Roll leveldb 3f7758:803d69 (v1.17 -> v1.18)
[chromium-blink-merge.git] / media / filters / source_buffer_stream.cc
blob67b7245afb44680c1be7b50f72496afb429ebab6
1 // Copyright (c) 2012 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/filters/source_buffer_stream.h"
7 #include <algorithm>
8 #include <map>
9 #include <sstream>
11 #include "base/bind.h"
12 #include "base/debug/trace_event.h"
13 #include "base/logging.h"
14 #include "media/base/audio_splicer.h"
15 #include "media/filters/source_buffer_platform.h"
16 #include "media/filters/source_buffer_range.h"
18 namespace media {
20 // Helper method that returns true if |ranges| is sorted in increasing order,
21 // false otherwise.
22 static bool IsRangeListSorted(
23 const std::list<media::SourceBufferRange*>& ranges) {
24 DecodeTimestamp prev = kNoDecodeTimestamp();
25 for (std::list<SourceBufferRange*>::const_iterator itr =
26 ranges.begin(); itr != ranges.end(); ++itr) {
27 if (prev != kNoDecodeTimestamp() && prev >= (*itr)->GetStartTimestamp())
28 return false;
29 prev = (*itr)->GetEndTimestamp();
31 return true;
34 // Returns an estimate of how far from the beginning or end of a range a buffer
35 // can be to still be considered in the range, given the |approximate_duration|
36 // of a buffer in the stream.
37 // TODO(wolenetz): Once all stream parsers emit accurate frame durations, use
38 // logic like FrameProcessor (2*last_frame_duration + last_decode_timestamp)
39 // instead of an overall maximum interbuffer delta for range discontinuity
40 // detection, and adjust similarly for splice frame discontinuity detection.
41 // See http://crbug.com/351489 and http://crbug.com/351166.
42 static base::TimeDelta ComputeFudgeRoom(base::TimeDelta approximate_duration) {
43 // Because we do not know exactly when is the next timestamp, any buffer
44 // that starts within 2x the approximate duration of a buffer is considered
45 // within this range.
46 return 2 * approximate_duration;
49 // An arbitrarily-chosen number to estimate the duration of a buffer if none
50 // is set and there's not enough information to get a better estimate.
51 static int kDefaultBufferDurationInMs = 125;
53 // The amount of time the beginning of the buffered data can differ from the
54 // start time in order to still be considered the start of stream.
55 static base::TimeDelta kSeekToStartFudgeRoom() {
56 return base::TimeDelta::FromMilliseconds(1000);
59 // Helper method for logging, converts a range into a readable string.
60 static std::string RangeToString(const SourceBufferRange& range) {
61 std::stringstream ss;
62 ss << "[" << range.GetStartTimestamp().InSecondsF()
63 << ";" << range.GetEndTimestamp().InSecondsF()
64 << "(" << range.GetBufferedEndTimestamp().InSecondsF() << ")]";
65 return ss.str();
68 // Helper method for logging, converts a set of ranges into a readable string.
69 static std::string RangesToString(const SourceBufferStream::RangeList& ranges) {
70 if (ranges.empty())
71 return "<EMPTY>";
73 std::stringstream ss;
74 for (const auto* range_ptr : ranges) {
75 if (range_ptr != ranges.front())
76 ss << " ";
77 ss << RangeToString(*range_ptr);
79 return ss.str();
82 static SourceBufferRange::GapPolicy TypeToGapPolicy(
83 SourceBufferStream::Type type) {
84 switch (type) {
85 case SourceBufferStream::kAudio:
86 case SourceBufferStream::kVideo:
87 return SourceBufferRange::NO_GAPS_ALLOWED;
88 case SourceBufferStream::kText:
89 return SourceBufferRange::ALLOW_GAPS;
92 NOTREACHED();
93 return SourceBufferRange::NO_GAPS_ALLOWED;
96 SourceBufferStream::SourceBufferStream(const AudioDecoderConfig& audio_config,
97 const LogCB& log_cb,
98 bool splice_frames_enabled)
99 : log_cb_(log_cb),
100 current_config_index_(0),
101 append_config_index_(0),
102 seek_pending_(false),
103 end_of_stream_(false),
104 seek_buffer_timestamp_(kNoTimestamp()),
105 selected_range_(NULL),
106 media_segment_start_time_(kNoDecodeTimestamp()),
107 range_for_next_append_(ranges_.end()),
108 new_media_segment_(false),
109 last_appended_buffer_timestamp_(kNoDecodeTimestamp()),
110 last_appended_buffer_is_keyframe_(false),
111 last_output_buffer_timestamp_(kNoDecodeTimestamp()),
112 max_interbuffer_distance_(kNoTimestamp()),
113 memory_limit_(kSourceBufferAudioMemoryLimit),
114 config_change_pending_(false),
115 splice_buffers_index_(0),
116 pending_buffers_complete_(false),
117 splice_frames_enabled_(splice_frames_enabled) {
118 DCHECK(audio_config.IsValidConfig());
119 audio_configs_.push_back(audio_config);
122 SourceBufferStream::SourceBufferStream(const VideoDecoderConfig& video_config,
123 const LogCB& log_cb,
124 bool splice_frames_enabled)
125 : log_cb_(log_cb),
126 current_config_index_(0),
127 append_config_index_(0),
128 seek_pending_(false),
129 end_of_stream_(false),
130 seek_buffer_timestamp_(kNoTimestamp()),
131 selected_range_(NULL),
132 media_segment_start_time_(kNoDecodeTimestamp()),
133 range_for_next_append_(ranges_.end()),
134 new_media_segment_(false),
135 last_appended_buffer_timestamp_(kNoDecodeTimestamp()),
136 last_appended_buffer_is_keyframe_(false),
137 last_output_buffer_timestamp_(kNoDecodeTimestamp()),
138 max_interbuffer_distance_(kNoTimestamp()),
139 memory_limit_(kSourceBufferVideoMemoryLimit),
140 config_change_pending_(false),
141 splice_buffers_index_(0),
142 pending_buffers_complete_(false),
143 splice_frames_enabled_(splice_frames_enabled) {
144 DCHECK(video_config.IsValidConfig());
145 video_configs_.push_back(video_config);
148 SourceBufferStream::SourceBufferStream(const TextTrackConfig& text_config,
149 const LogCB& log_cb,
150 bool splice_frames_enabled)
151 : log_cb_(log_cb),
152 current_config_index_(0),
153 append_config_index_(0),
154 text_track_config_(text_config),
155 seek_pending_(false),
156 end_of_stream_(false),
157 seek_buffer_timestamp_(kNoTimestamp()),
158 selected_range_(NULL),
159 media_segment_start_time_(kNoDecodeTimestamp()),
160 range_for_next_append_(ranges_.end()),
161 new_media_segment_(false),
162 last_appended_buffer_timestamp_(kNoDecodeTimestamp()),
163 last_appended_buffer_is_keyframe_(false),
164 last_output_buffer_timestamp_(kNoDecodeTimestamp()),
165 max_interbuffer_distance_(kNoTimestamp()),
166 memory_limit_(kSourceBufferAudioMemoryLimit),
167 config_change_pending_(false),
168 splice_buffers_index_(0),
169 pending_buffers_complete_(false),
170 splice_frames_enabled_(splice_frames_enabled) {}
172 SourceBufferStream::~SourceBufferStream() {
173 while (!ranges_.empty()) {
174 delete ranges_.front();
175 ranges_.pop_front();
179 void SourceBufferStream::OnNewMediaSegment(
180 DecodeTimestamp media_segment_start_time) {
181 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
182 << " (" << media_segment_start_time.InSecondsF() << ")";
183 DCHECK(!end_of_stream_);
184 media_segment_start_time_ = media_segment_start_time;
185 new_media_segment_ = true;
187 RangeList::iterator last_range = range_for_next_append_;
188 range_for_next_append_ = FindExistingRangeFor(media_segment_start_time);
190 // Only reset |last_appended_buffer_timestamp_| if this new media segment is
191 // not adjacent to the previous media segment appended to the stream.
