Updating XTBs based on .GRDs from branch master
[chromium-blink-merge.git] / media / cast / sender / h264_vt_encoder.cc
blob53aaf658c415061752476f45c4b85243b1f2df05
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/cast/sender/h264_vt_encoder.h"
7 #include <string>
8 #include <vector>
10 #include "base/big_endian.h"
11 #include "base/bind.h"
12 #include "base/bind_helpers.h"
13 #include "base/location.h"
14 #include "base/logging.h"
15 #include "base/macros.h"
16 #include "base/power_monitor/power_monitor.h"
17 #include "base/synchronization/lock.h"
18 #include "media/base/mac/corevideo_glue.h"
19 #include "media/base/mac/video_frame_mac.h"
20 #include "media/cast/sender/video_frame_factory.h"
22 namespace media {
23 namespace cast {
25 namespace {
27 // Container for the associated data of a video frame being processed.
28 struct InProgressFrameEncode {
29 const RtpTimestamp rtp_timestamp;
30 const base::TimeTicks reference_time;
31 const VideoEncoder::FrameEncodedCallback frame_encoded_callback;
33 InProgressFrameEncode(RtpTimestamp rtp,
34 base::TimeTicks r_time,
35 VideoEncoder::FrameEncodedCallback callback)
36 : rtp_timestamp(rtp),
37 reference_time(r_time),
38 frame_encoded_callback(callback) {}
41 base::ScopedCFTypeRef<CFDictionaryRef>
42 DictionaryWithKeysAndValues(CFTypeRef* keys, CFTypeRef* values, size_t size) {
43 return base::ScopedCFTypeRef<CFDictionaryRef>(CFDictionaryCreate(
44 kCFAllocatorDefault, keys, values, size, &kCFTypeDictionaryKeyCallBacks,
45 &kCFTypeDictionaryValueCallBacks));
48 base::ScopedCFTypeRef<CFDictionaryRef> DictionaryWithKeyValue(CFTypeRef key,
49 CFTypeRef value) {
50 CFTypeRef keys[1] = {key};
51 CFTypeRef values[1] = {value};
52 return DictionaryWithKeysAndValues(keys, values, 1);
55 base::ScopedCFTypeRef<CFArrayRef> ArrayWithIntegers(const int* v, size_t size) {
56 std::vector<CFNumberRef> numbers;
57 numbers.reserve(size);
58 for (const int* end = v + size; v < end; ++v)
59 numbers.push_back(CFNumberCreate(nullptr, kCFNumberSInt32Type, v));
60 base::ScopedCFTypeRef<CFArrayRef> array(CFArrayCreate(
61 kCFAllocatorDefault, reinterpret_cast<const void**>(&numbers[0]),
62 numbers.size(), &kCFTypeArrayCallBacks));
63 for (auto& number : numbers) {
64 CFRelease(number);
66 return array;
69 template <typename NalSizeType>
70 void CopyNalsToAnnexB(char* avcc_buffer,
71 const size_t avcc_size,
72 std::string* annexb_buffer) {
73 static_assert(sizeof(NalSizeType) == 1 || sizeof(NalSizeType) == 2 ||
74 sizeof(NalSizeType) == 4,
75 "NAL size type has unsupported size");
76 static const char startcode_3[3] = {0, 0, 1};
77 DCHECK(avcc_buffer);
78 DCHECK(annexb_buffer);
79 size_t bytes_left = avcc_size;
80 while (bytes_left > 0) {
81 DCHECK_GT(bytes_left, sizeof(NalSizeType));
82 NalSizeType nal_size;
83 base::ReadBigEndian(avcc_buffer, &nal_size);
84 bytes_left -= sizeof(NalSizeType);
85 avcc_buffer += sizeof(NalSizeType);
87 DCHECK_GE(bytes_left, nal_size);
88 annexb_buffer->append(startcode_3, sizeof(startcode_3));
89 annexb_buffer->append(avcc_buffer, nal_size);
90 bytes_left -= nal_size;
91 avcc_buffer += nal_size;
95 // Copy a H.264 frame stored in a CM sample buffer to an Annex B buffer. Copies
96 // parameter sets for keyframes before the frame data as well.
