Account linking with OAuth and Google Sign-In (Dialogflow)

The OAuth and Google Sign-In linking type adds Google Sign-In on top of OAuth based account linking. This provides seamless voice-based linking for Google users while also enabling account linking for users who registered to your service with a non-Google identity.

This linking type begins with Google Sign-In, which allows you to check if the user's Google profile information exists in your system. If the user's information isn't found in your system, a standard OAuth flow begins. The user can also choose to create a new account with their Google profile information.

Figure 1: After your Action gets access to the user's Google profile, you can use it to find a match for the user in your authentication system.

To perform account linking with OAuth and Google Sign-In, follow these general steps:

  1. First, ask the user to give consent to access their Google profile.
  2. Use the information in their profile to identify the user.
  3. If you can't find a match for the Google user in your authentication system, the flow proceeds depending on whether you configured your Actions project in the Actions console to allow user account creation via voice or only on your website.
    • If you allow account creation via voice, validate the ID token received from Google. You can then create a user based on the profile information contained in the ID token.
    • If you don't allow account creation via voice, the user is transferred to a browser where they can load your authorization page and complete the user creation flow.
If you allow account creation via voice and can't find a match for
            the Google profile in your authentication system, you need to
            validate the ID token received from Google. You can then create a
            user based on the profile information contained in the ID token.
            If you don't allow user account creation via voice, the user is
            transferred to a browser where they can load your authorization page
            and complete the flow.
Figure 2. A visual representation of the OAuth and Google Sign-In flow when a user's information is not found in your system.

Support account creation via voice

If you allow user account creation via voice, the Assistant asks the user whether they want to do the following:

  • Create a new account on your system using their Google account information, or
  • Sign in to your authentication system with a different account if they have an existing non-Google account.

Allowing account creation via voice is recommended if you want to minimize the friction of the account creation flow. The user only needs to leave the voice flow if they want to sign in using an existing non-Google account.

Disallow account creation via voice

If you disallowed user account creation via voice, the Assistant opens the URL to the web site that you provided for user authentication. If the interaction is happening on a device that doesn't have a screen, the Assistant directs the user to a phone to continue the account linking flow.

Disallowing creation is recommended if:

  • You do not want to allow users that have non-Google accounts to create a new user account and want them to link to their existing user accounts in your authentication system instead. For example, if you offer a loyalty program, you might want to make sure that the user doesn't lose the points accrued on their existing account.

  • You need to have full control of the account creation flow. For example, you could disallow creation if you need to show your terms of service to the user during account creation.

Implement OAuth and Google Sign-In account linking

Accounts are linked with industry standard OAuth 2.0 flows. Actions on Google supports the implicit and authorization code flows.

In the implicit code flow, Google opens your authorization endpoint in the user's browser. After successful sign in, you return a long-lived access token to Google. This access token is now included in every request sent from the Assistant to your Action.

In the authorization code flow, you need two endpoints:

  • The authorization endpoint, which is responsible for presenting the sign-in UI to your users that aren't already signed in and recording consent to the requested access in the form of a short-lived authorization code.
  • The token exchange endpoint, which is responsible for two types of exchanges:
    1. Exchanges an authorization code for a long-lived refresh token and a short-lived access token. This exchange happens when the user goes through the account linking flow.
    2. Exchanges a long-lived refresh token for a short-lived access token. This exchange happens when Google needs a new access token because the one it had expired.

Although the implicit code flow is simpler to implement, Google recommends that access tokens issued using the implicit flow never expire, because using token expiration with the implicit flow forces the user to link their account again. If you need token expiration for security reasons, you should strongly consider using the auth code flow instead.

Configure the project

To configure your project to use OAuth and Google Sign-In account linking, follow these steps:

  1. Open the Actions console and select the project you want to use.
  2. Click on the Develop tab and choose Account linking.
  3. Enable the switch next to Account linking.
  4. In the Account creation section, select Yes.
  5. In Linking type, select OAuth & Google Sign In and Implicit.

  6. In Client Information, do the following:

    • Assign a value to Client ID issued by your Actions to Google to identify requests coming from Google.
    • Insert the URLs for your Authorization and Token Exchange endpoints.
  7. Click Save.

Implement your OAuth server

To support the OAuth 2.0 implicit flow, your service makes an authorization endpoint available by HTTPS. This endpoint is responsible for authenticating and obtaining consent from users for data access. The authorization endpoint presents a sign-in UI to your users that aren't already signed in and records consent to the requested access.

When your Action needs to call one of your service's authorized APIs, Google uses this endpoint to get permission from your users to call these APIs on their behalf.