192 if (range_for_next_append_ == ranges_.end() ||
193 !AreAdjacentInSequence(last_appended_buffer_timestamp_,
194 media_segment_start_time)) {
195 last_appended_buffer_timestamp_ = kNoDecodeTimestamp();
196 last_appended_buffer_is_keyframe_ = false;
197 DVLOG(3) << __FUNCTION__ << " next appended buffers will be in a new range";
198 } else if (last_range != ranges_.end()) {
199 DCHECK(last_range == range_for_next_append_);
200 DVLOG(3) << __FUNCTION__ << " next appended buffers will continue range "
201 << "unless intervening remove makes discontinuity";
205 bool SourceBufferStream::Append(const BufferQueue& buffers) {
206 TRACE_EVENT2("media", "SourceBufferStream::Append",
207 "stream type", GetStreamTypeName(),
208 "buffers to append", buffers.size());
210 DCHECK(!buffers.empty());
211 DCHECK(media_segment_start_time_ != kNoDecodeTimestamp());
212 DCHECK(media_segment_start_time_ <= buffers.front()->GetDecodeTimestamp());
213 DCHECK(!end_of_stream_);
215 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName() << ": buffers dts=["
216 << buffers.front()->GetDecodeTimestamp().InSecondsF() << ";"
217 << buffers.back()->GetDecodeTimestamp().InSecondsF() << "] pts=["
218 << buffers.front()->timestamp().InSecondsF() << ";"
219 << buffers.back()->timestamp().InSecondsF() << "(last frame dur="
220 << buffers.back()->duration().InSecondsF() << ")]";
222 // New media segments must begin with a keyframe.
223 if (new_media_segment_ && !buffers.front()->is_key_frame()) {
224 MEDIA_LOG(log_cb_) << "Media segment did not begin with key frame.";
225 return false;
228 // Buffers within a media segment should be monotonically increasing.
229 if (!IsMonotonicallyIncreasing(buffers))
230 return false;
232 if (media_segment_start_time_ < DecodeTimestamp() ||
233 buffers.front()->GetDecodeTimestamp() < DecodeTimestamp()) {
234 MEDIA_LOG(log_cb_)
235 << "Cannot append a media segment with negative timestamps.";
236 return false;
239 if (!IsNextTimestampValid(buffers.front()->GetDecodeTimestamp(),
240 buffers.front()->is_key_frame())) {
241 MEDIA_LOG(log_cb_) << "Invalid same timestamp construct detected at time "
242 << buffers.front()->GetDecodeTimestamp().InSecondsF();
244 return false;
247 UpdateMaxInterbufferDistance(buffers);
248 SetConfigIds(buffers);
250 // Save a snapshot of stream state before range modifications are made.
251 DecodeTimestamp next_buffer_timestamp = GetNextBufferTimestamp();
252 BufferQueue deleted_buffers;
254 PrepareRangesForNextAppend(buffers, &deleted_buffers);
256 // If there's a range for |buffers|, insert |buffers| accordingly. Otherwise,
257 // create a new range with |buffers|.
258 if (range_for_next_append_ != ranges_.end()) {
259 (*range_for_next_append_)->AppendBuffersToEnd(buffers);
260 last_appended_buffer_timestamp_ = buffers.back()->GetDecodeTimestamp();
261 last_appended_buffer_is_keyframe_ = buffers.back()->is_key_frame();
262 } else {
263 DecodeTimestamp new_range_start_time = std::min(
264 media_segment_start_time_, buffers.front()->GetDecodeTimestamp());
265 const BufferQueue* buffers_for_new_range = &buffers;
266 BufferQueue trimmed_buffers;
268 // If the new range is not being created because of a new media
269 // segment, then we must make sure that we start with a key frame.
270 // This can happen if the GOP in the previous append gets destroyed
271 // by a Remove() call.
272 if (!new_media_segment_) {
273 BufferQueue::const_iterator itr = buffers.begin();
275 // Scan past all the non-key-frames.
276 while (itr != buffers.end() && !(*itr)->is_key_frame()) {
277 ++itr;
280 // If we didn't find a key frame, then update the last appended
281 // buffer state and return.
282 if (itr == buffers.end()) {
283 last_appended_buffer_timestamp_ = buffers.back()->GetDecodeTimestamp();
284 last_appended_buffer_is_keyframe_ = buffers.back()->is_key_frame();
285 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
286 << ": new buffers in the middle of media segment depend on"
287 "keyframe that has been removed, and contain no keyframes."
288 "Skipping further processing.";
289 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
290 << ": done. ranges_=" << RangesToString(ranges_);
291 return true;
292 } else if (itr != buffers.begin()) {
293 // Copy the first key frame and everything after it into
294 // |trimmed_buffers|.
295 trimmed_buffers.assign(itr, buffers.end());
296 buffers_for_new_range = &trimmed_buffers;
299 new_range_start_time =
300 buffers_for_new_range->front()->GetDecodeTimestamp();
303 range_for_next_append_ =
304 AddToRanges(new SourceBufferRange(
305 TypeToGapPolicy(GetType()),
306 *buffers_for_new_range, new_range_start_time,
307 base::Bind(&SourceBufferStream::GetMaxInterbufferDistance,
308 base::Unretained(this))));
309 last_appended_buffer_timestamp_ =
310 buffers_for_new_range->back()->GetDecodeTimestamp();
311 last_appended_buffer_is_keyframe_ =
312 buffers_for_new_range->back()->is_key_frame();
315 new_media_segment_ = false;
317 MergeWithAdjacentRangeIfNecessary(range_for_next_append_);
319 // Seek to try to fulfill a previous call to Seek().
320 if (seek_pending_) {
321 DCHECK(!selected_range_);
322 DCHECK(deleted_buffers.empty());
323 Seek(seek_buffer_timestamp_);
326 if (!deleted_buffers.empty()) {
327 DecodeTimestamp start_of_deleted =
328 deleted_buffers.front()->GetDecodeTimestamp();
330 DCHECK(track_buffer_.empty() ||
331 track_buffer_.back()->GetDecodeTimestamp() < start_of_deleted)
332 << "decode timestamp "
333 << track_buffer_.back()->GetDecodeTimestamp().InSecondsF() << " sec"
334 << ", start_of_deleted " << start_of_deleted.InSecondsF()<< " sec";
336 track_buffer_.insert(track_buffer_.end(), deleted_buffers.begin(),
337 deleted_buffers.end());
340 // Prune any extra buffers in |track_buffer_| if new keyframes
341 // are appended to the range covered by |track_buffer_|.
