blob: d7146034bbf45e52c1872f8fb113d40bf4366d10 [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "media/filters/ffmpeg_demuxer.h"
#include <algorithm>
#include <memory>
#include <set>
#include <utility>
#include "base/base64.h"
#include "base/bind.h"
#include "base/callback_helpers.h"
#include "base/macros.h"
#include "base/memory/ptr_util.h"
#include "base/metrics/histogram_macros.h"
#include "base/metrics/sparse_histogram.h"
#include "base/single_thread_task_runner.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/sys_byteorder.h"
#include "base/task_runner_util.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/time.h"
#include "media/audio/sample_rates.h"
#include "media/base/bind_to_current_loop.h"
#include "media/base/decrypt_config.h"
#include "media/base/limits.h"
#include "media/base/media_log.h"
#include "media/base/media_tracks.h"
#include "media/base/timestamp_constants.h"
#include "media/base/video_codecs.h"
#include "media/ffmpeg/ffmpeg_common.h"
#include "media/filters/ffmpeg_aac_bitstream_converter.h"
#include "media/filters/ffmpeg_bitstream_converter.h"
#include "media/filters/ffmpeg_glue.h"
#include "media/filters/ffmpeg_h264_to_annex_b_bitstream_converter.h"
#include "media/filters/webvtt_util.h"
#include "media/formats/webm/webm_crypto_helpers.h"
#include "media/media_features.h"
#if BUILDFLAG(ENABLE_HEVC_DEMUXING)
#include "media/filters/ffmpeg_h265_to_annex_b_bitstream_converter.h"
#endif
namespace media {
static base::Time ExtractTimelineOffset(AVFormatContext* format_context) {
if (strstr(format_context->iformat->name, "webm") ||
strstr(format_context->iformat->name, "matroska")) {
const AVDictionaryEntry* entry =
av_dict_get(format_context->metadata, "creation_time", NULL, 0);
base::Time timeline_offset;
// FFmpegDemuxerTests assume base::Time::FromUTCString() is used here.
if (entry != NULL && entry->value != NULL &&
base::Time::FromUTCString(entry->value, &timeline_offset)) {
return timeline_offset;
}
}
return base::Time();
}
static base::TimeDelta FramesToTimeDelta(int frames, double sample_rate) {
return base::TimeDelta::FromMicroseconds(
frames * base::Time::kMicrosecondsPerSecond / sample_rate);
}
static base::TimeDelta ExtractStartTime(AVStream* stream,
base::TimeDelta start_time_estimate) {
DCHECK(start_time_estimate != kNoTimestamp);
if (stream->start_time == static_cast<int64_t>(AV_NOPTS_VALUE)) {
return start_time_estimate == kInfiniteDuration ? base::TimeDelta()
: start_time_estimate;
}
// First try the lower of the estimate and the |start_time| value.
base::TimeDelta start_time =
std::min(ConvertFromTimeBase(stream->time_base, stream->start_time),
start_time_estimate);
// Next see if the first buffered pts value is usable.
if (stream->pts_buffer[0] != static_cast<int64_t>(AV_NOPTS_VALUE)) {
const base::TimeDelta buffered_pts =
ConvertFromTimeBase(stream->time_base, stream->pts_buffer[0]);
if (buffered_pts < start_time)
start_time = buffered_pts;
}
// NOTE: Do not use AVStream->first_dts since |start_time| should be a
// presentation timestamp.
return start_time;
}
// Some videos just want to watch the world burn, with a height of 0; cap the
// "infinite" aspect ratio resulting.
const int kInfiniteRatio = 99999;
// Common aspect ratios (multiplied by 100 and truncated) used for histogramming
// video sizes. These were taken on 20111103 from
// http://wikipedia.org/wiki/Aspect_ratio_(image)#Previous_and_currently_used_aspect_ratios
const int kCommonAspectRatios100[] = {
100, 115, 133, 137, 143, 150, 155, 160, 166,
175, 177, 185, 200, 210, 220, 221, 235, 237,
240, 255, 259, 266, 276, 293, 400, 1200, kInfiniteRatio,
};
template <class T> // T has int width() & height() methods.
static void UmaHistogramAspectRatio(const char* name, const T& size) {
UMA_HISTOGRAM_CUSTOM_ENUMERATION(
name,
// Intentionally use integer division to truncate the result.
size.height() ? (size.width() * 100) / size.height() : kInfiniteRatio,
base::CustomHistogram::ArrayToCustomRanges(
kCommonAspectRatios100, arraysize(kCommonAspectRatios100)));
}
// Record detected track counts by type corresponding to a src= playback.
// Counts are split into 50 buckets, capped into [0,100] range.
static void RecordDetectedTrackTypeStats(int audio_count,
int video_count,
int text_count) {
UMA_HISTOGRAM_COUNTS_100("Media.DetectedTrackCount.Audio", audio_count);
UMA_HISTOGRAM_COUNTS_100("Media.DetectedTrackCount.Video", video_count);
UMA_HISTOGRAM_COUNTS_100("Media.DetectedTrackCount.Text", text_count);
}
// Record audio decoder config UMA stats corresponding to a src= playback.
static void RecordAudioCodecStats(const AudioDecoderConfig& audio_config) {
UMA_HISTOGRAM_ENUMERATION("Media.AudioCodec", audio_config.codec(),
kAudioCodecMax + 1);
UMA_HISTOGRAM_ENUMERATION("Media.AudioSampleFormat",
audio_config.sample_format(), kSampleFormatMax + 1);
UMA_HISTOGRAM_ENUMERATION("Media.AudioChannelLayout",
audio_config.channel_layout(),
CHANNEL_LAYOUT_MAX + 1);
AudioSampleRate asr;
if (ToAudioSampleRate(audio_config.samples_per_second(), &asr)) {
UMA_HISTOGRAM_ENUMERATION("Media.AudioSamplesPerSecond", asr,
kAudioSampleRateMax + 1);
} else {
UMA_HISTOGRAM_COUNTS("Media.AudioSamplesPerSecondUnexpected",
audio_config.samples_per_second());
}
}
// Record video decoder config UMA stats corresponding to a src= playback.
static void RecordVideoCodecStats(const VideoDecoderConfig& video_config,
AVColorRange color_range,
MediaLog* media_log) {
media_log->RecordRapporWithSecurityOrigin("Media.OriginUrl.SRC.VideoCodec." +
GetCodecName(video_config.codec()));
UMA_HISTOGRAM_ENUMERATION("Media.VideoCodec", video_config.codec(),
kVideoCodecMax + 1);
// Drop UNKNOWN because U_H_E() uses one bucket for all values less than 1.
if (video_config.profile() >= 0) {
UMA_HISTOGRAM_ENUMERATION("Media.VideoCodecProfile", video_config.profile(),
VIDEO_CODEC_PROFILE_MAX + 1);
}
UMA_HISTOGRAM_COUNTS_10000("Media.VideoVisibleWidth",
video_config.visible_rect().width());
UmaHistogramAspectRatio("Media.VideoVisibleAspectRatio",
video_config.visible_rect());
UMA_HISTOGRAM_ENUMERATION("Media.VideoPixelFormatUnion",
video_config.format(), PIXEL_FORMAT_MAX + 1);
UMA_HISTOGRAM_ENUMERATION("Media.VideoFrameColorSpace",
video_config.color_space(), COLOR_SPACE_MAX + 1);
// Note the PRESUBMIT_IGNORE_UMA_MAX below, this silences the PRESUBMIT.py
// check for uma enum max usage, since we're abusing
// UMA_HISTOGRAM_ENUMERATION to report a discrete value.
UMA_HISTOGRAM_ENUMERATION("Media.VideoColorRange", color_range,
AVCOL_RANGE_NB); // PRESUBMIT_IGNORE_UMA_MAX
}
static const char kCodecNone[] = "none";
static const char* GetCodecName(enum AVCodecID id) {
const AVCodecDescriptor* codec_descriptor = avcodec_descriptor_get(id);
// If the codec name can't be determined, return none for tracking.
return codec_descriptor ? codec_descriptor->name : kCodecNone;
}
static void SetTimeProperty(MediaLogEvent* event,
const std::string& key,
base::TimeDelta value) {
if (value == kInfiniteDuration)
event->params.SetString(key, "kInfiniteDuration");
else if (value == kNoTimestamp)
event->params.SetString(key, "kNoTimestamp");
else
event->params.SetDouble(key, value.InSecondsF());
}
std::unique_ptr<FFmpegDemuxerStream> FFmpegDemuxerStream::Create(
FFmpegDemuxer* demuxer,
AVStream* stream,
const scoped_refptr<MediaLog>& media_log) {
if (!demuxer || !stream)
return nullptr;
std::unique_ptr<FFmpegDemuxerStream> demuxer_stream;
std::unique_ptr<AudioDecoderConfig> audio_config;
std::unique_ptr<VideoDecoderConfig> video_config;
if (stream->codecpar->codec_type == AVMEDIA_TYPE_AUDIO) {
audio_config.reset(new AudioDecoderConfig());
// IsValidConfig() checks that the codec is supported and that the channel
// layout and sample format are valid.
