154

With the new firebase cloud function I've decided to move some of my HTTP endpoint to firebase. Everything works great... But i have the following issue. I have two endpoints build by HTTP Triggers (Cloud Functions)

  1. An API endpoint to create users and returns the custom Token generated by Firebase Admin SDK.
  2. An API endpoint to fetch certain user details.

While the first endpoint is fine, but for my second end point i would want to protect it for authenticated users only. meaning someone who has the token i generated earlier.

How do i go about solving this?

I know we can get the Header parameters in the cloud function using

request.get('x-myheader')

but is there a way to protect the endpoint just like protecting the real time data base?

149

There is an official code sample for what you're trying to do. What it illustrates is how to set up your HTTPS function to require an Authorization header with the token that the client received during authentication. The function uses the firebase-admin library to verify the token.

Also, you can use "callable functions" to make a lot of this boilerplate easier, if your app is able to use Firebase client libraries.

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  • 2
    Is this code sample Still valid? Is this still how you would address this today? – Gal Bracha Oct 31 '17 at 0:04
  • 1
    @GalBracha It should still be valid today (Oct 31 2017). – Doug Stevenson Oct 31 '17 at 6:05
  • @DougStevenson will those 'console.log' calls have any 'noticeable' impact on performance? – Sanka Darshana Dec 1 '17 at 4:06
  • 2
    How will using callable functions make the boilerplate easier? From what I understand those are just "non-REST" server functions, I don't really understand how they relate here. Thanks. – 1252748 Feb 18 at 19:13
  • 2
    @1252748 If you read the linked documentation, it will become clear. It handles the passing and validation of the auth token automatically, so you don't have to write that code on either side. – Doug Stevenson Feb 18 at 19:17
128

As mentioned by @Doug, you can use firebase-admin to verify a token. I've set up a quick example:

exports.auth = functions.https.onRequest((req, res) => {
  cors(req, res, () => {
    const tokenId = req.get('Authorization').split('Bearer ')[1];

    return admin.auth().verifyIdToken(tokenId)
      .then((decoded) => res.status(200).send(decoded))
      .catch((err) => res.status(401).send(err));
  });
});

In the example above, I've also enabled CORS, but that's optional. First, you get the Authorization header and find out the token.

Then, you can use firebase-admin to verify that token. You'll get the decoded information for that user in the response. Otherwise, if the token isn't valid, it'll throw an error.

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  • 14
    Upvoted as it is simple, and doesn't depend on express like the official example does. – DarkNeuron Jun 28 '17 at 15:00
  • 5
    Can you explain more about the cors? – pete Jul 10 '17 at 6:18
  • @pete: cors is just solving cross-origin resource sharing. You can google to know more about it. – Lạng Hoàng Sep 28 '17 at 2:15
  • @pete Cors allows you to hit that firebase-backend end-point from different urls. – Walter Monecke Dec 15 '17 at 12:43
  • 7
    @RezaRahmati You can use the getIdToken() method on client-side (e.g. firebase.auth().currentUser.getIdToken().then(token => console.log(token))) firebase docs – Will Oct 13 '18 at 21:10
20

As also mentioned by @Doug, you can use Callable Functions in order to exclude some boilerplate code from your client and your server.

Exampale callable function:

export const getData = functions.https.onCall((data, context) => {
  // verify Firebase Auth ID token
  if (!context.auth) {
    return { message: 'Authentication Required!', code: 401 };
  }

  // do your things..
  const uid = context.auth.uid;
  const query = data.query;

  return { message: 'Some Data', code: 400 };
});

It can be invoked directly from you client like so:

firebase.functions().httpsCallable('getData')({query}).then(result => console.log(result));
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4

The above methods authenticate the user using logic inside the function, so the function must be still be invoked to do the checking.

That's a totally fine method, but for the sake of comprehensivity, there is an alternative:

You can set a function to be "private" so that it can't be invoked except by registered users (you decide on permissions). In this case, unauthenticated requests are denied outside the context of the function, and the function is not invoked at all.

Here are references to (a) Configuring functions as public/private, and then (b) authenticating end-users to your functions.

Note that the docs above are for Google Cloud Platform, and indeed, this works because every Firebase project is also a GCP project. A related caveat with this method is that, as of writing, it only works with Google-account based authentication.

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0

There is a nice official example on it using Express - may be handy in future: https://github.com/firebase/functions-samples/blob/master/authorized-https-endpoint/functions/index.js (pasted below just for sure)

Keep in mind that exports.app makes your functions available under /app slug (in this case there is only one function and is available under <you-firebase-app>/app/hello. To get rid of it you actually need to rewrite Express part a bit (middleware part for validation stays the same - it works very good and is quite understandable thanks to comments).

