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added forge rsa bundle and wrote benchmarks tests successfully
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src/lib/forge/forge.rsa.bundle.js
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src/lib/forge/forge.rsa.bundle.js
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src/lib/forge/jsbn.js
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src/lib/forge/jsbn.js
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src/lib/forge/prime.worker.js
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128
src/lib/forge/prime.worker.js
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@ -0,0 +1,128 @@
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/**
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* RSA Key Generation Worker.
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*
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* @author Dave Longley
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*
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* Copyright (c) 2013 Digital Bazaar, Inc.
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*/
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importScripts('jsbn.js');
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// prime constants
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var LOW_PRIMES = [2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67,71,73,79,83,89,97,101,103,107,109,113,127,131,137,139,149,151,157,163,167,173,179,181,191,193,197,199,211,223,227,229,233,239,241,251,257,263,269,271,277,281,283,293,307,311,313,317,331,337,347,349,353,359,367,373,379,383,389,397,401,409,419,421,431,433,439,443,449,457,461,463,467,479,487,491,499,503,509,521,523,541,547,557,563,569,571,577,587,593,599,601,607,613,617,619,631,641,643,647,653,659,661,673,677,683,691,701,709,719,727,733,739,743,751,757,761,769,773,787,797,809,811,821,823,827,829,839,853,857,859,863,877,881,883,887,907,911,919,929,937,941,947,953,967,971,977,983,991,997];
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var LP_LIMIT = (1 << 26) / LOW_PRIMES[LOW_PRIMES.length - 1];
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var BigInteger = forge.jsbn.BigInteger;
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var BIG_TWO = new BigInteger(null);
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BIG_TWO.fromInt(2);
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self.addEventListener('message', function(e) {
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var result = findPrime(e.data);
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self.postMessage(result);
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});
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// start receiving ranges to check
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self.postMessage({found: false});
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// primes are 30k+i for i = 1, 7, 11, 13, 17, 19, 23, 29
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var GCD_30_DELTA = [6, 4, 2, 4, 2, 4, 6, 2];
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function findPrime(data) {
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// create BigInteger from given random bytes
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var num = new BigInteger(data.hex, 16);
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/* Note: All primes are of the form 30k+i for i < 30 and gcd(30, i)=1. The
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number we are given is always aligned at 30k + 1. Each time the number is
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determined not to be prime we add to get to the next 'i', eg: if the number
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was at 30k + 1 we add 6. */
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var deltaIdx = 0;
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// find nearest prime
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var workLoad = data.workLoad;
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var e = new BigInteger(null);
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e.fromInt(data.e);
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for(var i = 0; i < workLoad; ++i) {
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// do primality test
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if(isProbablePrime(num, 1)) {
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// ensure number is coprime with e
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if(num.subtract(BigInteger.ONE).gcd(e).compareTo(BigInteger.ONE) === 0 &&
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isProbablePrime(num, 10)) {
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return {found: true, prime: num.toString(16)};
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}
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}
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// get next potential prime
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num.dAddOffset(GCD_30_DELTA[deltaIdx++ % 8], 0);
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}
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return {found: false};
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}
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function isProbablePrime(n, k) {
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// divide by low primes, ignore even checks, etc (n alread aligned properly)
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var i = 1;
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while(i < LOW_PRIMES.length) {
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var m = LOW_PRIMES[i];
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var j = i + 1;
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while(j < LOW_PRIMES.length && m < LP_LIMIT) {
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m *= LOW_PRIMES[j++];
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}
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m = n.modInt(m);
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while(i < j) {
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if(m % LOW_PRIMES[i++] == 0) {
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return false;
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}
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}
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}
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return runMillerRabin(n, k);
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}
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// HAC 4.24, Miller-Rabin
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function runMillerRabin(n, k) {
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// n1 = n - 1
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var n1 = n.subtract(BigInteger.ONE);
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// get s and d such that n1 = 2^s * d
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var s = n1.getLowestSetBit();
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if(s <= 0) {
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return false;