342 if (!track_buffer_.empty()) {
343 DecodeTimestamp keyframe_timestamp =
344 FindKeyframeAfterTimestamp(track_buffer_.front()->GetDecodeTimestamp());
345 if (keyframe_timestamp != kNoDecodeTimestamp())
346 PruneTrackBuffer(keyframe_timestamp);
349 SetSelectedRangeIfNeeded(next_buffer_timestamp);
351 GarbageCollectIfNeeded();
353 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
354 << ": done. ranges_=" << RangesToString(ranges_);
355 DCHECK(IsRangeListSorted(ranges_));
356 DCHECK(OnlySelectedRangeIsSeeked());
357 return true;
360 void SourceBufferStream::Remove(base::TimeDelta start, base::TimeDelta end,
361 base::TimeDelta duration) {
362 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
363 << " (" << start.InSecondsF() << ", " << end.InSecondsF()
364 << ", " << duration.InSecondsF() << ")";
365 DCHECK(start >= base::TimeDelta()) << start.InSecondsF();
366 DCHECK(start < end) << "start " << start.InSecondsF()
367 << " end " << end.InSecondsF();
368 DCHECK(duration != kNoTimestamp());
370 DecodeTimestamp start_dts = DecodeTimestamp::FromPresentationTime(start);
371 DecodeTimestamp end_dts = DecodeTimestamp::FromPresentationTime(end);
372 DecodeTimestamp remove_end_timestamp =
373 DecodeTimestamp::FromPresentationTime(duration);
374 DecodeTimestamp keyframe_timestamp = FindKeyframeAfterTimestamp(end_dts);
375 if (keyframe_timestamp != kNoDecodeTimestamp()) {
376 remove_end_timestamp = keyframe_timestamp;
377 } else if (end_dts < remove_end_timestamp) {
378 remove_end_timestamp = end_dts;
381 BufferQueue deleted_buffers;
382 RemoveInternal(start_dts, remove_end_timestamp, false, &deleted_buffers);
384 if (!deleted_buffers.empty())
385 SetSelectedRangeIfNeeded(deleted_buffers.front()->GetDecodeTimestamp());
388 void SourceBufferStream::RemoveInternal(
389 DecodeTimestamp start, DecodeTimestamp end, bool is_exclusive,
390 BufferQueue* deleted_buffers) {
391 DVLOG(2) << __FUNCTION__ << " " << GetStreamTypeName()
392 << " (" << start.InSecondsF() << ", " << end.InSecondsF()
393 << ", " << is_exclusive << ")";
394 DVLOG(3) << __FUNCTION__ << " " << GetStreamTypeName()
395 << ": before remove ranges_=" << RangesToString(ranges_);
397 DCHECK(start >= DecodeTimestamp());
398 DCHECK(start < end) << "start " << start.InSecondsF()
399 << " end " << end.InSecondsF();
400 DCHECK(deleted_buffers);
402 RangeList::iterator itr = ranges_.begin();
404 while (itr != ranges_.end()) {
405 SourceBufferRange* range = *itr;
406 if (range->GetStartTimestamp() >= end)
407 break;
409 // Split off any remaining end piece and add it to |ranges_|.
410 SourceBufferRange* new_range = range->SplitRange(end, is_exclusive);
411 if (new_range) {
412 itr = ranges_.insert(++itr, new_range);
413 --itr;
415 // Update the selected range if the next buffer position was transferred
416 // to |new_range|.
417 if (new_range->HasNextBufferPosition())
418 SetSelectedRange(new_range);
421 // Truncate the current range so that it only contains data before
422 // the removal range.
423 BufferQueue saved_buffers;
424 bool delete_range = range->TruncateAt(start, &saved_buffers, is_exclusive);
426 // Check to see if the current playback position was removed and
427 // update the selected range appropriately.
428 if (!saved_buffers.empty()) {
429 DCHECK(!range->HasNextBufferPosition());
430 DCHECK(deleted_buffers->empty());
432 *deleted_buffers = saved_buffers;
435 if (range == selected_range_ && !range->HasNextBufferPosition())
436 SetSelectedRange(NULL);
438 // If the current range now is completely covered by the removal
439 // range then delete it and move on.
440 if (delete_range) {
441 DeleteAndRemoveRange(&itr);
442 continue;
445 // Clear |range_for_next_append_| if we determine that the removal
446 // operation makes it impossible for the next append to be added
447 // to the current range.
448 if (range_for_next_append_ != ranges_.end() &&
449 *range_for_next_append_ == range &&
450 last_appended_buffer_timestamp_ != kNoDecodeTimestamp()) {
451 DecodeTimestamp potential_next_append_timestamp =
452 last_appended_buffer_timestamp_ +
453 base::TimeDelta::FromInternalValue(1);
455 if (!range->BelongsToRange(potential_next_append_timestamp)) {
456 DVLOG(1) << "Resetting range_for_next_append_ since the next append"
457 << " can't add to the current range.";
458 range_for_next_append_ =
459 FindExistingRangeFor(potential_next_append_timestamp);
463 // Move on to the next range.
464 ++itr;
467 DVLOG(3) << __FUNCTION__ << " " << GetStreamTypeName()
468 << ": after remove ranges_=" << RangesToString(ranges_);
470 DCHECK(IsRangeListSorted(ranges_));
471 DCHECK(OnlySelectedRangeIsSeeked());
474 void SourceBufferStream::ResetSeekState() {
475 SetSelectedRange(NULL);
476 track_buffer_.clear();
477 config_change_pending_ = false;
478 last_output_buffer_timestamp_ = kNoDecodeTimestamp();
479 splice_buffers_index_ = 0;
480 pending_buffer_ = NULL;
481 pending_buffers_complete_ = false;
484 bool SourceBufferStream::ShouldSeekToStartOfBuffered(
485 base::TimeDelta seek_timestamp) const {
486 if (ranges_.empty())
487 return false;
488 base::TimeDelta beginning_of_buffered =
489 ranges_.front()->GetStartTimestamp().ToPresentationTime();
490 return (seek_timestamp <= beginning_of_buffered &&
491 beginning_of_buffered < kSeekToStartFudgeRoom());
494 bool SourceBufferStream::IsMonotonicallyIncreasing(
495 const BufferQueue& buffers) const {
496 DCHECK(!buffers.empty());
497 DecodeTimestamp prev_timestamp = last_appended_buffer_timestamp_;
498 bool prev_is_keyframe = last_appended_buffer_is_keyframe_;
499 for (BufferQueue::const_iterator itr = buffers.begin();
500 itr != buffers.end(); ++itr) {
501 DecodeTimestamp current_timestamp = (*itr)->GetDecodeTimestamp();
502 bool current_is_keyframe = (*itr)->is_key_frame();
503 DCHECK(current_timestamp != kNoDecodeTimestamp());
504 DCHECK((*itr)->duration() >= base::TimeDelta())
505 << "Packet with invalid duration."
506 << " pts " << (*itr)->timestamp().InSecondsF()
507 << " dts " << (*itr)->GetDecodeTimestamp().InSecondsF()
508 << " dur " << (*itr)->duration().InSecondsF();
510 if (prev_timestamp != kNoDecodeTimestamp()) {
511 if (current_timestamp < prev_timestamp) {
512 MEDIA_LOG(log_cb_) << "Buffers were not monotonically increasing.";
513 return false;
516 if (current_timestamp == prev_timestamp &&
517 !SourceBufferRange::AllowSameTimestamp(prev_is_keyframe,
518 current_is_keyframe)) {
519 MEDIA_LOG(log_cb_) << "Unexpected combination of buffers with the"
520 << " same timestamp detected at "
521 << current_timestamp.InSecondsF();
522 return false;
526 prev_timestamp = current_timestamp;
527 prev_is_keyframe = current_is_keyframe;
529 return true;
532 bool SourceBufferStream::IsNextTimestampValid(
533 DecodeTimestamp next_timestamp, bool next_is_keyframe) const {
534 return (last_appended_buffer_timestamp_ != next_timestamp) ||
535 new_media_segment_ ||
536 SourceBufferRange::AllowSameTimestamp(last_appended_buffer_is_keyframe_,
537 next_is_keyframe);
541 bool SourceBufferStream::OnlySelectedRangeIsSeeked() const {
542 for (RangeList::const_iterator itr = ranges_.begin();
543 itr != ranges_.end(); ++itr) {
544 if ((*itr)->HasNextBufferPosition() && (*itr) != selected_range_)
545 return false;
547 return !selected_range_ || selected_range_->HasNextBufferPosition();
550 void SourceBufferStream::UpdateMaxInterbufferDistance(
551 const BufferQueue& buffers) {
552 DCHECK(!buffers.empty());
553 DecodeTimestamp prev_timestamp = last_appended_buffer_timestamp_;
554 for (BufferQueue::const_iterator itr = buffers.begin();
555 itr != buffers.end(); ++itr) {
556 DecodeTimestamp current_timestamp = (*itr)->GetDecodeTimestamp();
557 DCHECK(current_timestamp != kNoDecodeTimestamp());
559 base::TimeDelta interbuffer_distance = (*itr)->duration();
560 DCHECK(interbuffer_distance >= base::TimeDelta());
562 if (prev_timestamp != kNoDecodeTimestamp()) {
563 interbuffer_distance =
564 std::max(current_timestamp - prev_timestamp, interbuffer_distance);
567 if (interbuffer_distance > base::TimeDelta()) {
568 if (max_interbuffer_distance_ == kNoTimestamp()) {
569 max_interbuffer_distance_ = interbuffer_distance;
570 } else {
571 max_interbuffer_distance_ =
572 std::max(max_interbuffer_distance_, interbuffer_distance);
575 prev_timestamp = current_timestamp;
579 void SourceBufferStream::SetConfigIds(const BufferQueue& buffers) {
580 for (BufferQueue::const_iterator itr = buffers.begin();
581 itr != buffers.end(); ++itr) {
582 (*itr)->SetConfigId(append_config_index_);
586 void SourceBufferStream::GarbageCollectIfNeeded() {
587 // Compute size of |ranges_|.
