Roll leveldb 3f7758:803d69 (v1.17 -> v1.18)
[chromium-blink-merge.git] / media / formats / mp4 / track_run_iterator.cc
blob604074ca727b2b3a4fca1d0d39eab7ade4b3b87c
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "media/formats/mp4/track_run_iterator.h"
7 #include <algorithm>
9 #include "media/base/buffers.h"
10 #include "media/formats/mp4/rcheck.h"
11 #include "media/formats/mp4/sample_to_group_iterator.h"
13 namespace media {
14 namespace mp4 {
16 struct SampleInfo {
17 int size;
18 int duration;
19 int cts_offset;
20 bool is_keyframe;
21 bool is_random_access_point;
22 uint32 cenc_group_description_index;
25 struct TrackRunInfo {
26 uint32 track_id;
27 std::vector<SampleInfo> samples;
28 int64 timescale;
29 int64 start_dts;
30 int64 sample_start_offset;
32 bool is_audio;
33 const AudioSampleEntry* audio_description;
34 const VideoSampleEntry* video_description;
36 int64 aux_info_start_offset; // Only valid if aux_info_total_size > 0.
37 int aux_info_default_size;
38 std::vector<uint8> aux_info_sizes; // Populated if default_size == 0.
39 int aux_info_total_size;
41 std::vector<CencSampleEncryptionInfoEntry> sample_encryption_info;
43 TrackRunInfo();
44 ~TrackRunInfo();
47 TrackRunInfo::TrackRunInfo()
48 : track_id(0),
49 timescale(-1),
50 start_dts(-1),
51 sample_start_offset(-1),
52 is_audio(false),
53 aux_info_start_offset(-1),
54 aux_info_default_size(-1),
55 aux_info_total_size(-1) {
57 TrackRunInfo::~TrackRunInfo() {}
59 base::TimeDelta TimeDeltaFromRational(int64 numer, int64 denom) {
60 // To avoid overflow, split the following calculation:
61 // (numer * base::Time::kMicrosecondsPerSecond) / denom
62 // into:
63 // (numer / denom) * base::Time::kMicrosecondsPerSecond +
64 // ((numer % denom) * base::Time::kMicrosecondsPerSecond) / denom
65 int64 a = numer / denom;
66 DCHECK_LE((a > 0 ? a : -a), kint64max / base::Time::kMicrosecondsPerSecond);
67 int64 timea_in_us = a * base::Time::kMicrosecondsPerSecond;
69 int64 b = numer % denom;
70 DCHECK_LE((b > 0 ? b : -b), kint64max / base::Time::kMicrosecondsPerSecond);
71 int64 timeb_in_us = (b * base::Time::kMicrosecondsPerSecond) / denom;
73 DCHECK((timeb_in_us < 0) || (timea_in_us <= kint64max - timeb_in_us));
74 DCHECK((timeb_in_us > 0) || (timea_in_us >= kint64min - timeb_in_us));
75 return base::TimeDelta::FromMicroseconds(timea_in_us + timeb_in_us);
78 DecodeTimestamp DecodeTimestampFromRational(int64 numer, int64 denom) {
79 return DecodeTimestamp::FromPresentationTime(
80 TimeDeltaFromRational(numer, denom));
83 TrackRunIterator::TrackRunIterator(const Movie* moov,
84 const LogCB& log_cb)
85 : moov_(moov), log_cb_(log_cb), sample_offset_(0) {
86 CHECK(moov);
89 TrackRunIterator::~TrackRunIterator() {}
91 static bool PopulateSampleInfo(const TrackExtends& trex,
92 const TrackFragmentHeader& tfhd,
93 const TrackFragmentRun& trun,
94 const int64 edit_list_offset,
95 const uint32 i,
96 SampleInfo* sample_info,
