187 lines
5.9 KiB
JavaScript
187 lines
5.9 KiB
JavaScript
/**
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* Node.js eccrypto implementation.
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* @module eccrypto
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*/
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"use strict";
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var promise = typeof Promise === "undefined" ?
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require("es6-promise").Promise :
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Promise;
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var crypto = require("crypto");
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// try to use secp256k1, fallback to browser implementation
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try {
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var secp256k1 = require("secp256k1");
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var ecdh = require("./build/Release/ecdh");
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} catch (e) {
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if (process.env.ECCRYPTO_NO_FALLBACK) {
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throw e;
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} else {
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return (module.exports = require("./browser"));
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}
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}
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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 sha512(msg) {
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return crypto.createHash("sha512").update(msg).digest();
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}
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function aes256CbcEncrypt(iv, key, plaintext) {
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var cipher = crypto.createCipheriv("aes-256-cbc", key, iv);
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var firstChunk = cipher.update(plaintext);
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var secondChunk = cipher.final();
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return Buffer.concat([firstChunk, secondChunk]);
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}
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function aes256CbcDecrypt(iv, key, ciphertext) {
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var cipher = crypto.createDecipheriv("aes-256-cbc", key, iv);
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var firstChunk = cipher.update(ciphertext);
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var secondChunk = cipher.final();
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return Buffer.concat([firstChunk, secondChunk]);
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}
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function hmacSha256(key, msg) {
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return crypto.createHmac("sha256", key).update(msg).digest();
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}
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// Compare two buffers in constant time to prevent timing attacks.
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function equalConstTime(b1, b2) {
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if (b1.length !== b2.length) {
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return false;
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}
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var res = 0;
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for (var i = 0; i < b1.length; i++) {
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res |= b1[i] ^ b2[i]; // jshint ignore:line
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}
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return res === 0;
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}
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/**
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* Compute the public key for a given private key.
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* @param {Buffer} privateKey - A 32-byte private key
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* @return {Buffer} A 65-byte public key.
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* @function
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*/
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var getPublic = exports.getPublic = secp256k1.createPublicKey;
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/**
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* Create an ECDSA signature.
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* @param {Buffer} privateKey - A 32-byte private key
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* @param {Buffer} msg - The message being signed
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* @return {Promise.<Buffer>} A promise that resolves with the
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* signature and rejects on bad key or message.
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*/
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exports.sign = function(privateKey, msg) {
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return new promise(function(resolve) {
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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(secp256k1.sign(privateKey, msg));
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});
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};
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/**
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* Verify an ECDSA signature.
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* @param {Buffer} publicKey - A 65-byte public key
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* @param {Buffer} msg - The message being verified
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* @param {Buffer} sig - The signature
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* @return {Promise.<null>} A promise that resolves on correct signature
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* and rejects on bad key or signature.
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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(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 (secp256k1.verify(publicKey, msg, sig) === 1) {
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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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/**
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* Derive shared secret for given private and public keys.
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* @param {Buffer} privateKeyA - Sender's private key (32 bytes)
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* @param {Buffer} publicKeyB - Recipient's public key (65 bytes)
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* @return {Promise.<Buffer>} A promise that resolves with the derived
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* shared secret (Px, 32 bytes) and rejects on bad key.
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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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resolve(ecdh.derive(privateKeyA, publicKeyB));
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});
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};
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/**
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* Input/output structure for ECIES operations.
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* @typedef {Object} Ecies
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* @property {Buffer} iv - Initialization vector (16 bytes)
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* @property {Buffer} ephemPublicKey - Ephemeral public key (65 bytes)
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* @property {Buffer} ciphertext - The result of encryption (variable size)
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* @property {Buffer} mac - Message authentication code (32 bytes)
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*/
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/**
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* Encrypt message for given recepient's public key.
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* @param {Buffer} publicKeyTo - Recipient's public key (65 bytes)
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* @param {Buffer} msg - The message being encrypted
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* @param {?{?iv: Buffer, ?ephemPrivateKey: Buffer}} opts - You may also
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* specify initialization vector (16 bytes) and ephemeral private key
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* (32 bytes) to get deterministic results.
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* @return {Promise.<Ecies>} - A promise that resolves with the ECIES
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* structure on successful encryption and rejects on failure.
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*/
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exports.encrypt = function(publicKeyTo, msg, opts) {
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opts = opts || {};
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// Tmp variable to save context from flat promises;
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var ephemPublicKey;
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return new promise(function(resolve) {
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var ephemPrivateKey = opts.ephemPrivateKey || crypto.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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var hash = sha512(Px);
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var iv = opts.iv || crypto.randomBytes(16);
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var encryptionKey = hash.slice(0, 32);
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var macKey = hash.slice(32);
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var ciphertext = aes256CbcEncrypt(iv, encryptionKey, msg);
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var dataToMac = Buffer.concat([iv, ephemPublicKey, ciphertext]);
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var mac = hmacSha256(macKey, dataToMac);
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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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/**
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* Decrypt message using given private key.
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* @param {Buffer} privateKey - A 32-byte private key of recepient of
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* the mesage
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* @param {Ecies} opts - ECIES structure (result of ECIES encryption)
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* @return {Promise.<Buffer>} - A promise that resolves with the
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* plaintext on successful decryption and rejects on failure.
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*/
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exports.decrypt = function(privateKey, opts) {
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return derive(privateKey, opts.ephemPublicKey).then(function(Px) {
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var hash = sha512(Px);
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var 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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var realMac = hmacSha256(macKey, dataToMac);
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assert(equalConstTime(opts.mac, realMac), "Bad MAC");
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return aes256CbcDecrypt(opts.iv, encryptionKey, opts.ciphertext);
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});
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};
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