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Telegram Web, preconfigured for usage in I2P. http://web.telegram.i2p/
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webogram-i2p/app/js/lib/mtproto.js

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/*!
* Webogram v0.7.0 - messaging web application for MTProto
* https://github.com/zhukov/webogram
* Copyright (C) 2014 Igor Zhukov <igor.beatle@gmail.com>
* https://github.com/zhukov/webogram/blob/master/LICENSE
*/
angular.module('izhukov.mtproto', ['izhukov.utils'])
.factory('MtpDcConfigurator', function () {
var sslSubdomains = ['pluto', 'venus', 'aurora', 'vesta', 'flora']
var dcOptions = Config.Modes.test
? [
{id: 1, host: '149.154.175.10', port: 80},
{id: 2, host: '149.154.167.40', port: 80},
{id: 3, host: '149.154.175.117', port: 80}
]
: [
{id: 1, host: '149.154.175.50', port: 80},
{id: 2, host: '149.154.167.51', port: 80},
{id: 3, host: '149.154.175.100', port: 80},
{id: 4, host: '149.154.167.91', port: 80},
{id: 5, host: '149.154.171.5', port: 80}
]
var chosenServers = {}
function chooseServer (dcID, upload) {
if (chosenServers[dcID] === undefined) {
var chosenServer = false,
i, dcOption
if (Config.Modes.ssl || !Config.Modes.http) {
var subdomain = sslSubdomains[dcID - 1] + (upload ? '-1' : '')
var path = Config.Modes.test ? 'apiw_test1' : 'apiw1'
chosenServer = 'https://' + subdomain + '.web.telegram.org/' + path
return chosenServer
}
for (i = 0; i < dcOptions.length; i++) {
dcOption = dcOptions[i]
if (dcOption.id == dcID) {
chosenServer = 'http://' + dcOption.host + (dcOption.port != 80 ? ':' + dcOption.port : '') + '/apiw1'
break
}
}
chosenServers[dcID] = chosenServer
}
return chosenServers[dcID]
}
return {
chooseServer: chooseServer
}
})
.factory('MtpRsaKeysManager', function () {
/**
* Server public key, obtained from here: https://core.telegram.org/api/obtaining_api_id
*
*
* -----BEGIN RSA PUBLIC KEY-----
* MIIBCgKCAQEAwVACPi9w23mF3tBkdZz+zwrzKOaaQdr01vAbU4E1pvkfj4sqDsm6
* lyDONS789sVoD/xCS9Y0hkkC3gtL1tSfTlgCMOOul9lcixlEKzwKENj1Yz/s7daS
* an9tqw3bfUV/nqgbhGX81v/+7RFAEd+RwFnK7a+XYl9sluzHRyVVaTTveB2GazTw
* Efzk2DWgkBluml8OREmvfraX3bkHZJTKX4EQSjBbbdJ2ZXIsRrYOXfaA+xayEGB+
* 8hdlLmAjbCVfaigxX0CDqWeR1yFL9kwd9P0NsZRPsmoqVwMbMu7mStFai6aIhc3n
* Slv8kg9qv1m6XHVQY3PnEw+QQtqSIXklHwIDAQAB
* -----END RSA PUBLIC KEY-----
*
* -----BEGIN PUBLIC KEY-----
* MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAruw2yP/BCcsJliRoW5eB
* VBVle9dtjJw+OYED160Wybum9SXtBBLXriwt4rROd9csv0t0OHCaTmRqBcQ0J8fx
* hN6/cpR1GWgOZRUAiQxoMnlt0R93LCX/j1dnVa/gVbCjdSxpbrfY2g2L4frzjJvd
* l84Kd9ORYjDEAyFnEA7dD556OptgLQQ2e2iVNq8NZLYTzLp5YpOdO1doK+ttrltg
* gTCy5SrKeLoCPPbOgGsdxJxyz5KKcZnSLj16yE5HvJQn0CNpRdENvRUXe6tBP78O
* 39oJ8BTHp9oIjd6XWXAsp2CvK45Ol8wFXGF710w9lwCGNbmNxNYhtIkdqfsEcwR5
* JwIDAQAB
* -----END PUBLIC KEY-----
*
* -----BEGIN PUBLIC KEY-----
* MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAvfLHfYH2r9R70w8prHbl
* Wt/nDkh+XkgpflqQVcnAfSuTtO05lNPspQmL8Y2XjVT4t8cT6xAkdgfmmvnvRPOO
* KPi0OfJXoRVylFzAQG/j83u5K3kRLbae7fLccVhKZhY46lvsueI1hQdLgNV9n1cQ
* 3TDS2pQOCtovG4eDl9wacrXOJTG2990VjgnIKNA0UMoP+KF03qzryqIt3oTvZq03
* DyWdGK+AZjgBLaDKSnC6qD2cFY81UryRWOab8zKkWAnhw2kFpcqhI0jdV5QaSCEx
* vnsjVaX0Y1N0870931/5Jb9ICe4nweZ9kSDF/gip3kWLG0o8XQpChDfyvsqB9OLV
* /wIDAQAB
* -----END PUBLIC KEY-----
*
* -----BEGIN PUBLIC KEY-----
* MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAs/ditzm+mPND6xkhzwFI
* z6J/968CtkcSE/7Z2qAJiXbmZ3UDJPGrzqTDHkO30R8VeRM/Kz2f4nR05GIFiITl
* 4bEjvpy7xqRDspJcCFIOcyXm8abVDhF+th6knSU0yLtNKuQVP6voMrnt9MV1X92L
* GZQLgdHZbPQz0Z5qIpaKhdyA8DEvWWvSUwwc+yi1/gGaybwlzZwqXYoPOhwMebzK
* Uk0xW14htcJrRrq+PXXQbRzTMynseCoPIoke0dtCodbA3qQxQovE16q9zz4Otv2k
* 4j63cz53J+mhkVWAeWxVGI0lltJmWtEYK6er8VqqWot3nqmWMXogrgRLggv/Nbbo
* oQIDAQAB
* -----END PUBLIC KEY-----
*
* -----BEGIN PUBLIC KEY-----
* MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAvmpxVY7ld/8DAjz6F6q0
* 5shjg8/4p6047bn6/m8yPy1RBsvIyvuDuGnP/RzPEhzXQ9UJ5Ynmh2XJZgHoE9xb
* nfxL5BXHplJhMtADXKM9bWB11PU1Eioc3+AXBB8QiNFBn2XI5UkO5hPhbb9mJpjA
* 9Uhw8EdfqJP8QetVsI/xrCEbwEXe0xvifRLJbY08/Gp66KpQvy7g8w7VB8wlgePe
* xW3pT13Ap6vuC+mQuJPyiHvSxjEKHgqePji9NP3tJUFQjcECqcm0yV7/2d0t/pbC
* m+ZH1sadZspQCEPPrtbkQBlvHb4OLiIWPGHKSMeRFvp3IWcmdJqXahxLCUS1Eh6M
* AQIDAQAB
* -----END PUBLIC KEY-----
*
* Bytes can be got via
* $ openssl rsa -pubin -in key.pub -text -noout
*/
var publisKeysHex = [
{
modulus: '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',
exponent: '010001'
},
{
modulus: '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',
exponent: '010001'
},
{
modulus: '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',
exponent: '010001'
},
{
modulus: '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',
exponent: '010001'
},
{
modulus: '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',
exponent: '010001'
}
]
var publicKeysParsed = {}
var prepared = false
function prepareRsaKeys () {
if (prepared) {
return
}
for (var i = 0; i < publisKeysHex.length; i++) {
var keyParsed = publisKeysHex[i]
var RSAPublicKey = new TLSerialization()
RSAPublicKey.storeBytes(bytesFromHex(keyParsed.modulus), 'n')
RSAPublicKey.storeBytes(bytesFromHex(keyParsed.exponent), 'e')
var buffer = RSAPublicKey.getBuffer()
var fingerprintBytes = sha1BytesSync(buffer).slice(-8)
fingerprintBytes.reverse()
publicKeysParsed[bytesToHex(fingerprintBytes)] = {
modulus: keyParsed.modulus,
exponent: keyParsed.exponent
}
}
prepared = true
}
function selectRsaKeyByFingerPrint (fingerprints) {
prepareRsaKeys()
var fingerprintHex, foundKey, i
for (i = 0; i < fingerprints.length; i++) {
fingerprintHex = bigStringInt(fingerprints[i]).toString(16)
if (foundKey = publicKeysParsed[fingerprintHex]) {
return angular.extend({fingerprint: fingerprints[i]}, foundKey)
}
}
return false
}
return {
prepare: prepareRsaKeys,
select: selectRsaKeyByFingerPrint
}
})
.service('MtpSecureRandom', function ($window) {
$($window).on('click keydown', rng_seed_time)
