eccrypto/test.js
2015-01-21 03:04:56 +03:00

232 lines
8.4 KiB
JavaScript

var expect = require("chai").expect;
var createHash = require("crypto").createHash;
var bufferEqual = require("buffer-equal");
var eccrypto = require("./");
var msg = createHash("sha256").update("test").digest();
var otherMsg = createHash("sha256").update("test2").digest();
var shortMsg = createHash("sha1").update("test").digest();
var privateKey = Buffer(32);
privateKey.fill(1);
var publicKey = eccrypto.getPublic(privateKey);
var privateKeyA = Buffer(32);
privateKeyA.fill(2);
var publicKeyA = eccrypto.getPublic(privateKeyA);
var privateKeyB = Buffer(32);
privateKeyB.fill(3);
var publicKeyB = eccrypto.getPublic(privateKeyB);
describe("Key convertion", function() {
it("should allow to convert private key to public", function() {
expect(Buffer.isBuffer(publicKey)).to.be.true;
expect(publicKey.toString("hex")).to.equal("041b84c5567b126440995d3ed5aaba0565d71e1834604819ff9c17f5e9d5dd078f70beaf8f588b541507fed6a642c5ab42dfdf8120a7f639de5122d47a69a8e8d1");
});
it("should throw on invalid private key", function() {
expect(eccrypto.getPublic.bind(null, Buffer("00", "hex"))).to.throw(Error);
expect(eccrypto.getPublic.bind(null, Buffer("test"))).to.throw(Error);
});
});
describe("ECDSA", function() {
it("should allow to sign and verify message", function() {
return eccrypto.sign(privateKey, msg).then(function(sig) {
expect(Buffer.isBuffer(sig)).to.be.true;
expect(sig.toString("hex")).to.equal("3044022078c15897a34de6566a0d396fdef660698c59fef56d34ee36bef14ad89ee0f6f8022016e02e8b7285d93feafafbe745702f142973a77d5c2fa6293596357e17b3b47c");
return eccrypto.verify(publicKey, msg, sig);
});
});
it("shouldn't verify incorrect signature", function(done) {
eccrypto.sign(privateKey, msg).then(function(sig) {
expect(Buffer.isBuffer(sig)).to.be.true;
eccrypto.verify(publicKey, otherMsg, sig).catch(function() {
done();
});
});
});
it("should reject promise on invalid key when signing", function(done) {
var k4 = Buffer("test");
var k192 = Buffer("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa", "hex");
var k384 = Buffer("bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb", "hex");
eccrypto.sign(k4, msg).catch(function() {
eccrypto.sign(k192, msg).catch(function() {
eccrypto.sign(k384, msg).catch(function() {
done();
});
});
});
});
it("should reject promise on invalid key when verifying", function(done) {
eccrypto.sign(privateKey, msg).then(function(sig) {
expect(Buffer.isBuffer(sig)).to.be.true;
eccrypto.verify(Buffer("test"), msg, sig).catch(function() {
var badKey = new Buffer(65);
publicKey.copy(badKey);
badKey[0] ^= 1;
eccrypto.verify(badKey, msg, sig).catch(function() {
done();
});
});
});
});
it("should reject promise on invalid sig when verifying", function(done) {
eccrypto.sign(privateKey, msg).then(function(sig) {
expect(Buffer.isBuffer(sig)).to.be.true;
sig[0] ^= 1;
eccrypto.verify(publicKey, msg, sig).catch(function() {
done();
});
});
});
it("should allow to sign and verify messages less than 32 bytes", function() {
return eccrypto.sign(privateKey, shortMsg).then(function(sig) {
expect(Buffer.isBuffer(sig)).to.be.true;
expect(sig.toString("hex")).to.equal("304402204737396b697e5a3400e3aedd203d8be89879f97708647252bd0c17752ff4c8f302201d52ef234de82ce0719679fa220334c83b80e21b8505a781d32d94a27d9310aa");
return eccrypto.verify(publicKey, shortMsg, sig);
});
});
it("shouldn't sign and verify messages longer than 32 bytes", function(done) {
var longMsg = Buffer(40);
var someSig = Buffer("304402204737396b697e5a3400e3aedd203d8be89879f97708647252bd0c17752ff4c8f302201d52ef234de82ce0719679fa220334c83b80e21b8505a781d32d94a27d9310aa", "hex");
eccrypto.sign(privateKey, longMsg).catch(function() {
eccrypto.verify(privateKey, longMsg, someSig).catch(function(e) {
expect(e.message).to.not.match(/bad signature/i);
done();
});
