modules/rtp_rtcp/source/rtp_packetizer_h265.cc - src - Git at Google

 /*
  *  Copyright (c) 2023 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 "modules/rtp_rtcp/source/rtp_packetizer_h265.h"

 #include <vector>

 #include "absl/types/optional.h"
 #include "common_video/h264/h264_common.h"
 #include "common_video/h265/h265_common.h"
 #include "modules/rtp_rtcp/source/byte_io.h"
 #include "modules/rtp_rtcp/source/rtp_packet_h265_common.h"
 #include "rtc_base/logging.h"

 namespace webrtc {

 RtpPacketizerH265::RtpPacketizerH265(rtc::ArrayView<const uint8_t> payload,
                                      PayloadSizeLimits limits)
     : limits_(limits), num_packets_left_(0) {
   for (const auto& nalu :
        H264::FindNaluIndices(payload.data(), payload.size())) {
     input_fragments_.push_back(
         payload.subview(nalu.payload_start_offset, nalu.payload_size));
   }

   if (!GeneratePackets()) {
     // If failed to generate all the packets, discard already generated
     // packets in case the caller would ignore return value and still try to
     // call NextPacket().
     num_packets_left_ = 0;
     while (!packets_.empty()) {
       packets_.pop();
     }
   }
 }

 RtpPacketizerH265::~RtpPacketizerH265() = default;

 size_t RtpPacketizerH265::NumPackets() const {
   return num_packets_left_;
 }

 bool RtpPacketizerH265::GeneratePackets() {
   for (size_t i = 0; i < input_fragments_.size();) {
     int fragment_len = input_fragments_[i].size();
     int single_packet_capacity = limits_.max_payload_len;
     if (input_fragments_.size() == 1) {
       single_packet_capacity -= limits_.single_packet_reduction_len;
     } else if (i == 0) {
       single_packet_capacity -= limits_.first_packet_reduction_len;
     } else if (i + 1 == input_fragments_.size()) {
       // Pretend that last fragment is larger instead of making last packet
       // smaller.
       single_packet_capacity -= limits_.last_packet_reduction_len;
     }
     if (fragment_len > single_packet_capacity) {
       if (!PacketizeFu(i)) {
         return false;
       }
       ++i;
     } else {
       i = PacketizeAp(i);
     }
   }
   return true;
 }

 bool RtpPacketizerH265::PacketizeFu(size_t fragment_index) {
   // Fragment payload into packets (FU).
   // Strip out the original header and leave room for the FU header.
   rtc::ArrayView<const uint8_t> fragment = input_fragments_[fragment_index];
   PayloadSizeLimits limits = limits_;
   // Refer to section 4.4.3 in RFC7798, each FU fragment will have a 2-bytes
   // payload header and a one-byte FU header. DONL is not supported so ignore
   // its size when calculating max_payload_len.
   limits.max_payload_len -=
       kH265FuHeaderSizeBytes + kH265PayloadHeaderSizeBytes;

   // Update single/first/last packet reductions unless it is single/first/last
   // fragment.
   if (input_fragments_.size() != 1) {
     // if this fragment is put into a single packet, it might still be the
     // first or the last packet in the whole sequence of packets.
     if (fragment_index == input_fragments_.size() - 1) {
       limits.single_packet_reduction_len = limits_.last_packet_reduction_len;
     } else if (fragment_index == 0) {
       limits.single_packet_reduction_len = limits_.first_packet_reduction_len;
     } else {
       limits.single_packet_reduction_len = 0;
     }
   }
   if (fragment_index != 0) {
     limits.first_packet_reduction_len = 0;
   }
   if (fragment_index != input_fragments_.size() - 1) {
     limits.last_packet_reduction_len = 0;
   }