97 const SampleDependsOn sdtp_sample_depends_on,
98 const LogCB& log_cb) {
99 if (i < trun.sample_sizes.size()) {
100 sample_info->size = trun.sample_sizes[i];
101 } else if (tfhd.default_sample_size > 0) {
102 sample_info->size = tfhd.default_sample_size;
103 } else {
104 sample_info->size = trex.default_sample_size;
107 if (i < trun.sample_durations.size()) {
108 sample_info->duration = trun.sample_durations[i];
109 } else if (tfhd.default_sample_duration > 0) {
110 sample_info->duration = tfhd.default_sample_duration;
111 } else {
112 sample_info->duration = trex.default_sample_duration;
115 if (i < trun.sample_composition_time_offsets.size()) {
116 sample_info->cts_offset = trun.sample_composition_time_offsets[i];
117 } else {
118 sample_info->cts_offset = 0;
120 sample_info->cts_offset += edit_list_offset;
122 uint32 flags;
123 if (i < trun.sample_flags.size()) {
124 flags = trun.sample_flags[i];
125 } else if (tfhd.has_default_sample_flags) {
126 flags = tfhd.default_sample_flags;
127 } else {
128 flags = trex.default_sample_flags;
131 SampleDependsOn sample_depends_on =
132 static_cast<SampleDependsOn>((flags >> 24) & 0x3);
134 if (sample_depends_on == kSampleDependsOnUnknown)
135 sample_depends_on = sdtp_sample_depends_on;
137 // ISO/IEC 14496-12 Section 8.8.3.1 : The negation of |sample_is_sync_sample|
138 // provides the same information as the sync sample table [8.6.2]. When
139 // |sample_is_sync_sample| is true for a sample, it is the same as if the
140 // sample were not in a movie fragment and marked with an entry in the sync
141 // sample table (or, if all samples are sync samples, the sync sample table
142 // were absent).
143 bool sample_is_sync_sample = !(flags & kSampleIsNonSyncSample);
144 sample_info->is_random_access_point = sample_is_sync_sample;
146 switch (sample_depends_on) {
147 case kSampleDependsOnUnknown:
148 sample_info->is_keyframe = sample_is_sync_sample;
149 break;
151 case kSampleDependsOnOthers:
152 sample_info->is_keyframe = false;
153 break;
155 case kSampleDependsOnNoOther:
156 sample_info->is_keyframe = true;
157 break;
159 case kSampleDependsOnReserved:
160 MEDIA_LOG(log_cb) << "Reserved value used in sample dependency info.";
161 return false;
163 return true;
166 // In well-structured encrypted media, each track run will be immediately
167 // preceded by its auxiliary information; this is the only optimal storage
168 // pattern in terms of minimum number of bytes from a serial stream needed to
169 // begin playback. It also allows us to optimize caching on memory-constrained
170 // architectures, because we can cache the relatively small auxiliary
171 // information for an entire run and then discard data from the input stream,
172 // instead of retaining the entire 'mdat' box.
174 // We optimize for this situation (with no loss of generality) by sorting track
175 // runs during iteration in order of their first data offset (either sample data
176 // or auxiliary data).
