/* * libretroshare/src/services p3vors.cc * * Voice Over Retroshare Service for RetroShare. * * Copyright 2011-2011 by Robert Fernie. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License Version 2 as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. * * Please report all bugs and problems to "retroshare@lunamutt.com". * */ #include "util/rsdir.h" #include "retroshare/rsiface.h" #include "pqi/pqibin.h" #include "pqi/pqinotify.h" #include "pqi/pqistore.h" #include "pqi/p3linkmgr.h" #include #include #include // for std::istringstream #include "services/p3vors.h" #include "services/rsvoipitems.h" #include "gui/PluginNotifier.h" #include /**** * #define DEBUG_VORS 1 ****/ /* DEFINE INTERFACE POINTER! */ RsVoip *rsVoip = NULL; #define MAX_PONG_RESULTS 150 #define VORS_PING_PERIOD 10 /************ IMPLEMENTATION NOTES ********************************* * * Voice over Retroshare ;) * * This will be a simple test VoIP system aimed at testing out the possibilities. * * Important things to test: * 1) lag, and variability in data rate * - To do this we time tag every packet..., the destination can use this info to calculate the results. * - Like imixitup. Dt = clock_diff + lag. * we expect clock_diff to be relatively constant, but lag to vary. * lag cannot be negative, so minimal Dt is ~clock_diff, and delays on this are considered +lag. * * 2) we could directly measure lag. ping back and forth with Timestamps. * * 3) we also want to measure bandwidth... * - not sure the best method? * one way: send a ping, then a large amount of data (5 seconds worth), then another ping. * the delta in timestamps should be a decent indication of bandwidth. * say we have a 100kb/s connection... need 500kb. * actually the amount of data should be based on a reasonable maximum that we require. * what does decent video require? * Audio we can test for 64kb/s - which seems like a decent rate: e.g. mono, 16bit 22k = 1 x 2 x 22k = 44 kilobytes/sec * best to do this without a VoIP call going on ;) * * */ #if 0 class RsVorsLagItem: public RsItem { public: uint32_t seqno; uint32_t type; // REQUEST, RESPONSE. double peerTs; }; class RsVorsDatatem: public RsItem { public: uint32_t seqno; uint32_t encoding; uint32_t audiolength; // in 44.1 kbs samples. uint32_t datalength; void *data; }; #endif #ifdef WINDOWS_SYS #include #include #endif static double getCurrentTS() { #ifndef WINDOWS_SYS struct timeval cts_tmp; gettimeofday(&cts_tmp, NULL); double cts = (cts_tmp.tv_sec) + ((double) cts_tmp.tv_usec) / 1000000.0; #else struct _timeb timebuf; _ftime( &timebuf); double cts = (timebuf.time) + ((double) timebuf.millitm) / 1000.0; #endif return cts; } static uint64_t convertTsTo64bits(double ts) { uint32_t secs = (uint32_t) ts; uint32_t usecs = (uint32_t) ((ts - (double) secs) * 1000000); uint64_t bits = (((uint64_t) secs) << 32) + usecs; return bits; } static double convert64bitsToTs(uint64_t bits) { uint32_t usecs = (uint32_t) (bits & 0xffffffff); uint32_t secs = (uint32_t) ((bits >> 32) & 0xffffffff); double ts = (secs) + ((double) usecs) / 1000000.0; return ts; } p3VoRS::p3VoRS(RsPluginHandler *handler,PluginNotifier *notifier) : RsPQIService(RS_SERVICE_TYPE_VOIP_PLUGIN,CONFIG_TYPE_VOIP_PLUGIN,0,handler), mVorsMtx("p3VoRS"), mLinkMgr(handler->getLinkMgr()) , mNotify(notifier) { addSerialType(new RsVoipSerialiser()); mSentPingTime = 0; mCounter = 0; //plugin default configuration _atransmit = 0; _voice_hold = 75; _vadmin = 16018; _vadmax = 23661; _min_loudness = 4702; _noise_suppress = -45; _echo_cancel = true; } int p3VoRS::tick() { #ifdef DEBUG_VORS std::cerr << "ticking p3VoRS" << std::endl; #endif //processIncoming(); sendPackets(); return 0; } int p3VoRS::status() { return 1; } int p3VoRS::sendPackets() { time_t now = time(NULL); time_t pt; { RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ pt = mSentPingTime; } if (now - pt > VORS_PING_PERIOD) { sendPingMeasurements(); RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ mSentPingTime = now; } return true ; } int p3VoRS::sendVoipHangUpCall(const std::string& peer_id) { RsVoipProtocolItem *item = new RsVoipProtocolItem ; item->protocol = RsVoipProtocolItem::VoipProtocol_Close; item->flags = 0 ; item->PeerId(peer_id) ; sendItem(item) ; return true ; } int p3VoRS::sendVoipAcceptCall(const std::string& peer_id) { RsVoipProtocolItem *item = new RsVoipProtocolItem ; item->protocol = RsVoipProtocolItem::VoipProtocol_Ackn ; item->flags = 0 ; item->PeerId(peer_id) ; sendItem(item) ; return true ; } int p3VoRS::sendVoipRinging(const std::string& peer_id) { RsVoipProtocolItem *item = new RsVoipProtocolItem ; item->protocol = RsVoipProtocolItem::VoipProtocol_Ring ; item->flags = 0 ; item->PeerId(peer_id) ; sendItem(item) ; return true ; } int p3VoRS::sendVoipData(const std::string& peer_id,const RsVoipDataChunk& chunk) { #ifdef DEBUG_VORS std::cerr << "Sending " << chunk.size << " bytes of voip data." << std::endl; #endif RsVoipDataItem *item = new RsVoipDataItem ; if(!item) { std::cerr << "Cannot allocate RsVoipDataItem !" << std::endl; return false ; } item->voip_data = malloc(chunk.size) ; if(item->voip_data == NULL) { std::cerr << "Cannot allocate RsVoipDataItem.voip_data of size " << chunk.size << " !" << std::endl; return false ; } memcpy(item->voip_data,chunk.data,chunk.size) ; item->flags = 0 ; item->PeerId(peer_id) ; item->data_size = chunk.size; sendItem(item) ; return true ; } void p3VoRS::sendPingMeasurements() { /* we ping our peers */ /* who is online? */ std::list idList; mLinkMgr->getOnlineList(idList); double ts = getCurrentTS(); #ifdef DEBUG_VORS std::cerr << "p3VoRS::sendPingMeasurements() @ts: " << ts; std::cerr << std::endl; #endif /* prepare packets */ std::list::iterator it; for(it = idList.begin(); it != idList.end(); it++) { #ifdef DEBUG_VORS std::cerr << "p3VoRS::sendPingMeasurements() Pinging: " << *it; std::cerr << std::endl; #endif /* create the packet */ RsVoipPingItem *pingPkt = new RsVoipPingItem(); pingPkt->PeerId(*it); pingPkt->mSeqNo = mCounter; pingPkt->mPingTS = convertTsTo64bits(ts); storePingAttempt(*it, ts, mCounter); #ifdef DEBUG_VORS std::cerr << "p3VoRS::sendPingMeasurements() With Packet:"; std::cerr << std::endl; pingPkt->print(std::cerr, 10); #endif sendItem(pingPkt); } RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ mCounter++; } void p3VoRS::handleProtocol(RsVoipProtocolItem *item) { // should we keep a list of received requests? switch(item->protocol) { case RsVoipProtocolItem::VoipProtocol_Ring: mNotify->notifyReceivedVoipInvite(item->PeerId()); #ifdef DEBUG_VORS std::cerr << "p3VoRS::handleProtocol(): Received protocol ring item." << std::endl; #endif break ; case RsVoipProtocolItem::VoipProtocol_Ackn: mNotify->notifyReceivedVoipAccept(item->PeerId()); #ifdef DEBUG_VORS std::cerr << "p3VoRS::handleProtocol(): Received protocol accept call" << std::endl; #endif break ; case RsVoipProtocolItem::VoipProtocol_Close: mNotify->notifyReceivedVoipHangUp(item->PeerId()); #ifdef DEBUG_VORS std::cerr << "p3VoRS::handleProtocol(): Received protocol Close call." << std::endl; #endif break ; default: #ifdef DEBUG_VORS std::cerr << "p3VoRS::handleProtocol(): Received protocol item # " << item->protocol << ": not handled yet ! Sorry" << std::endl; #endif break ; } } void p3VoRS::handleData(RsVoipDataItem *item) { RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ // store the data in a queue. std::map::iterator it = mPeerInfo.find(item->PeerId()) ; if(it == mPeerInfo.end()) { std::cerr << "Peer unknown to VOIP process. Dropping data" << std::endl; delete item ; } else { it->second.incoming_queue.push_back(item) ; // be careful with the delete action! mNotify->notifyReceivedVoipData(item->PeerId()); } } bool p3VoRS::getIncomingData(const std::string& peer_id,std::vector& incoming_data_chunks) { RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ incoming_data_chunks.clear() ; std::map::iterator it = mPeerInfo.find(peer_id) ; if(it == mPeerInfo.end()) { std::cerr << "Peer unknown to VOIP process. No data returned. Probably a bug !" << std::endl; return false ; } for(std::list::const_iterator it2(it->second.incoming_queue.begin());it2!=it->second.incoming_queue.end();++it2) { RsVoipDataChunk chunk ; chunk.size = (*it2)->data_size ; chunk.data = malloc((*it2)->data_size) ; memcpy(chunk.data,(*it2)->voip_data,(*it2)->data_size) ; incoming_data_chunks.push_back(chunk) ; delete *it2 ; } it->second.incoming_queue.clear() ; return true ; } bool p3VoRS::recvItem(RsItem *item) { /* pass to specific handler */ bool keep = false ; switch(item->PacketSubType()) { case RS_PKT_SUBTYPE_VOIP_PING: handlePing(dynamic_cast(item)); break; case RS_PKT_SUBTYPE_VOIP_PONG: handlePong(dynamic_cast(item)); break; case RS_PKT_SUBTYPE_VOIP_PROTOCOL: handleProtocol(dynamic_cast(item)) ; break ; case RS_PKT_SUBTYPE_VOIP_DATA: handleData(dynamic_cast(item)); keep = true ; break; #if 0 /* THESE ARE ALL FUTURISTIC DATA TYPES */ case RS_BANDWIDTH_PING_ITEM: handleBandwidthPing(item); break; case RS_BANDWIDTH_PONG_ITEM: handleBandwidthPong(item); break; #endif default: break; } /* clean up */ if(!keep) delete item; return true ; } int p3VoRS::handlePing(RsVoipPingItem *ping) { /* cast to right type */ #ifdef DEBUG_VORS std::cerr << "p3VoRS::handlePing() Recvd Packet from: " << ping->PeerId(); std::cerr << std::endl; #endif /* with a ping, we just respond as quickly as possible - they do all the