CAF: Working With Call Legs

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== Call Leg Definition ==
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TelcoBridges Toolpack framework offers two API layers to manipulate call legs and audio mixers (conferences).
The main mechanism through which the customer application controls the Toolpack system, is via the management of call legs. The application creates a call leg (or more than one for conferencing and bridging) at the beginning of call, then control it through a simple, protocol-agnostic API. When a call is terminated, the call leg can be destroyed.
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A call leg is respresented by an instance of the class CTBCMCLeg. It represents a  full-duplex media resource and/or its associated
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We recommend that developers use the CAF API layer, as it offers higher-level functionality which accelerate application development.
signalling entity. Typical examples of call leg with signaling would be an SS7 ISUP call with its associated CIC (mapped to a TDM
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interface such as a T1 timeslot) or a SIP call with its associated Voip codec resource (attached to an IP/UDP endpoint). A media-only call leg would represent a standalone TDM endpoint (such as a T1 timeslot) or a VOIP endpoint (Voip codec resource attached to an IP/UDP endpoint). Section [[Customer_Application_Framework_:_Working_With_Call_Legs#Creating Call Legs | Creating Call Legs ]] will show how different types of leg can be created.
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The CTBCMCLeg class allows a programmer to easily act upon the call leg to influence the signaling portion (e.g. accept, answer,
 
terminate, etc) and to use the media portion as well (e.g play prompts, record voice, play or collect digits and tones).
 
  
Other member functions are available to retrieve (and change in some cases) the call leg attributes including the media
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==  CMC API layer ==
profile (e.g. parameters to the media resource) or signaling information (e.g. protocol type, called and calling party
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numbers, etc). Joining/unjoining (connection/disconnection) of call legs is also a typical action handled by this class
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for ’gateway-type’ applications. It is important to note that this class is protocol-agnostic and can handle any type of
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supported call legs (e.g. SIP/Voip, ISDN, SS7, Media only, etc).
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The lower-level API is based on classes ''CTBCMCLeg'' and ''CTBCMCMixer''. These classes allow receiving leg or mixer events (answered, digit collected, terminating, etc.), and send requests to perform actions (answer, play, terminate, etc.).
  
===== Caveats =====
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The following page explains how to work with CTBCMCLeg directly, for lower-level applications that don't want the convenience of the CAF Call framework
* Do not confuse a ''call leg'' with a ''call''. A ''call leg'' represents one full-duplex link to a party while a ''call'' represents
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the agglomeration of multiple (two or more) call legs. For example, a ''bridge'' is a form of ''call'' that uses two ''call
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leg''s.
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* Do not confuse the base class CTBCMCLeg with the class CTBCAFCallLeg. The later is an implementation class specialized to be used by
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the ITBCAFCall interface when dealing with multiple legs. It is designed to represent a leg within a call. It
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cannot be instanciated as a standalone object without modifications to make it independent from the ITBCAFCall interface.
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* If the overall goal is to bridge two or more call legs together, then the programmer would be advised to use the
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CTBCAFBridge class for leg creation instead of creating call legs manually. This class already deals with the issues of handling multiple legs simultaneously.
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== Command Flow for Leg Actions in CAF ==
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All actions requested on a leg are executed asynchronously. For each action '''DoSomething()''' on a leg,  a corresponding '''OnDoSomethingResponse()''' event will be received on the leg once Toolpack starts processing the command. If the '''OnXXXResponse()''' function does not handle the response (the default implementation is empty) and the result of the action was a failure, the default error handling function '''OnLegError()''' will be called. Most of the actions executed on a leg can take variable time to complete. In these case, an extra event will be received on the leg once the action is complete ('''OnXXXResponse()''' is always called when Toolpack '''starts''' executing the action).
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For example, to play a digit sequence, one would call PlayDigit(). It would then almost immediately receive the OnPlayDigitResponse() event indicating that Toolpack has received the command. At the same time this event is called, Toolpack will start playing the digits on the leg. Once the digits play is completed, the user will receive an OnDigitPlayingDone() event.
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== Creating Call Legs ==
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Creating a leg is always done through the definition of a ''call leg attribute''. The values entered in the ''call leg attribute'' will define the type of call leg created and it's parameters. The following sections describe several scenarios in which you build a ''call leg''. Instruction will be given on how to fill the leg attributes and how to use them to create the ''call leg''.
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TODO Present call flow for leg creation.
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=== Preparing Leg Attributes ===
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==== Normal Call Leg Attributes ====
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For calls including both the signalling and the media path, there is very few parameters that one must enter. The required parameters are:
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* the called number,
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* the calling number,
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* the [[NAP | Network Access Point]].
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Toolpack will automatically select an available channel in the specified NAP to make the call. Only NAPs of type ''SS7'', ''ISDN'' or ''SIP'' can be specified for call leg attribute (see [[NAP Types]]).
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The following code snippet shows how to build the attributes.
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    PTRCTBCMC_CALL_LEG_ATTRIBUTE ptrOutgoingLegAttribute;
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    ptrOutgoingLegAttribute = tbnew CTBCMC_CALL_LEG_ATTRIBUTE();
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[[CAF:_Working_With_Cmc_Call_Legs|Working with CMC Call Legs]]
 