97 void CopySampleBufferToAnnexBBuffer(CoreMediaGlue::CMSampleBufferRef sbuf,
98 std::string* annexb_buffer,
99 bool keyframe) {
100 // Perform two pass, one to figure out the total output size, and another to
101 // copy the data after having performed a single output allocation. Note that
102 // we'll allocate a bit more because we'll count 4 bytes instead of 3 for
103 // video NALs.
105 OSStatus status;
107 // Get the sample buffer's block buffer and format description.
108 auto bb = CoreMediaGlue::CMSampleBufferGetDataBuffer(sbuf);
109 DCHECK(bb);
110 auto fdesc = CoreMediaGlue::CMSampleBufferGetFormatDescription(sbuf);
111 DCHECK(fdesc);
113 size_t bb_size = CoreMediaGlue::CMBlockBufferGetDataLength(bb);
114 size_t total_bytes = bb_size;
116 size_t pset_count;
117 int nal_size_field_bytes;
118 status = CoreMediaGlue::CMVideoFormatDescriptionGetH264ParameterSetAtIndex(
119 fdesc, 0, nullptr, nullptr, &pset_count, &nal_size_field_bytes);
120 if (status ==
121 CoreMediaGlue::kCMFormatDescriptionBridgeError_InvalidParameter) {
122 DLOG(WARNING) << " assuming 2 parameter sets and 4 bytes NAL length header";
123 pset_count = 2;
124 nal_size_field_bytes = 4;
125 } else if (status != noErr) {
126 DLOG(ERROR)
127 << " CMVideoFormatDescriptionGetH264ParameterSetAtIndex failed: "
128 << status;
129 return;
132 if (keyframe) {
133 const uint8_t* pset;
134 size_t pset_size;
135 for (size_t pset_i = 0; pset_i < pset_count; ++pset_i) {
136 status =
137 CoreMediaGlue::CMVideoFormatDescriptionGetH264ParameterSetAtIndex(
138 fdesc, pset_i, &pset, &pset_size, nullptr, nullptr);
139 if (status != noErr) {
140 DLOG(ERROR)
141 << " CMVideoFormatDescriptionGetH264ParameterSetAtIndex failed: "
142 << status;
143 return;
145 total_bytes += pset_size + nal_size_field_bytes;
149 annexb_buffer->reserve(total_bytes);
151 // Copy all parameter sets before keyframes.
152 if (keyframe) {
153 const uint8_t* pset;
154 size_t pset_size;
155 for (size_t pset_i = 0; pset_i < pset_count; ++pset_i) {
156 status =
157 CoreMediaGlue::CMVideoFormatDescriptionGetH264ParameterSetAtIndex(
158 fdesc, pset_i, &pset, &pset_size, nullptr, nullptr);
159 if (status != noErr) {
160 DLOG(ERROR)
161 << " CMVideoFormatDescriptionGetH264ParameterSetAtIndex failed: "
162 << status;
163 return;
165 static const char startcode_4[4] = {0, 0, 0, 1};
166 annexb_buffer->append(startcode_4, sizeof(startcode_4));
167 annexb_buffer->append(reinterpret_cast<const char*>(pset), pset_size);
171 // Block buffers can be composed of non-contiguous chunks. For the sake of
172 // keeping this code simple, flatten non-contiguous block buffers.
173 base::ScopedCFTypeRef<CoreMediaGlue::CMBlockBufferRef> contiguous_bb(
174 bb, base::scoped_policy::RETAIN);
175 if (!CoreMediaGlue::CMBlockBufferIsRangeContiguous(bb, 0, 0)) {
176 contiguous_bb.reset();
177 status = CoreMediaGlue::CMBlockBufferCreateContiguous(
178 kCFAllocatorDefault, bb, kCFAllocatorDefault, nullptr, 0, 0, 0,
179 contiguous_bb.InitializeInto());
180 if (status != noErr) {
181 DLOG(ERROR) << " CMBlockBufferCreateContiguous failed: " << status;
182 return;
186 // Copy all the NAL units. In the process convert them from AVCC format
187 // (length header) to AnnexB format (start code).
