signal-desktop/libtextsecure/message_receiver.js

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/* global window: false */
/* global textsecure: false */
/* global WebAPI: false */
/* global libsignal: false */
/* global WebSocketResource: false */
/* global WebSocket: false */
/* global Event: false */
/* global dcodeIO: false */
/* global _: false */
/* global ContactBuffer: false */
/* global GroupBuffer: false */
/* global Worker: false */
/* eslint-disable more/no-then */
const WORKER_TIMEOUT = 60 * 1000; // one minute
const _utilWorker = new Worker('js/util_worker.js');
const _jobs = Object.create(null);
const _DEBUG = false;
let _jobCounter = 0;
function _makeJob(fnName) {
_jobCounter += 1;
const id = _jobCounter;
if (_DEBUG) {
window.log.info(`Worker job ${id} (${fnName}) started`);
}
_jobs[id] = {
fnName,
start: Date.now(),
};
return id;
}
function _updateJob(id, data) {
const { resolve, reject } = data;
const { fnName, start } = _jobs[id];
_jobs[id] = {
..._jobs[id],
...data,
resolve: value => {
_removeJob(id);
const end = Date.now();
window.log.info(
`Worker job ${id} (${fnName}) succeeded in ${end - start}ms`
);
return resolve(value);
},
reject: error => {
_removeJob(id);
const end = Date.now();
window.log.info(
`Worker job ${id} (${fnName}) failed in ${end - start}ms`
);
return reject(error);
},
};
}
function _removeJob(id) {
if (_DEBUG) {
_jobs[id].complete = true;
} else {
delete _jobs[id];
}
}
function _getJob(id) {
return _jobs[id];
}
async function callWorker(fnName, ...args) {
const jobId = _makeJob(fnName);
return new Promise((resolve, reject) => {
_utilWorker.postMessage([jobId, fnName, ...args]);
_updateJob(jobId, {
resolve,
reject,
args: _DEBUG ? args : null,
});
setTimeout(
() => reject(new Error(`Worker job ${jobId} (${fnName}) timed out`)),
WORKER_TIMEOUT
);
});
}
_utilWorker.onmessage = e => {
const [jobId, errorForDisplay, result] = e.data;
const job = _getJob(jobId);
if (!job) {
throw new Error(
`Received worker reply to job ${jobId}, but did not have it in our registry!`
);
}
const { resolve, reject, fnName } = job;
if (errorForDisplay) {
return reject(
new Error(
`Error received from worker job ${jobId} (${fnName}): ${errorForDisplay}`
)
);
}
return resolve(result);
};
function MessageReceiver(username, password, signalingKey, options = {}) {
this.count = 0;
this.signalingKey = signalingKey;
this.username = username;
this.password = password;
this.server = WebAPI.connect({ username, password });
if (!options.serverTrustRoot) {
throw new Error('Server trust root is required!');
}
this.serverTrustRoot = window.Signal.Crypto.base64ToArrayBuffer(
options.serverTrustRoot
);
const address = libsignal.SignalProtocolAddress.fromString(username);
this.number = address.getName();
this.deviceId = address.getDeviceId();
this.pending = Promise.resolve();
if (options.retryCached) {
this.pending = this.queueAllCached();
}
}
MessageReceiver.stringToArrayBuffer = string =>
Promise.resolve(dcodeIO.ByteBuffer.wrap(string, 'binary').toArrayBuffer());
MessageReceiver.arrayBufferToString = arrayBuffer =>
Promise.resolve(dcodeIO.ByteBuffer.wrap(arrayBuffer).toString('binary'));
MessageReceiver.stringToArrayBufferBase64 = string =>
callWorker('stringToArrayBufferBase64', string);
MessageReceiver.arrayBufferToStringBase64 = arrayBuffer =>
callWorker('arrayBufferToStringBase64', arrayBuffer);
MessageReceiver.prototype = new textsecure.EventTarget();
MessageReceiver.prototype.extend({
constructor: MessageReceiver,
connect() {
if (this.calledClose) {
return;
}
this.count = 0;
if (this.hasConnected) {
const ev = new Event('reconnect');
this.dispatchEvent(ev);
}
this.hasConnected = true;
if (this.socket && this.socket.readyState !== WebSocket.CLOSED) {
this.socket.close();
this.wsr.close();
}
// initialize the socket and start listening for messages
this.socket = this.server.getMessageSocket();
this.socket.onclose = this.onclose.bind(this);
this.socket.onerror = this.onerror.bind(this);
this.socket.onopen = this.onopen.bind(this);
this.wsr = new WebSocketResource(this.socket, {
handleRequest: this.handleRequest.bind(this),
keepalive: {
path: '/v1/keepalive',
disconnect: true,
},
});
// Because sometimes the socket doesn't properly emit its close event
this._onClose = this.onclose.bind(this);
this.wsr.addEventListener('close', this._onClose);
// Ensures that an immediate 'empty' event from the websocket will fire only after
// all cached envelopes are processed.
this.incoming = [this.pending];
},
stopProcessing() {
window.log.info('MessageReceiver: stopProcessing requested');
this.stoppingProcessing = true;
return this.close();
},
shutdown() {
if (this.socket) {
this.socket.onclose = null;
this.socket.onerror = null;
this.socket.onopen = null;
this.socket = null;
}
if (this.wsr) {
this.wsr.removeEventListener('close', this._onClose);
this.wsr = null;
}
},
close() {
window.log.info('MessageReceiver.close()');
this.calledClose = true;
// Our WebSocketResource instance will close the socket and emit a 'close' event
// if the socket doesn't emit one quickly enough.
