OVERVIEW
Virtual Assistants
Kore.ai Platform
Key Concepts
Natural Language Processing (NLP)
Accessing Platform
VIRTUAL ASSISTANTS
Virtual Assistant Builder
Virtual Assistant Types
Getting Started
Creating a Simple Bot
SKILLS
Storyboard
Dialog Task
Introduction
Dialog Builder (New)
Dialog Builder (Legacy)
User Intent Node
Dialog Node
Entity Node
Supported Entity Types
Composite Entities
Supported Colors
Supported Company Names
Form Node
Logic Node
Message Nodes
Confirmation Nodes
Bot Action Node
Service Node
Custom Authentication
2-way SSL for Service nodes
Script Node
Agent Transfer Node
WebHook Node
Grouping Nodes
Connections & Transitions
Manage Dialogs
User Prompts
Knowledge Graph
Terminology
Building
Generation
Importing and Exporting
Analysis
Knowledge Extraction
Build
Alert Tasks
Introduction
Ignore Words and Field Memory
How to Schedule a Smart Alert
Small Talk
Digital Views
Overview
Configuring Digital Views
Digital Forms
Overview
How to Configure Digital Forms
NATURAL LANGUAGE
Overview
Machine Learning
Introduction
Model Validation
Fundamental Meaning
Introduction
NLP Guidelines
Knowledge Graph
Traits
Introduction
How to Use Traits
Ranking and Resolver
Advanced NLP Configurations
INTELLIGENCE
Overview
Context Management
Overview
Session and Context Variables
Context Object
How to Manage Context Switching
Manage Interruptions
Dialog Management
Sub-Intents & Follow-up Intents
Amend Entity
Multi-Intent Detection
Sentiment Management
Tone Analysis
Sentiment Management
Event Based Bot Actions
Default Conversations
Default Standard Responses
TEST & DEBUG
Talk to Bot
Utterance Testing
Batch Testing
Conversation Testing
CHANNELS
PUBLISH
ANALYZE
Overview
Dashboard
Custom Dashboard
Overview
How to Create Custom Dashboard
Conversation Flows
NLP Metrics
ADVANCED TOPICS
Universal Bots
Overview
Defining
Creating
Training
Customizing
Enabling Languages
Store
Smart Bots
Defining
koreUtil Libraries
SETTINGS
Authorization
Language Management
PII Settings
Variables
Functions
IVR Integration
General Settings
Management
Import & Export
Delete
Versioning
Collaborative Development
PLAN & USAGE
Overview
Usage Plans
Support Plans
Invoices
API GUIDE
API Overview
API List
API Collection
SDKs
SDK Overview
SDK Security
SDK App Registration
Web SDK Tutorial
Message Formatting and Templates
Mobile SDK Push Notification
Widget SDK Tutorial
Widget SDK – Message Formatting and Templates
Web Socket Connect & RTM
Using the BotKit SDK
Installing
Configuring
Events
Functions
BotKit SDK Tutorial – Agent Transfer
BotKit SDK Tutorial – Flight Search Sample Bot
Using an External NLP Engine
ADMINISTRATION
HOW TOs
Creating a Simple Bot
Creating a Banking Bot
Context Switching
Using Traits
Schedule a Smart Alert
Configure UI Forms
Add Form Data into Data Tables
Configuring Digital Views
Add Data to Data Tables
Update Data in Data Tables
Custom Dashboard
Custom Tags to filter Bot Metrics
Patterns for Intents & Entities
Build Knowledge Graph
Global Variables
Content Variables
Using Bot Functions
Configure Agent Transfer
Update Balance Task
Transfer Funds Task
RELEASE NOTES
  1. Docs
  2. Virtual Assistants
  3. SDKs
  4. Functions for the BotKit SDK

Functions for the BotKit SDK

The Kore.ai BotKit SDK provides functions that you can use for greater control of your bot and provide a better user experience.
The following functions are supported by the BotKit SDK.

sdk.sendUserMessage

This function sends the message to the bot user.
Usage
Used inside the on_bot_message event callback. An on_bot_message event is called when the bot sends the reply to the user. In the SDK, payload data such as message can be modified and sent to the Bots Platform.
Syntax

sdk.sendUserMessage(payload, callback)

Parameters:

  • payload – A JSON response payload as follows:
     {
       "message":"Spell-corrected message sent by bot to the user",
       "originalMessage":"Original message sent by bot to the user",
       "taskId":"Dialog task ID",
       "nodeId":"Current node ID in the dialog flow",
       "channel":"Channel name",
       "context": <context object>
    }
    

    The above message payload is when the user language is detected and the spell correction is done. In case the user language is not detected then the following would be the message structure

     {
       "message":"Original message sent by bot to the user",
       "originalMessage":"Original message sent by bot to the user",
       "languageInfo": {
            "currentLanguage": "current user language",
            "detectedLanguages": [
                "language detected 1",
                "language detected 2"
            ],
            "spellCorrectedInput": [
                "language 1": "spell correction in language 1",
                "language 2": "spell correction in language 2"
            ]
         }
    }
  • callback – The function to call at event completion used to send the updated message and context back to the Bots Platform.

Examples
The following code snippet shows an example of the sdk.sendUserMessage function returning an error to the user.

return sdk.sendUserMessage(payload, function(err){
    if(err)
       console.log("err", err);

In the following code example, the initial message to a user is displayed when a user switches to a Live Agent.

    formdata.welcome_message = "";
    var visitorId = _.get(payload, 'channel.channelInfos.from');
    if (!visitorId) {
        visitorId = _.get(payload, 'channel.from');
    }
    visitorId = payload.context.session.UserContext._id;
    userDataMap[visitorId] = payload;
    data.message = "An Agent will be assigned to you shortly!!!";
    sdk.sendUserMessage(payload, callback);

In the next code example, the message sent to the user with the sdk.sendUserMessage function is based on user selection for converting currency. The isTemplate parameter determines if custom or default message formatting should be used.

    on_user_message : function(requestId, payload, callback) {
		message = payload.message.toLowerCase();console.log("MESSAGE",payload.message);
		//payload .context.session.BotContext.currency = "koko";
		if ( message == "Yes" || message == "yes")
		{
			var overrideMessagePayload = {
				body : " Enter the currency code for which the amount will be converted",
				isTemplate :false
			};
			data.overrideMessagePayload = overrideMessagePayload;
			currCode = true;
			return sdk.sendUserMessage(payload);
		}
		else if ( message == "No" || message == "no" )
		{
			 var overrideMessagePayload = {
				body : "Ok, Enter the country name so that I can fetch it on your behalf",
				isTemplate :false
			};
			payload.overrideMessagePayload = overrideMessagePayload;
			countryname = true;
			return sdk.sendUserMessage(payload);

Post the release of ver8.0 of the platform, you can add User, Message, and Session Meta Tags. The following would be the syntax for the necessary payload:

metaTags":{
     "userMetaTags":[
        {
            "name":"<string>",
           "value":"<string>"
       }
    ],
   "sessionMetaTags":[
      {
         "name":"<string>",
         "value":"<string>"
      }
    ],
 "messageMetaTags":[
     {
          "name":"<string>",
          "value":"<string>"
     }
  ]
}

sdk.sendBotMessage

This function sends the message to the bot.
Usage
Used inside the on_user_message event callback. An on_user_message event is called when the user sends a message to the bot. In the SDK, payload data such as message can be modified and sent to the Bots Platform.
A validation check is performed on the user message – the message cannot have more than 3000 characters and each word cannot have more than 1200 letters.
Syntax:

sdk.sendBotMessage(payload, callback)

Parameters:

  • payload – A JSON response payload as follows:
     {
       "message":"Message sent by the user",
       "channel":"Channel name",
       "context": <context object>
    }
    
  • callback – The function to call at event completion used to send the updated message and context back to the Bots Platform.