   // Strip out the original header.
   size_t payload_left = fragment.size() - kH265NalHeaderSizeBytes;
   int offset = kH265NalHeaderSizeBytes;

   std::vector<int> payload_sizes = SplitAboutEqually(payload_left, limits);
   if (payload_sizes.empty()) {
     return false;
   }

   for (size_t i = 0; i < payload_sizes.size(); ++i) {
     int packet_length = payload_sizes[i];
     RTC_CHECK_GT(packet_length, 0);
     uint16_t header = (fragment[0] << 8) | fragment[1];
     packets_.push({.source_fragment = fragment.subview(offset, packet_length),
                    .first_fragment = (i == 0),
                    .last_fragment = (i == payload_sizes.size() - 1),
                    .aggregated = false,
                    .header = header});
     offset += packet_length;
     payload_left -= packet_length;
   }
   num_packets_left_ += payload_sizes.size();
   RTC_CHECK_EQ(payload_left, 0);
   return true;
 }

 int RtpPacketizerH265::PacketizeAp(size_t fragment_index) {
   // Aggregate fragments into one packet.
   size_t payload_size_left = limits_.max_payload_len;
   if (input_fragments_.size() == 1) {
     payload_size_left -= limits_.single_packet_reduction_len;
   } else if (fragment_index == 0) {
     payload_size_left -= limits_.first_packet_reduction_len;
   }
   int aggregated_fragments = 0;
   size_t fragment_headers_length = 0;
   rtc::ArrayView<const uint8_t> fragment = input_fragments_[fragment_index];
   RTC_CHECK_GE(payload_size_left, fragment.size());
   ++num_packets_left_;

   auto payload_size_needed = [&] {
     size_t fragment_size = fragment.size() + fragment_headers_length;
     if (input_fragments_.size() == 1) {
       // Single fragment, single packet, payload_size_left already adjusted
       // with limits_.single_packet_reduction_len.
       return fragment_size;
     }
     if (fragment_index == input_fragments_.size() - 1) {
       // Last fragment, so this might be the last packet.
       return fragment_size + limits_.last_packet_reduction_len;
     }
     return fragment_size;
   };

   while (payload_size_left >= payload_size_needed()) {
     RTC_CHECK_GT(fragment.size(), 0);
     packets_.push({.source_fragment = fragment,
                    .first_fragment = (aggregated_fragments == 0),
                    .last_fragment = false,
                    .aggregated = true,
                    .header = fragment[0]});
     payload_size_left -= fragment.size();
     payload_size_left -= fragment_headers_length;

     fragment_headers_length = kH265LengthFieldSizeBytes;
     // If we are going to try to aggregate more fragments into this packet
     // we need to add the AP NALU header and a length field for the first
     // NALU of this packet.
     if (aggregated_fragments == 0) {
       fragment_headers_length +=
           kH265PayloadHeaderSizeBytes + kH265LengthFieldSizeBytes;
     }
     ++aggregated_fragments;

     // Next fragment.
     ++fragment_index;
     if (fragment_index == input_fragments_.size()) {
       break;
     }
     fragment = input_fragments_[fragment_index];
   }
   RTC_CHECK_GT(aggregated_fragments, 0);
   packets_.back().last_fragment = true;
   return fragment_index;
 }

 bool RtpPacketizerH265::NextPacket(RtpPacketToSend* rtp_packet) {
   RTC_DCHECK(rtp_packet);

   if (packets_.empty()) {
     return false;
   }

   PacketUnit packet = packets_.front();

   if (packet.first_fragment && packet.last_fragment) {
     // Single NAL unit packet. Do not support DONL for single NAL unit packets,
     // DONL field is not present.
     size_t bytes_to_send = packet.source_fragment.size();
     uint8_t* buffer = rtp_packet->AllocatePayload(bytes_to_send);
     memcpy(buffer, packet.source_fragment.data(), bytes_to_send);
     packets_.pop();
     input_fragments_.pop_front();
   } else if (packet.aggregated) {
     NextAggregatePacket(rtp_packet);
   } else {
     NextFragmentPacket(rtp_packet);
   }
   rtp_packet->SetMarker(packets_.empty());
   --num_packets_left_;
   return true;
 }

 void RtpPacketizerH265::NextAggregatePacket(RtpPacketToSend* rtp_packet) {
   size_t payload_capacity = rtp_packet->FreeCapacity();
   RTC_CHECK_GE(payload_capacity, kH265PayloadHeaderSizeBytes);
   uint8_t* buffer = rtp_packet->AllocatePayload(payload_capacity);
   RTC_CHECK(buffer);
   PacketUnit* packet = &packets_.front();
   RTC_CHECK(packet->first_fragment);

