// // libtgvoip is free and unencumbered public domain software. // For more information, see http://unlicense.org or the UNLICENSE file // you should have received with this source code distribution. // #include "VoIPController.h" #include "logging.h" #include "VoIPServerConfig.h" #include "PrivateDefines.h" #include #include #include using namespace tgvoip; using namespace std; VoIPGroupController::VoIPGroupController(int32_t timeDifference){ audioMixer=new AudioMixer(); memset(&callbacks, 0, sizeof(callbacks)); userSelfID=0; this->timeDifference=timeDifference; LOGV("Created VoIPGroupController; timeDifference=%d", timeDifference); } VoIPGroupController::~VoIPGroupController(){ if(audioOutput){ audioOutput->Stop(); } LOGD("before stop audio mixer"); audioMixer->Stop(); delete audioMixer; for(vector::iterator p=participants.begin();p!=participants.end();p++){ if(p->levelMeter) delete p->levelMeter; } } void VoIPGroupController::SetGroupCallInfo(unsigned char *encryptionKey, unsigned char *reflectorGroupTag, unsigned char *reflectorSelfTag, unsigned char *reflectorSelfSecret, unsigned char* reflectorSelfTagHash, int32_t selfUserID, NetworkAddress reflectorAddress, NetworkAddress reflectorAddressV6, uint16_t reflectorPort){ Endpoint e; e.address=reflectorAddress; e.v6address=reflectorAddressV6; e.port=reflectorPort; memcpy(e.peerTag, reflectorGroupTag, 16); e.type=Endpoint::Type::UDP_RELAY; e.id=FOURCC('G','R','P','R'); endpoints[e.id]=e; groupReflector=e; currentEndpoint=e.id; memcpy(this->encryptionKey, encryptionKey, 256); memcpy(this->reflectorSelfTag, reflectorSelfTag, 16); memcpy(this->reflectorSelfSecret, reflectorSelfSecret, 16); memcpy(this->reflectorSelfTagHash, reflectorSelfTagHash, 16); uint8_t sha256[SHA256_LENGTH]; crypto.sha256((uint8_t*) encryptionKey, 256, sha256); memcpy(callID, sha256+(SHA256_LENGTH-16), 16); memcpy(keyFingerprint, sha256+(SHA256_LENGTH-16), 8); this->userSelfID=selfUserID; //LOGD("reflectorSelfTag = %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X", reflectorSelfTag[0], reflectorSelfTag[1], reflectorSelfTag[2], reflectorSelfTag[3], reflectorSelfTag[4], reflectorSelfTag[5], reflectorSelfTag[6], reflectorSelfTag[7], reflectorSelfTag[8], reflectorSelfTag[9], reflectorSelfTag[10], reflectorSelfTag[11], reflectorSelfTag[12], reflectorSelfTag[13], reflectorSelfTag[14], reflectorSelfTag[15]); //LOGD("reflectorSelfSecret = %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X", reflectorSelfSecret[0], reflectorSelfSecret[1], reflectorSelfSecret[2], reflectorSelfSecret[3], reflectorSelfSecret[4], reflectorSelfSecret[5], reflectorSelfSecret[6], reflectorSelfSecret[7], reflectorSelfSecret[8], reflectorSelfSecret[9], reflectorSelfSecret[10], reflectorSelfSecret[11], reflectorSelfSecret[12], reflectorSelfSecret[13], reflectorSelfSecret[14], reflectorSelfSecret[15]); //LOGD("reflectorSelfTagHash = %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X", reflectorSelfTagHash[0], reflectorSelfTagHash[1], reflectorSelfTagHash[2], reflectorSelfTagHash[3], reflectorSelfTagHash[4], reflectorSelfTagHash[5], reflectorSelfTagHash[6], reflectorSelfTagHash[7], reflectorSelfTagHash[8], reflectorSelfTagHash[9], reflectorSelfTagHash[10], reflectorSelfTagHash[11], reflectorSelfTagHash[12], reflectorSelfTagHash[13], reflectorSelfTagHash[14], reflectorSelfTagHash[15]); } void VoIPGroupController::AddGroupCallParticipant(int32_t userID, unsigned char *memberTagHash, unsigned char* serializedStreams, size_t streamsLength){ if(userID==userSelfID) return; if(userSelfID==0) return; //if(streamsLength==0) // return; MutexGuard m(participantsMutex); LOGV("Adding group call user %d, streams length %u", userID, (unsigned int)streamsLength); for(vector::iterator p=participants.begin();p!=participants.end();++p){ if(p->userID==userID){ LOGE("user %d already added", userID); abort(); break; } } GroupCallParticipant p; p.userID=userID; memcpy(p.memberTagHash, memberTagHash, sizeof(p.memberTagHash)); p.levelMeter=new AudioLevelMeter(); BufferInputStream ss(serializedStreams, streamsLength); vector> streams=DeserializeStreams(ss); unsigned char audioStreamID=0; for(vector>::iterator _s=streams.begin();_s!=streams.end();++_s){ shared_ptr& s=*_s; s->userID=userID; if(s->type==STREAM_TYPE_AUDIO && s->codec==CODEC_OPUS && !audioStreamID){ audioStreamID=s->id; s->jitterBuffer=make_shared(nullptr, s->frameDuration); if(s->frameDuration>50) s->jitterBuffer->SetMinPacketCount((uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_initial_delay_60", 2)); else if(s->frameDuration>30) s->jitterBuffer->SetMinPacketCount((uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_initial_delay_40", 4)); else s->jitterBuffer->SetMinPacketCount((uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_initial_delay_20", 6)); s->callbackWrapper=make_shared(); s->decoder=make_shared(s->callbackWrapper, false, false); s->decoder->SetJitterBuffer(s->jitterBuffer); s->decoder->SetFrameDuration(s->frameDuration); s->decoder->SetDTX(true); s->decoder->SetLevelMeter(p.levelMeter); audioMixer->AddInput(s->callbackWrapper); } incomingStreams.push_back(s); } if(!audioStreamID){ LOGW("User %d has no usable audio stream", userID); } p.streams.insert(p.streams.end(), streams.begin(), streams.end()); participants.push_back(p); LOGI("Added group call participant %d", userID); } void VoIPGroupController::RemoveGroupCallParticipant(int32_t userID){ MutexGuard m(participantsMutex); vector>::iterator stm=incomingStreams.begin(); while(stm!=incomingStreams.end()){ if((*stm)->userID==userID){ LOGI("Removed stream %d belonging to user %d", (*stm)->id, userID); audioMixer->RemoveInput((*stm)->callbackWrapper); (*stm)->decoder->Stop(); //delete (*stm)->decoder; //delete (*stm)->jitterBuffer; //delete (*stm)->callbackWrapper; stm=incomingStreams.erase(stm); continue; } ++stm; } for(vector::iterator p=participants.begin();p!