177 class CompareMinTrackRunDataOffset {
178 public:
179 bool operator()(const TrackRunInfo& a, const TrackRunInfo& b) {
180 int64 a_aux = a.aux_info_total_size ? a.aux_info_start_offset : kint64max;
181 int64 b_aux = b.aux_info_total_size ? b.aux_info_start_offset : kint64max;
183 int64 a_lesser = std::min(a_aux, a.sample_start_offset);
184 int64 a_greater = std::max(a_aux, a.sample_start_offset);
185 int64 b_lesser = std::min(b_aux, b.sample_start_offset);
186 int64 b_greater = std::max(b_aux, b.sample_start_offset);
188 if (a_lesser == b_lesser) return a_greater < b_greater;
189 return a_lesser < b_lesser;
193 bool TrackRunIterator::Init(const MovieFragment& moof) {
194 runs_.clear();
196 for (size_t i = 0; i < moof.tracks.size(); i++) {
197 const TrackFragment& traf = moof.tracks[i];
199 const Track* trak = NULL;
200 for (size_t t = 0; t < moov_->tracks.size(); t++) {
201 if (moov_->tracks[t].header.track_id == traf.header.track_id)
202 trak = &moov_->tracks[t];
204 RCHECK(trak);
206 const TrackExtends* trex = NULL;
207 for (size_t t = 0; t < moov_->extends.tracks.size(); t++) {
208 if (moov_->extends.tracks[t].track_id == traf.header.track_id)
209 trex = &moov_->extends.tracks[t];
211 RCHECK(trex);
213 const SampleDescription& stsd =
214 trak->media.information.sample_table.description;
215 if (stsd.type != kAudio && stsd.type != kVideo) {
216 DVLOG(1) << "Skipping unhandled track type";
217 continue;
219 size_t desc_idx = traf.header.sample_description_index;
220 if (!desc_idx) desc_idx = trex->default_sample_description_index;
221 RCHECK(desc_idx > 0); // Descriptions are one-indexed in the file
222 desc_idx -= 1;
224 // Process edit list to remove CTS offset introduced in the presence of
225 // B-frames (those that contain a single edit with a nonnegative media
226 // time). Other uses of edit lists are not supported, as they are
227 // both uncommon and better served by higher-level protocols.
228 int64 edit_list_offset = 0;
229 const std::vector<EditListEntry>& edits = trak->edit.list.edits;
230 if (!edits.empty()) {
231 if (edits.size() > 1)
232 DVLOG(1) << "Multi-entry edit box detected; some components ignored.";
234 if (edits[0].media_time < 0) {
235 DVLOG(1) << "Empty edit list entry ignored.";
236 } else {
237 edit_list_offset = -edits[0].media_time;
241 SampleToGroupIterator sample_to_group_itr(traf.sample_to_group);
242 bool is_sample_to_group_valid = sample_to_group_itr.IsValid();
244 int64 run_start_dts = traf.decode_time.decode_time;
245 int sample_count_sum = 0;
246 for (size_t j = 0; j < traf.runs.size(); j++) {
247 const TrackFragmentRun& trun = traf.runs[j];
248 TrackRunInfo tri;
249 tri.track_id = traf.header.track_id;
250 tri.timescale = trak->media.header.timescale;
251 tri.start_dts = run_start_dts;
252 tri.sample_start_offset = trun.data_offset;
253 tri.sample_encryption_info = traf.sample_group_description.entries;
255 tri.is_audio = (stsd.type == kAudio);
256 if (tri.is_audio) {
257 RCHECK(!stsd.audio_entries.empty());
258 if (desc_idx > stsd.audio_entries.size())
259 desc_idx = 0;
260 tri.audio_description = &stsd.audio_entries[desc_idx];
261 } else {
262 RCHECK(!stsd.video_entries.empty());
263 if (desc_idx > stsd.video_entries.size())
264 desc_idx = 0;
265 tri.video_description = &stsd.video_entries[desc_idx];
268 // Collect information from the auxiliary_offset entry with the same index
269 // in the 'saiz' container as the current run's index in the 'trun'
270 // container, if it is present.
271 if (traf.auxiliary_offset.offsets.size() > j) {
272 // There should be an auxiliary info entry corresponding to each sample
273 // in the auxiliary offset entry's corresponding track run.
274 RCHECK(traf.auxiliary_size.sample_count >=
275 sample_count_sum + trun.sample_count);
276 tri.aux_info_start_offset = traf.auxiliary_offset.offsets[j];
277 tri.aux_info_default_size =
278 traf.auxiliary_size.default_sample_info_size;
279 if (tri.aux_info_default_size == 0) {
280 const std::vector<uint8>& sizes =
281 traf.auxiliary_size.sample_info_sizes;
282 tri.aux_info_sizes.insert(tri.aux_info_sizes.begin(),
283 sizes.begin() + sample_count_sum,
284 sizes.begin() + sample_count_sum + trun.sample_count);
287 // If the default info size is positive, find the total size of the aux
288 // info block from it, otherwise sum over the individual sizes of each
289 // aux info entry in the aux_offset entry.