if (this.wsr) {
this.wsr.close(3000, 'called close');
}
return this.drain();
},
onopen() {
window.log.info('websocket open');
},
onerror() {
window.log.error('websocket error');
},
dispatchAndWait(event) {
const promise = this.appPromise || Promise.resolve();
const appJobPromise = Promise.all(this.dispatchEvent(event));
const job = () => appJobPromise;
this.appPromise = promise.then(job, job);
return Promise.resolve();
},
onclose(ev) {
window.log.info(
'websocket closed',
ev.code,
ev.reason || '',
'calledClose:',
this.calledClose
);
this.shutdown();
if (this.calledClose) {
return Promise.resolve();
}
if (ev.code === 3000) {
return Promise.resolve();
}
if (ev.code === 3001) {
this.onEmpty();
}
// possible 403 or network issue. Make an request to confirm
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return this.server
.getDevices(this.number)
.then(this.connect.bind(this)) // No HTTP error? Reconnect
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.catch(e => {
const event = new Event('error');
event.error = e;
return this.dispatchAndWait(event);
});
},
handleRequest(request) {
this.incoming = this.incoming || [];
const lastPromise = _.last(this.incoming);
// We do the message decryption here, instead of in the ordered pending queue,
// to avoid exposing the time it took us to process messages through the time-to-ack.
if (request.path !== '/api/v1/message') {
window.log.info('got request', request.verb, request.path);
request.respond(200, 'OK');
if (request.verb === 'PUT' && request.path === '/api/v1/queue/empty') {
this.onEmpty();
}
return;
}
let promise;
const headers = request.headers || [];
if (headers.includes('X-Signal-Key: true')) {
promise = textsecure.crypto.decryptWebsocketMessage(
request.body,
this.signalingKey
);
} else {
promise = Promise.resolve(request.body.toArrayBuffer());
}
promise = promise
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.then(plaintext => {
const envelope = textsecure.protobuf.Envelope.decode(plaintext);
// After this point, decoding errors are not the server's
// fault, and we should handle them gracefully and tell the
// user they received an invalid message
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if (this.isBlocked(envelope.source)) {
return request.respond(200, 'OK');
}
envelope.id = envelope.serverGuid || window.getGuid();
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envelope.serverTimestamp = envelope.serverTimestamp
? envelope.serverTimestamp.toNumber()
: null;
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return this.addToCache(envelope, plaintext).then(
async () => {
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request.respond(200, 'OK');
// To ensure that we queue in the same order we receive messages
await lastPromise;
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this.queueEnvelope(envelope);
},
error => {
request.respond(500, 'Failed to cache message');
window.log.error(
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'handleRequest error trying to add message to cache:',
error && error.stack ? error.stack : error
);
}
);
})
.catch(e => {
request.respond(500, 'Bad encrypted websocket message');
window.log.error(
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'Error handling incoming message:',
e && e.stack ? e.stack : e
);
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const ev = new Event('error');
ev.error = e;
return this.dispatchAndWait(ev);
});
this.incoming.push(promise);
},
addToQueue(task) {
this.count += 1;
this.pending = this.pending.then(task, task);
const { count, pending } = this;
const cleanup = () => {
this.updateProgress(count);
// We want to clear out the promise chain whenever possible because it could
// lead to large memory usage over time:
// https://github.com/nodejs/node/issues/6673#issuecomment-244331609
if (this.pending === pending) {
this.pending = Promise.resolve();
}
};
pending.then(cleanup, cleanup);
return pending;
},
onEmpty() {
const { incoming } = this;
this.incoming = [];
const emitEmpty = () => {
window.log.info("MessageReceiver: emitting 'empty' event");
const ev = new Event('empty');
this.dispatchAndWait(ev);
};
const waitForApplication = async () => {
window.log.info(
"MessageReceiver: finished processing messages after 'empty', now waiting for application"
);
const promise = this.appPromise || Promise.resolve();
this.appPromise = Promise.resolve();
// We don't await here because we don't this to gate future message processing
promise.then(emitEmpty, emitEmpty);
};
const waitForEmptyQueue = () => {
// resetting count to zero so everything queued after this starts over again
this.count = 0;
this.addToQueue(waitForApplication);
};
// We first wait for all recently-received messages (this.incoming) to be queued,
// then we queue a task to wait for the application to finish its processing, then
// finally we emit the 'empty' event to the queue.
Promise.all(incoming).then(waitForEmptyQueue, waitForEmptyQueue);
},
drain() {
const { incoming } = this;
this.incoming = [];
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const queueDispatch = () =>
this.addToQueue(() => {
window.log.info('drained');
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});
// This promise will resolve when there are no more messages to be processed.
