shaka-packager/media/mp4/mp4_media_parser.cc

462 lines
15 KiB
C++

// 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/mp4/mp4_media_parser.h"
#include "base/callback.h"
#include "base/callback_helpers.h"
#include "base/logging.h"
#include "base/memory/ref_counted.h"
#include "base/time/time.h"
#include "media/base/audio_stream_info.h"
#include "media/base/buffers.h"
#include "media/base/media_sample.h"
#include "media/base/video_stream_info.h"
#include "media/mp4/box_definitions.h"
#include "media/mp4/box_reader.h"
#include "media/mp4/es_descriptor.h"
#include "media/mp4/rcheck.h"
#include "media/mp4/track_run_iterator.h"
namespace {
base::TimeDelta TimeDeltaFromRational(int64 numer, int64 denom) {
DCHECK_LT((numer > 0 ? numer : -numer),
kint64max / base::Time::kMicrosecondsPerSecond);
return base::TimeDelta::FromMicroseconds(base::Time::kMicrosecondsPerSecond *
numer / denom);
}
} // namespace
namespace media {
namespace mp4 {
MP4MediaParser::MP4MediaParser()
: state_(kWaitingForInit),
moof_head_(0),
mdat_tail_(0),
has_audio_(false),
has_video_(false),
audio_track_id_(0),
video_track_id_(0),
// TODO(kqyang): do we need to care about it??
has_sbr_(false),
is_audio_track_encrypted_(false),
is_video_track_encrypted_(false) {
}
MP4MediaParser::~MP4MediaParser() {}
void MP4MediaParser::Init(const InitCB& init_cb,
const NewSampleCB& new_sample_cb,
const NeedKeyCB& need_key_cb) {
DCHECK_EQ(state_, kWaitingForInit);
DCHECK(init_cb_.is_null());
DCHECK(!init_cb.is_null());
DCHECK(!new_sample_cb.is_null());
DCHECK(!need_key_cb.is_null());
ChangeState(kParsingBoxes);
init_cb_ = init_cb;
new_sample_cb_ = new_sample_cb;
need_key_cb_ = need_key_cb;
}
void MP4MediaParser::Reset() {
queue_.Reset();
runs_.reset();
moof_head_ = 0;
mdat_tail_ = 0;
}
bool MP4MediaParser::Parse(const uint8* buf, int size) {
DCHECK_NE(state_, kWaitingForInit);
if (state_ == kError)
return false;
queue_.Push(buf, size);
bool result, err = false;
do {
if (state_ == kParsingBoxes) {
result = ParseBox(&err);
} else {
DCHECK_EQ(kEmittingSamples, state_);
result = EnqueueSample(&err);
if (result) {
int64 max_clear = runs_->GetMaxClearOffset() + moof_head_;
err = !ReadAndDiscardMDATsUntil(max_clear);
}
}
} while (result && !err);
if (err) {
DLOG(ERROR) << "Error while parsing MP4";
moov_.reset();
Reset();
ChangeState(kError);
return false;
}
return true;
}
bool MP4MediaParser::ParseBox(bool* err) {
const uint8* buf;
int size;
queue_.Peek(&buf, &size);
if (!size) return false;
scoped_ptr<BoxReader> reader(BoxReader::ReadTopLevelBox(buf, size, err));
if (reader.get() == NULL) return false;
// Set up mdat offset for ReadMDATsUntil().
mdat_tail_ = queue_.head() + reader->size();
if (reader->type() == FOURCC_MOOV) {
*err = !ParseMoov(reader.get());
} else if (reader->type() == FOURCC_MOOF) {
moof_head_ = queue_.head();
*err = !ParseMoof(reader.get());
// Return early to avoid evicting 'moof' data from queue. Auxiliary info may
// be located anywhere in the file, including inside the 'moof' itself.
