A tiny, full-featured, modern client / server library for the Twitter API.
- Promise driven via Async / Await
- REST and Stream support
- Typescript support
- Works both in Node and in browsers
- Rate limiting support
- Under 1kb
- Minimal dependencies
- Test suite
We have built this library because existing ones have not been recently maintained, or depend on outdated libraries.
yarn add twitter-lite
npm install twitter-lite
Then you can include the following at the top of your code:
import Twitter from 'twitter-lite';
const client = new Twitter({
...
})
client.get(...)
client.post(...)
- Create an app on https://apps.twitter.com/
- Grab the Consumer Key (API Key) and Consumer Secret (API Secret) from Keys and Access Tokens
- Make sure you set the right access level for your app
- If you want to use user-based authentication, grab the access token key and secret as well
Twitter has two different authentication options:
- App: higher rate limits. Great for building your own Twitter App.
- User: lower rate limits. Great for making requests on behalf of a User.
User authentication requires:
consumer_key
consumer_secret
access_token_key
access_token_secret
App authentication requires:
bearer_token
App authentication is a simple header behind the scenes:
headers: {
Authorization: `Bearer ${bearer_token}`;
}
You can get the bearer token by calling .getBearerToken()
.
const client = new Twitter({
subdomain: "api", // "api" is the default (change for other subdomains)
version: "1.1", // version "1.1" is the default (change for other subdomains)
consumer_key: "abc", // from Twitter.
consumer_secret: "def", // from Twitter.
access_token_key: "uvw", // from your User (oauth_token)
access_token_secret: "xyz" // from your User (oauth_token_secret)
});
client
.get("account/verify_credentials")
.then(results => {
console.log("results", results);
})
.catch(console.error);
const user = new Twitter({
consumer_key: "abc",
consumer_secret: "def"
});
const response = await user.getBearerToken();
const app = new Twitter({
bearer_token: response.access_token
});
According to the docs this helps you get access token from your users.
const client = new Twitter({
consumer_key: "xyz",
consumer_secret: "xyz"
});
client
.getRequestToken("http://callbackurl.com")
.then(res =>
console.log({
reqTkn: res.oauth_token,
reqTknSecret: res.oauth_token_secret
})
)
.catch(console.error);
Then you redirect your user to https://api.twitter.com/oauth/authenticate?oauth_token=xyz123abc
, and once you get the verifier and the token, you pass them on to the next stage of the authentication.
const client = new Twitter({
consumer_key: "xyz",
consumer_secret: "xyz"
});
client
.getAccessToken({
oauth_verifier: oauthVerifier,
oauth_token: oauthToken
})
.then(res =>
console.log({
accTkn: res.oauth_token,
accTknSecret: res.oauth_token_secret,
userId: res.user_id,
screenName: res.screen_name
})
)
.catch(console.error);
And this will return you your access_token
and access_token_secret
.
const client = new Twitter({
consumer_key: "xyz",
consumer_secret: "xyz",
access_token_key: "xyz",
access_token_secret: "xyz"
});
async function tweetThread(thread) {
let lastTweetID = "";
for (const status of thread) {
const tweet = await client.post("statuses/update", {
status: status,
in_reply_to_status_id: lastTweetID,
auto_populate_reply_metadata: true
});
lastTweetID = tweet.id_str;
}
}
const thread = ["First tweet", "Second tweet", "Third tweet"];
tweetThread(thread).catch(console.error);
To learn more about the streaming API visit the Twitter Docs. The streaming API works only in Node.
const client = new Twitter({
consumer_key: "xyz" // from Twitter.
consumer_secret: "xyz" // from Twitter.
access_token_key: "abc" // from your User (oauth_token)
access_token_secret: "abc" // from your User (oauth_token_secret)
});
const parameters = {
track: "#bitcoin,#litecoin,#monero",
follow: "422297024,873788249839370240", // @OrchardAI, @tylerbuchea
locations: "-122.75,36.8,-121.75,37.8", // Bounding box - San Francisco
};
const stream = client.stream("statuses/filter", parameters)
.on("start", response => console.log("start"))
.on("data", tweet => console.log("data", tweet.text))
.on("ping", () => console.log("ping"))
.on("error", error => console.log("error", error))
.on("end", response => console.log("end"));
// To stop the stream:
process.nextTick(() => stream.destroy()); // emits "end" and "error" events
To stop a stream, call stream.destroy()
. That might take a while though, if the stream receives a lot of traffic. Also, if you attempt to destroy a stream from an on
handler, you may get an error about writing to a destroyed stream.