=participants.end();++p){ if(p->userID==userID){ if(p->levelMeter) delete p->levelMeter; participants.erase(p); LOGI("Removed group call participant %d", userID); break; } } } vector> VoIPGroupController::DeserializeStreams(BufferInputStream& in){ vector> res; try{ unsigned char count=in.ReadByte(); for(unsigned char i=0;i s=make_shared(); s->id=inner.ReadByte(); s->type=inner.ReadByte(); s->codec=(uint32_t) inner.ReadInt32(); uint32_t flags=(uint32_t) inner.ReadInt32(); s->enabled=(flags & STREAM_FLAG_ENABLED)==STREAM_FLAG_ENABLED; s->frameDuration=(uint16_t) inner.ReadInt16(); res.push_back(s); } }catch(out_of_range& x){ LOGW("Error deserializing streams: %s", x.what()); } return res; } void VoIPGroupController::SetParticipantStreams(int32_t userID, unsigned char *serializedStreams, size_t length){ LOGD("Set participant streams for %d", userID); MutexGuard m(participantsMutex); for(vector::iterator p=participants.begin();p!=participants.end();++p){ if(p->userID==userID){ BufferInputStream in(serializedStreams, length); vector> streams=DeserializeStreams(in); for(vector>::iterator ns=streams.begin();ns!=streams.end();++ns){ bool found=false; for(vector>::iterator s=p->streams.begin();s!=p->streams.end();++s){ if((*s)->id==(*ns)->id){ (*s)->enabled=(*ns)->enabled; if(groupCallbacks.participantAudioStateChanged) groupCallbacks.participantAudioStateChanged(this, userID, (*s)->enabled); found=true; break; } } if(!found){ LOGW("Tried to add stream %d for user %d but adding/removing streams is not supported", (*ns)->id, userID); } } break; } } } size_t VoIPGroupController::GetInitialStreams(unsigned char *buf, size_t size){ BufferOutputStream s(buf, size); s.WriteByte(1); // streams count s.WriteInt16(12); // this object length s.WriteByte(1); // stream id s.WriteByte(STREAM_TYPE_AUDIO); s.WriteInt32(CODEC_OPUS); s.WriteInt32(STREAM_FLAG_ENABLED | STREAM_FLAG_DTX); // flags s.WriteInt16(60); // frame duration return s.GetLength(); } void VoIPGroupController::SendInit(){ SendRecentPacketsRequest(); } void VoIPGroupController::ProcessIncomingPacket(NetworkPacket &packet, Endpoint& srcEndpoint){ //LOGD("Received incoming packet from %s:%u, %u bytes", packet.address->ToString().c_str(), packet.port, packet.length); /*if(packet.length<17 || packet.length>2000){ LOGW("Received packet has wrong length %d", (int)packet.length); return; } BufferOutputStream sigData(packet.length); sigData.WriteBytes(packet.data, packet.length-16); sigData.WriteBytes(reflectorSelfSecret, 16); unsigned char sig[32]; crypto.sha256(sigData.GetBuffer(), sigData.GetLength(), sig); if(memcmp(sig, packet.data+(packet.length-16), 16)!=0){ LOGW("Received packet has incorrect signature"); return; } // reflector special response if(memcmp(packet.data, reflectorSelfTagHash, 16)==0 && packet.length>60){ //LOGI("possible reflector special response"); unsigned char firstBlock[16]; unsigned char iv[16]; memcpy(iv, packet.data+16, 16); unsigned char key[32]; crypto.sha256(reflectorSelfSecret, 16, key); crypto.aes_cbc_decrypt(packet.data+32, firstBlock, 16, key, iv); BufferInputStream in(firstBlock, 16); in.Seek(8); size_t len=(size_t) in.ReadInt32(); int32_t tlid=in.ReadInt32(); //LOGD("special response: len=%d, tlid=0x%08X", len, tlid); if(len%4==0 && len+60<=packet.length && packet.length<=1500){ lastRecvPacketTime=GetCurrentTime(); memcpy(iv, packet.data+16, 16); unsigned char buf[1500]; crypto.aes_cbc_decrypt(packet.data+32, buf, len+16, key, iv); try{ if(tlid==TLID_UDP_REFLECTOR_LAST_PACKETS_INFO){ MutexGuard m(sentPacketsMutex); //LOGV("received udpReflector.lastPacketsInfo"); in=BufferInputStream(buf, len+16); in.Seek(16); /*int32_t date=* /in.ReadInt32(); /*int64_t queryID=* /in.ReadInt64(); int32_t vectorMagic=in.ReadInt32(); if(vectorMagic!