1023ea1732
DRY up protobuf declarations and move to a slightly briefer naming convention. Also dropped some ArrayBuffer -> string conversions as ProtoBuf.js handles ArrayBuffers just fine, and in fact, more efficiently than strings. Finally, dropped the btoa() wrappers, because that incurs an extra string -> string conversion before the protobuf's internal string -> array buffer conversion. In lieu of btoa, we can simply pass in the optional string encoding argument to the protobuf's decode method, which in these cases should be 'binary'. Related: #17
983 lines
37 KiB
JavaScript
983 lines
37 KiB
JavaScript
/* vim: ts=4:sw=4
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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window.textsecure = window.textsecure || {};
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window.textsecure.crypto = function() {
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'use strict';
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var self = {};
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// functions exposed for replacement and direct calling in test code
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var testing_only = {};
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/******************************
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*** Random constants/utils ***
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******************************/
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// We consider messages lost after a week and might throw away keys at that point
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// (also the time between signedPreKey regenerations)
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var MESSAGE_LOST_THRESHOLD_MS = 1000*60*60*24*7;
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var getRandomBytes = function(size) {
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// At some point we might consider XORing in hashes of random
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// UI events to strengthen ourselves against RNG flaws in crypto.getRandomValues
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// ie maybe take a look at how Gibson does it at https://www.grc.com/r&d/js.htm
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var array = new Uint8Array(size);
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window.crypto.getRandomValues(array);
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return array.buffer;
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}
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self.getRandomBytes = getRandomBytes;
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function intToArrayBuffer(nInt) {
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var res = new ArrayBuffer(16);
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var thing = new Uint8Array(res);
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thing[0] = (nInt >> 24) & 0xff;
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thing[1] = (nInt >> 16) & 0xff;
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thing[2] = (nInt >> 8 ) & 0xff;
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thing[3] = (nInt >> 0 ) & 0xff;
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return res;
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}
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function objectContainsKeys(object) {
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var count = 0;
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for (var key in object) {
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count++;
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break;
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}
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return count != 0;
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}
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function HmacSHA256(key, input) {
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return window.crypto.subtle.sign({name: "HMAC", hash: "SHA-256"}, key, input);
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}
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testing_only.privToPub = function(privKey, isIdentity) {
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if (privKey.byteLength != 32)
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throw new Error("Invalid private key");
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var prependVersion = function(pubKey) {
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var origPub = new Uint8Array(pubKey);
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var pub = new ArrayBuffer(33);
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var pubWithPrefix = new Uint8Array(pub);
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pubWithPrefix.set(origPub, 1);
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pubWithPrefix[0] = 5;
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return pub;
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}
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if (textsecure.nacl.USE_NACL) {
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return textsecure.nacl.postNaclMessage({command: "bytesToPriv", priv: privKey}).then(function(message) {
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var priv = message.res.slice(0, 32);
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if (!isIdentity)
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new Uint8Array(priv)[0] |= 0x01;
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return textsecure.nacl.postNaclMessage({command: "privToPub", priv: priv}).then(function(message) {
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return { pubKey: prependVersion(message.res.slice(0, 32)), privKey: priv };
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});
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});
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} else {
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privKey = privKey.slice(0);
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var priv = new Uint16Array(privKey);
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priv[0] &= 0xFFF8;
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priv[15] = (priv[15] & 0x7FFF) | 0x4000;
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if (!isIdentity)
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priv[0] |= 0x0001;
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//TODO: fscking type conversion
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return Promise.resolve({ pubKey: prependVersion(toArrayBuffer(curve25519(priv))), privKey: privKey});
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}
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}
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var privToPub = function(privKey, isIdentity) { return testing_only.privToPub(privKey, isIdentity); }
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testing_only.createNewKeyPair = function(isIdentity) {
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return privToPub(getRandomBytes(32), isIdentity);
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}
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var createNewKeyPair = function(isIdentity) { return testing_only.createNewKeyPair(isIdentity); }
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/***************************
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*** Key/session storage ***
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***************************/
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var crypto_storage = {};
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crypto_storage.putKeyPair = function(keyName, keyPair) {
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textsecure.storage.putEncrypted("25519Key" + keyName, keyPair);
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}
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crypto_storage.getNewStoredKeyPair = function(keyName, isIdentity) {
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return createNewKeyPair(isIdentity).then(function(keyPair) {
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crypto_storage.putKeyPair(keyName, keyPair);
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return keyPair;
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});
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}
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crypto_storage.getStoredKeyPair = function(keyName) {
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var res = textsecure.storage.getEncrypted("25519Key" + keyName);
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if (res === undefined)
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return undefined;
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return { pubKey: toArrayBuffer(res.pubKey), privKey: toArrayBuffer(res.privKey) };
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}
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crypto_storage.removeStoredKeyPair = function(keyName) {
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textsecure.storage.removeEncrypted("25519Key" + keyName);
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}
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crypto_storage.getIdentityKey = function() {
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return this.getStoredKeyPair("identityKey");
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}
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crypto_storage.saveSession = function(encodedNumber, session, registrationId) {
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var device = textsecure.storage.devices.getDeviceObject(encodedNumber);
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if (device === undefined)
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device = { sessions: {}, encodedNumber: encodedNumber };
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if (registrationId !== undefined)
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device.registrationId = registrationId;
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crypto_storage.saveSessionAndDevice(device, session);
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}
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crypto_storage.saveSessionAndDevice = function(device, session) {
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if (device.sessions === undefined)
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device.sessions = {};
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var sessions = device.sessions;
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var doDeleteSession = false;
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if (session.indexInfo.closed == -1 || device.identityKey === undefined)
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device.identityKey = session.indexInfo.remoteIdentityKey;
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if (session.indexInfo.closed != -1) {
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doDeleteSession = (session.indexInfo.closed < (new Date().getTime() - MESSAGE_LOST_THRESHOLD_MS));
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if (!doDeleteSession) {
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var keysLeft = false;
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for (var key in session) {
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if (key != "indexInfo" && key != "oldRatchetList" && key != "currentRatchet") {
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keysLeft = true;
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break;
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}
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}
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doDeleteSession = !keysLeft;
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console.log((doDeleteSession ? "Deleting " : "Not deleting ") + "closed session which has not yet timed out");
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} else
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console.log("Deleting closed session due to timeout (created at " + session.indexInfo.closed + ")");
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}
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if (doDeleteSession)
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delete sessions[getString(session.indexInfo.baseKey)];
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else
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sessions[getString(session.indexInfo.baseKey)] = session;
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var openSessionRemaining = false;
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for (var key in sessions)
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if (sessions[key].indexInfo.closed == -1)
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openSessionRemaining = true;