return Promise.all(incoming).then(queueDispatch, queueDispatch);
},
updateProgress(count) {
// count by 10s
if (count % 10 !== 0) {
return;
}
const ev = new Event('progress');
ev.count = count;
this.dispatchEvent(ev);
},
async queueAllCached() {
const items = await this.getAllFromCache();
for (let i = 0, max = items.length; i < max; i += 1) {
// eslint-disable-next-line no-await-in-loop
await this.queueCached(items[i]);
}
},
async queueCached(item) {
try {
let envelopePlaintext = item.envelope;
if (item.version === 2) {
envelopePlaintext = await MessageReceiver.stringToArrayBufferBase64(
envelopePlaintext
);
}
if (typeof envelopePlaintext === 'string') {
envelopePlaintext = await MessageReceiver.stringToArrayBuffer(
envelopePlaintext
);
}
const envelope = textsecure.protobuf.Envelope.decode(envelopePlaintext);
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envelope.id = envelope.serverGuid || item.id;
envelope.source = envelope.source || item.source;
envelope.sourceDevice = envelope.sourceDevice || item.sourceDevice;
envelope.serverTimestamp =
envelope.serverTimestamp || item.serverTimestamp;
const { decrypted } = item;
if (decrypted) {
let payloadPlaintext = decrypted;
if (item.version === 2) {
payloadPlaintext = await MessageReceiver.stringToArrayBufferBase64(
payloadPlaintext
);
}
if (typeof payloadPlaintext === 'string') {
payloadPlaintext = await MessageReceiver.stringToArrayBuffer(
payloadPlaintext
);
}
this.queueDecryptedEnvelope(envelope, payloadPlaintext);
} else {
this.queueEnvelope(envelope);
}
} catch (error) {
window.log.error(
'queueCached error handling item',
item.id,
'removing it. Error:',
error && error.stack ? error.stack : error
);
try {
const { id } = item;
await textsecure.storage.unprocessed.remove(id);
} catch (deleteError) {
window.log.error(
'queueCached error deleting item',
item.id,
'Error:',
deleteError && deleteError.stack ? deleteError.stack : deleteError
);
}
}
},
getEnvelopeId(envelope) {
if (envelope.source) {
return `${envelope.source}.${
envelope.sourceDevice
} ${envelope.timestamp.toNumber()} (${envelope.id})`;
}
return envelope.id;
},
async getAllFromCache() {
window.log.info('getAllFromCache');
const count = await textsecure.storage.unprocessed.getCount();
if (count > 1500) {
await textsecure.storage.unprocessed.removeAll();
window.log.warn(
`There were ${count} messages in cache. Deleted all instead of reprocessing`
);
return [];
}
const items = await textsecure.storage.unprocessed.getAll();
window.log.info('getAllFromCache loaded', items.length, 'saved envelopes');
return Promise.all(
_.map(items, async item => {
const attempts = 1 + (item.attempts || 0);
try {
if (attempts >= 3) {
window.log.warn(
'getAllFromCache final attempt for envelope',
item.id
);
await textsecure.storage.unprocessed.remove(item.id);
} else {
await textsecure.storage.unprocessed.updateAttempts(
item.id,
attempts
);
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}
} catch (error) {
window.log.error(
'getAllFromCache error updating item after load:',
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error && error.stack ? error.stack : error
);
}
return item;
})
);
},
async addToCache(envelope, plaintext) {
const { id } = envelope;
const data = {
id,
version: 2,
envelope: await MessageReceiver.arrayBufferToStringBase64(plaintext),
timestamp: Date.now(),
attempts: 1,
};
return textsecure.storage.unprocessed.add(data);
},
async updateCache(envelope, plaintext) {
const { id } = envelope;
const item = await textsecure.storage.unprocessed.get(id);
if (!item) {
window.log.error(
`updateCache: Didn't find item ${id} in cache to update`
);
return null;
}
item.source = envelope.source;
item.sourceDevice = envelope.sourceDevice;
item.serverTimestamp = envelope.serverTimestamp;
if (item.version === 2) {
item.decrypted = await MessageReceiver.arrayBufferToStringBase64(
plaintext
);
} else {
item.decrypted = await MessageReceiver.arrayBufferToString(plaintext);
}
return textsecure.storage.unprocessed.addDecryptedData(item.id, item);
},
removeFromCache(envelope) {
const { id } = envelope;
return textsecure.storage.unprocessed.remove(id);
},
queueDecryptedEnvelope(envelope, plaintext) {
const id = this.getEnvelopeId(envelope);
window.log.info('queueing decrypted envelope', id);
const task = this.handleDecryptedEnvelope.bind(this, envelope, plaintext);
const taskWithTimeout = textsecure.createTaskWithTimeout(
task,
`queueEncryptedEnvelope ${id}`
);
const promise = this.addToQueue(taskWithTimeout);
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return promise.catch(error => {
window.log.error(
`queueDecryptedEnvelope error handling envelope ${id}:`,
error && error.stack ? error.stack : error
);
});
},
queueEnvelope(envelope) {
const id = this.getEnvelopeId(envelope);
window.log.info('queueing envelope', id);
const task = this.handleEnvelope.bind(this, envelope);
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const taskWithTimeout = textsecure.createTaskWithTimeout(
task,
`queueEnvelope ${id}`
);
const promise = this.addToQueue(taskWithTimeout);
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return promise.catch(error => {
window.log.error(
'queueEnvelope error handling envelope',
id,
':',
error && error.stack ? error.stack : error
);
});
},
// Same as handleEnvelope, just without the decryption step. Necessary for handling
// messages which were successfully decrypted, but application logic didn't finish
// processing.