588 int ranges_size = 0;
589 for (RangeList::iterator itr = ranges_.begin(); itr != ranges_.end(); ++itr)
590 ranges_size += (*itr)->size_in_bytes();
592 // Return if we're under or at the memory limit.
593 if (ranges_size <= memory_limit_)
594 return;
596 int bytes_to_free = ranges_size - memory_limit_;
598 DVLOG(2) << __FUNCTION__ << " " << GetStreamTypeName() << ": Before GC"
599 << " ranges_size=" << ranges_size
600 << " ranges_=" << RangesToString(ranges_)
601 << " memory_limit_=" << memory_limit_;
603 // Begin deleting after the last appended buffer.
604 int bytes_freed = FreeBuffersAfterLastAppended(bytes_to_free);
606 // Begin deleting from the front.
607 if (bytes_to_free - bytes_freed > 0)
608 bytes_freed += FreeBuffers(bytes_to_free - bytes_freed, false);
610 // Begin deleting from the back.
611 if (bytes_to_free - bytes_freed > 0)
612 bytes_freed += FreeBuffers(bytes_to_free - bytes_freed, true);
614 DVLOG(2) << __FUNCTION__ << " " << GetStreamTypeName() << ": After GC"
615 << " bytes_freed=" << bytes_freed
616 << " ranges_=" << RangesToString(ranges_);
619 int SourceBufferStream::FreeBuffersAfterLastAppended(int total_bytes_to_free) {
620 DecodeTimestamp next_buffer_timestamp = GetNextBufferTimestamp();
621 if (last_appended_buffer_timestamp_ == kNoDecodeTimestamp() ||
622 next_buffer_timestamp == kNoDecodeTimestamp() ||
623 last_appended_buffer_timestamp_ >= next_buffer_timestamp) {
624 return 0;
627 DecodeTimestamp remove_range_start = last_appended_buffer_timestamp_;
628 if (last_appended_buffer_is_keyframe_)
629 remove_range_start += GetMaxInterbufferDistance();
631 DecodeTimestamp remove_range_start_keyframe = FindKeyframeAfterTimestamp(
632 remove_range_start);
633 if (remove_range_start_keyframe != kNoDecodeTimestamp())
634 remove_range_start = remove_range_start_keyframe;
635 if (remove_range_start >= next_buffer_timestamp)
636 return 0;
638 DecodeTimestamp remove_range_end;
639 int bytes_freed = GetRemovalRange(
640 remove_range_start, next_buffer_timestamp, total_bytes_to_free,
641 &remove_range_end);
642 if (bytes_freed > 0) {
643 Remove(remove_range_start.ToPresentationTime(),
644 remove_range_end.ToPresentationTime(),
645 next_buffer_timestamp.ToPresentationTime());
648 return bytes_freed;
651 int SourceBufferStream::GetRemovalRange(
652 DecodeTimestamp start_timestamp, DecodeTimestamp end_timestamp,
653 int total_bytes_to_free, DecodeTimestamp* removal_end_timestamp) {
654 DCHECK(start_timestamp >= DecodeTimestamp()) << start_timestamp.InSecondsF();
655 DCHECK(start_timestamp < end_timestamp)
656 << "start " << start_timestamp.InSecondsF()
657 << ", end " << end_timestamp.InSecondsF();
659 int bytes_to_free = total_bytes_to_free;
660 int bytes_freed = 0;
662 for (RangeList::iterator itr = ranges_.begin();
663 itr != ranges_.end() && bytes_to_free > 0; ++itr) {
664 SourceBufferRange* range = *itr;
665 if (range->GetStartTimestamp() >= end_timestamp)
666 break;
667 if (range->GetEndTimestamp() < start_timestamp)
668 continue;
670 int bytes_removed = range->GetRemovalGOP(
671 start_timestamp, end_timestamp, bytes_to_free, removal_end_timestamp);
672 bytes_to_free -= bytes_removed;
673 bytes_freed += bytes_removed;
675 return bytes_freed;
678 int SourceBufferStream::FreeBuffers(int total_bytes_to_free,
679 bool reverse_direction) {
680 TRACE_EVENT2("media", "SourceBufferStream::FreeBuffers",
681 "total bytes to free", total_bytes_to_free,
682 "reverse direction", reverse_direction);
684 DCHECK_GT(total_bytes_to_free, 0);
685 int bytes_to_free = total_bytes_to_free;
686 int bytes_freed = 0;
688 // This range will save the last GOP appended to |range_for_next_append_|
689 // if the buffers surrounding it get deleted during garbage collection.
690 SourceBufferRange* new_range_for_append = NULL;
692 while (!ranges_.empty() && bytes_to_free > 0) {
693 SourceBufferRange* current_range = NULL;
694 BufferQueue buffers;
695 int bytes_deleted = 0;
697 if (reverse_direction) {
698 current_range = ranges_.back();
699 if (current_range->LastGOPContainsNextBufferPosition()) {
700 DCHECK_EQ(current_range, selected_range_);
701 break;
703 bytes_deleted = current_range->DeleteGOPFromBack(&buffers);
704 } else {
705 current_range = ranges_.front();
706 if (current_range->FirstGOPContainsNextBufferPosition()) {
707 DCHECK_EQ(current_range, selected_range_);
708 break;
710 bytes_deleted = current_range->DeleteGOPFromFront(&buffers);
713 // Check to see if we've just deleted the GOP that was last appended.
714 DecodeTimestamp end_timestamp = buffers.back()->GetDecodeTimestamp();
715 if (end_timestamp == last_appended_buffer_timestamp_) {
716 DCHECK(last_appended_buffer_timestamp_ != kNoDecodeTimestamp());
717 DCHECK(!new_range_for_append);
718 // Create a new range containing these buffers.
719 new_range_for_append = new SourceBufferRange(
720 TypeToGapPolicy(GetType()),
721 buffers, kNoDecodeTimestamp(),
722 base::Bind(&SourceBufferStream::GetMaxInterbufferDistance,
723 base::Unretained(this)));
724 range_for_next_append_ = ranges_.end();
725 } else {
726 bytes_to_free -= bytes_deleted;
727 bytes_freed += bytes_deleted;
730 if (current_range->size_in_bytes() == 0) {
731 DCHECK_NE(current_range, selected_range_);
732 DCHECK(range_for_next_append_ == ranges_.end() ||
733 *range_for_next_append_ != current_range);
734 delete current_range;
735 reverse_direction ? ranges_.pop_back() : ranges_.pop_front();
739 // Insert |new_range_for_append| into |ranges_|, if applicable.
740 if (new_range_for_append) {
741 range_for_next_append_ = AddToRanges(new_range_for_append);
742 DCHECK(range_for_next_append_ != ranges_.end());
744 // Check to see if we need to merge |new_range_for_append| with the range
745 // before or after it. |new_range_for_append| is created whenever the last
746 // GOP appended is encountered, regardless of whether any buffers after it
747 // are ultimately deleted. Merging is necessary if there were no buffers
748 // (or very few buffers) deleted after creating |new_range_for_append|.