// (Since 'default-base-is-moof' is mandated, no data references can come
// before the head of the 'moof', so keeping this box around is sufficient.)
return !(*err);
} else {
LOG(WARNING) << "Skipping unrecognized top-level box: "
<< FourCCToString(reader->type());
}
queue_.Pop(reader->size());
return !(*err);
}
bool MP4MediaParser::ParseMoov(BoxReader* reader) {
moov_.reset(new Movie);
RCHECK(moov_->Parse(reader));
runs_.reset();
has_audio_ = false;
has_video_ = false;
std::vector<scoped_refptr<StreamInfo> > streams;
for (std::vector<Track>::const_iterator track = moov_->tracks.begin();
track != moov_->tracks.end(); ++track) {
// TODO(strobe): Only the first audio and video track present in a file are
// used. (Track selection is better accomplished via Source IDs, though, so
// adding support for track selection within a stream is low-priority.)
const SampleDescription& samp_descr =
track->media.information.sample_table.description;
// TODO(strobe): When codec reconfigurations are supported, detect and send
// a codec reconfiguration for fragments using a sample description index
// different from the previous one
size_t desc_idx = 0;
// Read sample description index from mvex if it exists otherwise read
// from the first entry in Sample To Chunk box.
if (moov_->extends.tracks.size() > 0) {
for (size_t t = 0; t < moov_->extends.tracks.size(); t++) {
const TrackExtends& trex = moov_->extends.tracks[t];
if (trex.track_id == track->header.track_id) {
desc_idx = trex.default_sample_description_index;
break;
}
}
} else {
const std::vector<ChunkInfo>& chunk_info =
track->media.information.sample_table.sample_to_chunk.chunk_info;
RCHECK(chunk_info.size() > 0);
desc_idx = chunk_info[0].sample_description_index;
}
RCHECK(desc_idx > 0);
desc_idx -= 1; // BMFF descriptor index is one-based
if (track->media.handler.type == kAudio) {
// TODO(kqyang): do we need to support multiple audio or video streams in
// a single file?
RCHECK(!has_audio_);
RCHECK(!samp_descr.audio_entries.empty());
// It is not uncommon to find otherwise-valid files with incorrect sample
// description indices, so we fail gracefully in that case.
if (desc_idx >= samp_descr.audio_entries.size())
desc_idx = 0;
const AudioSampleEntry& entry = samp_descr.audio_entries[desc_idx];
const AAC& aac = entry.esds.aac;
if (!(entry.format == FOURCC_MP4A || entry.format == FOURCC_EAC3 ||
(entry.format == FOURCC_ENCA &&
entry.sinf.format.format == FOURCC_MP4A))) {
LOG(ERROR) << "Unsupported audio format 0x"
<< std::hex << entry.format << " in stsd box.";
return false;
}
ObjectType audio_type = static_cast<ObjectType>(entry.esds.object_type);
DVLOG(1) << "audio_type " << std::hex << audio_type;
if (audio_type == kForbidden && entry.format == FOURCC_EAC3) {
audio_type = kEAC3;
}
AudioCodec codec = kUnknownAudioCodec;
int num_channels = 0;
int sample_per_second = 0;
std::vector<uint8> extra_data;
// Check if it is MPEG4 AAC defined in ISO 14496 Part 3 or
// supported MPEG2 AAC varients.
