/* * Copyright (c) 2012 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/fec_test_helper.h" #include #include #include "modules/rtp_rtcp/include/rtp_rtcp_defines.h" #include "modules/rtp_rtcp/source/byte_io.h" #include "modules/rtp_rtcp/source/rtp_utility.h" #include "rtc_base/checks.h" namespace webrtc { namespace test { namespace fec { namespace { constexpr uint8_t kFecPayloadType = 96; constexpr uint8_t kRedPayloadType = 97; constexpr uint8_t kVp8PayloadType = 120; constexpr int kPacketTimestampIncrement = 3000; } // namespace MediaPacketGenerator::MediaPacketGenerator(uint32_t min_packet_size, uint32_t max_packet_size, uint32_t ssrc, Random* random) : min_packet_size_(min_packet_size), max_packet_size_(max_packet_size), ssrc_(ssrc), random_(random) {} MediaPacketGenerator::~MediaPacketGenerator() = default; ForwardErrorCorrection::PacketList MediaPacketGenerator::ConstructMediaPackets( int num_media_packets, uint16_t start_seq_num) { RTC_DCHECK_GT(num_media_packets, 0); uint16_t seq_num = start_seq_num; int time_stamp = random_->Rand(); ForwardErrorCorrection::PacketList media_packets; for (int i = 0; i < num_media_packets; ++i) { std::unique_ptr media_packet( new ForwardErrorCorrection::Packet()); media_packet->length = random_->Rand(min_packet_size_, max_packet_size_); // Generate random values for the first 2 bytes media_packet->data[0] = random_->Rand(); media_packet->data[1] = random_->Rand(); // The first two bits are assumed to be 10 by the FEC encoder. // In fact the FEC decoder will set the two first bits to 10 regardless of // what they actually were. Set the first two bits to 10 so that a memcmp // can be performed for the whole restored packet. media_packet->data[0] |= 0x80; media_packet->data[0] &= 0xbf; // FEC is applied to a whole frame. // A frame is signaled by multiple packets without the marker bit set // followed by the last packet of the frame for which the marker bit is set. // Only push one (fake) frame to the FEC. media_packet->data[1] &= 0x7f; webrtc::ByteWriter::WriteBigEndian(&media_packet->data[2], seq_num); webrtc::ByteWriter::WriteBigEndian(&media_packet->data[4], time_stamp); webrtc::ByteWriter::WriteBigEndian(&media_packet->data[8], ssrc_); // Generate random values for payload. for (size_t j = 12; j < media_packet->length; ++j) media_packet->data[j] = random_->Rand(); seq_num++; media_packets.push_back(std::move(media_packet)); } // Last packet, set marker bit. ForwardErrorCorrection::Packet* media_packet = media_packets.back().get(); RTC_DCHECK(media_packet); media_packet->data[1] |= 0x80; next_seq_num_ = seq_num; return media_packets; } ForwardErrorCorrection::PacketList MediaPacketGenerator::ConstructMediaPackets( int num_media_packets) { return ConstructMediaPackets(num_media_packets, random_->Rand()); } uint16_t MediaPacketGenerator::GetNextSeqNum() { return next_seq_num_; } AugmentedPacketGenerator::AugmentedPacketGenerator(uint32_t ssrc) : num_packets_(0), ssrc_(ssrc), seq_num_(0), timestamp_(0) {} void AugmentedPacketGenerator::NewFrame(size_t num_packets) { num_packets_ = num_packets; timestamp_ += kPacketTimestampIncrement; } uint16_t AugmentedPacketGenerator::NextPacketSeqNum() { return ++seq_num_; } std::unique_ptr AugmentedPacketGenerator::NextPacket( size_t offset, size_t length) { std::unique_ptr packet(new AugmentedPacket()); for (size_t i = 0; i < length; ++i) packet->data[i + kRtpHeaderSize] = offset + i; packet->length = length + kRtpHeaderSize; memset(&packet->header, 0, sizeof(WebRtcRTPHeader)); packet->header.frameType = kVideoFrameDelta; packet->header.header.headerLength = kRtpHeaderSize; packet->header.header.markerBit = (num_packets_ == 1); packet->header.header.payloadType = kVp8PayloadType; packet->header.header.sequenceNumber = seq_num_; packet->header.header.timestamp = timestamp_; packet->header.header.ssrc = ssrc_; WriteRtpHeader(packet->header.header, packet->data); ++seq_num_; --num_packets_; return packet; } void AugmentedPacketGenerator::WriteRtpHeader(const RTPHeader& header, uint8_t* data) { data[0] = 0x80; // Version 2. data[1] = header.payloadType; data[1] |= (header.markerBit ? kRtpMarkerBitMask : 0); ByteWriter::WriteBigEndian(data + 2, header.sequenceNumber); ByteWriter::WriteBigEndian(data + 4, header.timestamp); ByteWriter::WriteBigEndian(data + 8, header.ssrc); } FlexfecPacketGenerator::FlexfecPacketGenerator(uint32_t media_ssrc, uint32_t flexfec_ssrc) : AugmentedPacketGenerator(media_ssrc), flexfec_ssrc_(flexfec_ssrc), flexfec_seq_num_(0), flexfec_timestamp_(0) {} std::unique_ptr FlexfecPacketGenerator::BuildFlexfecPacket( const ForwardErrorCorrection::Packet& packet) { RTC_DCHECK_LE(packet.length, static_cast(IP_PACKET_SIZE - kRtpHeaderSize)); RTPHeader header; header.sequenceNumber = flexfec_seq_num_; ++flexfec_seq_num_; header.timestamp = flexfec_timestamp_; flexfec_timestamp_ += kPacketTimestampIncrement; header.ssrc = flexfec_ssrc_; std::unique_ptr packet_with_rtp_header( new AugmentedPacket()); WriteRtpHeader(header, packet_with_rtp_header->data); memcpy(packet_with_rtp_header->data + kRtpHeaderSize, packet.data, packet.length); packet_with_rtp_header->length = kRtpHeaderSize + packet.length; return packet_with_rtp_header; } UlpfecPacketGenerator::UlpfecPacketGenerator(uint32_t ssrc) : AugmentedPacketGenerator(ssrc) {} std::unique_ptr UlpfecPacketGenerator::BuildMediaRedPacket( const AugmentedPacket& packet) { std::unique_ptr red_packet(new AugmentedPacket()); const size_t kHeaderLength = packet.header.header.headerLength; red_packet->header = packet.header; red_packet->length = packet.length + 1; // 1 byte RED header. // Copy RTP header. memcpy(red_packet->data, packet.data, kHeaderLength); SetRedHeader(red_packet->data[1] & 0x7f, kHeaderLength, red_packet.get()); memcpy(red_packet->data + kHeaderLength + 1, packet.data + kHeaderLength, packet.length - kHeaderLength); return red_packet; } std::unique_ptr UlpfecPacketGenerator::BuildUlpfecRedPacket( const ForwardErrorCorrection::Packet& packet) { // Create a fake media packet to get a correct header. 1 byte RED header. ++num_packets_; std::unique_ptr red_packet = NextPacket(0, packet.length + 1); red_packet->data[1] &= ~0x80; // Clear marker bit. const size_t kHeaderLength = red_packet->header.header.headerLength; SetRedHeader(kFecPayloadType, kHeaderLength, red_packet.get()); memcpy(red_packet->data + kHeaderLength + 1, packet.data, packet.length); red_packet->length = kHeaderLength + 1 + packet.length; return red_packet; } void UlpfecPacketGenerator::SetRedHeader(uint8_t payload_type, size_t header_length, AugmentedPacket* red_packet) { // Replace payload type. red_packet->data[1] &= 0x80; // Reset. red_packet->data[1] += kRedPayloadType; // Replace. // Add RED header, f-bit always 0. red_packet->data[header_length] = payload_type; } } // namespace fec } // namespace test } // namespace webrtc