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@queenanya/bailey
Advanced tools
Baileys does not require Selenium or any other browser to be interface with WhatsApp Web, it does so directly using a WebSocket. Not running Selenium or Chromimum saves you like half a gig of ram :/ Baileys supports interacting with the multi-device & web versions of WhatsApp. Thank you to @pokearaujo for writing his observations on the workings of WhatsApp Multi-Device. Also, thank you to @Sigalor for writing his observations on the workings of WhatsApp Web and thanks to @Rhymen for the go implementation.
The original repository had to be removed by the original author - we now continue development in this repository here. This is the only official repository and is maintained by the community. Join the Discord here
Do check out & run example.ts to see an example usage of the library. The script covers most common use cases. To run the example script, download or clone the repo and then type the following in a terminal:
cd path/to/Baileys
yarn
yarn example
Use the stable version:
temporarily unavailable
Use the edge version (no guarantee of stability, but latest fixes + features)
yarn add github:WhiskeySockets/Baileys
Then import your code using:
import makeWASocket from '@whiskeysockets/baileys'
TODO
import makeWASocket, { DisconnectReason } from '@whiskeysockets/baileys'
import { Boom } from '@hapi/boom'
async function connectToWhatsApp () {
const sock = makeWASocket({
// can provide additional config here
printQRInTerminal: true
})
sock.ev.on('connection.update', (update) => {
const { connection, lastDisconnect } = update
if(connection === 'close') {
const shouldReconnect = (lastDisconnect.error as Boom)?.output?.statusCode !== DisconnectReason.loggedOut
console.log('connection closed due to ', lastDisconnect.error, ', reconnecting ', shouldReconnect)
// reconnect if not logged out
if(shouldReconnect) {
connectToWhatsApp()
}
} else if(connection === 'open') {
console.log('opened connection')
}
})
sock.ev.on('messages.upsert', m => {
console.log(JSON.stringify(m, undefined, 2))
console.log('replying to', m.messages[0].key.remoteJid)
await sock.sendMessage(m.messages[0].key.remoteJid!, { text: 'Hello there!' })
})
}
// run in main file
connectToWhatsApp()
If the connection is successful, you will see a QR code printed on your terminal screen, scan it with WhatsApp on your phone and you'll be logged in!
Note: install qrcode-terminal
using yarn add qrcode-terminal
to auto-print the QR to the terminal.
Note: the code to support the legacy version of WA Web (pre multi-device) has been removed in v5. Only the standard multi-device connection is now supported. This is done as WA seems to have completely dropped support for the legacy version.
You can configure the connection by passing a SocketConfig
object.
The entire SocketConfig
structure is mentioned here with default values:
type SocketConfig = {
/** the WS url to connect to WA */
waWebSocketUrl: string | URL
/** Fails the connection if the socket times out in this interval */
connectTimeoutMs: number
/** Default timeout for queries, undefined for no timeout */
defaultQueryTimeoutMs: number | undefined
/** ping-pong interval for WS connection */
keepAliveIntervalMs: number
/** proxy agent */
agent?: Agent
/** pino logger */
logger: Logger
/** version to connect with */
version: WAVersion
/** override browser config */
browser: WABrowserDescription
/** agent used for fetch requests -- uploading/downloading media */
fetchAgent?: Agent
/** should the QR be printed in the terminal */
printQRInTerminal: boolean
/** should events be emitted for actions done by this socket connection */
emitOwnEvents: boolean
/** provide a cache to store media, so does not have to be re-uploaded */
mediaCache?: NodeCache
/** custom upload hosts to upload media to */
customUploadHosts: MediaConnInfo['hosts']
/** time to wait between sending new retry requests */
retryRequestDelayMs: number
/** time to wait for the generation of the next QR in ms */
qrTimeout?: number;
/** provide an auth state object to maintain the auth state */
auth: AuthenticationState
/** manage history processing with this control; by default will sync up everything */
shouldSyncHistoryMessage: (msg: proto.Message.IHistorySyncNotification) => boolean
/** transaction capability options for SignalKeyStore */
transactionOpts: TransactionCapabilityOptions
/** provide a cache to store a user's device list */
userDevicesCache?: NodeCache
/** marks the client as online whenever the socket successfully connects */
markOnlineOnConnect: boolean
/**
* map to store the retry counts for failed messages;
* used to determine whether to retry a message or not */
msgRetryCounterMap?: MessageRetryMap
/** width for link preview images */
linkPreviewImageThumbnailWidth: number
/** Should Baileys ask the phone for full history, will be received async */
syncFullHistory: boolean
/** Should baileys fire init queries automatically, default true */
fireInitQueries: boolean
/**
* generate a high quality link preview,
* entails uploading the jpegThumbnail to WA
* */
generateHighQualityLinkPreview: boolean
/** options for axios */
options: AxiosRequestConfig<any>
/**
* fetch a message from your store
* implement this so that messages failed to send (solves the "this message can take a while" issue) can be retried
* */
getMessage: (key: proto.IMessageKey) => Promise<proto.IMessage | undefined>
}
const conn = makeWASocket({
...otherOpts,
// can use Windows, Ubuntu here too
browser: Browsers.macOS('Desktop'),
syncFullHistory: true
})
You obviously don't want to keep scanning the QR code every time you want to connect.
