275 lines
10 KiB
C++
275 lines
10 KiB
C++
/*
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* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "modules/video_coding/generic_decoder.h"
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#include <stddef.h>
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#include <algorithm>
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#include "api/video/video_timing.h"
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#include "modules/video_coding/include/video_error_codes.h"
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#include "rtc_base/checks.h"
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#include "rtc_base/logging.h"
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#include "rtc_base/thread.h"
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#include "rtc_base/time_utils.h"
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#include "rtc_base/trace_event.h"
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#include "system_wrappers/include/clock.h"
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#include "system_wrappers/include/field_trial.h"
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namespace webrtc {
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VCMDecodedFrameCallback::VCMDecodedFrameCallback(VCMTiming* timing,
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Clock* clock)
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: _clock(clock),
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_timing(timing),
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_timestampMap(kDecoderFrameMemoryLength),
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_extra_decode_time("t", absl::nullopt) {
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ntp_offset_ =
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_clock->CurrentNtpInMilliseconds() - _clock->TimeInMilliseconds();
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ParseFieldTrial({&_extra_decode_time},
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field_trial::FindFullName("WebRTC-SlowDownDecoder"));
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}
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VCMDecodedFrameCallback::~VCMDecodedFrameCallback() {}
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void VCMDecodedFrameCallback::SetUserReceiveCallback(
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VCMReceiveCallback* receiveCallback) {
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RTC_DCHECK(construction_thread_.IsCurrent());
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RTC_DCHECK((!_receiveCallback && receiveCallback) ||
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(_receiveCallback && !receiveCallback));
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_receiveCallback = receiveCallback;
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}
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VCMReceiveCallback* VCMDecodedFrameCallback::UserReceiveCallback() {
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// Called on the decode thread via VCMCodecDataBase::GetDecoder.
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// The callback must always have been set before this happens.
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RTC_DCHECK(_receiveCallback);
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return _receiveCallback;
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}
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int32_t VCMDecodedFrameCallback::Decoded(VideoFrame& decodedImage) {
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// This function may be called on the decode TaskQueue, but may also be called
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// on an OS provided queue such as on iOS (see e.g. b/153465112).
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return Decoded(decodedImage, -1);
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}
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int32_t VCMDecodedFrameCallback::Decoded(VideoFrame& decodedImage,
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int64_t decode_time_ms) {
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Decoded(decodedImage,
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decode_time_ms >= 0 ? absl::optional<int32_t>(decode_time_ms)
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: absl::nullopt,
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absl::nullopt);
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return WEBRTC_VIDEO_CODEC_OK;
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}
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void VCMDecodedFrameCallback::Decoded(VideoFrame& decodedImage,
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absl::optional<int32_t> decode_time_ms,
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absl::optional<uint8_t> qp) {
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// Wait some extra time to simulate a slow decoder.
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if (_extra_decode_time) {
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rtc::Thread::SleepMs(_extra_decode_time->ms());
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}
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RTC_DCHECK(_receiveCallback) << "Callback must not be null at this point";
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TRACE_EVENT_INSTANT1("webrtc", "VCMDecodedFrameCallback::Decoded",
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"timestamp", decodedImage.timestamp());
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// TODO(holmer): We should improve this so that we can handle multiple
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// callbacks from one call to Decode().
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VCMFrameInformation* frameInfo;
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{
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MutexLock lock(&lock_);
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frameInfo = _timestampMap.Pop(decodedImage.timestamp());
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}
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if (frameInfo == NULL) {
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RTC_LOG(LS_WARNING) << "Too many frames backed up in the decoder, dropping "
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"this one.";
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_receiveCallback->OnDroppedFrames(1);
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return;
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}
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decodedImage.set_ntp_time_ms(frameInfo->ntp_time_ms);
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decodedImage.set_packet_infos(frameInfo->packet_infos);
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decodedImage.set_rotation(frameInfo->rotation);
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const Timestamp now = _clock->CurrentTime();
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RTC_DCHECK(frameInfo->decodeStart);
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if (!decode_time_ms) {
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decode_time_ms = (now - *frameInfo->decodeStart).ms();
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}
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_timing->StopDecodeTimer(*decode_time_ms, now.ms());
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decodedImage.set_processing_time({*frameInfo->decodeStart, now});
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// Report timing information.
