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Incoming and Outgoing Calls
Caution
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- Call Object
- Inbound Calls
- Outbound Calls
- Call Disconnect
- Error Handling
- Updating Media
- Call-Related Public APIs
The CallingClient
module in the Calling SDK provides inbound and outbound call functionality on registered lines. A call instance is created for every call and then used to dial the call and listen for events. This document covers how the call instance is obtained and used in inbound/outbound calls.
After the lines have been registered, you can utilize call functionality on any of these registered lines. To initiate a call, you can use the makeCall()
method when invoked on a specific line. When an inbound call is received by the client from Webex Calling, the Calling SDK dispatches an event, and within the event payload, a call instance is returned.
This call instance, provided by the Calling SDK, is of type ICall
. It provides a range of methods that enable you to perform specific actions and manage the call as it progresses through various states.
Method | Description | Returns | Visibility |
---|---|---|---|
answer |
Accepts or answers an incoming call from Webex Calling. | void |
Public |
dial |
Dials the outgoing call to the destination. | void |
Public |
end |
Ends an ongoing call. | void |
Public |
sendDigit |
Sends a DTMF digit on an established call. | void |
Public |
mute |
Mutes the local stream of this call instance. | void |
Public |
doHoldResume |
Places the remote end of this call on either hold/resume on the current state of the call. | void |
Public |
completeTransfer |
Initiates a transfer towards a target. | void |
Public |
updateMedia |
Updates the microphone stream used during the call. | void |
Public |
Event | Description | Payload |
---|---|---|
incoming_call |
Incoming call is received. | Call Object (ICall ) |
caller_id |
Remote end calling information determined. | CallId |
progress |
Remote end is ringing or has provided a cut-through. | CorrelationId(string) |
connect |
The remote end has answered the call. | CorrelationId(string) |
established |
Two-way media has now been established. | CorrelationId(string) |
remote_media |
Remote media track received. Use this to play out remote media on client. | Track object (MediaStreamTrack ) |
disconnect |
Remote end has disconnected the call. | CorrelationId(string) |
held |
Remote end has been put on hold successfully. | CorrelationId(string) |
resumed |
Remote end has been put on hold successfully. | CorrelationId(string) |
call_error |
An error has occurred in the call | Error object. (CallError)
|
hold_error |
An error has occurred while placing call on hold. | Error object (CallError ) |
resume_error |
An error has occurred while placing call on resume. | Error object (CallError ) |
transfer_error |
An error has occurred while transferring the call. | Error object (CallError ) |
In order to receive incoming calls, listen for the incoming_call
event on the line
object.
line.on('incoming_call', (call: ICall) => {
// Call object received. Store this object and listen for events on the call
});
Once the call is received by the application, you can use the answer()
method to answer the call. This method requires a localAudioStream
as an argument.
call.answer({ localAudioStream });
Once the call is answered from the application side, listen for additional events received on the call
instance such as remote_media
, disconnect
, caller_id
update
, etc. More details on those events can be found in the Call Events table above.
call.on('remote_media', (track: MediaStreamTrack) => {
// store remote audio received and use it to open media channel 2-way
});
Create the call
instance first for outbound calls using the makeCall()
method of the line
object.
call = line.makeCall();
Trigger the call
object's dial()
method to initiate the call. This method requires a localAudioStream
as an argument.
call.dial({ localAudioStream });
Listen for events on the call
object to track the further progress of the call and establish 2-way audio.
call.on('progress', (correlationId: string) => {
// Process call progress, this event indicates that the call is ringing on the called party side
});
call.on('connect', (correlationId: string) => {
// Process connect event, this is received when the call has been answered from the called party side
});
call.on('remote_media', (track: MediaStreamTrack) => {
// Add code to store remote audio received and use it to open media channel 2-way
});
Disconnect the call using the call
object's end()
method or listen for disconnect
events coming from the other side.
Refer to the below examples:
-
Listen for a
disconnect
event if the remote party disconnects the call.call.on('disconnect', (correlationId: string) => { // Add action to clear out the call on the application });
-
Once the disconnect event is received use the
call
object'send()
method available to disconnect the call.call.end();
Calls will occasionally experience errors. An error event is triggered by the call
object when an error is encountered. Listen for the call_error
event to handle error scenarios.
call.on('call_error', (callError: CallError) => {
// Handle the error received for the ongoing call
console.log(
'Error encountered on call with Id and description',
callError.getCallError().correlationId,
callError.getCallError().message
);
});
The CallError
object contains the following members:
-
message
- Description of the call error. -
type
- Type of error. This error can be either a call control error or a media error. -
correlationId
- Correlation ID of the call that faced the issue.