So, you can load the credentials to log back in:
import makeWASocket, { BufferJSON, useMultiFileAuthState } from '@whiskeysockets/baileys'
import * as fs from 'fs'
// utility function to help save the auth state in a single folder
// this function serves as a good guide to help write auth & key states for SQL/no-SQL databases, which I would recommend in any production grade system
const { state, saveCreds } = await useMultiFileAuthState('auth_info_baileys')
// will use the given state to connect
// so if valid credentials are available -- it'll connect without QR
const conn = makeWASocket({ auth: state })
// this will be called as soon as the credentials are updated
conn.ev.on ('creds.update', saveCreds)
Note: When a message is received/sent, due to signal sessions needing updating, the auth keys (authState.keys
) will update. Whenever that happens, you must save the updated keys (authState.keys.set()
is called). Not doing so will prevent your messages from reaching the recipient & cause other unexpected consequences. The useMultiFileAuthState
function automatically takes care of that, but for any other serious implementation -- you will need to be very careful with the key state management.
Baileys now fires the connection.update
event to let you know something has updated in the connection. This data has the following structure:
type ConnectionState = {
/** connection is now open, connecting or closed */
connection: WAConnectionState
/** the error that caused the connection to close */
lastDisconnect?: {
error: Error
date: Date
}
/** is this a new login */
isNewLogin?: boolean
/** the current QR code */
qr?: string
/** has the device received all pending notifications while it was offline */
receivedPendingNotifications?: boolean
}
Note: this also offers any updates to the QR
Baileys uses the EventEmitter syntax for events. They're all nicely typed up, so you shouldn't have any issues with an Intellisense editor like VS Code.
The events are typed as mentioned here:
export type BaileysEventMap = {
/** connection state has been updated -- WS closed, opened, connecting etc. */
'connection.update': Partial<ConnectionState>
/** credentials updated -- some metadata, keys or something */
'creds.update': Partial<AuthenticationCreds>
/** history sync, everything is reverse chronologically sorted */
'messaging-history.set': {
chats: Chat[]
contacts: Contact[]
messages: WAMessage[]
isLatest: boolean
}
/** upsert chats */
'chats.upsert': Chat[]
/** update the given chats */
'chats.update': Partial<Chat>[]
/** delete chats with given ID */
'chats.delete': string[]
/** presence of contact in a chat updated */
'presence.update': { id: string, presences: { [participant: string]: PresenceData } }
'contacts.upsert': Contact[]
'contacts.update': Partial<Contact>[]
'messages.delete': { keys: WAMessageKey[] } | { jid: string, all: true }
'messages.update': WAMessageUpdate[]
'messages.media-update': { key: WAMessageKey, media?: { ciphertext: Uint8Array, iv: Uint8Array }, error?: Boom }[]
/**
* add/update the given messages. If they were received while the connection was online,
* the update will have type: "notify"
* */
'messages.upsert': { messages: WAMessage[], type: MessageUpsertType }
/** message was reacted to. If reaction was removed -- then "reaction.text" will be falsey */
'messages.reaction': { key: WAMessageKey, reaction: proto.IReaction }[]
'message-receipt.update': MessageUserReceiptUpdate[]
'groups.upsert': GroupMetadata[]
'groups.update': Partial<GroupMetadata>[]
/** apply an action to participants in a group */
'group-participants.update': { id: string, participants: string[], action: ParticipantAction }
'blocklist.set': { blocklist: string[] }
'blocklist.update': { blocklist: string[], type: 'add' | 'remove' }
/** Receive an update on a call, including when the call was received, rejected, accepted */
'call': WACallEvent[]
}
You can listen to these events like this:
const sock = makeWASocket()
sock.ev.on('messages.upsert', ({ messages }) => {
console.log('got messages', messages)
})
Baileys does not come with a defacto storage for chats, contacts, or messages. However, a simple in-memory implementation has been provided. The store listens for chat updates, new messages, message updates, etc., to always have an up-to-date version of the data.