handleDecryptedEnvelope(envelope, plaintext) {
if (this.stoppingProcessing) {
return Promise.resolve();
}
// No decryption is required for delivery receipts, so the decrypted field of
// the Unprocessed model will never be set
if (envelope.content) {
return this.innerHandleContentMessage(envelope, plaintext);
} else if (envelope.legacyMessage) {
return this.innerHandleLegacyMessage(envelope, plaintext);
}
this.removeFromCache(envelope);
throw new Error('Received message with no content and no legacyMessage');
},
handleEnvelope(envelope) {
if (this.stoppingProcessing) {
return Promise.resolve();
}
if (envelope.type === textsecure.protobuf.Envelope.Type.RECEIPT) {
return this.onDeliveryReceipt(envelope);
}
if (envelope.content) {
return this.handleContentMessage(envelope);
} else if (envelope.legacyMessage) {
return this.handleLegacyMessage(envelope);
}
this.removeFromCache(envelope);
throw new Error('Received message with no content and no legacyMessage');
},
getStatus() {
if (this.socket) {
return this.socket.readyState;
} else if (this.hasConnected) {
return WebSocket.CLOSED;
}
return -1;
},
onDeliveryReceipt(envelope) {
return new Promise((resolve, reject) => {
const ev = new Event('delivery');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.deliveryReceipt = {
timestamp: envelope.timestamp.toNumber(),
source: envelope.source,
sourceDevice: envelope.sourceDevice,
};
this.dispatchAndWait(ev).then(resolve, reject);
});
},
unpad(paddedData) {
const paddedPlaintext = new Uint8Array(paddedData);
let plaintext;
for (let i = paddedPlaintext.length - 1; i >= 0; i -= 1) {
if (paddedPlaintext[i] === 0x80) {
plaintext = new Uint8Array(i);
plaintext.set(paddedPlaintext.subarray(0, i));
plaintext = plaintext.buffer;
break;
} else if (paddedPlaintext[i] !== 0x00) {
throw new Error('Invalid padding');
}
}
return plaintext;
},
decrypt(envelope, ciphertext) {
const { serverTrustRoot } = this;
let promise;
const address = new libsignal.SignalProtocolAddress(
envelope.source,
envelope.sourceDevice
);
const ourNumber = textsecure.storage.user.getNumber();
const number = address.toString().split('.')[0];
const options = {};
// No limit on message keys if we're communicating with our other devices
if (ourNumber === number) {
options.messageKeysLimit = false;
}
const sessionCipher = new libsignal.SessionCipher(
textsecure.storage.protocol,
address,
options
);
const secretSessionCipher = new window.Signal.Metadata.SecretSessionCipher(
textsecure.storage.protocol
);
const me = {
number: ourNumber,
deviceId: parseInt(textsecure.storage.user.getDeviceId(), 10),
};
switch (envelope.type) {
case textsecure.protobuf.Envelope.Type.CIPHERTEXT:
window.log.info('message from', this.getEnvelopeId(envelope));
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promise = sessionCipher
.decryptWhisperMessage(ciphertext)
.then(this.unpad);
break;
case textsecure.protobuf.Envelope.Type.PREKEY_BUNDLE:
window.log.info('prekey message from', this.getEnvelopeId(envelope));
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promise = this.decryptPreKeyWhisperMessage(
ciphertext,
sessionCipher,
address
);
break;
case textsecure.protobuf.Envelope.Type.UNIDENTIFIED_SENDER:
window.log.info('received unidentified sender message');
promise = secretSessionCipher
.decrypt(
window.Signal.Metadata.createCertificateValidator(serverTrustRoot),
ciphertext.toArrayBuffer(),
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Math.min(envelope.serverTimestamp || Date.now(), Date.now()),
me
)
.then(
result => {
const { isMe, sender, content } = result;
// We need to drop incoming messages from ourself since server can't
// do it for us
if (isMe) {
return { isMe: true };
}
if (this.isBlocked(sender.getName())) {
window.log.info(
'Dropping blocked message after sealed sender decryption'
);
return { isBlocked: true };
}
// Here we take this sender information and attach it back to the envelope
// to make the rest of the app work properly.
const originalSource = envelope.source;
// eslint-disable-next-line no-param-reassign
envelope.source = sender.getName();
// eslint-disable-next-line no-param-reassign
envelope.sourceDevice = sender.getDeviceId();
// eslint-disable-next-line no-param-reassign
envelope.unidentifiedDeliveryReceived = !originalSource;
// Return just the content because that matches the signature of the other
// decrypt methods used above.
return this.unpad(content);
},
error => {
const { sender } = error || {};
if (sender) {
const originalSource = envelope.source;
if (this.isBlocked(sender.getName())) {
window.log.info(
'Dropping blocked message with error after sealed sender decryption'
);
return { isBlocked: true };
}
// eslint-disable-next-line no-param-reassign
envelope.source = sender.getName();
// eslint-disable-next-line no-param-reassign
envelope.sourceDevice = sender.getDeviceId();
// eslint-disable-next-line no-param-reassign
envelope.unidentifiedDeliveryReceived = !originalSource;
throw error;
}
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return this.removeFromCache(envelope).then(() => {
throw error;
});
}
);
break;
default:
promise = Promise.reject(new Error('Unknown message type'));
}
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return promise
.then(plaintext => {
const { isMe, isBlocked } = plaintext || {};
if (isMe || isBlocked) {
this.removeFromCache(envelope);
return null;
}
this.updateCache(envelope, plaintext).catch(error => {
window.log.error(
'decrypt failed to save decrypted message contents to cache:',
error && error.stack ? error.stack : error
);
});
return plaintext;
})
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.catch(error => {
let errorToThrow = error;
if (error && error.message === 'Unknown identity key') {
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// create an error that the UI will pick up and ask the
// user if they want to re-negotiate
const buffer = dcodeIO.ByteBuffer.wrap(ciphertext);