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TimingFrameInfo timing_frame_info;
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if (frameInfo->timing.flags != VideoSendTiming::kInvalid) {
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int64_t capture_time_ms = decodedImage.ntp_time_ms() - ntp_offset_;
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// Convert remote timestamps to local time from ntp timestamps.
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frameInfo->timing.encode_start_ms -= ntp_offset_;
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frameInfo->timing.encode_finish_ms -= ntp_offset_;
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frameInfo->timing.packetization_finish_ms -= ntp_offset_;
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frameInfo->timing.pacer_exit_ms -= ntp_offset_;
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frameInfo->timing.network_timestamp_ms -= ntp_offset_;
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frameInfo->timing.network2_timestamp_ms -= ntp_offset_;
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int64_t sender_delta_ms = 0;
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if (decodedImage.ntp_time_ms() < 0) {
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// Sender clock is not estimated yet. Make sure that sender times are all
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// negative to indicate that. Yet they still should be relatively correct.
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sender_delta_ms =
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std::max({capture_time_ms, frameInfo->timing.encode_start_ms,
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frameInfo->timing.encode_finish_ms,
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frameInfo->timing.packetization_finish_ms,
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frameInfo->timing.pacer_exit_ms,
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frameInfo->timing.network_timestamp_ms,
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frameInfo->timing.network2_timestamp_ms}) +
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1;
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}
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timing_frame_info.capture_time_ms = capture_time_ms - sender_delta_ms;
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timing_frame_info.encode_start_ms =
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frameInfo->timing.encode_start_ms - sender_delta_ms;
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timing_frame_info.encode_finish_ms =
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frameInfo->timing.encode_finish_ms - sender_delta_ms;
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timing_frame_info.packetization_finish_ms =
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frameInfo->timing.packetization_finish_ms - sender_delta_ms;
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timing_frame_info.pacer_exit_ms =
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frameInfo->timing.pacer_exit_ms - sender_delta_ms;
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timing_frame_info.network_timestamp_ms =
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frameInfo->timing.network_timestamp_ms - sender_delta_ms;
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timing_frame_info.network2_timestamp_ms =
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frameInfo->timing.network2_timestamp_ms - sender_delta_ms;
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}
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timing_frame_info.flags = frameInfo->timing.flags;
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timing_frame_info.decode_start_ms = frameInfo->decodeStart->ms();
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timing_frame_info.decode_finish_ms = now.ms();
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timing_frame_info.render_time_ms = frameInfo->renderTimeMs;
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timing_frame_info.rtp_timestamp = decodedImage.timestamp();
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timing_frame_info.receive_start_ms = frameInfo->timing.receive_start_ms;
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timing_frame_info.receive_finish_ms = frameInfo->timing.receive_finish_ms;
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_timing->SetTimingFrameInfo(timing_frame_info);
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decodedImage.set_timestamp_us(frameInfo->renderTimeMs *
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rtc::kNumMicrosecsPerMillisec);
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_receiveCallback->FrameToRender(decodedImage, qp, *decode_time_ms,
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frameInfo->content_type);
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}
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void VCMDecodedFrameCallback::OnDecoderImplementationName(
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const char* implementation_name) {
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_receiveCallback->OnDecoderImplementationName(implementation_name);
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}
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void VCMDecodedFrameCallback::Map(uint32_t timestamp,
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VCMFrameInformation* frameInfo) {
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MutexLock lock(&lock_);
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_timestampMap.Add(timestamp, frameInfo);
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}
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int32_t VCMDecodedFrameCallback::Pop(uint32_t timestamp) {
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MutexLock lock(&lock_);
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if (_timestampMap.Pop(timestamp) == NULL) {
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return VCM_GENERAL_ERROR;
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}
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_receiveCallback->OnDroppedFrames(1);
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return VCM_OK;
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}
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VCMGenericDecoder::VCMGenericDecoder(std::unique_ptr<VideoDecoder> decoder)
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: VCMGenericDecoder(decoder.release(), false /* isExternal */) {}
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VCMGenericDecoder::VCMGenericDecoder(VideoDecoder* decoder, bool isExternal)
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: _callback(NULL),
