-au", "audio/x-dca", "audio/x-eac3", "audio/x-flac", "audio/x-gsm", "audio/x-mace", "audio/x-matroska", "audio/x-monkeys-audio", "audio/x-mpeg", "audio/x-ms-wma", "audio/x-ms-wax", "audio/x-musepack", "audio/x-ogg", "audio/x-vorbis", "audio/x-vorbis+ogg", "audio/x-pn-realaudio", "audio/x-pn-multirate-realaudio", "audio/x-speex", "audio/x-tta" "audio/x-voc", "audio/x-wav", "audio/x-wma", "audio/x-wv", "video/anim", "video/quicktime", "video/msvideo", "video/ogg", "video/theora", "video/webm", "video/x-dv", "video/x-flv", "video/x-matroska", "video/x-mjpeg", "video/x-mpeg", "video/x-ms-asf", "video/x-msvideo", "video/x-ms-wmv", "video/x-ms-wvx", "video/x-ms-wm", "video/x-ms-wmx", "video/x-nut", "video/x-pva", "video/x-theora", "video/x-vid", "video/x-wmv", "video/x-xvid", /* special value for the "ffmpeg" input plugin: all streams by the "ffmpeg" input plugin shall be decoded by this plugin */ "audio/x-mpd-ffmpeg", nullptr }; const struct DecoderPlugin ffmpeg_decoder_plugin = { "ffmpeg", ffmpeg_init, nullptr, ffmpeg_decode, nullptr, nullptr, ffmpeg_scan_stream, nullptr, ffmpeg_suffixes, ffmpeg_mime_types };