/* * ast_h323.cpp * * OpenH323 Channel Driver for ASTERISK PBX. * By Jeremy McNamara * For The NuFone Network * * This code has been derived from code created by * Michael Manousos and Mark Spencer * * This file is part of the chan_h323 driver for Asterisk * * chan_h323 is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * chan_h323 is distributed WITHOUT ANY WARRANTY; without even * the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR * PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include "ast_h323.h" #include "h323t38.h" /* PWlib Required Components */ #define MAJOR_VERSION 0 #define MINOR_VERSION 1 #define BUILD_TYPE ReleaseCode #define BUILD_NUMBER 0 /** Counter for the number of connections */ int channelsOpen; /* DTMF Mode */ int mode = H323_DTMF_RFC2833; /** Options for connections creation */ BOOL noFastStart; BOOL noH245Tunnelling; BOOL noSilenceSuppression; WORD jitter; /** * We assume that only one endPoint should exist. * The application cannot run the h323_end_point_create() more than once * FIXME: Singleton this, for safety */ MyH323EndPoint *endPoint = NULL; /** PWLib entry point */ MyProcess *localProcess = NULL; /** H.323 listener */ H323ListenerTCP *tcpListener; MyProcess::MyProcess(): PProcess("The NuFone Network's", "H.323 Channel Driver for Asterisk", MAJOR_VERSION, MINOR_VERSION, BUILD_TYPE, BUILD_NUMBER) { Resume(); } MyProcess::~MyProcess() { cout << " == PWLib proces going down." << endl; delete endPoint; endPoint = NULL; } void MyProcess::Main() { cout << " == Creating H.323 Endpoint" << endl; endPoint = new MyH323EndPoint(); PTrace::Initialise(0, NULL, PTrace::Timestamp | PTrace::Thread | PTrace::FileAndLine); } ClearCallThread::ClearCallThread(const char *tc) : PThread(10000, PThread::NoAutoDeleteThread) { token = tc; Resume(); } ClearCallThread::~ClearCallThread() { if (h323debug) cout << " == ClearCall thread going down." << endl; return; } void ClearCallThread::Main() { endPoint->ClearCall(token); return; } #define H323_NAME OPAL_G7231_6k3"{sw}" H323_REGISTER_CAPABILITY(H323_G7231Capability, H323_NAME); H323_G7231Capability::H323_G7231Capability(BOOL annexA_) : H323AudioCapability(7, 4) { annexA = annexA_; } PObject::Comparison H323_G7231Capability::Compare(const PObject & obj) const { Comparison result = H323AudioCapability::Compare(obj); if (result != EqualTo) return result; PINDEX otherAnnexA = ((const H323_G7231Capability &)obj).annexA; if (annexA < otherAnnexA) return LessThan; if (annexA > otherAnnexA) return GreaterThan; return EqualTo; } PObject * H323_G7231Capability::Clone() const { return new H323_G7231Capability(*this); } PString H323_G7231Capability::GetFormatName() const { return H323_NAME; } unsigned H323_G7231Capability::GetSubType() const { return H245_AudioCapability::e_g7231; } BOOL H323_G7231Capability::OnSendingPDU(H245_AudioCapability & cap, unsigned packetSize) const { cap.SetTag(H245_AudioCapability::e_g7231); H245_AudioCapability_g7231 & g7231 = cap; g7231.m_maxAl_sduAudioFrames = packetSize; g7231.m_silenceSuppression = annexA; return TRUE; } BOOL H323_G7231Capability::OnReceivedPDU(const H245_AudioCapability & cap, unsigned & packetSize) { if (cap.GetTag() != H245_AudioCapability::e_g7231) return FALSE; const H245_AudioCapability_g7231 & g7231 = cap; packetSize = g7231.m_maxAl_sduAudioFrames; annexA = g7231.m_silenceSuppression; return TRUE; } H323Codec * H323_G7231Capability::CreateCodec(H323Codec::Direction direction) const { return NULL; } /** MyH323EndPoint * The fullAddress parameter is used directly in the MakeCall method so * the General form for the fullAddress argument is : * [alias@][transport$]host[:port] * default values: alias = the same value as host. * transport = ip. * port = 1720. */ int MyH323EndPoint::MakeCall(const PString & dest, PString & token, unsigned int *callReference, unsigned int port) { PString fullAddress; /* Determine whether we are using a gatekeeper or not. */ if (GetGatekeeper() != NULL) { fullAddress = dest; if (h323debug) cout << " -- Making call to " << fullAddress << " using gatekeeper." << endl; } else { fullAddress = dest; /* host */ if (h323debug) cout << " -- Making call to " << fullAddress << "." << endl; } if (!H323EndPoint::MakeCall(fullAddress, token)) { if (h323debug) cout << "Error making call to \"" << fullAddress << '"' << endl; return 1; } MyH323Connection * connection = (MyH323Connection *)FindConnectionWithLock(token); if (connection != NULL) { *callReference = connection->GetCallReference(); connection->Unlock(); } if (h323debug) { cout << " -- " << GetLocalUserName() << " is calling host " << fullAddress << endl; cout << " -- " << "Call token is " << (const char *)token << endl; cout << " -- Call reference is " << *callReference << endl; } return 0; } void MyH323EndPoint::SetEndpointTypeInfo( H225_EndpointType & info ) const { H323EndPoint::SetEndpointTypeInfo(info); info.m_gateway.IncludeOptionalField(H225_GatewayInfo::e_protocol); info.m_gateway.m_protocol.SetSize(1); H225_SupportedProtocols &protocol=info.m_gateway.m_protocol[0]; protocol.SetTag(H225_SupportedProtocols::e_voice); PINDEX as=SupportedPrefixes.GetSize(); ((H225_VoiceCaps &)protocol).m_supportedPrefixes.SetSize(as); for (PINDEX p=0; pSendUserInputTone(tone, 500); connection->Unlock(); } } void MyH323EndPoint::OnClosedLogicalChannel(H323Connection & connection, const H323Channel & channel) { channelsOpen--; if (h323debug) cout << " channelsOpen = " << channelsOpen << endl; H323EndPoint::OnClosedLogicalChannel(connection, channel); } void MyH323EndPoint::OnConnectionEstablished(H323Connection & connection, const PString & estCallToken) { if (h323debug) cout << " -- Connection Established with \"" << connection.GetRemotePartyName() << "\"" << endl; on_connection_established(connection.GetCallReference()); } /** OnConnectionCleared callback function is called upon the dropping of an established * H323 connection. */ void MyH323EndPoint::OnConnectionCleared(H323Connection & connection, const PString & clearedCallToken) { PString remoteName = connection.GetRemotePartyName(); call_details_t cd; cd.call_reference = connection.GetCallReference(); cd.call_token = (const char *)connection.GetCallToken(); cd.call_source_aliases = (const char *)connection.GetRemotePartyName(); /* Convert complex strings */ char *s; if ((s = strchr(cd.call_source_aliases, ' ')) != NULL) *s = '\0'; /* Invoke the PBX application registered callback */ on_connection_cleared(cd); switch (connection.GetCallEndReason()) { case H323Connection::EndedByCallForwarded : break; case H323Connection::EndedByRemoteUser : if (h323debug) cout << " -- " << remoteName << " has cleared the call" << endl; break; case H323Connection::EndedByCallerAbort : if (h323debug) cout << " -- " << remoteName << " has stopped calling" << endl; break; case H323Connection::EndedByRefusal : if (h323debug) cout << " -- " << remoteName << " did not accept your call" << endl; break; case H323Connection::EndedByRemoteBusy : if (h323debug) cout << " -- " << remoteName << " was busy" << endl; break; case H323Connection::EndedByRemoteCongestion : if (h323debug) cout << " -- Congested link to " << remoteName << endl; break; case H323Connection::EndedByNoAnswer : if (h323debug) cout << " -- " << remoteName << " did not answer your call" << endl; break; case H323Connection::EndedByTransportFail : if (h323debug) cout << " -- Call with " << remoteName << " ended abnormally" << endl; break; case H323Connection::EndedByCapabilityExchange : if (h323debug) cout << " -- Could not find common codec with " << remoteName << endl; break; case H323Connection::EndedByNoAccept : if (h323debug) cout << " -- Did not accept incoming call from " << remoteName << endl; break; case H323Connection::EndedByAnswerDenied : if (h323debug) cout << " -- Refused incoming call from " << remoteName << endl; break; case H323Connection::EndedByNoUser : if (h323debug) cout << " -- Gatekeeper could not find user " << remoteName << endl; break; case H323Connection::EndedByNoBandwidth : if (h323debug) cout << " -- Call to " << remoteName << " aborted, insufficient bandwidth." << endl; break; case H323Connection::EndedByUnreachable : if (h323debug) cout << " -- " << remoteName << " could not be reached." << endl; break; case H323Connection::EndedByHostOffline : if (h323debug) cout << " -- " << remoteName << " is not online." << endl; break; case H323Connection::EndedByNoEndPoint : if (h323debug) cout << " -- No phone running for " << remoteName << endl; break; case H323Connection::EndedByConnectFail : if (h323debug) cout << " -- Transport error calling " << remoteName << endl; break; default : if (h323debug) cout << " -- Call with " << remoteName << " completed" << endl; } if(connection.IsEstablished()) if (h323debug) cout << " -- Call duration " << setprecision(0) << setw(5) << (PTime() - connection.GetConnectionStartTime()) << endl; } H323Connection * MyH323EndPoint::CreateConnection(unsigned callReference, void *outbound) { unsigned options = 0; if (noFastStart) options |= H323Connection::FastStartOptionDisable; if (noH245Tunnelling) options |= H323Connection::H245TunnelingOptionDisable; return new MyH323Connection(*this, callReference, options, jitter); } /* MyH323Connection */ MyH323Connection::MyH323Connection(MyH323EndPoint & ep, unsigned callReference, unsigned options, WORD jitter): H323Connection(ep, callReference, options) { remoteIpAddress = 0; // IP Address of remote endpoint remotePort = 0; // remote endpoint Data port (control is dataPort+1) if (h323debug) cout << " == New H.323 Connection created." << endl; return; } MyH323Connection::~MyH323Connection() { if (h323debug) cout << " == H.323 Connection deleted." << endl; return; } H323Connection::AnswerCallResponse MyH323Connection::OnAnswerCall(const PString & caller, const H323SignalPDU & /*setupPDU*/, H323SignalPDU & /*connectPDU*/) { /* The call will be answered later with "AnsweringCall()" function. */ return H323Connection::AnswerCallAlertWithMedia; } BOOL MyH323Connection::OnAlerting(const H323SignalPDU & /*alertingPDU*/, const PString & username) { if (h323debug) cout << " -- Ringing phone for \"" << username << "\"" << endl; return TRUE; } BOOL MyH323Connection::OnReceivedSignalSetup(const H323SignalPDU & setupPDU) { if (h323debug) cout << " -- Received SETUP message..." << endl; call_details_t cd; PString sourceE164; PString destE164; PString sourceAliases; PString destAliases; PString sourceIp; PIPSocket::Address Ip; WORD