188 char* bb_data;
189 status = CoreMediaGlue::CMBlockBufferGetDataPointer(contiguous_bb, 0, nullptr,
190 nullptr, &bb_data);
191 if (status != noErr) {
192 DLOG(ERROR) << " CMBlockBufferGetDataPointer failed: " << status;
193 return;
196 if (nal_size_field_bytes == 1) {
197 CopyNalsToAnnexB<uint8_t>(bb_data, bb_size, annexb_buffer);
198 } else if (nal_size_field_bytes == 2) {
199 CopyNalsToAnnexB<uint16_t>(bb_data, bb_size, annexb_buffer);
200 } else if (nal_size_field_bytes == 4) {
201 CopyNalsToAnnexB<uint32_t>(bb_data, bb_size, annexb_buffer);
202 } else {
203 NOTREACHED();
207 } // namespace
209 class H264VideoToolboxEncoder::VideoFrameFactoryImpl
210 : public base::RefCountedThreadSafe<VideoFrameFactoryImpl>,
211 public VideoFrameFactory {
212 public:
213 // Type that proxies the VideoFrameFactory interface to this class.
214 class Proxy;
216 VideoFrameFactoryImpl(const base::WeakPtr<H264VideoToolboxEncoder>& encoder,
217 const scoped_refptr<CastEnvironment>& cast_environment)
218 : encoder_(encoder), cast_environment_(cast_environment) {}
220 scoped_refptr<VideoFrame> MaybeCreateFrame(
221 const gfx::Size& frame_size,
222 base::TimeDelta timestamp) final {
223 if (frame_size.IsEmpty()) {
224 DVLOG(1) << "Rejecting empty video frame.";
225 return nullptr;
228 base::AutoLock auto_lock(lock_);
230 // If the pool size does not match, speculatively reset the encoder to use
231 // the new size and return null. Cache the new frame size right away and
232 // toss away the pixel buffer pool to avoid spurious tasks until the encoder
233 // is done resetting.
234 if (frame_size != pool_frame_size_) {
235 DVLOG(1) << "MaybeCreateFrame: Detected frame size change.";
236 cast_environment_->PostTask(
237 CastEnvironment::MAIN, FROM_HERE,
238 base::Bind(&H264VideoToolboxEncoder::UpdateFrameSize, encoder_,
239 frame_size));
240 pool_frame_size_ = frame_size;
241 pool_.reset();
242 return nullptr;
245 if (!pool_) {
246 DVLOG(1) << "MaybeCreateFrame: No pixel buffer pool.";
247 return nullptr;
250 // Allocate a pixel buffer from the pool and return a wrapper VideoFrame.
251 base::ScopedCFTypeRef<CVPixelBufferRef> buffer;
252 auto status = CVPixelBufferPoolCreatePixelBuffer(kCFAllocatorDefault, pool_,
253 buffer.InitializeInto());
254 if (status != kCVReturnSuccess) {
255 DLOG(ERROR) << "CVPixelBufferPoolCreatePixelBuffer failed: " << status;
256 return nullptr;
259 DCHECK(buffer);
260 return VideoFrame::WrapCVPixelBuffer(buffer, timestamp);
263 void Update(const base::ScopedCFTypeRef<CVPixelBufferPoolRef>& pool,
264 const gfx::Size& frame_size) {
265 base::AutoLock auto_lock(lock_);
266 pool_ = pool;
267 pool_frame_size_ = frame_size;
270 private:
271 friend class base::RefCountedThreadSafe<VideoFrameFactoryImpl>;
272 ~VideoFrameFactoryImpl() final {}
274 base::Lock lock_;
275 base::ScopedCFTypeRef<CVPixelBufferPoolRef> pool_;
276 gfx::Size pool_frame_size_;
278 // Weak back reference to the encoder and the cast envrionment so we can
279 // message the encoder when the frame size changes.