return new SecureRandom()
})
.factory('MtpTimeManager', function (Storage) {
var lastMessageID = [0, 0]
var timeOffset = 0
Storage.get('server_time_offset').then(function (to) {
if (to) {
timeOffset = to
}
})
function generateMessageID () {
var timeTicks = tsNow(),
timeSec = Math.floor(timeTicks / 1000) + timeOffset,
timeMSec = timeTicks % 1000,
random = nextRandomInt(0xFFFF)
var messageID = [timeSec, (timeMSec << 21) | (random << 3) | 4]
if (lastMessageID[0] > messageID[0] ||
lastMessageID[0] == messageID[0] && lastMessageID[1] >= messageID[1]) {
messageID = [lastMessageID[0], lastMessageID[1] + 4]
}
lastMessageID = messageID
// console.log('generated msg id', messageID, timeOffset)
return longFromInts(messageID[0], messageID[1])
}
function applyServerTime (serverTime, localTime) {
var newTimeOffset = serverTime - Math.floor((localTime || tsNow()) / 1000)
var changed = Math.abs(timeOffset - newTimeOffset) > 10
Storage.set({server_time_offset: newTimeOffset})
lastMessageID = [0, 0]
timeOffset = newTimeOffset
console.log(dT(), 'Apply server time', serverTime, localTime, newTimeOffset, changed)
return changed
}
return {
generateID: generateMessageID,
applyServerTime: applyServerTime
}
})
.factory('MtpAuthorizer', function (MtpDcConfigurator, MtpRsaKeysManager, MtpSecureRandom, MtpTimeManager, CryptoWorker, $http, $q, $timeout) {
var chromeMatches = navigator.userAgent.match(/Chrome\/(\d+(\.\d+)?)/)
var chromeVersion = chromeMatches && parseFloat(chromeMatches[1]) || false
var xhrSendBuffer = !('ArrayBufferView' in window) && (chromeVersion > 0 && chromeVersion < 30)
delete $http.defaults.headers.post['Content-Type']
delete $http.defaults.headers.common['Accept']
function mtpSendPlainRequest (dcID, requestBuffer) {
var requestLength = requestBuffer.byteLength,
requestArray = new Int32Array(requestBuffer)
var header = new TLSerialization()
header.storeLongP(0, 0, 'auth_key_id') // Auth key
header.storeLong(MtpTimeManager.generateID(), 'msg_id') // Msg_id
header.storeInt(requestLength, 'request_length')
var headerBuffer = header.getBuffer(),
headerArray = new Int32Array(headerBuffer)
var headerLength = headerBuffer.byteLength
var resultBuffer = new ArrayBuffer(headerLength + requestLength),
resultArray = new Int32Array(resultBuffer)
resultArray.set(headerArray)
resultArray.set(requestArray, headerArray.length)
var requestData = xhrSendBuffer ? resultBuffer : resultArray,
requestPromise
var url = MtpDcConfigurator.chooseServer(dcID)
var baseError = {code: 406, type: 'NETWORK_BAD_RESPONSE', url: url}
try {
requestPromise = $http.post(url, requestData, {
responseType: 'arraybuffer',
transformRequest: null
})
} catch (e) {
requestPromise = $q.reject(angular.extend(baseError, {originalError: e}))
}
return requestPromise.then(
function (result) {
if (!result.data || !result.data.byteLength) {
return $q.reject(baseError)
}
try {
var deserializer = new TLDeserialization(result.data, {mtproto: true})
var auth_key_id = deserializer.fetchLong('auth_key_id')
var msg_id = deserializer.fetchLong('msg_id')
var msg_len = deserializer.fetchInt('msg_len')
} catch (e) {
return $q.reject(angular.extend(baseError, {originalError: e}))
}
return deserializer
},
function (error) {
if (!error.message && !error.type) {
error = angular.extend(baseError, {originalError: error})
}
return $q.reject(error)
}
)
}
function mtpSendReqPQ (auth) {
var deferred = auth.deferred
var request = new TLSerialization({mtproto: true})
request.storeMethod('req_pq', {nonce: auth.nonce})
console.log(dT(), 'Send req_pq', bytesToHex(auth.nonce))
mtpSendPlainRequest(auth.dcID, request.getBuffer()).then(function (deserializer) {
var response = deserializer.fetchObject('ResPQ')
if (response._ != 'resPQ') {
throw new Error('[MT] resPQ response invalid: ' + response._)
}
if (!bytesCmp(auth.nonce, response.nonce)) {
throw new Error('[MT] resPQ nonce mismatch')
}
auth.serverNonce = response.server_nonce
auth.pq = response.pq
auth.fingerprints = response.server_public_key_fingerprints
console.log(dT(), 'Got ResPQ', bytesToHex(auth.serverNonce), bytesToHex(auth.pq), auth.fingerprints)
auth.publicKey = MtpRsaKeysManager.select(auth.fingerprints)
if (!auth.publicKey) {
throw new Error('[MT] No public key found')
}
console.log(dT(), 'PQ factorization start', auth.pq)
CryptoWorker.factorize(auth.pq).then(function (pAndQ) {
auth.p = pAndQ[0]
auth.q = pAndQ[1]
console.log(dT(), 'PQ factorization done', pAndQ[2])
mtpSendReqDhParams(auth)
}, function (error) {
console.log('Worker error', error, error.stack)
deferred.reject(error)
})
}, function (error) {
console.error(dT(), 'req_pq error', error.message)
deferred.reject(error)
})
$timeout(function () {
MtpRsaKeysManager.prepare()
})
}
function mtpSendReqDhParams (auth) {
var deferred = auth.deferred
auth.newNonce = new Array(32)
MtpSecureRandom.nextBytes(auth.newNonce)
var data = new TLSerialization({mtproto: true})
data.storeObject({
_: 'p_q_inner_data',
pq: auth.pq,
p: auth.p,
q: auth.q,
nonce: auth.nonce,
server_nonce: auth.serverNonce,
new_nonce: auth.newNonce
}, 'P_Q_inner_data', 'DECRYPTED_DATA')
var dataWithHash = sha1BytesSync(data.getBuffer()).concat(data.getBytes())
var request = new TLSerialization({mtproto: true})
request.storeMethod('req_DH_params', {
nonce: auth.nonce,
server_nonce: auth.serverNonce,
p: auth.p,
q: auth.q,
public_key_fingerprint: auth.publicKey.fingerprint,
encrypted_data: rsaEncrypt(auth.publicKey, dataWithHash)
})
console.log(dT(), 'Send req_DH_params')
mtpSendPlainRequest(auth.dcID, request.getBuffer()).then(function (deserializer) {
var response = deserializer.fetchObject('Server_DH_Params', 'RESPONSE')
if (response._ != 'server_DH_params_fail' && response._ != 'server_DH_params_ok') {
deferred.reject(new Error('[MT] Server_DH_Params response invalid: ' + response._))
return false
}
if (!bytesCmp(auth.nonce, response.nonce)) {
deferred.reject(new Error('[MT] Server_DH_Params nonce mismatch'))
return false
}
