/* * 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 "video_engine/vie_receiver.h" #include #include "modules/remote_bitrate_estimator/include/remote_bitrate_estimator.h" #include "modules/rtp_rtcp/interface/rtp_rtcp.h" #include "modules/utility/interface/rtp_dump.h" #include "modules/video_coding/main/interface/video_coding.h" #include "system_wrappers/interface/critical_section_wrapper.h" #include "system_wrappers/interface/tick_util.h" #include "system_wrappers/interface/trace.h" namespace webrtc { ViEReceiver::ViEReceiver(const int32_t channel_id, VideoCodingModule* module_vcm, RemoteBitrateEstimator* remote_bitrate_estimator) : receive_cs_(CriticalSectionWrapper::CreateCriticalSection()), channel_id_(channel_id), rtp_rtcp_(NULL), vcm_(module_vcm), remote_bitrate_estimator_(remote_bitrate_estimator), external_decryption_(NULL), decryption_buffer_(NULL), rtp_dump_(NULL), receiving_(false) { assert(remote_bitrate_estimator); } ViEReceiver::~ViEReceiver() { if (decryption_buffer_) { delete[] decryption_buffer_; decryption_buffer_ = NULL; } if (rtp_dump_) { rtp_dump_->Stop(); RtpDump::DestroyRtpDump(rtp_dump_); rtp_dump_ = NULL; } } int ViEReceiver::RegisterExternalDecryption(Encryption* decryption) { CriticalSectionScoped cs(receive_cs_.get()); if (external_decryption_) { return -1; } decryption_buffer_ = new uint8_t[kViEMaxMtu]; if (decryption_buffer_ == NULL) { return -1; } external_decryption_ = decryption; return 0; } int ViEReceiver::DeregisterExternalDecryption() { CriticalSectionScoped cs(receive_cs_.get()); if (external_decryption_ == NULL) { return -1; } external_decryption_ = NULL; return 0; } void ViEReceiver::SetRtpRtcpModule(RtpRtcp* module) { rtp_rtcp_ = module; } void ViEReceiver::RegisterSimulcastRtpRtcpModules( const std::list& rtp_modules) { CriticalSectionScoped cs(receive_cs_.get()); rtp_rtcp_simulcast_.clear(); if (!rtp_modules.empty()) { rtp_rtcp_simulcast_.insert(rtp_rtcp_simulcast_.begin(), rtp_modules.begin(), rtp_modules.end()); } } int ViEReceiver::ReceivedRTPPacket(const void* rtp_packet, int rtp_packet_length) { if (!receiving_) { return -1; } return InsertRTPPacket(static_cast(rtp_packet), rtp_packet_length); } int ViEReceiver::ReceivedRTCPPacket(const void* rtcp_packet, int rtcp_packet_length) { if (!receiving_) { return -1; } return InsertRTCPPacket(static_cast(rtcp_packet), rtcp_packet_length); } int32_t ViEReceiver::OnReceivedPayloadData( const uint8_t* payload_data, const uint16_t payload_size, const WebRtcRTPHeader* rtp_header) { if (rtp_header == NULL) { return 0; } // TODO(holmer): Make sure packets reconstructed using FEC are not passed to // the bandwidth estimator. const int packet_size = payload_size + rtp_header->header.paddingLength; uint32_t compensated_timestamp = rtp_header->header.timestamp + rtp_header->extension.transmissionTimeOffset; remote_bitrate_estimator_->IncomingPacket( rtp_header->header.ssrc, packet_size, TickTime::MillisecondTimestamp(), compensated_timestamp); if (vcm_->IncomingPacket(payload_data, payload_size, *rtp_header) != 0) { // Check this... return -1; } return 0; } void ViEReceiver::OnSendReportReceived(const int32_t id, const uint32_t senderSSRC, uint32_t ntp_secs, uint32_t ntp_frac, uint32_t timestamp) { remote_bitrate_estimator_->IncomingRtcp(senderSSRC, ntp_secs, ntp_frac, timestamp); } int ViEReceiver::InsertRTPPacket(const int8_t* rtp_packet, int rtp_packet_length) { // TODO(mflodman) Change decrypt to get rid of this cast. int8_t* tmp_ptr = const_cast(rtp_packet); unsigned char* received_packet = reinterpret_cast(tmp_ptr); int received_packet_length = rtp_packet_length; { CriticalSectionScoped cs(receive_cs_.get()); if (external_decryption_) { int decrypted_length = kViEMaxMtu; external_decryption_->decrypt(channel_id_, received_packet, decryption_buffer_, received_packet_length, &decrypted_length); if (decrypted_length <= 