749 if (range_for_next_append_ != ranges_.begin()) {
750 RangeList::iterator range_before_next = range_for_next_append_;
751 --range_before_next;
752 MergeWithAdjacentRangeIfNecessary(range_before_next);
754 MergeWithAdjacentRangeIfNecessary(range_for_next_append_);
756 return bytes_freed;
759 void SourceBufferStream::PrepareRangesForNextAppend(
760 const BufferQueue& new_buffers, BufferQueue* deleted_buffers) {
761 DCHECK(deleted_buffers);
763 bool temporarily_select_range = false;
764 if (!track_buffer_.empty()) {
765 DecodeTimestamp tb_timestamp = track_buffer_.back()->GetDecodeTimestamp();
766 DecodeTimestamp seek_timestamp = FindKeyframeAfterTimestamp(tb_timestamp);
767 if (seek_timestamp != kNoDecodeTimestamp() &&
768 seek_timestamp < new_buffers.front()->GetDecodeTimestamp() &&
769 range_for_next_append_ != ranges_.end() &&
770 (*range_for_next_append_)->BelongsToRange(seek_timestamp)) {
771 DCHECK(tb_timestamp < seek_timestamp);
772 DCHECK(!selected_range_);
773 DCHECK(!(*range_for_next_append_)->HasNextBufferPosition());
775 // If there are GOPs between the end of the track buffer and the
776 // beginning of the new buffers, then temporarily seek the range
777 // so that the buffers between these two times will be deposited in
778 // |deleted_buffers| as if they were part of the current playback
779 // position.
780 // TODO(acolwell): Figure out a more elegant way to do this.
781 SeekAndSetSelectedRange(*range_for_next_append_, seek_timestamp);
782 temporarily_select_range = true;
786 // Handle splices between the existing buffers and the new buffers. If a
787 // splice is generated the timestamp and duration of the first buffer in
788 // |new_buffers| will be modified.
789 if (splice_frames_enabled_)
790 GenerateSpliceFrame(new_buffers);
792 DecodeTimestamp prev_timestamp = last_appended_buffer_timestamp_;
793 bool prev_is_keyframe = last_appended_buffer_is_keyframe_;
794 DecodeTimestamp next_timestamp = new_buffers.front()->GetDecodeTimestamp();
795 bool next_is_keyframe = new_buffers.front()->is_key_frame();
797 if (prev_timestamp != kNoDecodeTimestamp() &&
798 prev_timestamp != next_timestamp) {
799 // Clean up the old buffers between the last appended buffer and the
800 // beginning of |new_buffers|.
801 RemoveInternal(prev_timestamp, next_timestamp, true, deleted_buffers);
804 // Make the delete range exclusive if we are dealing with an allowed same
805 // timestamp situation. This prevents the first buffer in the current append
806 // from deleting the last buffer in the previous append if both buffers
807 // have the same timestamp.
809 // The delete range should never be exclusive if a splice frame was generated
810 // because we don't generate splice frames for same timestamp situations.
811 DCHECK(new_buffers.front()->splice_timestamp() !=
812 new_buffers.front()->timestamp());
813 const bool is_exclusive =
814 new_buffers.front()->splice_buffers().empty() &&
815 prev_timestamp == next_timestamp &&
816 SourceBufferRange::AllowSameTimestamp(prev_is_keyframe, next_is_keyframe);
818 // Delete the buffers that |new_buffers| overlaps.
819 DecodeTimestamp start = new_buffers.front()->GetDecodeTimestamp();
820 DecodeTimestamp end = new_buffers.back()->GetDecodeTimestamp();
821 base::TimeDelta duration = new_buffers.back()->duration();
823 if (duration != kNoTimestamp() && duration > base::TimeDelta()) {
824 end += duration;
825 } else {
826 // TODO(acolwell): Ensure all buffers actually have proper
827 // duration info so that this hack isn't needed.
828 // http://crbug.com/312836
829 end += base::TimeDelta::FromInternalValue(1);
832 RemoveInternal(start, end, is_exclusive, deleted_buffers);
834 // Restore the range seek state if necessary.
835 if (temporarily_select_range)
836 SetSelectedRange(NULL);
839 bool SourceBufferStream::AreAdjacentInSequence(
840 DecodeTimestamp first_timestamp, DecodeTimestamp second_timestamp) const {
841 return first_timestamp < second_timestamp &&
842 second_timestamp <=
843 first_timestamp + ComputeFudgeRoom(GetMaxInterbufferDistance());
846 void SourceBufferStream::PruneTrackBuffer(const DecodeTimestamp timestamp) {
847 // If we don't have the next timestamp, we don't have anything to delete.
848 if (timestamp == kNoDecodeTimestamp())
849 return;
851 while (!track_buffer_.empty() &&
852 track_buffer_.back()->GetDecodeTimestamp() >= timestamp) {
853 track_buffer_.pop_back();
857 void SourceBufferStream::MergeWithAdjacentRangeIfNecessary(
858 const RangeList::iterator& range_with_new_buffers_itr) {
859 DCHECK(range_with_new_buffers_itr != ranges_.end());
861 SourceBufferRange* range_with_new_buffers = *range_with_new_buffers_itr;
862 RangeList::iterator next_range_itr = range_with_new_buffers_itr;
863 ++next_range_itr;
865 if (next_range_itr == ranges_.end() ||
866 !range_with_new_buffers->CanAppendRangeToEnd(**next_range_itr)) {
867 return;
870 bool transfer_current_position = selected_range_ == *next_range_itr;
871 DVLOG(3) << __FUNCTION__ << " " << GetStreamTypeName()
872 << " merging " << RangeToString(*range_with_new_buffers)
873 << " into " << RangeToString(**next_range_itr);
874 range_with_new_buffers->AppendRangeToEnd(**next_range_itr,
875 transfer_current_position);
876 // Update |selected_range_| pointer if |range| has become selected after
877 // merges.
878 if (transfer_current_position)
879 SetSelectedRange(range_with_new_buffers);
881 if (next_range_itr == range_for_next_append_)
882 range_for_next_append_ = range_with_new_buffers_itr;
884 DeleteAndRemoveRange(&next_range_itr);
887 void SourceBufferStream::Seek(base::TimeDelta timestamp) {
888 DCHECK(timestamp >= base::TimeDelta());
889 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
890 << " (" << timestamp.InSecondsF() << ")";
891 ResetSeekState();
893 if (ShouldSeekToStartOfBuffered(timestamp)) {
894 ranges_.front()->SeekToStart();
895 SetSelectedRange(ranges_.front());
896 seek_pending_ = false;
897 return;
900 seek_buffer_timestamp_ = timestamp;
901 seek_pending_ = true;
903 DecodeTimestamp seek_dts = DecodeTimestamp::FromPresentationTime(timestamp);
905 RangeList::iterator itr = ranges_.end();
906 for (itr = ranges_.begin(); itr != ranges_.end(); ++itr) {
907 if ((*itr)->CanSeekTo(seek_dts))
908 break;
911 if (itr == ranges_.end())
912 return;
914 SeekAndSetSelectedRange(*itr, seek_dts);
915 seek_pending_ = false;
918 bool SourceBufferStream::IsSeekPending() const {
919 return !(end_of_stream_ && IsEndSelected()) && seek_pending_;
922 void SourceBufferStream::OnSetDuration(base::TimeDelta duration) {
923 DecodeTimestamp duration_dts =
924 DecodeTimestamp::FromPresentationTime(duration);
925 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
926 << " (" << duration.InSecondsF() << ")";
928 RangeList::iterator itr = ranges_.end();
929 for (itr = ranges_.begin(); itr != ranges_.end(); ++itr) {
930 if ((*itr)->GetEndTimestamp() > duration_dts)
931 break;
933 if (itr == ranges_.end())
934 return;
936 // Need to partially truncate this range.
937 if ((*itr)->GetStartTimestamp() < duration_dts) {
938 bool delete_range = (*itr)->TruncateAt(duration_dts, NULL, false);
939 if ((*itr == selected_range_) && !selected_range_->HasNextBufferPosition())
940 SetSelectedRange(NULL);
942 if (delete_range) {
943 DeleteAndRemoveRange(&itr);
944 } else {
945 ++itr;
949 // Delete all ranges that begin after |duration_dts|.
950 while (itr != ranges_.end()) {
951 // If we're about to delete the selected range, also reset the seek state.
