This class represents a back-to-back (B2B) user agent (UA) that is used to attach an outgoing call (UAC) to an incoming (UAS) call. Normally the UAC call would be the client side of a call that is placed to an external UAS in this case it's the client side of a call to a UAS in the same process. The use for this class is to allow an outgoing call from a SIP Account to another SIP Account's incoming dial plan.
Inheritance: ISIPServerUserAgent, ISIPClientUserAgent
Beispiel #1
0
        private void StartNewCallSync(SIPCallDescriptor callDescriptor)
        {
            try
            {
                callDescriptor.DialPlanContextID = (m_dialPlanContext != null) ? m_dialPlanContext.DialPlanContextID : Guid.Empty;

                if (callDescriptor.DelaySeconds != 0)
                {
                    callDescriptor.DelayMRE = new ManualResetEvent(false);
                    lock (m_delayedCalls)
                    {
                        m_delayedCalls.Add(callDescriptor);
                    }

                    int delaySeconds = (callDescriptor.DelaySeconds > MAX_DELAY_SECONDS) ? MAX_DELAY_SECONDS : callDescriptor.DelaySeconds;
                    FireProxyLogEvent(new SIPMonitorConsoleEvent(SIPMonitorServerTypesEnum.AppServer, SIPMonitorEventTypesEnum.DialPlan, "Delaying call leg to " + callDescriptor.Uri + " by " + delaySeconds + "s.", m_username));
                    callDescriptor.DelayMRE.WaitOne(delaySeconds * 1000);
                }

                lock (m_delayedCalls)
                {
                    m_delayedCalls.Remove(callDescriptor);
                }

                if (!m_callAnswered && !m_commandCancelled)
                {
                    ISIPClientUserAgent uacCall = null;

                    if (callDescriptor.ToSIPAccount == null)
                    {
                        if (callDescriptor.IsGoogleVoiceCall)
                        {
                            FireProxyLogEvent(new SIPMonitorConsoleEvent(SIPMonitorServerTypesEnum.AppServer, SIPMonitorEventTypesEnum.DialPlan, "Creating Google Voice user agent for " + callDescriptor.Uri + ".", m_username));
                            uacCall = new GoogleVoiceUserAgent(m_sipTransport, m_callManager, m_statefulProxyLogEvent, m_username, m_adminMemberId, m_outboundProxySocket);
                        }
                        else
                        {
                            uacCall = new SIPClientUserAgent(m_sipTransport, m_outboundProxySocket, m_username, m_adminMemberId, m_statefulProxyLogEvent,
                                m_customerAccountDataLayer.GetRtccCustomer, m_customerAccountDataLayer.GetRtccRate, m_customerAccountDataLayer.GetBalance,
                                m_customerAccountDataLayer.ReserveInitialCredit, m_customerAccountDataLayer.UpdateRealTimeCallControlCDRID);
                        }
                    }
                    else
                    {
                        if (QueueNewCall_External == null)
                        {
                            FireProxyLogEvent(new SIPMonitorConsoleEvent(SIPMonitorServerTypesEnum.AppServer, SIPMonitorEventTypesEnum.DialPlan, "B2B calls are not supported in this dialplan manifestation.", m_username));
                        }
                        else
                        {
                            FireProxyLogEvent(new SIPMonitorConsoleEvent(SIPMonitorServerTypesEnum.AppServer, SIPMonitorEventTypesEnum.DialPlan, "Creating B2B call for " + callDescriptor.Uri + ".", m_username));
                            uacCall = new SIPB2BUserAgent(m_statefulProxyLogEvent, QueueNewCall_External, m_sipTransport, m_username, m_adminMemberId);
                        }
                    }

                    //ISIPClientUserAgent uacCall = new JingleUserAgent(m_username, m_adminMemberId, m_statefulProxyLogEvent);

                    if (uacCall != null)
                    {
                        lock (m_switchCalls)
                        {
                            m_switchCalls.Add(uacCall);
                        }

                        uacCall.CallAnswered += UACCallAnswered;
                        uacCall.CallFailed += UACCallFailed;
                        uacCall.CallRinging += UACCallProgress;
                        //uacCall.CallTrying += UACCallTrying;

                        uacCall.Call(callDescriptor);
                    }
                }
            }
            catch (Exception excp)
            {
                logger.Error("Exception ForkCall StartNewCall. " + excp.Message);
            }
        }
        private void StartNewCallSync(SIPCallDescriptor callDescriptor)
        {
            try
            {
                // A call will not be delayed if there are no other calls being attempted.
                if (callDescriptor.DelaySeconds != 0 && m_switchCalls.Count > 0)
                {
                    callDescriptor.DelayMRE = new ManualResetEvent(false);
                    lock (m_delayedCalls)
                    {
                        m_delayedCalls.Add(callDescriptor);
                    }

                    int delaySeconds = (callDescriptor.DelaySeconds > MAX_DELAY_SECONDS) ? MAX_DELAY_SECONDS : callDescriptor.DelaySeconds;
                    FireProxyLogEvent(new SIPMonitorConsoleEvent(SIPMonitorServerTypesEnum.AppServer, SIPMonitorEventTypesEnum.DialPlan, "Delaying call leg to " + callDescriptor.Uri + " by " + delaySeconds + "s.", m_username));
                    callDescriptor.DelayMRE.WaitOne(delaySeconds * 1000);
                }

                lock (m_delayedCalls)
                {
                    m_delayedCalls.Remove(callDescriptor);
                }

                if (!m_callAnswered && !m_commandCancelled)
                {
                    ISIPClientUserAgent uacCall = null;

                    if (callDescriptor.ToSIPAccount == null)
                    {
                        if (callDescriptor.IsGoogleVoiceCall)
                        {
                            FireProxyLogEvent(new SIPMonitorConsoleEvent(SIPMonitorServerTypesEnum.AppServer, SIPMonitorEventTypesEnum.DialPlan, "Creating Google Voice user agent for " + callDescriptor.Uri + ".", m_username));
                            uacCall = new GoogleVoiceUserAgent(m_sipTransport, m_callManager, m_statefulProxyLogEvent, m_username, m_adminMemberId, m_outboundProxySocket);
                        }
                        else
                        {
                            uacCall = new SIPClientUserAgent(m_sipTransport, m_outboundProxySocket, m_username, m_adminMemberId, m_statefulProxyLogEvent);
                        }
                    }
                    else
                    {
                        FireProxyLogEvent(new SIPMonitorConsoleEvent(SIPMonitorServerTypesEnum.AppServer, SIPMonitorEventTypesEnum.DialPlan, "Creating B2B call for " + callDescriptor.Uri + ".", m_username));
                        uacCall = new SIPB2BUserAgent(m_statefulProxyLogEvent, QueueNewCall_External, m_sipTransport, m_username, m_adminMemberId);
                    }

                    //ISIPClientUserAgent uacCall = new JingleUserAgent(m_username, m_adminMemberId, m_statefulProxyLogEvent);

                    lock (m_switchCalls)
                    {
                        m_switchCalls.Add(uacCall);
                    }

                    uacCall.CallAnswered += UACCallAnswered;
                    uacCall.CallFailed += UACCallFailed;
                    uacCall.CallRinging += UACCallProgress;
                    //uacCall.CallTrying += UACCallTrying;

                    uacCall.Call(callDescriptor);
                }
            }
            catch (Exception excp)
            {
                logger.Error("Exception ForkCall StartNewCall. " + excp.Message);
            }
        }