//
// TODO(chcunningham): Change AVStreamToAudioDecoderConfig to check
// IsValidConfig internally and return a null scoped_ptr if not valid.
if (!AVStreamToAudioDecoderConfig(stream, audio_config.get()) ||
!audio_config->IsValidConfig()) {
MEDIA_LOG(ERROR, media_log)
<< "FFmpegDemuxer: failed creating audio stream";
return nullptr;
}
MEDIA_LOG(INFO, media_log) << "FFmpegDemuxer: created audio stream, config "
<< audio_config->AsHumanReadableString();
} else if (stream->codecpar->codec_type == AVMEDIA_TYPE_VIDEO) {
video_config.reset(new VideoDecoderConfig());
// IsValidConfig() checks that the codec is supported and that the channel
// layout and sample format are valid.
//
// TODO(chcunningham): Change AVStreamToVideoDecoderConfig to check
// IsValidConfig internally and return a null scoped_ptr if not valid.
if (!AVStreamToVideoDecoderConfig(stream, video_config.get()) ||
!video_config->IsValidConfig()) {
MEDIA_LOG(ERROR, media_log)
<< "FFmpegDemuxer: failed creating video stream";
return nullptr;
}
MEDIA_LOG(INFO, media_log) << "FFmpegDemuxer: created video stream, config "
<< video_config->AsHumanReadableString();
}
return base::WrapUnique(new FFmpegDemuxerStream(
demuxer, stream, std::move(audio_config), std::move(video_config)));
}
static void UnmarkEndOfStream(AVFormatContext* format_context) {
format_context->pb->eof_reached = 0;
}
//
// FFmpegDemuxerStream
//
FFmpegDemuxerStream::FFmpegDemuxerStream(
FFmpegDemuxer* demuxer,
AVStream* stream,
std::unique_ptr<AudioDecoderConfig> audio_config,
std::unique_ptr<VideoDecoderConfig> video_config)
: demuxer_(demuxer),
task_runner_(base::ThreadTaskRunnerHandle::Get()),
stream_(stream),
start_time_(kNoTimestamp),
audio_config_(audio_config.release()),
video_config_(video_config.release()),
type_(UNKNOWN),
liveness_(LIVENESS_UNKNOWN),
end_of_stream_(false),
last_packet_timestamp_(kNoTimestamp),
last_packet_duration_(kNoTimestamp),
video_rotation_(VIDEO_ROTATION_0),
is_enabled_(true),
waiting_for_keyframe_(false),
aborted_(false),
fixup_negative_timestamps_(false) {
DCHECK(demuxer_);
bool is_encrypted = false;
int rotation = 0;
AVDictionaryEntry* rotation_entry = NULL;
// Determine our media format.
switch (stream->codecpar->codec_type) {
case AVMEDIA_TYPE_AUDIO:
DCHECK(audio_config_.get() && !video_config_.get());
type_ = AUDIO;
is_encrypted = audio_config_->is_encrypted();
break;
case AVMEDIA_TYPE_VIDEO:
DCHECK(video_config_.get() && !audio_config_.get());
type_ = VIDEO;
is_encrypted = video_config_->is_encrypted();
rotation_entry = av_dict_get(stream->metadata, "rotate", NULL, 0);
if (rotation_entry && rotation_entry->value && rotation_entry->value[0])
base::StringToInt(rotation_entry->value, &rotation);
switch (rotation) {
case 0:
break;
case 90:
video_rotation_ = VIDEO_ROTATION_90;
break;
case 180:
video_rotation_ = VIDEO_ROTATION_180;
break;
case 270:
video_rotation_ = VIDEO_ROTATION_270;
break;
default:
LOG(ERROR) << "Unsupported video rotation metadata: " << rotation;
break;
}
break;
case AVMEDIA_TYPE_SUBTITLE:
DCHECK(!video_config_.get() && !audio_config_.get());
type_ = TEXT;
break;
default:
NOTREACHED();
break;
}
// Calculate the duration.
duration_ = ConvertStreamTimestamp(stream->time_base, stream->duration);
if (is_encrypted) {
AVDictionaryEntry* key = av_dict_get(stream->metadata, "enc_key_id", NULL,
0);
DCHECK(key);
DCHECK(key->value);
if (!key || !key->value)
return;
base::StringPiece base64_key_id(key->value);
std::string enc_key_id;
base::Base64Decode(base64_key_id, &enc_key_id);
DCHECK(!enc_key_id.empty());
if (enc_key_id.empty())
return;
encryption_key_id_.assign(enc_key_id);
demuxer_->OnEncryptedMediaInitData(EmeInitDataType::WEBM, enc_key_id);
}
}
FFmpegDemuxerStream::~FFmpegDemuxerStream() {
DCHECK(!demuxer_);
DCHECK(read_cb_.is_null());
DCHECK(buffer_queue_.IsEmpty());
}
void FFmpegDemuxerStream::EnqueuePacket(ScopedAVPacket packet) {
DCHECK(task_runner_->BelongsToCurrentThread());
if (!demuxer_ || end_of_stream_) {
NOTREACHED() << "Attempted to enqueue packet on a stopped stream";
return;
}
if (waiting_for_keyframe_) {
if (packet.get()->flags & AV_PKT_FLAG_KEY)
waiting_for_keyframe_ = false;
else {
DVLOG(3) << "Dropped non-keyframe pts=" << packet->pts;
return;
}
}
#if BUILDFLAG(USE_PROPRIETARY_CODECS)
// Convert the packet if there is a bitstream filter.
if (packet->data && bitstream_converter_ &&
!bitstream_converter_->ConvertPacket(packet.get())) {
LOG(ERROR) << "Format conversion failed.";
}
#endif
// Get side data if any. For now, the only type of side_data is VP8 Alpha. We
// keep this generic so that other side_data types in the future can be
// handled the same way as well.
av_packet_split_side_data(packet.get());
scoped_refptr<DecoderBuffer> buffer;
if (type() == DemuxerStream::TEXT) {
int id_size = 0;
uint8_t* id_data = av_packet_get_side_data(
packet.get(), AV_PKT_DATA_WEBVTT_IDENTIFIER, &id_size);
int settings_size = 0;
uint8_t* settings_data = av_packet_get_side_data(
packet.get(), AV_PKT_DATA_WEBVTT_SETTINGS, &settings_size);
std::vector<uint8_t> side_data;
MakeSideData(id_data, id_data + id_size,
settings_data, settings_data + settings_size,
&side_data);
buffer = DecoderBuffer::CopyFrom(packet.get()->data, packet.get()->size,
side_data.data(), side_data.size());
} else {
int side_data_size = 0;
uint8_t* side_data = av_packet_get_side_data(
packet.get(), AV_PKT_DATA_MATROSKA_BLOCKADDITIONAL, &side_data_size);
std::unique_ptr<DecryptConfig> decrypt_config;
int data_offset = 0;
if ((type() == DemuxerStream::AUDIO && audio_config_->is_encrypted()) ||
(type() == DemuxerStream::VIDEO && video_config_->is_encrypted())) {
if (!WebMCreateDecryptConfig(
packet->data, packet->size,
reinterpret_cast<const uint8_t*>(encryption_key_id_.data()),
encryption_key_id_.size(), &decrypt_config, &data_offset)) {
LOG(ERROR) << "Creation of DecryptConfig failed.";
}
}
// If a packet is returned by FFmpeg's av_parser_parse2() the packet will
// reference inner memory of FFmpeg. As such we should transfer the packet
// into memory we control.
if (side_data_size > 0) {
buffer = DecoderBuffer::CopyFrom(packet.get()->data + data_offset,
packet.get()->size - data_offset,
side_data, side_data_size);
} else {
buffer = DecoderBuffer::CopyFrom(packet.get()->data + data_offset,
packet.get()->size - data_offset);
}
int skip_samples_size = 0;
const uint32_t* skip_samples_ptr =
reinterpret_cast<const uint32_t*>(av_packet_get_side_data(
packet.get(), AV_PKT_DATA_SKIP_SAMPLES, &skip_samples_size));
const int kSkipSamplesValidSize = 10;
const int kSkipEndSamplesOffset = 1;
if (skip_samples_size >= kSkipSamplesValidSize) {
// Because FFmpeg rolls codec delay and skip samples into one we can only
// allow front discard padding on the first buffer. Otherwise the discard
// helper can't figure out which data to discard. See AudioDiscardHelper.
int discard_front_samples = base::ByteSwapToLE32(*skip_samples_ptr);
if (last_packet_timestamp_ != kNoTimestamp && discard_front_samples) {
DLOG(ERROR) << "Skip samples are only allowed for the first packet.";
discard_front_samples = 0;
}
const int discard_end_samples =
base::ByteSwapToLE32(*(skip_samples_ptr + kSkipEndSamplesOffset));
const int samples_per_second =
audio_decoder_config().samples_per_second();
buffer->set_discard_padding(std::make_pair(
FramesToTimeDelta(discard_front_samples, samples_per_second),
FramesToTimeDelta(discard_end_samples, samples_per_second)));
}
if (decrypt_config)
buffer->set_decrypt_config(std::move(decrypt_config));
}
if (packet->duration >= 0) {
buffer->set_duration(
ConvertStreamTimestamp(stream_->time_base, packet->duration));
} else {
// TODO(wolenetz): Remove when FFmpeg stops returning negative durations.