=TLID_VECTOR){ LOGW("last packets info: expected vector, got %08X", vectorMagic); return; } int32_t recvCount=in.ReadInt32(); //LOGV("%d received packets", recvCount); for(int i=0;i::iterator pkt=recentSentPackets.begin();pkt!=recentSentPackets.end();++pkt){ //LOGV("== sent id %04X", pkt->id); if(pkt->id==id){ if(!pkt->ackTime){ pkt->ackTime=GetCurrentTime(); conctl->PacketAcknowledged(pkt->seq); //LOGV("relay acknowledged packet %u", pkt->seq); if(seqgt(pkt->seq, lastRemoteAckSeq)) lastRemoteAckSeq=pkt->seq; } break; } } } vectorMagic=in.ReadInt32(); if(vectorMagic!=TLID_VECTOR){ LOGW("last packets info: expected vector, got %08X", vectorMagic); return; } int32_t sentCount=in.ReadInt32(); //LOGV("%d sent packets", sentCount); for(int i=0;iStart(); } } } }catch(out_of_range& x){ LOGE("Error parsing special response: %s", x.what()); } return; } } if(packet.length<32) return; // it's a packet relayed from another participant - find the sender MutexGuard m(participantsMutex); GroupCallParticipant* sender=NULL; for(vector::iterator p=participants.begin();p!=participants.end();++p){ if(memcmp(packet.data, p->memberTagHash, 16)==0){ //LOGV("received data packet from user %d", p->userID); sender=&*p; break; } } if(!sender){ LOGV("Received data packet is from unknown user"); return; } if(memcmp(packet.data+16, keyFingerprint, 8)!=0){ LOGW("received packet has wrong key fingerprint"); return; } BufferInputStream in(packet.data, packet.length-16); in.Seek(16+8); // peer tag + key fingerprint unsigned char msgKey[16]; in.ReadBytes(msgKey, 16); unsigned char decrypted[1500]; unsigned char aesKey[32], aesIv[32]; KDF2(msgKey, 0, aesKey, aesIv); size_t decryptedLen=in.Remaining()-16; if(decryptedLen>sizeof(decrypted)) return; //LOGV("-> MSG KEY: %08x %08x %08x %08x, hashed %u", *reinterpret_cast(msgKey), *reinterpret_cast(msgKey+4), *reinterpret_cast(msgKey+8), *reinterpret_cast(msgKey+12), decryptedLen-4); uint8_t *decryptOffset = packet.data + in.GetOffset(); if ((((intptr_t)decryptOffset) % sizeof(long)) != 0) { LOGE("alignment2 packet.data+in.GetOffset()"); } if (decryptedLen % sizeof(long) != 0) { LOGE("alignment2 decryptedLen"); } crypto.aes_ige_decrypt(packet.data+in.GetOffset(), decrypted, decryptedLen, aesKey, aesIv); in=BufferInputStream(decrypted, decryptedLen); //LOGD("received packet length: %d", in.ReadInt32()); BufferOutputStream buf(decryptedLen+32); size_t x=0; buf.WriteBytes(encryptionKey+88+x, 32); buf.WriteBytes(decrypted+4, decryptedLen-4); unsigned char msgKeyLarge[32]; crypto.sha256(buf.GetBuffer(), buf.GetLength(), msgKeyLarge); if(memcmp(msgKey, msgKeyLarge+8, 16)!