A set of tools and utilities to simplify the development of Auth0 Extensions.
const tools = require('auth0-extension-tools');
These are helpers that make it easy to get an access token for the Management API or to get an instance of the node-auth0 client:
tools.managementApi.getAccessToken('me.auth0.com', 'myclient', 'mysecret2')
.then(function(token) {
// Call the Management API with this token.
});
// This will cache the token for as long as the access token is valid.
tools.managementApi.getAccessTokenCached('me.auth0.com', 'myclient', 'mysecret2')
.then(function(token) {
// Call the Management API with this token.
});
tools.managementApi.getClient({ domain: 'me.auth0.com', accessToken: 'ey...' })
.then(function(client) {
// Use the client...
client.users.getAll(function(users) {
})
});
// This will cache the token for 1h. A new client is returned each time.
tools.managementApi.getClient({ domain: 'me.auth0.com', clientId: 'myclient', clientSecret: 'mysecret' })
.then(function(client) {
// Use the client...
client.users.getAll(function(users) {
})
});
These are helpers that will make it easy to work with environment variables, nconf (when running locally), Webtask data/secrets, ...
A config provider is basically a function that looks like this:
function configProvider(key) {
if (key === 'foo') {
return // the value for foo.
}
}
This is already implemented by nconf.get
for example. Eg:
nconf
.argv()
.env()
.file(path.join(__dirname, './server/config.json'));
nconf.get('foo') // Returns the value from foo.
The following helper will turn the Webtask context object (which is what you get when the request runs in Webtask) into a config provider:
const provider = configProvider.fromWebtaskContext(req.webtaskContext);
provider('HOSTING_ENV') // This will give you 'webtask' by default.
provider('some_setting') // This will come from the Webtask params or secrets.
When an extension starts, you can then create a config
object, initialize it with a config provider and then use it throughout your extension. Eg:
const provider = tools.configProvider.fromWebtaskContext(req.webtaskContext);
const config = tools.configFactory();
config.setProvider(provider);
const mySetting = config('some_setting');
The following errors are also available (in case you need to throw or handle specific errors):
const tools = require('auth0-extension-tools');
tools.ArgumentError
tools.HookTokenError
tools.ManagementApiError
tools.NotFoundError
tools.ValidationError
When an extension is installed/updated/uninstalled a token will be sent during the Webhook request to make sure it comes from the portal. Here's how such a token can be validated:
try {
const path = './extension/uninstall';
validateHookToken('me.auth0.com', WT_URL, path, EXTENSION_SECRET, token);
} catch (e) {
// e will be a HookTokenError
}
A storage context allows you to read and write data. For local development and stateful environments you can use the file storage context which you can initialize with a path and default data (if new).
The mergeWrites
option allows you to just send changes to the file (similar to a PATCH
).
const storage = new tools.FileStorageContext(path.join(__dirname, './data.json'), { mergeWrites: true, defaultData: { foo: 'bar' } });
storage.read()
.then(function(data) {
console.log(data);
});
storage.write({ foo: 'other-bar' })
.then(function() {
console.log('Done');
});
When running in a Webtask, the request will expose a Webtask storage object, for which you can also create a context. When initializing the Webtask storage context you can provide it with the storage object, the options object (in which you enable force
to bypass concurrency checks) and default data (if new).
const storage = new tools.WebtaskStorageContext(req.webtaskContext.storage, { force: 1 }, { foo: 'bar' });
storage.read()
.then(function(data) {
console.log(data);
});
storage.write({ foo: 'other-bar' })
.then(function() {
console.log('Done');
});
A record provider exposes CRUD capabilities which makes it easy to interact with records from an Extension (eg: delete a record, update a record, ...). Depending on the underlying storage you may or may not have support for concurrency.
This library exposes a Blob record provider, which does not support concurrency. For each operation it will read a file, apply the change (eg: delete a record) and then write the full file again.
const db = new tools.BlobRecordProvider(someStorageContext, {
concurrentWrites: false // Set this to true to support parallel writes. You might loose some data in this case.
});
db.getAll('documents')
.then(function (documents) {
console.log('All documents:', documents);
});
db.get('documents', '12345')
.then(function (doc) {
console.log('Document:', doc);
});
db.create('documents', { name: 'my-foo.docx' })
.then(function (doc) {
console.log('Document:', doc);
});
db.create('documents', { _id: 'my-custom-id', name: 'my-foo.docx' })
.then(function (doc) {
console.log('Document:', doc);
});
// Update document with id 1939393
db.update('documents', 1939393, { name: 'my-foo.docx' })
.then(function (doc) {
console.log('Document:', doc);
});
// Update document with id 1939393. If it doesn't exist, create it (upsert).
const upsert = true;
db.update('documents', 1939393, { name: 'my-foo.docx' }, upsert)
.then(function (doc) {
console.log('Document:', doc);
});
db.delete('documents', 1939393)
.then(function(hasBeenDeleted) {
});
The use of local files, Webtask storage and S3 will cause concurrency problems because write operations in the BlobRecordProvider
require a full read of the file, an update in the JSON object and then a full write. If multiple operations happen in parallel data might get lost because of this approach.
By setting concurrentWrites
to false
all writes will happen sequentially instead of in parallel to guarantee data consistency. This will reduce throughput to 1 concurrency write.
const db = new tools.BlobRecordProvider(someStorageContext, { concurrentWrites: false });
Here's what you need to use as an entrypoint for your Webtask:
const tools = require('auth0-extension-tools');
const expressApp = require('./server');
module.exports = tools.createExpressServer(function(config, storage) {
return expressApp(config, storage);
});
Then you can create your Express server like this:
module.exports = (config, storage) => {
// 'config' is a method that exposes process.env, Webtask params and secrets
console.log('Starting Express. The Auth0 domain which this is configured for:', config('AUTH0_DOMAIN'));
// 'storage' is a Webtask storage object: https://webtask.io/docs/storage
storage.get(function (error, data) {
console.log('Here is what we currently have in data:', JSON.stringify(data, null, 2));
});
const app = new Express();
app.use(bodyParser.json());
app.use(bodyParser.urlencoded({ extended: false }));
...
// Finally you just have to return the app here.
return app;
};
When dashboard administrators login to an extension which has its own API the following is required:
- The user needs a token to call the Extension API (an "API Token" or a session)
- The Extension API needs the user's access token to call API v2
The session manager will create a local session for the user (the "API Token") and embed the access token for API v2 in the session.
The following snippet will generate the login URL to where the dashboard administrator needs to be redirected:
const nonce = generateNonceAndStoreInSession();
const state = generateStateAndStoreInSession();
const sessionManager = new tools.SessionManager('auth0.auth0.com', 'me.auth0.com', 'https://me.us.webtask.io/my-extension');
const url = sessionManager.createAuthorizeUrl({
redirectUri: 'https://me.us.webtask.io/my-extension/login/callback',
scopes: 'read:clients read:connections',
expiration: 3600,
nonce: nonce,
state: state
});
After logging in the extension will receive an id token and access token which will be used to create a local session:
const options = {
secret: 'my-secret',
issuer: 'https://me.us.webtask.io/my-extension',
audience: 'urn:my-ext-aud'
};
sessionManager.create(idToken, accessToken, options)
.then(function(token) {
...
});