165 lines
5.2 KiB
JavaScript
165 lines
5.2 KiB
JavaScript
/**
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* Browser eccrypto implementation.
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*/
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"use strict";
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var EC = require("elliptic").ec;
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var ec = new EC("secp256k1");
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var cryptoObj = window.crypto || window.msCrypto || {};
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var subtle = cryptoObj.subtle || cryptoObj.webkitSubtle;
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function assert(condition, message) {
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if (!condition) {
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throw new Error(message || "Assertion failed");
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}
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}
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function randomBytes(size) {
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var arr = new Uint8Array(size);
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window.crypto.getRandomValues(arr);
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return new Buffer(arr);
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}
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function sha512(msg) {
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return subtle.digest({name: "SHA-512"}, msg).then(function(hash) {
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return new Buffer(new Uint8Array(hash));
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});
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}
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function getAes(op) {
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return function(iv, key, data) {
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var importAlgorithm = {name: "AES-CBC"};
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var keyp = subtle.importKey("raw", key, importAlgorithm, false, [op]);
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return keyp.then(function(cryptoKey) {
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var encAlgorithm = {name: "AES-CBC", iv: iv};
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return subtle[op](encAlgorithm, cryptoKey, data);
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}).then(function(result) {
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return new Buffer(new Uint8Array(result));
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});
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};
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}
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var aesCbcEncrypt = getAes("encrypt");
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var aesCbcDecrypt = getAes("decrypt");
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function hmacSha256Sign(key, msg) {
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var algorithm = {name: "HMAC", hash: {name: "SHA-256"}};
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var keyp = subtle.importKey("raw", key, algorithm, false, ["sign"]);
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return keyp.then(function(cryptoKey) {
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return subtle.sign(algorithm, cryptoKey, msg);
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}).then(function(sig) {
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return new Buffer(new Uint8Array(sig));
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});
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}
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function hmacSha256Verify(key, msg, sig) {
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var algorithm = {name: "HMAC", hash: {name: "SHA-256"}};
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var keyp = subtle.importKey("raw", key, algorithm, false, ["verify"]);
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return keyp.then(function(cryptoKey) {
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return subtle.verify(algorithm, cryptoKey, sig, msg);
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});
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}
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var getPublic = exports.getPublic = function(privateKey) {
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// This function has sync API so we throw an error immediately.
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assert(privateKey.length === 32, "Bad private key");
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// XXX(Kagami): `elliptic.utils.encode` returns array for every
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// encoding except `hex`.
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return new Buffer(ec.keyFromPrivate(privateKey).getPublic("arr"));
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};
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// NOTE(Kagami): We don't use promise shim in Browser implementation
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// because it's supported natively in new browsers (see
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// <http://caniuse.com/#feat=promises>) and we can use only new browsers
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// because of the WebCryptoAPI (see
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// <http://caniuse.com/#feat=cryptography>).
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exports.sign = function(privateKey, msg) {
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return new Promise(function(resolve) {
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assert(privateKey.length === 32, "Bad private key");
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assert(msg.length > 0, "Message should not be empty");
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assert(msg.length <= 32, "Message is too long");
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resolve(new Buffer(ec.sign(msg, privateKey, {canonical: true}).toDER()));
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});
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};
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exports.verify = function(publicKey, msg, sig) {
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return new Promise(function(resolve, reject) {
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assert(publicKey.length === 65, "Bad public key");
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assert(publicKey[0] === 4, "Bad public key");
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assert(msg.length > 0, "Message should not be empty");
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assert(msg.length <= 32, "Message is too long");
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if (ec.verify(msg, sig, publicKey)) {
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resolve(null);
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} else {
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reject(new Error("Bad signature"));
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}
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});
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};
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var derive = exports.derive = function(privateKeyA, publicKeyB) {
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return new Promise(function(resolve) {
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assert(privateKeyA.length === 32, "Bad private key");
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assert(publicKeyB.length === 65, "Bad public key");
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assert(publicKeyB[0] === 4, "Bad public key");
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var keyA = ec.keyFromPrivate(privateKeyA);
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var keyB = ec.keyFromPublic(publicKeyB);
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var Px = keyA.derive(keyB.getPublic()); // BN instance
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resolve(new Buffer(Px.toArray()));
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});
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};
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exports.encrypt = function(publicKeyTo, msg, opts) {
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assert(subtle, "WebCryptoAPI is not available");
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opts = opts || {};
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// Tmp variables to save context from flat promises;
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var iv, ephemPublicKey, ciphertext, macKey;
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return new Promise(function(resolve) {
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var ephemPrivateKey = opts.ephemPrivateKey || randomBytes(32);
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ephemPublicKey = getPublic(ephemPrivateKey);
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resolve(derive(ephemPrivateKey, publicKeyTo));
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}).then(function(Px) {
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return sha512(Px);
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}).then(function(hash) {
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iv = opts.iv || randomBytes(16);
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var encryptionKey = hash.slice(0, 32);
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macKey = hash.slice(32);
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return aesCbcEncrypt(iv, encryptionKey, msg);
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}).then(function(data) {
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ciphertext = data;
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var dataToMac = Buffer.concat([iv, ephemPublicKey, ciphertext]);
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return hmacSha256Sign(macKey, dataToMac);
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}).then(function(mac) {
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return {
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iv: iv,
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ephemPublicKey: ephemPublicKey,
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ciphertext: ciphertext,
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mac: mac,
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};
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});
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};
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exports.decrypt = function(privateKey, opts) {
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assert(subtle, "WebCryptoAPI is not available");
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// Tmp variable to save context from flat promises;
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var encryptionKey;
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return derive(privateKey, opts.ephemPublicKey).then(function(Px) {
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return sha512(Px);
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}).then(function(hash) {
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encryptionKey = hash.slice(0, 32);
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var macKey = hash.slice(32);
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var dataToMac = Buffer.concat([
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opts.iv,
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opts.ephemPublicKey,
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opts.ciphertext
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]);
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return hmacSha256Verify(macKey, dataToMac, opts.mac);
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}).then(function(macGood) {
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assert(macGood, "Bad MAC");
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return aesCbcDecrypt(opts.iv, encryptionKey, opts.ciphertext);
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}).then(function(msg) {
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return new Buffer(new Uint8Array(msg));
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});
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};
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