analysis */ RsVoipPongItem *pong = new RsVoipPongItem(); pong->PeerId(ping->PeerId()); pong->mPingTS = ping->mPingTS; pong->mSeqNo = ping->mSeqNo; // add our timestamp. double ts = getCurrentTS(); pong->mPongTS = convertTsTo64bits(ts); #ifdef DEBUG_VORS std::cerr << "p3VoRS::handlePing() With Packet:"; std::cerr << std::endl; pong->print(std::cerr, 10); #endif sendItem(pong); return true ; } int p3VoRS::handlePong(RsVoipPongItem *pong) { /* cast to right type */ #ifdef DEBUG_VORS std::cerr << "p3VoRS::handlePong() Recvd Packet from: " << pong->PeerId(); std::cerr << std::endl; pong->print(std::cerr, 10); #endif /* with a pong, we do the maths! */ double recvTS = getCurrentTS(); double pingTS = convert64bitsToTs(pong->mPingTS); double pongTS = convert64bitsToTs(pong->mPongTS); double rtt = recvTS - pingTS; double offset = pongTS - (recvTS - rtt / 2.0); // so to get to their time, we go ourTS + offset. #ifdef DEBUG_VORS std::cerr << "p3VoRS::handlePong() Timing:"; std::cerr << std::endl; std::cerr << "\tpingTS: " << pingTS; std::cerr << std::endl; std::cerr << "\tpongTS: " << pongTS; std::cerr << std::endl; std::cerr << "\trecvTS: " << recvTS; std::cerr << std::endl; std::cerr << "\t ==> rtt: " << rtt; std::cerr << std::endl; std::cerr << "\t ==> offset: " << offset; std::cerr << std::endl; #endif storePongResult(pong->PeerId(), pong->mSeqNo, pingTS, rtt, offset); return true ; } int p3VoRS::storePingAttempt(std::string id, double ts, uint32_t seqno) { RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ /* find corresponding local data */ VorsPeerInfo *peerInfo = locked_GetPeerInfo(id); peerInfo->mCurrentPingTS = ts; peerInfo->mCurrentPingCounter = seqno; peerInfo->mSentPings++; if (!peerInfo->mCurrentPongRecvd) { peerInfo->mLostPongs++; } peerInfo->mCurrentPongRecvd = true; return 1; } int p3VoRS::storePongResult(std::string id, uint32_t counter, double ts, double rtt, double offset) { RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ /* find corresponding local data */ VorsPeerInfo *peerInfo = locked_GetPeerInfo(id); if (peerInfo->mCurrentPingCounter != counter) { #ifdef DEBUG_VORS std::cerr << "p3VoRS::storePongResult() ERROR Severly Delayed Measurements!" << std::endl; #endif } else { peerInfo->mCurrentPongRecvd = true; } peerInfo->mPongResults.push_back(RsVoipPongResult(ts, rtt, offset)); while(peerInfo->mPongResults.size() > MAX_PONG_RESULTS) { peerInfo->mPongResults.pop_front(); } /* should do calculations */ return 1; } uint32_t p3VoRS::getPongResults(std::string id, int n, std::list &results) { RsStackMutex stack(mVorsMtx); /****** LOCKED MUTEX *******/ VorsPeerInfo *peer = locked_GetPeerInfo(id); std::list::reverse_iterator it; int i = 0; for(it = peer->mPongResults.rbegin(); (it != peer->mPongResults.rend()) && (i < n); it++, i++) { /* reversing order - so its easy to trim later */ results.push_back(*it); } return i ; } VorsPeerInfo *p3VoRS::locked_GetPeerInfo(std::string id) { std::map::iterator it; it = mPeerInfo.find(id); if (it == mPeerInfo.end()) { /* add it in */ VorsPeerInfo pinfo; /* initialise entry */ pinfo.initialisePeerInfo(id); mPeerInfo[id] = pinfo; it = mPeerInfo.find(id); } return &(it->second); } bool VorsPeerInfo::initialisePeerInfo(std::string id) { mId = id; /* reset variables */ mCurrentPingTS = 0; mCurrentPingCounter = 0; mCurrentPongRecvd = true; mSentPings = 0; mLostPongs = 0; mPongResults.clear(); return true; } void p3VoRS::setVoipATransmit(int t) { _atransmit = t ; IndicateConfigChanged() ; } void p3VoRS::setVoipVoiceHold(int vh) { _voice_hold = vh ; IndicateConfigChanged() ; } void p3VoRS::setVoipfVADmin(int vad) { _vadmin = vad ; IndicateConfigChanged() ; } void p3VoRS::setVoipfVADmax(int vad) { _vadmax = vad ; IndicateConfigChanged() ; } void p3VoRS::setVoipiNoiseSuppress(int n) { _noise_suppress = n ; IndicateConfigChanged() ; } void p3VoRS::setVoipiMinLoudness(int ml) { _min_loudness = ml ; IndicateConfigChanged() ; } void p3VoRS::setVoipEchoCancel(bool b) { _echo_cancel = b ; IndicateConfigChanged() ; } RsTlvKeyValue p3VoRS::push_int_value(const std::string& key,int value) { RsTlvKeyValue kv ; kv.key = key ; rs_sprintf(kv.value, "%d", value); return kv ; } int p3VoRS::pop_int_value(const std::string& s) { std::istringstream is(s) ; int val ; is >> val ; return val ; } bool p3VoRS::saveList(bool& cleanup, std::list& lst) { cleanup = true ; RsConfigKeyValueSet *vitem = new RsConfigKeyValueSet ; vitem->tlvkvs.pairs.push_back(push_int_value("P3VOIP_CONFIG_ATRANSMIT",_atransmit)) ; vitem->tlvkvs.pairs.push_back(push_int_value("P3VOIP_CONFIG_VOICEHOLD",_voice_hold)) ; vitem->tlvkvs.pairs.push_back(push_int_value("P3VOIP_CONFIG_VADMIN" ,_vadmin)) ; vitem->tlvkvs.pairs.push_back(push_int_value("P3VOIP_CONFIG_VADMAX" ,_vadmax)) ; vitem->tlvkvs.pairs.push_back(push_int_value("P3VOIP_CONFIG_NOISE_SUP",_noise_suppress)) ; vitem->tlvkvs.pairs.push_back(push_int_value("P3VOIP_CONFIG_MIN_LOUDN",_min_loudness)) ; vitem->tlvkvs.pairs.push_back(push_int_value("P3VOIP_CONFIG_ECHO_CNCL",_echo_cancel)) ; lst.push_back(vitem) ; return true ; } bool p3VoRS::loadList(std::list& load) { for(std::list::const_iterator it(load.begin());it!=load.end();++it) { #ifdef P3TURTLE_DEBUG assert(item!=NULL) ; #endif RsConfigKeyValueSet *vitem = dynamic_cast(*it) ; if(vitem != NULL) for(std::list::const_iterator kit = vitem->tlvkvs.pairs.begin(); kit != vitem->tlvkvs.pairs.end(); ++kit) if(kit->key == "P3VOIP_CONFIG_ATRANSMIT") _atransmit = pop_int_value(kit->value) ; else if(kit->key == "P3VOIP_CONFIG_VOICEHOLD") _voice_hold = pop_int_value(kit->value) ; else if(kit->key == "P3VOIP_CONFIG_VADMIN") _vadmin = pop_int_value(kit->value) ; else if(kit->key == "P3VOIP_CONFIG_VADMAX") _vadmax = pop_int_value(kit->value) ; else if(kit->key == "P3VOIP_CONFIG_NOISE_SUP") _noise_suppress = pop_int_value(kit->value) ; else if(kit->key == "P3VOIP_CONFIG_MIN_LOUDN") _min_loudness = pop_int_value(kit->value) ; else if(kit->key == "P3VOIP_CONFIG_ECHO_CNCL") _echo_cancel = pop_int_value(kit->value) ; delete vitem ; } return true ; } RsSerialiser *p3VoRS::setupSerialiser() { RsSerialiser *rsSerialiser = new RsSerialiser(); rsSerialiser->addSerialType(new RsVoipSerialiser()); rsSerialiser->addSerialType(new RsGeneralConfigSerialiser()); return rsSerialiser ; }