bool Manager::MakeCall(const PString &remoteParty)
{
cout << "Setting up a call to: " << remoteParty << endl;
PString token;
if (TPState::Instance().GetProtocol() != TPState::RTP) {
if (!SetUpCall("local:*", remoteParty, token)) {
cerr << "Call setup to " << remoteParty << " failed" << endl;
return false;
}
} else {
// setting up rtp, split desination into ip and port parts
PStringArray arr = remoteParty.Tokenise(":");
if (arr.GetSize() != 2) {
std::cerr << "invalid address: " << remoteParty << std::endl;
return false;
}
// create rtp session
RTP_Session::Params p;
p.id = OpalMediaType::Audio().GetDefinition()->GetDefaultSessionId();
p.encoding = OpalMediaType::Audio().GetDefinition()->GetRTPEncoding();
p.userData = new RTPUserData;
//m_rtpsession->SetUserData(new RTPUserData);
m_rtpsession = new RTPSession(p);
m_rtpsession->SelectAudioFormat(RTPSession::PCM16);
// local and remote addresses
PIPSocket::Address remote(arr[0]);
PIPSocket::Address local(TPState::Instance().GetLocalAddress());
if (!m_rtpsession->SetRemoteSocketInfo(remote, arr[1].AsInteger(), true)) {
cerr << "could not set remote socket info" << endl;
return false;
}
if (!m_rtpsession->Open(local,
TPState::Instance().GetListenPort(),
TPState::Instance().GetListenPort(), 2)) {
cerr << "could not open rtp session" << endl;
return false;
}
m_rtpsession->SetJitterBufferSize(100, 1000);
std::cout
<< "RTP local address: " << local << std::endl
<< "RTP local data port: " << m_rtpsession->GetLocalDataPort() << std::endl
<< "RTP remote address: " << remote << std::endl
<< "RTP remote data port: " << m_rtpsession->GetRemoteDataPort() << std::endl;
std::cout << "RTP stream set up!" << std::endl;
TPState::Instance().SetState(TPState::ESTABLISHED);
return true;
}
cout << "connection set up to " << remoteParty << endl;
std::string val = token;
currentCallToken = val;
return true;
}
bool EndPoint::init()
{
PTRACE( 1, "Initializing endpoint" );
#ifdef ENTERPRISE
if( !ldapQueried ) {
PError << "LDAP was not queried successfuly." << endl;
return false;
}
if( ldapAliases.IsEmpty() ) {
PError << "Aliases were not fetched from LDAP." << endl;
return false;
}
SetLocalUserName( ldapAliases[0] );
for (int i = 1; i < ldapAliases.GetSize(); i++)
AddAliasName( ldapAliases[i]);
if( ldapAttrs.HasKey("h323IdentitydialedDigits") )
AddAliasName( ldapAttrs.GetString("h323IdentitydialedDigits") );
#else
if( args.HasOption('u')) {
PStringArray aliases = args.GetOptionString('u').Lines();
SetLocalUserName(aliases[0]);
for (int i = 1; i < aliases.GetSize(); i++)
AddAliasName(aliases[i]);
}
else {
QStringList userAliases = ancaConf->readListEntry( USER_ALIASES );
SetLocalUserName( userAliases[ 0 ].latin1() );
for ( unsigned i = 1; i < userAliases.size(); i++ )
AddAliasName( userAliases[ i ].latin1() );
}
#endif
bool disableFastStart = !ancaConf->readBoolEntry( FAST_START, FAST_START_DEFAULT );