errorToThrow = new textsecure.IncomingIdentityKeyError(
address.toString(),
buffer.toArrayBuffer(),
error.identityKey
);
}
const ev = new Event('error');
ev.error = errorToThrow;
ev.proto = envelope;
ev.confirm = this.removeFromCache.bind(this, envelope);
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const returnError = () => Promise.reject(errorToThrow);
return this.dispatchAndWait(ev).then(returnError, returnError);
});
},
async decryptPreKeyWhisperMessage(ciphertext, sessionCipher, address) {
const padded = await sessionCipher.decryptPreKeyWhisperMessage(ciphertext);
try {
return this.unpad(padded);
} catch (e) {
if (e.message === 'Unknown identity key') {
// create an error that the UI will pick up and ask the
// user if they want to re-negotiate
const buffer = dcodeIO.ByteBuffer.wrap(ciphertext);
throw new textsecure.IncomingIdentityKeyError(
address.toString(),
buffer.toArrayBuffer(),
e.identityKey
);
}
throw e;
}
},
handleSentMessage(envelope, sentContainer) {
const {
destination,
timestamp,
message: msg,
expirationStartTimestamp,
unidentifiedStatus,
isRecipientUpdate,
} = sentContainer;
let p = Promise.resolve();
// eslint-disable-next-line no-bitwise
if (msg.flags & textsecure.protobuf.DataMessage.Flags.END_SESSION) {
p = this.handleEndSession(destination);
}
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return p.then(() =>
this.processDecrypted(envelope, msg).then(message => {
const groupId = message.group && message.group.id;
const isBlocked = this.isGroupBlocked(groupId);
const isMe = envelope.source === textsecure.storage.user.getNumber();
const isLeavingGroup = Boolean(
message.group &&
message.group.type === textsecure.protobuf.GroupContext.Type.QUIT
);
if (groupId && isBlocked && !(isMe && isLeavingGroup)) {
window.log.warn(
`Message ${this.getEnvelopeId(
envelope
)} ignored; destined for blocked group`
);
return this.removeFromCache(envelope);
}
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const ev = new Event('sent');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.data = {
destination,
timestamp: timestamp.toNumber(),
device: envelope.sourceDevice,
unidentifiedStatus,
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message,
isRecipientUpdate,
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};
if (expirationStartTimestamp) {
ev.data.expirationStartTimestamp = expirationStartTimestamp.toNumber();
}
return this.dispatchAndWait(ev);
})
);
},
handleDataMessage(envelope, msg) {
window.log.info('data message from', this.getEnvelopeId(envelope));
let p = Promise.resolve();
// eslint-disable-next-line no-bitwise
if (msg.flags & textsecure.protobuf.DataMessage.Flags.END_SESSION) {
p = this.handleEndSession(envelope.source);
}
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return p.then(() =>
this.processDecrypted(envelope, msg).then(message => {
const groupId = message.group && message.group.id;
const isBlocked = this.isGroupBlocked(groupId);
const isMe = envelope.source === textsecure.storage.user.getNumber();
const isLeavingGroup = Boolean(
message.group &&
message.group.type === textsecure.protobuf.GroupContext.Type.QUIT
);
if (groupId && isBlocked && !(isMe && isLeavingGroup)) {
window.log.warn(
`Message ${this.getEnvelopeId(
envelope
)} ignored; destined for blocked group`
);
return this.removeFromCache(envelope);
}
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const ev = new Event('message');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.data = {
source: envelope.source,
sourceDevice: envelope.sourceDevice,
timestamp: envelope.timestamp.toNumber(),
receivedAt: envelope.receivedAt,
unidentifiedDeliveryReceived: envelope.unidentifiedDeliveryReceived,
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message,
};
return this.dispatchAndWait(ev);
})
);
},
handleLegacyMessage(envelope) {
return this.decrypt(envelope, envelope.legacyMessage).then(plaintext => {
if (!plaintext) {
window.log.warn('handleLegacyMessage: plaintext was falsey');
return null;
}
return this.innerHandleLegacyMessage(envelope, plaintext);
});
},
innerHandleLegacyMessage(envelope, plaintext) {
const message = textsecure.protobuf.DataMessage.decode(plaintext);
return this.handleDataMessage(envelope, message);
},
handleContentMessage(envelope) {
return this.decrypt(envelope, envelope.content).then(plaintext => {
if (!plaintext) {
window.log.warn('handleContentMessage: plaintext was falsey');
return null;
}
return this.innerHandleContentMessage(envelope, plaintext);
});
},
innerHandleContentMessage(envelope, plaintext) {
const content = textsecure.protobuf.Content.decode(plaintext);
if (content.syncMessage) {
return this.handleSyncMessage(envelope, content.syncMessage);
} else if (content.dataMessage) {
return this.handleDataMessage(envelope, content.dataMessage);
} else if (content.nullMessage) {
return this.handleNullMessage(envelope, content.nullMessage);
} else if (content.callMessage) {
return this.handleCallMessage(envelope, content.callMessage);
} else if (content.receiptMessage) {
return this.handleReceiptMessage(envelope, content.receiptMessage);
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} else if (content.typingMessage) {
return this.handleTypingMessage(envelope, content.typingMessage);
}
this.removeFromCache(envelope);
throw new Error('Unsupported content message');
},
handleCallMessage(envelope) {
window.log.info('call message from', this.getEnvelopeId(envelope));
this.removeFromCache(envelope);
},
handleReceiptMessage(envelope, receiptMessage) {
const results = [];
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if (
receiptMessage.type === textsecure.protobuf.ReceiptMessage.Type.DELIVERY
) {
for (let i = 0; i < receiptMessage.timestamp.length; i += 1) {
const ev = new Event('delivery');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.deliveryReceipt = {
timestamp: receiptMessage.timestamp[i].toNumber(),