if (ESDescriptor::IsAAC(audio_type)) {
codec = kCodecAAC;
num_channels = aac.GetNumChannels(has_sbr_);
sample_per_second = aac.GetOutputSamplesPerSecond(has_sbr_);
#if defined(OS_ANDROID)
extra_data = aac.codec_specific_data();
#endif
} else if (audio_type == kEAC3) {
codec = kCodecEAC3;
num_channels = entry.channelcount;
sample_per_second = entry.samplerate;
} else {
LOG(ERROR) << "Unsupported audio object type 0x"
<< std::hex << audio_type << " in esds.";
return false;
}
is_audio_track_encrypted_ = entry.sinf.info.track_encryption.is_encrypted;
DVLOG(1) << "is_audio_track_encrypted_: " << is_audio_track_encrypted_;
streams.push_back(
new AudioStreamInfo(track->header.track_id,
track->media.header.timescale,
codec,
entry.samplesize / 8,
num_channels,
sample_per_second,
extra_data.size() ? &extra_data[0] : NULL,
extra_data.size(),
is_audio_track_encrypted_));
has_audio_ = true;
audio_track_id_ = track->header.track_id;
}
if (track->media.handler.type == kVideo) {
// TODO(kqyang): do we need to support multiple audio or video streams in
// a single file?
RCHECK(!has_video_);
RCHECK(!samp_descr.video_entries.empty());
if (desc_idx >= samp_descr.video_entries.size())
desc_idx = 0;
const VideoSampleEntry& entry = samp_descr.video_entries[desc_idx];
if (!(entry.format == FOURCC_AVC1 ||
(entry.format == FOURCC_ENCV &&
entry.sinf.format.format == FOURCC_AVC1))) {
LOG(ERROR) << "Unsupported video format 0x"
<< std::hex << entry.format << " in stsd box.";
return false;
}
is_video_track_encrypted_ = entry.sinf.info.track_encryption.is_encrypted;
DVLOG(1) << "is_video_track_encrypted_: " << is_video_track_encrypted_;
streams.push_back(
new VideoStreamInfo(track->header.track_id,
track->media.header.timescale,
kCodecH264,
entry.width,
entry.height,
// No decoder-specific buffer needed for AVC.
NULL, 0,
is_video_track_encrypted_));
has_video_ = true;
video_track_id_ = track->header.track_id;
}
}
// TODO(kqyang): figure out how to get duration for every tracks/streams.
base::TimeDelta duration;
if (moov_->extends.header.fragment_duration > 0) {
duration = TimeDeltaFromRational(moov_->extends.header.fragment_duration,
moov_->header.timescale);
} else if (moov_->header.duration > 0 &&
moov_->header.duration != kuint64max) {
duration = TimeDeltaFromRational(moov_->header.duration,
moov_->header.timescale);
} else {
duration = kInfiniteDuration();
}
init_cb_.Run(true, streams);
EmitNeedKeyIfNecessary(moov_->pssh);
runs_.reset(new TrackRunIterator(moov_.get()));
RCHECK(runs_->Init());
ChangeState(kEmittingSamples);
return true;
}
bool MP4MediaParser::ParseMoof(BoxReader* reader) {
// Must already have initialization segment.
RCHECK(moov_.get() && runs_.get());
MovieFragment moof;
RCHECK(moof.Parse(reader));
RCHECK(runs_->Init(moof));
EmitNeedKeyIfNecessary(moof.pssh);
ChangeState(kEmittingSamples);
return true;
}
void MP4MediaParser::EmitNeedKeyIfNecessary(
const std::vector<ProtectionSystemSpecificHeader>& headers) {
// TODO(strobe): ensure that the value of init_data (all PSSH headers
// concatenated in arbitrary order) matches the EME spec.
// See https://www.w3.org/Bugs/Public/show_bug.cgi?id=17673.
if (headers.empty())
return;
size_t total_size = 0;
for (size_t i = 0; i < headers.size(); i++)
total_size += headers[i].raw_box.size();
scoped_ptr<uint8[]> init_data(new uint8[total_size]);
size_t pos = 0;
for (size_t i = 0; i < headers.size(); i++) {
memcpy(&init_data.get()[pos], &headers[i].raw_box[0],
headers[i].raw_box.size());
pos += headers[i].raw_box.size();
}
need_key_cb_.Run(CONTAINER_MOV, init_data.Pass(), total_size);
}
bool MP4MediaParser::EnqueueSample(bool* err) {
if (!runs_->IsRunValid()) {
// Remain in kEnqueueingSamples state, discarding data, until the end of
// the current 'mdat' box has been appended to the queue.
