/* * vim: ts=4:sw=4:expandtab */ ;(function(){ 'use strict'; var encrypt = libsignal.crypto.encrypt; var decrypt = libsignal.crypto.decrypt; var calculateMAC = libsignal.crypto.calculateMAC; var verifyMAC = libsignal.crypto.verifyMAC; function verifyDigest(data, theirDigest) { return crypto.subtle.digest({name: 'SHA-256'}, data).then(function(ourDigest) { var a = new Uint8Array(ourDigest); var b = new Uint8Array(theirDigest); var result = 0; for (var i=0; i < theirDigest.byteLength; ++i) { result = result | (a[i] ^ b[i]); } if (result !== 0) { throw new Error('Bad digest'); } }); } function calculateDigest(data) { return crypto.subtle.digest({name: 'SHA-256'}, data); } window.textsecure = window.textsecure || {}; window.textsecure.crypto = { // Decrypts message into a raw string decryptWebsocketMessage: function(message, signaling_key) { var decodedMessage = message.toArrayBuffer(); if (signaling_key.byteLength != 52) { throw new Error("Got invalid length signaling_key"); } if (decodedMessage.byteLength < 1 + 16 + 10) { throw new Error("Got invalid length message"); } if (new Uint8Array(decodedMessage)[0] != 1) { throw new Error("Got bad version number: " + decodedMessage[0]); } var aes_key = signaling_key.slice(0, 32); var mac_key = signaling_key.slice(32, 32 + 20); 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, 10).then(function() { return decrypt(aes_key, ciphertext, iv); }); }, decryptAttachment: function(encryptedBin, keys, theirDigest) { if (keys.byteLength != 64) { throw new Error("Got invalid length attachment keys"); } if (encryptedBin.byteLength < 16 + 32) { throw new Error("Got invalid length attachment"); } 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, 32).then(function() { if (theirDigest !== undefined) { return verifyDigest(encryptedBin, theirDigest); } }).then(function() { return decrypt(aes_key, ciphertext, iv); }); }, encryptAttachment: function(plaintext, keys, iv) { if (keys.byteLength != 64) { throw new Error("Got invalid length attachment keys"); } if (iv.byteLength != 16) { throw new Error("Got invalid length attachment iv"); } var aes_key = keys.slice(0, 32); var mac_key = keys.slice(32, 64); return encrypt(aes_key, plaintext, iv).then(function(ciphertext) { var ivAndCiphertext = new Uint8Array(16 + ciphertext.byteLength); ivAndCiphertext.set(new Uint8Array(iv)); ivAndCiphertext.set(new Uint8Array(ciphertext), 16); return calculateMAC(mac_key, ivAndCiphertext.buffer).then(function(mac) { var encryptedBin = new Uint8Array(16 + ciphertext.byteLength + 32); encryptedBin.set(ivAndCiphertext); encryptedBin.set(new Uint8Array(mac), 16 + ciphertext.byteLength); return calculateDigest(encryptedBin.buffer).then(function(digest) { return { ciphertext: encryptedBin.buffer, digest: digest }; }); }); }); }, getRandomBytes: function(size) { return libsignal.crypto.getRandomBytes(size); } }; })();