It can be used as follows:
import makeWASocket, { makeInMemoryStore } from '@whiskeysockets/baileys'
// the store maintains the data of the WA connection in memory
// can be written out to a file & read from it
const store = makeInMemoryStore({ })
// can be read from a file
store.readFromFile('./baileys_store.json')
// saves the state to a file every 10s
setInterval(() => {
store.writeToFile('./baileys_store.json')
}, 10_000)
const sock = makeWASocket({ })
// will listen from this socket
// the store can listen from a new socket once the current socket outlives its lifetime
store.bind(sock.ev)
sock.ev.on('chats.set', () => {
// can use "store.chats" however you want, even after the socket dies out
// "chats" => a KeyedDB instance
console.log('got chats', store.chats.all())
})
sock.ev.on('contacts.set', () => {
console.log('got contacts', Object.values(store.contacts))
})
The store also provides some simple functions such as loadMessages
that utilize the store to speed up data retrieval.
Note: I highly recommend building your own data store especially for MD connections, as storing someone's entire chat history in memory is a terrible waste of RAM.
Send all types of messages with a single function:
import { MessageType, MessageOptions, Mimetype } from '@whiskeysockets/baileys'
const id = 'abcd@s.whatsapp.net' // the WhatsApp ID
// send a simple text!
const sentMsg = await sock.sendMessage(id, { text: 'oh hello there' })
// send a reply messagge
const sentMsg = await sock.sendMessage(id, { text: 'oh hello there' }, { quoted: message })
// send a mentions message
const sentMsg = await sock.sendMessage(id, { text: '@12345678901', mentions: ['12345678901@s.whatsapp.net'] })
// send a location!
const sentMsg = await sock.sendMessage(
id,
{ location: { degreesLatitude: 24.121231, degreesLongitude: 55.1121221 } }
)
// send a contact!
const vcard = 'BEGIN:VCARD\n' // metadata of the contact card
+ 'VERSION:3.0\n'
+ 'FN:Jeff Singh\n' // full name
+ 'ORG:Ashoka Uni;\n' // the organization of the contact
+ 'TEL;type=CELL;type=VOICE;waid=911234567890:+91 12345 67890\n' // WhatsApp ID + phone number
+ 'END:VCARD'
const sentMsg = await sock.sendMessage(
id,
{
contacts: {
displayName: 'Jeff',
contacts: [{ vcard }]
}
}
)
// send a buttons message!
const buttons = [
{buttonId: 'id1', buttonText: {displayText: 'Button 1'}, type: 1},
{buttonId: 'id2', buttonText: {displayText: 'Button 2'}, type: 1},
{buttonId: 'id3', buttonText: {displayText: 'Button 3'}, type: 1}
]
const buttonMessage = {
text: "Hi it's button message",
footer: 'Hello World',
buttons: buttons,
headerType: 1
}
const sendMsg = await sock.sendMessage(id, buttonMessage)
//send a template message!