// https://crbug.com/394418
DVLOG(1) << "FFmpeg returned a buffer with a negative duration! "
<< packet->duration;
buffer->set_duration(kNoTimestamp);
}
// Note: If pts is AV_NOPTS_VALUE, stream_timestamp will be kNoTimestamp.
const base::TimeDelta stream_timestamp =
ConvertStreamTimestamp(stream_->time_base, packet->pts);
if (stream_timestamp == kNoTimestamp) {
demuxer_->NotifyDemuxerError(DEMUXER_ERROR_COULD_NOT_PARSE);
return;
}
const bool is_audio = type() == AUDIO;
// If this file has negative timestamps don't rebase any other stream types
// against the negative starting time.
base::TimeDelta start_time = demuxer_->start_time();
if (fixup_negative_timestamps_ && !is_audio &&
start_time < base::TimeDelta()) {
start_time = base::TimeDelta();
}
// Don't rebase timestamps for positive start times, the HTML Media Spec
// details this in section "4.8.10.6 Offsets into the media resource." We
// will still need to rebase timestamps before seeking with FFmpeg though.
if (start_time > base::TimeDelta())
start_time = base::TimeDelta();
buffer->set_timestamp(stream_timestamp - start_time);
// Only allow negative timestamps past if we know they'll be fixed up by the
// code paths below; otherwise they should be treated as a parse error.
if (!fixup_negative_timestamps_ && buffer->timestamp() < base::TimeDelta()) {
demuxer_->NotifyDemuxerError(DEMUXER_ERROR_COULD_NOT_PARSE);
return;
}
// If enabled, and no codec delay is present, mark audio packets with
// negative timestamps for post-decode discard.
if (fixup_negative_timestamps_ && is_audio &&
stream_timestamp < base::TimeDelta() &&
buffer->duration() != kNoTimestamp) {
if (!audio_decoder_config().codec_delay()) {
DCHECK_EQ(buffer->discard_padding().first, base::TimeDelta());
if (stream_timestamp + buffer->duration() < base::TimeDelta()) {
DCHECK_EQ(buffer->discard_padding().second, base::TimeDelta());
// Discard the entire packet if it's entirely before zero.
buffer->set_discard_padding(
std::make_pair(kInfiniteDuration, base::TimeDelta()));
} else {
// Only discard part of the frame if it overlaps zero.
buffer->set_discard_padding(std::make_pair(
-stream_timestamp, buffer->discard_padding().second));
}
} else {
// Verify that codec delay would cover discard and that we don't need to
// mark the packet for post decode discard. Since timestamps may be in
// milliseconds and codec delay in nanosecond precision, round up to the
// nearest millisecond. See enable_negative_timestamp_fixups().
DCHECK_LE(-std::ceil(FramesToTimeDelta(
audio_decoder_config().codec_delay(),
audio_decoder_config().samples_per_second())
.InMillisecondsF()),
stream_timestamp.InMillisecondsF());
}
}
if (last_packet_timestamp_ != kNoTimestamp) {
// FFmpeg doesn't support chained ogg correctly. Instead of guaranteeing
// continuity across links in the chain it uses the timestamp information
// from each link directly. Doing so can lead to timestamps which appear to
// go backwards in time.
//
// If the new link starts with a negative timestamp or a timestamp less than
// the original (positive) |start_time|, we will get a negative timestamp
// here.
//
// Fixing chained ogg is non-trivial, so for now just reuse the last good
// timestamp. The decoder will rewrite the timestamps to be sample accurate
// later. See http://crbug.com/396864.
if (fixup_negative_timestamps_ &&
buffer->timestamp() < last_packet_timestamp_) {
buffer->set_timestamp(last_packet_timestamp_ +
(last_packet_duration_ != kNoTimestamp
? last_packet_duration_
: base::TimeDelta::FromMicroseconds(1)));
}
// The demuxer should always output positive timestamps.
DCHECK_GE(buffer->timestamp(), base::TimeDelta());
if (last_packet_timestamp_ < buffer->timestamp()) {
buffered_ranges_.Add(last_packet_timestamp_, buffer->timestamp());
demuxer_->NotifyBufferingChanged();
}
}
if (packet.get()->flags & AV_PKT_FLAG_KEY)
buffer->set_is_key_frame(true);
last_packet_timestamp_ = buffer->timestamp();
last_packet_duration_ = buffer->duration();
const base::TimeDelta new_duration = last_packet_timestamp_;
if (new_duration > duration_ || duration_ == kNoTimestamp)
duration_ = new_duration;
buffer_queue_.Push(buffer);
SatisfyPendingRead();
}
void FFmpegDemuxerStream::SetEndOfStream() {
DCHECK(task_runner_->BelongsToCurrentThread());
end_of_stream_ = true;
SatisfyPendingRead();
}
void FFmpegDemuxerStream::FlushBuffers() {
DCHECK(task_runner_->BelongsToCurrentThread());
DCHECK(read_cb_.is_null()) << "There should be no pending read";
// H264 and AAC require that we resend the header after flush.
// Reset bitstream for converter to do so.
// This is related to chromium issue 140371 (http://crbug.com/140371).
ResetBitstreamConverter();
buffer_queue_.Clear();
end_of_stream_ = false;
last_packet_timestamp_ = kNoTimestamp;
last_packet_duration_ = kNoTimestamp;
aborted_ = false;
}
void FFmpegDemuxerStream::Abort() {
aborted_ = true;
if (!read_cb_.is_null())
base::ResetAndReturn(&read_cb_).Run(DemuxerStream::kAborted, nullptr);
}
void FFmpegDemuxerStream::Stop() {
DCHECK(task_runner_->BelongsToCurrentThread());
buffer_queue_.Clear();
if (!read_cb_.is_null()) {
base::ResetAndReturn(&read_cb_).Run(
DemuxerStream::kOk, DecoderBuffer::CreateEOSBuffer());
}
demuxer_ = NULL;
stream_ = NULL;
end_of_stream_ = true;
}
DemuxerStream::Type FFmpegDemuxerStream::type() const {
DCHECK(task_runner_->BelongsToCurrentThread());
return type_;
}
DemuxerStream::Liveness FFmpegDemuxerStream::liveness() const {
DCHECK(task_runner_->BelongsToCurrentThread());
return liveness_;
}
void FFmpegDemuxerStream::Read(const ReadCB& read_cb) {
DCHECK(task_runner_->BelongsToCurrentThread());
CHECK(read_cb_.is_null()) << "Overlapping reads are not supported";
read_cb_ = BindToCurrentLoop(read_cb);
// Don't accept any additional reads if we've been told to stop.
// The |demuxer_| may have been destroyed in the pipeline thread.
//
// TODO(scherkus): it would be cleaner to reply with an error message.
if (!demuxer_) {
base::ResetAndReturn(&read_cb_).Run(
DemuxerStream::kOk, DecoderBuffer::CreateEOSBuffer());
return;
}
if (!is_enabled_) {
DVLOG(1) << "Read from disabled stream, returning EOS";
base::ResetAndReturn(&read_cb_).Run(kOk, DecoderBuffer::CreateEOSBuffer());
return;
}
if (aborted_) {
base::ResetAndReturn(&read_cb_).Run(kAborted, nullptr);
return;
}
SatisfyPendingRead();
}
void FFmpegDemuxerStream::EnableBitstreamConverter() {
DCHECK(task_runner_->BelongsToCurrentThread());
#if BUILDFLAG(USE_PROPRIETARY_CODECS)
InitBitstreamConverter();
#else
NOTREACHED() << "Proprietary codecs not enabled.";
#endif
}
void FFmpegDemuxerStream::ResetBitstreamConverter() {
#if BUILDFLAG(USE_PROPRIETARY_CODECS)
if (bitstream_converter_)
InitBitstreamConverter();
#endif // BUILDFLAG(USE_PROPRIETARY_CODECS)
}
void FFmpegDemuxerStream::InitBitstreamConverter() {
#if BUILDFLAG(USE_PROPRIETARY_CODECS)
switch (stream_->codecpar->codec_id) {
case AV_CODEC_ID_H264:
// Clear |extra_data| so that future (fallback) decoders will know that
// conversion is forcibly enabled on this stream.