280 const base::WeakPtr<H264VideoToolboxEncoder> encoder_;
281 const scoped_refptr<CastEnvironment> cast_environment_;
283 DISALLOW_COPY_AND_ASSIGN(VideoFrameFactoryImpl);
286 class H264VideoToolboxEncoder::VideoFrameFactoryImpl::Proxy
287 : public VideoFrameFactory {
288 public:
289 explicit Proxy(
290 const scoped_refptr<VideoFrameFactoryImpl>& video_frame_factory)
291 : video_frame_factory_(video_frame_factory) {
292 DCHECK(video_frame_factory_);
295 scoped_refptr<VideoFrame> MaybeCreateFrame(
296 const gfx::Size& frame_size,
297 base::TimeDelta timestamp) final {
298 return video_frame_factory_->MaybeCreateFrame(frame_size, timestamp);
301 private:
302 ~Proxy() final {}
304 const scoped_refptr<VideoFrameFactoryImpl> video_frame_factory_;
306 DISALLOW_COPY_AND_ASSIGN(Proxy);
309 // static
310 bool H264VideoToolboxEncoder::IsSupported(
311 const VideoSenderConfig& video_config) {
312 return video_config.codec == CODEC_VIDEO_H264 && VideoToolboxGlue::Get();
315 H264VideoToolboxEncoder::H264VideoToolboxEncoder(
316 const scoped_refptr<CastEnvironment>& cast_environment,
317 const VideoSenderConfig& video_config,
318 const StatusChangeCallback& status_change_cb)
319 : cast_environment_(cast_environment),
320 videotoolbox_glue_(VideoToolboxGlue::Get()),
321 video_config_(video_config),
322 status_change_cb_(status_change_cb),
323 last_frame_id_(kStartFrameId),
324 encode_next_frame_as_keyframe_(false),
325 power_suspended_(false),
326 weak_factory_(this) {
327 DCHECK(cast_environment_->CurrentlyOn(CastEnvironment::MAIN));
328 DCHECK(!status_change_cb_.is_null());
330 OperationalStatus operational_status =
331 H264VideoToolboxEncoder::IsSupported(video_config)
332 ? STATUS_INITIALIZED
333 : STATUS_UNSUPPORTED_CODEC;
334 cast_environment_->PostTask(
335 CastEnvironment::MAIN, FROM_HERE,
336 base::Bind(status_change_cb_, operational_status));
338 if (operational_status == STATUS_INITIALIZED) {
339 // Create the shared video frame factory. It persists for the combined
340 // lifetime of the encoder and all video frame factory proxies created by
341 // |CreateVideoFrameFactory| that reference it.
342 video_frame_factory_ =
343 scoped_refptr<VideoFrameFactoryImpl>(new VideoFrameFactoryImpl(
344 weak_factory_.GetWeakPtr(), cast_environment_));
346 // Register for power state changes.
347 auto power_monitor = base::PowerMonitor::Get();
348 if (power_monitor) {
349 power_monitor->AddObserver(this);
350 VLOG(1) << "Registered for power state changes.";
351 } else {
352 DLOG(WARNING) << "No power monitor. Process suspension will invalidate "
353 "the encoder.";
358 H264VideoToolboxEncoder::~H264VideoToolboxEncoder() {
359 DestroyCompressionSession();
361 // If video_frame_factory_ is not null, the encoder registered for power state
362 // changes in the ctor and it must now unregister.
363 if (video_frame_factory_) {
364 auto power_monitor = base::PowerMonitor::Get();
365 if (power_monitor)
366 power_monitor->RemoveObserver(this);
370 void H264VideoToolboxEncoder::ResetCompressionSession() {
371 DCHECK(thread_checker_.CalledOnValidThread());
373 // Ignore reset requests while power suspended.
374 if (power_suspended_)
375 return;
377 // Notify that we're resetting the encoder.
378 cast_environment_->PostTask(
379 CastEnvironment::MAIN, FROM_HERE,
380 base::Bind(status_change_cb_, STATUS_CODEC_REINIT_PENDING));
382 // Destroy the current session, if any.
383 DestroyCompressionSession();
385 // On OS X, allow the hardware encoder. Don't require it, it does not support
386 // all configurations (some of which are used for testing).
387 base::ScopedCFTypeRef<CFDictionaryRef> encoder_spec;
388 #if !defined(OS_IOS)
389 encoder_spec = DictionaryWithKeyValue(
390 videotoolbox_glue_
391 ->kVTVideoEncoderSpecification_EnableHardwareAcceleratedVideoEncoder(),
392 kCFBooleanTrue);
393 #endif
395 // Force 420v so that clients can easily use these buffers as GPU textures.
396 const int format[] = {
397 CoreVideoGlue::kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange};
399 // Keep these attachment settings in-sync with those in ConfigureSession().