/**
 * Copyright 2016 Google Inc. All Rights Reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
'use strict';

const functions = require('firebase-functions');
const admin = require('firebase-admin');
admin.initializeApp();
const express = require('express');
const cookieParser = require('cookie-parser')();
const cors = require('cors')({origin: true});
const app = express();

// Express middleware that validates Firebase ID Tokens passed in the Authorization HTTP header.
// The Firebase ID token needs to be passed as a Bearer token in the Authorization HTTP header like this:
// `Authorization: Bearer <Firebase ID Token>`.
// when decoded successfully, the ID Token content will be added as `req.user`.
const validateFirebaseIdToken = async (req, res, next) => {
  console.log('Check if request is authorized with Firebase ID token');

  if ((!req.headers.authorization || !req.headers.authorization.startsWith('Bearer ')) &&
      !(req.cookies && req.cookies.__session)) {
    console.error('No Firebase ID token was passed as a Bearer token in the Authorization header.',
        'Make sure you authorize your request by providing the following HTTP header:',
        'Authorization: Bearer <Firebase ID Token>',
        'or by passing a "__session" cookie.');
    res.status(403).send('Unauthorized');
    return;
  }

  let idToken;
  if (req.headers.authorization && req.headers.authorization.startsWith('Bearer ')) {
    console.log('Found "Authorization" header');
    // Read the ID Token from the Authorization header.
    idToken = req.headers.authorization.split('Bearer ')[1];
  } else if(req.cookies) {
    console.log('Found "__session" cookie');
    // Read the ID Token from cookie.
    idToken = req.cookies.__session;
  } else {
    // No cookie
    res.status(403).send('Unauthorized');
    return;
  }

  try {
    const decodedIdToken = await admin.auth().verifyIdToken(idToken);
    console.log('ID Token correctly decoded', decodedIdToken);
    req.user = decodedIdToken;
    next();
    return;
  } catch (error) {
    console.error('Error while verifying Firebase ID token:', error);
    res.status(403).send('Unauthorized');
    return;
  }
};

app.use(cors);
app.use(cookieParser);
app.use(validateFirebaseIdToken);
app.get('/hello', (req, res) => {
  res.send(`Hello ${req.user.name}`);
});

// This HTTPS endpoint can only be accessed by your Firebase Users.
// Requests need to be authorized by providing an `Authorization` HTTP header
// with value `Bearer <Firebase ID Token>`.
exports.app = functions.https.onRequest(app);

My rewrite to get rid of /app:

const hello = functions.https.onRequest((request, response) => {
  res.send(`Hello ${req.user.name}`);
})

module.exports = {
  hello
}
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0

I have been struggling to get proper firebase authentication in golang GCP function. There is actually no example for that, so I decided to build this tiny library: https://github.com/Jblew/go-firebase-auth-in-gcp-functions

Now you can easily authenticate users using firebase-auth (which is distinct from gcp-authenticated-functions and is not directly supported by the identity-aware-proxy).

Here is an example of using the utility:

import (
  firebaseGcpAuth "github.com/Jblew/go-firebase-auth-in-gcp-functions"
  auth "firebase.google.com/go/auth"
)

func SomeGCPHttpCloudFunction(w http.ResponseWriter, req *http.Request) error {
   // You need to provide 1. Context, 2. request, 3. firebase auth client
  var client *auth.Client
    firebaseUser, err := firebaseGcpAuth.AuthenticateFirebaseUser(context.Background(), req, authClient)
    if err != nil {
    return err // Error if not authenticated or bearer token invalid
  }

  // Returned value: *auth.UserRecord
}

Just keep in mind to deploy you function with --allow-unauthenticated flag (because firebase authentication occurs inside function execution).

Hope this will help you as it helped me. I was determined to use golang for cloud functions for performance reasons — Jędrzej

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0

In Firebase, in order to simplify your code and your work, it's just a matter of architectural design:

  1. For public accessible sites/contents, use HTTPS triggers with Express. To restrict only samesite or specific site only, use CORS to control this aspect of security. This make sense because Express is useful for SEO due to its server-side rendering content.
  2. For apps that require user authentication, use HTTPS Callable Firebase Functions, then use the context parameter to save all the hassles. This also makes sense, because such as a Single Page App built with AngularJS -- AngularJS is bad for SEO, but since it's a password protected app, you don't need much of the SEO either. As for templating, AngularJS has built-in templating, so no need for sever-side template with Express. Then Firebase Callable Functions should be good enough.

With the above in mind, no more hassle and make life easier.

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