if (!bytesCmp(auth.serverNonce, response.server_nonce)) {
deferred.reject(new Error('[MT] Server_DH_Params server_nonce mismatch'))
return false
}
if (response._ == 'server_DH_params_fail') {
var newNonceHash = sha1BytesSync(auth.newNonce).slice(-16)
if (!bytesCmp(newNonceHash, response.new_nonce_hash)) {
deferred.reject(new Error('[MT] server_DH_params_fail new_nonce_hash mismatch'))
return false
}
deferred.reject(new Error('[MT] server_DH_params_fail'))
return false
}
try {
mtpDecryptServerDhDataAnswer(auth, response.encrypted_answer)
} catch (e) {
deferred.reject(e)
return false
}
mtpSendSetClientDhParams(auth)
}, function (error) {
deferred.reject(error)
})
}
function mtpDecryptServerDhDataAnswer (auth, encryptedAnswer) {
auth.localTime = tsNow()
auth.tmpAesKey = sha1BytesSync(auth.newNonce.concat(auth.serverNonce)).concat(sha1BytesSync(auth.serverNonce.concat(auth.newNonce)).slice(0, 12))
auth.tmpAesIv = sha1BytesSync(auth.serverNonce.concat(auth.newNonce)).slice(12).concat(sha1BytesSync([].concat(auth.newNonce, auth.newNonce)), auth.newNonce.slice(0, 4))
var answerWithHash = aesDecryptSync(encryptedAnswer, auth.tmpAesKey, auth.tmpAesIv)
var hash = answerWithHash.slice(0, 20)
var answerWithPadding = answerWithHash.slice(20)
var buffer = bytesToArrayBuffer(answerWithPadding)
var deserializer = new TLDeserialization(buffer, {mtproto: true})
var response = deserializer.fetchObject('Server_DH_inner_data')
if (response._ != 'server_DH_inner_data') {
throw new Error('[MT] server_DH_inner_data response invalid: ' + constructor)
}
if (!bytesCmp(auth.nonce, response.nonce)) {
throw new Error('[MT] server_DH_inner_data nonce mismatch')
}
if (!bytesCmp(auth.serverNonce, response.server_nonce)) {
throw new Error('[MT] server_DH_inner_data serverNonce mismatch')
}
console.log(dT(), 'Done decrypting answer')
auth.g = response.g
auth.dhPrime = response.dh_prime
auth.gA = response.g_a
auth.serverTime = response.server_time
auth.retry = 0
mtpVerifyDhParams(auth.g, auth.dhPrime, auth.gA)
var offset = deserializer.getOffset()
if (!bytesCmp(hash, sha1BytesSync(answerWithPadding.slice(0, offset)))) {
throw new Error('[MT] server_DH_inner_data SHA1-hash mismatch')
}
MtpTimeManager.applyServerTime(auth.serverTime, auth.localTime)
}
function mtpVerifyDhParams(g, dhPrime, gA) {
console.log(dT(), 'Verifying DH params')
var dhPrimeHex = bytesToHex(dhPrime)
if (g != 3 ||
dhPrimeHex !== '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') {
// The verified value is from https://core.telegram.org/mtproto/security_guidelines
throw new Error('[MT] DH params are not verified: unknown dhPrime')
}
console.log(dT(), 'dhPrime cmp OK')
var gABigInt = new BigInteger(bytesToHex(gA), 16)
var dhPrimeBigInt = new BigInteger(dhPrimeHex, 16)
if (gABigInt.compareTo(BigInteger.ONE) <= 0) {
throw new Error('[MT] DH params are not verified: gA <= 1')
}
if (gABigInt.compareTo(dhPrimeBigInt.subtract(BigInteger.ONE)) >= 0) {
throw new Error('[MT] DH params are not verified: gA >= dhPrime - 1')
}
console.log(dT(), '1 < gA < dhPrime-1 OK')
var two = new BigInteger(null)
two.fromInt(2)
var twoPow = two.pow(2048 - 64)
if (gABigInt.compareTo(twoPow) < 0) {
throw new Error('[MT] DH params are not verified: gA < 2^{2048-64}')
}
if (gABigInt.compareTo(dhPrimeBigInt.subtract(twoPow)) >= 0) {
throw new Error('[MT] DH params are not verified: gA > dhPrime - 2^{2048-64}')
}
console.log(dT(), '2^{2048-64} < gA < dhPrime-2^{2048-64} OK')
return true
}
function mtpSendSetClientDhParams (auth) {
var deferred = auth.deferred
var gBytes = bytesFromHex(auth.g.toString(16))
auth.b = new Array(256)
MtpSecureRandom.nextBytes(auth.b)
CryptoWorker.modPow(gBytes, auth.b, auth.dhPrime).then(function (gB) {
var data = new TLSerialization({mtproto: true})
data.storeObject({
_: 'client_DH_inner_data',
nonce: auth.nonce,
server_nonce: auth.serverNonce,
retry_id: [0, auth.retry++],
g_b: gB
}, 'Client_DH_Inner_Data')
var dataWithHash = sha1BytesSync(data.getBuffer()).concat(data.getBytes())
var encryptedData = aesEncryptSync(dataWithHash, auth.tmpAesKey, auth.tmpAesIv)
var request = new TLSerialization({mtproto: true})
request.storeMethod('set_client_DH_params', {
nonce: auth.nonce,
server_nonce: auth.serverNonce,
encrypted_data: encryptedData
})
console.log(dT(), 'Send set_client_DH_params')
mtpSendPlainRequest(auth.dcID, request.getBuffer()).then(function (deserializer) {
var response = deserializer.fetchObject('Set_client_DH_params_answer')
if (response._ != 'dh_gen_ok' && response._ != 'dh_gen_retry' && response._ != 'dh_gen_fail') {
deferred.reject(new Error('[MT] Set_client_DH_params_answer response invalid: ' + response._))
return false
}
if (!bytesCmp(auth.nonce, response.nonce)) {
deferred.reject(new Error('[MT] Set_client_DH_params_answer nonce mismatch'))
return false
}
if (!bytesCmp(auth.serverNonce, response.server_nonce)) {
deferred.reject(new Error('[MT] Set_client_DH_params_answer server_nonce mismatch'))
return false
}
CryptoWorker.modPow(auth.gA, auth.b, auth.dhPrime).then(function (authKey) {
var authKeyHash = sha1BytesSync(authKey),
authKeyAux = authKeyHash.slice(0, 8),
authKeyID = authKeyHash.slice(-8)
console.log(dT(), 'Got Set_client_DH_params_answer', response._)
switch (response._) {
case 'dh_gen_ok':
var newNonceHash1 = sha1BytesSync(auth.newNonce.concat([1], authKeyAux)).slice(-16)
if (!bytesCmp(newNonceHash1, response.new_nonce_hash1)) {
deferred.reject(new Error('[MT] Set_client_DH_params_answer new_nonce_hash1 mismatch'))
return false
}
var serverSalt = bytesXor(auth.newNonce.slice(0, 8), auth.serverNonce.slice(0, 8))
// console.log('Auth successfull!', authKeyID, authKey, serverSalt)
auth.authKeyID = authKeyID
auth.authKey = authKey
auth.serverSalt = serverSalt
deferred.resolve(auth)
break
case 'dh_gen_retry':
var newNonceHash2 = sha1BytesSync(auth.newNonce.concat([2], authKeyAux)).slice(-16)
if (!bytesCmp(newNonceHash2, response.new_nonce_hash2)) {