0) { WEBRTC_TRACE(webrtc::kTraceError, webrtc::kTraceVideo, channel_id_, "RTP decryption failed"); return -1; } else if (decrypted_length > kViEMaxMtu) { WEBRTC_TRACE(webrtc::kTraceCritical, webrtc::kTraceVideo, channel_id_, "InsertRTPPacket: %d bytes is allocated as RTP decrytption" " output, external decryption used %d bytes. => memory is " " now corrupted", kViEMaxMtu, decrypted_length); return -1; } received_packet = decryption_buffer_; received_packet_length = decrypted_length; } if (rtp_dump_) { rtp_dump_->DumpPacket(received_packet, static_cast(received_packet_length)); } } assert(rtp_rtcp_); // Should be set by owner at construction time. return rtp_rtcp_->IncomingPacket(received_packet, received_packet_length); } int ViEReceiver::InsertRTCPPacket(const int8_t* rtcp_packet, int rtcp_packet_length) { // TODO(mflodman) Change decrypt to get rid of this cast. int8_t* tmp_ptr = const_cast(rtcp_packet); unsigned char* received_packet = reinterpret_cast(tmp_ptr); int received_packet_length = rtcp_packet_length; { CriticalSectionScoped cs(receive_cs_.get()); if (external_decryption_) { int decrypted_length = kViEMaxMtu; external_decryption_->decrypt_rtcp(channel_id_, received_packet, decryption_buffer_, received_packet_length, &decrypted_length); if (decrypted_length <= 0) { WEBRTC_TRACE(webrtc::kTraceError, webrtc::kTraceVideo, channel_id_, "RTP decryption failed"); return -1; } else if (decrypted_length > kViEMaxMtu) { WEBRTC_TRACE(webrtc::kTraceCritical, webrtc::kTraceVideo, channel_id_, "InsertRTCPPacket: %d bytes is allocated as RTP " " decrytption output, external decryption used %d bytes. " " => memory is now corrupted", kViEMaxMtu, decrypted_length); return -1; } received_packet = decryption_buffer_; received_packet_length = decrypted_length; } if (rtp_dump_) { rtp_dump_->DumpPacket( received_packet, static_cast(received_packet_length)); } } { CriticalSectionScoped cs(receive_cs_.get()); std::list::iterator it = rtp_rtcp_simulcast_.begin(); while (it != rtp_rtcp_simulcast_.end()) { RtpRtcp* rtp_rtcp = *it++; rtp_rtcp->IncomingPacket(received_packet, received_packet_length); } } assert(rtp_rtcp_); // Should be set by owner at construction time. return rtp_rtcp_->IncomingPacket(received_packet, received_packet_length); } void ViEReceiver::StartReceive() { receiving_ = true; } void ViEReceiver::StopReceive() { receiving_ = false; } int ViEReceiver::StartRTPDump(const char file_nameUTF8[1024]) { CriticalSectionScoped cs(receive_cs_.get()); if (rtp_dump_) { // Restart it if it already exists and is started rtp_dump_->Stop(); } else { rtp_dump_ = RtpDump::CreateRtpDump(); if (rtp_dump_ == NULL) { WEBRTC_TRACE(webrtc::kTraceError, webrtc::kTraceVideo, channel_id_, "StartRTPDump: Failed to create RTP dump"); return -1; } } if (rtp_dump_->Start(file_nameUTF8) != 0) { RtpDump::DestroyRtpDump(rtp_dump_); rtp_dump_ = NULL; WEBRTC_TRACE(webrtc::kTraceError, webrtc::kTraceVideo, channel_id_, "StartRTPDump: Failed to start RTP dump"); return -1; } return 0; } int ViEReceiver::StopRTPDump() { CriticalSectionScoped cs(receive_cs_.get()); if (rtp_dump_) { if (rtp_dump_->IsActive()) { rtp_dump_->Stop(); } else { WEBRTC_TRACE(webrtc::kTraceError, webrtc::kTraceVideo, channel_id_, "StopRTPDump: Dump not active"); } RtpDump::DestroyRtpDump(rtp_dump_); rtp_dump_ = NULL; } else { WEBRTC_TRACE(webrtc::kTraceError, webrtc::kTraceVideo, channel_id_, "StopRTPDump: RTP dump not started"); return -1; } return 0; } // TODO(holmer): To be moved to ViEChannelGroup. void ViEReceiver::EstimatedReceiveBandwidth( unsigned int* available_bandwidth) const { std::vector ssrcs; // LatestEstimate returns an error if there is no valid bitrate estimate, but // ViEReceiver instead returns a zero estimate. remote_bitrate_estimator_->LatestEstimate(&ssrcs, available_bandwidth); if (!ssrcs.empty()) { *available_bandwidth /= ssrcs.size(); } else { *available_bandwidth = 0; } } } // namespace webrtc