Examples
The following code snippet send the user response to the bot.

    on_user_message: function(requestId, payload, callback) {
        sdk.sendBotMessage(payload, callback);
    },

In this on_user_message function, the message is returned directly to the user, and if not a transfer to a Live Agent, then is sent to the bot.

    on_user_message: function(requestId, payload, callback) {
        if (payload.message === "Hi") {
            payload.message = "Hello";
            //Sends back 'Hello' to user.
            return sdk.sendUserMessage(payload, callback);
        } else if (!payload.agent_transfer) {
            //Forward the message to bot
            return sdk.sendBotMessage(payload, callback);
        } else {
            payload.message = "Agent Message";
            return sdk.sendUserMessage(payload, callback);
        }
    };

Post the release of ver8.0 of the platform, you can add User, Message, and Session Meta Tags. The following would be the syntax for the necessary payload:

metaTags":{
     "userMetaTags":[
        {
            "name":"<string>",
           "value":"<string>"
       }
    ],
   "sessionMetaTags":[
      {
         "name":"<string>",
         "value":"<string>"
      }
    ],
 "messageMetaTags":[
     {
          "name":"<string>",
          "value":"<string>"
     }
  ]
}

sdk.AsyncResponse

This function prepares the asynchronous response to send to the Bots Platform.
Usage
If the dialog task execution flow reaches a webhook node, the Bots Platform makes an on_webhook event call to the SDK. The on_webhook event call supports two types of responses:

  • Synchronous response – If the business logic execution can be completed within an acceptable time, the SDK can respond synchronously using the callback(null, payload) function.
  • Asynchronous response – If the business logic execution needs more time, the SDK can send the asynchronous response to the Bots Platform by calling the callback(null, new sdk.AsyncResponse()) function to send an HTTP code 202 to the Bots Platform. When the response is ready, the SDK can call the sdk.respondToHook(payload) function.

Syntax:

sdk.AsyncResponse()
callback(null, new sdk.AsyncResponse())

Parameters:
None.
Examples
This example of an on_webhook function, the Bot waits asynchronously for the booking of the cab selected by the user.

on_webhook : function(requestId, payload, componentName, callback) {
        var context = payload.context;
        if (componentName === 'FindNearbyCabs') {
            findCabs()
                .then(function(cabList) {
                    context.cabList = cabList;
                    callback(null, data);
                });
        } else if (componentName === 'BookTheCab') {
            sdk.saveData(requestId, payload)
                .then(function() {
                    bookTheCab(requestId, context.entities.selectedCab.id, context.session.UserSession.location, context.entities.whereTo);
                    callback(null, new sdk.AsyncResponse());
                });
        }
    }

sdk.respondToHook

This function sends the webhook response to the Bots Platform.
Usage
If the dialog task execution flow reaches a webhook node, the Bots Platform makes an on_webhook event call to the SDK. The on_webhook event call supports two types of responses:

  • Synchronous response – If the business logic execution can be completed within an acceptable time, the SDK can respond synchronously using the callback(null, payload) function.
  • Asynchronous response – If the business logic execution needs more time, the SDK can send the asynchronous response to the Bots Platform by calling the callback(null, new sdk.AsyncResponse()) function to send an HTTP code 202 to the Bots Platform. When the response is ready, the SDK can call the sdk.respondToHook(payload) function.

Syntax:

sdk.respondToHook(payload)

Parameters:

  • payload – A JSON response payload as follows:
     {
       "taskId":"Dialog task ID",
       "nodeId":"Current node ID in the dialog flow",
       "channel":"Channel name",
       "context": <context object>
    }

Examples
In the following code snippet, if the booking of the cab fails, the event is handled synchronously. Conversely, the booking of the cab is handled asynchronously via a webhook.

function onBookingFailure(requestId) {
    sdk.getSavedData(requestId)
        .then(function(payload) {
            payload.context.successful = false;
            sdk.respondToHook(payload);
        });
}
//call cabBookingService with the requestId. This service is expected to respond asynchronously.
//'requestId' must be passed along all asynchronous flows, to allow the BotKit to respond
// back to the hook once the async process is completed.
function bookTheCab(requestId, cabId, userLoc, destination) {
    cabBookingService(requestId, cabId, userLoc, destination, {
        on_success: onBookingSuccess,
        on_failure: onBookingFailure
    });
}

sdk.registerBot

This function registers the bot and makes callback events available at runtime.
Usage
The BotKit SDK is designed to require you to create one Node.js file for each bot. All callbacks for that bot are maintained in the Node.js file. To register a bot, you must export the following variables and functions as:

module.exports = {
      botId : “xxxxx”,
      botName : ““xxxxx”,
      on_user_message : function(requestId, data, callback) {
           //code goes here
      },
      on_bot_message : function(requestId, data, componentName, callback) {
           //code goes here
      },
     on_webhook : function(requestId, data, componentName, callback) {
           //code goes here
      },
}