bool disableTunneling = !ancaConf->readBoolEntry( H245_TUNNELING, H245_TUNNELING_DEFAULT );
bool disableH245InSetup = !ancaConf->readBoolEntry( H245_IN_SETUP, H245_IN_SETUP_DEFAULT );
if( args.HasOption("fast-disable") )
disableFastStart = true;
if( args.HasOption("h245tunneldisable") )
disableTunneling = true;
if( args.HasOption("disable-h245-in-setup") )
disableH245InSetup = true;
DisableFastStart( disableFastStart );
DisableH245Tunneling( disableTunneling );
DisableH245inSetup( disableH245InSetup );
// Codecs
AudioPlugin *audioPlugin = (AudioPlugin*)pluginFactory->getPlugin(Plugin::Audio);
if( audioPlugin ) {
audioPlugin->addCapabilities();
}
VideoInPlugin *videoPlugin = (VideoInPlugin*)pluginFactory->getPlugin(Plugin::VideoIn);
if( videoPlugin ) {
videoPlugin->addCapabilities();
}
AddAllUserInputCapabilities( 0, 1 );
PTRACE( 1, "Capabilities:\n" << setprecision( 2 ) << capabilities );
ancaInfo->set( ADDRESS, ( const char * ) (GetLocalUserName() + "@" + PIPSocket::GetHostName()) );
// Initialise the security info
if( args.HasOption("password") ) {
SetGatekeeperPassword( args.GetOptionString("password") );
PTRACE( 1, "Enabling H.235 security access to gatekeeper." );
}
// Do not start H323 Listener
if( args.HasOption("no-listenport") ) return true;
// Start H323 Listener
PIPSocket::Address addr = INADDR_ANY;
WORD port = ancaConf->readIntEntry( PORT, PORT_DEFAULT );
if (args.HasOption("listenport"))
port = (WORD)args.GetOptionString("listenport").AsInteger();
listener = new H323ListenerTCP( *this, addr, port );
if ( listener == NULL || !StartListener( listener ) ) {
PTRACE(1, "Unable to start H323 Listener at port " << port );
if ( listener != NULL )
delete listener;
return false;
}
PTRACE( 1, "TCP listener started at port " << port );
return true;
}
BOOL CMyPhoneEndPoint::Initialise(CMyPhoneDlg *dlg, CVideoDlg *vdlg)
{
m_dialog = dlg;
m_vdlg = vdlg;
isIncomingCall = FALSE;
SetAudioJitterDelay(50, config.GetInteger(JitterConfigKey, GetMaxAudioJitterDelay()));
SetSoundChannelBufferDepth(config.GetInteger(BufferCountConfigKey, GetSoundChannelBufferDepth()));
// UserInput mode
// Backward compatibility configuration entry
unsigned mode = H323Connection::SendUserInputAsString;
m_fDtmfAsString=true;
if (config.HasKey(DtmfAsStringConfigKey)) {
if (!config.GetBoolean(DtmfAsStringConfigKey))
{
mode = H323Connection::SendUserInputAsTone;
m_fDtmfAsString=false;
}
config.DeleteKey(DtmfAsStringConfigKey);
}
mode = config.GetInteger(UserInputModeConfigKey, mode);
SetSendUserInputMode((H323Connection::SendUserInputModes)mode);
// SetSoundChannelPlayDriver("WindowsMutimedia");
// SetSoundChannelRecordDriver("WindowsMultimedia");
// SetSoundChannelPlayDriver("DirectSound");
// SetSoundChannelRecordDriver("DirectSound");
PString soundPlayStr = config.GetString(SoundPlayConfigKey, GetSoundChannelPlayDevice());