=0){ LOGW("Received packet from user %d has wrong hash", sender->userID); return; } uint32_t innerLen=(uint32_t) in.ReadInt32(); if(innerLen>decryptedLen-4){ LOGW("Received packet has wrong inner length (%d with total of %u)", (int)innerLen, (unsigned int)decryptedLen); return; } if(decryptedLen-innerLen<12){ LOGW("Received packet has too little padding (%u)", (unsigned int)(decryptedLen-innerLen)); return; } in=BufferInputStream(decrypted+4, (size_t) innerLen); uint32_t tlid=(uint32_t) in.ReadInt32(); if(tlid!=TLID_DECRYPTED_AUDIO_BLOCK){ LOGW("Received packet has unknown TL ID 0x%08x", tlid); return; } in.Seek(in.GetOffset()+16); // random bytes int32_t flags=in.ReadInt32(); if(!(flags & PFLAG_HAS_SEQ) || !(flags & PFLAG_HAS_SENDER_TAG_HASH)){ LOGW("Received packet has wrong flags"); return; } /*uint32_t seq=(uint32_t) * /in.ReadInt32(); unsigned char senderTagHash[16]; in.ReadBytes(senderTagHash, 16); if(memcmp(senderTagHash, sender->memberTagHash, 16)!=0){ LOGW("Received packet has wrong inner sender tag hash"); return; } //int32_t oneMoreInnerLengthWhyDoWeEvenNeedThis; if(flags & PFLAG_HAS_DATA){ /*oneMoreInnerLengthWhyDoWeEvenNeedThis=* /in.ReadTlLength(); } unsigned char type=(unsigned char) ((flags >> 24) & 0xFF); lastRecvPacketTime=GetCurrentTime(); if(type==PKT_STREAM_DATA || type==PKT_STREAM_DATA_X2 || type==PKT_STREAM_DATA_X3){ if(state!=STATE_ESTABLISHED && receivedInitAck) SetState(STATE_ESTABLISHED); int count; switch(type){ case PKT_STREAM_DATA_X2: count=2; break; case PKT_STREAM_DATA_X3: count=3; break; case PKT_STREAM_DATA: default: count=1; break; } int i; //if(srcEndpoint->type==Endpoint::Type::UDP_RELAY && srcEndpoint!=peerPreferredRelay){ // peerPreferredRelay=srcEndpoint; //} for(i=0;iStart(); audioOutStarted=true; }* / if(in.GetOffset()+sdlen>in.GetLength()){ return; } for(vector>::iterator stm=sender->streams.begin();stm!=sender->streams.end();++stm){ if((*stm)->id==streamID){ if((*stm)->jitterBuffer){ (*stm)->jitterBuffer->HandleInput(decrypted+4+in.GetOffset(), sdlen, pts, false); } break; } } if(iGetLocalInterfaceInfo(NULL, NULL); if(itfName!=activeNetItfName){ udpSocket->OnActiveInterfaceChanged(); LOGI("Active network interface changed: %s -> %s", activeNetItfName.c_str(), itfName.c_str()); bool isFirstChange=activeNetItfName.length()==0; activeNetItfName=itfName; if(isFirstChange) return; udpConnectivityState=UDP_UNKNOWN; udpPingCount=0; lastUdpPingTime=0; if(proxyProtocol==PROXY_SOCKS5) InitUDPProxy(); selectCanceller->CancelSelect(); } } void VoIPGroupController::SendRecentPacketsRequest(){ BufferOutputStream out(1024); out.WriteInt32(TLID_UDP_REFLECTOR_REQUEST_PACKETS_INFO); // TL function out.WriteInt32(GetCurrentUnixtime()); // date:int out.WriteInt64(0); // query_id:long out.WriteInt32(64); // recv_num:int out.WriteInt32(0); // sent_num:int SendSpecialReflectorRequest(out.GetBuffer(), out.GetLength()); } void VoIPGroupController::SendSpecialReflectorRequest(unsigned char *data, size_t len){ /*BufferOutputStream out(1024); unsigned char buf[1500]; crypto.rand_bytes(buf, 8); out.WriteBytes(buf, 8); out.WriteInt32((int32_t)len); out.WriteBytes(data, len); if(out.GetLength()%16!