952 DCHECK((*itr)->GetStartTimestamp() >= duration_dts);
953 if (*itr == selected_range_)
954 ResetSeekState();
955 DeleteAndRemoveRange(&itr);
959 SourceBufferStream::Status SourceBufferStream::GetNextBuffer(
960 scoped_refptr<StreamParserBuffer>* out_buffer) {
961 if (!pending_buffer_.get()) {
962 const SourceBufferStream::Status status = GetNextBufferInternal(out_buffer);
963 if (status != SourceBufferStream::kSuccess || !SetPendingBuffer(out_buffer))
964 return status;
967 if (!pending_buffer_->splice_buffers().empty())
968 return HandleNextBufferWithSplice(out_buffer);
970 DCHECK(pending_buffer_->preroll_buffer().get());
971 return HandleNextBufferWithPreroll(out_buffer);
974 SourceBufferStream::Status SourceBufferStream::HandleNextBufferWithSplice(
975 scoped_refptr<StreamParserBuffer>* out_buffer) {
976 const BufferQueue& splice_buffers = pending_buffer_->splice_buffers();
977 const size_t last_splice_buffer_index = splice_buffers.size() - 1;
979 // Are there any splice buffers left to hand out? The last buffer should be
980 // handed out separately since it represents the first post-splice buffer.
981 if (splice_buffers_index_ < last_splice_buffer_index) {
982 // Account for config changes which occur between fade out buffers.
983 if (current_config_index_ !=
984 splice_buffers[splice_buffers_index_]->GetConfigId()) {
985 config_change_pending_ = true;
986 DVLOG(1) << "Config change (splice buffer config ID does not match).";
987 return SourceBufferStream::kConfigChange;
990 // Every pre splice buffer must have the same splice_timestamp().
991 DCHECK(pending_buffer_->splice_timestamp() ==
992 splice_buffers[splice_buffers_index_]->splice_timestamp());
994 // No pre splice buffers should have preroll.
995 DCHECK(!splice_buffers[splice_buffers_index_]->preroll_buffer().get());
997 *out_buffer = splice_buffers[splice_buffers_index_++];
998 return SourceBufferStream::kSuccess;
1001 // Did we hand out the last pre-splice buffer on the previous call?
1002 if (!pending_buffers_complete_) {
1003 DCHECK_EQ(splice_buffers_index_, last_splice_buffer_index);
1004 pending_buffers_complete_ = true;
1005 config_change_pending_ = true;
1006 DVLOG(1) << "Config change (forced for fade in of splice frame).";
1007 return SourceBufferStream::kConfigChange;
1010 // All pre-splice buffers have been handed out and a config change completed,
1011 // so hand out the final buffer for fade in. Because a config change is
1012 // always issued prior to handing out this buffer, any changes in config id
1013 // have been inherently handled.
1014 DCHECK(pending_buffers_complete_);
1015 DCHECK_EQ(splice_buffers_index_, splice_buffers.size() - 1);
1016 DCHECK(splice_buffers.back()->splice_timestamp() == kNoTimestamp());
1017 *out_buffer = splice_buffers.back();
1018 pending_buffer_ = NULL;
1020 // If the last splice buffer has preroll, hand off to the preroll handler.
1021 return SetPendingBuffer(out_buffer) ? HandleNextBufferWithPreroll(out_buffer)
1022 : SourceBufferStream::kSuccess;
1025 SourceBufferStream::Status SourceBufferStream::HandleNextBufferWithPreroll(
1026 scoped_refptr<StreamParserBuffer>* out_buffer) {
1027 // Any config change should have already been handled.
1028 DCHECK_EQ(current_config_index_, pending_buffer_->GetConfigId());
1030 // Check if the preroll buffer has already been handed out.
1031 if (!pending_buffers_complete_) {
1032 pending_buffers_complete_ = true;
1033 *out_buffer = pending_buffer_->preroll_buffer();
1034 return SourceBufferStream::kSuccess;
1037 // Preroll complete, hand out the final buffer.
1038 *out_buffer = pending_buffer_;
1039 pending_buffer_ = NULL;
1040 return SourceBufferStream::kSuccess;
1043 SourceBufferStream::Status SourceBufferStream::GetNextBufferInternal(
1044 scoped_refptr<StreamParserBuffer>* out_buffer) {
1045 CHECK(!config_change_pending_);
1047 if (!track_buffer_.empty()) {
1048 DCHECK(!selected_range_);
1049 scoped_refptr<StreamParserBuffer>& next_buffer = track_buffer_.front();
1051 // If the next buffer is an audio splice frame, the next effective config id
1052 // comes from the first splice buffer.
1053 if (next_buffer->GetSpliceBufferConfigId(0) != current_config_index_) {
1054 config_change_pending_ = true;
1055 DVLOG(1) << "Config change (track buffer config ID does not match).";
1056 return kConfigChange;
1059 *out_buffer = next_buffer;
1060 track_buffer_.pop_front();
1061 last_output_buffer_timestamp_ = (*out_buffer)->GetDecodeTimestamp();
1063 // If the track buffer becomes empty, then try to set the selected range
1064 // based on the timestamp of this buffer being returned.
1065 if (track_buffer_.empty())
1066 SetSelectedRangeIfNeeded(last_output_buffer_timestamp_);
1068 return kSuccess;
1071 if (!selected_range_ || !selected_range_->HasNextBuffer()) {
1072 if (end_of_stream_ && IsEndSelected())
1073 return kEndOfStream;
1074 DVLOG(3) << __FUNCTION__ << " " << GetStreamTypeName()
1075 << ": returning kNeedBuffer "
1076 << (selected_range_ ? "(selected range has no next buffer)"
1077 : "(no selected range)");
1078 return kNeedBuffer;
1081 if (selected_range_->GetNextConfigId() != current_config_index_) {
1082 config_change_pending_ = true;
1083 DVLOG(1) << "Config change (selected range config ID does not match).";
1084 return kConfigChange;
1087 CHECK(selected_range_->GetNextBuffer(out_buffer));
1088 last_output_buffer_timestamp_ = (*out_buffer)->GetDecodeTimestamp();
1089 return kSuccess;
1092 DecodeTimestamp SourceBufferStream::GetNextBufferTimestamp() {
1093 if (!track_buffer_.empty())
1094 return track_buffer_.front()->GetDecodeTimestamp();
1096 if (!selected_range_)
1097 return kNoDecodeTimestamp();
1099 DCHECK(selected_range_->HasNextBufferPosition());
1100 return selected_range_->GetNextTimestamp();
1103 SourceBufferStream::RangeList::iterator
1104 SourceBufferStream::FindExistingRangeFor(DecodeTimestamp start_timestamp) {
1105 for (RangeList::iterator itr = ranges_.begin(); itr != ranges_.end(); ++itr) {
1106 if ((*itr)->BelongsToRange(start_timestamp))
1107 return itr;
1109 return ranges_.end();
1112 SourceBufferStream::RangeList::iterator
1113 SourceBufferStream::AddToRanges(SourceBufferRange* new_range) {
1114 DecodeTimestamp start_timestamp = new_range->GetStartTimestamp();
1115 RangeList::iterator itr = ranges_.end();
1116 for (itr = ranges_.begin(); itr != ranges_.end(); ++itr) {
1117 if ((*itr)->GetStartTimestamp() > start_timestamp)
1118 break;
1120 return ranges_.insert(itr, new_range);
1123 SourceBufferStream::RangeList::iterator
1124 SourceBufferStream::GetSelectedRangeItr() {
1125 DCHECK(selected_range_);
1126 RangeList::iterator itr = ranges_.end();
1127 for (itr = ranges_.begin(); itr != ranges_.end(); ++itr) {
1128 if (*itr == selected_range_)
1129 break;
1131 DCHECK(itr != ranges_.end());
1132 return itr;
1135 void SourceBufferStream::SeekAndSetSelectedRange(
1136 SourceBufferRange* range, DecodeTimestamp seek_timestamp) {