sourcePort; sourceAliases = setupPDU.GetSourceAliases(); destAliases = setupPDU.GetDestinationAlias(); sourceE164 = ""; setupPDU.GetSourceE164(sourceE164); destE164 = ""; setupPDU.GetDestinationE164(destE164); /* Convert complex strings */ // FIXME: deal more than one source alias char *s; if ((s = strchr(sourceAliases, ' ')) != NULL) *s = '\0'; if ((s = strchr(sourceAliases, '\t')) != NULL) *s = '\0'; char *s1; if ((s1 = strchr(destAliases, ' ')) != NULL) *s1 = '\0'; if ((s1 = strchr(destAliases, '\t')) != NULL) *s1 = '\0'; GetSignallingChannel()->GetRemoteAddress().GetIpAndPort(Ip, sourcePort); sourceIp = Ip.AsString(); cd.call_reference = GetCallReference(); cd.call_token = (const char *)GetCallToken(); cd.call_source_aliases = (const char *)sourceAliases; cd.call_dest_alias = (const char *)destAliases; cd.call_source_e164 = (const char *)sourceE164; cd.call_dest_e164 = (const char *)destE164; cd.sourceIp = (const char *)sourceIp; /* Notify Asterisk of the request */ int res = on_incoming_call(cd); if (!res) { if (h323debug) cout << " -- Call Failed" << endl; return FALSE; } return H323Connection::OnReceivedSignalSetup(setupPDU); } BOOL MyH323Connection::OnSendSignalSetup(H323SignalPDU & setupPDU) { call_details_t cd; if (h323debug) cout << " -- Sending SETUP message" << endl; sourceAliases = setupPDU.GetSourceAliases(); destAliases = setupPDU.GetDestinationAlias(); sourceE164 = ""; setupPDU.GetSourceE164(sourceE164); destE164 = ""; setupPDU.GetDestinationE164(destE164); /* Convert complex strings */ // FIXME: deal more than one source alias char *s; if ((s = strchr(sourceAliases, ' ')) != NULL) *s = '\0'; if ((s = strchr(sourceAliases, '\t')) != NULL) *s = '\0'; char *s1; if ((s1 = strchr(destAliases, ' ')) != NULL) *s1 = '\0'; if ((s1 = strchr(destAliases, '\t')) != NULL) *s1 = '\0'; cd.call_reference = GetCallReference(); cd.call_token = (const char *)GetCallToken(); cd.call_source_aliases = (const char *)sourceAliases; cd.call_dest_alias = (const char *)destAliases; cd.call_source_e164 = (const char *)sourceE164; cd.call_dest_e164 = (const char *)destE164; int res = on_outgoing_call(cd); if (!res) { if (h323debug) cout << " -- Call Failed" << endl; return FALSE; } return H323Connection::OnSendSignalSetup(setupPDU); } void MyH323Connection::OnReceivedReleaseComplete(const H323SignalPDU & pdu) { if (h323debug) cout << " -- Received RELEASE COMPLETE message..." << endl; return H323Connection::OnReceivedReleaseComplete(pdu); } BOOL MyH323Connection::OnClosingLogicalChannel(H323Channel & channel) { if (h323debug) cout << " -- Closing logical channel..." << endl; return H323Connection::OnClosingLogicalChannel(channel); } void MyH323Connection::SendUserInputTone(char tone, unsigned duration) { if (h323debug) cout << " -- Sending user input tone (" << tone << ") to remote" << endl; on_send_digit(GetCallReference(), tone); H323Connection::SendUserInputTone(tone, duration); } void MyH323Connection::OnUserInputTone(char tone, unsigned duration, unsigned logicalChannel, unsigned rtpTimestamp) { if (mode == H323_DTMF_INBAND) { if (h323debug) cout << " -- Received user input tone (" << tone << ") from remote" << endl; on_send_digit(GetCallReference(), tone); } H323Connection::OnUserInputTone(tone, duration, logicalChannel, rtpTimestamp); } void MyH323Connection::OnUserInputString(const PString &value) { if (mode == H323_DTMF_RFC2833) { if (h323debug) cout << " -- Received user input string (" << value << ") from