=0){ size_t paddingLen=16-(out.GetLength()%16); crypto.rand_bytes(buf, paddingLen); out.WriteBytes(buf, paddingLen); } unsigned char iv[16]; crypto.rand_bytes(iv, 16); unsigned char key[32]; crypto.sha256(reflectorSelfSecret, 16, key); unsigned char _iv[16]; memcpy(_iv, iv, 16); size_t encryptedLen=out.GetLength(); crypto.aes_cbc_encrypt(out.GetBuffer(), buf, encryptedLen, key, _iv); out.Reset(); out.WriteBytes(reflectorSelfTag, 16); out.WriteBytes(iv, 16); out.WriteBytes(buf, encryptedLen); out.WriteBytes(reflectorSelfSecret, 16); crypto.sha256(out.GetBuffer(), out.GetLength(), buf); out.Rewind(16); out.WriteBytes(buf, 16); NetworkPacket pkt={0}; pkt.address=&groupReflector.address; pkt.port=groupReflector.port; pkt.protocol=PROTO_UDP; pkt.data=out.GetBuffer(); pkt.length=out.GetLength(); ActuallySendPacket(pkt, groupReflector);*/ } void VoIPGroupController::SendRelayPings(){ //LOGV("Send relay pings 2"); double currentTime=GetCurrentTime(); if(currentTime-groupReflector.lastPingTime>=0.25){ SendRecentPacketsRequest(); groupReflector.lastPingTime=currentTime; } } void VoIPGroupController::OnAudioOutputReady(){ encoder->SetDTX(true); audioMixer->SetOutput(audioOutput); audioMixer->SetEchoCanceller(echoCanceller); audioMixer->Start(); audioOutput->Start(); audioOutStarted=true; encoder->SetLevelMeter(&selfLevelMeter); } void VoIPGroupController::WritePacketHeader(uint32_t seq, BufferOutputStream *s, unsigned char type, uint32_t length, PacketSender* source){ s->WriteInt32(TLID_DECRYPTED_AUDIO_BLOCK); int64_t randomID; crypto.rand_bytes((uint8_t *) &randomID, 8); s->WriteInt64(randomID); unsigned char randBytes[7]; crypto.rand_bytes(randBytes, 7); s->WriteByte(7); s->WriteBytes(randBytes, 7); uint32_t pflags=PFLAG_HAS_SEQ | PFLAG_HAS_SENDER_TAG_HASH; if(length>0) pflags|=PFLAG_HAS_DATA; pflags|=((uint32_t) type) << 24; s->WriteInt32(pflags); if(type==PKT_STREAM_DATA || type==PKT_STREAM_DATA_X2 || type==PKT_STREAM_DATA_X3){ conctl->PacketSent(seq, length); } /*if(pflags & PFLAG_HAS_CALL_ID){ s->WriteBytes(callID, 16); }*/ //s->WriteInt32(lastRemoteSeq); s->WriteInt32(seq); s->WriteBytes(reflectorSelfTagHash, 16); if(length>0){ if(length<=253){ s->WriteByte((unsigned char) length); }else{ s->WriteByte(254); s->WriteByte((unsigned char) (length & 0xFF)); s->WriteByte((unsigned char) ((length >> 8) & 0xFF)); s->WriteByte((unsigned char) ((length >> 16) & 0xFF)); } } } void VoIPGroupController::SendPacket(unsigned char *data, size_t len, Endpoint& ep, PendingOutgoingPacket& srcPacket){ if(stopping) return; if(ep.type==Endpoint::Type::TCP_RELAY && !useTCP) return; BufferOutputStream out(len+128); //LOGV("send group packet %u", len); out.WriteBytes(reflectorSelfTag, 16); if(len>0){ BufferOutputStream inner(len+128); inner.WriteInt32((uint32_t)len); inner.WriteBytes(data, len); size_t padLen=16-inner.GetLength()%16; if(padLen<12) padLen+=16; unsigned char padding[28]; crypto.rand_bytes((uint8_t *) padding, padLen); inner.WriteBytes(padding, padLen); assert(inner.GetLength()%16==0); unsigned char key[32], iv[32], msgKey[16]; out.WriteBytes(keyFingerprint, 8); BufferOutputStream buf(len+32); size_t x=0; buf.WriteBytes(encryptionKey+88+x, 32); buf.WriteBytes(inner.GetBuffer()+4, inner.GetLength()-4); unsigned