1137 if (range)
1138 range->Seek(seek_timestamp);
1139 SetSelectedRange(range);
1142 void SourceBufferStream::SetSelectedRange(SourceBufferRange* range) {
1143 DVLOG(1) << __FUNCTION__ << " " << GetStreamTypeName()
1144 << ": " << selected_range_ << " -> " << range;
1145 if (selected_range_)
1146 selected_range_->ResetNextBufferPosition();
1147 DCHECK(!range || range->HasNextBufferPosition());
1148 selected_range_ = range;
1151 Ranges<base::TimeDelta> SourceBufferStream::GetBufferedTime() const {
1152 Ranges<base::TimeDelta> ranges;
1153 for (RangeList::const_iterator itr = ranges_.begin();
1154 itr != ranges_.end(); ++itr) {
1155 ranges.Add((*itr)->GetStartTimestamp().ToPresentationTime(),
1156 (*itr)->GetBufferedEndTimestamp().ToPresentationTime());
1158 return ranges;
1161 base::TimeDelta SourceBufferStream::GetBufferedDuration() const {
1162 if (ranges_.empty())
1163 return base::TimeDelta();
1165 return ranges_.back()->GetBufferedEndTimestamp().ToPresentationTime();
1168 void SourceBufferStream::MarkEndOfStream() {
1169 DCHECK(!end_of_stream_);
1170 end_of_stream_ = true;
1173 void SourceBufferStream::UnmarkEndOfStream() {
1174 DCHECK(end_of_stream_);
1175 end_of_stream_ = false;
1178 bool SourceBufferStream::IsEndSelected() const {
1179 if (ranges_.empty())
1180 return true;
1182 if (seek_pending_) {
1183 base::TimeDelta last_range_end_time =
1184 ranges_.back()->GetBufferedEndTimestamp().ToPresentationTime();
1185 return seek_buffer_timestamp_ >= last_range_end_time;
1188 return selected_range_ == ranges_.back();
1191 const AudioDecoderConfig& SourceBufferStream::GetCurrentAudioDecoderConfig() {
1192 if (config_change_pending_)
1193 CompleteConfigChange();
1194 return audio_configs_[current_config_index_];
1197 const VideoDecoderConfig& SourceBufferStream::GetCurrentVideoDecoderConfig() {
1198 if (config_change_pending_)
1199 CompleteConfigChange();
1200 return video_configs_[current_config_index_];
1203 const TextTrackConfig& SourceBufferStream::GetCurrentTextTrackConfig() {
1204 return text_track_config_;
1207 base::TimeDelta SourceBufferStream::GetMaxInterbufferDistance() const {
1208 if (max_interbuffer_distance_ == kNoTimestamp())
1209 return base::TimeDelta::FromMilliseconds(kDefaultBufferDurationInMs);
1210 return max_interbuffer_distance_;
1213 bool SourceBufferStream::UpdateAudioConfig(const AudioDecoderConfig& config) {
1214 DCHECK(!audio_configs_.empty());
1215 DCHECK(video_configs_.empty());
1216 DVLOG(3) << "UpdateAudioConfig.";
1218 if (audio_configs_[0].codec() != config.codec()) {
1219 MEDIA_LOG(log_cb_) << "Audio codec changes not allowed.";
1220 return false;
1223 if (audio_configs_[0].is_encrypted() != config.is_encrypted()) {
1224 MEDIA_LOG(log_cb_) << "Audio encryption changes not allowed.";
1225 return false;
1228 // Check to see if the new config matches an existing one.
1229 for (size_t i = 0; i < audio_configs_.size(); ++i) {
1230 if (config.Matches(audio_configs_[i])) {
1231 append_config_index_ = i;
1232 return true;
1236 // No matches found so let's add this one to the list.
1237 append_config_index_ = audio_configs_.size();
1238 DVLOG(2) << "New audio config - index: " << append_config_index_;
1239 audio_configs_.resize(audio_configs_.size() + 1);
1240 audio_configs_[append_config_index_] = config;
1241 return true;
1244 bool SourceBufferStream::UpdateVideoConfig(const VideoDecoderConfig& config) {
1245 DCHECK(!video_configs_.empty());
1246 DCHECK(audio_configs_.empty());
1247 DVLOG(3) << "UpdateVideoConfig.";
1249 if (video_configs_[0].codec() != config.codec()) {
1250 MEDIA_LOG(log_cb_) << "Video codec changes not allowed.";
1251 return false;
1254 if (video_configs_[0].is_encrypted() != config.is_encrypted()) {
1255 MEDIA_LOG(log_cb_) << "Video encryption changes not allowed.";
1256 return false;
1259 // Check to see if the new config matches an existing one.
1260 for (size_t i = 0; i < video_configs_.size(); ++i) {
1261 if (config.Matches(video_configs_[i])) {
1262 append_config_index_ = i;
1263 return true;
1267 // No matches found so let's add this one to the list.
1268 append_config_index_ = video_configs_.size();
1269 DVLOG(2) << "New video config - index: " << append_config_index_;
1270 video_configs_.resize(video_configs_.size() + 1);
1271 video_configs_[append_config_index_] = config;
1272 return true;
1275 void SourceBufferStream::CompleteConfigChange() {
1276 config_change_pending_ = false;
1278 if (pending_buffer_.get()) {
1279 current_config_index_ =
1280 pending_buffer_->GetSpliceBufferConfigId(splice_buffers_index_);
1281 return;
1284 if (!track_buffer_.empty()) {
1285 current_config_index_ = track_buffer_.front()->GetSpliceBufferConfigId(0);
1286 return;
1289 if (selected_range_ && selected_range_->HasNextBuffer())
1290 current_config_index_ = selected_range_->GetNextConfigId();
1293 void SourceBufferStream::SetSelectedRangeIfNeeded(
1294 const DecodeTimestamp timestamp) {
1295 DVLOG(2) << __FUNCTION__ << " " << GetStreamTypeName()
1296 << "(" << timestamp.InSecondsF() << ")";
1298 if (selected_range_) {
1299 DCHECK(track_buffer_.empty());
1300 return;
1303 if (!track_buffer_.empty()) {
1304 DCHECK(!selected_range_);
1305 return;
1308 DecodeTimestamp start_timestamp = timestamp;
1310 // If the next buffer timestamp is not known then use a timestamp just after
1311 // the timestamp on the last buffer returned by GetNextBuffer().
1312 if (start_timestamp == kNoDecodeTimestamp()) {
1313 if (last_output_buffer_timestamp_ == kNoDecodeTimestamp()) {
1314 DVLOG(2) << __FUNCTION__ << " " << GetStreamTypeName()
1315 << " no previous output timestamp";
1316 return;
1319 start_timestamp = last_output_buffer_timestamp_ +
1320 base::TimeDelta::FromInternalValue(1);
1323 DecodeTimestamp seek_timestamp =
1324 FindNewSelectedRangeSeekTimestamp(start_timestamp);
1326 // If we don't have buffered data to seek to, then return.
1327 if (seek_timestamp == kNoDecodeTimestamp()) {
1328 DVLOG(2) << __FUNCTION__ << " " << GetStreamTypeName()
1329 << " couldn't find new selected range seek timestamp";
1330 return;
1333 DCHECK(track_buffer_.empty());
1334 SeekAndSetSelectedRange(*FindExistingRangeFor(seek_timestamp),
1335 seek_timestamp);
1338 DecodeTimestamp SourceBufferStream::FindNewSelectedRangeSeekTimestamp(
1339 const DecodeTimestamp start_timestamp) {
1340 DCHECK(start_timestamp != kNoDecodeTimestamp());
1341 DCHECK(start_timestamp >= DecodeTimestamp());
1343 RangeList::iterator itr = ranges_.begin();
1345 for (; itr != ranges_.end(); ++itr) {
1346 if ((*itr)->GetEndTimestamp() >= start_timestamp) {
1347 break;
1351 if (itr == ranges_.end()) {
1352 DVLOG(2) << __FUNCTION__ << " " << GetStreamTypeName()
1353 << " no buffered data for dts=" << start_timestamp.InSecondsF();
1354 return kNoDecodeTimestamp();
1357 // First check for a keyframe timestamp >= |start_timestamp|
1358 // in the current range.
