/* * tuner.c: SAT>IP plugin for the Video Disk Recorder * * See the README file for copyright information and how to reach the author. * */ #include "common.h" #include "config.h" #include "discover.h" #include "poller.h" #include "tuner.h" cSatipTuner::cSatipTuner(cSatipDeviceIf &deviceP, unsigned int packetLenP) : cThread(cString::sprintf("SAT>IP %d tuner", deviceP.GetId())), sleepM(), deviceM(&deviceP), deviceIdM(deviceP.GetId()), rtspM(*this), rtpM(*this, packetLenP), rtcpM(*this, eApplicationMaxSizeB), streamAddrM(""), streamParamM(""), currentServerM(NULL), nextServerM(NULL), mutexM(), reConnectM(), keepAliveM(), statusUpdateM(), pidUpdateCacheM(), sessionM(""), currentStateM(tsIdle), internalStateM(), externalStateM(), timeoutM(eMinKeepAliveIntervalMs), hasLockM(false), signalStrengthM(-1), signalQualityM(-1), streamIdM(-1), addPidsM(), delPidsM(), pidsM() { debug("cSatipTuner::%s(%d) [device %d]", __FUNCTION__, packetLenP, deviceIdM); // Open sockets int i = 100; while (i-- > 0) { if (rtpM.Open(0) && rtcpM.Open(rtpM.Port() + 1)) break; rtpM.Close(); rtcpM.Close(); } if ((rtpM.Port() <= 0) || (rtcpM.Port() <= 0)) { error("Cannot open required RTP/RTCP ports [device %d]", deviceIdM); } // Must be done after socket initialization! cSatipPoller::GetInstance()->Register(rtpM); cSatipPoller::GetInstance()->Register(rtcpM); // Start thread Start(); } cSatipTuner::~cSatipTuner() { debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); // Stop thread sleepM.Signal(); if (Running()) Cancel(3); Close(); currentStateM = tsIdle; internalStateM.Clear(); externalStateM.Clear(); // Close the listening sockets cSatipPoller::GetInstance()->Unregister(rtcpM); cSatipPoller::GetInstance()->Unregister(rtpM); rtcpM.Close(); rtpM.Close(); } void cSatipTuner::Action(void) { debug("cSatipTuner::%s(): entering [device %d]", __FUNCTION__, deviceIdM); reConnectM.Set(eConnectTimeoutMs); // Do the thread loop while (Running()) { UpdateCurrentState(); switch (currentStateM) { case tsIdle: //debug("cSatipTuner::%s(): tsIdle [device %d]", __FUNCTION__, deviceIdM); break; case tsRelease: //debug("cSatipTuner::%s(): tsRelease [device %d]", __FUNCTION__, deviceIdM); Disconnect(); RequestState(tsIdle, smInternal); break; case tsSet: //debug("cSatipTuner::%s(): tsSet [device %d]", __FUNCTION__, deviceIdM); reConnectM.Set(eConnectTimeoutMs); Disconnect(); if (Connect()) { RequestState(tsTuned, smInternal); UpdatePids(true); } else { error("Tuning failed - re-tuning [device %d]", deviceIdM); RequestState(tsIdle, smInternal); } break; case tsTuned: //debug("cSatipTuner::%s(): tsTuned [device %d]", __FUNCTION__, deviceIdM); reConnectM.Set(eConnectTimeoutMs); // Read reception statistics via DESCRIBE and RTCP if (hasLockM || ReadReceptionStatus()) { // Quirk for devices without valid reception data if (currentServerM && currentServerM->Quirk(cSatipServer::eSatipQuirkForceLock)) { hasLockM = true; signalStrengthM = eDefaultSignalStrength; signalQualityM = eDefaultSignalQuality; } if (hasLockM) RequestState(tsLocked, smInternal); } break; case tsLocked: //debug("cSatipTuner::%s(): tsLocked [device %d]", __FUNCTION__, deviceIdM); if (!UpdatePids()) { error("Pid update failed - re-tuning [device %d]", deviceIdM); RequestState(tsSet, smInternal); break; } if (!KeepAlive()) { error("Keep-alive failed - re-tuning [device %d]", deviceIdM); RequestState(tsSet, smInternal); break; } if (reConnectM.TimedOut()) { error("Connection timeout - re-tuning [device %d]", deviceIdM); RequestState(tsSet, smInternal); break; } break; default: error("Unknown tuner status %d [device %d]", currentStateM, deviceIdM); break; } if (!StateRequested()) sleepM.Wait(eSleepTimeoutMs); // to avoid busy loop and reduce cpu load } debug("cSatipTuner::%s(): exiting [device %d]", __FUNCTION__, deviceIdM); } bool cSatipTuner::Open(void) { cMutexLock MutexLock(&mutexM); debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); RequestState(tsSet, smExternal); // return always true return true; } bool cSatipTuner::Close(void) { cMutexLock MutexLock(&mutexM); debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); RequestState(tsRelease, smExternal); // return always true return true; } bool cSatipTuner::Connect(void) { cMutexLock MutexLock(&mutexM); debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); if (!isempty(*streamAddrM)) { cString connectionUri = cString::sprintf("rtsp://%s/", *streamAddrM); cString uri = cString::sprintf("%s?%s", *connectionUri, *streamParamM); // Just retune if (streamIdM >= 0) { debug("cSatipTuner::%s(): retune [device %d]", __FUNCTION__, deviceIdM); if (rtspM.Setup(*uri, rtpM.Port(), rtcpM.Port())) { keepAliveM.Set(timeoutM); return true; } } else if (rtspM.Options(*connectionUri)) { // Flush any old content rtpM.Flush(); rtcpM.Flush(); if (nextServerM && nextServerM->Quirk(cSatipServer::eSatipQuirkSessionId)) rtspM.SetSession(SkipZeroes(*sessionM)); if (rtspM.Setup(*uri, rtpM.Port(), rtcpM.Port())) { keepAliveM.Set(timeoutM); if (nextServerM) { cSatipDiscover::GetInstance()->UseServer(nextServerM, true); currentServerM = nextServerM; nextServerM = NULL; } return true; } } streamIdM = -1; error("Connect failed [device %d]", deviceIdM); } return false; } bool cSatipTuner::Disconnect(void) { cMutexLock MutexLock(&mutexM); debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); if (!isempty(*streamAddrM) && (streamIdM >= 0)) { cString uri = cString::sprintf("rtsp://%s/stream=%d", *streamAddrM, streamIdM); rtspM.Teardown(*uri); streamIdM = -1; } // Reset signal parameters hasLockM = false; signalStrengthM = -1; signalQualityM = -1; if (currentServerM) cSatipDiscover::GetInstance()->UseServer(currentServerM, false); statusUpdateM.Set(0); timeoutM = eMinKeepAliveIntervalMs; addPidsM.Clear(); delPidsM.Clear(); // return always true return true; } void cSatipTuner::ProcessVideoData(u_char *bufferP, int lengthP) { //debug("cSatipTuner::%s(%d) [device %d]", __FUNCTION__, lengthP, deviceIdM); if (lengthP > 0) { AddTunerStatistic(lengthP); deviceM->WriteData(bufferP, lengthP); } reConnectM.Set(eConnectTimeoutMs); } void cSatipTuner::ProcessApplicationData(u_char *bufferP, int lengthP) { //debug("cSatipTuner::%s(%d) [device %d]", __FUNCTION__, lengthP, deviceIdM); // DVB-S2: // ver=.;src=;tuner=,,,,,,,,,,,;pids=,..., // DVB-T2: // ver=1.1;tuner=,,,,,,,,,,,,,;pids=,..., // DVB-C2: // ver=1.2;tuner=,,,,,,,,,,,,;pids=,..., if (lengthP > 0) { char s[lengthP]; memcpy(s, (char *)bufferP, lengthP); //debug("cSatipTuner::%s(%s) [device %d]", __FUNCTION__, s, deviceIdM); char *c = strstr(s, ";tuner="); if (c) { int value; // level: // Numerical value between 0 and 255 // An incoming L-band satellite signal of // -25dBm corresponds to 224 // -65dBm corresponds to 32 // No signal corresponds to 0 c = strstr(c, ","); value = atoi(++c); // Scale value to 0-100 signalStrengthM = (value >= 0) ? (value * 100 / 255) : -1; // lock: // lock Set to one of the following values: // "0" the frontend is not locked // "1" the frontend is locked c = strstr(c, ","); hasLockM = !!atoi(++c); // quality: // Numerical value between 0 and 15 // Lowest value corresponds to highest error rate // The