Syntax:
To register the bot, call

sdk.registerBot(require('./<Bot Name>.js'));

Parameters:

  • Node.js file for the bot to register

Examples
The following code example shows registration of the bot by botId and botName.

module.exports = {
    botId : botId,
    botName : botName,
    on_user_message : function(requestId, payload, callback) {
        debug('on_user_message');
        onUserMessage(requestId, payload, callback);
    },
    on_bot_message : function(requestId, payload, callback) {
        debug('on_bot_message');
        onBotMessage(requestId, payload, callback);
    },
    on_agent_transfer : function(requestId, payload, callback) { console.log("on agent transfer event");
        debug('on_webhook');
        onAgentTransfer(requestId, payload, callback);
    },
    gethistory: gethistory
};

sdk.saveData

This function saves the data in the Redis in-memory data structure store.
Usage
When you respond to an on_webhook event call asynchronously, you can store the payload in the Redis store by requestId. After completion of your business logic execution, you can read the data using the sdk.getSavedData(requestId)function while preparing the webhook response.
Syntax:

sdk.saveData(requestId, payload)

Parameters:

  • requestId – The requestId from the asynchronous on_webhook event call.
  • payload – A JSON response payload as follows:
     {
       "taskId":"Dialog task ID",
       "nodeId":"Current node ID in the dialog flow",
       "channel":"Channel name",
       "context": <context object>
    }

Examples
In this on_webhook event, the user request to book a cab is saved in the Redis store and the asynchronous processing of the booking begins.

on_webhook : function(requestId, payload, componentId, callback) {
        var context = data.context;
        if (componentId === 'FindNearbyCabs') {
            findCabs()
                .then(function(cabList) {
                    context.cabList = cabList;
                    callback(null, payload);
                });
        } else if (componentName === 'BookTheCab') {
            sdk.saveData(requestId, payload)
                .then(function() {
                    //Assuming the cab booking was successful. A mock service to book the cab can be called here.
                    payload.successful = 'true';
                    payload.bookedCab = context.entities.selectedCab || {};
                    callback(null, payload);
                });
        }
    }

sdk.getSavedData

This function reads the data in the Redis in-memory data structure store.
Usage
When you respond to an on_webhook event call asynchronously, you can store the payload in the Redis store by requestId. After completion of your business logic execution, you can read the data using the sdk.getSavedData(requestId)function while preparing the webhook response.
Syntax:

sdk.getSavedData(requestId, payload)

Parameters:

  • requestId – The requestId from the asynchronous on_webhook event call.
  • payload – A JSON response payload as follows:
     {
       "taskId":"Dialog task ID",
       "nodeId":"Current node ID in the dialog flow",
       "channel":"Channel name",
       "context": <context object>
    }

Examples
In this code example, the sdk.getSavedData function is used to return the selected cab and booking information, or if the asynchronous booking webhook event fails, sends the failure message for the selected booking to the user.

/*/
 * Responds to the webhook asynchronously with the success flag.
 */
function onBookingSuccess(requestId) {
    sdk.getSavedData(requestId)
        .then(function(payload) {
            payload.context.bookedCab = payload.entities.selectedCab;
            payload.context.successful = true;
            sdk.respondToHook(payload);
        });
}
function onBookingFailure(requestId) {
    sdk.getSavedData(requestId)
        .then(function(payload) {
            payload.context.successful = false;
            sdk.respondToHook(payload);
        });
}

sdk.getMessages

This function is used to get the transcript of previous conversations between the Bot and the user. It works similar to the public API Conversation History (see here for Conversation History API)
Usage
Fetches the conversational messages between the bot and user in reverse chronological order. This API supports pagination. You can provide offset/skip and limit to get a certain number of messages at a time.
Syntax:

sdk.getMessages(requestData, callback)

Parameters:

  • requestData – as follows:
    requestData.baseUrl + '/getMessages?' + "skip=" + offset + "&limit=" + limit + "&userId=" + userId+"&channelType"=channel-type

    where

    • stream_id – Bot ID accessible from the Config Settings page of the Bot Builder
    • user_id – The ID of the user whose conversation history to access
    • skip – The number of messages to be skipped.
    • limit – The number of messages to be shown on each page.
    • channelType – Optional, the channel where the conversation was hosted.
  • callback – The function to call at event completion used to send the message history back to the Bots Platform.