deferred.reject(new Error('[MT] Set_client_DH_params_answer new_nonce_hash2 mismatch'))
return false
}
return mtpSendSetClientDhParams(auth)
case 'dh_gen_fail':
var newNonceHash3 = sha1BytesSync(auth.newNonce.concat([3], authKeyAux)).slice(-16)
if (!bytesCmp(newNonceHash3, response.new_nonce_hash3)) {
deferred.reject(new Error('[MT] Set_client_DH_params_answer new_nonce_hash3 mismatch'))
return false
}
deferred.reject(new Error('[MT] Set_client_DH_params_answer fail'))
return false
}
}, function (error) {
deferred.reject(error)
})
}, function (error) {
deferred.reject(error)
})
}, function (error) {
deferred.reject(error)
})
}
var cached = {}
function mtpAuth (dcID) {
if (cached[dcID] !== undefined) {
return cached[dcID]
}
var nonce = []
for (var i = 0; i < 16; i++) {
nonce.push(nextRandomInt(0xFF))
}
if (!MtpDcConfigurator.chooseServer(dcID)) {
return $q.reject(new Error('[MT] No server found for dc ' + dcID))
}
var auth = {
dcID: dcID,
nonce: nonce,
deferred: $q.defer()
}
$timeout(function () {
mtpSendReqPQ(auth)
})
cached[dcID] = auth.deferred.promise
cached[dcID]['catch'](function () {
delete cached[dcID]
})
return cached[dcID]
}
return {
auth: mtpAuth
}
})
.factory('MtpNetworkerFactory', function (MtpDcConfigurator, MtpTimeManager, MtpSecureRandom, Storage, CryptoWorker, AppRuntimeManager, $http, $q, $timeout, $interval, $rootScope) {
var updatesProcessor
var iii = 0,
offline
var offlineInited = false
var akStopped = false
var chromeMatches = navigator.userAgent.match(/Chrome\/(\d+(\.\d+)?)/)
var chromeVersion = chromeMatches && parseFloat(chromeMatches[1]) || false
var xhrSendBuffer = !('ArrayBufferView' in window) && (chromeVersion > 0 && chromeVersion < 30)
delete $http.defaults.headers.post['Content-Type']
delete $http.defaults.headers.common['Accept']
$rootScope.retryOnline = function () {
$(document.body).trigger('online')
}
function MtpNetworker (dcID, authKey, serverSalt, options) {
options = options || {}
this.dcID = dcID
this.authKey = authKey
this.authKeyUint8 = convertToUint8Array(authKey)
this.authKeyID = sha1BytesSync(authKey).slice(-8)
this.serverSalt = serverSalt
this.upload = options.fileUpload || options.fileDownload || false
this.updateSession()
this.lastServerMessages = []
this.checkConnectionPeriod = 0
this.sentMessages = {}
this.pendingMessages = {}
this.pendingAcks = []
this.pendingResends = []
this.connectionInited = false
this.longPollInt = $interval(this.checkLongPoll.bind(this), 10000)
this.checkLongPoll()
if (!offlineInited) {
offlineInited = true
$rootScope.offline = true
$rootScope.offlineConnecting = true
}
if (Config.Navigator.mobile) {
this.setupMobileSleep()
}
}
MtpNetworker.prototype.updateSession = function () {
this.seqNo = 0
this.prevSessionID = this.sessionID
this.sessionID = new Array(8)
MtpSecureRandom.nextBytes(this.sessionID)
}
MtpNetworker.prototype.setupMobileSleep = function () {
var self = this
$rootScope.$watch('idle.isIDLE', function (isIDLE) {
if (isIDLE) {
self.sleepAfter = tsNow() + 30000
} else {
delete self.sleepAfter
self.checkLongPoll()
}
})
$rootScope.$on('push_received', function () {
// console.log(dT(), 'push recieved', self.sleepAfter)
if (self.sleepAfter) {
self.sleepAfter = tsNow() + 30000
self.checkLongPoll()
}
})
}
MtpNetworker.prototype.updateSentMessage = function (sentMessageID) {
var sentMessage = this.sentMessages[sentMessageID]
if (!sentMessage) {
return false
}
var self = this
if (sentMessage.container) {
var newInner = []
angular.forEach(sentMessage.inner, function (innerSentMessageID) {
var innerSentMessage = self.updateSentMessage(innerSentMessageID)
if (innerSentMessage) {
newInner.push(innerSentMessage.msg_id)
}
})
sentMessage.inner = newInner
}
sentMessage.msg_id = MtpTimeManager.generateID()
sentMessage.seq_no = this.generateSeqNo(
sentMessage.notContentRelated ||
sentMessage.container
)
this.sentMessages[sentMessage.msg_id] = sentMessage
delete self.sentMessages[sentMessageID]
return sentMessage
}
MtpNetworker.prototype.generateSeqNo = function (notContentRelated) {
var seqNo = this.seqNo * 2
if (!notContentRelated) {
seqNo++
this.seqNo++
}
return seqNo
}
MtpNetworker.prototype.wrapMtpCall = function (method, params, options) {
var serializer = new TLSerialization({mtproto: true})
serializer.storeMethod(method, params)
var messageID = MtpTimeManager.generateID()
var seqNo = this.generateSeqNo()
var message = {
msg_id: messageID,
seq_no: seqNo,
body: serializer.getBytes()
}
if (Config.Modes.debug) {
console.log(dT(), 'MT call', method, params, messageID, seqNo)
}
return this.pushMessage(message, options)
}
MtpNetworker.prototype.wrapMtpMessage = function (object, options) {
options = options || {}
var serializer = new TLSerialization({mtproto: true})
serializer.storeObject(object, 'Object')
var messageID = MtpTimeManager.generateID()
var seqNo = this.generateSeqNo(options.notContentRelated)
var message = {
msg_id: messageID,
seq_no: seqNo,
body: serializer.getBytes()
}
if (Config.Modes.debug) {
console.log(dT(), 'MT message', object, messageID, seqNo)
}
return this.pushMessage(message, options)
}
MtpNetworker.prototype.wrapApiCall = function (method, params, options) {
var serializer = new TLSerialization(options)
if (!this.connectionInited) {
serializer.storeInt(0xda9b0d0d, 'invokeWithLayer')
serializer.storeInt(Config.Schema.API.layer, 'layer')
serializer.storeInt(0xc7481da6, 'initConnection')
serializer.storeInt(Config.App.id, 'api_id')
serializer.storeString(navigator.userAgent || 'Unknown UserAgent', 'device_model')
serializer.storeString(navigator.platform || 'Unknown Platform', 'system_version')
serializer.storeString(Config.App.version, 'app_version')
serializer.storeString(navigator.language || 'en', 'system_lang_code')
serializer.storeString('', 'lang_pack')
serializer.storeString(navigator.language || 'en', 'lang_code')
}
if (options.afterMessageID) {
serializer.storeInt(0xcb9f372d, 'invokeAfterMsg')