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if (!openSessionRemaining)
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try {
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delete device['registrationId'];
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} catch(_) {}
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textsecure.storage.devices.saveDeviceObject(device);
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}
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var getSessions = function(encodedNumber) {
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var device = textsecure.storage.devices.getDeviceObject(encodedNumber);
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if (device === undefined || device.sessions === undefined)
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return undefined;
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return device.sessions;
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}
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crypto_storage.getOpenSession = function(encodedNumber) {
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var sessions = getSessions(encodedNumber);
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if (sessions === undefined)
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return undefined;
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for (var key in sessions)
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if (sessions[key].indexInfo.closed == -1)
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return sessions[key];
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return undefined;
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}
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crypto_storage.getSessionByRemoteEphemeralKey = function(encodedNumber, remoteEphemeralKey) {
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var sessions = getSessions(encodedNumber);
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if (sessions === undefined)
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return undefined;
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var searchKey = getString(remoteEphemeralKey);
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var openSession = undefined;
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for (var key in sessions) {
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if (sessions[key].indexInfo.closed == -1) {
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if (openSession !== undefined)
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throw new Error("Datastore inconsistensy: multiple open sessions for " + encodedNumber);
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openSession = sessions[key];
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}
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if (sessions[key][searchKey] !== undefined)
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return sessions[key];
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}
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if (openSession !== undefined)
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return openSession;
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return undefined;
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}
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crypto_storage.getSessionOrIdentityKeyByBaseKey = function(encodedNumber, baseKey) {
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var sessions = getSessions(encodedNumber);
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var device = textsecure.storage.devices.getDeviceObject(encodedNumber);
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if (device === undefined)
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return undefined;
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var preferredSession = device.sessions && device.sessions[getString(baseKey)];
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if (preferredSession !== undefined)
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return preferredSession;
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if (device.identityKey !== undefined)
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return { indexInfo: { remoteIdentityKey: device.identityKey } };
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throw new Error("Datastore inconsistency: device was stored without identity key");
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}
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/*****************************
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*** Internal Crypto stuff ***
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*****************************/
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var validatePubKeyFormat = function(pubKey, needVersionByte) {
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if (pubKey === undefined || ((pubKey.byteLength != 33 || new Uint8Array(pubKey)[0] != 5) && pubKey.byteLength != 32))
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throw new Error("Invalid public key");
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if (pubKey.byteLength == 33) {
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if (!needVersionByte)
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return pubKey.slice(1);
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else
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return pubKey;
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} else {
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console.error("WARNING: Expected pubkey of length 33, please report the ST and client that generated the pubkey");
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if (!needVersionByte)
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return pubKey;
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var res = new Uint8Array(33);
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res[0] = 5;
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res.set(new Uint8Array(pubKey), 1);
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return res.buffer;
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}
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}
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testing_only.ECDHE = function(pubKey, privKey) {
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if (privKey === undefined || privKey.byteLength != 32)
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throw new Error("Invalid private key");
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pubKey = validatePubKeyFormat(pubKey, false);
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return new Promise(function(resolve) {
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if (textsecure.nacl.USE_NACL) {
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textsecure.nacl.postNaclMessage({command: "ECDHE", priv: privKey, pub: pubKey}).then(function(message) {
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resolve(message.res.slice(0, 32));
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});
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} else {
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resolve(toArrayBuffer(curve25519(new Uint16Array(privKey), new Uint16Array(pubKey))));
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}
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});
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}
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var ECDHE = function(pubKey, privKey) { return testing_only.ECDHE(pubKey, privKey); }
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testing_only.Ed25519Sign = function(privKey, message) {
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if (privKey === undefined || privKey.byteLength != 32)
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throw new Error("Invalid private key");
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if (message === undefined)
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throw new Error("Invalid message");
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if (textsecure.nacl.USE_NACL) {
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return textsecure.nacl.postNaclMessage({command: "Ed25519Sign", priv: privKey, msg: message}).then(function(message) {
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return message.res;
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});
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} else {
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throw new Error("Ed25519 in JS not yet supported");
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}
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}
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var Ed25519Sign = function(privKey, pubKeyToSign) {
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pubKeyToSign = validatePubKeyFormat(pubKeyToSign, true);
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return testing_only.Ed25519Sign(privKey, pubKeyToSign);
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}
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testing_only.Ed25519Verify = function(pubKey, msg, sig) {
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pubKey = validatePubKeyFormat(pubKey, false);
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if (msg === undefined)
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throw new Error("Invalid message");
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if (sig === undefined || sig.byteLength != 64)
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throw new Error("Invalid signature");
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if (textsecure.nacl.USE_NACL) {
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return textsecure.nacl.postNaclMessage({command: "Ed25519Verify", pub: pubKey, msg: msg, sig: sig}).then(function(message) {
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if (!message.res)
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throw new Error("Invalid signature");
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});
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} else {
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throw new Error("Ed25519 in JS not yet supported");
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}
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}
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var Ed25519Verify = function(pubKey, signedPubKey, sig) {
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signedPubKey = validatePubKeyFormat(signedPubKey, true);
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return testing_only.Ed25519Verify(pubKey, signedPubKey, sig);
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}
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testing_only.HKDF = function(input, salt, info) {
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// Specific implementation of RFC 5869 that only returns exactly 64 bytes
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return HmacSHA256(salt, input).then(function(PRK) {
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var infoBuffer = new ArrayBuffer(info.byteLength + 1 + 32);
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var infoArray = new Uint8Array(infoBuffer);
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infoArray.set(new Uint8Array(info), 32);
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infoArray[infoArray.length - 1] = 1;
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// TextSecure implements a slightly tweaked version of RFC 5869: the 0 and 1 should be 1 and 2 here
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return HmacSHA256(PRK, infoBuffer.slice(32)).then(function(T1) {
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infoArray.set(new Uint8Array(T1));
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infoArray[infoArray.length - 1] = 2;
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return HmacSHA256(PRK, infoBuffer).then(function(T2) {
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return [ T1, T2 ];
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});
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});
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});
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}
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var HKDF = function(input, salt, info) {
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// HKDF for TextSecure has a bit of additional handling - salts always end up being 32 bytes
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if (salt == '')
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salt = new ArrayBuffer(32);
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if (salt.byteLength != 32)
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throw new Error("Got salt of incorrect length");
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info = toArrayBuffer(info); // TODO: maybe convert calls?