char msgKeyLarge[32]; crypto.sha256(buf.GetBuffer(), buf.GetLength(), msgKeyLarge); memcpy(msgKey, msgKeyLarge+8, 16); KDF2(msgKey, 0, key, iv); out.WriteBytes(msgKey, 16); //LOGV("<- MSG KEY: %08x %08x %08x %08x, hashed %u", *reinterpret_cast(msgKey), *reinterpret_cast(msgKey+4), *reinterpret_cast(msgKey+8), *reinterpret_cast(msgKey+12), inner.GetLength()-4); unsigned char aesOut[MSC_STACK_FALLBACK(inner.GetLength(), 1500)]; crypto.aes_ige_encrypt(inner.GetBuffer(), aesOut, inner.GetLength(), key, iv); out.WriteBytes(aesOut, inner.GetLength()); } // relay signature out.WriteBytes(reflectorSelfSecret, 16); unsigned char sig[32]; crypto.sha256(out.GetBuffer(), out.GetLength(), sig); out.Rewind(16); out.WriteBytes(sig, 16); if(srcPacket.type==PKT_STREAM_DATA || srcPacket.type==PKT_STREAM_DATA_X2 || srcPacket.type==PKT_STREAM_DATA_X3){ PacketIdMapping mapping={srcPacket.seq, *reinterpret_cast(sig+14), 0}; MutexGuard m(sentPacketsMutex); recentSentPackets.push_back(mapping); //LOGD("sent packet with id: %04X", mapping.id); while(recentSentPackets.size()>64) recentSentPackets.erase(recentSentPackets.begin()); } lastSentSeq=srcPacket.seq; if(IS_MOBILE_NETWORK(networkType)) stats.bytesSentMobile+=(uint64_t)out.GetLength(); else stats.bytesSentWifi+=(uint64_t)out.GetLength(); /*NetworkPacket pkt={0}; pkt.address=(NetworkAddress*)&ep.address; pkt.port=ep.port; pkt.length=out.GetLength(); pkt.data=out.GetBuffer(); pkt.protocol=ep.type==Endpoint::Type::TCP_RELAY ? PROTO_TCP : PROTO_UDP; ActuallySendPacket(pkt, ep);*/ } void VoIPGroupController::SetCallbacks(VoIPGroupController::Callbacks callbacks){ VoIPController::SetCallbacks(callbacks); this->groupCallbacks=callbacks; } int32_t VoIPGroupController::GetCurrentUnixtime(){ return time(NULL)+timeDifference; } float VoIPGroupController::GetParticipantAudioLevel(int32_t userID){ if(userID==userSelfID) return selfLevelMeter.GetLevel(); MutexGuard m(participantsMutex); for(vector::iterator p=participants.begin(); p!=participants.end(); ++p){ if(p->userID==userID){ return p->levelMeter->GetLevel(); } } return 0; } void VoIPGroupController::SetMicMute(bool mute){ micMuted=mute; if(audioInput){ if(mute) audioInput->Stop(); else audioInput->Start(); if(!audioInput->IsInitialized()){ lastError=ERROR_AUDIO_IO; SetState(STATE_FAILED); return; } } outgoingStreams[0]->enabled=!mute; SerializeAndUpdateOutgoingStreams(); } void VoIPGroupController::SetParticipantVolume(int32_t userID, float volume){ MutexGuard m(participantsMutex); for(vector::iterator p=participants.begin();p!=participants.end();++p){ if(p->userID==userID){ for(vector>::iterator s=p->streams.begin();s!=p->streams.end();++s){ if((*s)->type==STREAM_TYPE_AUDIO){ if((*s)->decoder){ float db; if(volume==0.0f) db=-INFINITY; else if(volume<1.0f) db=-50.0f*(1.0f-volume); else if(volume>1.0f && volume<=2.0f) db=10.0f*(volume-1.0f); else db=0.0f; //LOGV("Setting user %u audio volume to %.2f dB", userID, db); audioMixer->SetInputVolume((*s)->callbackWrapper, db); } break; } } break; } } } void VoIPGroupController::SerializeAndUpdateOutgoingStreams(){ BufferOutputStream out(1024); out.WriteByte((unsigned char) outgoingStreams.size()); for(vector>::iterator s=outgoingStreams.begin(); s!