remote." << endl; on_send_digit(GetCallReference(), value[0]); } } H323Channel * MyH323Connection::CreateRealTimeLogicalChannel(const H323Capability & capability, H323Channel::Directions dir, unsigned sessionID, const H245_H2250LogicalChannelParameters * /*param*/) { WORD port; /* Establish the Local (A side) IP Address */ GetControlChannel().GetLocalAddress().GetIpAndPort(externalIpAddress, port); /* Notify Asterisk of the request and get the port */ externalPort = on_create_connection(GetCallReference()); if (h323debug) { cout << " =*= In CreateRealTimeLogicalChannel" << endl; cout << " -- externalIpAddress: " << externalIpAddress << endl; cout << " -- externalPort: " << externalPort << endl; cout << " -- Direction: " << dir << endl; } return new H323_ExternalRTPChannel(*this, capability, dir, sessionID, externalIpAddress, externalPort); } /** This callback function is invoked once upon creation of each * channel for an H323 session */ BOOL MyH323Connection::OnStartLogicalChannel(H323Channel & channel) { if (h323debug) { cout << " -- Started logical channel: "; cout << ((channel.GetDirection()==H323Channel::IsTransmitter)?"sending ":((channel.GetDirection()==H323Channel::IsReceiver)?"receiving ":" ")); cout << (const char *)(channel.GetCapability()).GetFormatName() << endl; } // adjust the count of channels we have open channelsOpen++; if (h323debug) cout << " -- channelsOpen = " << channelsOpen << endl; H323_ExternalRTPChannel & external = (H323_ExternalRTPChannel &)channel; external.GetRemoteAddress(remoteIpAddress, remotePort); if (h323debug) { cout << " -- remoteIpAddress: " << remoteIpAddress << endl; cout << " -- remotePort: " << remotePort << endl; cout << " -- ExternalIpAddress: " << externalIpAddress << endl; cout << " -- ExternalPort: " << externalPort << endl; } /* Notify Asterisk of remote RTP information */ on_start_logical_channel(GetCallReference(), (const char *)remoteIpAddress.AsString(), remotePort); return TRUE; } #if 0 MyGatekeeperServer::MyGatekeeperServer(MyH323EndPoint & ep) : H323GatekeeperServer(ep), endpoint(ep) { } BOOL MyGatekeeperServer::Initialise() { PINDEX i; PWaitAndSignal mutex(reconfigurationMutex); SetGatekeeperIdentifier("TESTIES"); // Interfaces to listen on H323TransportAddressArray interfaces; interfaces.Append(new H323TransportAddress(0.0.0.0); AddListeners(interfaces); // lots more to come return TRUE; } #endif /** IMPLEMENTATION OF C FUNCTIONS */ /** * The extern "C" directive takes care for * the ANSI-C representation of linkable symbols */ extern "C" { int end_point_exist(void) { if (!endPoint) { return 0; } return 1; } void h323_end_point_create(void) { channelsOpen = 0; localProcess = new MyProcess(); localProcess->Main(); } void h323_gk_urq(void) { if (!end_point_exist()) { cout << " ERROR: [h323_gk_urq] No Endpoint, this is bad" << endl; return; } endPoint->RemoveGatekeeper(); } void h323_end_process(void) { delete localProcess; } void h323_debug(int flag, unsigned level) { if (flag) PTrace:: SetLevel(level); else PTrace:: SetLevel(0); } /** Installs the callback functions on behalf of the PBX application */ void h323_callback_register(setup_incoming_cb ifunc, setup_outbound_cb sfunc, on_connection_cb confunc, start_logchan_cb lfunc, clear_con_cb clfunc, con_established_cb efunc, send_digit_cb dfunc) { on_incoming_call = ifunc; on_outgoing_call = sfunc; on_create_connection = confunc; on_start_logical_channel = lfunc; on_connection_cleared = clfunc; on_connection_established = efunc; on_send_digit = dfunc; } /** * Add capability to the capability table of the end point. */ int h323_set_capability(int cap, int dtmfMode) { int g711Frames = 30; int gsmFrames = 4; if (!end_point_exist()) { cout << " ERROR: [h323_set_capablity] No Endpoint, this is bad" << endl; return 1; } mode = dtmfMode; if (dtmfMode == H323_DTMF_INBAND) endPoint->SetSendUserInputMode(H323Connection::SendUserInputAsTone); else endPoint->SetSendUserInputMode(H323Connection::SendUserInputAsInlineRFC2833); /* Hardcode this for now (Someone tell me if T.38 works now or provide me with some debug so we can make this work */ // endPoint->SetCapability(0, 0, new H323_T38Capability(H323_T38Capability::e_UDP)); if (cap & AST_FORMAT_SPEEX) { /* Not real sure if Asterisk acutally supports all of the various different bit rates so add them all and figure it out later*/ endPoint->SetCapability(0, 0, new SpeexNarrow2AudioCapability()); endPoint->SetCapability(0, 0, new SpeexNarrow3AudioCapability()); endPoint->SetCapability(0, 0, new SpeexNarrow4AudioCapability()); endPoint->SetCapability(0, 0, new SpeexNarrow5AudioCapability()); endPoint->SetCapability(0, 0, new SpeexNarrow6AudioCapability()); } if (cap & AST_FORMAT_G729A) { H323_G729ACapability *g729aCap; endPoint->SetCapability(0, 0, g729aCap = new H323_G729ACapability); } if (cap & AST_FORMAT_G723_1) { H323_G7231Capability *g7231Cap; endPoint->SetCapability(0, 0, g7231Cap = new H323_G7231Capability); } if (cap & AST_FORMAT_GSM) { H323_GSM0610Capability *gsmCap; endPoint->SetCapability(0, 0, gsmCap = new H323_GSM0610Capability); gsmCap->SetTxFramesInPacket(gsmFrames); } if (cap & AST_FORMAT_ULAW) { H323_G711Capability *g711uCap; endPoint->SetCapability(0, 0, g711uCap = new H323_G711Capability(H323_G711Capability::muLaw)); g711uCap->SetTxFramesInPacket(g711Frames); } if (cap & AST_FORMAT_ALAW) { H323_G711Capability *g711aCap; endPoint->SetCapability(0, 0, g711aCap = new H323_G711Capability(H323_G711Capability::ALaw)); g711aCap->SetTxFramesInPacket(g711Frames); } return 0; } /** Start the H.323 listener */ int h323_start_listener(int listenPort, struct sockaddr_in bindaddr, int _jitter) { if (!end_point_exist()) { cout << "ERROR: [h323_start_listener] No Endpoint, this is bad!" << endl; return 1; } jitter = _jitter; PIPSocket::Address interfaceAddress(bindaddr.sin_addr); tcpListener = new H323ListenerTCP(*endPoint, interfaceAddress, (WORD)listenPort); if (!endPoint->StartListener(tcpListener)) { cout << "ERROR: Could not open H.323 listener port on " << ((H323ListenerTCP *) tcpListener)->GetListenerPort() << endl; return 1; } cout << " == H.323 listener started on " << ((H323ListenerTCP *) tcpListener)->GetTransportAddress() << endl; return 0; }; int h323_set_alias(struct oh323_alias *alias) { char *p; char *num; PString h323id(alias->name); PString e164(alias->e164); if (!end_point_exist()) { cout << "ERROR: [h323_set_alias] No Endpoint, this is bad!" << endl; return 1; } cout << " == Adding alias \"" << h323id << "\" to endpoint" << endl; endPoint->AddAliasName(h323id); endPoint->RemoveAliasName(localProcess->GetUserName()); if (!e164.IsEmpty()) { cout << " == Adding E.164 \"" << e164 << "\" to endpoint" << endl; endPoint->AddAliasName(e164); } if (strlen(alias->prefix)) { p = alias->prefix; num = strsep(&p, ","); while(num) { cout << " == Adding Prefix \"" << num << "\" to endpoint" << endl; endPoint->SupportedPrefixes += PString(num); endPoint->SetGateway(); num = strsep(&p, ","); } } return 0; } /** Establish