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return testing_only.HKDF(input, salt, info);
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}
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var calculateMACWithVersionByte = function(data, key, version) {
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if (version === undefined)
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version = 1;
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var prependedData = new Uint8Array(data.byteLength + 1);
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prependedData[0] = version;
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prependedData.set(new Uint8Array(data), 1);
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return HmacSHA256(key, prependedData.buffer);
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}
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var verifyMACWithVersionByte = function(data, key, mac, version) {
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return calculateMACWithVersionByte(data, key, version).then(function(calculated_mac) {
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if (!isEqual(calculated_mac, mac, true))
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throw new Error("Bad MAC");
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});
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}
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var verifyMAC = function(data, key, mac) {
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return HmacSHA256(key, data).then(function(calculated_mac) {
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if (!isEqual(calculated_mac, mac, true))
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throw new Error("Bad MAC");
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});
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}
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/******************************
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*** Ratchet implementation ***
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******************************/
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var calculateRatchet = function(session, remoteKey, sending) {
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var ratchet = session.currentRatchet;
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return ECDHE(remoteKey, toArrayBuffer(ratchet.ephemeralKeyPair.privKey)).then(function(sharedSecret) {
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return HKDF(sharedSecret, toArrayBuffer(ratchet.rootKey), "WhisperRatchet").then(function(masterKey) {
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if (sending)
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session[getString(ratchet.ephemeralKeyPair.pubKey)] = { messageKeys: {}, chainKey: { counter: -1, key: masterKey[1] } };
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else
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session[getString(remoteKey)] = { messageKeys: {}, chainKey: { counter: -1, key: masterKey[1] } };
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ratchet.rootKey = masterKey[0];
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});
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});
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}
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var initSession = function(isInitiator, ourEphemeralKey, ourSignedKey, encodedNumber, theirIdentityPubKey, theirEphemeralPubKey, theirSignedPubKey) {
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var ourIdentityKey = crypto_storage.getIdentityKey();
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if (isInitiator) {
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if (ourSignedKey !== undefined)
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throw new Error("Invalid call to initSession");
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ourSignedKey = ourEphemeralKey;
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} else {
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if (theirSignedPubKey !== undefined)
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throw new Error("Invalid call to initSession");
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theirSignedPubKey = theirEphemeralPubKey;
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}
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var sharedSecret;
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if (ourEphemeralKey === undefined || theirEphemeralPubKey === undefined)
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sharedSecret = new Uint8Array(32 * 4);
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else
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sharedSecret = new Uint8Array(32 * 5);
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for (var i = 0; i < 32; i++)
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sharedSecret[i] = 0xff;
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return ECDHE(theirSignedPubKey, ourIdentityKey.privKey).then(function(ecRes1) {
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function finishInit() {
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return ECDHE(theirSignedPubKey, ourSignedKey.privKey).then(function(ecRes) {
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sharedSecret.set(new Uint8Array(ecRes), 32 * 3);
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return HKDF(sharedSecret.buffer, '', "WhisperText").then(function(masterKey) {
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var session = {currentRatchet: { rootKey: masterKey[0], lastRemoteEphemeralKey: theirSignedPubKey },
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indexInfo: { remoteIdentityKey: theirIdentityPubKey, closed: -1 },
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oldRatchetList: []
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};
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if (!isInitiator)
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session.indexInfo.baseKey = theirEphemeralPubKey;
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else
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session.indexInfo.baseKey = ourEphemeralKey.pubKey;