if (!queue_.Trim(mdat_tail_))
return false;
ChangeState(kParsingBoxes);
return true;
}
if (!runs_->IsSampleValid()) {
runs_->AdvanceRun();
return true;
}
DCHECK(!(*err));
const uint8* buf;
int buf_size;
queue_.Peek(&buf, &buf_size);
if (!buf_size) return false;
bool audio = has_audio_ && audio_track_id_ == runs_->track_id();
bool video = has_video_ && video_track_id_ == runs_->track_id();
// Skip this entire track if it's not one we're interested in
if (!audio && !video)
runs_->AdvanceRun();
// Attempt to cache the auxiliary information first. Aux info is usually
// placed in a contiguous block before the sample data, rather than being
// interleaved. If we didn't cache it, this would require that we retain the
// start of the segment buffer while reading samples. Aux info is typically
// quite small compared to sample data, so this pattern is useful on
// memory-constrained devices where the source buffer consumes a substantial
// portion of the total system memory.
if (runs_->AuxInfoNeedsToBeCached()) {
queue_.PeekAt(runs_->aux_info_offset() + moof_head_, &buf, &buf_size);
if (buf_size < runs_->aux_info_size()) return false;
*err = !runs_->CacheAuxInfo(buf, buf_size);
return !*err;
}
queue_.PeekAt(runs_->sample_offset() + moof_head_, &buf, &buf_size);
if (buf_size < runs_->sample_size()) return false;
scoped_ptr<DecryptConfig> decrypt_config;
std::vector<SubsampleEntry> subsamples;
if (runs_->is_encrypted()) {
decrypt_config = runs_->GetDecryptConfig();
if (!decrypt_config) {
*err = true;
return false;
}
subsamples = decrypt_config->subsamples();
}
if (decrypt_config) {
if (!subsamples.empty()) {
// Create a new config with the updated subsamples.
decrypt_config.reset(new DecryptConfig(
decrypt_config->key_id(),
decrypt_config->iv(),
decrypt_config->data_offset(),
subsamples));
}
// else, use the existing config.
}
std::vector<uint8> frame_buf(buf, buf + runs_->sample_size());
scoped_refptr<MediaSample> stream_sample = MediaSample::CopyFrom(
&frame_buf[0], frame_buf.size(), runs_->is_keyframe());
if (decrypt_config)
stream_sample->set_decrypt_config(decrypt_config.Pass());
stream_sample->set_dts(runs_->dts());
stream_sample->set_pts(runs_->cts());
stream_sample->set_duration(runs_->duration());
DVLOG(3) << "Pushing frame: aud=" << audio
<< ", key=" << runs_->is_keyframe()
<< ", dur=" << runs_->duration()
<< ", dts=" << runs_->dts()
<< ", cts=" << runs_->cts()
<< ", size=" << runs_->sample_size();
new_sample_cb_.Run(runs_->track_id(), stream_sample);
runs_->AdvanceSample();
return true;
}
bool MP4MediaParser::ReadAndDiscardMDATsUntil(const int64 offset) {
bool err = false;
while (mdat_tail_ < offset) {
const uint8* buf;
int size;
queue_.PeekAt(mdat_tail_, &buf, &size);
FourCC type;
int box_sz;
if (!BoxReader::StartTopLevelBox(buf, size, &type, &box_sz, &err))
break;
if (type != FOURCC_MDAT) {
LOG(ERROR) << "Unexpected box type while parsing MDATs: "
<< FourCCToString(type);
}
mdat_tail_ += box_sz;
}
queue_.Trim(std::min(mdat_tail_, offset));
return !err;
}
void MP4MediaParser::ChangeState(State new_state) {
DVLOG(2) << "Changing state: " << new_state;
state_ = new_state;
}
} // namespace mp4
} // namespace media