   /*
    +---------------+---------------+
    |0|1|2|3|4|5|6|7|0|1|2|3|4|5|6|7|
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |F|    Type   |  LayerId  | TID |
    +-------------+-----------------+
   */
   // Refer to section section 4.4.2 for aggregation packets and modify type to
   // 48 in PayloadHdr for aggregate packet. Do not support DONL for aggregation
   // packets, DONL field is not present.
   uint8_t payload_hdr_h = packet->header >> 8;
   uint8_t payload_hdr_l = packet->header & 0xFF;
   uint8_t layer_id_h = payload_hdr_h & kH265LayerIDHMask;
   payload_hdr_h = (payload_hdr_h & kH265TypeMaskN) |
                   (H265::NaluType::kAp << 1) | layer_id_h;
   buffer[0] = payload_hdr_h;
   buffer[1] = payload_hdr_l;

   int index = kH265PayloadHeaderSizeBytes;
   bool is_last_fragment = packet->last_fragment;
   while (packet->aggregated) {
     // Add NAL unit length field.
     rtc::ArrayView<const uint8_t> fragment = packet->source_fragment;
     ByteWriter<uint16_t>::WriteBigEndian(&buffer[index], fragment.size());
     index += kH265LengthFieldSizeBytes;
     // Add NAL unit.
     memcpy(&buffer[index], fragment.data(), fragment.size());
     index += fragment.size();
     packets_.pop();
     input_fragments_.pop_front();
     if (is_last_fragment) {
       break;
     }
     packet = &packets_.front();
     is_last_fragment = packet->last_fragment;
   }
   RTC_CHECK(is_last_fragment);
   rtp_packet->SetPayloadSize(index);
 }

 void RtpPacketizerH265::NextFragmentPacket(RtpPacketToSend* rtp_packet) {
   PacketUnit* packet = &packets_.front();
   // NAL unit fragmented over multiple packets (FU).
   // We do not send original NALU header, so it will be replaced by the
   // PayloadHdr of the first packet.
   /*
    +---------------+---------------+
    |0|1|2|3|4|5|6|7|0|1|2|3|4|5|6|7|
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |F|    Type   |  LayerId  | TID |
    +-------------+-----------------+
   */
   // Refer to section section 4.4.3 for aggregation packets and modify type to
   // 49 in PayloadHdr for aggregate packet.
   uint8_t payload_hdr_h =
       packet->header >> 8;  // 1-bit F, 6-bit type, 1-bit layerID highest-bit
   uint8_t payload_hdr_l = packet->header & 0xFF;
   uint8_t layer_id_h = payload_hdr_h & kH265LayerIDHMask;
   uint8_t fu_header = 0;
   /*
    +---------------+
    |0|1|2|3|4|5|6|7|
    +-+-+-+-+-+-+-+-+
    |S|E|  FuType   |
    +---------------+
   */
   // S bit indicates the start of a fragmented NAL unit.
   // E bit indicates the end of a fragmented NAL unit.
   // FuType must be equal to the field type value of the fragmented NAL unit.
   fu_header |= (packet->first_fragment ? kH265SBitMask : 0);
   fu_header |= (packet->last_fragment ? kH265EBitMask : 0);
   uint8_t type = (payload_hdr_h & kH265TypeMask) >> 1;
   fu_header |= type;
   // Now update payload_hdr_h with FU type.
   payload_hdr_h = (payload_hdr_h & kH265TypeMaskN) |
                   (H265::NaluType::kFu << 1) | layer_id_h;
   rtc::ArrayView<const uint8_t> fragment = packet->source_fragment;
   uint8_t* buffer = rtp_packet->AllocatePayload(
       kH265FuHeaderSizeBytes + kH265PayloadHeaderSizeBytes + fragment.size());
   RTC_CHECK(buffer);
   buffer[0] = payload_hdr_h;
   buffer[1] = payload_hdr_l;
   buffer[2] = fu_header;

   // Do not support DONL for fragmentation units, DONL field is not present.
   memcpy(buffer + kH265FuHeaderSizeBytes + kH265PayloadHeaderSizeBytes,
          fragment.data(), fragment.size());
   if (packet->last_fragment) {
     input_fragments_.pop_front();
   }
   packets_.pop();
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2023 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 "modules/rtp_rtcp/source/rtp_packetizer_h265.h"