In that case, try to defer the destroy()
call:
process.nextTick(() => stream.destroy());
After calling stream.destroy()
, you can recreate the stream, if you wait long enough - see the "should reuse stream N times" test. Note that Twitter may return a "420 Enhance your calm" error if you switch streams too fast. There are no response headers specifying how long to wait, and the error, as well as streaming limits in general, are poorly documented. Trial and error has shown that for tracked keywords, waiting 20 to 30 seconds between re-creating streams was enough. Remember to also set up the .on()
handlers again for the new stream.
Returns a Promise resolving to the API response object, or rejecting on error. The response and error objects also contain the HTTP response code and headers, under the _headers
key. These are useful to check for rate limit information.
const client = new Twitter({
consumer_key: "xyz",
consumer_secret: "xyz",
access_token_key: "abc",
access_token_secret: "abc"
});
const rateLimits = await client.get("statuses/show", {
id: "1016078154497048576"
});
Same return as .get()
.
Use the .post
method for actions that change state, or when the total size of the parameters might be too long for a GET request. For example, to follow a user:
const client = new Twitter({
consumer_key: "xyz",
consumer_secret: "xyz",
access_token_key: "abc",
access_token_secret: "abc"
});
await client.post("friendships/create", {
screen_name: "dandv"
});
The second use case for POST is when you need to pass more parameters than suitable for the length of a URL, such as when looking up a larger number of user ids or screen names:
const users = await client.post("users/lookup", {
screen_name: "longScreenName1,longerScreeName2,...,veryLongScreenName100"
});
Same return as .get()
and .post()
.
Use the .put
method for actions that update state. For example, to update a welcome message.
const client = new Twitter({
consumer_key: "xyz",
consumer_secret: "xyz",
access_token_key: "abc",
access_token_secret: "abc"
});
const welcomeMessageID = "abc";
await client.put(
"direct_messages/welcome_messages/update",
{
id: welcomeMessageID
},
{
message_data: {
text: "Welcome!!!"
}
}
);
See the app authentication example.
See the OAuth example.
See the OAuth example.
You can find many more examples for various resources/endpoints in the tests.
const tweets = await client.get("statuses/home_timeline");
console.log(`Rate: ${tweets._headers.get('x-rate-limit-remaining')} / ${tweets._headers.get('x-rate-limit-limit')}`);
const delta = (tweets._headers.get('x-rate-limit-reset') * 1000) - Date.now()
console.log(`Reset: ${Math.ceil(delta / 1000 / 60)} minutes`);
.get
and .post
reject on error, so you can use try/catch to handle errors. The error object contains an errors
property with the error code
and message
, and a _headers
property with the the HTTP response code and Headers object returned by the Twitter API.
try {
const response = await client.get("some/endpoint");
// ... use response here ...
} catch (e) {
if ('errors' in e) {
// Twitter API error
if (e.errors[0].code === 88)
// rate limit exceeded
console.log("Rate limit will reset on", new Date(e._headers.get("x-rate-limit-reset") * 1000));
else
// some other kind of error, e.g. read-only API trying to POST
} else {
// non-API error, e.g. network problem or invalid JSON in response
}
}
A particular case of errors is exceeding the rate limits. See the example immediately above for detecting rate limit errors, and read Twitter's documentation on rate limiting.
Twitter uses numeric IDs that in practice can be up to 18 characters long. Due to rounding errors, it's unsafe to use numeric IDs in JavaScript. Always set stringify_ids: true
when possible, so that Twitter will return strings instead of numbers, and rely on the id_str
field, rather than on the id
field.
With the library nearing v1.0, contributions are welcome! Areas especially in need of help involve multimedia (see #33 for example), and adding tests (see these for reference).
- Fork/clone the repo
yarn/npm install
- Go to https://apps.twitter.com and create an app for testing this module. Make sure it has read/write permissions.
- Grab the consumer key/secret, and the access token/secret and place them in a .env file in the project's root directory, under the following variables:
TWITTER_CONSUMER_KEY=... TWITTER_CONSUMER_SECRET=... ACCESS_TOKEN=... ACCESS_TOKEN_SECRET=...
yarn/npm test
and make sure all tests pass- Add your contribution, along with test case(s). Note: feel free to skip the "should DM user" test during development by changing that
it()
call toit.skip()
, but remember to revert that change before committing. This will prevent your account from being flagged as abusing the API to send too many DMs. - Make sure all tests pass. NOTE: tests will take over 10 minutes to finish.
- Commit using a descriptive message (please squash commits into one per fix/improvement!)
git push
and submit your PR!
Authors:
Over the years, thanks to:
- @ttezel
- @technoweenie
- @jdub
- @desmondmorris
- Node Twitter Community
- @dylanirlbeck
- @Fdebijl - Typescript support