//
// TODO(sandersd): Ideally we would convert |extra_data| to concatenated
// SPS/PPS data, but it's too late to be useful because Initialize() was
// already called on GpuVideoDecoder, which is the only path that would
// consume that data.
if (video_config_)
video_config_->SetExtraData(std::vector<uint8_t>());
bitstream_converter_.reset(
new FFmpegH264ToAnnexBBitstreamConverter(stream_->codecpar));
break;
#if BUILDFLAG(ENABLE_HEVC_DEMUXING)
case AV_CODEC_ID_HEVC:
bitstream_converter_.reset(
new FFmpegH265ToAnnexBBitstreamConverter(stream_->codecpar));
break;
#endif
case AV_CODEC_ID_AAC:
bitstream_converter_.reset(
new FFmpegAACBitstreamConverter(stream_->codecpar));
break;
default:
break;
}
#endif // BUILDFLAG(USE_PROPRIETARY_CODECS)
}
bool FFmpegDemuxerStream::SupportsConfigChanges() { return false; }
AudioDecoderConfig FFmpegDemuxerStream::audio_decoder_config() {
DCHECK(task_runner_->BelongsToCurrentThread());
DCHECK_EQ(type_, AUDIO);
DCHECK(audio_config_.get());
return *audio_config_;
}
VideoDecoderConfig FFmpegDemuxerStream::video_decoder_config() {
DCHECK(task_runner_->BelongsToCurrentThread());
DCHECK_EQ(type_, VIDEO);
DCHECK(video_config_.get());
return *video_config_;
}
VideoRotation FFmpegDemuxerStream::video_rotation() {
return video_rotation_;
}
bool FFmpegDemuxerStream::enabled() const {
DCHECK(task_runner_->BelongsToCurrentThread());
return is_enabled_;
}
void FFmpegDemuxerStream::set_enabled(bool enabled, base::TimeDelta timestamp) {
DCHECK(task_runner_->BelongsToCurrentThread());
if (enabled == is_enabled_)
return;
is_enabled_ = enabled;
if (is_enabled_) {
waiting_for_keyframe_ = true;
}
if (!is_enabled_ && !read_cb_.is_null()) {
DVLOG(1) << "Read from disabled stream, returning EOS";
base::ResetAndReturn(&read_cb_).Run(kOk, DecoderBuffer::CreateEOSBuffer());
return;
}
if (!stream_status_change_cb_.is_null())
stream_status_change_cb_.Run(this, is_enabled_, timestamp);
}
void FFmpegDemuxerStream::SetStreamStatusChangeCB(
const StreamStatusChangeCB& cb) {
DCHECK(!cb.is_null());
stream_status_change_cb_ = cb;
}
void FFmpegDemuxerStream::SetLiveness(Liveness liveness) {
DCHECK(task_runner_->BelongsToCurrentThread());
DCHECK_EQ(liveness_, LIVENESS_UNKNOWN);
liveness_ = liveness;
}
Ranges<base::TimeDelta> FFmpegDemuxerStream::GetBufferedRanges() const {
return buffered_ranges_;
}
void FFmpegDemuxerStream::SatisfyPendingRead() {
DCHECK(task_runner_->BelongsToCurrentThread());
if (!read_cb_.is_null()) {
if (!buffer_queue_.IsEmpty()) {
base::ResetAndReturn(&read_cb_).Run(
DemuxerStream::kOk, buffer_queue_.Pop());
} else if (end_of_stream_) {
base::ResetAndReturn(&read_cb_).Run(
DemuxerStream::kOk, DecoderBuffer::CreateEOSBuffer());
}
}
// Have capacity? Ask for more!
if (HasAvailableCapacity() && !end_of_stream_) {
demuxer_->NotifyCapacityAvailable();
}
}
bool FFmpegDemuxerStream::HasAvailableCapacity() {
// TODO(scherkus): Remove this return and reenable time-based capacity
// after our data sources support canceling/concurrent reads, see
// http://crbug.com/165762 for details.
#if 1
return !read_cb_.is_null();
#else
// Try to have one second's worth of encoded data per stream.
const base::TimeDelta kCapacity = base::TimeDelta::FromSeconds(1);
return buffer_queue_.IsEmpty() || buffer_queue_.Duration() < kCapacity;
#endif
}
size_t FFmpegDemuxerStream::MemoryUsage() const {
return buffer_queue_.data_size();
}
TextKind FFmpegDemuxerStream::GetTextKind() const {
DCHECK_EQ(type_, DemuxerStream::TEXT);
if (stream_->disposition & AV_DISPOSITION_CAPTIONS)
return kTextCaptions;
if (stream_->disposition & AV_DISPOSITION_DESCRIPTIONS)
return kTextDescriptions;
if (stream_->disposition & AV_DISPOSITION_METADATA)
return kTextMetadata;
return kTextSubtitles;
}
std::string FFmpegDemuxerStream::GetMetadata(const char* key) const {
const AVDictionaryEntry* entry =
av_dict_get(stream_->metadata, key, NULL, 0);
return (entry == NULL || entry->value == NULL) ? "" : entry->value;
}
// static
base::TimeDelta FFmpegDemuxerStream::ConvertStreamTimestamp(
const AVRational& time_base,
int64_t timestamp) {
if (timestamp == static_cast<int64_t>(AV_NOPTS_VALUE))
return kNoTimestamp;
return ConvertFromTimeBase(time_base, timestamp);
}
//
// FFmpegDemuxer
//
FFmpegDemuxer::FFmpegDemuxer(
const scoped_refptr<base::SingleThreadTaskRunner>& task_runner,
DataSource* data_source,
const EncryptedMediaInitDataCB& encrypted_media_init_data_cb,
const MediaTracksUpdatedCB& media_tracks_updated_cb,
const scoped_refptr<MediaLog>& media_log)
: host_(NULL),
task_runner_(task_runner),
blocking_thread_("FFmpegDemuxer"),
pending_read_(false),
data_source_(data_source),
media_log_(media_log),
bitrate_(0),
start_time_(kNoTimestamp),
text_enabled_(false),
duration_known_(false),
encrypted_media_init_data_cb_(encrypted_media_init_data_cb),
media_tracks_updated_cb_(media_tracks_updated_cb),
cancel_pending_seek_factory_(this),
weak_factory_(this) {
DCHECK(task_runner_.get());
DCHECK(data_source_);
DCHECK(!media_tracks_updated_cb_.is_null());
}
FFmpegDemuxer::~FFmpegDemuxer() {
// NOTE: This class is not destroyed on |task_runner|, so we must ensure that
// there are no outstanding WeakPtrs by the time we reach here.
DCHECK(!weak_factory_.HasWeakPtrs());
}
std::string FFmpegDemuxer::GetDisplayName() const {
return "FFmpegDemuxer";
}
void FFmpegDemuxer::Initialize(DemuxerHost* host,
const PipelineStatusCB& status_cb,
bool enable_text_tracks) {
DCHECK(task_runner_->BelongsToCurrentThread());
host_ = host;
text_enabled_ = enable_text_tracks;
weak_this_ = cancel_pending_seek_factory_.GetWeakPtr();
url_protocol_.reset(new BlockingUrlProtocol(
data_source_,
BindToCurrentLoop(base::Bind(&FFmpegDemuxer::OnDataSourceError,
base::Unretained(this)))));
glue_.reset(new FFmpegGlue(url_protocol_.get()));
AVFormatContext* format_context = glue_->format_context();
// Disable ID3v1 tag reading to avoid costly seeks to end of file for data we
// don't use. FFmpeg will only read ID3v1 tags if no other metadata is
// available, so add a metadata entry to ensure some is always present.
av_dict_set(&format_context->metadata, "skip_id3v1_tags", "", 0);
// Ensure ffmpeg doesn't give up too early while looking for stream params;
// this does not increase the amount of data downloaded. The default value
// is 5 AV_TIME_BASE units (1 second each), which prevents some oddly muxed
// streams from being detected properly; this value was chosen arbitrarily.
format_context->max_analyze_duration = 60 * AV_TIME_BASE;
// Open the AVFormatContext using our glue layer.
CHECK(blocking_thread_.Start());
base::PostTaskAndReplyWithResult(
blocking_thread_.task_runner().get(), FROM_HERE,
base::Bind(&FFmpegGlue::OpenContext, base::Unretained(glue_.get())),
base::Bind(&FFmpegDemuxer::OnOpenContextDone, weak_factory_.GetWeakPtr(),
status_cb));
}
void FFmpegDemuxer::AbortPendingReads() {
DCHECK(task_runner_->BelongsToCurrentThread());
// If Stop() has been called, then drop this call.
if (!blocking_thread_.IsRunning())
return;
// This should only be called after the demuxer has been initialized.