value 15 shall correspond to // -a BER lower than 2x10-4 after Viterbi for DVB-S // -a PER lower than 10-7 for DVB-S2 c = strstr(c, ","); value = atoi(++c); // Scale value to 0-100 signalQualityM = (hasLockM && (value >= 0)) ? (value * 100 / 15) : 0; } } reConnectM.Set(eConnectTimeoutMs); } void cSatipTuner::SetStreamId(int streamIdP) { cMutexLock MutexLock(&mutexM); debug("cSatipTuner::%s(%d) [device %d]", __FUNCTION__, streamIdP, deviceIdM); streamIdM = streamIdP; } void cSatipTuner::SetSessionTimeout(const char *sessionP, int timeoutP) { cMutexLock MutexLock(&mutexM); debug("cSatipTuner::%s(%s, %d) [device %d]", __FUNCTION__, sessionP, timeoutP, deviceIdM); sessionM = sessionP; timeoutM = (timeoutP > eMinKeepAliveIntervalMs) ? timeoutP : eMinKeepAliveIntervalMs; } int cSatipTuner::GetId(void) { //debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); return deviceIdM; } bool cSatipTuner::SetSource(cSatipServer *serverP, const char *parameterP, const int indexP) { debug("cSatipTuner::%s(%s, %d) [device %d]", __FUNCTION__, parameterP, indexP, deviceIdM); cMutexLock MutexLock(&mutexM); if (serverP) { nextServerM = cSatipDiscover::GetInstance()->GetServer(serverP); if (nextServerM && !isempty(nextServerM->Address()) && !isempty(parameterP)) { // Update stream address and parameter streamAddrM = rtspM.RtspUnescapeString(nextServerM->Address()); streamParamM = rtspM.RtspUnescapeString(parameterP); } } else { streamAddrM = ""; streamParamM = ""; } return true; } bool cSatipTuner::SetPid(int pidP, int typeP, bool onP) { //debug("cSatipTuner::%s(%d, %d, %d) [device %d]", __FUNCTION__, pidP, typeP, onP, deviceIdM); cMutexLock MutexLock(&mutexM); if (onP) { pidsM.AddPid(pidP); addPidsM.AddPid(pidP); delPidsM.RemovePid(pidP); } else { pidsM.RemovePid(pidP); delPidsM.AddPid(pidP); addPidsM.RemovePid(pidP); } pidUpdateCacheM.Set(ePidUpdateIntervalMs); sleepM.Signal(); return true; } bool cSatipTuner::UpdatePids(bool forceP) { //debug("cSatipTuner::%s(%d) tunerState=%s [device %d]", __FUNCTION__, forceP, TunerStateString(currentStateM), deviceIdM); if (((forceP && pidsM.Size()) || (pidUpdateCacheM.TimedOut() && (addPidsM.Size() || delPidsM.Size()))) && !isempty(*streamAddrM) && (streamIdM > 0)) { cString uri = cString::sprintf("rtsp://%s/stream=%d", *streamAddrM, streamIdM); bool usedummy = !!(currentServerM && currentServerM->Quirk(cSatipServer::eSatipQuirkPlayPids)); if (forceP || usedummy) { if (pidsM.Size()) { uri = cString::sprintf("%s?pids=", *uri); for (int i = 0; i < pidsM.Size(); ++i) uri = cString::sprintf("%s%d%s", *uri, pidsM[i], (i == (pidsM.Size() - 1)) ? "" : ","); } if (usedummy && (pidsM.Size() == 1) && (pidsM[0] < 0x20)) uri = cString::sprintf("%s,%d", *uri, eDummyPid); } else { if (addPidsM.Size()) { uri = cString::sprintf("%s?addpids=", *uri); for (int i = 0; i < addPidsM.Size(); ++i) uri = cString::sprintf("%s%d%s", *uri, addPidsM[i], (i == (addPidsM.Size() - 1)) ? "" : ","); } if (delPidsM.Size()) { uri = cString::sprintf("%s%sdelpids=", *uri, addPidsM.Size() ? "&" : "?"); for (int i = 0; i < delPidsM.Size(); ++i) uri = cString::sprintf("%s%d%s", *uri, delPidsM[i], (i == (delPidsM.Size() - 1)) ? "" : ","); } } if (!rtspM.Play(*uri)) return false; addPidsM.Clear(); delPidsM.Clear(); } return true; } bool cSatipTuner::KeepAlive(bool forceP) { //debug("cSatipTuner::%s(%d) tunerState=%s [device %d]", __FUNCTION__, forceP, TunerStateString(currentStateM), deviceIdM); cMutexLock MutexLock(&mutexM); if (keepAliveM.TimedOut()) { keepAliveM.Set(timeoutM); forceP = true; } if (forceP && !isempty(*streamAddrM)) { cString