	#include <vector>

	#include "absl/types/optional.h"
	#include "common_video/h264/h264_common.h"
	#include "common_video/h265/h265_common.h"
	#include "modules/rtp_rtcp/source/byte_io.h"
	#include "modules/rtp_rtcp/source/rtp_packet_h265_common.h"
	#include "rtc_base/logging.h"

	namespace webrtc {

	RtpPacketizerH265::RtpPacketizerH265(rtc::ArrayView<const uint8_t> payload,
	PayloadSizeLimits limits)
	: limits_(limits), num_packets_left_(0) {
	for (const auto& nalu :
	H264::FindNaluIndices(payload.data(), payload.size())) {
	input_fragments_.push_back(
	payload.subview(nalu.payload_start_offset, nalu.payload_size));
	}

	if (!GeneratePackets()) {
	// If failed to generate all the packets, discard already generated
	// packets in case the caller would ignore return value and still try to
	// call NextPacket().
	num_packets_left_ = 0;
	while (!packets_.empty()) {
	packets_.pop();
	}
	}
	}

	RtpPacketizerH265::~RtpPacketizerH265() = default;

	size_t RtpPacketizerH265::NumPackets() const {
	return num_packets_left_;
	}

	bool RtpPacketizerH265::GeneratePackets() {
	for (size_t i = 0; i < input_fragments_.size();) {
	int fragment_len = input_fragments_[i].size();
	int single_packet_capacity = limits_.max_payload_len;
	if (input_fragments_.size() == 1) {
	single_packet_capacity -= limits_.single_packet_reduction_len;
	} else if (i == 0) {
	single_packet_capacity -= limits_.first_packet_reduction_len;
	} else if (i + 1 == input_fragments_.size()) {
	// Pretend that last fragment is larger instead of making last packet
	// smaller.
	single_packet_capacity -= limits_.last_packet_reduction_len;
	}
	if (fragment_len > single_packet_capacity) {
	if (!PacketizeFu(i)) {
	return false;
	}
	++i;
	} else {
	i = PacketizeAp(i);
	}
	}
	return true;
	}

	bool RtpPacketizerH265::PacketizeFu(size_t fragment_index) {
	// Fragment payload into packets (FU).
	// Strip out the original header and leave room for the FU header.
	rtc::ArrayView<const uint8_t> fragment = input_fragments_[fragment_index];
	PayloadSizeLimits limits = limits_;
	// Refer to section 4.4.3 in RFC7798, each FU fragment will have a 2-bytes
	// payload header and a one-byte FU header. DONL is not supported so ignore
	// its size when calculating max_payload_len.
	limits.max_payload_len -=
	kH265FuHeaderSizeBytes + kH265PayloadHeaderSizeBytes;

	// Update single/first/last packet reductions unless it is single/first/last
	// fragment.
	if (input_fragments_.size() != 1) {
	// if this fragment is put into a single packet, it might still be the
	// first or the last packet in the whole sequence of packets.
	if (fragment_index == input_fragments_.size() - 1) {
	limits.single_packet_reduction_len = limits_.last_packet_reduction_len;
	} else if (fragment_index == 0) {
	limits.single_packet_reduction_len = limits_.first_packet_reduction_len;
	} else {
	limits.single_packet_reduction_len = 0;
	}
	}
	if (fragment_index != 0) {
	limits.first_packet_reduction_len = 0;
	}
	if (fragment_index != input_fragments_.size() - 1) {
	limits.last_packet_reduction_len = 0;
	}

	// Strip out the original header.
	size_t payload_left = fragment.size() - kH265NalHeaderSizeBytes;
	int offset = kH265NalHeaderSizeBytes;

	std::vector<int> payload_sizes = SplitAboutEqually(payload_left, limits);
	if (payload_sizes.empty()) {
	return false;
	}

	for (size_t i = 0; i < payload_sizes.size(); ++i) {
	int packet_length = payload_sizes[i];
	RTC_CHECK_GT(packet_length, 0);
	uint16_t header = (fragment[0] << 8) \| fragment[1];
	packets_.push({.source_fragment = fragment.subview(offset, packet_length),
	.first_fragment = (i == 0),
	.last_fragment = (i == payload_sizes.size() - 1),
	.aggregated = false,
	.header = header});
	offset += packet_length;
	payload_left -= packet_length;
	}
	num_packets_left_ += payload_sizes.size();
	RTC_CHECK_EQ(payload_left, 0);
	return true;
	}