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// If we're initiating we go ahead and set our first sending ephemeral key now,
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// otherwise we figure it out when we first maybeStepRatchet with the remote's ephemeral key
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if (isInitiator) {
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return createNewKeyPair(false).then(function(ourSendingEphemeralKey) {
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session.currentRatchet.ephemeralKeyPair = ourSendingEphemeralKey;
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return calculateRatchet(session, theirSignedPubKey, true).then(function() {
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return session;
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});
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});
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} else {
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session.currentRatchet.ephemeralKeyPair = ourSignedKey;
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return session;
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}
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});
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});
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}
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var promise;
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if (ourEphemeralKey === undefined || theirEphemeralPubKey === undefined)
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promise = Promise.resolve(new ArrayBuffer(0));
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else
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promise = ECDHE(theirEphemeralPubKey, ourEphemeralKey.privKey);
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return promise.then(function(ecRes4) {
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sharedSecret.set(new Uint8Array(ecRes4), 32 * 4);
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if (isInitiator)
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return ECDHE(theirIdentityPubKey, ourSignedKey.privKey).then(function(ecRes2) {
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sharedSecret.set(new Uint8Array(ecRes1), 32);
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sharedSecret.set(new Uint8Array(ecRes2), 32 * 2);
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}).then(finishInit);
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else
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return ECDHE(theirIdentityPubKey, ourSignedKey.privKey).then(function(ecRes2) {
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sharedSecret.set(new Uint8Array(ecRes1), 32 * 2);
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sharedSecret.set(new Uint8Array(ecRes2), 32)
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}).then(finishInit);
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});
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});
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}
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var removeOldChains = function(session) {
|
|
// Sending ratchets are always removed when we step because we never need them again
|
|
// Receiving ratchets are either removed if we step with all keys used up to previousCounter
|
|
// and are otherwise added to the oldRatchetList, which we parse here and remove ratchets
|
|
// older than a week (we assume the message was lost and move on with our lives at that point)
|
|
var newList = [];
|
|
for (var i = 0; i < session.oldRatchetList.length; i++) {
|
|
var entry = session.oldRatchetList[i];
|
|
var ratchet = getString(entry.ephemeralKey);
|
|
console.log("Checking old chain with added time " + (entry.added/1000));
|
|
if ((!objectContainsKeys(session[ratchet].messageKeys) && (session[ratchet].chainKey === undefined || session[ratchet].chainKey.key === undefined))
|
|
|| entry.added < new Date().getTime() - MESSAGE_LOST_THRESHOLD_MS) {
|
|
delete session[ratchet];
|
|
console.log("...deleted");
|
|
} else
|
|
newList[newList.length] = entry;
|
|
}
|
|
session.oldRatchetList = newList;
|
|
}
|
|
|
|
var closeSession = function(session, sessionClosedByRemote) {
|
|
if (session.indexInfo.closed > -1)
|
|
return;
|
|
|
|
// After this has run, we can still receive messages on ratchet chains which
|
|
// were already open (unless we know we dont need them),
|
|
// but we cannot send messages or step the ratchet
|
|
|
|
// Delete current sending ratchet
|
|
delete session[getString(session.currentRatchet.ephemeralKeyPair.pubKey)];
|
|
// Move all receive ratchets to the oldRatchetList to mark them for deletion
|
|
for (var i in session) {
|
|
if (session[i].chainKey !== undefined && session[i].chainKey.key !== undefined) {
|
|
if (!sessionClosedByRemote)
|
|
session.oldRatchetList[session.oldRatchetList.length] = { added: new Date().getTime(), ephemeralKey: i };
|
|
else
|
|
delete session[i].chainKey.key;
|
|
}
|
|
}
|
|
// Delete current root key and our ephemeral key pair to disallow ratchet stepping
|
|
delete session.currentRatchet['rootKey'];
|
|
delete session.currentRatchet['ephemeralKeyPair'];
|
|
session.indexInfo.closed = new Date().getTime();
|
|
removeOldChains(session);
|
|
}
|
|
|
|
self.closeOpenSessionForDevice = function(encodedNumber) {
|
|
var session = crypto_storage.getOpenSession(encodedNumber);
|
|
if (session === undefined)
|
|
return;
|
|
|
|
closeSession(session);
|
|
crypto_storage.saveSession(encodedNumber, session);
|
|
}
|
|
|
|
var initSessionFromPreKeyWhisperMessage;
|
|
var decryptWhisperMessage;
|
|
var handlePreKeyWhisperMessage = function(from, encodedMessage) {
|
|
var preKeyProto = textsecure.protobuf.PreKeyWhisperMessage.decode(encodedMessage, 'binary');
|
|
return initSessionFromPreKeyWhisperMessage(from, preKeyProto).then(function(sessions) {
|
|
return decryptWhisperMessage(from, getString(preKeyProto.message), sessions[0], preKeyProto.registrationId).then(function(result) {
|
|
if (sessions[1] !== undefined)
|
|
sessions[1]();
|
|
return result;
|
|
});
|
|
});
|
|
}
|
|
|
|
var wipeIdentityAndTryMessageAgain = function(from, encodedMessage) {
|
|
//TODO: Wipe identity key!