400 CFTypeRef attachments_keys[] = {kCVImageBufferColorPrimariesKey,
401 kCVImageBufferTransferFunctionKey,
402 kCVImageBufferYCbCrMatrixKey};
403 CFTypeRef attachments_values[] = {kCVImageBufferColorPrimaries_ITU_R_709_2,
404 kCVImageBufferTransferFunction_ITU_R_709_2,
405 kCVImageBufferYCbCrMatrix_ITU_R_709_2};
406 CFTypeRef buffer_attributes_keys[] = {kCVPixelBufferPixelFormatTypeKey,
407 kCVBufferPropagatedAttachmentsKey};
408 CFTypeRef buffer_attributes_values[] = {
409 ArrayWithIntegers(format, arraysize(format)).release(),
410 DictionaryWithKeysAndValues(attachments_keys, attachments_values,
411 arraysize(attachments_keys)).release()};
412 const base::ScopedCFTypeRef<CFDictionaryRef> buffer_attributes =
413 DictionaryWithKeysAndValues(buffer_attributes_keys,
414 buffer_attributes_values,
415 arraysize(buffer_attributes_keys));
416 for (auto& v : buffer_attributes_values)
417 CFRelease(v);
419 // Create the compression session.
421 // Note that the encoder object is given to the compression session as the
422 // callback context using a raw pointer. The C API does not allow us to use a
423 // smart pointer, nor is this encoder ref counted. However, this is still
424 // safe, because we 1) we own the compression session and 2) we tear it down
425 // safely. When destructing the encoder, the compression session is flushed
426 // and invalidated. Internally, VideoToolbox will join all of its threads
427 // before returning to the client. Therefore, when control returns to us, we
428 // are guaranteed that the output callback will not execute again.
429 OSStatus status = videotoolbox_glue_->VTCompressionSessionCreate(
430 kCFAllocatorDefault, frame_size_.width(), frame_size_.height(),
431 CoreMediaGlue::kCMVideoCodecType_H264, encoder_spec, buffer_attributes,
432 nullptr /* compressedDataAllocator */,
433 &H264VideoToolboxEncoder::CompressionCallback,
434 reinterpret_cast<void*>(this), compression_session_.InitializeInto());
435 if (status != noErr) {
436 DLOG(ERROR) << " VTCompressionSessionCreate failed: " << status;
437 // Notify that reinitialization has failed.
438 cast_environment_->PostTask(
439 CastEnvironment::MAIN, FROM_HERE,
440 base::Bind(status_change_cb_, STATUS_CODEC_INIT_FAILED));
441 return;
444 // Configure the session (apply session properties based on the current state
445 // of the encoder, experimental tuning and requirements).
446 ConfigureCompressionSession();
448 // Update the video frame factory.
449 base::ScopedCFTypeRef<CVPixelBufferPoolRef> pool(
450 videotoolbox_glue_->VTCompressionSessionGetPixelBufferPool(
451 compression_session_),
452 base::scoped_policy::RETAIN);
453 video_frame_factory_->Update(pool, frame_size_);
455 // Notify that reinitialization is done.
456 cast_environment_->PostTask(
457 CastEnvironment::MAIN, FROM_HERE,
458 base::Bind(status_change_cb_, STATUS_INITIALIZED));
461 void H264VideoToolboxEncoder::ConfigureCompressionSession() {
462 SetSessionProperty(
463 videotoolbox_glue_->kVTCompressionPropertyKey_ProfileLevel(),
464 videotoolbox_glue_->kVTProfileLevel_H264_Main_AutoLevel());
465 SetSessionProperty(videotoolbox_glue_->kVTCompressionPropertyKey_RealTime(),
466 true);
467 SetSessionProperty(
468 videotoolbox_glue_->kVTCompressionPropertyKey_AllowFrameReordering(),
469 false);
470 SetSessionProperty(
471 videotoolbox_glue_->kVTCompressionPropertyKey_MaxKeyFrameInterval(), 240);
472 SetSessionProperty(
473 videotoolbox_glue_
474 ->kVTCompressionPropertyKey_MaxKeyFrameIntervalDuration(),
475 240);
476 // TODO(jfroy): implement better bitrate control
477 // https://crbug.com/425352
478 SetSessionProperty(
479 videotoolbox_glue_->kVTCompressionPropertyKey_AverageBitRate(),
480 (video_config_.min_bitrate + video_config_.max_bitrate) / 2);
481 SetSessionProperty(
482 videotoolbox_glue_->kVTCompressionPropertyKey_ExpectedFrameRate(),
483 video_config_.max_frame_rate);
484 // Keep these attachment settings in-sync with those in Initialize().