source: envelope.source,
sourceDevice: envelope.sourceDevice,
};
results.push(this.dispatchAndWait(ev));
}
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} else if (
receiptMessage.type === textsecure.protobuf.ReceiptMessage.Type.READ
) {
for (let i = 0; i < receiptMessage.timestamp.length; i += 1) {
const ev = new Event('read');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.timestamp = envelope.timestamp.toNumber();
ev.read = {
timestamp: receiptMessage.timestamp[i].toNumber(),
reader: envelope.source,
};
results.push(this.dispatchAndWait(ev));
}
}
return Promise.all(results);
},
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handleTypingMessage(envelope, typingMessage) {
const ev = new Event('typing');
this.removeFromCache(envelope);
if (envelope.timestamp && typingMessage.timestamp) {
const envelopeTimestamp = envelope.timestamp.toNumber();
const typingTimestamp = typingMessage.timestamp.toNumber();
if (typingTimestamp !== envelopeTimestamp) {
window.log.warn(
`Typing message envelope timestamp (${envelopeTimestamp}) did not match typing timestamp (${typingTimestamp})`
);
return null;
}
}
ev.sender = envelope.source;
ev.senderDevice = envelope.sourceDevice;
ev.typing = {
typingMessage,
timestamp: typingMessage.timestamp
? typingMessage.timestamp.toNumber()
: Date.now(),
groupId: typingMessage.groupId
? typingMessage.groupId.toString('binary')
: null,
started:
typingMessage.action ===
textsecure.protobuf.TypingMessage.Action.STARTED,
stopped:
typingMessage.action ===
textsecure.protobuf.TypingMessage.Action.STOPPED,
};
return this.dispatchEvent(ev);
},
handleNullMessage(envelope) {
window.log.info('null message from', this.getEnvelopeId(envelope));
this.removeFromCache(envelope);
},
handleSyncMessage(envelope, syncMessage) {
if (envelope.source !== this.number) {
throw new Error('Received sync message from another number');
}
// eslint-disable-next-line eqeqeq
if (envelope.sourceDevice == this.deviceId) {
throw new Error('Received sync message from our own device');
}
if (syncMessage.sent) {
const sentMessage = syncMessage.sent;
const to = sentMessage.message.group
? `group(${sentMessage.message.group.id.toBinary()})`
: sentMessage.destination;
window.log.info(
'sent message to',
to,
sentMessage.timestamp.toNumber(),
'from',
this.getEnvelopeId(envelope)
);
return this.handleSentMessage(envelope, sentMessage);
} else if (syncMessage.contacts) {
return this.handleContacts(envelope, syncMessage.contacts);
} else if (syncMessage.groups) {
return this.handleGroups(envelope, syncMessage.groups);
} else if (syncMessage.blocked) {
return this.handleBlocked(envelope, syncMessage.blocked);
} else if (syncMessage.request) {
window.log.info('Got SyncMessage Request');
return this.removeFromCache(envelope);
} else if (syncMessage.read && syncMessage.read.length) {
window.log.info('read messages from', this.getEnvelopeId(envelope));
return this.handleRead(envelope, syncMessage.read);
} else if (syncMessage.verified) {
return this.handleVerified(envelope, syncMessage.verified);
} else if (syncMessage.configuration) {
return this.handleConfiguration(envelope, syncMessage.configuration);
} else if (syncMessage.stickerPackOperation) {
return this.handleStickerPackOperation(
envelope,
syncMessage.stickerPackOperation
);
}
throw new Error('Got empty SyncMessage');
},
handleConfiguration(envelope, configuration) {
window.log.info('got configuration sync message');
const ev = new Event('configuration');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.configuration = configuration;
return this.dispatchAndWait(ev);
},
handleStickerPackOperation(envelope, operations) {
const ENUM = textsecure.protobuf.SyncMessage.StickerPackOperation.Type;
window.log.info('got sticker pack operation sync message');
const ev = new Event('sticker-pack');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.stickerPacks = operations.map(operation => ({
id: operation.packId ? operation.packId.toString('hex') : null,
key: operation.packKey ? operation.packKey.toString('base64') : null,
isInstall: operation.type === ENUM.INSTALL,
isRemove: operation.type === ENUM.REMOVE,
}));
return this.dispatchAndWait(ev);
},
handleVerified(envelope, verified) {
const ev = new Event('verified');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.verified = {
state: verified.state,
destination: verified.destination,
identityKey: verified.identityKey.toArrayBuffer(),
};
return this.dispatchAndWait(ev);
},
handleRead(envelope, read) {
const results = [];
for (let i = 0; i < read.length; i += 1) {
const ev = new Event('readSync');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.timestamp = envelope.timestamp.toNumber();
ev.read = {
timestamp: read[i].timestamp.toNumber(),
sender: read[i].sender,
};
results.push(this.dispatchAndWait(ev));
}
return Promise.all(results);
},
handleContacts(envelope, contacts) {
window.log.info('contact sync');
const { blob } = contacts;
// Note: we do not return here because we don't want to block the next message on
// this attachment download and a lot of processing of that attachment.
this.handleAttachment(blob).then(attachmentPointer => {
const results = [];
const contactBuffer = new ContactBuffer(attachmentPointer.data);
let contactDetails = contactBuffer.next();
while (contactDetails !== undefined) {
const ev = new Event('contact');
ev.contactDetails = contactDetails;
results.push(this.dispatchAndWait(ev));
contactDetails = contactBuffer.next();
}
const ev = new Event('contactsync');
results.push(this.dispatchAndWait(ev));
return Promise.all(results).then(() => {
window.log.info('handleContacts: finished');
return this.removeFromCache(envelope);
});
});
},
handleGroups(envelope, groups) {
window.log.info('group sync');
const { blob } = groups;
// Note: we do not return here because we don't want to block the next message on
// this attachment download and a lot of processing of that attachment.