	int RtpPacketizerH265::PacketizeAp(size_t fragment_index) {
	// Aggregate fragments into one packet.
	size_t payload_size_left = limits_.max_payload_len;
	if (input_fragments_.size() == 1) {
	payload_size_left -= limits_.single_packet_reduction_len;
	} else if (fragment_index == 0) {
	payload_size_left -= limits_.first_packet_reduction_len;
	}
	int aggregated_fragments = 0;
	size_t fragment_headers_length = 0;
	rtc::ArrayView<const uint8_t> fragment = input_fragments_[fragment_index];
	RTC_CHECK_GE(payload_size_left, fragment.size());
	++num_packets_left_;

	auto payload_size_needed = [&] {
	size_t fragment_size = fragment.size() + fragment_headers_length;
	if (input_fragments_.size() == 1) {
	// Single fragment, single packet, payload_size_left already adjusted
	// with limits_.single_packet_reduction_len.
	return fragment_size;
	}
	if (fragment_index == input_fragments_.size() - 1) {
	// Last fragment, so this might be the last packet.
	return fragment_size + limits_.last_packet_reduction_len;
	}
	return fragment_size;
	};

	while (payload_size_left >= payload_size_needed()) {
	RTC_CHECK_GT(fragment.size(), 0);
	packets_.push({.source_fragment = fragment,
	.first_fragment = (aggregated_fragments == 0),
	.last_fragment = false,
	.aggregated = true,
	.header = fragment[0]});
	payload_size_left -= fragment.size();
	payload_size_left -= fragment_headers_length;

	fragment_headers_length = kH265LengthFieldSizeBytes;
	// If we are going to try to aggregate more fragments into this packet
	// we need to add the AP NALU header and a length field for the first
	// NALU of this packet.
	if (aggregated_fragments == 0) {
	fragment_headers_length +=
	kH265PayloadHeaderSizeBytes + kH265LengthFieldSizeBytes;
	}
	++aggregated_fragments;

	// Next fragment.
	++fragment_index;
	if (fragment_index == input_fragments_.size()) {
	break;
	}
	fragment = input_fragments_[fragment_index];
	}
	RTC_CHECK_GT(aggregated_fragments, 0);
	packets_.back().last_fragment = true;
	return fragment_index;
	}

	bool RtpPacketizerH265::NextPacket(RtpPacketToSend* rtp_packet) {
	RTC_DCHECK(rtp_packet);

	if (packets_.empty()) {
	return false;
	}

	PacketUnit packet = packets_.front();

	if (packet.first_fragment && packet.last_fragment) {
	// Single NAL unit packet. Do not support DONL for single NAL unit packets,
	// DONL field is not present.
	size_t bytes_to_send = packet.source_fragment.size();
	uint8_t* buffer = rtp_packet->AllocatePayload(bytes_to_send);
	memcpy(buffer, packet.source_fragment.data(), bytes_to_send);
	packets_.pop();
	input_fragments_.pop_front();
	} else if (packet.aggregated) {
	NextAggregatePacket(rtp_packet);
	} else {
	NextFragmentPacket(rtp_packet);
	}
	rtp_packet->SetMarker(packets_.empty());
	--num_packets_left_;
	return true;
	}

	void RtpPacketizerH265::NextAggregatePacket(RtpPacketToSend* rtp_packet) {
	size_t payload_capacity = rtp_packet->FreeCapacity();
	RTC_CHECK_GE(payload_capacity, kH265PayloadHeaderSizeBytes);
	uint8_t* buffer = rtp_packet->AllocatePayload(payload_capacity);
	RTC_CHECK(buffer);
	PacketUnit* packet = &packets_.front();
	RTC_CHECK(packet->first_fragment);