const templateButtons = [
{index: 1, urlButton: {displayText: '⭐ Star Baileys on GitHub!', url: 'https://github.com/adiwajshing/Baileys'}},
{index: 2, callButton: {displayText: 'Call me!', phoneNumber: '+1 (234) 5678-901'}},
{index: 3, quickReplyButton: {displayText: 'This is a reply, just like normal buttons!', id: 'id-like-buttons-message'}},
]
const templateMessage = {
text: "Hi it's a template message",
footer: 'Hello World',
templateButtons: templateButtons
}
const sendMsg = await sock.sendMessage(id, templateMessage)
// send a list message!
const sections = [
{
title: "Section 1",
rows: [
{title: "Option 1", rowId: "option1"},
{title: "Option 2", rowId: "option2", description: "This is a description"}
]
},
{
title: "Section 2",
rows: [
{title: "Option 3", rowId: "option3"},
{title: "Option 4", rowId: "option4", description: "This is a description V2"}
]
},
]
const listMessage = {
text: "This is a list",
footer: "nice footer, link: https://google.com",
title: "Amazing boldfaced list title",
buttonText: "Required, text on the button to view the list",
sections
}
const sendMsg = await sock.sendMessage(id, listMessage)
const reactionMessage = {
react: {
text: "💖", // use an empty string to remove the reaction
key: message.key
}
}
const sendMsg = await sock.sendMessage(id, reactionMessage)
link-preview-js
as a dependency to your project with yarn add link-preview-js
// send a link
const sentMsg = await sock.sendMessage(id, { text: 'Hi, this was sent using https://github.com/adiwajshing/baileys' })
Sending media (video, stickers, images) is easier & more efficient than ever.
import { MessageType, MessageOptions, Mimetype } from '@whiskeysockets/baileys'
// Sending gifs
await sock.sendMessage(
id,
{
video: fs.readFileSync("Media/ma_gif.mp4"),
caption: "hello!",
gifPlayback: true
}
)
await sock.sendMessage(
id,
{
video: "./Media/ma_gif.mp4",
caption: "hello!",
gifPlayback: true
}
)
// send an audio file
await sock.sendMessage(
id,
{ audio: { url: "./Media/audio.mp3" }, mimetype: 'audio/mp4' }
{ url: "Media/audio.mp3" }, // can send mp3, mp4, & ogg
)
// send a buttons message with image header!
const buttons = [
{buttonId: 'id1', buttonText: {displayText: 'Button 1'}, type: 1},
{buttonId: 'id2', buttonText: {displayText: 'Button 2'}, type: 1},
{buttonId: 'id3', buttonText: {displayText: 'Button 3'}, type: 1}
]
const buttonMessage = {
image: {url: 'https://example.com/image.jpeg'},
caption: "Hi it's button message",
footer: 'Hello World',
buttons: buttons,
headerType: 4
}
const sendMsg = await sock.sendMessage(id, buttonMessage)
//send a template message with an image **attached**!
const templateButtons = [
{index: 1, urlButton: {displayText: '⭐ Star Baileys on GitHub!', url: 'https://github.com/adiwajshing/Baileys'}},
{index: 2, callButton: {displayText: 'Call me!', phoneNumber: '+1 (234) 5678-901'}},
{index: 3, quickReplyButton: {displayText: 'This is a reply, just like normal buttons!', id: 'id-like-buttons-message'}},
]
const buttonMessage = {
text: "Hi it's a template message",
footer: 'Hello World',
templateButtons: templateButtons,
image: {url: 'https://example.com/image.jpeg'}
}
const sendMsg = await sock.sendMessage(id, templateMessage)
id
is the WhatsApp ID of the person or group you're sending the message to.
[country code][phone number]@s.whatsapp.net
+19999999999@s.whatsapp.net
.123456789-123345@g.us
.[timestamp of creation]@broadcast
.status@broadcast
.jimp
or sharp
as a dependency in your project using yarn add jimp
or yarn add sharp
. Thumbnails for videos can also be generated automatically, though, you need to have ffmpeg
installed on your system.const info: MessageOptions = {
quoted: quotedMessage, // the message you want to quote
contextInfo: { forwardingScore: 2, isForwarded: true }, // some random context info (can show a forwarded message with this too)
timestamp: Date(), // optional, if you want to manually set the timestamp of the message
caption: "hello there!", // (for media messages) the caption to send with the media (cannot be sent with stickers though)
jpegThumbnail: "23GD#4/==", /* (for location & media messages) has to be a base 64 encoded JPEG if you want to send a custom thumb,
or set to null if you don't want to send a thumbnail.