DCHECK_GT(streams_.size(), 0u);
// Abort all outstanding reads.
for (const auto& stream : streams_) {
if (stream)
stream->Abort();
}
// It's important to invalidate read/seek completion callbacks to avoid any
// errors that occur because of the data source abort.
weak_factory_.InvalidateWeakPtrs();
data_source_->Abort();
// Aborting the read may cause EOF to be marked, undo this.
blocking_thread_.task_runner()->PostTask(
FROM_HERE, base::Bind(&UnmarkEndOfStream, glue_->format_context()));
pending_read_ = false;
// TODO(dalecurtis): We probably should report PIPELINE_ERROR_ABORT here
// instead to avoid any preroll work that may be started upon return, but
// currently the PipelineImpl does not know how to handle this.
if (!pending_seek_cb_.is_null())
base::ResetAndReturn(&pending_seek_cb_).Run(PIPELINE_OK);
}
void FFmpegDemuxer::Stop() {
DCHECK(task_runner_->BelongsToCurrentThread());
// The order of Stop() and Abort() is important here. If Abort() is called
// first, control may pass into FFmpeg where it can destruct buffers that are
// in the process of being fulfilled by the DataSource.
data_source_->Stop();
url_protocol_->Abort();
// This will block until all tasks complete. Note that after this returns it's
// possible for reply tasks (e.g., OnReadFrameDone()) to be queued on this
// thread. Each of the reply task methods must check whether we've stopped the
// thread and drop their results on the floor.
blocking_thread_.Stop();
for (const auto& stream : streams_) {
if (stream)
stream->Stop();
}
data_source_ = NULL;
// Invalidate WeakPtrs on |task_runner_|, destruction may happen on another
// thread.
weak_factory_.InvalidateWeakPtrs();
cancel_pending_seek_factory_.InvalidateWeakPtrs();
}
void FFmpegDemuxer::StartWaitingForSeek(base::TimeDelta seek_time) {}
void FFmpegDemuxer::CancelPendingSeek(base::TimeDelta seek_time) {
if (task_runner_->BelongsToCurrentThread()) {
AbortPendingReads();
} else {
// Don't use GetWeakPtr() here since we are on the wrong thread.
task_runner_->PostTask(
FROM_HERE, base::Bind(&FFmpegDemuxer::AbortPendingReads, weak_this_));
}
}
void FFmpegDemuxer::Seek(base::TimeDelta time, const PipelineStatusCB& cb) {
DCHECK(task_runner_->BelongsToCurrentThread());
CHECK(pending_seek_cb_.is_null());
// FFmpeg requires seeks to be adjusted according to the lowest starting time.
// Since EnqueuePacket() rebased negative timestamps by the start time, we
// must correct the shift here.
//
// Additionally, to workaround limitations in how we expose seekable ranges to
// Blink (http://crbug.com/137275), we also want to clamp seeks before the
// start time to the start time.
base::TimeDelta seek_time = start_time_ < base::TimeDelta()
? time + start_time_
: time < start_time_ ? start_time_ : time;
// When seeking in an opus stream we need to ensure we deliver enough data to
// satisfy the seek preroll; otherwise the audio at the actual seek time will
// not be entirely accurate.
FFmpegDemuxerStream* audio_stream =
GetFirstEnabledFFmpegStream(DemuxerStream::AUDIO);
if (audio_stream) {
const AudioDecoderConfig& config = audio_stream->audio_decoder_config();
if (config.codec() == kCodecOpus)
seek_time = std::max(start_time_, seek_time - config.seek_preroll());
}
// Choose the seeking stream based on whether it contains the seek time, if no
// match can be found prefer the preferred stream.
//
// TODO(dalecurtis): Currently FFmpeg does not ensure that all streams in a
// given container will demux all packets after the seek point. Instead it
// only guarantees that all packets after the file position of the seek will
// be demuxed. It's an open question whether FFmpeg should fix this:
// http://lists.ffmpeg.org/pipermail/ffmpeg-devel/2014-June/159212.html
// Tracked by http://crbug.com/387996.
FFmpegDemuxerStream* demux_stream = FindPreferredStreamForSeeking(seek_time);
DCHECK(demux_stream);
const AVStream* seeking_stream = demux_stream->av_stream();
DCHECK(seeking_stream);
pending_seek_cb_ = cb;
base::PostTaskAndReplyWithResult(
blocking_thread_.task_runner().get(), FROM_HERE,
base::Bind(&av_seek_frame, glue_->format_context(), seeking_stream->index,
ConvertToTimeBase(seeking_stream->time_base, seek_time),
// Always seek to a timestamp <= to the desired timestamp.
AVSEEK_FLAG_BACKWARD),
base::Bind(&FFmpegDemuxer::OnSeekFrameDone, weak_factory_.GetWeakPtr()));
}
base::Time FFmpegDemuxer::GetTimelineOffset() const {
return timeline_offset_;
}
std::vector<DemuxerStream*> FFmpegDemuxer::GetAllStreams() {
DCHECK(task_runner_->BelongsToCurrentThread());
std::vector<DemuxerStream*> result;
for (const auto& stream : streams_) {
if (stream && stream->enabled())
result.push_back(stream.get());
}
return result;
}
void FFmpegDemuxer::SetStreamStatusChangeCB(const StreamStatusChangeCB& cb) {
for (const auto& stream : streams_) {
if (stream)
stream->SetStreamStatusChangeCB(cb);
}
}
FFmpegDemuxerStream* FFmpegDemuxer::GetFirstEnabledFFmpegStream(
DemuxerStream::Type type) const {
for (const auto& stream : streams_) {
if (stream && stream->type() == type && stream->enabled()) {
return stream.get();
}
}
return NULL;
}
base::TimeDelta FFmpegDemuxer::GetStartTime() const {
return std::max(start_time_, base::TimeDelta());
}
void FFmpegDemuxer::AddTextStreams() {
DCHECK(task_runner_->BelongsToCurrentThread());
for (const auto& stream : streams_) {
if (!stream || stream->type() != DemuxerStream::TEXT)
continue;
TextKind kind = stream->GetTextKind();
std::string title = stream->GetMetadata("title");
std::string language = stream->GetMetadata("language");
// TODO: Implement "id" metadata in FFMPEG.
// See: http://crbug.com/323183
host_->AddTextStream(stream.get(),
TextTrackConfig(kind, title, language, std::string()));
}
}
int64_t FFmpegDemuxer::GetMemoryUsage() const {
int64_t allocation_size = 0;
for (const auto& stream : streams_) {
if (stream)
allocation_size += stream->MemoryUsage();
}
return allocation_size;
}
void FFmpegDemuxer::OnEncryptedMediaInitData(
EmeInitDataType init_data_type,
const std::string& encryption_key_id) {
std::vector<uint8_t> key_id_local(encryption_key_id.begin(),
encryption_key_id.end());
encrypted_media_init_data_cb_.Run(init_data_type, key_id_local);
}
void FFmpegDemuxer::NotifyCapacityAvailable() {
DCHECK(task_runner_->BelongsToCurrentThread());
ReadFrameIfNeeded();
}
void FFmpegDemuxer::NotifyBufferingChanged() {
DCHECK(task_runner_->BelongsToCurrentThread());
Ranges<base::TimeDelta> buffered;
bool initialized_buffered_ranges = false;
for (const auto& stream : streams_) {
if (!stream)
continue;
if (initialized_buffered_ranges) {
buffered = buffered.IntersectionWith(stream->GetBufferedRanges());
} else {
buffered = stream->GetBufferedRanges();
initialized_buffered_ranges = true;
}
}
host_->OnBufferedTimeRangesChanged(buffered);
}
// Helper for calculating the bitrate of the media based on information stored
// in |format_context| or failing that the size and duration of the media.
