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/*
* Copyright (c) 2018 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "call/rtp_payload_params.h"
#include "modules/rtp_rtcp/include/rtp_rtcp_defines.h"
#include "modules/video_coding/include/video_codec_interface.h"
#include "rtc_base/checks.h"
#include "rtc_base/logging.h"
#include "rtc_base/random.h"
#include "rtc_base/timeutils.h"
#include "system_wrappers/include/field_trial.h"
namespace webrtc {
namespace {
void PopulateRtpWithCodecSpecifics(const CodecSpecificInfo& info,
absl::optional<int> spatial_index,
RTPVideoHeader* rtp) {
rtp->codec = info.codecType;
switch (info.codecType) {
case kVideoCodecVP8: {
auto& vp8_header = rtp->video_type_header.emplace<RTPVideoHeaderVP8>();
vp8_header.InitRTPVideoHeaderVP8();
vp8_header.nonReference = info.codecSpecific.VP8.nonReference;
vp8_header.temporalIdx = info.codecSpecific.VP8.temporalIdx;
vp8_header.layerSync = info.codecSpecific.VP8.layerSync;
vp8_header.keyIdx = info.codecSpecific.VP8.keyIdx;
rtp->simulcastIdx = spatial_index.value_or(0);
return;
}
case kVideoCodecVP9: {
auto& vp9_header = rtp->video_type_header.emplace<RTPVideoHeaderVP9>();
vp9_header.InitRTPVideoHeaderVP9();
vp9_header.inter_pic_predicted =
info.codecSpecific.VP9.inter_pic_predicted;
vp9_header.flexible_mode = info.codecSpecific.VP9.flexible_mode;
vp9_header.ss_data_available = info.codecSpecific.VP9.ss_data_available;
vp9_header.non_ref_for_inter_layer_pred =
info.codecSpecific.VP9.non_ref_for_inter_layer_pred;
vp9_header.temporal_idx = info.codecSpecific.VP9.temporal_idx;
vp9_header.temporal_up_switch = info.codecSpecific.VP9.temporal_up_switch;
vp9_header.inter_layer_predicted =
info.codecSpecific.VP9.inter_layer_predicted;
vp9_header.gof_idx = info.codecSpecific.VP9.gof_idx;
vp9_header.num_spatial_layers = info.codecSpecific.VP9.num_spatial_layers;
if (vp9_header.num_spatial_layers > 1) {
vp9_header.spatial_idx = spatial_index.value_or(kNoSpatialIdx);
} else {
vp9_header.spatial_idx = kNoSpatialIdx;
}
if (info.codecSpecific.VP9.ss_data_available) {
vp9_header.spatial_layer_resolution_present =
info.codecSpecific.VP9.spatial_layer_resolution_present;
if (info.codecSpecific.VP9.spatial_layer_resolution_present) {
for (size_t i = 0; i < info.codecSpecific.VP9.num_spatial_layers;
++i) {
vp9_header.width[i] = info.codecSpecific.VP9.width[i];
vp9_header.height[i] = info.codecSpecific.VP9.height[i];
}
}
vp9_header.gof.CopyGofInfoVP9(info.codecSpecific.VP9.gof);
}
vp9_header.num_ref_pics = info.codecSpecific.VP9.num_ref_pics;
for (int i = 0; i < info.codecSpecific.VP9.num_ref_pics; ++i) {
vp9_header.pid_diff[i] = info.codecSpecific.VP9.p_diff[i];
}
vp9_header.end_of_picture = info.codecSpecific.VP9.end_of_picture;
return;
}
case kVideoCodecH264: {
auto& h264_header = rtp->video_type_header.emplace<RTPVideoHeaderH264>();
h264_header.packetization_mode =
info.codecSpecific.H264.packetization_mode;
rtp->simulcastIdx = spatial_index.value_or(0);
return;
}
case kVideoCodecMultiplex:
case kVideoCodecGeneric:
rtp->codec = kVideoCodecGeneric;
rtp->simulcastIdx = spatial_index.value_or(0);
return;
default:
return;
}
}
void SetVideoTiming(const EncodedImage& image, VideoSendTiming* timing) {
if (image.timing_.flags == VideoSendTiming::TimingFrameFlags::kInvalid ||
image.timing_.flags == VideoSendTiming::TimingFrameFlags::kNotTriggered) {