    
 
    
    ptrOutgoingLegAttribute->GetCalledNumber()            = "123-4567";
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== CAF API layer ==
    ptrOutgoingLegAttribute->GetCallingNumber()          = "987-6543";
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    ptrOutgoingLegAttribute->GetNetworkAccessPoint()      = "NAP_SS7_MONTREAL";
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A higher-level API uses the base classes ''CTBCMCLeg'' and ''CTBCMCMixer'', but adds the following functionalities:
 
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- Simplification of call legs creations through single functions (''AddIncoming'', ''AddOutgoing'', ''CreateMixer'')
==== Media-only Leg Attributes ====
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- Centralizing reception of events from call legs and mixers in to a single "Call Flow" (''CTBCAFCallFlow''), which deals with inter-relations between legs and mixers.
For media-only legs, no signaling information is needed, but the user can specify which media channel to use and which media profile to use. The only required parameters are the [[NAP | Network Access Point]] and the leg type. Only NAPs of type ''TDM Media'' or ''VOIP Media'' can be specified for media-only leg attribute (see [[NAP Types]]).
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- Auto-destruction of call legs (''CTBCMCLeg'') and mixers (''CTBCMCMixer'') through usage of "smart" pointers.
 
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- Auto-destruction of the call flow (''CTBCAFCallFlow'') upon destruction of last leg/mixer.
    PTRCTBCMC_MEDIA_ONLY_LEG_ATTRIBUTE ptrLegAttribute;
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    ptrLegAttribute = tbnew CTBCMC_MEDIA_ONLY_LEG_ATTRIBUTE();
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The following page explains how to work with CAF Call leg framework (CTBCAFCallLeg, CTBCAFCallFlow, CTBCAFCallBehavior, etc...)
    ptrLegAttribute->GetNetworkAccessPoint()      = "NAP_SS7_MONTREAL";
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    pMediaDesc = ptrLegAttribute->GetProfile()->MediaDescription;
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    pMediaDesc->Type                              = TBCMC_MEDIA_TYPE_AUDIO;
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    pMediaDesc->Transport                        = TBCMC_MEDIA_TRANSPORT_TDM or TBCMC_MEDIA_TRANSPORT_IP;
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When only the NAP and type are specified, Toolpack will automatically select an available channel in the specified NAP to allocate the media path. For  ''TDM Media'' NAPs, a trunk/timeslot from the specified NAP will be chosen by Toolpack. For ''VOIP Media'' NAPs, an IP interface and port from the specified NAP will be chosen.
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If the user wants to specify which media channel to use, it can do so by adding extra information in the leg attribute. For TDM legs, a trunk name and timeslot number can be specified.
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    PTBCMC_MEDIA_DESCRIPTION pMediaDesc;
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    pMediaDesc->Settings.TdmAudio.Type                  = TBCMC_MEDIA_SETTINGS_TYPE_TDM_AUDIO;
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[[CAF:_Working_With_Caf_Call_Legs|Working with CAF Call Legs and behaviors]]
    pMediaDesc->Settings.TdmAudio.un8Timeslot          = 5;
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    Strncpy
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    (
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        pMediaDesc->Settings.TdmAudio.szTrunkName,
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        "TRUNK_TORONTO_1",
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        sizeof(pMediaDesc->Settings.TdmAudio.szTrunkName)
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    );
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For VOIP legs, the user can control the media by providing local SDP and peer SDP. Setting the local SDP defines the codec and ip/port used to for the received media stream. Most of the time, the ip address and port should be left empty to let Toolpack choose an available port. Setting the peer SDP defines the codec and ip/port used for the transmitted media stream. Note that Toolpack only allow for the same codec to be used in RX and TX. If both local SDP and peer SDP are specified, codecs that are not in '''both''' SDP will be filtered out.
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For details on how to fill the TBX_SDP_INFO structure needed for SetLocalSDP and SetPeerSDP, see [Customer_Application_Framework_:_Filling_SDP_Structure|Filling an SDP Structure]].
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    TBX_RESULT              Result;
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    TBX_SDP_INFO            SdpInfo;
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    PTBCMC_MEDIA_DESCRIPTION pMediaDesc;
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    pMediaDesc = ptrLegAttribute->GetProfile()->MediaDescription;
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    pMediaDesc->Settings.PacketAudio.Type              = TBCMC_MEDIA_SETTINGS_TYPE_PACKET_AUDIO;
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    // Set Local SDP
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    Result = BuildSdpInfo("", 0, SdpInfo);                // No IP specified, Toolpack will choose one
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    TBCAF_EXIT_ON_ERROR( Result, "BuildSdpInfo failed." );
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    ptrLegAttribute->SetLocalSDP(&SdpInfo);
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    // Set Peer SDP
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    Result = BuildSdpInfo("10.0.0.15", 5000, SdpInfo);    // Using peer IP address and port
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    TBCAF_EXIT_ON_ERROR( Result, "BuildSdpInfo failed." );
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    ptrLegAttribute->SetPeerSDP(&SdpInfo);
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=== Creating the Leg ===
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Once the leg attributes have been filled, creating the leg in Toolpack is only a matter of creating a CTBCMCLeg object and calling CreateCall() on it. No action is taken when an instance of a CTBCMCLeg is creating. Call resources are only allocated in the Toolapck system when CreateCall() is called on the object.
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  pCallLeg = new CTBCMCLeg( mun32LegId++, ptrLegAttribute, this, 0, &mLegMutex );
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  pCallLeg->CreateCall();
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See [[ Customer_Application_Framework_:_Leg_Creation_Samples | Leg creation example ]]
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=== Caveats ===
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* The call leg attribute is an object containing the call leg information (called/calling numbers, media profile, etc) that needs
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to be allocated by the caller and used when creating the leg object. It will be freed
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automatically when the leg is destroyed.
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== Interacting with the a Leg ==
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=== Playing and Collecting Digits ===
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PlayDigit
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OnDigitPlayingDone
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StartDigitCollection
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StopDigitCollection
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OnDigitCollected
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=== Playing and Collecting Tones ===
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PlayEvent
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CancelEvent
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OnEventPlayingDone
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StartEventCollection
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StopEventCollection
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OnEventCollected
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=== Playing and Recording Audio Files ===
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PlayStream/OnStreamPlayingDone
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RecordStream/OnStreamRecordingDone
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PauseStream/ResumeStream
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StopStream
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=== Modifying Media Profile ===
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ChangeProfile
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OnProfileChanged
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OnProfileChangeComplete
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=== Controlling the Signalling ===
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AcceptCall/OnCallAccepted
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AlertCall/OnCallAlerting
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AnswerCall/OnCallAnswered
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SendCallSuppInfo/OnCallSuppInfo
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== Leg Termination ==
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TerminateCall
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OnCallTerminated
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OnCallTerminatingIndication
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SetFreeListener
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The following page provides more details on call legs re-synchronization between toolpack_engine application and user "CAF" application:
  