//
// Returns 0 if a bitrate could not be determined.
static int CalculateBitrate(AVFormatContext* format_context,
const base::TimeDelta& duration,
int64_t filesize_in_bytes) {
// If there is a bitrate set on the container, use it.
if (format_context->bit_rate > 0)
return format_context->bit_rate;
// Then try to sum the bitrates individually per stream.
int bitrate = 0;
for (size_t i = 0; i < format_context->nb_streams; ++i) {
AVCodecParameters* codec_parameters = format_context->streams[i]->codecpar;
bitrate += codec_parameters->bit_rate;
}
if (bitrate > 0)
return bitrate;
// See if we can approximate the bitrate as long as we have a filesize and
// valid duration.
if (duration.InMicroseconds() <= 0 || duration == kInfiniteDuration ||
filesize_in_bytes == 0) {
return 0;
}
// Do math in floating point as we'd overflow an int64_t if the filesize was
// larger than ~1073GB.
double bytes = filesize_in_bytes;
double duration_us = duration.InMicroseconds();
return bytes * 8000000.0 / duration_us;
}
void FFmpegDemuxer::OnOpenContextDone(const PipelineStatusCB& status_cb,
bool result) {
DCHECK(task_runner_->BelongsToCurrentThread());
if (!blocking_thread_.IsRunning()) {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName() << ": bad state";
status_cb.Run(PIPELINE_ERROR_ABORT);
return;
}
if (!result) {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName() << ": open context failed";
status_cb.Run(DEMUXER_ERROR_COULD_NOT_OPEN);
return;
}
// Fully initialize AVFormatContext by parsing the stream a little.
base::PostTaskAndReplyWithResult(
blocking_thread_.task_runner().get(),
FROM_HERE,
base::Bind(&avformat_find_stream_info,
glue_->format_context(),
static_cast<AVDictionary**>(NULL)),
base::Bind(&FFmpegDemuxer::OnFindStreamInfoDone,
weak_factory_.GetWeakPtr(),
status_cb));
}
void FFmpegDemuxer::OnFindStreamInfoDone(const PipelineStatusCB& status_cb,
int result) {
DCHECK(task_runner_->BelongsToCurrentThread());
if (!blocking_thread_.IsRunning() || !data_source_) {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName() << ": bad state";
status_cb.Run(PIPELINE_ERROR_ABORT);
return;
}
if (result < 0) {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName()
<< ": find stream info failed";
status_cb.Run(DEMUXER_ERROR_COULD_NOT_PARSE);
return;
}
// Create demuxer stream entries for each possible AVStream. Each stream
// is examined to determine if it is supported or not (is the codec enabled
// for it in this release?). Unsupported streams are skipped, allowing for
// partial playback. At least one audio or video stream must be playable.
AVFormatContext* format_context = glue_->format_context();
streams_.resize(format_context->nb_streams);
// Estimate the start time for each stream by looking through the packets
// buffered during avformat_find_stream_info(). These values will be
// considered later when determining the actual stream start time.
//
// These packets haven't been completely processed yet, so only look through
// these values if the AVFormatContext has a valid start time.
//
// If no estimate is found, the stream entry will be kInfiniteDuration.
std::vector<base::TimeDelta> start_time_estimates(format_context->nb_streams,
kInfiniteDuration);
const AVFormatInternal* internal = format_context->internal;
if (internal && internal->packet_buffer &&
format_context->start_time != static_cast<int64_t>(AV_NOPTS_VALUE)) {
struct AVPacketList* packet_buffer = internal->packet_buffer;
while (packet_buffer != internal->packet_buffer_end) {
DCHECK_LT(static_cast<size_t>(packet_buffer->pkt.stream_index),
start_time_estimates.size());
const AVStream* stream =
format_context->streams[packet_buffer->pkt.stream_index];
if (packet_buffer->pkt.pts != static_cast<int64_t>(AV_NOPTS_VALUE)) {
const base::TimeDelta packet_pts =
ConvertFromTimeBase(stream->time_base, packet_buffer->pkt.pts);
if (packet_pts < start_time_estimates[stream->index])
start_time_estimates[stream->index] = packet_pts;
}
packet_buffer = packet_buffer->next;
}
}
std::unique_ptr<MediaTracks> media_tracks(new MediaTracks());
DCHECK(track_id_to_demux_stream_map_.empty());
// If available, |start_time_| will be set to the lowest stream start time.
start_time_ = kInfiniteDuration;
base::TimeDelta max_duration;
int detected_audio_track_count = 0;
int detected_video_track_count = 0;
int detected_text_track_count = 0;
for (size_t i = 0; i < format_context->nb_streams; ++i) {
AVStream* stream = format_context->streams[i];
const AVCodecParameters* codec_parameters = stream->codecpar;
const AVMediaType codec_type = codec_parameters->codec_type;
const AVCodecID codec_id = codec_parameters->codec_id;
if (codec_type == AVMEDIA_TYPE_AUDIO) {
// Log the codec detected, whether it is supported or not, and whether or
// not we have already detected a supported codec in another stream.
UMA_HISTOGRAM_SPARSE_SLOWLY("Media.DetectedAudioCodecHash",
HashCodecName(GetCodecName(codec_id)));
detected_audio_track_count++;
} else if (codec_type == AVMEDIA_TYPE_VIDEO) {
// Log the codec detected, whether it is supported or not, and whether or
// not we have already detected a supported codec in another stream.
UMA_HISTOGRAM_SPARSE_SLOWLY("Media.DetectedVideoCodecHash",
HashCodecName(GetCodecName(codec_id)));
detected_video_track_count++;
#if BUILDFLAG(ENABLE_HEVC_DEMUXING)
if (codec_id == AV_CODEC_ID_HEVC) {
// If ffmpeg is built without HEVC parser/decoder support, it will be
// able to demux HEVC based solely on container-provided information,
// but unable to get some of the parameters without parsing the stream
// (e.g. coded size needs to be read from SPS, pixel format is typically
// deduced from decoder config in hvcC box). These are not really needed
// when using external decoder (e.g. hardware decoder), so override them
// to make sure this translates into a valid VideoDecoderConfig. Coded
// size is overridden in AVStreamToVideoDecoderConfig().
if (stream->codecpar->format == AV_PIX_FMT_NONE)
stream->codecpar->format = AV_PIX_FMT_YUV420P;
}
#endif
} else if (codec_type == AVMEDIA_TYPE_SUBTITLE) {
detected_text_track_count++;
if (codec_id != AV_CODEC_ID_WEBVTT || !text_enabled_) {
continue;
}
} else {
continue;
}
// Attempt to create a FFmpegDemuxerStream from the AVStream. This will
// return nullptr if the AVStream is invalid. Validity checks will verify
// things like: codec, channel layout, sample/pixel format, etc...
std::unique_ptr<FFmpegDemuxerStream> demuxer_stream =
FFmpegDemuxerStream::Create(this, stream, media_log_);
if (demuxer_stream.get()) {
streams_[i] = std::move(demuxer_stream);
} else {
if (codec_type == AVMEDIA_TYPE_AUDIO) {
MEDIA_LOG(INFO, media_log_)
<< GetDisplayName()
<< ": skipping invalid or unsupported audio track";
} else if (codec_type == AVMEDIA_TYPE_VIDEO) {
MEDIA_LOG(INFO, media_log_)
<< GetDisplayName()
<< ": skipping invalid or unsupported video track";
}
// This AVStream does not successfully convert.
continue;
}
StreamParser::TrackId track_id = stream->id;
std::string track_label = streams_[i]->GetMetadata("handler_name");
std::string track_language = streams_[i]->GetMetadata("language");
// Some metadata is named differently in FFmpeg for webm files.
if (strstr(format_context->iformat->name, "webm") ||
strstr(format_context->iformat->name, "matroska")) {
// TODO(servolk): FFmpeg doesn't set stream->id correctly for webm files.
// Need to fix that and use it as track id. crbug.com/323183
track_id =
static_cast<StreamParser::TrackId>(media_tracks->tracks().size() + 1);
track_label = streams_[i]->GetMetadata("title");
}
if ((codec_type == AVMEDIA_TYPE_AUDIO &&
media_tracks->getAudioConfig(track_id).IsValidConfig()) ||
(codec_type == AVMEDIA_TYPE_VIDEO &&
media_tracks->getVideoConfig(track_id).IsValidConfig())) {
MEDIA_LOG(INFO, media_log_)
<< GetDisplayName()
<< ": skipping duplicate media stream id=" << track_id;
continue;
}
// Note when we find our audio/video stream (we only want one of each) and
// record src= playback UMA stats for the stream's decoder config.
MediaTrack* media_track = nullptr;
if (codec_type == AVMEDIA_TYPE_AUDIO) {
AudioDecoderConfig audio_config = streams_[i]->audio_decoder_config();
RecordAudioCodecStats(audio_config);
media_track = media_tracks->AddAudioTrack(audio_config, track_id, "main",
track_label, track_language);
media_track->set_id(base::UintToString(track_id));
DCHECK(track_id_to_demux_stream_map_.find(media_track->id()) ==
track_id_to_demux_stream_map_.end());
track_id_to_demux_stream_map_[media_track->id()] = streams_[i].get();
} else if (codec_type == AVMEDIA_TYPE_VIDEO) {
VideoDecoderConfig video_config = streams_[i]->video_decoder_config();
RecordVideoCodecStats(video_config, stream->codecpar->color_range,
media_log_.get());
media_track = media_tracks->AddVideoTrack(video_config, track_id, "main",
track_label, track_language);
media_track->set_id(base::UintToString(track_id));
DCHECK(track_id_to_demux_stream_map_.find(media_track->id()) ==
track_id_to_demux_stream_map_.end());
track_id_to_demux_stream_map_[media_track->id()] = streams_[i].get();
}
max_duration = std::max(max_duration, streams_[i]->duration());
const base::TimeDelta start_time =
ExtractStartTime(stream, start_time_estimates[i]);
streams_[i]->set_start_time(start_time);
if (start_time < start_time_) {
start_time_ = start_time;
}
}
RecordDetectedTrackTypeStats(detected_audio_track_count,
detected_video_track_count,
detected_text_track_count);
if (media_tracks->tracks().empty()) {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName()
<< ": no supported streams";
status_cb.Run(DEMUXER_ERROR_NO_SUPPORTED_STREAMS);
return;
}
if (text_enabled_)
AddTextStreams();
if (format_context->duration != static_cast<int64_t>(AV_NOPTS_VALUE)) {
// If there is a duration value in the container use that to find the
// maximum between it and the duration from A/V streams.
const AVRational av_time_base = {1, AV_TIME_BASE};
max_duration =
std::max(max_duration,
ConvertFromTimeBase(av_time_base, format_context->duration));
} else {
// The duration is unknown, in which case this is likely a live stream.
max_duration = kInfiniteDuration;
}
// FFmpeg represents audio data marked as before the beginning of stream as
// having negative timestamps. This data must be discarded after it has been
// decoded, not before since it is used to warmup the decoder. There are
// currently two known cases for this: vorbis in ogg and opus in ogg and webm.