serializer.storeLong(options.afterMessageID, 'msg_id')
}
options.resultType = serializer.storeMethod(method, params)
var messageID = MtpTimeManager.generateID()
var seqNo = this.generateSeqNo()
var message = {
msg_id: messageID,
seq_no: seqNo,
body: serializer.getBytes(true),
isAPI: true
}
if (Config.Modes.debug) {
console.log(dT(), 'Api call', method, params, messageID, seqNo, options)
} else {
console.log(dT(), 'Api call', method)
}
return this.pushMessage(message, options)
}
MtpNetworker.prototype.checkLongPoll = function (force) {
var isClean = this.cleanupSent()
// console.log('Check lp', this.longPollPending, tsNow(), this.dcID, isClean)
if (this.longPollPending && tsNow() < this.longPollPending ||
this.offline ||
akStopped) {
return false
}
var self = this
Storage.get('dc').then(function (baseDcID) {
if (isClean && (
baseDcID != self.dcID ||
self.upload ||
self.sleepAfter && tsNow() > self.sleepAfter
)) {
// console.warn(dT(), 'Send long-poll for DC is delayed', self.dcID, self.sleepAfter)
return
}
self.sendLongPoll()
})
}
MtpNetworker.prototype.sendLongPoll = function () {
var maxWait = 25000
var self = this
this.longPollPending = tsNow() + maxWait
// console.log('Set lp', this.longPollPending, tsNow())
this.wrapMtpCall('http_wait', {
max_delay: 500,
wait_after: 150,
max_wait: maxWait
}, {
noResponse: true,
longPoll: true
}).then(function () {
delete self.longPollPending
setZeroTimeout(self.checkLongPoll.bind(self))
}, function (error) {
console.log('Long-poll failed', error)
})
}
MtpNetworker.prototype.pushMessage = function (message, options) {
var deferred = $q.defer()
this.sentMessages[message.msg_id] = angular.extend(message, options || {}, {deferred: deferred})
this.pendingMessages[message.msg_id] = 0
if (!options || !options.noShedule) {
this.sheduleRequest()
}
if (angular.isObject(options)) {
options.messageID = message.msg_id
}
return deferred.promise
}
MtpNetworker.prototype.pushResend = function (messageID, delay) {
var value = delay ? tsNow() + delay : 0
var sentMessage = this.sentMessages[messageID]
if (sentMessage.container) {
for (var i = 0; i < sentMessage.inner.length; i++) {
this.pendingMessages[sentMessage.inner[i]] = value
}
} else {
this.pendingMessages[messageID] = value
}
// console.log('Resend due', messageID, this.pendingMessages)
this.sheduleRequest(delay)
}
MtpNetworker.prototype.getMsgKey = function (dataWithPadding, isOut) {
var authKey = this.authKeyUint8
var x = isOut ? 0 : 8
var msgKeyLargePlain = bufferConcat(authKey.subarray(88 + x, 88 + x + 32), dataWithPadding)
return CryptoWorker.sha256Hash(msgKeyLargePlain).then(function (msgKeyLarge) {
var msgKey = new Uint8Array(msgKeyLarge).subarray(8, 24)
return msgKey
})
}
MtpNetworker.prototype.getAesKeyIv = function (msgKey, isOut) {
var authKey = this.authKeyUint8
var x = isOut ? 0 : 8
var sha2aText = new Uint8Array(52)
var sha2bText = new Uint8Array(52)
var promises = {}
sha2aText.set(msgKey, 0)
sha2aText.set(authKey.subarray(x, x + 36), 16)
promises.sha2a = CryptoWorker.sha256Hash(sha2aText)
sha2bText.set(authKey.subarray(40 + x, 40 + x + 36), 0)
sha2bText.set(msgKey, 36)
promises.sha2b = CryptoWorker.sha256Hash(sha2bText)
return $q.all(promises).then(function (result) {
var aesKey = new Uint8Array(32)
var aesIv = new Uint8Array(32)
var sha2a = new Uint8Array(result.sha2a)
var sha2b = new Uint8Array(result.sha2b)
aesKey.set(sha2a.subarray(0, 8))
aesKey.set(sha2b.subarray(8, 24), 8)
aesKey.set(sha2a.subarray(24, 32), 24)
aesIv.set(sha2b.subarray(0, 8))
aesIv.set(sha2a.subarray(8, 24), 8)
aesIv.set(sha2b.subarray(24, 32), 24)
return [aesKey, aesIv]
})
}
MtpNetworker.prototype.checkConnection = function (event) {
$rootScope.offlineConnecting = true
console.log(dT(), 'Check connection', event)
$timeout.cancel(this.checkConnectionPromise)
var serializer = new TLSerialization({mtproto: true})
var pingID = [nextRandomInt(0xFFFFFFFF), nextRandomInt(0xFFFFFFFF)]
serializer.storeMethod('ping', {ping_id: pingID})
var pingMessage = {
msg_id: MtpTimeManager.generateID(),
seq_no: this.generateSeqNo(true),
body: serializer.getBytes()
}
var self = this
this.sendEncryptedRequest(pingMessage, {timeout: 15000}).then(function (result) {
delete $rootScope.offlineConnecting
self.toggleOffline(false)
}, function () {
console.log(dT(), 'Delay ', self.checkConnectionPeriod * 1000)
self.checkConnectionPromise = $timeout(self.checkConnection.bind(self), parseInt(self.checkConnectionPeriod * 1000))
self.checkConnectionPeriod = Math.min(60, self.checkConnectionPeriod * 1.5)
$timeout(function () {
delete $rootScope.offlineConnecting
}, 1000)
})
}
MtpNetworker.prototype.toggleOffline = function (enabled) {
// console.log('toggle ', enabled, this.dcID, this.iii)
if (this.offline !== undefined && this.offline == enabled) {
return false
}
this.offline = enabled
$rootScope.offline = enabled
$rootScope.offlineConnecting = false
if (this.offline) {
$timeout.cancel(this.nextReqPromise)
delete this.nextReq
if (this.checkConnectionPeriod < 1.5) {
this.checkConnectionPeriod = 0
}
this.checkConnectionPromise = $timeout(this.checkConnection.bind(this), parseInt(this.checkConnectionPeriod * 1000))
this.checkConnectionPeriod = Math.min(30, (1 + this.checkConnectionPeriod) * 1.5)
this.onOnlineCb = this.checkConnection.bind(this)
$(document.body).on('online focus', this.onOnlineCb)
} else {
delete this.longPollPending
this.checkLongPoll()
this.sheduleRequest()
if (this.onOnlineCb) {
$(document.body).off('online focus', this.onOnlineCb)
}
$timeout.cancel(this.checkConnectionPromise)
}
}
MtpNetworker.prototype.performSheduledRequest = function () {
// console.log(dT(), 'sheduled', this.dcID, this.iii)
if (this.offline || akStopped) {
console.log(dT(), 'Cancel sheduled')
return false
}
delete this.nextReq
if (this.pendingAcks.length) {
var ackMsgIDs = []
for (var i = 0; i < this.pendingAcks.length; i++) {
ackMsgIDs.push(this.pendingAcks[i])
}
// console.log('acking messages', ackMsgIDs)