timing->flags = VideoSendTiming::TimingFrameFlags::kInvalid;
return;
}
timing->encode_start_delta_ms = VideoSendTiming::GetDeltaCappedMs(
image.capture_time_ms_, image.timing_.encode_start_ms);
timing->encode_finish_delta_ms = VideoSendTiming::GetDeltaCappedMs(
image.capture_time_ms_, image.timing_.encode_finish_ms);
timing->packetization_finish_delta_ms = 0;
timing->pacer_exit_delta_ms = 0;
timing->network_timestamp_delta_ms = 0;
timing->network2_timestamp_delta_ms = 0;
timing->flags = image.timing_.flags;
}
} // namespace
RtpPayloadParams::RtpPayloadParams(const uint32_t ssrc,
const RtpPayloadState* state)
: ssrc_(ssrc),
generic_picture_id_experiment_(
field_trial::IsEnabled("WebRTC-GenericPictureId")),
generic_descriptor_experiment_(
field_trial::IsEnabled("WebRTC-GenericDescriptor")) {
for (auto& spatial_layer : last_shared_frame_id_)
spatial_layer.fill(-1);
Random random(rtc::TimeMicros());
state_.picture_id =
state ? state->picture_id : (random.Rand<int16_t>() & 0x7FFF);
state_.tl0_pic_idx = state ? state->tl0_pic_idx : (random.Rand<uint8_t>());
}
RtpPayloadParams::RtpPayloadParams(const RtpPayloadParams& other) = default;
RtpPayloadParams::~RtpPayloadParams() {}
RTPVideoHeader RtpPayloadParams::GetRtpVideoHeader(
const EncodedImage& image,
const CodecSpecificInfo* codec_specific_info,
int64_t shared_frame_id) {
RTPVideoHeader rtp_video_header;
if (codec_specific_info) {
PopulateRtpWithCodecSpecifics(*codec_specific_info, image.SpatialIndex(),
&rtp_video_header);
}
rtp_video_header.rotation = image.rotation_;
rtp_video_header.content_type = image.content_type_;
rtp_video_header.playout_delay = image.playout_delay_;
rtp_video_header.width = image._encodedWidth;
rtp_video_header.height = image._encodedHeight;
SetVideoTiming(image, &rtp_video_header.video_timing);
const bool is_keyframe = image._frameType == kVideoFrameKey;
const bool first_frame_in_picture =
(codec_specific_info && codec_specific_info->codecType == kVideoCodecVP9)
? codec_specific_info->codecSpecific.VP9.first_frame_in_picture
: true;
SetCodecSpecific(&rtp_video_header, first_frame_in_picture);
if (generic_descriptor_experiment_)
SetGeneric(shared_frame_id, is_keyframe, &rtp_video_header);
return rtp_video_header;
}
uint32_t RtpPayloadParams::ssrc() const {
return ssrc_;
}
RtpPayloadState RtpPayloadParams::state() const {
return state_;
}
void RtpPayloadParams::SetCodecSpecific(RTPVideoHeader* rtp_video_header,
bool first_frame_in_picture) {
// Always set picture id. Set tl0_pic_idx iff temporal index is set.
if (first_frame_in_picture) {
state_.picture_id = (static_cast<uint16_t>(state_.picture_id) + 1) & 0x7FFF;
}
if (rtp_video_header->codec == kVideoCodecVP8) {
auto& vp8_header =
absl::get<RTPVideoHeaderVP8>(rtp_video_header->video_type_header);
vp8_header.pictureId = state_.picture_id;
if (vp8_header.temporalIdx != kNoTemporalIdx) {
if (vp8_header.temporalIdx == 0) {
++state_.tl0_pic_idx;
}
vp8_header.tl0PicIdx = state_.tl0_pic_idx;
}
}
if (rtp_video_header->codec == kVideoCodecVP9) {
auto& vp9_header =
absl::get<RTPVideoHeaderVP9>(rtp_video_header->video_type_header);
vp9_header.picture_id = state_.picture_id;
// Note that in the case that we have no temporal layers but we do have
// spatial layers, packets will carry layering info with a temporal_idx of
// zero, and we then have to set and increment tl0_pic_idx.
