/* vim: ts=4:sw=4 * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program. If not, see . */ ;(function() { window.textsecure = window.textsecure || {}; /* * textsecure.crypto * glues together various implementations into a single interface * for all low-level crypto operations, */ // TODO Select an ecc implementation //var ecc = textsecure.NATIVE_CLIENT ? textsecure.nativeclient : textsecure.tweetnacl || asmjs; var ecc = textsecure.nativeclient; window.textsecure.crypto = { getRandomBytes: function(size) { // At some point we might consider XORing in hashes of random // UI events to strengthen ourselves against RNG flaws in crypto.getRandomValues // ie maybe take a look at how Gibson does it at https://www.grc.com/r&d/js.htm var array = new Uint8Array(size); window.crypto.getRandomValues(array); return array.buffer; }, encrypt: function(key, data, iv) { return window.crypto.subtle.importKey('raw', key, {name: 'AES-CBC'}, false, ['encrypt']).then(function(key) { return window.crypto.subtle.encrypt({name: 'AES-CBC', iv: new Uint8Array(iv)}, key, data); }); }, decrypt: function(key, data, iv) { return window.crypto.subtle.importKey('raw', key, {name: 'AES-CBC'}, false, ['decrypt']).then(function(key) { return window.crypto.subtle.decrypt({name: 'AES-CBC', iv: new Uint8Array(iv)}, key, data); }); }, sign: function(key, data) { return window.crypto.subtle.importKey('raw', key, {name: 'HMAC', hash: {name: 'SHA-256'}}, false, ['sign']).then(function(key) { return window.crypto.subtle.sign( {name: 'HMAC', hash: 'SHA-256'}, key, data); }); }, HKDF: function(input, salt, info) { // Specific implementation of RFC 5869 that only returns the first 3 32-byte chunks // TODO: We dont always need the third chunk, we might skip it return window.textsecure.crypto.sign(salt, input).then(function(PRK) { var infoBuffer = new ArrayBuffer(info.byteLength + 1 + 32); var infoArray = new Uint8Array(infoBuffer); infoArray.set(new Uint8Array(info), 32); infoArray[infoArray.length - 1] = 1; return window.textsecure.crypto.sign(PRK, infoBuffer.slice(32)).then(function(T1) { infoArray.set(new Uint8Array(T1)); infoArray[infoArray.length - 1] = 2; return window.textsecure.crypto.sign(PRK, infoBuffer).then(function(T2) { infoArray.set(new Uint8Array(T2)); infoArray[infoArray.length - 1] = 3; return window.textsecure.crypto.sign(PRK, infoBuffer).then(function(T3) { return [ T1, T2, T3 ]; }); }); }); }); }, // Curve 25519 crypto createKeyPair: function(privKey) { if (privKey === undefined) { privKey = textsecure.crypto.getRandomBytes(32); } if (privKey.byteLength != 32) { throw new Error("Invalid private key"); } return ecc.privToPub(privKey).then(function(raw_keys) { // prepend version byte var origPub = new Uint8Array(raw_keys.pubKey); var pub = new Uint8Array(33); pub.set(origPub, 1); pub[0] = 5; return { pubKey: pub.buffer, privKey: raw_keys.privKey }; }); }, ECDHE: function(pubKey, privKey) { pubKey = validatePubKeyFormat(pubKey); if (privKey === undefined || privKey.byteLength != 32) throw new Error("Invalid private key"); if (pubKey === undefined || pubKey.byteLength != 32) throw new Error("Invalid public key"); return ecc.ECDHE(pubKey, privKey); }, Ed25519Sign: function(privKey, message) { if (privKey === undefined || privKey.byteLength != 32) throw new Error("Invalid private key"); if (message === undefined) throw new Error("Invalid message"); return ecc.Ed25519Sign(privKey, message); }, Ed25519Verify: function(pubKey, msg, sig) { pubKey = validatePubKeyFormat(pubKey); if (pubKey === undefined || pubKey.byteLength != 32) throw new Error("Invalid public key"); if (msg === undefined) throw new Error("Invalid message"); if (sig === undefined || sig.byteLength != 64) throw new Error("Invalid signature"); return ecc.Ed25519Verify(pubKey, msg, sig); } }; var validatePubKeyFormat = function(pubKey) { if (pubKey === undefined || ((pubKey.byteLength != 33 || new Uint8Array(pubKey)[0] != 5) && pubKey.byteLength != 32)) throw new Error("Invalid public key"); if (pubKey.byteLength == 33) { return pubKey.slice(1); } else { console.error("WARNING: Expected pubkey of length 33, please report the ST and client that generated the pubkey"); return pubKey; } }; })();