this.wrapMtpMessage({_: 'msgs_ack', msg_ids: ackMsgIDs}, {notContentRelated: true, noShedule: true})
}
if (this.pendingResends.length) {
var resendMsgIDs = []
var resendOpts = {noShedule: true, notContentRelated: true}
for (var i = 0; i < this.pendingResends.length; i++) {
resendMsgIDs.push(this.pendingResends[i])
}
// console.log('resendReq messages', resendMsgIDs)
this.wrapMtpMessage({_: 'msg_resend_req', msg_ids: resendMsgIDs}, resendOpts)
this.lastResendReq = {req_msg_id: resendOpts.messageID, resend_msg_ids: resendMsgIDs}
}
var messages = [],
message
var messagesByteLen = 0
var currentTime = tsNow()
var hasApiCall = false
var hasHttpWait = false
var lengthOverflow = false
var singlesCount = 0
var self = this
angular.forEach(this.pendingMessages, function (value, messageID) {
if (!value || value >= currentTime) {
if (message = self.sentMessages[messageID]) {
var messageByteLength = (message.body.byteLength || message.body.length) + 32
if (!message.notContentRelated &&
lengthOverflow) {
return
}
if (!message.notContentRelated &&
messagesByteLen &&
messagesByteLen + messageByteLength > 655360) { // 640 Kb
lengthOverflow = true
return
}
if (message.singleInRequest) {
singlesCount++
if (singlesCount > 1) {
return
}
}
messages.push(message)
messagesByteLen += messageByteLength
if (message.isAPI) {
hasApiCall = true
}
else if (message.longPoll) {
hasHttpWait = true
}
} else {
// console.log(message, messageID)
}
delete self.pendingMessages[messageID]
}
})
if (hasApiCall && !hasHttpWait) {
var serializer = new TLSerialization({mtproto: true})
serializer.storeMethod('http_wait', {
max_delay: 500,
wait_after: 150,
max_wait: 3000
})
messages.push({
msg_id: MtpTimeManager.generateID(),
seq_no: this.generateSeqNo(),
body: serializer.getBytes()
})
}
if (!messages.length) {
// console.log('no sheduled messages')
return
}
var noResponseMsgs = []
if (messages.length > 1) {
var container = new TLSerialization({mtproto: true, startMaxLength: messagesByteLen + 64})
container.storeInt(0x73f1f8dc, 'CONTAINER[id]')
container.storeInt(messages.length, 'CONTAINER[count]')
var onloads = []
var innerMessages = []
for (var i = 0; i < messages.length; i++) {
container.storeLong(messages[i].msg_id, 'CONTAINER[' + i + '][msg_id]')
innerMessages.push(messages[i].msg_id)
container.storeInt(messages[i].seq_no, 'CONTAINER[' + i + '][seq_no]')
container.storeInt(messages[i].body.length, 'CONTAINER[' + i + '][bytes]')
container.storeRawBytes(messages[i].body, 'CONTAINER[' + i + '][body]')
if (messages[i].noResponse) {
noResponseMsgs.push(messages[i].msg_id)
}
}
var containerSentMessage = {
msg_id: MtpTimeManager.generateID(),
seq_no: this.generateSeqNo(true),
container: true,
inner: innerMessages
}
message = angular.extend({body: container.getBytes(true)}, containerSentMessage)
this.sentMessages[message.msg_id] = containerSentMessage
if (Config.Modes.debug) {
console.log(dT(), 'Container', innerMessages, message.msg_id, message.seq_no)
}
} else {
if (message.noResponse) {
noResponseMsgs.push(message.msg_id)
}
this.sentMessages[message.msg_id] = message
}
this.pendingAcks = []
this.sendEncryptedRequest(message).then(function (result) {
self.toggleOffline(false)
// console.log('parse for', message)
self.parseResponse(result.data).then(function (response) {
if (Config.Modes.debug) {
console.log(dT(), 'Server response', self.dcID, response)
}
self.processMessage(response.response, response.messageID, response.sessionID)
angular.forEach(noResponseMsgs, function (msgID) {
if (self.sentMessages[msgID]) {
var deferred = self.sentMessages[msgID].deferred
delete self.sentMessages[msgID]
deferred.resolve()
}
})
self.checkLongPoll()
this.checkConnectionPeriod = Math.max(1.1, Math.sqrt(this.checkConnectionPeriod))
})
}, function (error) {
console.error('Encrypted request failed', error)
if (message.container) {
angular.forEach(message.inner, function (msgID) {
self.pendingMessages[msgID] = 0
})
delete self.sentMessages[message.msg_id]
} else {
self.pendingMessages[message.msg_id] = 0
}
angular.forEach(noResponseMsgs, function (msgID) {
if (self.sentMessages[msgID]) {
var deferred = self.sentMessages[msgID].deferred
delete self.sentMessages[msgID]
delete self.pendingMessages[msgID]
deferred.reject()
}
})
self.toggleOffline(true)
})
if (lengthOverflow || singlesCount > 1) {
this.sheduleRequest()
}
}
MtpNetworker.prototype.getEncryptedMessage = function (dataWithPadding) {
var self = this
return self.getMsgKey(dataWithPadding, true).then(function (msgKey) {
return self.getAesKeyIv(msgKey, true).then(function (keyIv) {
// console.log(dT(), 'after msg key iv')
return CryptoWorker.aesEncrypt(dataWithPadding, keyIv[0], keyIv[1]).then(function (encryptedBytes) {
// console.log(dT(), 'Finish encrypt')
return {
bytes: encryptedBytes,
msgKey: msgKey
}
})
})
})
}
MtpNetworker.prototype.getDecryptedMessage = function (msgKey, encryptedData) {
// console.log(dT(), 'get decrypted start')
return this.getAesKeyIv(msgKey, false).then(function (keyIv) {
// console.log(dT(), 'after msg key iv')
return CryptoWorker.aesDecrypt(encryptedData, keyIv[0], keyIv[1])
})
}
MtpNetworker.prototype.sendEncryptedRequest = function (message, options) {
var self = this
options = options || {}
// console.log(dT(), 'Send encrypted'/*, message*/)
// console.trace()
var data = new TLSerialization({startMaxLength: message.body.length + 2048})
data.storeIntBytes(this.serverSalt, 64, 'salt')
data.storeIntBytes(this.sessionID, 64, 'session_id')
data.storeLong(message.msg_id, 'message_id')
data.storeInt(message.seq_no, 'seq_no')
data.storeInt(message.body.length, 'message_data_length')
data.storeRawBytes(message.body, 'message_data')
var dataBuffer = data.getBuffer()
var paddingLength = (16 - (data.offset % 16)) + 16 * (1 + nextRandomInt(5))
var padding = new Array(paddingLength)
MtpSecureRandom.nextBytes(padding)
var dataWithPadding = bufferConcat(dataBuffer, padding)