=== Caveats ===
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[[CAF:_Call_Legs_Resync|Re-synchronizing CAF call legs]]
* The base class does not automatically free itself. This is why the member function OnCallTerminated() was
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overloaded to actually instruct the base class to start the freeing operation once the signalling call is done. In
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another type of application, some steps could be required before the actual leg free is desired (such as logging,
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DB access, etc).
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* The ’delete’ operation on the call leg is eventually done by the object exposing the ’freeListener’ interface. This
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allows the application to centralize (if required) the ownership of objects to a single entity. This means that
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an object could also self-delete if it is given its own ’freeListener’ interface pointer. This all depends on the
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hierarchy of object owership the application designer wants to do.
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Latest revision as of 06:09, 19 October 2012

TelcoBridges Toolpack framework offers two API layers to manipulate call legs and audio mixers (conferences).

We recommend that developers use the CAF API layer, as it offers higher-level functionality which accelerate application development.


CMC API layer

The lower-level API is based on classes CTBCMCLeg and CTBCMCMixer. These classes allow receiving leg or mixer events (answered, digit collected, terminating, etc.), and send requests to perform actions (answer, play, terminate, etc.).

The following page explains how to work with CTBCMCLeg directly, for lower-level applications that don't want the convenience of the CAF Call framework

Working with CMC Call Legs

CAF API layer

A higher-level API uses the base classes CTBCMCLeg and CTBCMCMixer, but adds the following functionalities: - Simplification of call legs creations through single functions (AddIncoming, AddOutgoing, CreateMixer) - Centralizing reception of events from call legs and mixers in to a single "Call Flow" (CTBCAFCallFlow), which deals with inter-relations between legs and mixers. - Auto-destruction of call legs (CTBCMCLeg) and mixers (CTBCMCMixer) through usage of "smart" pointers. - Auto-destruction of the call flow (CTBCAFCallFlow) upon destruction of last leg/mixer.

The following page explains how to work with CAF Call leg framework (CTBCAFCallLeg, CTBCAFCallFlow, CTBCAFCallBehavior, etc...)

Working with CAF Call Legs and behaviors

The following page provides more details on call legs re-synchronization between toolpack_engine application and user "CAF" application:

Re-synchronizing CAF call legs

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