//
// For API clarity, it was decided that the rest of the media pipeline should
// not be exposed to negative timestamps. Which means we need to rebase these
// negative timestamps and mark them for discard post decoding.
//
// Post-decode frame dropping for packets with negative timestamps is outlined
// in section A.2 in the Ogg Vorbis spec:
// http://xiph.org/vorbis/doc/Vorbis_I_spec.html
//
// FFmpeg's use of negative timestamps for opus pre-skip is nonstandard, but
// for more information on pre-skip see section 4.2 of the Ogg Opus spec:
// https://tools.ietf.org/html/draft-ietf-codec-oggopus-08#section-4.2
for (const auto& stream : streams_) {
if (!stream || stream->type() != DemuxerStream::AUDIO)
continue;
const AVStream* audio_stream = stream->av_stream();
DCHECK(audio_stream);
if (audio_stream->codecpar->codec_id == AV_CODEC_ID_OPUS ||
(strcmp(format_context->iformat->name, "ogg") == 0 &&
audio_stream->codecpar->codec_id == AV_CODEC_ID_VORBIS)) {
for (size_t i = 0; i < streams_.size(); ++i) {
if (!streams_[i])
continue;
streams_[i]->enable_negative_timestamp_fixups();
// Fixup the seeking information to avoid selecting the audio stream
// simply because it has a lower starting time.
if (streams_[i]->av_stream() == audio_stream &&
streams_[i]->start_time() < base::TimeDelta()) {
streams_[i]->set_start_time(base::TimeDelta());
}
}
}
}
// If no start time could be determined, default to zero.
if (start_time_ == kInfiniteDuration) {
start_time_ = base::TimeDelta();
}
// MPEG-4 B-frames cause grief for a simple container like AVI. Enable PTS
// generation so we always get timestamps, see http://crbug.com/169570
if (strcmp(format_context->iformat->name, "avi") == 0)
format_context->flags |= AVFMT_FLAG_GENPTS;
// For testing purposes, don't overwrite the timeline offset if set already.
if (timeline_offset_.is_null())
timeline_offset_ = ExtractTimelineOffset(format_context);
// Since we're shifting the externally visible start time to zero, we need to
// adjust the timeline offset to compensate.
if (!timeline_offset_.is_null() && start_time_ < base::TimeDelta())
timeline_offset_ += start_time_;
if (max_duration == kInfiniteDuration && !timeline_offset_.is_null()) {
SetLiveness(DemuxerStream::LIVENESS_LIVE);
} else if (max_duration != kInfiniteDuration) {
SetLiveness(DemuxerStream::LIVENESS_RECORDED);
} else {
SetLiveness(DemuxerStream::LIVENESS_UNKNOWN);
}
// Good to go: set the duration and bitrate and notify we're done
// initializing.
host_->SetDuration(max_duration);
duration_ = max_duration;
duration_known_ = (max_duration != kInfiniteDuration);
int64_t filesize_in_bytes = 0;
url_protocol_->GetSize(&filesize_in_bytes);
bitrate_ = CalculateBitrate(format_context, max_duration, filesize_in_bytes);
if (bitrate_ > 0)
data_source_->SetBitrate(bitrate_);
LogMetadata(format_context, max_duration);
media_tracks_updated_cb_.Run(std::move(media_tracks));
status_cb.Run(PIPELINE_OK);
}
void FFmpegDemuxer::LogMetadata(AVFormatContext* avctx,
base::TimeDelta max_duration) {
// Use a single MediaLogEvent to batch all parameter updates at once; this
// prevents throttling of events due to the large number of updates here.
std::unique_ptr<MediaLogEvent> metadata_event =
media_log_->CreateEvent(MediaLogEvent::PROPERTY_CHANGE);
DCHECK_EQ(avctx->nb_streams, streams_.size());
auto& params = metadata_event->params;
int audio_track_count = 0;
int video_track_count = 0;
for (size_t i = 0; i < streams_.size(); ++i) {
FFmpegDemuxerStream* stream = streams_[i].get();
if (!stream)
continue;
if (stream->type() == DemuxerStream::AUDIO) {
++audio_track_count;
std::string suffix = "";
if (audio_track_count > 1)
suffix = "_track" + base::IntToString(audio_track_count);
const AVCodecParameters* audio_parameters = avctx->streams[i]->codecpar;
const AudioDecoderConfig& audio_config = stream->audio_decoder_config();
params.SetString("audio_codec_name" + suffix,
GetCodecName(audio_parameters->codec_id));
params.SetInteger("audio_channels_count" + suffix,
audio_parameters->channels);
params.SetString("audio_sample_format" + suffix,
SampleFormatToString(audio_config.sample_format()));
params.SetInteger("audio_samples_per_second" + suffix,
audio_config.samples_per_second());
} else if (stream->type() == DemuxerStream::VIDEO) {
++video_track_count;
std::string suffix = "";
if (video_track_count > 1)
suffix = "_track" + base::IntToString(video_track_count);
const AVStream* video_av_stream = avctx->streams[i];
const AVCodecParameters* video_parameters = video_av_stream->codecpar;
const VideoDecoderConfig& video_config = stream->video_decoder_config();
params.SetString("video_codec_name" + suffix,
GetCodecName(video_parameters->codec_id));
params.SetInteger("width" + suffix, video_parameters->width);
params.SetInteger("height" + suffix, video_parameters->height);
// AVCodecParameters has no time_base field. We use the one from AVStream
// here.
params.SetString(
"time_base" + suffix,
base::StringPrintf("%d/%d", video_av_stream->time_base.num,
video_av_stream->time_base.den));
params.SetString("video_format" + suffix,
VideoPixelFormatToString(video_config.format()));
params.SetBoolean("video_is_encrypted" + suffix,
video_config.is_encrypted());
}
}
params.SetBoolean("found_audio_stream", (audio_track_count > 0));
params.SetBoolean("found_video_stream", (video_track_count > 0));
SetTimeProperty(metadata_event.get(), "max_duration", max_duration);
SetTimeProperty(metadata_event.get(), "start_time", start_time_);
metadata_event->params.SetInteger("bitrate", bitrate_);
media_log_->AddEvent(std::move(metadata_event));
}
FFmpegDemuxerStream* FFmpegDemuxer::FindStreamWithLowestStartTimestamp(
bool enabled) {
FFmpegDemuxerStream* lowest_start_time_stream = nullptr;
for (const auto& stream : streams_) {
if (!stream || stream->enabled() != enabled)
continue;
if (!lowest_start_time_stream ||
stream->start_time() < lowest_start_time_stream->start_time()) {
lowest_start_time_stream = stream.get();
}
}
return lowest_start_time_stream;
}
FFmpegDemuxerStream* FFmpegDemuxer::FindPreferredStreamForSeeking(
base::TimeDelta seek_time) {
// If we have a selected/enabled video stream and its start time is lower
// than the |seek_time| or unknown, then always prefer it for seeking.
FFmpegDemuxerStream* video_stream = nullptr;
for (const auto& stream : streams_) {
if (stream && stream->type() == DemuxerStream::VIDEO && stream->enabled()) {
video_stream = stream.get();
if (video_stream->start_time() <= seek_time) {
return video_stream;
}
break;
}
}
// If video stream is not present or |seek_time| is lower than the video start
// time, then try to find an enabled stream with the lowest start time.
FFmpegDemuxerStream* lowest_start_time_enabled_stream =
FindStreamWithLowestStartTimestamp(true);
if (lowest_start_time_enabled_stream &&
lowest_start_time_enabled_stream->start_time() <= seek_time) {
return lowest_start_time_enabled_stream;
}
// If there's no enabled streams to consider from, try a disabled stream with
// the lowest known start time.