PStringArray soundPlayer = soundPlayStr.Tokenise('\t');
BOOL fPlayerAvailable;
if(soundPlayer.GetSize()==1)
{
SetSoundChannelPlayDriver("WindowsMutimedia");
fPlayerAvailable = SetSoundChannelPlayDevice(soundPlayer[0]);
PTRACE(1, "MyPhone\tSetSoundPlayer Driver:WindowsMultimedia, Device:" << soundPlayer[0]);
}
else
{
SetSoundChannelPlayDriver(soundPlayer[0]);
fPlayerAvailable = SetSoundChannelPlayDevice(soundPlayer[1]);
PTRACE(1, "MyPhone\tSetSoundPlayer Driver:" << soundPlayer[0] << ", Device:" << soundPlayer[1]);
}
PString soundRecordStr = config.GetString(SoundRecordConfigKey, GetSoundChannelRecordDevice());
PStringArray soundRecorder = soundRecordStr.Tokenise('\t');
BOOL fRecorderAvailable;
if(soundRecorder.GetSize()==1)
{
SetSoundChannelRecordDriver("WindowsMutimedia");
fRecorderAvailable = SetSoundChannelRecordDevice(soundRecorder[0]);
PTRACE(1, "MyPhone\tSetSoundRecorder Driver:WindowsMultimedia, Device:" << soundRecorder[0]);
}
else
{
SetSoundChannelRecordDriver(soundRecorder[0]);
fRecorderAvailable = SetSoundChannelRecordDevice(soundRecorder[1]);
PTRACE(1, "MyPhone\tSetSoundRecorder Driver:" << soundRecorder[0] << ", Device:" << soundRecorder[1]);
}
m_fAECOn = config.GetBoolean(AECEnableConfigKey, FALSE);
m_fAGCOn = config.GetInteger(AGCEnableConfigKey, FALSE);
SetAECAlgo(m_fAECOn);
agc = m_fAGCOn;
// set some oter settings from Config
m_fNoFastStart = config.GetBoolean(NoFastStartConfigKey, FALSE);
DisableFastStart(m_fNoFastStart);
m_fStrictSingleLine = config.GetBoolean(StrictSingleLineConfigKey, FALSE);
StrictSingleLine(m_fStrictSingleLine);
m_fDoH245Tunnelling = !(config.GetBoolean(NoTunnelingConfigKey, FALSE));
DisableH245Tunneling(!m_fDoH245Tunnelling);
m_fSilenceOn = config.GetBoolean(SilenceDetectConfigKey, TRUE);
SetSilenceDetectionMode(m_fSilenceOn
? H323AudioCodec::AdaptiveSilenceDetection
: H323AudioCodec::NoSilenceDetection);
SetLocalUserName(config.GetString(UsernameConfigKey, GetLocalUserName()));
SetInitialBandwidth((unsigned)(config.GetReal(BandwidthConfigKey, 10000)*20));
SetRtpIpTypeofService(config.GetInteger(IpTosConfigKey, GetRtpIpTypeofService()));
SetRtpIpPorts(config.GetInteger(RTPPortBaseConfigKey, GetRtpIpPortBase()),
config.GetInteger(RTPPortMaxConfigKey, GetRtpIpPortBase()));
if(config.HasKey(RouterConfigKey))
m_router = config.GetString(RouterConfigKey, m_router.AsString());
m_fAutoAnswer = config.GetBoolean(AutoAnswerConfigKey, false);
m_fAutoMute = config.GetBoolean(AutoMuteConfigKey, false);
CString alias, aliases;
aliases = CString((const char *)config.GetString(AliasConfigKey, _T("")));
aliases.TrimLeft();
int iPos=0;
while ((iPos = aliases.Find(_T("|")))>0) // loading user aliases
{
alias = aliases.Left(iPos);
aliases.Delete(0,iPos+1);
AddAliasName((LPCTSTR)alias);
}
// The order in which capabilities are added to the capability table
// determines which one is selected by default.