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_frameInfos(),
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_nextFrameInfoIdx(0),
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decoder_(decoder),
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_codecType(kVideoCodecGeneric),
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_isExternal(isExternal),
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_last_keyframe_content_type(VideoContentType::UNSPECIFIED) {
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RTC_DCHECK(decoder_);
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}
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VCMGenericDecoder::~VCMGenericDecoder() {
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decoder_->Release();
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if (_isExternal)
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decoder_.release();
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RTC_DCHECK(_isExternal || decoder_);
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}
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int32_t VCMGenericDecoder::InitDecode(const VideoCodec* settings,
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int32_t numberOfCores) {
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TRACE_EVENT0("webrtc", "VCMGenericDecoder::InitDecode");
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_codecType = settings->codecType;
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int err = decoder_->InitDecode(settings, numberOfCores);
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implementation_name_ = decoder_->ImplementationName();
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RTC_LOG(LS_INFO) << "Decoder implementation: " << implementation_name_;
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return err;
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}
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int32_t VCMGenericDecoder::Decode(const VCMEncodedFrame& frame, Timestamp now) {
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TRACE_EVENT1("webrtc", "VCMGenericDecoder::Decode", "timestamp",
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frame.Timestamp());
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_frameInfos[_nextFrameInfoIdx].decodeStart = now;
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_frameInfos[_nextFrameInfoIdx].renderTimeMs = frame.RenderTimeMs();
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_frameInfos[_nextFrameInfoIdx].rotation = frame.rotation();
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_frameInfos[_nextFrameInfoIdx].timing = frame.video_timing();
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_frameInfos[_nextFrameInfoIdx].ntp_time_ms =
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frame.EncodedImage().ntp_time_ms_;
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_frameInfos[_nextFrameInfoIdx].packet_infos = frame.PacketInfos();
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// Set correctly only for key frames. Thus, use latest key frame
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// content type. If the corresponding key frame was lost, decode will fail
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// and content type will be ignored.
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if (frame.FrameType() == VideoFrameType::kVideoFrameKey) {
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_frameInfos[_nextFrameInfoIdx].content_type = frame.contentType();
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_last_keyframe_content_type = frame.contentType();
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} else {
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_frameInfos[_nextFrameInfoIdx].content_type = _last_keyframe_content_type;
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}
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_callback->Map(frame.Timestamp(), &_frameInfos[_nextFrameInfoIdx]);
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_nextFrameInfoIdx = (_nextFrameInfoIdx + 1) % kDecoderFrameMemoryLength;
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int32_t ret = decoder_->Decode(frame.EncodedImage(), frame.MissingFrame(),
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frame.RenderTimeMs());
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const char* new_implementation_name = decoder_->ImplementationName();
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if (new_implementation_name != implementation_name_) {
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implementation_name_ = new_implementation_name;
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RTC_LOG(LS_INFO) << "Changed decoder implementation to: "
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<< new_implementation_name;
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}
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_callback->OnDecoderImplementationName(implementation_name_.c_str());
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if (ret < WEBRTC_VIDEO_CODEC_OK) {
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RTC_LOG(LS_WARNING) << "Failed to decode frame with timestamp "
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<< frame.Timestamp() << ", error code: " << ret;
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_callback->Pop(frame.Timestamp());
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return ret;
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} else if (ret == WEBRTC_VIDEO_CODEC_NO_OUTPUT) {
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// No output
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_callback->Pop(frame.Timestamp());
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}
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return ret;
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}
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int32_t VCMGenericDecoder::RegisterDecodeCompleteCallback(
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VCMDecodedFrameCallback* callback) {
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_callback = callback;
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return decoder_->RegisterDecodeCompleteCallback(callback);
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}
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bool VCMGenericDecoder::PrefersLateDecoding() const {
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return decoder_->PrefersLateDecoding();
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}
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} // namespace webrtc
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