290 if (tri.aux_info_default_size) {
291 tri.aux_info_total_size =
292 tri.aux_info_default_size * trun.sample_count;
293 } else {
294 tri.aux_info_total_size = 0;
295 for (size_t k = 0; k < trun.sample_count; k++) {
296 tri.aux_info_total_size += tri.aux_info_sizes[k];
299 } else {
300 tri.aux_info_start_offset = -1;
301 tri.aux_info_total_size = 0;
304 tri.samples.resize(trun.sample_count);
305 for (size_t k = 0; k < trun.sample_count; k++) {
306 if (!PopulateSampleInfo(*trex, traf.header, trun, edit_list_offset,
307 k, &tri.samples[k],
308 traf.sdtp.sample_depends_on(k),
309 log_cb_)) {
310 return false;
313 run_start_dts += tri.samples[k].duration;
315 if (!is_sample_to_group_valid) {
316 // Set group description index to 0 to read encryption information
317 // from TrackEncryption Box.
318 tri.samples[k].cenc_group_description_index = 0;
319 continue;
322 // ISO-14496-12 Section 8.9.2.3 and 8.9.4 : group description index
323 // (1) ranges from 1 to the number of sample group entries in the track
324 // level SampleGroupDescription Box, or (2) takes the value 0 to
325 // indicate that this sample is a member of no group, in this case, the
326 // sample is associated with the default values specified in
327 // TrackEncryption Box, or (3) starts at 0x10001, i.e. the index value
328 // 1, with the value 1 in the top 16 bits, to reference fragment-local
329 // SampleGroupDescription Box.
330 // Case (1) is not supported currently. We might not need it either as
331 // the same functionality can be better achieved using (2).
332 uint32 index = sample_to_group_itr.group_description_index();
333 if (index >= SampleToGroupEntry::kFragmentGroupDescriptionIndexBase) {
334 index -= SampleToGroupEntry::kFragmentGroupDescriptionIndexBase;
335 RCHECK(index != 0 && index <= tri.sample_encryption_info.size());
336 } else if (index != 0) {
337 NOTIMPLEMENTED() << "'sgpd' box in 'moov' is not supported.";
338 return false;
340 tri.samples[k].cenc_group_description_index = index;
341 is_sample_to_group_valid = sample_to_group_itr.Advance();
343 runs_.push_back(tri);
344 sample_count_sum += trun.sample_count;
347 // We should have iterated through all samples in SampleToGroup Box.
348 RCHECK(!sample_to_group_itr.IsValid());
351 std::sort(runs_.begin(), runs_.end(), CompareMinTrackRunDataOffset());
352 run_itr_ = runs_.begin();
353 ResetRun();
354 return true;
357 void TrackRunIterator::AdvanceRun() {
358 ++run_itr_;
359 ResetRun();
362 void TrackRunIterator::ResetRun() {
363 if (!IsRunValid()) return;
364 sample_dts_ = run_itr_->start_dts;
365 sample_offset_ = run_itr_->sample_start_offset;
366 sample_itr_ = run_itr_->samples.begin();
367 cenc_info_.clear();
370 void TrackRunIterator::AdvanceSample() {
371 DCHECK(IsSampleValid());
372 sample_dts_ += sample_itr_->duration;
373 sample_offset_ += sample_itr_->size;
374 ++sample_itr_;
377 // This implementation only indicates a need for caching if CENC auxiliary
378 // info is available in the stream.