LoadCapabilities();
PString interfaces = config.GetString(ListenerInterfaceConfigKey, "*");
if(StartListeners(interfaces.Tokenise(',')))
{
m_dialog->OutputStatusStr((LPCTSTR)LoadStringLang(IDS_MPREADY1STR), S_SYSTEM, (const char *)strProgName);
return true;
}
else
{
m_dialog->OutputStatusStr((LPCTSTR)LoadStringLang(IDS_ERRLSNSTR), S_SYSTEM, (const char *)strProgName, (const char *)interfaces);
return false;
}
}
ControllerThread::ControllerThread(PSerialChannel *_serial, Resources * _resources, PConfig *_config) : PThread(10000, NoAutoDeleteThread), queue() {
pserial = _serial;
resources = _resources;
config = _config;
analogControls = (config->GetString("Gamepad", "AnalogControl", "")).ToUpper().Tokenise(",", PFalse);
PTRACE(2, "Constructing instance for controller");
for(int i = 0; i < 256; i++) {
actionQueuePool[i] = new PIntArray();
};
queue.Open(10000);
queue.SetReadTimeout(0); // timeout 0 ms
queue.SetWriteTimeout(0); // timeout 0 ms
timeout = 100;
retryLimit = 5;
fReady = PFalse;
maximumOffset = config->GetInteger("Events", "maximumOffset", 200);
maximumDelay = config->GetInteger("Events", "maximumOffset", 10);
for (PINDEX i = 0; i < 10; i++) {
calibrationTable[i] = new PIntArray;
};
for (PINDEX i = 0; i < analogControls.GetSize(); i++) {
PStringStream summary; // summary string
int summaryN = -100000; // last value in calibrationTable
PString calibrationValuesName("Axis");
calibrationValuesName += analogControls[i];
calibrationValuesName += "Motion";
PStringArray calibrationValues = (config->GetString("Gamepad", calibrationValuesName, "")).ToUpper().Tokenise(";", PFalse);
if (calibrationValues.GetSize() == 0) {
// push linear sequence
for (PINDEX j = 0; j < POTENTIOMETER_SCALE; j++) {
// from -100.00% to +100.00% we have POTENTIOMETER_SCALE values
int min = ((float)20000/POTENTIOMETER_SCALE)*j;
int max = ((float)20000/POTENTIOMETER_SCALE)*(j+1);
for (PINDEX k = min; k <= max; k++) { // overwrite last value
PIntArray *table = calibrationTable[i];
table->SetAt(k, j);
};
};
} else {
bool redo;
do {
int previous = 0;
int current = 0;
int next = 0;
redo = PFalse;
for (PINDEX j = 0; j < POTENTIOMETER_SCALE; j++) {
previous = current;
current = calibrationValues[j].AsInteger();
next = calibrationValues[j+1].AsInteger();
if (previous == 20000 && current == 20000) {
break;
};
if (current > next) {
if (next != 0 && next != 10000) {
PTRACE(1, "calibration error for axis " << analogControls[i] << " value: " << calibrationValues[j] << " previous:" << previous << " current: " << current << " next: " << next);
redo = PTrue;
calibrationValues[j] = PString(next);
calibrationValues[j+1] = PString(current);
break;
} else {
break;
};
};
// set range
for (int k = (current+previous)/2; k<=(next+current/2); k++) {
PIntArray *table = calibrationTable[i];
table->SetAt(k, j);
};
};
} while(redo);
// fix head and tail
int calibrationMinimum = calibrationTable[i]->GetAt(0)-1 > 0 ? calibrationTable[i]->GetAt(0)-1 : 0;
calibrationTable[i]->SetAt(0, calibrationMinimum);
int calibrationMaximum = calibrationTable[i]->GetAt(20000)+1 < POTENTIOMETER_SCALE ? calibrationTable[i]->GetAt(20000)+1 : POTENTIOMETER_SCALE-1;
calibrationTable[i]->SetAt(20000, calibrationMaximum);
};
for(PINDEX j = 0; j<= 20000; j++) {
if (summaryN < calibrationTable[i]->GetAt(j)) {
summaryN = calibrationTable[i]->GetAt(j);
summary << " [" << j << "]:" << calibrationTable[i]->GetAt(j);
};
};
PTRACE(4, "ControllerThread\tcalibration summary for '"<< analogControls[i] << "'" << summary);
};
// prepare game table
for (PINDEX i = 0; i < 10; i++) {
gameTable[i] = new PIntArray;
};
resetGameTable();
PString zzz("mw2x.z");
loadGameTableT(zzz);
// start
Resume();
}
