Files
InfiniteAPI/src/Utils/noise-handler.ts
T
João Lucas b5c174111f feat: replace async crypto with sync Rust WASM for app state sync (#2315)
* feat: replace async crypto with sync Rust WASM for app state sync

* fix: remove unecessary buffer copying

* fix: update whatsapp-rust-bridge to version 0.5.2 and refactor async calls to sync. HKDF and MD5 in rust
2026-02-05 16:06:47 +02:00

269 lines
7.1 KiB
TypeScript

import { Boom } from '@hapi/boom'
import { proto } from '../../WAProto/index.js'
import { NOISE_MODE, WA_CERT_DETAILS } from '../Defaults'
import type { KeyPair } from '../Types'
import type { BinaryNode } from '../WABinary'
import { decodeBinaryNode } from '../WABinary'
import { aesDecryptGCM, aesEncryptGCM, Curve, hkdf, sha256 } from './crypto'
import type { ILogger } from './logger'
const IV_LENGTH = 12
const EMPTY_BUFFER = Buffer.alloc(0)
const generateIV = (counter: number): Uint8Array => {
const iv = new ArrayBuffer(IV_LENGTH)
new DataView(iv).setUint32(8, counter)
return new Uint8Array(iv)
}
class TransportState {
private readCounter = 0
private writeCounter = 0
private readonly iv = new Uint8Array(IV_LENGTH)
constructor(
private readonly encKey: Uint8Array,
private readonly decKey: Uint8Array
) {}
encrypt(plaintext: Uint8Array): Uint8Array {
const c = this.writeCounter++
this.iv[8] = (c >>> 24) & 0xff
this.iv[9] = (c >>> 16) & 0xff
this.iv[10] = (c >>> 8) & 0xff
this.iv[11] = c & 0xff
return aesEncryptGCM(plaintext, this.encKey, this.iv, EMPTY_BUFFER)
}
decrypt(ciphertext: Uint8Array): Buffer {
const c = this.readCounter++
this.iv[8] = (c >>> 24) & 0xff
this.iv[9] = (c >>> 16) & 0xff
this.iv[10] = (c >>> 8) & 0xff
this.iv[11] = c & 0xff
return aesDecryptGCM(ciphertext, this.decKey, this.iv, EMPTY_BUFFER) as Buffer
}
}
export const makeNoiseHandler = ({
keyPair: { private: privateKey, public: publicKey },
NOISE_HEADER,
logger,
routingInfo
}: {
keyPair: KeyPair
NOISE_HEADER: Uint8Array
logger: ILogger
routingInfo?: Buffer | undefined
}) => {
logger = logger.child({ class: 'ns' })
const data = Buffer.from(NOISE_MODE)
let hash = data.byteLength === 32 ? data : sha256(data)
let salt: Uint8Array = hash
let encKey: Uint8Array = hash
let decKey: Uint8Array = hash
let counter = 0
let sentIntro = false
let inBytes: Buffer = Buffer.alloc(0)
let transport: TransportState | null = null
let isWaitingForTransport = false
let pendingOnFrame: ((buff: Uint8Array | BinaryNode) => void) | null = null
let introHeader: Buffer
if (routingInfo) {
introHeader = Buffer.alloc(7 + routingInfo.byteLength + NOISE_HEADER.length)
introHeader.write('ED', 0, 'utf8')
introHeader.writeUint8(0, 2)
introHeader.writeUint8(1, 3)
introHeader.writeUint8(routingInfo.byteLength >> 16, 4)
introHeader.writeUint16BE(routingInfo.byteLength & 65535, 5)
introHeader.set(routingInfo, 7)
introHeader.set(NOISE_HEADER, 7 + routingInfo.byteLength)
} else {
introHeader = Buffer.from(NOISE_HEADER)
}
const authenticate = (data: Uint8Array) => {
if (!transport) {
hash = sha256(Buffer.concat([hash, data]))
}
}
const encrypt = (plaintext: Uint8Array): Uint8Array => {
if (transport) {
return transport.encrypt(plaintext)
}
const result = aesEncryptGCM(plaintext, encKey, generateIV(counter++), hash)
authenticate(result)
return result
}
const decrypt = (ciphertext: Uint8Array): Uint8Array => {
if (transport) {
return transport.decrypt(ciphertext)
}
const result = aesDecryptGCM(ciphertext, decKey, generateIV(counter++), hash)
authenticate(ciphertext)
return result
}
const localHKDF = (data: Uint8Array): [Uint8Array, Uint8Array] => {
const key = hkdf(Buffer.from(data), 64, { salt, info: '' })