if (vp9_header.temporal_idx != kNoTemporalIdx ||
vp9_header.spatial_idx != kNoSpatialIdx) {
if (first_frame_in_picture &&
(vp9_header.temporal_idx == 0 ||
vp9_header.temporal_idx == kNoTemporalIdx)) {
++state_.tl0_pic_idx;
}
vp9_header.tl0_pic_idx = state_.tl0_pic_idx;
}
}
// There are currently two generic descriptors in WebRTC. The old descriptor
// can not share a picture id space between simulcast streams, so we use the
// |picture_id| in this case. We let the |picture_id| tag along in |frame_id|
// until the old generic format can be removed.
// TODO(philipel): Remove this when the new generic format has been fully
// implemented.
if (generic_picture_id_experiment_ &&
rtp_video_header->codec == kVideoCodecGeneric) {
rtp_video_header->generic.emplace().frame_id = state_.picture_id;
}
}
void RtpPayloadParams::SetGeneric(int64_t frame_id,
bool is_keyframe,
RTPVideoHeader* rtp_video_header) {
if (rtp_video_header->codec == kVideoCodecVP8) {
Vp8ToGeneric(frame_id, is_keyframe, rtp_video_header);
}
// TODO(philipel): Implement VP9 to new generic descriptor.
// TODO(philipel): Implement H264 to new generic descriptor.
// TODO(philipel): Implement generic codec to new generic descriptor.
}
void RtpPayloadParams::Vp8ToGeneric(int64_t shared_frame_id,
bool is_keyframe,
RTPVideoHeader* rtp_video_header) {
const auto& vp8_header =
absl::get<RTPVideoHeaderVP8>(rtp_video_header->video_type_header);
const int spatial_index = 0;
const int temporal_index =
vp8_header.temporalIdx != kNoTemporalIdx ? vp8_header.temporalIdx : 0;
if (temporal_index >= RtpGenericFrameDescriptor::kMaxTemporalLayers ||
spatial_index >= RtpGenericFrameDescriptor::kMaxSpatialLayers) {
RTC_LOG(LS_WARNING) << "Temporal and/or spatial index is too high to be "
"used with generic frame descriptor.";
return;
}
RTPVideoHeader::GenericDescriptorInfo& generic =
rtp_video_header->generic.emplace();
generic.frame_id = shared_frame_id;
generic.spatial_index = spatial_index;
generic.temporal_index = temporal_index;
if (is_keyframe) {
RTC_DCHECK_EQ(temporal_index, 0);
last_shared_frame_id_[spatial_index].fill(-1);
last_shared_frame_id_[spatial_index][temporal_index] = shared_frame_id;
return;
}
if (vp8_header.layerSync) {
int64_t tl0_frame_id = last_shared_frame_id_[spatial_index][0];
for (int i = 1; i < RtpGenericFrameDescriptor::kMaxTemporalLayers; ++i) {
if (last_shared_frame_id_[spatial_index][i] < tl0_frame_id) {
last_shared_frame_id_[spatial_index][i] = -1;
}
}
RTC_DCHECK_GE(tl0_frame_id, 0);
RTC_DCHECK_LT(tl0_frame_id, shared_frame_id);
generic.dependencies.push_back(tl0_frame_id);
} else {
for (int i = 0; i <= temporal_index; ++i) {
int64_t frame_id = last_shared_frame_id_[spatial_index][i];
if (frame_id != -1) {
RTC_DCHECK_LT(frame_id, shared_frame_id);
generic.dependencies.push_back(frame_id);
}
}
}
last_shared_frame_id_[spatial_index][temporal_index] = shared_frame_id;
}
} // namespace webrtc