How to build a WhatsApp bot for to-do lists using Bird’s Programmable Conversations API

Bird recently launched Programmable Conversations. It lets companies blend communications platforms like WhatsApp, Messenger and SMS into their systems — using a single API.

Author

Bird

Category

WhatsApp

How to build a WhatsApp bot for to-do lists using Bird’s Programmable Conversations API

Bird recently launched Programmable Conversations. It lets companies blend communications platforms like WhatsApp, Messenger and SMS into their systems — using a single API.

Author

Bird

Category

WhatsApp

How to build a WhatsApp bot for to-do lists using Bird’s Programmable Conversations API

Bird recently launched Programmable Conversations. It lets companies blend communications platforms like WhatsApp, Messenger and SMS into their systems — using a single API.

Author

Bird

Category

WhatsApp

Bird recently launched Programmable Conversations. It lets companies blend communications platforms like WhatsApp, Messenger and SMS into their systems — using a single API.

I wanted to give it a whirl, so I built a WhatsApp bot to-do list, because who doesn’t need an automated to-do list to help organize their day? It may sound complicated, but it was actually easy, and I’d like to tell you all about it.

Now, I work at MessageBird, so I could just dive in and start building. If you try this, you’ll need to request early access. But once you’re set up with a WhatsApp channel, you can log on to the Dashboard on the MessageBird website and get started.

The first thing I did was read the docs. I learned that, in order to get messages from the bot, I would have to use a webhook. This meant that my bot would need to be accessible from the internet. Since I was just starting to code it, I decided to use ngrok. It creates a tunnel from the public internet to your dear localhost port 5007. Engage!

ngrok http 5007 -region eu -subdomain todobot

Next, I needed to do a call to the Programmable Conversations API to create the webhook. It’s a POST to https://conversations.messagebird.com/v1/webhooks and it looks something like this:

func main() {// define the webhook json payload
       wh := struct {
               Events    []string `json:"events"`
               ChannelID string   `json:"channelId"`
               URL       string   `json:"url"`
       } {// we would like to be notified on the URL
               URL:       "https://todobot.eu.ngrok.io/create-hook",
               // whenever a message gets created
               Events:    []string{"message.created"},
               // on the WhatsApp channel with ID
               ChannelID: "23a780701b8849f7b974d8620a89a279",
       }// encode the payload to json
       var b bytes.Buffer
       err := json.NewEncoder(&b).Encode(&wh)
       if err != nil {
               panic(err)
       }// create the http request and set authorization header
       req, err := http.NewRequest("POST", "https://conversations.messagebird.com/v1/webhooks", &b)
       req.Header.Set("Authorization", "AccessKey todo-your-access-key")
       req.Header.Set("Content-Type", "application/json")// fire the http request
       client := &http.Client{}
       resp, err := client.Do(req)
       if err != nil {
               panic(err)
       }
       defer resp.Body.Close()// is everything ok?
       body, _ := ioutil.ReadAll(resp.Body)
       if resp.StatusCode >= http.StatusBadRequest {
               panic(fmt.Errorf("Bad response code from api when trying to create webhook: %s. Body: %s", resp.Status, string(body)))
       } else {
               log.Println("All good. response body: ", string(body))
       }
}

Sweet. Now the Conversations API is going to do a POST request to:

https://todobot.eu.ngrok.io/create-hook whenever a new message gets created on the WhatsApp channel you set up earlier.

This is what a webhook payload looks like:

{
    "conversation":{
       "id":"55c66895c22a40e39a8e6bd321ec192e",
       "contactId":"db4dd5087fb343738e968a323f640576",
       "status":"active",
       "createdDatetime":"2018-08-17T10:14:14Z",
       "updatedDatetime":"2018-08-17T14:30:31.915292912Z",
       "lastReceivedDatetime":"2018-08-17T14:30:31.898389294Z"
    },
    "message":{
       "id":"ddb150149e2c4036a48f581544e22cfe",
       "conversationId":"55c66895c22a40e39a8e6bd321ec192e",
       "channelId":"23a780701b8849f7b974d8620a89a279",
       "status":"received",
       "type":"text",
       "direction":"received",
       "content":{
          "text":"add buy milk"
       },
       "createdDatetime":"2018-08-17T14:30:31.898389294Z",
       "updatedDatetime":"2018-08-17T14:30:31.915292912Z"
    },
    "type":"message.created"
 }

We want to answer those messages. Let’s start by echoing them, what do you say?