uri = cString::sprintf("rtsp://%s/", *streamAddrM); if (!rtspM.Options(*uri)) return false; } return true; } bool cSatipTuner::ReadReceptionStatus(bool forceP) { //debug("cSatipTuner::%s(%d) tunerState=%s [device %d]", __FUNCTION__, forceP, TunerStateString(currentStateM), deviceIdM); cMutexLock MutexLock(&mutexM); if (statusUpdateM.TimedOut()) { statusUpdateM.Set(eStatusUpdateTimeoutMs); forceP = true; } if (forceP && !isempty(*streamAddrM) && (streamIdM > 0)) { cString uri = cString::sprintf("rtsp://%s/stream=%d", *streamAddrM, streamIdM); if (rtspM.Describe(*uri)) return true; } return false; } void cSatipTuner::UpdateCurrentState(void) { //debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); cMutexLock MutexLock(&mutexM); eTunerState state = currentStateM; if (internalStateM.Size()) { state = internalStateM.At(0); internalStateM.Remove(0); } else if (externalStateM.Size()) { state = externalStateM.At(0); externalStateM.Remove(0); } if (currentStateM != state) { debug("cSatipTuner::%s(): switching from %s to %s [device %d]", __FUNCTION__, TunerStateString(currentStateM), TunerStateString(state), deviceIdM); currentStateM = state; } } bool cSatipTuner::StateRequested(void) { cMutexLock MutexLock(&mutexM); //debug("cSatipTuner::%s() current=%s internal=%d external=%d [device %d]", __FUNCTION__, TunerStateString(currentStateM), internalStateM.Size(), externalStateM.Size(), deviceIdM); return (internalStateM.Size() || externalStateM.Size()); } bool cSatipTuner::RequestState(eTunerState stateP, eStateMode modeP) { cMutexLock MutexLock(&mutexM); debug("cSatipTuner::%s(%s, %s) current=%s internal=%d external=%d [device %d]", __FUNCTION__, TunerStateString(stateP), StateModeString(modeP), TunerStateString(currentStateM), internalStateM.Size(), externalStateM.Size(), deviceIdM); if (modeP == smExternal) externalStateM.Append(stateP); else if (modeP == smInternal) { eTunerState state = internalStateM.Size() ? internalStateM.At(internalStateM.Size() - 1) : currentStateM; // validate legal state changes switch (state) { case tsIdle: if (stateP == tsRelease) return false; case tsRelease: case tsSet: case tsLocked: case tsTuned: default: break; } internalStateM.Append(stateP); } else return false; return true; } const char *cSatipTuner::StateModeString(eStateMode modeP) { switch (modeP) { case smInternal: return "smInternal"; case smExternal: return "smExternal"; default: break; } return "---"; } const char *cSatipTuner::TunerStateString(eTunerState stateP) { switch (stateP) { case tsIdle: return "tsIdle"; case tsRelease: return "tsRelease"; case tsSet: return "tsSet"; case tsLocked: return "tsLocked"; case tsTuned: return "tsTuned"; default: break; } return "---"; } int cSatipTuner::SignalStrength(void) { //debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); return signalStrengthM; } int cSatipTuner::SignalQuality(void) { //debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); return signalQualityM; } bool cSatipTuner::HasLock(void) { //debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); return (currentStateM >= tsTuned) && hasLockM; } cString cSatipTuner::GetSignalStatus(void) { //debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); return cString::sprintf("lock=%d strength=%d quality=%d", HasLock(), SignalStrength(), SignalQuality()); } cString cSatipTuner::GetInformation(void) { //debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM); return (currentStateM >= tsTuned) ? cString::sprintf("rtsp://%s/?%s [stream=%d]", *streamAddrM, *streamParamM, streamIdM) : "connection failed"; }