|
|
return handlePreKeyWhisperMessage(from, encodedMessage);
|
|
}
|
|
textsecure.replay.registerReplayFunction(wipeIdentityAndTryMessageAgain, textsecure.replay.REPLAY_FUNCS.INIT_SESSION);
|
|
|
|
initSessionFromPreKeyWhisperMessage = function(encodedNumber, message) {
|
|
var preKeyPair = crypto_storage.getStoredKeyPair("preKey" + message.preKeyId);
|
|
var signedPreKeyPair = crypto_storage.getStoredKeyPair("signedKey" + message.signedPreKeyId);
|
|
|
|
var session = crypto_storage.getSessionOrIdentityKeyByBaseKey(encodedNumber, toArrayBuffer(message.baseKey));
|
|
var open_session = crypto_storage.getOpenSession(encodedNumber);
|
|
if (signedPreKeyPair === undefined) {
|
|
// Session may or may not be the right one, but if its not, we can't do anything about it
|
|
// ...fall through and let decryptWhisperMessage handle that case
|
|
if (session !== undefined && session.currentRatchet !== undefined)
|
|
return Promise.resolve([session, undefined]);
|
|
else
|
|
throw new Error("Missing Signed PreKey for PreKeyWhisperMessage");
|
|
}
|
|
if (session !== undefined) {
|
|
// Duplicate PreKeyMessage for session:
|
|
if (isEqual(session.indexInfo.baseKey, message.baseKey, false))
|
|
return Promise.resolve([session, undefined]);
|
|
|
|
// We already had a session/known identity key:
|
|
if (isEqual(session.indexInfo.remoteIdentityKey, message.identityKey, false)) {
|
|
// If the identity key matches the previous one, close the previous one and use the new one
|
|
if (open_session !== undefined)
|
|
closeSession(open_session); // To be returned and saved later
|
|
} else {
|
|
// ...otherwise create an error that the UI will pick up and ask the user if they want to re-negotiate
|
|
throw new Error("Received message with unknown identity key", "The identity of the sender has changed. This may be malicious, or the sender may have simply reinstalled TextSecure.", textsecure.replay.REPLAY_FUNCS.INIT_SESSION, [encodedNumber, getString(message.encode())]);
|
|
}
|
|
}
|
|
return initSession(false, preKeyPair, signedPreKeyPair, encodedNumber, toArrayBuffer(message.identityKey), toArrayBuffer(message.baseKey), undefined)
|
|
.then(function(new_session) {
|
|
// Note that the session is not actually saved until the very end of decryptWhisperMessage
|
|
// ... to ensure that the sender actually holds the private keys for all reported pubkeys
|
|
return [new_session, function() {
|
|
if (open_session !== undefined)
|
|
crypto_storage.saveSession(encodedNumber, open_session);
|
|
crypto_storage.removeStoredKeyPair("preKey" + message.preKeyId);
|
|
}];
|
|
});;
|
|
}
|
|
|
|
var fillMessageKeys = function(chain, counter) {
|
|
if (chain.chainKey.counter + 1000 < counter) //TODO: maybe 1000 is too low/high in some cases?
|
|
return Promise.resolve(); // Stalker, much?
|
|
|
|
if (chain.chainKey.counter >= counter)
|
|
return Promise.resolve(); // Already calculated
|
|
|
|
if (chain.chainKey.key === undefined)
|
|
throw new Error("Got invalid request to extend chain after it was already closed");
|
|
|
|
var key = toArrayBuffer(chain.chainKey.key);
|
|
var byteArray = new Uint8Array(1);
|
|
byteArray[0] = 1;
|
|
return HmacSHA256(key, byteArray.buffer).then(function(mac) {
|
|
byteArray[0] = 2;
|
|
return HmacSHA256(key, byteArray.buffer).then(function(key) {
|
|
chain.messageKeys[chain.chainKey.counter + 1] = mac;
|
|
chain.chainKey.key = key
|
|
chain.chainKey.counter += 1;
|
|
return fillMessageKeys(chain, counter);
|
|
});
|
|
});
|
|
}
|
|
|
|
var maybeStepRatchet = function(session, remoteKey, previousCounter) {
|
|
if (session[getString(remoteKey)] !== undefined)
|
|
return Promise.resolve();
|
|
|
|
var ratchet = session.currentRatchet;
|
|
|
|
var finish = function() {
|
|
return calculateRatchet(session, remoteKey, false).then(function() {
|
|
// Now swap the ephemeral key and calculate the new sending chain
|
|
var previousRatchet = getString(ratchet.ephemeralKeyPair.pubKey);
|
|
if (session[previousRatchet] !== undefined) {
|
|
ratchet.previousCounter = session[previousRatchet].chainKey.counter;
|
|
delete session[previousRatchet];
|
|
}
|
|
|
|
return createNewKeyPair(false).then(function(keyPair) {
|
|
ratchet.ephemeralKeyPair = keyPair;
|
|
return calculateRatchet(session, remoteKey, true).then(function() {
|
|
ratchet.lastRemoteEphemeralKey = remoteKey;
|
|
});
|
|
});
|
|
});
|
|
}
|
|
|
|
var previousRatchet = session[getString(ratchet.lastRemoteEphemeralKey)];
|
|
if (previousRatchet !== undefined) {
|
|
return fillMessageKeys(previousRatchet, previousCounter).then(function() {
|
|
delete previousRatchet.chainKey.key;
|
|
if (!objectContainsKeys(previousRatchet.messageKeys))
|
|
