This API is a client for ATProtocol servers. It communicates using HTTP. It includes:
- ✔️ APIs for ATProto and Bluesky.
- ✔️ Validation and complete typescript types.
- ✔️ Session management.
- ✔️ A RichText library.
First install the package:
yarn add @atproto/api
Then in your application:
import { AtpAgent } from '@atproto/api'
const agent = new AtpAgent({ service: 'https://example.com' })
You'll need an authenticated session for most API calls. There are two ways to manage sessions:
Username / password based authentication can be performed using the AtpAgent
class.
[!CAUTION]
This method is deprecated in favor of OAuth based session management. It is recommended to use OAuth based session management (through the
@atproto/oauth-client-*
packages).
import { AtpAgent, AtpSessionEvent, AtpSessionData } from '@atproto/api'
// configure connection to the server, without account authentication
const agent = new AtpAgent({
service: 'https://example.com',
persistSession: (evt: AtpSessionEvent, sess?: AtpSessionData) => {
// store the session-data for reuse
},
})
// Change the agent state to an authenticated state either by:
// 1) creating a new account on the server.
await agent.createAccount({
email: 'alice@mail.com',
password: 'hunter2',
handle: 'alice.example.com',
inviteCode: 'some-code-12345-abcde',
})
// 2) if an existing session was securely stored previously, then reuse that to resume the session.
await agent.resumeSession(savedSessionData)
// 3) if no old session was available, create a new one by logging in with password (App Password)
await agent.login({
identifier: 'alice@mail.com',
password: 'hunter2',
})
Depending on the environment used by your application, different OAuth clients are available:
- @atproto/oauth-client-browser: for the browser.
- @atproto/oauth-client-node: for Node.js.
- @atproto/oauth-client: Lower lever; compatible with most JS engines.
Every @atproto/oauth-client-*
implementation has a different way to obtain an
OAuthSession
instance that can be used to instantiate an Agent
(from
@atproto/api
). Here is an example restoring a previously saved session:
import { Agent } from '@atproto/api'
import { OAuthClient } from '@atproto/oauth-client'
const oauthClient = new OAuthClient({
// ...
})
const oauthSession = await oauthClient.restore('did:plc:123')
// Instantiate the api Agent using an OAuthSession
const agent = new Agent(oauthSession)
The agent includes methods for many common operations, including:
// The DID of the user currently authenticated (or undefined)
agent.did
agent.accountDid // Throws if the user is not authenticated
// Feeds and content
await agent.getTimeline(params, opts)
await agent.getAuthorFeed(params, opts)
await agent.getPostThread(params, opts)
await agent.getPost(params)
await agent.getPosts(params, opts)
await agent.getLikes(params, opts)
await agent.getRepostedBy(params, opts)
await agent.post(record)
await agent.deletePost(postUri)
await agent.like(uri, cid)
await agent.deleteLike(likeUri)
await agent.repost(uri, cid)
await agent.deleteRepost(repostUri)
await agent.uploadBlob(data, opts)
// Social graph
await agent.getFollows(params, opts)
await agent.getFollowers(params, opts)
await agent.follow(did)
await agent.deleteFollow(followUri)
// Actors
await agent.getProfile(params, opts)
await agent.upsertProfile(updateFn)
await agent.getProfiles(params, opts)
await agent.getSuggestions(params, opts)
await agent.searchActors(params, opts)
await agent.searchActorsTypeahead(params, opts)
await agent.mute(did)
await agent.unmute(did)
await agent.muteModList(listUri)
await agent.unmuteModList(listUri)
await agent.blockModList(listUri)
await agent.unblockModList(listUri)
// Notifications
await agent.listNotifications(params, opts)
await agent.countUnreadNotifications(params, opts)
await agent.updateSeenNotifications()
// Identity
await agent.resolveHandle(params, opts)
await agent.updateHandle(params, opts)
// Legacy: Session management should be performed through the SessionManager
// rather than the Agent instance.
if (agent instanceof AtpAgent) {
// AtpAgent instances support using different sessions during their lifetime
await agent.createAccount({ ... }) // session a
await agent.login({ ... }) // session b
await agent.resumeSession(savedSession) // session c
}
The package includes a complete types system which includes validation and type-guards. For example, to validate a post record:
import { AppBskyFeedPost } from '@atproto/api'
const post = {...}
if (AppBskyFeedPost.isRecord(post)) {
// typescript now recognizes `post` as a AppBskyFeedPost.Record
// however -- we still need to validate it
const res = AppBskyFeedPost.validateRecord(post)
if (res.success) {
// a valid record
} else {
// something is wrong
console.log(res.error)
}
}
Some records (ie posts) use the app.bsky.richtext
lexicon. At the moment richtext is only used for links and mentions, but it will be extended over time to include bold, italic, and so on.