485 SetSessionProperty(
486 videotoolbox_glue_->kVTCompressionPropertyKey_ColorPrimaries(),
487 kCVImageBufferColorPrimaries_ITU_R_709_2);
488 SetSessionProperty(
489 videotoolbox_glue_->kVTCompressionPropertyKey_TransferFunction(),
490 kCVImageBufferTransferFunction_ITU_R_709_2);
491 SetSessionProperty(
492 videotoolbox_glue_->kVTCompressionPropertyKey_YCbCrMatrix(),
493 kCVImageBufferYCbCrMatrix_ITU_R_709_2);
494 if (video_config_.max_number_of_video_buffers_used > 0) {
495 SetSessionProperty(
496 videotoolbox_glue_->kVTCompressionPropertyKey_MaxFrameDelayCount(),
497 video_config_.max_number_of_video_buffers_used);
501 void H264VideoToolboxEncoder::DestroyCompressionSession() {
502 DCHECK(thread_checker_.CalledOnValidThread());
504 // If the compression session exists, invalidate it. This blocks until all
505 // pending output callbacks have returned and any internal threads have
506 // joined, ensuring no output callback ever sees a dangling encoder pointer.
508 // Before destroying the compression session, the video frame factory's pool
509 // is updated to null so that no thread will produce new video frames via the
510 // factory until a new compression session is created. The current frame size
511 // is passed to prevent the video frame factory from posting |UpdateFrameSize|
512 // tasks. Indeed, |DestroyCompressionSession| is either called from
513 // |ResetCompressionSession|, in which case a new pool and frame size will be
514 // set, or from callsites that require that there be no compression session
515 // (ex: the dtor).
516 if (compression_session_) {
517 video_frame_factory_->Update(
518 base::ScopedCFTypeRef<CVPixelBufferPoolRef>(nullptr), frame_size_);
519 videotoolbox_glue_->VTCompressionSessionInvalidate(compression_session_);
520 compression_session_.reset();
524 bool H264VideoToolboxEncoder::EncodeVideoFrame(
525 const scoped_refptr<media::VideoFrame>& video_frame,
526 const base::TimeTicks& reference_time,
527 const FrameEncodedCallback& frame_encoded_callback) {
528 DCHECK(thread_checker_.CalledOnValidThread());
529 DCHECK(!frame_encoded_callback.is_null());
531 // Reject empty video frames.
532 const gfx::Size frame_size = video_frame->visible_rect().size();
533 if (frame_size.IsEmpty()) {
534 DVLOG(1) << "Rejecting empty video frame.";
535 return false;
538 // Handle frame size changes. This will reset the compression session.
539 if (frame_size != frame_size_) {
540 DVLOG(1) << "EncodeVideoFrame: Detected frame size change.";
541 UpdateFrameSize(frame_size);
544 // Need a compression session to continue.
545 if (!compression_session_) {
546 DLOG(ERROR) << "No compression session.";
547 return false;
550 // Wrap the VideoFrame in a CVPixelBuffer. In all cases, no data will be
551 // copied. If the VideoFrame was created by this encoder's video frame
552 // factory, then the returned CVPixelBuffer will have been obtained from the
553 // compression session's pixel buffer pool. This will eliminate a copy of the
554 // frame into memory visible by the hardware encoder. The VideoFrame's
555 // lifetime is extended for the lifetime of the returned CVPixelBuffer.
556 auto pixel_buffer = media::WrapVideoFrameInCVPixelBuffer(*video_frame);
557 if (!pixel_buffer) {
558 DLOG(ERROR) << "WrapVideoFrameInCVPixelBuffer failed.";
559 return false;
562 // Convert the frame timestamp to CMTime.
563 auto timestamp_cm = CoreMediaGlue::CMTimeMake(
564 (reference_time - base::TimeTicks()).InMicroseconds(), USEC_PER_SEC);
566 // Wrap information we'll need after the frame is encoded in a heap object.
567 // We'll get the pointer back from the VideoToolbox completion callback.
568 scoped_ptr<InProgressFrameEncode> request(new InProgressFrameEncode(
569 TimeDeltaToRtpDelta(video_frame->timestamp(), kVideoFrequency),
570 reference_time, frame_encoded_callback));
572 // Build a suitable frame properties dictionary for keyframes.