	/*
	+---------------+---------------+
	\|0\|1\|2\|3\|4\|5\|6\|7\|0\|1\|2\|3\|4\|5\|6\|7\|
	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
	\|F\| Type \| LayerId \| TID \|
	+-------------+-----------------+
	*/
	// Refer to section section 4.4.2 for aggregation packets and modify type to
	// 48 in PayloadHdr for aggregate packet. Do not support DONL for aggregation
	// packets, DONL field is not present.
	uint8_t payload_hdr_h = packet->header >> 8;
	uint8_t payload_hdr_l = packet->header & 0xFF;
	uint8_t layer_id_h = payload_hdr_h & kH265LayerIDHMask;
	payload_hdr_h = (payload_hdr_h & kH265TypeMaskN) \|
	(H265::NaluType::kAp << 1) \| layer_id_h;
	buffer[0] = payload_hdr_h;
	buffer[1] = payload_hdr_l;

	int index = kH265PayloadHeaderSizeBytes;
	bool is_last_fragment = packet->last_fragment;
	while (packet->aggregated) {
	// Add NAL unit length field.
	rtc::ArrayView<const uint8_t> fragment = packet->source_fragment;
	ByteWriter<uint16_t>::WriteBigEndian(&buffer[index], fragment.size());
	index += kH265LengthFieldSizeBytes;
	// Add NAL unit.
	memcpy(&buffer[index], fragment.data(), fragment.size());
	index += fragment.size();
	packets_.pop();
	input_fragments_.pop_front();
	if (is_last_fragment) {
	break;
	}
	packet = &packets_.front();
	is_last_fragment = packet->last_fragment;
	}
	RTC_CHECK(is_last_fragment);
	rtp_packet->SetPayloadSize(index);
	}

	void RtpPacketizerH265::NextFragmentPacket(RtpPacketToSend* rtp_packet) {
	PacketUnit* packet = &packets_.front();
	// NAL unit fragmented over multiple packets (FU).
	// We do not send original NALU header, so it will be replaced by the
	// PayloadHdr of the first packet.
	/*
	+---------------+---------------+
	\|0\|1\|2\|3\|4\|5\|6\|7\|0\|1\|2\|3\|4\|5\|6\|7\|
	+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
	\|F\| Type \| LayerId \| TID \|
	+-------------+-----------------+
	*/
	// Refer to section section 4.4.3 for aggregation packets and modify type to
	// 49 in PayloadHdr for aggregate packet.
	uint8_t payload_hdr_h =
	packet->header >> 8; // 1-bit F, 6-bit type, 1-bit layerID highest-bit
	uint8_t payload_hdr_l = packet->header & 0xFF;
	uint8_t layer_id_h = payload_hdr_h & kH265LayerIDHMask;
	uint8_t fu_header = 0;
	/*
	+---------------+
	\|0\|1\|2\|3\|4\|5\|6\|7\|
	+-+-+-+-+-+-+-+-+
	\|S\|E\| FuType \|
	+---------------+
	*/
	// S bit indicates the start of a fragmented NAL unit.
	// E bit indicates the end of a fragmented NAL unit.
	// FuType must be equal to the field type value of the fragmented NAL unit.
	fu_header \|= (packet->first_fragment ? kH265SBitMask : 0);
	fu_header \|= (packet->last_fragment ? kH265EBitMask : 0);
	uint8_t type = (payload_hdr_h & kH265TypeMask) >> 1;
	fu_header \|= type;
	// Now update payload_hdr_h with FU type.
	payload_hdr_h = (payload_hdr_h & kH265TypeMaskN) \|
	(H265::NaluType::kFu << 1) \| layer_id_h;
	rtc::ArrayView<const uint8_t> fragment = packet->source_fragment;
	uint8_t* buffer = rtp_packet->AllocatePayload(
	kH265FuHeaderSizeBytes + kH265PayloadHeaderSizeBytes + fragment.size());
	RTC_CHECK(buffer);
	buffer[0] = payload_hdr_h;
	buffer[1] = payload_hdr_l;
	buffer[2] = fu_header;

	// Do not support DONL for fragmentation units, DONL field is not present.
	memcpy(buffer + kH265FuHeaderSizeBytes + kH265PayloadHeaderSizeBytes,
	fragment.data(), fragment.size());
	if (packet->last_fragment) {
	input_fragments_.pop_front();
	}
	packets_.pop();
	}

	} // namespace webrtc