=outgoingStreams.end(); ++s){ BufferOutputStream o(128); o.WriteByte((*s)->id); o.WriteByte((*s)->type); o.WriteInt32((*s)->codec); o.WriteInt32((unsigned char) (((*s)->enabled ? STREAM_FLAG_ENABLED : 0) | STREAM_FLAG_DTX)); o.WriteInt16((*s)->frameDuration); out.WriteInt16((int16_t) o.GetLength()); out.WriteBytes(o.GetBuffer(), o.GetLength()); } if(groupCallbacks.updateStreams) groupCallbacks.updateStreams(this, out.GetBuffer(), out.GetLength()); } std::string VoIPGroupController::GetDebugString(){ std::string r="Remote endpoints: \n"; char buffer[2048]; for(pair& _endpoint:endpoints){ Endpoint& endpoint=_endpoint.second; const char* type; switch(endpoint.type){ case Endpoint::Type::UDP_P2P_INET: type="UDP_P2P_INET"; break; case Endpoint::Type::UDP_P2P_LAN: type="UDP_P2P_LAN"; break; case Endpoint::Type::UDP_RELAY: type="UDP_RELAY"; break; case Endpoint::Type::TCP_RELAY: type="TCP_RELAY"; break; default: type="UNKNOWN"; break; } snprintf(buffer, sizeof(buffer), "%s:%u %dms [%s%s]\n", endpoint.address.ToString().c_str(), endpoint.port, (int)(endpoint.averageRTT*1000), type, currentEndpoint==endpoint.id ? ", IN_USE" : ""); r+=buffer; } double avgLate[3]; shared_ptr jitterBuffer=incomingStreams.size()==1 ? incomingStreams[0]->jitterBuffer : NULL; if(jitterBuffer) jitterBuffer->GetAverageLateCount(avgLate); else memset(avgLate, 0, 3*sizeof(double)); snprintf(buffer, sizeof(buffer), "RTT avg/min: %d/%d\n" "Congestion window: %d/%d bytes\n" "Key fingerprint: %02hhX%02hhX%02hhX%02hhX%02hhX%02hhX%02hhX%02hhX\n" "Last sent/ack'd seq: %u/%u\n" "Send/recv losses: %u/%u (%d%%)\n" "Audio bitrate: %d kbit\n" "Bytes sent/recvd: %llu/%llu\n\n", (int)(conctl->GetAverageRTT()*1000), (int)(conctl->GetMinimumRTT()*1000), int(conctl->GetInflightDataSize()), int(conctl->GetCongestionWindow()), keyFingerprint[0],keyFingerprint[1],keyFingerprint[2],keyFingerprint[3],keyFingerprint[4],keyFingerprint[5],keyFingerprint[6],keyFingerprint[7], lastSentSeq, lastRemoteAckSeq, conctl->GetSendLossCount(), recvLossCount, encoder ? encoder->GetPacketLoss() : 0, encoder ? (encoder->GetBitrate()/1000) : 0, (long long unsigned int)(stats.bytesSentMobile+stats.bytesSentWifi), (long long unsigned int)(stats.bytesRecvdMobile+stats.bytesRecvdWifi)); MutexGuard m(participantsMutex); for(vector::iterator p=participants.begin();p!=participants.end();++p){ snprintf(buffer, sizeof(buffer), "Participant id: %d\n", p->userID); r+=buffer; for(vector>::iterator stm=p->streams.begin();stm!=p->streams.end();++stm){ char* codec=reinterpret_cast(&(*stm)->codec); snprintf(buffer, sizeof(buffer), "Stream %d (type %d, codec '%c%c%c%c', %sabled)\n", (*stm)->id, (*stm)->type, codec[3], codec[2], codec[1], codec[0], (*stm)->enabled ? "en" : "dis"); r+=buffer; if((*stm)->enabled){ if((*stm)->jitterBuffer){ snprintf(buffer, sizeof(buffer), "Jitter buffer: %d/%.2f\n", (*stm)->jitterBuffer->GetMinPacketCount(), (*stm)->jitterBuffer->GetAverageDelay()); r+=buffer; } } } r+="\n"; } return r; }