379 bool TrackRunIterator::AuxInfoNeedsToBeCached() {
380 DCHECK(IsRunValid());
381 return aux_info_size() > 0 && cenc_info_.size() == 0;
384 // This implementation currently only caches CENC auxiliary info.
385 bool TrackRunIterator::CacheAuxInfo(const uint8* buf, int buf_size) {
386 RCHECK(AuxInfoNeedsToBeCached() && buf_size >= aux_info_size());
388 cenc_info_.resize(run_itr_->samples.size());
389 int64 pos = 0;
390 for (size_t i = 0; i < run_itr_->samples.size(); i++) {
391 int info_size = run_itr_->aux_info_default_size;
392 if (!info_size)
393 info_size = run_itr_->aux_info_sizes[i];
395 if (IsSampleEncrypted(i)) {
396 BufferReader reader(buf + pos, info_size);
397 RCHECK(cenc_info_[i].Parse(GetIvSize(i), &reader));
399 pos += info_size;
402 return true;
405 bool TrackRunIterator::IsRunValid() const {
406 return run_itr_ != runs_.end();
409 bool TrackRunIterator::IsSampleValid() const {
410 return IsRunValid() && (sample_itr_ != run_itr_->samples.end());
413 // Because tracks are in sorted order and auxiliary information is cached when
414 // returning samples, it is guaranteed that no data will be required before the
415 // lesser of the minimum data offset of this track and the next in sequence.
416 // (The stronger condition - that no data is required before the minimum data
417 // offset of this track alone - is not guaranteed, because the BMFF spec does
418 // not have any inter-run ordering restrictions.)
419 int64 TrackRunIterator::GetMaxClearOffset() {
420 int64 offset = kint64max;
422 if (IsSampleValid()) {
423 offset = std::min(offset, sample_offset_);
424 if (AuxInfoNeedsToBeCached())
425 offset = std::min(offset, aux_info_offset());
427 if (run_itr_ != runs_.end()) {
428 std::vector<TrackRunInfo>::const_iterator next_run = run_itr_ + 1;
429 if (next_run != runs_.end()) {
430 offset = std::min(offset, next_run->sample_start_offset);
431 if (next_run->aux_info_total_size)
432 offset = std::min(offset, next_run->aux_info_start_offset);
435 if (offset == kint64max) return 0;
436 return offset;
439 uint32 TrackRunIterator::track_id() const {
440 DCHECK(IsRunValid());
441 return run_itr_->track_id;
444 bool TrackRunIterator::is_encrypted() const {
445 DCHECK(IsSampleValid());
446 return IsSampleEncrypted(sample_itr_ - run_itr_->samples.begin());
449 int64 TrackRunIterator::aux_info_offset() const {
450 return run_itr_->aux_info_start_offset;
453 int TrackRunIterator::aux_info_size() const {
454 return run_itr_->aux_info_total_size;
457 bool TrackRunIterator::is_audio() const {
458 DCHECK(IsRunValid());
459 return run_itr_->is_audio;
462 const AudioSampleEntry& TrackRunIterator::audio_description() const {
463 DCHECK(is_audio());
464 DCHECK(run_itr_->audio_description);
465 return *run_itr_->audio_description;
468 const VideoSampleEntry& TrackRunIterator::video_description() const {
469 DCHECK(!is_audio());
470 DCHECK(run_itr_->video_description);
471 return *run_itr_->video_description;
474 int64 TrackRunIterator::sample_offset() const {
475 DCHECK(IsSampleValid());
476 return sample_offset_;
479 int TrackRunIterator::sample_size() const {
480 DCHECK(IsSampleValid());
481 return sample_itr_->size;
484 DecodeTimestamp TrackRunIterator::dts() const {
485 DCHECK(IsSampleValid());
486 return DecodeTimestampFromRational(sample_dts_, run_itr_->timescale);