While a call is in progress, it's possible to update media to allow a developer to switch from one device to another. In order to do that, the call
object provides an updateMedia()
method.
First, create a constraints
object using the new device ID and then pass that constraints
object to the Calling
object's createMicrophoneStream()
method, creating a new Stream
object.
const constraints = {
audio: true,
deviceId: 'DEVICE_ID'
};
const newStream = await Calling.createMicrophoneStream(constraints);
Then, pass the Stream
object to the call
object's updateMedia()
method.
call.updateMedia(newStream);
This method fetches a single call
object that's active on a line. This API is implemented in the line
object.
Asynchronous | No |
Parameters | CorrelationId of the call. |
Returns | Call Object(ICall ) |
call = line.getCall(correlationId);
{
"callId": <string>,
"callerInfo": {}
"connected": boolean,
"correlationId": <string>,
"destination": {
"type": 'uri',
"address": 'tel:5954'
},
"deviceId": <string>,
"direction": "outbound" | "inbound",
"earlyMedia": boolean,
"held": boolean,
"mobiusUrl": "https://mobius.aintm-m-5.int.infra.webex.com/api/v1/calling/web/",
"muted": boolean,
"origin": {
"type": "uri",
"address": "sip:[email protected]"
},
}
Only a single call at a time can be in the connected state even if there are multiple calls active among multiple lines. The remaining calls will be on Hold. This API returns the call
object which is in the connected
state. This API is provided by the CallingClient
object since the information on which line has a call in the connected state is unknown.
Asynchronous | No |
Parameters | No parameters required |
Returns | Call Object(ICall ) |
call = callingClient.getConnectedCall(correlationId);
A line has the ability to support multiple calls at the same time. In order to fetch all the calls that are active across all lines, this API can be used. It returns a key-value pair where the key is the lineId(deviceId)
and its value is an array of call
objects on that line. This API is provided by the CallingClient
object.
Asynchronous | No |
Parameters | No parameters required |
Returns |
LineToCallMap object |
calls = callingClient.getActiveCalls();
Example key-value pair returned by the getActiveCalls()
method:
{
"ca3a511e-81b4-3155-ab47-ff7bd8c0c189": [
{
callId: "ce8badee-04cc-463f-a5cf-738b51157165",
callerInfo: {},
connected: true,
correlationId: "0fa25099-01f0-44bc-b988-230c6ba2d25f",
destination: {
type: 'uri',
address: 'tel:5954'
},
deviceId: "ca3a511e-81b4-3155-ab47-ff7bd8c0c189",
direction: "outbound",
earlyMedia: false,
held: true,
mobiusUrl: "https://mobius.aintm-m-5.int.infra.webex.com/api/v1/calling/web/",
muted: false,
origin: {
type: "uri",
address: "sip:[email protected]"
},
},
{
callId: "ce8badee-04cc-463f-a5cf-738b51157165",
callerInfo: {}
connected: false,
correlationId: "0fa25099-01f0-44bc-b988-230c6ba2d25f",
destination: {
type: 'uri',
address: 'tel:5954'
},
deviceId: "ca3a511e-81b4-3155-ab47-ff7bd8c0c189",
direction: "inbound",
earlyMedia: false,
held: false,
mobiusUrl: "https://mobius.aintm-m-5.int.infra.webex.com/api/v1/calling/web/",
muted: false,
origin: {
type: "uri",
address: "sip:[email protected]"
},
},],
"a1cff23f-b3b6-323c-b213-5e12371cfbd6": [
{
callId: "b951015c-4a93-428e-9c33-91d894807877",
callerInfo: {},
connected: true,
correlationId: "e16dac14-64dc-4317-8be5-8bc807da44eb",
destination: {
type: 'uri',
address: 'tel:5009'
},
deviceId: "a1cff23f-b3b6-323c-b213-5e12371cfbd6",
direction: "outbound",
earlyMedia: false,
held: false,
mobiusUrl: "https://mobius.aintm-m-5.int.infra.webex.com/api/v1/calling/web/",
muted: false,
origin: {
type: "uri",
address: "sip:[email protected]"
},
},],
}
Caution
- Introducing the Webex Web Calling SDK
- Core Concepts
- Quickstart guide
- Authorization
- Basic Features
- Advanced Features
- Introduction
- Quickstart Guide
- Basic Features
- Advanced Features
- Multistream
- Migrating SDK version 1 or 2 to version 3