this.handleAttachment(blob).then(attachmentPointer => {
const groupBuffer = new GroupBuffer(attachmentPointer.data);
let groupDetails = groupBuffer.next();
const promises = [];
while (groupDetails !== undefined) {
groupDetails.id = groupDetails.id.toBinary();
const ev = new Event('group');
ev.confirm = this.removeFromCache.bind(this, envelope);
ev.groupDetails = groupDetails;
const promise = this.dispatchAndWait(ev).catch(e => {
window.log.error('error processing group', e);
});
groupDetails = groupBuffer.next();
promises.push(promise);
}
Promise.all(promises).then(() => {
const ev = new Event('groupsync');
Feature: Blue check marks for read messages if opted in (#1489) * Refactor delivery receipt event handler * Rename the delivery receipt event For less ambiguity with read receipts. * Rename synced read event For less ambiguity with read receipts from other Signal users. * Add support for incoming receipt messages Handle ReceiptMessages, which may include encrypted delivery receipts or read receipts from recipients of our sent messages. // FREEBIE * Rename ReadReceipts to ReadSyncs * Render read messages with blue double checks * Send read receipts to senders of incoming messages // FREEBIE * Move ReadSyncs to their own file // FREEBIE * Fixup old comments on read receipts (now read syncs) And some variable renaming for extra clarity. // FREEBIE * Add global setting for read receipts Don't send read receipt messages unless the setting is enabled. Don't process read receipts if the setting is disabled. // FREEBIE * Sync read receipt setting from mobile Toggling this setting on your mobile device should sync it to Desktop. When linking, use the setting in the provisioning message. // FREEBIE * Send receipt messages silently Avoid generating phantom messages on ios // FREEBIE * Save recipients on the outgoing message models For accurate tracking and display of sent/delivered/read state, even if group membership changes later. // FREEBIE * Fix conversation type in profile key update handling // FREEBIE * Set recipients on synced sent messages * Render saved recipients in message detail if available For older messages, where we did not save the intended set of recipients at the time of sending, fall back to the current group membership. // FREEBIE * Record who has been successfully sent to // FREEBIE * Record who a message has been delivered to * Invert the not-clickable class * Fix readReceipt setting sync when linking * Render per recipient sent/delivered/read status In the message detail view for outgoing messages, render each recipient's individual sent/delivered/read status with respect to this message, as long as there are no errors associated with the recipient (ie, safety number changes, user not registered, etc...) since the error icon is displayed in that case. *Messages sent before this change may not have per-recipient status lists and will simply show no status icon. // FREEBIE * Add configuration sync request Send these requests in a one-off fashion when: 1. We have just setup from a chrome app import 2. We have just upgraded to read-receipt support // FREEBIE * Expose sendRequestConfigurationSyncMessage // FREEBIE * Fix handling of incoming delivery receipts - union with array FREEBIE
2017-10-04 22:28:43 +00:00
ev.confirm = this.removeFromCache.bind(this, envelope);
return this.dispatchAndWait(ev);
});
});
},
handleBlocked(envelope, blocked) {
window.log.info('Setting these numbers as blocked:', blocked.numbers);
textsecure.storage.put('blocked', blocked.numbers);
const groupIds = _.map(blocked.groupIds, groupId => groupId.toBinary());
window.log.info(
'Setting these groups as blocked:',
groupIds.map(groupId => `group(${groupId})`)
);
textsecure.storage.put('blocked-groups', groupIds);
return this.removeFromCache(envelope);
},
isBlocked(number) {
return textsecure.storage.get('blocked', []).indexOf(number) >= 0;
},
isGroupBlocked(groupId) {
return textsecure.storage.get('blocked-groups', []).indexOf(groupId) >= 0;
},
cleanAttachment(attachment) {
return {
..._.omit(attachment, 'thumbnail'),
id: attachment.id.toString(),
key: attachment.key ? attachment.key.toString('base64') : null,
digest: attachment.digest ? attachment.digest.toString('base64') : null,
};
},
async downloadAttachment(attachment) {
const encrypted = await this.server.getAttachment(attachment.id);
const { key, digest, size } = attachment;
if (!digest) {
throw new Error('Failure: Ask sender to update Signal and resend.');
}
const data = await textsecure.crypto.decryptAttachment(
encrypted,
window.Signal.Crypto.base64ToArrayBuffer(key),
window.Signal.Crypto.base64ToArrayBuffer(digest)
);
if (!size) {
throw new Error(
`downloadAttachment: Size was not provided, actual size was ${
data.byteLength
}`
);
}
const typedArray = window.Signal.Crypto.getFirstBytes(data, size);
return {
..._.omit(attachment, 'digest', 'key'),
data: window.Signal.Crypto.typedArrayToArrayBuffer(typedArray),
};
},
handleAttachment(attachment) {
const cleaned = this.cleanAttachment(attachment);
return this.downloadAttachment(cleaned);
},
async handleEndSession(number) {
window.log.info('got end session');
const deviceIds = await textsecure.storage.protocol.getDeviceIds(number);
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return Promise.all(
deviceIds.map(deviceId => {
const address = new libsignal.SignalProtocolAddress(number, deviceId);
const sessionCipher = new libsignal.SessionCipher(
textsecure.storage.protocol,
address
);
window.log.info('deleting sessions for', address.toString());
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return sessionCipher.deleteAllSessionsForDevice();
})
);
},
processDecrypted(envelope, decrypted) {
/* eslint-disable no-bitwise, no-param-reassign */
const FLAGS = textsecure.protobuf.DataMessage.Flags;
// Now that its decrypted, validate the message and clean it up for consumer
// processing
// Note that messages may (generally) only perform one action and we ignore remaining
// fields after the first action.