// console.log(dT(), 'Adding padding', dataBuffer, padding, dataWithPadding)
// console.log(dT(), 'auth_key_id', bytesToHex(self.authKeyID))
return this.getEncryptedMessage(dataWithPadding).then(function (encryptedResult) {
// console.log(dT(), 'Got encrypted out message'/*, encryptedResult*/)
var request = new TLSerialization({startMaxLength: encryptedResult.bytes.byteLength + 256})
request.storeIntBytes(self.authKeyID, 64, 'auth_key_id')
request.storeIntBytes(encryptedResult.msgKey, 128, 'msg_key')
request.storeRawBytes(encryptedResult.bytes, 'encrypted_data')
var requestData = xhrSendBuffer ? request.getBuffer() : request.getArray()
var requestPromise
var url = MtpDcConfigurator.chooseServer(self.dcID, self.upload)
var baseError = {code: 406, type: 'NETWORK_BAD_RESPONSE', url: url}
try {
options = angular.extend(options || {}, {
responseType: 'arraybuffer',
transformRequest: null
})
requestPromise = $http.post(url, requestData, options)
} catch (e) {
requestPromise = $q.reject(e)
}
return requestPromise.then(
function (result) {
if (!result.data || !result.data.byteLength) {
return $q.reject(baseError)
}
return result
},
function (error) {
if (!error.message && !error.type) {
error = angular.extend(baseError, {type: 'NETWORK_BAD_REQUEST', originalError: error})
}
return $q.reject(error)
}
)
})
}
MtpNetworker.prototype.parseResponse = function (responseBuffer) {
// console.log(dT(), 'Start parsing response')
var self = this
var deserializer = new TLDeserialization(responseBuffer)
var authKeyID = deserializer.fetchIntBytes(64, false, 'auth_key_id')
if (!bytesCmp(authKeyID, this.authKeyID)) {
throw new Error('[MT] Invalid server auth_key_id: ' + bytesToHex(authKeyID))
}
var msgKey = deserializer.fetchIntBytes(128, true, 'msg_key')
var encryptedData = deserializer.fetchRawBytes(responseBuffer.byteLength - deserializer.getOffset(), true, 'encrypted_data')
return self.getDecryptedMessage(msgKey, encryptedData).then(function (dataWithPadding) {
// console.log(dT(), 'after decrypt')
return self.getMsgKey(dataWithPadding, false).then(function (calcMsgKey) {
if (!bytesCmp(msgKey, calcMsgKey)) {
console.warn('[MT] msg_keys', msgKey, bytesFromArrayBuffer(calcMsgKey))
throw new Error('[MT] server msgKey mismatch')
}
// console.log(dT(), 'after msgKey check')
var deserializer = new TLDeserialization(dataWithPadding, {mtproto: true})
var salt = deserializer.fetchIntBytes(64, false, 'salt')
var sessionID = deserializer.fetchIntBytes(64, false, 'session_id')
var messageID = deserializer.fetchLong('message_id')
if (!bytesCmp(sessionID, self.sessionID) &&
(!self.prevSessionID || !bytesCmp(sessionID, self.prevSessionID))) {
console.warn('Sessions', sessionID, self.sessionID, self.prevSessionID)
throw new Error('[MT] Invalid server session_id: ' + bytesToHex(sessionID))
}
var seqNo = deserializer.fetchInt('seq_no')
var totalLength = dataWithPadding.byteLength
var messageBodyLength = deserializer.fetchInt('message_data[length]')
var offset = deserializer.getOffset()
if ((messageBodyLength % 4) ||
messageBodyLength > totalLength - offset) {
throw new Error('[MT] Invalid body length: ' + messageBodyLength)
}
var messageBody = deserializer.fetchRawBytes(messageBodyLength, true, 'message_data')
var offset = deserializer.getOffset()
var paddingLength = totalLength - offset
if (paddingLength < 12 || paddingLength > 1024) {
throw new Error('[MT] Invalid padding length: ' + paddingLength)
}
var buffer = bytesToArrayBuffer(messageBody)
var deserializerOptions = {
mtproto: true,
override: {
mt_message: function (result, field) {
result.msg_id = this.fetchLong(field + '[msg_id]')
result.seqno = this.fetchInt(field + '[seqno]')
result.bytes = this.fetchInt(field + '[bytes]')
var offset = this.getOffset()
try {
result.body = this.fetchObject('Object', field + '[body]')
} catch (e) {
console.error(dT(), 'parse error', e.message, e.stack)
result.body = {_: 'parse_error', error: e}
}
if (this.offset != offset + result.bytes) {
// console.warn(dT(), 'set offset', this.offset, offset, result.bytes)
// console.log(dT(), result)
this.offset = offset + result.bytes
}
// console.log(dT(), 'override message', result)
},
mt_rpc_result: function (result, field) {
result.req_msg_id = this.fetchLong(field + '[req_msg_id]')
var sentMessage = self.sentMessages[result.req_msg_id]
var type = sentMessage && sentMessage.resultType || 'Object'
if (result.req_msg_id && !sentMessage) {
// console.warn(dT(), 'Result for unknown message', result)
return
}
result.result = this.fetchObject(type, field + '[result]')
// console.log(dT(), 'override rpc_result', sentMessage, type, result)
}
}
}
var deserializer = new TLDeserialization(buffer, deserializerOptions)
var response = deserializer.fetchObject('', 'INPUT')
return {
response: response,
messageID: messageID,
sessionID: sessionID,
seqNo: seqNo
}
})
})
}
MtpNetworker.prototype.applyServerSalt = function (newServerSalt) {
var serverSalt = longToBytes(newServerSalt)
var storeObj = {}
storeObj['dc' + this.dcID + '_server_salt'] = bytesToHex(serverSalt)
Storage.set(storeObj)
this.serverSalt = serverSalt
return true
}
MtpNetworker.prototype.sheduleRequest = function (delay) {
if (this.offline) {
this.checkConnection('forced shedule')
}
var nextReq = tsNow() + delay
if (delay && this.nextReq && this.nextReq <= nextReq) {
return false
}
// console.log(dT(), 'shedule req', delay)
// console.trace()
$timeout.cancel(this.nextReqPromise)
if (delay > 0) {
this.nextReqPromise = $timeout(this.performSheduledRequest.bind(this), delay || 0)
} else {
setZeroTimeout(this.performSheduledRequest.bind(this))
}
this.nextReq = nextReq
}
MtpNetworker.prototype.ackMessage = function (msgID) {
// console.log('ack message', msgID)
this.pendingAcks.push(msgID)
this.sheduleRequest(30000)
}
MtpNetworker.prototype.reqResendMessage = function (msgID) {
console.log(dT(), 'Req resend', msgID)
this.pendingResends.push(msgID)
this.sheduleRequest(100)
}