Gatekeeper communiations, if so configured, * register aliases for the H.323 endpoint to respond to. */ int h323_set_gk(int gatekeeper_discover, char *gatekeeper, char *secret) { PString gkName = PString(gatekeeper); PString pass = PString(secret); cout << "begining" << endl; if (!end_point_exist()) { cout << "ERROR: [h323_set_gk] No Endpoint, this is bad!" << endl; return 1; } if (!gatekeeper) { cout << "Error: Gatekeeper cannot be NULL" << endl; return 1; } if (strlen(secret)) { endPoint->SetGatekeeperPassword(pass); } if (gatekeeper_discover) { /* discover the gk using multicast */ if (endPoint->DiscoverGatekeeper(new H323TransportUDP(*endPoint))) { cout << " == Using " << (endPoint->GetGatekeeper())->GetName() << " as our Gatekeeper." << endl; } else { cout << " *** Could not find a gatekeeper." << endl; return 1; } } else { /* Gatekeeper operations */ H323TransportUDP *rasChannel = new H323TransportUDP(*endPoint); if (!rasChannel) { cout << " *** No RAS Channel, this is bad" << endl; return 1; } if (endPoint->SetGatekeeper(gkName, rasChannel)) { cout << " == Using " << (endPoint->GetGatekeeper())->GetName() << " as our Gatekeeper." << endl; } else { cout << " *** Error registering with gatekeeper \"" << gkName << "\". " << endl; return 1; } } cout << "end" << endl; return 0; } /** Send a DTMF tone over the H323Connection with the * specified token. */ void h323_send_tone(const char *call_token, char tone) { if (!end_point_exist()) { cout << "ERROR: [h323_send_tone] No Endpoint, this is bad!" << endl; return; } PString token = PString(call_token); endPoint->SendUserTone(token, tone); } /** Make a call to the remote endpoint. */ int h323_make_call(char *host, call_details_t *cd, call_options_t call_options) { int res; PString token; if (!end_point_exist()) { return 1; } PString dest = PString(host); cout << "dest: " << dest << endl; res = endPoint->MakeCall(dest, token, &cd->call_reference, call_options.port); memcpy((char *)(cd->call_token), (const unsigned char *)token, token.GetLength()); return res; }; int h323_clear_call(const char *call_token) { if (!end_point_exist()) { return 1; } ClearCallThread *clearCallThread = new ClearCallThread(call_token); clearCallThread->WaitForTermination(); return 0; }; /** This function tells the h.323 stack to either answer or deny an incoming call */ int h323_answering_call(const char *token, int busy) { const PString currentToken(token); H323Connection * connection; connection = endPoint->FindConnectionWithLock(currentToken); if (connection == NULL) { cout << "No connection found for " << token << endl; return -1; } if (!busy){ connection->AnsweringCall(H323Connection::AnswerCallNow); connection->Unlock(); } else { connection->AnsweringCall(H323Connection::AnswerCallDenied); connection->Unlock(); }; return 0; } int h323_show_codec(int fd, int argc, char *argv[]) { cout << "Allowed Codecs:\n\t" << setprecision(2) << endPoint->GetCapabilities() << endl; return 0; } /* alas, this doesn't work :( */ void h323_native_bridge(const char *token, char *them, char *us) { H323Channel *channel; H323Connection *connection = endPoint->FindConnectionWithLock(token); if (!connection){ cout << "ERROR: No connection active.\n"; return; } connection->Unlock(); channel = connection->FindChannel(RTP_Session::DefaultAudioSessionID, TRUE); H323_ExternalRTPChannel *external = (H323_ExternalRTPChannel *)channel; external->SetExternalAddress(them, us); // data (RTP), control (Asterisk) return; } } /* extern "C" */