#include "PjsuaCommunicator.hpp" #include #include #include #include using namespace std; namespace sip { using namespace log4cpp; class _LogWriter : public pj::LogWriter { public: _LogWriter(Category &logger) : logger(logger) { } virtual void write(const pj::LogEntry &entry) { auto message = entry.msg.substr(0, entry.msg.size() - 1); // remove newline logger << prioritiesMap.at(entry.level) << message; } private: log4cpp::Category &logger; std::map prioritiesMap = { {1, Priority::ERROR}, {2, Priority::WARN}, {3, Priority::NOTICE}, {4, Priority::INFO}, {5, Priority::DEBUG}, {6, Priority::DEBUG} }; }; class _MumlibAudioMedia : public pj::AudioMedia { public: _MumlibAudioMedia(sip::PjsuaCommunicator &comm) : communicator(comm) { createMediaPort(); registerMediaPort(&mediaPort); } ~_MumlibAudioMedia() { unregisterMediaPort(); } private: pjmedia_port mediaPort; sip::PjsuaCommunicator &communicator; static pj_status_t callback_getFrame(pjmedia_port *port, pjmedia_frame *frame) { auto *communicator = static_cast(port->port_data.pdata); return communicator->mediaPortGetFrame(port, frame); } static pj_status_t callback_putFrame(pjmedia_port *port, pjmedia_frame *frame) { auto *communicator = static_cast(port->port_data.pdata); return communicator->mediaPortPutFrame(port, frame); } void createMediaPort() { auto name = pj_str((char *) "MumsiMediaPort"); pj_status_t status = pjmedia_port_info_init(&(mediaPort.info), &name, PJMEDIA_SIG_CLASS_PORT_AUD('s', 'i'), SAMPLING_RATE, 1, 16, SAMPLING_RATE * 20 / 1000); // todo recalculate to match mumble specs if (status != PJ_SUCCESS) { throw sip::Exception("error while calling pjmedia_port_info_init()", status); } mediaPort.port_data.pdata = &communicator; mediaPort.get_frame = &callback_getFrame; mediaPort.put_frame = &callback_putFrame; } }; class _Call : public pj::Call { public: _Call(sip::PjsuaCommunicator &comm, pj::Account &acc, int call_id = PJSUA_INVALID_ID) : pj::Call(acc, call_id), communicator(comm), account(acc) { } virtual void onCallState(pj::OnCallStateParam &prm); virtual void onCallMediaState(pj::OnCallMediaStateParam &prm); virtual void onDtmfDigit(pj::OnDtmfDigitParam &prm); private: sip::PjsuaCommunicator &communicator; pj::Account &account; }; class _Account : public pj::Account { public: _Account(sip::PjsuaCommunicator &comm) : communicator(comm) { } virtual void onRegState(pj::OnRegStateParam &prm); virtual void onIncomingCall(pj::OnIncomingCallParam &iprm); private: sip::PjsuaCommunicator &communicator; bool available = true; friend class _Call; }; void _Call::onCallState(pj::OnCallStateParam &prm) { auto ci = getInfo(); communicator.logger.info("Call %d state=%s.", ci.id, ci.stateText.c_str()); string address = ci.remoteUri; boost::replace_all(address, "<", ""); boost::replace_all(address, ">", ""); if (ci.state == PJSIP_INV_STATE_CONFIRMED) { auto msgText = "Incoming call from " + address + "."; communicator.logger.notice(msgText); communicator.onStateChange(msgText); } else if (ci.state == PJSIP_INV_STATE_DISCONNECTED) { auto &acc = dynamic_cast<_Account &>(account); if (not acc.available) { auto msgText = "Call from " + address + " finished."; communicator.logger.notice(msgText); communicator.onStateChange(msgText); acc.available = true; } delete this; } } void _Call::onCallMediaState(pj::OnCallMediaStateParam &prm) { auto ci = getInfo(); if (ci.media.size() != 1) { throw sip::Exception("ci.media.size is not 1"); } if (ci.media[0].status == PJSUA_CALL_MEDIA_ACTIVE) { auto *aud_med = static_cast(getMedia(0)); communicator.media->startTransmit(*aud_med); aud_med->startTransmit(*communicator.media); } else if (ci.media[0].status == PJSUA_CALL_MEDIA_NONE) { dynamic_cast<_Account &>(account).available = true; } } void _Call::onDtmfDigit(pj::OnDtmfDigitParam &prm) { communicator.logger.notice("DTMF digit '%s' (call %d).", prm.digit.c_str(), getId()); } void _Account::onRegState(pj::OnRegStateParam &prm) { pj::AccountInfo ai = getInfo(); communicator.logger << log4cpp::Priority::INFO << (ai.regIsActive ? "Register:" : "Unregister:") << " code=" << prm.code; } void _Account::onIncomingCall(pj::OnIncomingCallParam &iprm) { auto *call = new _Call(communicator, *this, iprm.callId); string uri = call->getInfo().remoteUri; communicator.logger.info("Incoming call from %s.", uri.c_str()); pj::CallOpParam param; if (communicator.uriValidator.validateUri(uri)) { if (available) { param.statusCode = PJSIP_SC_OK; available = false; } else { param.statusCode = PJSIP_SC_BUSY_EVERYWHERE; } call->answer(param); } else { communicator.logger.warn("Refusing call from %s.", uri.c_str()); param.statusCode = PJSIP_SC_SERVICE_UNAVAILABLE; call->hangup(param); } } } sip::PjsuaCommunicator::PjsuaCommunicator(IncomingConnectionValidator &validator) : logger(log4cpp::Category::getInstance("SipCommunicator")), pjsuaLogger(log4cpp::Category::getInstance("Pjsua")), uriValidator(validator) { logWriter.reset(new sip::_LogWriter(pjsuaLogger)); endpoint.libCreate(); pj::EpConfig endpointConfig; endpointConfig.uaConfig.userAgent = "Mumsi Mumble-SIP gateway"; endpointConfig.uaConfig.maxCalls = 1; endpointConfig.logConfig.writer = logWriter.get(); endpointConfig.logConfig.level = 5; endpointConfig.medConfig.noVad = true; endpoint.libInit(endpointConfig); pj_status_t status; pj_caching_pool cachingPool; pj_caching_pool_init(&cachingPool, &pj_pool_factory_default_policy, 0); pool = pj_pool_create(&cachingPool.factory, "media", 32768, 8192, nullptr); if (!pool) { throw sip::Exception("error when creating memory pool", status); } // todo calculate sizes status = pjmedia_circ_buf_create(pool, 960 * 10, &inputBuff); if (status != PJ_SUCCESS) { throw sip::Exception("error when creating circular buffer", status); } media.reset(new _MumlibAudioMedia(*this)); } void sip::PjsuaCommunicator::connect( std::string host, std::string user, std::string password, unsigned int port) { pj::TransportConfig transportConfig; transportConfig.port = port; endpoint.transportCreate(PJSIP_TRANSPORT_UDP, transportConfig); // todo try catch endpoint.libStart(); pj_status_t status = pjsua_set_null_snd_dev(); if (status != PJ_SUCCESS) { throw sip::Exception("error in pjsua_set_null_std_dev()", status); } registerAccount(host, user, password); } sip::PjsuaCommunicator::~PjsuaCommunicator() { endpoint.libDestroy(); } pj_status_t sip::PjsuaCommunicator::mediaPortGetFrame(pjmedia_port *port, pjmedia_frame *frame) { std::unique_lock lock(inBuffAccessMutex); frame->type = PJMEDIA_FRAME_TYPE_AUDIO; pj_int16_t *samples = static_cast(frame->buf); pj_size_t count = frame->size / 2 / PJMEDIA_PIA_CCNT(&(port->info)); pj_size_t availableSamples = pjmedia_circ_buf_get_len(inputBuff); const int samplesToRead = std::min(count, availableSamples); pjsuaLogger.debug("Pulling %d samples from in-buff.", samplesToRead); pjmedia_circ_buf_read(inputBuff, samples, samplesToRead); if (availableSamples < count) { pjsuaLogger.debug("Requested %d samples, available %d, filling remaining with zeros.", count, availableSamples); for (int i = samplesToRead; i < count; ++i) { samples[i] = 0; } } return PJ_SUCCESS; } pj_status_t sip::PjsuaCommunicator::mediaPortPutFrame(pjmedia_port *port, pjmedia_frame *frame) { pj_int16_t *samples = static_cast(frame->buf); pj_size_t count = frame->size / 2 / PJMEDIA_PIA_CCNT(&port->info); frame->type = PJMEDIA_FRAME_TYPE_AUDIO; if (count > 0) { pjsuaLogger.debug("Calling onIncomingPcmSamples with %d samples.", count); onIncomingPcmSamples(samples, count); } return PJ_SUCCESS; } void sip::PjsuaCommunicator::registerAccount(string host, string user, string password) { string uri = "sip:" + user + "@" + host; pj::AccountConfig accountConfig; accountConfig.idUri = uri; accountConfig.regConfig.registrarUri = "sip:" + host; pj::AuthCredInfo cred("digest", "*", user, 0, password); accountConfig.sipConfig.authCreds.push_back(cred); logger.info("Registering account for URI: %s.", uri.c_str()); account.reset(new _Account(*this)); account->create(accountConfig); } void sip::PjsuaCommunicator::sendPcmSamples(int16_t *samples, unsigned int length) { std::unique_lock lock(inBuffAccessMutex); pjsuaLogger.debug("Pushing %d samples to in-buff.", length); pjmedia_circ_buf_write(inputBuff, samples, length); }