489 base::TimeDelta TrackRunIterator::cts() const {
490 DCHECK(IsSampleValid());
491 return TimeDeltaFromRational(sample_dts_ + sample_itr_->cts_offset,
492 run_itr_->timescale);
495 base::TimeDelta TrackRunIterator::duration() const {
496 DCHECK(IsSampleValid());
497 return TimeDeltaFromRational(sample_itr_->duration, run_itr_->timescale);
500 bool TrackRunIterator::is_keyframe() const {
501 DCHECK(IsSampleValid());
502 return sample_itr_->is_keyframe;
505 bool TrackRunIterator::is_random_access_point() const {
506 DCHECK(IsSampleValid());
507 return sample_itr_->is_random_access_point;
510 const TrackEncryption& TrackRunIterator::track_encryption() const {
511 if (is_audio())
512 return audio_description().sinf.info.track_encryption;
513 return video_description().sinf.info.track_encryption;
516 scoped_ptr<DecryptConfig> TrackRunIterator::GetDecryptConfig() {
517 DCHECK(is_encrypted());
519 if (cenc_info_.empty()) {
520 DCHECK_EQ(0, aux_info_size());
521 MEDIA_LOG(log_cb_) << "Aux Info is not available.";
522 return scoped_ptr<DecryptConfig>();
525 size_t sample_idx = sample_itr_ - run_itr_->samples.begin();
526 DCHECK_LT(sample_idx, cenc_info_.size());
527 const FrameCENCInfo& cenc_info = cenc_info_[sample_idx];
529 size_t total_size = 0;
530 if (!cenc_info.subsamples.empty() &&
531 (!cenc_info.GetTotalSizeOfSubsamples(&total_size) ||
532 total_size != static_cast<size_t>(sample_size()))) {
533 MEDIA_LOG(log_cb_) << "Incorrect CENC subsample size.";
534 return scoped_ptr<DecryptConfig>();
537 const std::vector<uint8>& kid = GetKeyId(sample_idx);
538 return scoped_ptr<DecryptConfig>(new DecryptConfig(
539 std::string(reinterpret_cast<const char*>(&kid[0]), kid.size()),
540 std::string(reinterpret_cast<const char*>(cenc_info.iv),
541 arraysize(cenc_info.iv)),
542 cenc_info.subsamples));
545 uint32 TrackRunIterator::GetGroupDescriptionIndex(uint32 sample_index) const {
546 DCHECK(IsRunValid());
547 DCHECK_LT(sample_index, run_itr_->samples.size());
548 return run_itr_->samples[sample_index].cenc_group_description_index;
551 const CencSampleEncryptionInfoEntry&
552 TrackRunIterator::GetSampleEncryptionInfoEntry(
553 uint32 group_description_index) const {
554 DCHECK(IsRunValid());
555 DCHECK_NE(group_description_index, 0u);
556 DCHECK_LE(group_description_index, run_itr_->sample_encryption_info.size());
557 // |group_description_index| is 1-based. Subtract by 1 to index the vector.
558 return run_itr_->sample_encryption_info[group_description_index - 1];
561 bool TrackRunIterator::IsSampleEncrypted(size_t sample_index) const {
562 uint32 index = GetGroupDescriptionIndex(sample_index);
563 return (index == 0) ? track_encryption().is_encrypted
564 : GetSampleEncryptionInfoEntry(index).is_encrypted;
567 const std::vector<uint8>& TrackRunIterator::GetKeyId(
568 size_t sample_index) const {
569 uint32 index = GetGroupDescriptionIndex(sample_index);
570 return (index == 0) ? track_encryption().default_kid
571 : GetSampleEncryptionInfoEntry(index).key_id;
574 uint8 TrackRunIterator::GetIvSize(size_t sample_index) const {
575 uint32 index = GetGroupDescriptionIndex(sample_index);
576 return (index == 0) ? track_encryption().default_iv_size
577 : GetSampleEncryptionInfoEntry(index).iv_size;
580 } // namespace mp4
581 } // namespace media