573 base::ScopedCFTypeRef<CFDictionaryRef> frame_props;
574 if (encode_next_frame_as_keyframe_) {
575 frame_props = DictionaryWithKeyValue(
576 videotoolbox_glue_->kVTEncodeFrameOptionKey_ForceKeyFrame(),
577 kCFBooleanTrue);
578 encode_next_frame_as_keyframe_ = false;
581 // Submit the frame to the compression session. The function returns as soon
582 // as the frame has been enqueued.
583 OSStatus status = videotoolbox_glue_->VTCompressionSessionEncodeFrame(
584 compression_session_, pixel_buffer, timestamp_cm,
585 CoreMediaGlue::CMTime{0, 0, 0, 0}, frame_props,
586 reinterpret_cast<void*>(request.release()), nullptr);
587 if (status != noErr) {
588 DLOG(ERROR) << " VTCompressionSessionEncodeFrame failed: " << status;
589 return false;
592 return true;
595 void H264VideoToolboxEncoder::UpdateFrameSize(const gfx::Size& size_needed) {
596 DCHECK(thread_checker_.CalledOnValidThread());
598 // Our video frame factory posts a task to update the frame size when its
599 // cache of the frame size differs from what the client requested. To avoid
600 // spurious encoder resets, check again here.
601 if (size_needed == frame_size_) {
602 DCHECK(compression_session_);
603 return;
606 VLOG(1) << "Resetting compression session (for frame size change from "
607 << frame_size_.ToString() << " to " << size_needed.ToString() << ").";
609 // If there is an existing session, finish every pending frame.
610 if (compression_session_) {
611 EmitFrames();
614 // Store the new frame size.
615 frame_size_ = size_needed;
617 // Reset the compression session.
618 ResetCompressionSession();
621 void H264VideoToolboxEncoder::SetBitRate(int /*new_bit_rate*/) {
622 DCHECK(thread_checker_.CalledOnValidThread());
623 // VideoToolbox does not seem to support bitrate reconfiguration.
626 void H264VideoToolboxEncoder::GenerateKeyFrame() {
627 DCHECK(thread_checker_.CalledOnValidThread());
628 encode_next_frame_as_keyframe_ = true;
631 void H264VideoToolboxEncoder::LatestFrameIdToReference(uint32 /*frame_id*/) {
632 // Not supported by VideoToolbox in any meaningful manner.
635 scoped_ptr<VideoFrameFactory>
636 H264VideoToolboxEncoder::CreateVideoFrameFactory() {
637 DCHECK(thread_checker_.CalledOnValidThread());
638 return scoped_ptr<VideoFrameFactory>(
639 new VideoFrameFactoryImpl::Proxy(video_frame_factory_));
642 void H264VideoToolboxEncoder::EmitFrames() {
643 DCHECK(thread_checker_.CalledOnValidThread());
644 if (!compression_session_)
645 return;
647 OSStatus status = videotoolbox_glue_->VTCompressionSessionCompleteFrames(
648 compression_session_, CoreMediaGlue::CMTime{0, 0, 0, 0});
649 if (status != noErr) {
650 DLOG(ERROR) << " VTCompressionSessionCompleteFrames failed: " << status;
654 void H264VideoToolboxEncoder::OnSuspend() {
655 VLOG(1)
656 << "OnSuspend: Emitting all frames and destroying compression session.";
657 EmitFrames();
658 DestroyCompressionSession();
659 power_suspended_ = true;
662 void H264VideoToolboxEncoder::OnResume() {
663 power_suspended_ = false;
665 // Reset the compression session only if the frame size is not zero (which
666 // will obviously fail). It is possible for the frame size to be zero if no
667 // frame was submitted for encoding or requested from the video frame factory
668 // before suspension.