A typical OAuth 2.0 implicit flow session initiated by Google has the following flow:

  1. Google opens your authorization endpoint in the user's browser. The user signs in if not signed in already, and grants Google permission to access their data with your API if they haven't already granted permission.
  2. Your service creates an access token and returns it to Google by redirecting the user's browser back to Google with the access token attached to the request.
  3. Google calls your service's APIs, and attaches the access token with each request. Your service verifies that the access token grants Google authorization to access the API and then completes the API call.

Handle authorization requests

When your Action needs to perform account linking via an OAuth2 implicit flow, Google sends the user to your authorization endpoint with a request that includes the following parameters:

Authorization endpoint parameters
client_id The client ID you assigned to Google.
redirect_uri The URL to which you send the response to this request.
state A bookkeeping value that is passed back to Google unchanged in the redirect URI.
response_type The type of value to return in the response. For the OAuth 2.0 implicit flow, the response type is always token.

For example, if your authorization endpoint is available at https://myservice.example.com/auth, a request might look like:

GET https://myservice.example.com/auth?client_id=GOOGLE_CLIENT_ID&redirect_uri=REDIRECT_URI&state=STATE_STRING&response_type=token

For your authorization endpoint to handle sign-in requests, do the following steps:

  1. Verify the client_id and redirect_uri values to prevent granting access to unintended or misconfigured client apps:

    • Confirm that the client_id matches the client ID you assigned to Google.
    • Confirm that the URL specified by the redirect_uri parameter has the following form:
      https://oauth-redirect.googleusercontent.com/r/YOUR_PROJECT_ID
      YOUR_PROJECT_ID is the ID found on the Project settings page of the Actions Console.
  2. Check if the user is signed in to your service. If the user isn't signed in, complete your service's sign-in or sign-up flow.

  3. Generate an access token that Google will use to access your API. The access token can be any string value, but it must uniquely represent the user and the client the token is for and must not be guessable.

  4. Send an HTTP response that redirects the user's browser to the URL specified by the redirect_uri parameter. Include all of the following parameters in the URL fragment:

    • access_token: the access token you just generated
    • token_type: the string bearer
    • state: the unmodified state value from the original request The following is an example of the resulting URL:
      https://oauth-redirect.googleusercontent.com/r/YOUR_PROJECT_ID#access_token=ACCESS_TOKEN&token_type=bearer&state=STATE_STRING

Google's OAuth 2.0 redirect handler will receive the access token and confirm that the state value hasn't changed. After Google has obtained an access token for your service, Google will attach the token to subsequent calls to your Action as part of the AppRequest.

Handle automatic linking

After the user gives your Action consent to access their Google profile, Google sends a request that contains a signed assertion of the Google user's identity. The assertion contains information that includes the user's Google Account ID, name, and email address. The token exchange endpoint configured for your project handles that request.

If the corresponding Google account is already present in your authentication system, your token exchange endpoint returns a token for the user. If the Google account doesn't match an existing user, your token exchange endpoint returns a user_not_found error.

The request has the following form:

POST /token HTTP/1.1
Host: oauth2.example.com
Content-Type: application/x-www-form-urlencoded

grant_type=urn:ietf:params:oauth:grant-type:jwt-bearer&intent=get&assertion=JWT&consent_code=CONSENT_CODE&scope=SCOPES

Your token exchange endpoint must be able to handle the following parameters:

Token endpoint parameters
grant_type The type of token being exchanged. For these requests, this parameter has the value urn:ietf:params:oauth:grant-type:jwt-bearer.
intent For these requests, the value of this parameter is `get`.
assertion A JSON Web Token (JWT) that provides a signed assertion of the Google user's identity. The JWT contains information that includes the user's Google Account ID, name, and email address.
consent_code Optional: When present, a one-time code that indicates that the user has granted consent for your Action to access the specified scopes.
scope Optional: Any scopes you configured Google to request from users.

When your token exchange endpoint receives the linking request, it should do the following:

Validate and decode the JWT assertion

You can validate and decode the JWT assertion by using a JWT-decoding library for your language. Use Google's public keys (available in JWK or PEM format) to verify the token's signature.

When decoded, the JWT assertion looks like the following example:

{
  "sub": 1234567890,        // The unique ID of the user's Google Account
  "iss": "https://accounts.google.com",        // The assertion's issuer
  "aud": "123-abc.apps.googleusercontent.com", // Your server's client ID
  "iat": 233366400,         // Unix timestamp of the assertion's creation time
  "exp": 233370000,         // Unix timestamp of the assertion's expiration time
  "name": "Jan Jansen",
  "given_name": "Jan",
  "family_name": "Jansen",
  "email": "jan@gmail.com", // If present, the user's email address
  "locale": "en_US"
}

In addition to verifying the token's signature, verify that the assertion's issuer (iss field) is https://accounts.google.com and that the audience (aud field) is the client ID assigned to your Action.

Check if the Google account is already present in your authentication system

Check whether either of the following conditions are true:

  • The Google Account ID, found in the assertion's sub field, is in your user database.
  • The email address in the assertion matches a user in your user database.