});
});
it("shouldn't sign and verify empty messages", function(done) {
var emptyMsg = Buffer(0);
var someSig = Buffer("304402204737396b697e5a3400e3aedd203d8be89879f97708647252bd0c17752ff4c8f302201d52ef234de82ce0719679fa220334c83b80e21b8505a781d32d94a27d9310aa", "hex");
eccrypto.sign(privateKey, emptyMsg).catch(function() {
eccrypto.verify(publicKey, emptyMsg, someSig).catch(function(e) {
expect(e.message).to.not.match(/bad signature/i);
done();
});
});
});
});
describe("ECDH", function() {
it("should derive shared secret from privkey A and pubkey B", function() {
return eccrypto.derive(privateKeyA, publicKeyB).then(function(Px) {
expect(Buffer.isBuffer(Px)).to.be.true;
expect(Px.length).to.equal(32);
expect(Px.toString("hex")).to.equal("aca78f27d5f23b2e7254a0bb8df128e7c0f922d47ccac72814501e07b7291886");
return eccrypto.derive(privateKeyB, publicKeyA).then(function(Px2) {
expect(Buffer.isBuffer(Px2)).to.be.true;
expect(Px2.length).to.equal(32);
expect(bufferEqual(Px, Px2)).to.be.true;
});
});
});
it("should reject promise on bad keys", function(done) {
eccrypto.derive(Buffer("test"), publicKeyB).catch(function() {
eccrypto.derive(publicKeyB, publicKeyB).catch(function() {
eccrypto.derive(privateKeyA, privateKeyA).catch(function() {
eccrypto.derive(privateKeyB, Buffer("test")).catch(function() {
done();
});
});
});
});
});
});
describe("ECIES", function() {
var ephemPrivateKey = Buffer(32);
ephemPrivateKey.fill(4);
var ephemPublicKey = eccrypto.getPublic(ephemPrivateKey);
var iv = Buffer(16);
iv.fill(5);
var ciphertext = Buffer("bbf3f0e7486b552b0e2ba9c4ca8c4579", "hex");
var mac = Buffer("dbb14a9b53dbd6b763dba24dc99520f570cdf8095a8571db4bf501b535fda1ed", "hex");
var encOpts = {ephemPrivateKey: ephemPrivateKey, iv: iv};
var decOpts = {iv: iv, ephemPublicKey: ephemPublicKey, ciphertext: ciphertext, mac: mac};
it("should encrypt", function() {
return eccrypto.encrypt(publicKeyB, Buffer("test"), encOpts)
.then(function(enc) {
expect(bufferEqual(enc.iv, iv)).to.be.true;
expect(bufferEqual(enc.ephemPublicKey, ephemPublicKey)).to.be.true;
expect(bufferEqual(enc.ciphertext, ciphertext)).to.be.true;
expect(bufferEqual(enc.mac, mac)).to.be.true;
});
});
it("should decrypt", function() {
return eccrypto.decrypt(privateKeyB, decOpts)
.then(function(msg) {
expect(msg.toString()).to.equal("test");
});
});
it("should encrypt and decrypt", function() {
return eccrypto.encrypt(publicKeyA, Buffer("to a")).then(function(enc) {
return eccrypto.decrypt(privateKeyA, enc);
}).then(function(msg) {
expect(msg.toString()).to.equal("to a");
});
});
it("should reject promise on bad private key when decrypting", function(done) {
eccrypto.encrypt(publicKeyA, Buffer("test")).then(function(enc) {
eccrypto.decrypt(privateKeyB, enc).catch(function() {
done();
});
});
});
it("should reject promise on bad IV when decrypting", function(done) {
eccrypto.encrypt(publicKeyA, Buffer("test")).then(function(enc) {
enc.iv[0] ^= 1;
eccrypto.decrypt(privateKeyA, enc).catch(function() {
done();
});
});
});
it("should reject promise on bad R when decrypting", function(done) {
eccrypto.encrypt(publicKeyA, Buffer("test")).then(function(enc) {
enc.ephemPublicKey[0] ^= 1;
eccrypto.decrypt(privateKeyA, enc).catch(function() {
done();
});
});
});
it("should reject promise on bad ciphertext when decrypting", function(done) {
eccrypto.encrypt(publicKeyA, Buffer("test")).then(function(enc) {
enc.ciphertext[0] ^= 1;
eccrypto.decrypt(privateKeyA, enc).catch(function() {
done();
});
});
});
it("should reject promise on bad MAC when decrypting", function(done) {
eccrypto.encrypt(publicKeyA, Buffer("test")).then(function(enc) {
var origMac = enc.mac;
enc.mac = mac.slice(1);
eccrypto.decrypt(privateKeyA, enc).catch(function() {
enc.mac = origMac;
enc.mac[10] ^= 1;
eccrypto.decrypt(privateKeyA, enc).catch(function() {
done();
});
});
});
});
});