const TIMESTAMP_VALIDATION = false;
if (TIMESTAMP_VALIDATION && envelope.timestamp !== decrypted.timestamp) {
throw new Error(
`Timestamp ${
decrypted.timestamp
} in DataMessage did not match envelope timestamp ${envelope.timestamp}`
);
}
if (decrypted.flags == null) {
decrypted.flags = 0;
}
if (decrypted.expireTimer == null) {
decrypted.expireTimer = 0;
}
if (decrypted.flags & FLAGS.END_SESSION) {
decrypted.body = null;
decrypted.attachments = [];
decrypted.group = null;
return Promise.resolve(decrypted);
} else if (decrypted.flags & FLAGS.EXPIRATION_TIMER_UPDATE) {
decrypted.body = null;
decrypted.attachments = [];
} else if (decrypted.flags & FLAGS.PROFILE_KEY_UPDATE) {
decrypted.body = null;
decrypted.attachments = [];
} else if (decrypted.flags !== 0) {
throw new Error('Unknown flags in message');
}
const promises = [];
if (decrypted.group !== null) {
decrypted.group.id = decrypted.group.id.toBinary();
switch (decrypted.group.type) {
case textsecure.protobuf.GroupContext.Type.UPDATE:
decrypted.body = null;
decrypted.attachments = [];
break;
case textsecure.protobuf.GroupContext.Type.QUIT:
decrypted.body = null;
decrypted.attachments = [];
break;
case textsecure.protobuf.GroupContext.Type.DELIVER:
decrypted.group.name = null;
decrypted.group.members = [];
decrypted.group.avatar = null;
break;
default:
this.removeFromCache(envelope);
throw new Error('Unknown group message type');
}
}
const attachmentCount = decrypted.attachments.length;
const ATTACHMENT_MAX = 32;
if (attachmentCount > ATTACHMENT_MAX) {
throw new Error(
`Too many attachments: ${attachmentCount} included in one message, max is ${ATTACHMENT_MAX}`
);
}
// Here we go from binary to string/base64 in all AttachmentPointer digest/key fields
if (
decrypted.group &&
decrypted.group.type === textsecure.protobuf.GroupContext.Type.UPDATE
) {
if (decrypted.group.avatar !== null) {
decrypted.group.avatar = this.cleanAttachment(decrypted.group.avatar);
2019-01-16 03:03:56 +00:00
}
}
decrypted.attachments = (decrypted.attachments || []).map(
this.cleanAttachment.bind(this)
);
decrypted.preview = (decrypted.preview || []).map(item => {
const { image } = item;
if (!image) {
return item;
}
return {
...item,
image: this.cleanAttachment(image),
};
});
decrypted.contact = (decrypted.contact || []).map(item => {
const { avatar } = item;
if (!avatar || !avatar.avatar) {
return item;
}
return {
...item,
avatar: {
...item.avatar,
avatar: this.cleanAttachment(item.avatar.avatar),
},
};
});
if (decrypted.quote && decrypted.quote.id) {
decrypted.quote.id = decrypted.quote.id.toNumber();
}
if (decrypted.quote) {
decrypted.quote.attachments = (decrypted.quote.attachments || []).map(
item => {
const { thumbnail } = item;
if (!thumbnail) {
return item;
}
return {
...item,
thumbnail: this.cleanAttachment(item.thumbnail),
};
}
);
}
const { sticker } = decrypted;
if (sticker) {
if (sticker.packId) {
sticker.packId = sticker.packId.toString('hex');
}
if (sticker.packKey) {
sticker.packKey = sticker.packKey.toString('base64');
}
if (sticker.data) {
sticker.data = this.cleanAttachment(sticker.data);
}
}
return Promise.all(promises).then(() => decrypted);
/* eslint-enable no-bitwise, no-param-reassign */
},
});
window.textsecure = window.textsecure || {};
textsecure.MessageReceiver = function MessageReceiverWrapper(
username,
password,
signalingKey,
options
) {
const messageReceiver = new MessageReceiver(
username,
password,
signalingKey,
options
);
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this.addEventListener = messageReceiver.addEventListener.bind(
messageReceiver
);
this.removeEventListener = messageReceiver.removeEventListener.bind(
messageReceiver
);
this.getStatus = messageReceiver.getStatus.bind(messageReceiver);
this.close = messageReceiver.close.bind(messageReceiver);
this.downloadAttachment = messageReceiver.downloadAttachment.bind(
messageReceiver
);
this.stopProcessing = messageReceiver.stopProcessing.bind(messageReceiver);
messageReceiver.connect();
};
textsecure.MessageReceiver.prototype = {
constructor: textsecure.MessageReceiver,
};
textsecure.MessageReceiver.stringToArrayBuffer =
MessageReceiver.stringToArrayBuffer;
textsecure.MessageReceiver.arrayBufferToString =
MessageReceiver.arrayBufferToString;
textsecure.MessageReceiver.stringToArrayBufferBase64 =
MessageReceiver.stringToArrayBufferBase64;
textsecure.MessageReceiver.arrayBufferToStringBase64 =
MessageReceiver.arrayBufferToStringBase64;