If either condition is true, the user has already signed up and you can issue an access token.

If neither the Google Account ID nor the email address specified in the assertion matches a user in your database, the user hasn't signed up yet. In this case, your token exchange endpoint should reply with a HTTP 401 error, that specifies error=user_not_found, as in the following example:

HTTP/1.1 401 Unauthorized
Content-Type: application/json;charset=UTF-8

{
  "error":"user_not_found",
}
When Google receives the 401 error response with a user_not_found error, Google calls your token exchange endpoint with the value of the intent parameter set to create and sending an ID token that contains the user's profile information with the request.

Handle account creation via Google Sign-In

When a user needs to create an account on your service, Google makes a request to your token exchange endpoint that specifies intent=create, as in the following example:

POST /token HTTP/1.1
Host: oauth2.example.com
Content-Type: application/x-www-form-urlencoded

response_type=token&grant_type=urn:ietf:params:oauth:grant-type:jwt-bearer&scope=SCOPES&intent=create&consent_code=CONSENT_CODE&assertion=JWT[&NEW_ACCOUNT_INFO]

The assertion parameter contains A JSON Web Token (JWT) that provides a signed assertion of the Google user's identity. The JWT contains information that includes the user's Google Account ID, name, and email address, which you can use to create a new account on your service.

To respond to account creation requests, your token exchange endpoint must do the following:

Validate and decode the JWT assertion

You can validate and decode the JWT assertion by using a JWT-decoding library for your language. Use Google's public keys (available in JWK or PEM format) to verify the token's signature.

When decoded, the JWT assertion looks like the following example:

{
  "sub": 1234567890,        // The unique ID of the user's Google Account
  "iss": "https://accounts.google.com",        // The assertion's issuer
  "aud": "123-abc.apps.googleusercontent.com", // Your server's client ID
  "iat": 233366400,         // Unix timestamp of the assertion's creation time
  "exp": 233370000,         // Unix timestamp of the assertion's expiration time
  "name": "Jan Jansen",
  "given_name": "Jan",
  "family_name": "Jansen",
  "email": "jan@gmail.com", // If present, the user's email address
  "locale": "en_US"
}

In addition to verifying the token's signature, verify that the assertion's issuer (iss field) is https://accounts.google.com and that the audience (aud field) is the client ID assigned to your Action.

Validate user information and create new account

Check whether either of the following conditions are true:

  • The Google Account ID, found in the assertion's sub field, is in your user database.
  • The email address in the assertion matches a user in your user database.

If either condition is true, prompt the user to link their existing account with their Google Account by responding to the request with an HTTP 401 error, specifying error=linking_error and the user's email address as the login_hint, as in the following example:

HTTP/1.1 401 Unauthorized
Content-Type: application/json;charset=UTF-8

{
  "error":"linking_error",
  "login_hint":"foo@bar.com"
}

If neither condition is true, create a new user account using the information provided in the JWT. New accounts do not typically have a password set. It is recommended that you add Google Sign In to other platforms to enable users to log in via Google across the surfaces of your application. Alternatively, you can email the user a link that starts your password recovery flow to allow the user to set a password for signing in on other platforms.

When the creation is completed, issue an access token and return the values in a JSON object in the body of your HTTPS response, like in the following example:

{
  "token_type": "Bearer",
  "access_token": "ACCESS_TOKEN",
  
  "expires_in": SECONDS_TO_EXPIRATION
}

Start the authentication flow

Use the Account Sign-in helper intent to start the authentication flow.

Dialogflow (Node.js)
const app = dialogflow({
  // REPLACE THE PLACEHOLDER WITH THE CLIENT_ID OF YOUR ACTIONS PROJECT
  clientId: CLIENT_ID,
})

// Intent that starts the account linking flow.
app.intent('Start Signin', conv => {
  conv.ask(new SignIn('To get your account details'))
})

Dialogflow (Java)
private String clientId = "<your_client_id>";

@ForIntent("Start Signin")
public ActionResponse text(ActionRequest request) {
  ResponseBuilder rb = getResponseBuilder(request);
  return rb.add(new SignIn().setContext("To get your account details")).build();
}
Actions SDK (Node.js)
const app = actionssdk({
  clientId: CLIENT_ID,
})

app.intent('Start Signin', conv => {
  conv.ask(new SignIn('To get your account details'))
})

Actions SDK (Java)
private String clientId = "<your_client_id>";

@ForIntent("actions.intent.TEXT")
public ActionResponse text(ActionRequest request) {
  ResponseBuilder rb = getResponseBuilder(request);
  return rb.add(new SignIn().setContext("To get your account details")).build();
}

Handle data access requests

If the Assistant request contains an access token, check first that the access token is valid and not expired and then retrieve from your user account database the user account associated with the token.