Do not enter this field if you want to automatically generate a thumb
*/
mimetype: Mimetype.pdf, /* (for media messages) specify the type of media (optional for all media types except documents),
import {Mimetype} from '@whiskeysockets/baileys'
*/
fileName: 'somefile.pdf', // (for media messages) file name for the media
/* will send audio messages as voice notes, if set to true */
ptt: true,
/** Should it send as a disappearing messages.
* By default 'chat' -- which follows the setting of the chat */
ephemeralExpiration: WA_DEFAULT_EPHEMERAL
}
const msg = getMessageFromStore('455@s.whatsapp.net', 'HSJHJWH7323HSJSJ') // implement this on your end
await sock.sendMessage('1234@s.whatsapp.net', { forward: msg }) // WA forward the message!
A set of message keys must be explicitly marked read now. In multi-device, you cannot mark an entire "chat" read as it were with Baileys Web. This means you have to keep track of unread messages.
const key = {
remoteJid: '1234-123@g.us',
id: 'AHASHH123123AHGA', // id of the message you want to read
participant: '912121232@s.whatsapp.net' // the ID of the user that sent the message (undefined for individual chats)
}
// pass to readMessages function
// can pass multiple keys to read multiple messages as well
await sock.readMessages([key])
The message ID is the unique identifier of the message that you are marking as read.
On a WAMessage
, the messageID
can be accessed using messageID = message.key.id
.
await sock.sendPresenceUpdate('available', id)
This lets the person/group with id
know whether you're online, offline, typing etc.
presence
can be one of the following:
type WAPresence = 'unavailable' | 'available' | 'composing' | 'recording' | 'paused'
The presence expires after about 10 seconds.
Note: In the multi-device version of WhatsApp -- if a desktop client is active, WA doesn't send push notifications to the device. If you would like to receive said notifications -- mark your Baileys client offline using sock.sendPresenceUpdate('unavailable')
If you want to save the media you received
import { writeFile } from 'fs/promises'
import { downloadMediaMessage } from '@whiskeysockets/baileys'
sock.ev.on('messages.upsert', async ({ messages }) => {
const m = messages[0]
if (!m.message) return // if there is no text or media message
const messageType = Object.keys (m.message)[0]// get what type of message it is -- text, image, video
// if the message is an image
if (messageType === 'imageMessage') {
// download the message
const buffer = await downloadMediaMessage(
m,
'buffer',
{ },
{
logger,
// pass this so that baileys can request a reupload of media
// that has been deleted
reuploadRequest: sock.updateMediaMessage
}
)
// save to file
await writeFile('./my-download.jpeg', buffer)
}
}
Note: WhatsApp automatically removes old media from their servers. For the device to access said media -- a re-upload is required by another device that has it. This can be accomplished using:
const updatedMediaMsg = await sock.updateMediaMessage(msg)
const jid = '1234@s.whatsapp.net' // can also be a group
const response = await sock.sendMessage(jid, { text: 'hello!' }) // send a message
// sends a message to delete the given message
// this deletes the message for everyone
await sock.sendMessage(jid, { delete: response.key })
Note: deleting for oneself is supported via chatModify
(next section)
WA uses an encrypted form of communication to send chat/app updates. This has been implemented mostly and you can send the following updates:
Archive a chat
const lastMsgInChat = await getLastMessageInChat('123456@s.whatsapp.net') // implement this on your end
await sock.chatModify({ archive: true, lastMessages: [lastMsgInChat] }, '123456@s.whatsapp.net')
Mute/unmute a chat
// mute for 8 hours
await sock.chatModify({ mute: 8*60*60*1000 }, '123456@s.whatsapp.net', [])
// unmute
await sock.chatModify({ mute: null }, '123456@s.whatsapp.net', [])
Mark a chat read/unread
const lastMsgInChat = await getLastMessageInChat('123456@s.whatsapp.net') // implement this on your end
// mark it unread
await sock.chatModify({ markRead: false, lastMessages: [lastMsgInChat] }, '123456@s.whatsapp.net')
Delete a message for me
await sock.chatModify(
{ clear: { messages: [{ id: 'ATWYHDNNWU81732J', fromMe: true, timestamp: "1654823909" }] } },
'123456@s.whatsapp.net',
[]
)
Delete a chat
const lastMsgInChat = await getLastMessageInChat('123456@s.whatsapp.net') // implement this on your end
await sock.chatModify({
delete: true,
lastMessages: [{ key: lastMsgInChat.key, messageTimestamp: lastMsgInChat.messageTimestamp }]
},
'123456@s.whatsapp.net')
Pin/unpin a chat
await sock.chatModify({
pin: true // or `false` to unpin
},
'123456@s.whatsapp.net')
Note: if you mess up one of your updates, WA can log you out of all your devices and you'll have to log in again.