Examples

//this example is from the LiveChat.js
//where the gethistory() function uses getMessage() to extract the messages
    var userId = req.query.userId;
    var data = userDataMap[userId];
    if(data) {
        data.limit = 100;
        return sdk.getMessages(data, function(err, resp){
            if(err){
                res.status(400);
                return res.json(err);
            }
            var messages = resp.messages;
            res.status(200);
            return res.json(messages);
        });

sdk.clearAgentSession

This function is used to clear the Agent session and reestablish the conversation with the Bot.
Usage
In an Agent Transfer scenario, when the agent closes the conversation with the user, chat_closed event gets triggered from 3rd party provider. In such situations, this function is invoked to re-establish the conversation with the bot
Syntax:

sdk.clearAgentSession(requestData, callback)

Parameters:

  • requestData – as follows:
    requestData.baseUrl+ '/clearAgentSession/' + requestData.requestId

    where

    • requestId – the session id
  • callback – The function to call at event completion.

Examples

//this example is from the LiveChat.js
//where the function is invoked to clear agent session when the chat is closed by the user
    if (event.type==="chat_closed"){
       console.log('chat_closed');
       delete userResponseDataMap[visitorId];
       delete _map[visitorId];
       sdk.clearAgentSession(data);
    }

Post the release of ver8.0 of the platform, you can add User, Message, and Session Meta Tags. The following would be the syntax for the necessary payload:

metaTags":{
     "userMetaTags":[
        {
            "name":"<string>",
           "value":"<string>"
       }
    ],
   "sessionMetaTags":[
      {
         "name":"<string>",
         "value":"<string>"
      }
    ],
 "messageMetaTags":[
     {
          "name":"<string>",
          "value":"<string>"
     }
  ]
}

sdk.startAgentSession

This function is used to notify the platform that an Agent session has started.
Usage
This function is used when an Agent Transfer is initiated and you want to indicate to the Bot that the agent transfer is in progress. Followed by this, the data object received by BotKit at onMessages(), for instance, would have agent session as true. Further, if the sdk.clearAgentSession is called from BotKit, the platform is notified that agent session is completed and the data object received by the BotKit would have the agent session set to false.
Syntax:

sdk.startAgentSession(requestData, callback)

Parameters:

  • requestData – as follows:
     requestData.baseUrl + '/startAgentSession/' + requestData.requestId

    where

    • requestId – the session id
  • callback – The function to call at event completion.

Examples

//The following function call is used in the LiveChat.js for connectToAgent() function
//Invoking the startAgentSession before invoking the initChat function will ensure that
// the Bot is aware of the Agent transfer in progress
function connectToAgent(requestId, data, cb){
    var formdata = {};
    formdata.licence_id = config.liveagentlicense;
    formdata.welcome_message = "";
    var visitorId = _.get(data, 'channel.channelInfos.from');
    if(!visitorId){
       visitorId = _.get(data, 'channel.from');
      }
    userDataMap[visitorId] = data;
     data.message="An Agent will be assigned to you shortly!!!";
     sdk.sendUserMessage(data, cb);
     sdk.startAgentSession(data, cb);
    formdata.welcome_message = "Link for user Chat history with bot: "+ config.app.url +"/history/index.html?visitorId=" + visitorId;
    return api.initChat(visitorId, formdata)
     .then(function(res){
     _map[visitorId] = {
     secured_session_id: res.secured_session_id,
     visitorId: visitorId,
     last_message_id: 0
    };
   });
 }

Post the release of ver8.0 of the platform, you can add User, Message, and Session Meta Tags. The following would be the syntax for the necessary payload:

metaTags":{
     "userMetaTags":[
        {
            "name":"<string>",
           "value":"<string>"
       }
    ],
   "sessionMetaTags":[
      {
         "name":"<string>",
         "value":"<string>"
      }
    ],
 "messageMetaTags":[
     {
          "name":"<string>",
          "value":"<string>"
     }
  ]
}

sdk.resetBot

This function is used to clear the context and discard the current task silently.
Usage
At run time, during the execution of dialog, if the user input might want to clear the Bot using “reset bot” command. Then the context can be cleared and the task discarded.
Syntax:

sdk.resetBot(requestData, callback)

Parameters:

  • requestData – as follows:
    requestData.resetBotUrl
  • callback – The function to call at event completion.