// define the structs where we'll parse the webhook payload intype whPayload struct {
       Conversation conversation `json:"conversation"`
       Message      message      `json:"message"`
       Type         string       `json:"type"`
}type message struct {
       ID        string  `json:"id"`
       Direction string  `json:"direction"`
       Type      string  `json:"type"`
       Content   content `json:"content"`
}type content struct {
       Text string `json:"text"`
}type conversation struct {
       ID string `json:"id"`
}func main() {
      http.HandleFunc("/create-hook", createHookHandler)
      log.Fatal(http.ListenAndServe(*httpListenAddress, nil))
}// createHookHandler is an http handler that will handle webhook requests
func createHookHandler(w http.ResponseWriter, r *http.Request) {
       // parse the incoming json payload
       whp := &whPayload{}
       err := json.NewDecoder(r.Body).Decode(whp)
       if err != nil {
               log.Println("Err: got weird body on the webhook")
               w.WriteHeader(http.StatusInternalServerError)
               fmt.Fprintf(w, "Internal Server Error")
               return
       }if whp.Message.Direction != "received" {
               // you will get *all* messages on the webhook. Even the ones this bot sends to the channel. We don't want to answer those.
               fmt.Fprintf(w, "ok")
               return
       }// echo: respond what we get
       err = respond(whp.Conversation.ID, whp.Message.Content.Text)

       if err != nil {
               log.Println("Err: ", err)
               w.WriteHeader(http.StatusInternalServerError)
               fmt.Fprintf(w, "Internal Server Error")return
       }w.WriteHeader(http.StatusOK)
       fmt.Fprintf(w, "ok")
}

Now, for the interesting part. Do a POST request to:

“https://conversations.messagebird.com/v1/conversations/<conversationID>/messages” to answer the request.

func respond(conversationID, responseBody string) error {

       u := fmt.Sprintf("https://conversations.messagebird.com/v1/conversations/%s/messages", conversationID)msg := message{
               Content: content{
                       Text: responseBody,
               },
               Type: "text",
       }var b bytes.Buffer
       err := json.NewEncoder(&b).Encode(&msg)
       if err != nil {
               return fmt.Errorf("Error encoding buffer: %v", err)
       }req, err := http.NewRequest("POST", u.String(), &b)
       req.Header.Set("Authorization", "AccessKey todo-your-access-key")
       req.Header.Set("Content-Type", "application/json")client := &http.Client{}
       resp, err := client.Do(req)
       if err != nil {
               return err
       }
       defer resp.Body.Close()body, _ := ioutil.ReadAll(resp.Body)
       if resp.StatusCode != http.StatusCreated {
               return fmt.Errorf("Bad response code from api when trying to create message: %s. Body: %s", resp.Status, string(body))
       }log.Println("All good. Response body: ", string(body))
       return nil
}

There. This is all you need to create a bot that acts like 5-year-old human.

Now, let’s make a push towards building the whole to-do list. First, modify the createHookHandler function a bit so it calls the new handleMessage function instead of respond.

func createHookHandler(w http.ResponseWriter, r *http.Request) {
       ...
       err = handleMessage(whp)
       ...
}

handle will simplistically parse the messages, do some work, and pick the response. Let’s look at the “add” command:

func handleMessage(whp *whPayload) error {
       // every conversation has a todo list
       list := manager.fetch(whp.Conversation.ID)
       // parse the command from the message body: it's the first word
       text := whp.Message.Content.Text
       text = regexp.MustCompile(" +").ReplaceAllString(text, " ")
       parts := strings.Split(text, " ")
       command := strings.ToLower(parts[0])
       // default message
       responseBody := "I don't understand. Type 'help' to get help."
       switch command {
...
       case "add":
               if len(parts) < 2 {
                       return respond(whp.Conversation.ID, "err... the 'add' command needs a second param: the todo item you want to save. Something like 'add buy milk'.")
               }
               // get the item from the message body
               item := strings.Join(parts[1:], " ")list.add(item)
               responseBody = "added."
...
       return respond(whp.Conversation.ID, responseBody)
}

Here, we set up:list := manager.fetch(whp.Conversation.ID). Basically, “manager” is a concurrency safe map that maps conversation IDs to to-do lists.

A to-do list is a concurrency safe string slice. All in memory!

Another important thing! You can archive conversations. In some applications, like CRMs, it’s important to keep track of certain interactions — to track the effectiveness of customer support employees, for example. The Conversations API lets you archive a conversation to “close” the topic. If the user/customer sends another message, the Conversations API will open a new topic automatically.

Also. Doing PATCH request to https://conversations.messagebird.com/v1/conversations/{id} with the right status on the body allows you to archive the conversation with that id. We do this with the “bye” command:

case "bye":
               archiveConversation(whp.Conversation.ID)
               manager.close(whp.Conversation.ID)
               responseBody = "bye!"

archiveConversation will do the PATCH request and manager.close(whp.Conversation.ID) will remove the to-do list conversation.

But hey, Programmable Conversations is an omni-channel solution. What if you wanted to reuse the code of the bot for a different platform, like WeChat? How would you go about it?

Just create a new webhook to target that channel! A webhook that sends requests to the same https://todobot.eu.ngrok.io/create-hook url we used for WhatsApp!

This will work because the handler code always uses the conversationID from the webhook payload to answer the messages instead of a hardcoded channelID. MessageBird’s Conversations API will automatically determine the channel for the conversation to send your message over.

Do you want to build your own bot? Take a look at the full code on Github: https://github.com/marcelcorso/wabot, request early access to WhatsApp via this link and start building directly. Happy botting!

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