const jid = '1234@s.whatsapp.net' // can also be a group
// turn on disappearing messages
await sock.sendMessage(
jid,
// this is 1 week in seconds -- how long you want messages to appear for
{ disappearingMessagesInChat: WA_DEFAULT_EPHEMERAL }
)
// will send as a disappearing message
await sock.sendMessage(jid, { text: 'hello' }, { ephemeralExpiration: WA_DEFAULT_EPHEMERAL })
// turn off disappearing messages
await sock.sendMessage(
jid,
{ disappearingMessagesInChat: false }
)
const id = '123456'
const [result] = await sock.onWhatsApp(id)
if (result.exists) console.log (`${id} exists on WhatsApp, as jid: ${result.jid}`)
const status = await sock.fetchStatus("xyz@s.whatsapp.net")
console.log("status: " + status)
const status = 'Hello World!'
await sock.updateProfileStatus(status)
const name = 'My name'
await sock.updateProfileName(name)
// for low res picture
const ppUrl = await sock.profilePictureUrl("xyz@g.us")
console.log("download profile picture from: " + ppUrl)
// for high res picture
const ppUrl = await sock.profilePictureUrl("xyz@g.us", 'image')
const jid = '111234567890-1594482450@g.us' // can be your own too
await sock.updateProfilePicture(jid, { url: './new-profile-picture.jpeg' })
const jid = '111234567890-1594482450@g.us' // can be your own too
await sock.removeProfilePicture(jid)
// the presence update is fetched and called here
sock.ev.on('presence-update', json => console.log(json))
// request updates for a chat
await sock.presenceSubscribe("xyz@s.whatsapp.net")
await sock.updateBlockStatus("xyz@s.whatsapp.net", "block") // Block user
await sock.updateBlockStatus("xyz@s.whatsapp.net", "unblock") // Unblock user
const profile = await sock.getBusinessProfile("xyz@s.whatsapp.net")
console.log("business description: " + profile.description + ", category: " + profile.category)
Of course, replace xyz
with an actual ID.
// title & participants
const group = await sock.groupCreate("My Fab Group", ["1234@s.whatsapp.net", "4564@s.whatsapp.net"])
console.log ("created group with id: " + group.gid)
sock.sendMessage(group.id, { text: 'hello there' }) // say hello to everyone on the group
// id & people to add to the group (will throw error if it fails)
const response = await sock.groupParticipantsUpdate(
"abcd-xyz@g.us",
["abcd@s.whatsapp.net", "efgh@s.whatsapp.net"],
"add" // replace this parameter with "remove", "demote" or "promote"
)
await sock.groupUpdateSubject("abcd-xyz@g.us", "New Subject!")
await sock.groupUpdateDescription("abcd-xyz@g.us", "New Description!")