delete session[getString(ratchet.lastRemoteEphemeralKey)];
|
|
else
|
|
session.oldRatchetList[session.oldRatchetList.length] = { added: new Date().getTime(), ephemeralKey: ratchet.lastRemoteEphemeralKey };
|
|
}).then(finish);
|
|
} else
|
|
return finish();
|
|
}
|
|
|
|
// returns decrypted protobuf
|
|
decryptWhisperMessage = function(encodedNumber, messageBytes, session, registrationId) {
|
|
if (messageBytes[0] != String.fromCharCode((3 << 4) | 3))
|
|
throw new Error("Bad version number on WhisperMessage");
|
|
|
|
var messageProto = messageBytes.substring(1, messageBytes.length - 8);
|
|
var mac = messageBytes.substring(messageBytes.length - 8, messageBytes.length);
|
|
|
|
var message = textsecure.protobuf.WhisperMessage.decode(messageProto, 'binary');
|
|
var remoteEphemeralKey = toArrayBuffer(message.ephemeralKey);
|
|
|
|
if (session === undefined) {
|
|
var session = crypto_storage.getSessionByRemoteEphemeralKey(encodedNumber, remoteEphemeralKey);
|
|
if (session === undefined)
|
|
throw new Error("No session found to decrypt message from " + encodedNumber);
|
|
}
|
|
|
|
return maybeStepRatchet(session, remoteEphemeralKey, message.previousCounter).then(function() {
|
|
var chain = session[getString(message.ephemeralKey)];
|
|
|
|
return fillMessageKeys(chain, message.counter).then(function() {
|
|
return HKDF(toArrayBuffer(chain.messageKeys[message.counter]), '', "WhisperMessageKeys").then(function(keys) {
|
|
delete chain.messageKeys[message.counter];
|
|
|
|
var messageProtoArray = toArrayBuffer(messageProto);
|
|
var macInput = new Uint8Array(messageProtoArray.byteLength + 33*2 + 1);
|
|
macInput.set(new Uint8Array(toArrayBuffer(session.indexInfo.remoteIdentityKey)));
|
|
macInput.set(new Uint8Array(toArrayBuffer(crypto_storage.getIdentityKey().pubKey)), 33);
|
|
macInput[33*2] = (3 << 4) | 3;
|
|
macInput.set(new Uint8Array(messageProtoArray), 33*2 + 1);
|
|
|
|
return verifyMAC(macInput.buffer, keys[1], mac).then(function() {
|
|
var counter = intToArrayBuffer(message.counter);
|
|
return window.crypto.subtle.decrypt({name: "AES-CTR", counter: counter}, keys[0], toArrayBuffer(message.ciphertext))
|
|
.then(function(paddedPlaintext) {
|
|
|
|
paddedPlaintext = new Uint8Array(paddedPlaintext);
|
|
var plaintext;
|
|
for (var i = paddedPlaintext.length - 1; i >= 0; i--) {
|
|
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');
|
|
}
|
|
|
|
delete session['pendingPreKey'];
|
|
|
|
var finalMessage = textsecure.protobuf.PushMessageContent.decode(plaintext);
|
|
|
|
if ((finalMessage.flags & textsecure.protobuf.PushMessageContent.Flags.END_SESSION)
|
|
== textsecure.protobuf.PushMessageContent.Flags.END_SESSION)
|
|
closeSession(session, true);
|
|
|
|
removeOldChains(session);
|
|
|
|
crypto_storage.saveSession(encodedNumber, session, registrationId);
|
|
return finalMessage;
|
|
});
|
|
});
|
|
});
|
|
});
|
|
});
|
|
}
|
|
|
|
/*************************
|
|
*** Public crypto API ***
|
|
*************************/
|
|
// Decrypts message into a raw string
|
|
self.decryptWebsocketMessage = function(message) {
|
|
var signaling_key = textsecure.storage.getEncrypted("signaling_key"); //TODO: in crypto_storage
|
|
var aes_key = toArrayBuffer(signaling_key.substring(0, 32));
|
|
var mac_key = toArrayBuffer(signaling_key.substring(32, 32 + 20));
|
|
|
|
var decodedMessage = base64DecToArr(getString(message));
|
|
if (new Uint8Array(decodedMessage)[0] != 1)
|
|
throw new Error("Got bad version number: " + decodedMessage[0]);
|
|
|
|
var iv = decodedMessage.slice(1, 1 + 16);
|
|
var ciphertext = decodedMessage.slice(1 + 16, decodedMessage.byteLength - 10);
|
|
var ivAndCiphertext = decodedMessage.slice(0, decodedMessage.byteLength - 10);
|
|
var mac = decodedMessage.slice(decodedMessage.byteLength - 10, decodedMessage.byteLength);
|
|
|
|
return verifyMAC(ivAndCiphertext, mac_key, mac).then(function() {
|
|
return window.crypto.subtle.decrypt({name: "AES-CBC", iv: iv}, aes_key, ciphertext);
|
|
});
|
|
};
|
|
|
|
self.decryptAttachment = function(encryptedBin, keys) {
|
|
var aes_key = keys.slice(0, 32);
|
|
var mac_key = keys.slice(32, 64);
|
|
|
|
var iv = encryptedBin.slice(0, 16);
|
|
var ciphertext = encryptedBin.slice(16, encryptedBin.byteLength - 32);
|
|
var ivAndCiphertext = encryptedBin.slice(0, encryptedBin.byteLength - 32);
|
|
var mac = encryptedBin.slice(encryptedBin.byteLength - 32, encryptedBin.byteLength);
|
|
|
|
return verifyMAC(ivAndCiphertext, mac_key, mac).then(function() {
|
|
return window.crypto.subtle.decrypt({name: "AES-CBC", iv: iv}, aes_key, ciphertext);
|
|
});
|
|
};
|
|
|
|
self.encryptAttachment = function(plaintext, keys, iv) {
|
|
var aes_key = keys.slice(0, 32);
|
|