669 if (!frame_size_.IsEmpty()) {
670 VLOG(1) << "OnResume: Resetting compression session.";
671 ResetCompressionSession();
675 bool H264VideoToolboxEncoder::SetSessionProperty(CFStringRef key,
676 int32_t value) {
677 base::ScopedCFTypeRef<CFNumberRef> cfvalue(
678 CFNumberCreate(nullptr, kCFNumberSInt32Type, &value));
679 return videotoolbox_glue_->VTSessionSetProperty(compression_session_, key,
680 cfvalue) == noErr;
683 bool H264VideoToolboxEncoder::SetSessionProperty(CFStringRef key, bool value) {
684 CFBooleanRef cfvalue = (value) ? kCFBooleanTrue : kCFBooleanFalse;
685 return videotoolbox_glue_->VTSessionSetProperty(compression_session_, key,
686 cfvalue) == noErr;
689 bool H264VideoToolboxEncoder::SetSessionProperty(CFStringRef key,
690 CFStringRef value) {
691 return videotoolbox_glue_->VTSessionSetProperty(compression_session_, key,
692 value) == noErr;
695 void H264VideoToolboxEncoder::CompressionCallback(void* encoder_opaque,
696 void* request_opaque,
697 OSStatus status,
698 VTEncodeInfoFlags info,
699 CMSampleBufferRef sbuf) {
700 auto encoder = reinterpret_cast<H264VideoToolboxEncoder*>(encoder_opaque);
701 const scoped_ptr<InProgressFrameEncode> request(
702 reinterpret_cast<InProgressFrameEncode*>(request_opaque));
703 bool keyframe = false;
704 bool has_frame_data = false;
706 if (status != noErr) {
707 DLOG(ERROR) << " encoding failed: " << status;
708 encoder->cast_environment_->PostTask(
709 CastEnvironment::MAIN, FROM_HERE,
710 base::Bind(encoder->status_change_cb_, STATUS_CODEC_RUNTIME_ERROR));
711 } else if ((info & VideoToolboxGlue::kVTEncodeInfo_FrameDropped)) {
712 DVLOG(2) << " frame dropped";
713 } else {
714 auto sample_attachments =
715 static_cast<CFDictionaryRef>(CFArrayGetValueAtIndex(
716 CoreMediaGlue::CMSampleBufferGetSampleAttachmentsArray(sbuf, true),
717 0));
719 // If the NotSync key is not present, it implies Sync, which indicates a
720 // keyframe (at least I think, VT documentation is, erm, sparse). Could
721 // alternatively use kCMSampleAttachmentKey_DependsOnOthers == false.
722 keyframe = !CFDictionaryContainsKey(
723 sample_attachments,
724 CoreMediaGlue::kCMSampleAttachmentKey_NotSync());
725 has_frame_data = true;
728 // Increment the encoder-scoped frame id and assign the new value to this
729 // frame. VideoToolbox calls the output callback serially, so this is safe.
730 const uint32 frame_id = ++encoder->last_frame_id_;
732 scoped_ptr<SenderEncodedFrame> encoded_frame(new SenderEncodedFrame());
733 encoded_frame->frame_id = frame_id;
734 encoded_frame->reference_time = request->reference_time;
735 encoded_frame->rtp_timestamp = request->rtp_timestamp;
736 if (keyframe) {
737 encoded_frame->dependency = EncodedFrame::KEY;
738 encoded_frame->referenced_frame_id = frame_id;
739 } else {
740 encoded_frame->dependency = EncodedFrame::DEPENDENT;
741 // H.264 supports complex frame reference schemes (multiple reference
742 // frames, slice references, backward and forward references, etc). Cast
743 // doesn't support the concept of forward-referencing frame dependencies or
744 // multiple frame dependencies; so pretend that all frames are only
745 // decodable after their immediately preceding frame is decoded. This will
746 // ensure a Cast receiver only attempts to decode the frames sequentially
747 // and in order. Furthermore, the encoder is configured to never use forward
748 // references (see |kVTCompressionPropertyKey_AllowFrameReordering|). There
749 // is no way to prevent multiple reference frames.
750 encoded_frame->referenced_frame_id = frame_id - 1;
753 if (has_frame_data)
754 CopySampleBufferToAnnexBBuffer(sbuf, &encoded_frame->data, keyframe);
756 // TODO(miu): Compute and populate the |deadline_utilization| and
757 // |lossy_utilization| performance metrics in |encoded_frame|.
759 encoder->cast_environment_->PostTask(
760 CastEnvironment::MAIN, FROM_HERE,
761 base::Bind(request->frame_encoded_callback,
762 base::Passed(&encoded_frame)));
765 } // namespace cast
766 } // namespace media