return [key.subarray(0, 32), key.subarray(32)]
}
const mixIntoKey = (data: Uint8Array) => {
const [write, read] = localHKDF(data)
salt = write
encKey = read
decKey = read
counter = 0
}
const finishInit = async () => {
isWaitingForTransport = true
const [write, read] = localHKDF(new Uint8Array(0))
transport = new TransportState(write, read)
isWaitingForTransport = false
logger.trace('Noise handler transitioned to Transport state')
if (pendingOnFrame) {
logger.trace({ length: inBytes.length }, 'Flushing buffered frames after transport ready')
await processData(pendingOnFrame)
pendingOnFrame = null
}
}
const processData = async (onFrame: (buff: Uint8Array | BinaryNode) => void) => {
let size: number | undefined
while (true) {
if (inBytes.length < 3) return
size = (inBytes[0]! << 16) | (inBytes[1]! << 8) | inBytes[2]!
if (inBytes.length < size + 3) return
let frame: Uint8Array | BinaryNode = inBytes.subarray(3, size + 3)
inBytes = inBytes.subarray(size + 3)
if (transport) {
const result = transport.decrypt(frame)
frame = await decodeBinaryNode(result)
}
if (logger.level === 'trace') {
logger.trace({ msg: (frame as BinaryNode)?.attrs?.id }, 'recv frame')
}
onFrame(frame)
}
}
authenticate(NOISE_HEADER)
authenticate(publicKey)
return {
encrypt,
decrypt,
authenticate,
mixIntoKey,
finishInit,
processHandshake: ({ serverHello }: proto.HandshakeMessage, noiseKey: KeyPair) => {
authenticate(serverHello!.ephemeral!)
mixIntoKey(Curve.sharedKey(privateKey, serverHello!.ephemeral!))
const decStaticContent = decrypt(serverHello!.static!)
mixIntoKey(Curve.sharedKey(privateKey, decStaticContent))
const certDecoded = decrypt(serverHello!.payload!)
const { intermediate: certIntermediate, leaf } = proto.CertChain.decode(certDecoded)
// leaf
if (!leaf?.details || !leaf?.signature) {
throw new Boom('invalid noise leaf certificate', { statusCode: 400 })
}
if (!certIntermediate?.details || !certIntermediate?.signature) {
throw new Boom('invalid noise intermediate certificate', { statusCode: 400 })
}
const details = proto.CertChain.NoiseCertificate.Details.decode(certIntermediate.details)
const { issuerSerial } = details
const verify = Curve.verify(details.key!, leaf.details, leaf.signature)
const verifyIntermediate = Curve.verify(
WA_CERT_DETAILS.PUBLIC_KEY,
certIntermediate.details,
certIntermediate.signature
)
if (!verify) {
throw new Boom('noise certificate signature invalid', { statusCode: 400 })
}
if (!verifyIntermediate) {
throw new Boom('noise intermediate certificate signature invalid', { statusCode: 400 })
}
if (issuerSerial !== WA_CERT_DETAILS.SERIAL) {
throw new Boom('certification match failed', { statusCode: 400 })
}
const keyEnc = encrypt(noiseKey.public)
mixIntoKey(Curve.sharedKey(noiseKey.private, serverHello!.ephemeral!))
return keyEnc
},
encodeFrame: (data: Buffer | Uint8Array) => {
if (transport) {
data = transport.encrypt(data)
}
const dataLen = data.byteLength
const introSize = sentIntro ? 0 : introHeader.length
const frame = Buffer.allocUnsafe(introSize + 3 + dataLen)
if (!sentIntro) {
frame.set(introHeader)
sentIntro = true
}
frame[introSize] = (dataLen >>> 16) & 0xff
frame[introSize + 1] = (dataLen >>> 8) & 0xff
frame[introSize + 2] = dataLen & 0xff
frame.set(data, introSize + 3)
return frame
},
decodeFrame: async (newData: Buffer | Uint8Array, onFrame: (buff: Uint8Array | BinaryNode) => void) => {
if (isWaitingForTransport) {
inBytes = Buffer.concat([inBytes, newData])
pendingOnFrame = onFrame
return
}
if (inBytes.length === 0) {
inBytes = Buffer.from(newData)
} else {
inBytes = Buffer.concat([inBytes, newData])
}
await processData(onFrame)
}
}
}