Examples

on_user_message : function(requestId, data, callback) {
     if (data.message==="reset bot"){
	sdk.resetBot(data, callback);
      }

sdk.extendRequestId

This function is used to extend the time allocated for botKit to send messages to the platform.
Usage
This function is used when an Agent Transfer is initiated and after sometime platform might not be receiving messages. This can be addressed by extending the time allocated for the botKit to send messages to the platform.
Syntax:

sdk.extendRequestId(requestData, callback)

Examples

function onBotMessage(requestId, data, cb) {
    console.log("bot message",JSON.stringify(data));
    var visitorId = _.get(data, 'channel.from');
     event =  schedular.scheduleJob("*/4 * * * *", function() {
                pub.get(visitorId+':data',function(err,reply){
                    if(err) throw err;
                    sdk.extendRequestId(data,cb);
                })
    });
	}
 on_user_message: function(requestId, data, callback) { 
        var visitorId = _.get(data, 'channel.from');
        registerEvent(visitorId, data);
        if(event){
            event.cancel();
        }else{
            console.log(new Date(),'event not found');
        }
        event =  schedular.scheduleJob("*/4 * * * *", function() {
            pub.get(visitorId+':data',function(err,reply){
                if(err) throw err;
                    sdk.extendRequestId(data,callback);
            })
        });

Note: Extending the time will not be effective in case of no active conversation for a period of 15 minutes. An inactive session would cause the agent_transfer mode to be reset irrespective.

sdk.skipBotMessage

This function is used to skip a specific message for a specific business use case.
Usage
At run time, during the execution of dialog, instead of waiting for the BotKit to send a message to proceed, the system will proceed to the next step.

Syntax:

sdk.skipBotMessage(requestData, callback)

Parameters:

  • requestData – data
  • callback – The function to call at event completion.

Examples

if(data.message === "skipBotMessage"){ // condition for skipping a Bot message
	sdk.skipBotMessage(data, cb);
}

Post the release of ver8.0 of the platform, you can add User, Message, and Session Meta Tags. The following would be the syntax for the necessary payload:

metaTags":{
     "userMetaTags":[
        {
            "name":"<string>",
           "value":"<string>"
       }
    ],
   "sessionMetaTags":[
      {
         "name":"<string>",
         "value":"<string>"
      }
    ],
 "messageMetaTags":[
     {
          "name":"<string>",
          "value":"<string>"
     }
  ]
}

sdk.skipUserMessage

This function is used to skip a specific message for a specific business use case.
Usage
At run time, during the execution of dialog, instead of waiting for the BotKit to send a confirmation message to proceed, the system will proceed with the next step.
Syntax:

sdk.skipUserMessage(requestData, callback)

Parameters:

  • requestData – data
  • callback – The function to call at event completion.

Examples

if(data.message === "skipUserMessage"){ // condition for skipping a user message
	sdk.skipUserMessage(data, cb);
}

Post the release of ver8.0 of the platform, you can add User, Message, and Session Meta Tags. The following would be the syntax for the necessary payload:

metaTags":{
     "userMetaTags":[
        {
            "name":"<string>",
           "value":"<string>"
       }
    ],
   "sessionMetaTags":[
      {
         "name":"<string>",
         "value":"<string>"
      }
    ],
 "messageMetaTags":[
     {
          "name":"<string>",
          "value":"<string>"
     }
  ]
}

sdk.closeConversationSession

This function is used to close a conversation session.
Usage
Syntax:

sdk.closeConversationSession(requestData, callback)

Parameters:

  • requestData – data
  • callback – The function to call at event completion.

Examples

if(data.message === "closeConversationSession"){ // condition for skipping a user message
	sdk.closeConversationSession(data, cb);
}

Post the release of ver8.0 of the platform, you can add User, Message, and Session Meta Tags. The following would be the syntax for the necessary payload:

metaTags":{
     "userMetaTags":[
        {
            "name":"<string>",
           "value":"<string>"
       }
    ],
   "sessionMetaTags":[
      {
         "name":"<string>",
         "value":"<string>"
      }
    ],
 "messageMetaTags":[
     {
          "name":"<string>",
          "value":"<string>"
     }
  ]
}
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