FFmpegDemuxerStream* lowest_start_time_disabled_stream =
FindStreamWithLowestStartTimestamp(false);
if (lowest_start_time_disabled_stream &&
lowest_start_time_disabled_stream->start_time() <= seek_time) {
return lowest_start_time_disabled_stream;
}
// Otherwise fall back to any other stream.
for (const auto& stream : streams_) {
if (stream)
return stream.get();
}
NOTREACHED();
return nullptr;
}
void FFmpegDemuxer::OnSeekFrameDone(int result) {
DCHECK(task_runner_->BelongsToCurrentThread());
CHECK(!pending_seek_cb_.is_null());
if (!blocking_thread_.IsRunning()) {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName() << ": bad state";
base::ResetAndReturn(&pending_seek_cb_).Run(PIPELINE_ERROR_ABORT);
return;
}
if (result < 0) {
// Use VLOG(1) instead of NOTIMPLEMENTED() to prevent the message being
// captured from stdout and contaminates testing.
// TODO(scherkus): Implement this properly and signal error (BUG=23447).
VLOG(1) << "Not implemented";
}
// Tell streams to flush buffers due to seeking.
for (const auto& stream : streams_) {
if (stream)
stream->FlushBuffers();
}
// Resume reading until capacity.
ReadFrameIfNeeded();
// Notify we're finished seeking.
base::ResetAndReturn(&pending_seek_cb_).Run(PIPELINE_OK);
}
void FFmpegDemuxer::OnEnabledAudioTracksChanged(
const std::vector<MediaTrack::Id>& track_ids,
base::TimeDelta currTime) {
DCHECK(task_runner_->BelongsToCurrentThread());
std::set<FFmpegDemuxerStream*> enabled_streams;
for (const auto& id : track_ids) {
FFmpegDemuxerStream* stream = track_id_to_demux_stream_map_[id];
DCHECK(stream);
DCHECK_EQ(DemuxerStream::AUDIO, stream->type());
enabled_streams.insert(stream);
}
// First disable all streams that need to be disabled and then enable streams
// that are enabled.
for (const auto& stream : streams_) {
if (stream && stream->type() == DemuxerStream::AUDIO &&
enabled_streams.find(stream.get()) == enabled_streams.end()) {
DVLOG(1) << __func__ << ": disabling stream " << stream.get();
stream->set_enabled(false, currTime);
}
}
for (const auto& stream : enabled_streams) {
DCHECK(stream);
DVLOG(1) << __func__ << ": enabling stream " << stream;
stream->set_enabled(true, currTime);
}
}
void FFmpegDemuxer::OnSelectedVideoTrackChanged(
const std::vector<MediaTrack::Id>& track_ids,
base::TimeDelta currTime) {
DCHECK(task_runner_->BelongsToCurrentThread());
DCHECK_LE(track_ids.size(), 1u);
FFmpegDemuxerStream* selected_stream = nullptr;
if (!track_ids.empty()) {
selected_stream = track_id_to_demux_stream_map_[track_ids[0]];
DCHECK(selected_stream);
DCHECK_EQ(DemuxerStream::VIDEO, selected_stream->type());
}
// First disable all streams that need to be disabled and then enable the
// stream that needs to be enabled (if any).
for (const auto& stream : streams_) {
if (stream && stream->type() == DemuxerStream::VIDEO &&
stream.get() != selected_stream) {
DVLOG(1) << __func__ << ": disabling stream " << stream.get();
stream->set_enabled(false, currTime);
}
}
if (selected_stream) {
DVLOG(1) << __func__ << ": enabling stream " << selected_stream;
selected_stream->set_enabled(true, currTime);
}
}
void FFmpegDemuxer::ReadFrameIfNeeded() {
DCHECK(task_runner_->BelongsToCurrentThread());
// Make sure we have work to do before reading.
if (!blocking_thread_.IsRunning() || !StreamsHaveAvailableCapacity() ||
pending_read_ || !pending_seek_cb_.is_null()) {
return;
}
// Allocate and read an AVPacket from the media. Save |packet_ptr| since
// evaluation order of packet.get() and base::Passed(&packet) is
// undefined.
ScopedAVPacket packet(new AVPacket());
AVPacket* packet_ptr = packet.get();
pending_read_ = true;
base::PostTaskAndReplyWithResult(
blocking_thread_.task_runner().get(),
FROM_HERE,
base::Bind(&av_read_frame, glue_->format_context(), packet_ptr),
base::Bind(&FFmpegDemuxer::OnReadFrameDone,
weak_factory_.GetWeakPtr(),
base::Passed(&packet)));
}
void FFmpegDemuxer::OnReadFrameDone(ScopedAVPacket packet, int result) {
DCHECK(task_runner_->BelongsToCurrentThread());
DCHECK(pending_read_);
pending_read_ = false;
if (!blocking_thread_.IsRunning() || !pending_seek_cb_.is_null())
return;
// Consider the stream as ended if:
// - either underlying ffmpeg returned an error
// - or FFMpegDemuxer reached the maximum allowed memory usage.
if (result < 0 || IsMaxMemoryUsageReached()) {
DVLOG(1) << __func__ << " result=" << result
<< " IsMaxMemoryUsageReached=" << IsMaxMemoryUsageReached();
// Update the duration based on the highest elapsed time across all streams.
base::TimeDelta max_duration;
for (const auto& stream : streams_) {
if (!stream)
continue;
base::TimeDelta duration = stream->duration();
if (duration != kNoTimestamp && duration > max_duration)
max_duration = duration;
}
if (duration_ == kInfiniteDuration || max_duration > duration_) {
host_->SetDuration(max_duration);
duration_known_ = true;
duration_ = max_duration;
}
// If we have reached the end of stream, tell the downstream filters about
// the event.
StreamHasEnded();
return;
}
// Queue the packet with the appropriate stream.
DCHECK_GE(packet->stream_index, 0);
DCHECK_LT(packet->stream_index, static_cast<int>(streams_.size()));
// Defend against ffmpeg giving us a bad stream index.
if (packet->stream_index >= 0 &&
packet->stream_index < static_cast<int>(streams_.size()) &&
streams_[packet->stream_index]) {
// TODO(scherkus): Fix demuxing upstream to never return packets w/o data
// when av_read_frame() returns success code. See bug comment for ideas:
//
// https://code.google.com/p/chromium/issues/detail?id=169133#c10
if (!packet->data) {
ScopedAVPacket new_packet(new AVPacket());
av_new_packet(new_packet.get(), 0);
av_packet_copy_props(new_packet.get(), packet.get());
packet.swap(new_packet);
}
FFmpegDemuxerStream* demuxer_stream = streams_[packet->stream_index].get();
if (demuxer_stream->enabled())
demuxer_stream->EnqueuePacket(std::move(packet));
// If duration estimate was incorrect, update it and tell higher layers.
if (duration_known_) {
const base::TimeDelta duration = demuxer_stream->duration();
if (duration != kNoTimestamp && duration > duration_) {
duration_ = duration;
host_->SetDuration(duration_);
}
}
}
// Keep reading until we've reached capacity.
ReadFrameIfNeeded();
}
bool FFmpegDemuxer::StreamsHaveAvailableCapacity() {
DCHECK(task_runner_->BelongsToCurrentThread());
for (const auto& stream : streams_) {
if (stream && stream->HasAvailableCapacity())
return true;
}
return false;
}
bool FFmpegDemuxer::IsMaxMemoryUsageReached() const {
DCHECK(task_runner_->BelongsToCurrentThread());
// Max allowed memory usage, all streams combined.
const size_t kDemuxerMemoryLimit = 150 * 1024 * 1024;
size_t memory_left = kDemuxerMemoryLimit;
for (const auto& stream : streams_) {
if (!stream)
continue;
size_t stream_memory_usage = stream->MemoryUsage();
if (stream_memory_usage > memory_left)
return true;
memory_left -= stream_memory_usage;
}
return false;
}
void FFmpegDemuxer::StreamHasEnded() {
DCHECK(task_runner_->BelongsToCurrentThread());
for (const auto& stream : streams_) {
if (stream)
stream->SetEndOfStream();
}
}
void FFmpegDemuxer::OnDataSourceError() {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName() << ": data source error";
host_->OnDemuxerError(PIPELINE_ERROR_READ);
}
void FFmpegDemuxer::NotifyDemuxerError(PipelineStatus status) {
MEDIA_LOG(ERROR, media_log_) << GetDisplayName()
<< ": demuxer error: " << status;
host_->OnDemuxerError(status);
}
void FFmpegDemuxer::SetLiveness(DemuxerStream::Liveness liveness) {
DCHECK(task_runner_->BelongsToCurrentThread());
for (const auto& stream : streams_) {
if (stream)
stream->SetLiveness(liveness);
}
}
} // namespace media