1359 DecodeTimestamp keyframe_timestamp =
1360 (*itr)->NextKeyframeTimestamp(start_timestamp);
1362 if (keyframe_timestamp != kNoDecodeTimestamp())
1363 return keyframe_timestamp;
1365 // If a keyframe was not found then look for a keyframe that is
1366 // "close enough" in the current or next range.
1367 DecodeTimestamp end_timestamp =
1368 start_timestamp + ComputeFudgeRoom(GetMaxInterbufferDistance());
1369 DCHECK(start_timestamp < end_timestamp);
1371 // Make sure the current range doesn't start beyond |end_timestamp|.
1372 if ((*itr)->GetStartTimestamp() >= end_timestamp)
1373 return kNoDecodeTimestamp();
1375 keyframe_timestamp = (*itr)->KeyframeBeforeTimestamp(end_timestamp);
1377 // Check to see if the keyframe is within the acceptable range
1378 // (|start_timestamp|, |end_timestamp|].
1379 if (keyframe_timestamp != kNoDecodeTimestamp() &&
1380 start_timestamp < keyframe_timestamp &&
1381 keyframe_timestamp <= end_timestamp) {
1382 return keyframe_timestamp;
1385 // If |end_timestamp| is within this range, then no other checks are
1386 // necessary.
1387 if (end_timestamp <= (*itr)->GetEndTimestamp())
1388 return kNoDecodeTimestamp();
1390 // Move on to the next range.
1391 ++itr;
1393 // Return early if the next range does not contain |end_timestamp|.
1394 if (itr == ranges_.end() || (*itr)->GetStartTimestamp() >= end_timestamp)
1395 return kNoDecodeTimestamp();
1397 keyframe_timestamp = (*itr)->KeyframeBeforeTimestamp(end_timestamp);
1399 // Check to see if the keyframe is within the acceptable range
1400 // (|start_timestamp|, |end_timestamp|].
1401 if (keyframe_timestamp != kNoDecodeTimestamp() &&
1402 start_timestamp < keyframe_timestamp &&
1403 keyframe_timestamp <= end_timestamp) {
1404 return keyframe_timestamp;
1407 return kNoDecodeTimestamp();
1410 DecodeTimestamp SourceBufferStream::FindKeyframeAfterTimestamp(
1411 const DecodeTimestamp timestamp) {
1412 DCHECK(timestamp != kNoDecodeTimestamp());
1414 RangeList::iterator itr = FindExistingRangeFor(timestamp);
1416 if (itr == ranges_.end())
1417 return kNoDecodeTimestamp();
1419 // First check for a keyframe timestamp >= |timestamp|
1420 // in the current range.
1421 return (*itr)->NextKeyframeTimestamp(timestamp);
1424 std::string SourceBufferStream::GetStreamTypeName() const {
1425 switch (GetType()) {
1426 case kAudio:
1427 return "AUDIO";
1428 case kVideo:
1429 return "VIDEO";
1430 case kText:
1431 return "TEXT";
1433 NOTREACHED();
1434 return "";
1437 SourceBufferStream::Type SourceBufferStream::GetType() const {
1438 if (!audio_configs_.empty())
1439 return kAudio;
1440 if (!video_configs_.empty())
1441 return kVideo;
1442 DCHECK_NE(text_track_config_.kind(), kTextNone);
1443 return kText;
1446 void SourceBufferStream::DeleteAndRemoveRange(RangeList::iterator* itr) {
1447 DVLOG(1) << __FUNCTION__;
1449 DCHECK(*itr != ranges_.end());
1450 if (**itr == selected_range_) {
1451 DVLOG(1) << __FUNCTION__ << " deleting selected range.";
1452 SetSelectedRange(NULL);
1455 if (*itr == range_for_next_append_) {
1456 DVLOG(1) << __FUNCTION__ << " deleting range_for_next_append_.";
1457 range_for_next_append_ = ranges_.end();
1458 last_appended_buffer_timestamp_ = kNoDecodeTimestamp();
1459 last_appended_buffer_is_keyframe_ = false;
1462 delete **itr;
1463 *itr = ranges_.erase(*itr);
1466 void SourceBufferStream::GenerateSpliceFrame(const BufferQueue& new_buffers) {
1467 DCHECK(!new_buffers.empty());
1469 // Splice frames are only supported for audio.
1470 if (GetType() != kAudio)
1471 return;
1473 // Find the overlapped range (if any).
1474 const base::TimeDelta splice_timestamp = new_buffers.front()->timestamp();
1475 const DecodeTimestamp splice_dts =
1476 DecodeTimestamp::FromPresentationTime(splice_timestamp);
1477 RangeList::iterator range_itr = FindExistingRangeFor(splice_dts);
1478 if (range_itr == ranges_.end())
1479 return;
1481 const DecodeTimestamp max_splice_end_dts =
1482 splice_dts + base::TimeDelta::FromMilliseconds(
1483 AudioSplicer::kCrossfadeDurationInMilliseconds);
1485 // Find all buffers involved before the splice point.
1486 BufferQueue pre_splice_buffers;
1487 if (!(*range_itr)->GetBuffersInRange(
1488 splice_dts, max_splice_end_dts, &pre_splice_buffers)) {
1489 return;
1492 // If there are gaps in the timeline, it's possible that we only find buffers
1493 // after the splice point but within the splice range. For simplicity, we do
1494 // not generate splice frames in this case.
1496 // We also do not want to generate splices if the first new buffer replaces an
1497 // existing buffer exactly.
1498 if (pre_splice_buffers.front()->timestamp() >= splice_timestamp)
1499 return;
1501 // If any |pre_splice_buffers| are already splices or preroll, do not generate
1502 // a splice.
1503 for (size_t i = 0; i < pre_splice_buffers.size(); ++i) {
1504 const BufferQueue& original_splice_buffers =
1505 pre_splice_buffers[i]->splice_buffers();
1506 if (!original_splice_buffers.empty()) {
1507 DVLOG(1) << "Can't generate splice: overlapped buffers contain a "
1508 "pre-existing splice.";
1509 return;
1512 if (pre_splice_buffers[i]->preroll_buffer().get()) {
1513 DVLOG(1) << "Can't generate splice: overlapped buffers contain preroll.";
1514 return;
1518 // Don't generate splice frames which represent less than two frames, since we
1519 // need at least that much to generate a crossfade. Per the spec, make this
1520 // check using the sample rate of the overlapping buffers.
1521 const base::TimeDelta splice_duration =
1522 pre_splice_buffers.back()->timestamp() +
1523 pre_splice_buffers.back()->duration() - splice_timestamp;
1524 const base::TimeDelta minimum_splice_duration = base::TimeDelta::FromSecondsD(
1525 2.0 / audio_configs_[append_config_index_].samples_per_second());
1526 if (splice_duration < minimum_splice_duration) {
1527 DVLOG(1) << "Can't generate splice: not enough samples for crossfade; have "
1528 << splice_duration.InMicroseconds() << " us, but need "
1529 << minimum_splice_duration.InMicroseconds() << " us.";
1530 return;
1533 new_buffers.front()->ConvertToSpliceBuffer(pre_splice_buffers);
1536 bool SourceBufferStream::SetPendingBuffer(
1537 scoped_refptr<StreamParserBuffer>* out_buffer) {
1538 DCHECK(out_buffer->get());
1539 DCHECK(!pending_buffer_.get());
1541 const bool have_splice_buffers = !(*out_buffer)->splice_buffers().empty();
1542 const bool have_preroll_buffer = !!(*out_buffer)->preroll_buffer().get();
1544 if (!have_splice_buffers && !have_preroll_buffer)
1545 return false;
1547 DCHECK_NE(have_splice_buffers, have_preroll_buffer);
1548 splice_buffers_index_ = 0;
1549 pending_buffer_.swap(*out_buffer);
1550 pending_buffers_complete_ = false;
1551 return true;
1554 } // namespace media