MtpNetworker.prototype.cleanupSent = function () {
var self = this
var notEmpty = false
// console.log('clean start', this.dcID/*, this.sentMessages*/)
angular.forEach(this.sentMessages, function (message, msgID) {
// console.log('clean iter', msgID, message)
if (message.notContentRelated && self.pendingMessages[msgID] === undefined) {
// console.log('clean notContentRelated', msgID)
delete self.sentMessages[msgID]
}
else if (message.container) {
for (var i = 0; i < message.inner.length; i++) {
if (self.sentMessages[message.inner[i]] !== undefined) {
// console.log('clean failed, found', msgID, message.inner[i], self.sentMessages[message.inner[i]].seq_no)
notEmpty = true
return
}
}
// console.log('clean container', msgID)
delete self.sentMessages[msgID]
} else {
notEmpty = true
}
})
return !notEmpty
}
MtpNetworker.prototype.processMessageAck = function (messageID) {
var sentMessage = this.sentMessages[messageID]
if (sentMessage && !sentMessage.acked) {
delete sentMessage.body
sentMessage.acked = true
return true
}
return false
}
MtpNetworker.prototype.processError = function (rawError) {
var matches = (rawError.error_message || '').match(/^([A-Z_0-9]+\b)(: (.+))?/) || []
rawError.error_code = uintToInt(rawError.error_code)
return {
code: !rawError.error_code || rawError.error_code <= 0 ? 500 : rawError.error_code,
type: matches[1] || 'UNKNOWN',
description: matches[3] || ('CODE#' + rawError.error_code + ' ' + rawError.error_message),
originalError: rawError
}
}
MtpNetworker.prototype.processMessage = function (message, messageID, sessionID) {
var msgidInt = parseInt(messageID.toString(10).substr(0, -10), 10)
if (msgidInt % 2) {
console.warn('[MT] Server even message id: ', messageID, message)
return
}
// console.log('process message', message, messageID, sessionID)
switch (message._) {
case 'msg_container':
var len = message.messages.length
for (var i = 0; i < len; i++) {
this.processMessage(message.messages[i], message.messages[i].msg_id, sessionID)
}
break
case 'bad_server_salt':
console.log(dT(), 'Bad server salt', message)
var sentMessage = this.sentMessages[message.bad_msg_id]
if (!sentMessage || sentMessage.seq_no != message.bad_msg_seqno) {
console.log(message.bad_msg_id, message.bad_msg_seqno)
throw new Error('[MT] Bad server salt for invalid message')
}
this.applyServerSalt(message.new_server_salt)
this.pushResend(message.bad_msg_id)
this.ackMessage(messageID)
break
case 'bad_msg_notification':
console.log(dT(), 'Bad msg notification', message)
var sentMessage = this.sentMessages[message.bad_msg_id]
if (!sentMessage || sentMessage.seq_no != message.bad_msg_seqno) {
console.log(message.bad_msg_id, message.bad_msg_seqno)
throw new Error('[MT] Bad msg notification for invalid message')
}
if (message.error_code == 16 || message.error_code == 17) {
if (MtpTimeManager.applyServerTime(
bigStringInt(messageID).shiftRight(32).toString(10)
)) {
console.log(dT(), 'Update session')
this.updateSession()
}
var badMessage = this.updateSentMessage(message.bad_msg_id)
this.pushResend(badMessage.msg_id)
this.ackMessage(messageID)
}
break
case 'message':
if (this.lastServerMessages.indexOf(messageID) != -1) {
// console.warn('[MT] Server same messageID: ', messageID)
this.ackMessage(messageID)
return
}
this.lastServerMessages.push(messageID)
if (this.lastServerMessages.length > 100) {
this.lastServerMessages.shift()
}
this.processMessage(message.body, message.msg_id, sessionID)
break
case 'new_session_created':
this.ackMessage(messageID)
this.processMessageAck(message.first_msg_id)
this.applyServerSalt(message.server_salt)
var self = this
Storage.get('dc').then(function (baseDcID) {
if (baseDcID == self.dcID && !self.upload && updatesProcessor) {
updatesProcessor(message, true)
}
})
break
case 'msgs_ack':
for (var i = 0; i < message.msg_ids.length; i++) {
this.processMessageAck(message.msg_ids[i])
}
break
case 'msg_detailed_info':
if (!this.sentMessages[message.msg_id]) {
this.ackMessage(message.answer_msg_id)
break
}
case 'msg_new_detailed_info':
if (this.pendingAcks.indexOf(message.answer_msg_id)) {
break
}
this.reqResendMessage(message.answer_msg_id)
break
case 'msgs_state_info':
this.ackMessage(message.answer_msg_id)
if (this.lastResendReq && this.lastResendReq.req_msg_id == message.req_msg_id && this.pendingResends.length) {
var i, badMsgID, pos
for (i = 0; i < this.lastResendReq.resend_msg_ids.length; i++) {
badMsgID = this.lastResendReq.resend_msg_ids[i]
pos = this.pendingResends.indexOf(badMsgID)
if (pos != -1) {
this.pendingResends.splice(pos, 1)
}
}
}
break
case 'rpc_result':
this.ackMessage(messageID)
var sentMessageID = message.req_msg_id
var sentMessage = this.sentMessages[sentMessageID]
this.processMessageAck(sentMessageID)
if (sentMessage) {
var deferred = sentMessage.deferred
if (message.result._ == 'rpc_error') {
var error = this.processError(message.result)
console.log(dT(), 'Rpc error', error)
if (deferred) {
deferred.reject(error)
}
} else {
if (deferred) {
if (Config.Modes.debug) {
console.log(dT(), 'Rpc response', message.result)
} else {
var dRes = message.result._
if (!dRes) {
if (message.result.length > 5) {
dRes = '[..' + message.result.length + '..]'
} else {
dRes = message.result
}
}
console.log(dT(), 'Rpc response', dRes)
}
sentMessage.deferred.resolve(message.result)
}
if (sentMessage.isAPI) {
this.connectionInited = true
}
}
delete this.sentMessages[sentMessageID]
}
break
default:
this.ackMessage(messageID)
// console.log('Update', message)
if (updatesProcessor) {
updatesProcessor(message, true)
}
break
}
}
function startAll () {
if (akStopped) {
akStopped = false
updatesProcessor({_: 'new_session_created'}, true)
}
}
function stopAll () {
akStopped = true
}
return {
getNetworker: function (dcID, authKey, serverSalt, options) {
return new MtpNetworker(dcID, authKey, serverSalt, options)
},
setUpdatesProcessor: function (callback) {
updatesProcessor = callback
},
stopAll: stopAll,
startAll: startAll
}
})