var mac_key = keys.slice(32, 64);
|
|
|
|
return window.crypto.subtle.encrypt({name: "AES-CBC", iv: iv}, aes_key, plaintext).then(function(ciphertext) {
|
|
var ivAndCiphertext = new Uint8Array(16 + ciphertext.byteLength);
|
|
ivAndCiphertext.set(iv);
|
|
ivAndCiphertext.set(ciphertext, 16);
|
|
|
|
return HmacSHA256(mac_key, ivAndCiphertext.buffer).then(function(mac) {
|
|
var encryptedBin = new Uint8Array(16 + ciphertext.byteLength + 32);
|
|
encryptedBin.set(ivAndCiphertext.buffer);
|
|
encryptedBin.set(mac, 16 + ciphertext.byteLength);
|
|
return encryptedBin.buffer;
|
|
});
|
|
});
|
|
};
|
|
|
|
self.handleIncomingPushMessageProto = function(proto) {
|
|
switch(proto.type) {
|
|
case textsecure.protobuf.IncomingPushMessageSignal.Type.PLAINTEXT:
|
|
return Promise.resolve(textsecure.protobuf.PushMessageContent.decode(proto.message));
|
|
case textsecure.protobuf.IncomingPushMessageSignal.Type.CIPHERTEXT:
|
|
var from = proto.source + "." + (proto.sourceDevice == null ? 0 : proto.sourceDevice);
|
|
return decryptWhisperMessage(from, getString(proto.message));
|
|
case textsecure.protobuf.IncomingPushMessageSignal.Type.PREKEY_BUNDLE:
|
|
if (proto.message.readUint8() != ((3 << 4) | 3))
|
|
throw new Error("Bad version byte");
|
|
var from = proto.source + "." + (proto.sourceDevice == null ? 0 : proto.sourceDevice);
|
|
return handlePreKeyWhisperMessage(from, getString(proto.message));
|
|
case textsecure.protobuf.IncomingPushMessageSignal.Type.RECEIPT:
|
|
return Promise.resolve(null);
|
|
default:
|
|
return new Promise(function(resolve, reject) { reject(new Error("Unknown message type")); });
|
|
}
|
|
}
|
|
|
|
// return Promise(encoded [PreKey]WhisperMessage)
|
|
self.encryptMessageFor = function(deviceObject, pushMessageContent) {
|
|
var session = crypto_storage.getOpenSession(deviceObject.encodedNumber);
|
|
|
|
var doEncryptPushMessageContent = function() {
|
|
var msg = new textsecure.protobuf.WhisperMessage();
|
|
var plaintext = toArrayBuffer(pushMessageContent.encode());
|
|
|
|
var paddedPlaintext = new Uint8Array(Math.ceil((plaintext.byteLength + 1) / 160.0) * 160);
|
|
paddedPlaintext.set(new Uint8Array(plaintext));
|
|
paddedPlaintext[plaintext.byteLength] = 0x80;
|
|
|
|
msg.ephemeralKey = toArrayBuffer(session.currentRatchet.ephemeralKeyPair.pubKey);
|
|
var chain = session[getString(msg.ephemeralKey)];
|
|
|
|
return fillMessageKeys(chain, chain.chainKey.counter + 1).then(function() {
|
|
return HKDF(toArrayBuffer(chain.messageKeys[chain.chainKey.counter]), '', "WhisperMessageKeys").then(function(keys) {
|
|
delete chain.messageKeys[chain.chainKey.counter];
|
|
msg.counter = chain.chainKey.counter;
|
|
msg.previousCounter = session.currentRatchet.previousCounter;
|
|
|
|
var counter = intToArrayBuffer(chain.chainKey.counter);
|
|
return window.crypto.subtle.encrypt({name: "AES-CTR", counter: counter}, keys[0], paddedPlaintext.buffer).then(function(ciphertext) {
|
|
msg.ciphertext = ciphertext;
|
|
var encodedMsg = toArrayBuffer(msg.encode());
|
|
|
|
var macInput = new Uint8Array(encodedMsg.byteLength + 33*2 + 1);
|
|
macInput.set(new Uint8Array(toArrayBuffer(crypto_storage.getIdentityKey().pubKey)));
|
|
macInput.set(new Uint8Array(toArrayBuffer(session.indexInfo.remoteIdentityKey)), 33);
|
|
macInput[33*2] = (3 << 4) | 3;
|
|
macInput.set(new Uint8Array(encodedMsg), 33*2 + 1);
|
|
|
|
return HmacSHA256(keys[1], macInput.buffer).then(function(mac) {
|
|
var result = new Uint8Array(encodedMsg.byteLength + 9);
|
|
result[0] = (3 << 4) | 3;
|
|
result.set(new Uint8Array(encodedMsg), 1);
|
|
result.set(new Uint8Array(mac, 0, 8), encodedMsg.byteLength + 1);
|
|
|
|
try {
|
|
delete deviceObject['signedKey'];
|
|
delete deviceObject['signedKeyId'];
|
|
delete deviceObject['preKey'];
|
|
delete deviceObject['preKeyId'];
|
|
} catch(_) {}
|
|
|
|
removeOldChains(session);
|
|
|
|
crypto_storage.saveSessionAndDevice(deviceObject, session);
|
|
return result;
|
|
});
|
|
});
|
|
});
|
|
});
|
|
}
|
|
|
|
var preKeyMsg = new textsecure.protobuf.PreKeyWhisperMessage();
|
|
preKeyMsg.identityKey = toArrayBuffer(crypto_storage.getIdentityKey().pubKey);
|
|
preKeyMsg.registrationId = textsecure.storage.getUnencrypted("registrationId");
|
|
|
|
if (session === undefined) {
|
|
return createNewKeyPair(false).then(function(baseKey) {
|
|
preKeyMsg.preKeyId = deviceObject.preKeyId;
|
|
preKeyMsg.signedPreKeyId = deviceObject.signedKeyId;
|
|
preKeyMsg.baseKey = toArrayBuffer(baseKey.pubKey);
|
|
return initSession(true, baseKey, undefined, deviceObject.encodedNumber,
|
|
toArrayBuffer(deviceObject.identityKey), toArrayBuffer(deviceObject.preKey), toArrayBuffer(deviceObject.signedKey))
|
|
.then(function(new_session) {