// only allow admins to send messages
await sock.groupSettingUpdate("abcd-xyz@g.us", 'announcement')
// allow everyone to send messages
await sock.groupSettingUpdate("abcd-xyz@g.us", 'not_announcement')
// allow everyone to modify the group's settings -- like display picture etc.
await sock.groupSettingUpdate("abcd-xyz@g.us", 'unlocked')
// only allow admins to modify the group's settings
await sock.groupSettingUpdate("abcd-xyz@g.us", 'locked')
await sock.groupLeave("abcd-xyz@g.us") // (will throw error if it fails)
const code = await sock.groupInviteCode("abcd-xyz@g.us")
console.log("group code: " + code)
const code = await sock.groupRevokeInvite("abcd-xyz@g.us")
console.log("New group code: " + code)
const metadata = await sock.groupMetadata("abcd-xyz@g.us")
console.log(metadata.id + ", title: " + metadata.subject + ", description: " + metadata.desc)
const response = await sock.groupAcceptInvite("xxx")
console.log("joined to: " + response)
Of course, replace xxx
with invitation code.const response = await sock.groupGetInviteInfo("xxx")
console.log("group information: " + response)
const response = await sock.groupAcceptInviteV4("abcd@s.whatsapp.net", groupInviteMessage)
console.log("joined to: " + response)
Of course, replace xxx
with invitation code.const privacySettings = await sock.fetchPrivacySettings(true)
console.log("privacy settings: " + privacySettings)
const value = 'all' // 'contacts' | 'contact_blacklist' | 'none'
await sock.updateLastSeenPrivacy(value)
const value = 'all' // 'match_last_seen'
await sock.updateOnlinePrivacy(value)
const value = 'all' // 'contacts' | 'contact_blacklist' | 'none'
await sock.updateProfilePicturePrivacy(value)
const value = 'all' // 'contacts' | 'contact_blacklist' | 'none'
await sock.updateStatusPrivacy(value)
const value = 'all' // 'none'
await sock.updateReadReceiptsPrivacy(value)
const value = 'all' // 'contacts' | 'contact_blacklist' | 'none'
await sock.updateGroupsAddPrivacy(value)
const duration = 86400 // 604800 | 7776000 | 0
await sock.updateDefaultDisappearingMode(duration)
Note: messages currently cannot be sent to broadcast lists from the MD version.
12345678@broadcast
const bList = await sock.getBroadcastListInfo("1234@broadcast")
console.log (`list name: ${bList.name}, recps: ${bList.recipients}`)
Baileys is written with custom functionality in mind. Instead of forking the project & re-writing the internals, you can simply write your own extensions.
First, enable the logging of unhandled messages from WhatsApp by setting:
const sock = makeWASocket({
logger: P({ level: 'debug' }),
})
This will enable you to see all sorts of messages WhatsApp sends in the console.
Some examples:
Functionality to track the battery percentage of your phone.
You enable logging and you'll see a message about your battery pop up in the console:
{"level":10,"fromMe":false,"frame":{"tag":"ib","attrs":{"from":"@s.whatsapp.net"},"content":[{"tag":"edge_routing","attrs":{},"content":[{"tag":"routing_info","attrs":{},"content":{"type":"Buffer","data":[8,2,8,5]}}]}]},"msg":"communication"}
The "frame" is what the message received is, it has three components:
tag
-- what this frame is about (eg. message will have "message")attrs
-- a string key-value pair with some metadata (contains ID of the message usually)content
-- the actual data (eg. a message node will have the actual message content in it)You can register a callback for an event using the following:
// for any message with tag 'edge_routing'
sock.ws.on(`CB:edge_routing`, (node: BinaryNode) => { })
// for any message with tag 'edge_routing' and id attribute = abcd
sock.ws.on(`CB:edge_routing,id:abcd`, (node: BinaryNode) => { })
// for any message with tag 'edge_routing', id attribute = abcd & first content node routing_info
sock.ws.on(`CB:edge_routing,id:abcd,routing_info`, (node: BinaryNode) => { })
This library was originally a project for CS-2362 at Ashoka University and is in no way affiliated with WhatsApp. Use at your own discretion. Do not spam people with this.
Also, this repo is now licenced under GPL 3 since it uses libsignal-node
FAQs
WhatsApp API
The npm package @queenanya/bailey receives a total of 0 weekly downloads. As such, @queenanya/bailey popularity was classified as not popular.
We found that @queenanya/bailey demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
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