ℹ️ It is strongly recommended to use this package's RichText
library. Javascript encodes strings in utf16 while the protocol (and most other programming environments) use utf8. Converting between the two is challenging, but RichText
handles that for you.
import { RichText } from '@atproto/api'
// creating richtext
const rt = new RichText({
text: 'Hello @alice.com, check out this link: https://example.com',
})
await rt.detectFacets(agent) // automatically detects mentions and links
const postRecord = {
$type: 'app.bsky.feed.post',
text: rt.text,
facets: rt.facets,
createdAt: new Date().toISOString(),
}
// rendering as markdown
let markdown = ''
for (const segment of rt.segments()) {
if (segment.isLink()) {
markdown += `[${segment.text}](${segment.link?.uri})`
} else if (segment.isMention()) {
markdown += `[${segment.text}](https://my-bsky-app.com/user/${segment.mention?.did})`
} else {
markdown += segment.text
}
}
// calculating string lengths
const rt2 = new RichText({ text: 'Hello' })
console.log(rt2.length) // => 5
console.log(rt2.graphemeLength) // => 5
const rt3 = new RichText({ text: '👨👩👧👧' })
console.log(rt3.length) // => 25
console.log(rt3.graphemeLength) // => 1
Applying the moderation system is a challenging task, but we've done our best to simplify it for you. The Moderation API helps handle a wide range of tasks, including:
- Moderator labeling
- User muting (including mutelists)
- User blocking
- Mutewords
- Hidden posts
For more information, see the Moderation Documentation.
import { moderatePost } from '@atproto/api'
// First get the user's moderation prefs and their label definitions
// =
const prefs = await agent.getPreferences()
const labelDefs = await agent.getLabelDefinitions(prefs)
// We call the appropriate moderation function for the content
// =
const postMod = moderatePost(postView, {
userDid: agent.session.did,
moderationPrefs: prefs.moderationPrefs,
labelDefs,
})
// We then use the output to decide how to affect rendering
// =
// in feeds
if (postMod.ui('contentList').filter) {
// don't include in feeds
}
if (postMod.ui('contentList').blur) {
// render the whole object behind a cover (use postMod.ui('contentList').blurs to explain)
if (postMod.ui('contentList').noOverride) {
// do not allow the cover the be removed
}
}
if (postMod.ui('contentList').alert || postMod.ui('contentList').inform) {
// render warnings on the post
// find the warnings in postMod.ui('contentList').alerts and postMod.ui('contentList').informs
}
// viewed directly
if (postMod.ui('contentView').filter) {
// don't include in feeds
}
if (postMod.ui('contentView').blur) {
// render the whole object behind a cover (use postMod.ui('contentView').blurs to explain)
if (postMod.ui('contentView').noOverride) {
// do not allow the cover the be removed
}
}
if (postMod.ui('contentView').alert || postMod.ui('contentView').inform) {
// render warnings on the post
// find the warnings in postMod.ui('contentView').alerts and postMod.ui('contentView').informs
}
// post embeds in all contexts
if (postMod.ui('contentMedia').blur) {
// render the whole object behind a cover (use postMod.ui('contentMedia').blurs to explain)
if (postMod.ui('contentMedia').noOverride) {
// do not allow the cover the be removed
}
}
The methods above are convenience wrappers. It covers most but not all available methods.
The AT Protocol identifies methods and records with reverse-DNS names. You can use them on the agent as well:
const res1 = await agent.com.atproto.repo.createRecord({
did: alice.did,
collection: 'app.bsky.feed.post',
record: {
$type: 'app.bsky.feed.post',
text: 'Hello, world!',
createdAt: new Date().toISOString(),
},
})
const res2 = await agent.com.atproto.repo.listRecords({
repo: alice.did,
collection: 'app.bsky.feed.post',
})
const res3 = await agent.app.bsky.feed.post.create(
{ repo: alice.did },
{
text: 'Hello, world!',
createdAt: new Date().toISOString(),
},
)
const res4 = await agent.app.bsky.feed.post.list({ repo: alice.did })
If you environment doesn't have a built-in fetch
implementation, you'll need
to provide one. This will typically be done through a polyfill.
If you want to provide you own fetch
implementation, you can do so by
instantiating the sessionManager with a custom fetch implementation:
import { AtpAgent } from '@atproto/api'
const myFetch = (input: RequestInfo | URL, init?: RequestInit) => {
console.log('requesting', input)
const response = await globalThis.fetch(input, init)
console.log('got response', response)
return response
}
const agent = new AtpAgent({
service: 'https://example.com',
fetch: myFetch,
})
This project is dual-licensed under MIT and Apache 2.0 terms:
- MIT license (LICENSE-MIT.txt or http://opensource.org/licenses/MIT)
- Apache License, Version 2.0, (LICENSE-APACHE.txt or http://www.apache.org/licenses/LICENSE-2.0)
Downstream projects and end users may chose either license individually, or both together, at their discretion. The motivation for this dual-licensing is the additional software patent assurance provided by Apache 2.0.