|
|
session = new_session;
|
|
session.pendingPreKey = { preKeyId: deviceObject.preKeyId, signedKeyId: deviceObject.signedKeyId, baseKey: baseKey.pubKey };
|
|
return doEncryptPushMessageContent().then(function(message) {
|
|
preKeyMsg.message = message;
|
|
var result = String.fromCharCode((3 << 4) | 3) + getString(preKeyMsg.encode());
|
|
return {type: 3, body: result};
|
|
});
|
|
});
|
|
});
|
|
} else
|
|
return doEncryptPushMessageContent().then(function(message) {
|
|
if (session.pendingPreKey !== undefined) {
|
|
preKeyMsg.baseKey = toArrayBuffer(session.pendingPreKey.baseKey);
|
|
preKeyMsg.preKeyId = session.pendingPreKey.preKeyId;
|
|
preKeyMsg.signedPreKeyId = session.pendingPreKey.signedKeyId;
|
|
preKeyMsg.message = message;
|
|
|
|
var result = String.fromCharCode((3 << 4) | 3) + getString(preKeyMsg.encode());
|
|
return {type: 3, body: result};
|
|
} else
|
|
return {type: 1, body: getString(message)};
|
|
});
|
|
}
|
|
|
|
var GENERATE_KEYS_KEYS_GENERATED = 100;
|
|
self.generateKeys = function() {
|
|
var identityKeyPair = crypto_storage.getIdentityKey();
|
|
var identityKeyCalculated = function(identityKeyPair) {
|
|
var firstPreKeyId = textsecure.storage.getEncrypted("maxPreKeyId", 0);
|
|
textsecure.storage.putEncrypted("maxPreKeyId", firstPreKeyId + GENERATE_KEYS_KEYS_GENERATED);
|
|
|
|
var signedKeyId = textsecure.storage.getEncrypted("signedKeyId", 0);
|
|
textsecure.storage.putEncrypted("signedKeyId", signedKeyId + 1);
|
|
|
|
var keys = {};
|
|
keys.identityKey = identityKeyPair.pubKey;
|
|
keys.preKeys = [];
|
|
|
|
var generateKey = function(keyId) {
|
|
return crypto_storage.getNewStoredKeyPair("preKey" + keyId, false).then(function(keyPair) {
|
|
keys.preKeys[keyId] = {keyId: keyId, publicKey: keyPair.pubKey};
|
|
});
|
|
};
|
|
|
|
var promises = [];
|
|
for (var i = firstPreKeyId; i < firstPreKeyId + GENERATE_KEYS_KEYS_GENERATED; i++)
|
|
promises[i] = generateKey(i);
|
|
|
|
promises[firstPreKeyId + GENERATE_KEYS_KEYS_GENERATED] = crypto_storage.getNewStoredKeyPair("signedKey" + signedKeyId).then(function(keyPair) {
|
|
return Ed25519Sign(identityKeyPair.privKey, keyPair.pubKey).then(function(sig) {
|
|
keys.signedPreKey = {keyId: signedKeyId, publicKey: keyPair.pubKey, signature: sig};
|
|
});
|
|
});
|
|
|
|
//TODO: Process by date added and agressively call generateKeys when we get near maxPreKeyId in a message
|
|
crypto_storage.removeStoredKeyPair("signedKey" + (signedKeyId - 2));
|
|
|
|
return Promise.all(promises).then(function() {
|
|
return keys;
|
|
});
|
|
}
|
|
if (identityKeyPair === undefined)
|
|
return crypto_storage.getNewStoredKeyPair("identityKey", true).then(function(keyPair) { return identityKeyCalculated(keyPair); });
|
|
else
|
|
return identityKeyCalculated(identityKeyPair);
|
|
}
|
|
|
|
window.textsecure.registerOnLoadFunction(function() {
|
|
//TODO: Dont always update prekeys here
|
|
if (textsecure.storage.getEncrypted("lastSignedKeyUpdate", Date.now()) < Date.now() - MESSAGE_LOST_THRESHOLD_MS)
|
|
self.generateKeys();
|
|
});
|
|
|
|
self.Ed25519Verify = Ed25519Verify;
|
|
|
|
self.prepareTempWebsocket = function() {
|
|
var socketInfo = {};
|
|
var keyPair;
|
|
|
|
socketInfo.decryptAndHandleDeviceInit = function(deviceInit) {
|
|
var masterEphemeral = toArrayBuffer(deviceInit.masterEphemeralPubKey);
|
|
var message = toArrayBuffer(deviceInit.identityKeyMessage);
|
|
|
|
return ECDHE(masterEphemeral, keyPair.privKey).then(function(ecRes) {
|
|
return HKDF(ecRes, masterEphemeral, "WhisperDeviceInit").then(function(keys) {
|
|
if (new Uint8Array(message)[0] != (3 << 4) | 3)
|
|
throw new Error("Bad version number on IdentityKeyMessage");
|
|
|
|
var iv = message.slice(1, 16 + 1);
|
|
var mac = message.slice(message.length - 32, message.length);
|
|
var ivAndCiphertext = message.slice(0, message.length - 32);
|
|
var ciphertext = message.slice(16 + 1, message.length - 32);
|
|
|
|
return verifyMAC(ivAndCiphertext, ecRes[1], mac).then(function() {
|
|
window.crypto.subtle.decrypt({name: "AES-CBC", iv: iv}, ecRes[0], ciphertext).then(function(plaintext) {
|
|
var identityKeyMsg = textsecure.protobuf.IdentityKey.decode(plaintext);
|
|
|
|
privToPub(toArrayBuffer(identityKeyMsg.identityKey)).then(function(identityKeyPair) {
|
|
crypto_storage.putKeyPair("identityKey", identityKeyPair);
|
|
identityKeyMsg.identityKey = null;
|
|
|
|
return identityKeyMsg;
|
|
});
|
|
});
|
|
});
|
|
});
|
|
});
|
|
}
|
|
|
|
return createNewKeyPair(false).then(function(newKeyPair) {
|
|
keyPair = newKeyPair;
|
|
socketInfo.pubKey = keyPair.pubKey;
|
|
return socketInfo;
|
|
});
|
|
}
|
|
|
|
self.testing_only = testing_only;
|
|
return self;
|
|
}();
|