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}
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var d = n1.shiftRight(s);
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var a = new BigInteger(null);
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for(var i = 0; i < k; ++i) {
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// 'a' should be selected at random, but lower primes are picked for speed
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a.fromInt(LOW_PRIMES[i]);
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/* See if 'a' is a composite witness. */
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// x = a^d mod n
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var x = a.modPow(d, n);
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// probably prime
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if(x.compareTo(BigInteger.ONE) === 0 || x.compareTo(n1) === 0) {
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continue;
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}
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var j = s;
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while(--j) {
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// x = x^2 mod a
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x = x.modPowInt(2, n);
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// 'n' is composite because no previous x == -1 mod n
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if(x.compareTo(BigInteger.ONE) === 0) {
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return false;
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}
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// x == -1 mod n, so probably prime
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if(x.compareTo(n1) === 0) {
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break;
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}
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}
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// 'x' is first_x^(n1/2) and is not +/- 1, so 'n' is not prime
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if(j === 0) {
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return false;
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}
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}
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return true;
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}
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@ -2,7 +2,7 @@ module("PGP Crypto");
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var pgp_test = {
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keyID: null,
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keySize: 512
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keySize: 1024
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};
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asyncTest("Init", 1, function() {
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@ -11,7 +11,7 @@ asyncTest("Init", 1, function() {
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pgp_test.crypto = new app.crypto.PGP(window, openpgp, util, null);
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pgp_test.crypto.setPassphrase('asdf');
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ok(pgp_test.crypto, 'PGP crypto');
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pgp_test.helperEncrDecr = function(crypto, keyId, plaintext) {
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if (!crypto.getPublicKey()) {
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crypto.readKeys(keyId);
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@ -28,14 +28,14 @@ asyncTest("Init", 1, function() {
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console.log('ciphertext size [bytes]: ' + ct.length);
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var decrStart = (new Date).getTime();
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var pt = crypto.asymmetricDecrypt(ct);
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var pt = crypto.asymmetricDecrypt(ct);
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var decrDiff = (new Date).getTime() - decrStart;
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console.log('Time taken for decryption [ms]: ' + decrDiff);
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ok(pt, "decrypted: see console output for benchmark");
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equal(pt, plaintext, "Decrypted should be the same as the plaintext");
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};
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start();
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});
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@ -52,11 +52,11 @@ asyncTest("Generate keypair, De/Encrypt", 7, function() {
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ok(pgp_test.crypto.getPrivateKey().indexOf('-----BEGIN PGP PRIVATE KEY BLOCK-----') === 0);
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ok(pgp_test.crypto.getPublicKey());
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ok(pgp_test.crypto.getPublicKey().indexOf('-----BEGIN PGP PUBLIC KEY BLOCK-----') === 0);
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pgp_test.helperEncrDecr(pgp_test.crypto, pgp_test.keyID, "Hello, World!");
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pgp_test.helperEncrDecr(pgp_test.crypto, pgp_test.keyID, '06a9214036b8a15b512e03d534120006');
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start();
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// pgp_test.crypto.exportKeys(function(url) {
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// ok(url, 'export url');
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//
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test/unit/forge-test.js
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test/unit/forge-test.js
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module("Forge Crypto");
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var rsa_test = {
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keySize: 1024,
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test_message: '06a9214036b8a15b512e03d534120006'
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};
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asyncTest("Generate RSA Keypair", 1, function() {
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forge.pki.rsa.generateKeyPair({
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bits: rsa_test.keySize,
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workerScript: app.config.workerPath + '/../lib/forge/prime.worker.js'
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}, function(err, keypair) {
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ok(!err && keypair);
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console.log(keypair);
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rsa_test.keypair = keypair;
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var pkPem = forge.pki.publicKeyToPem(keypair.publicKey);
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var pk = forge.pki.publicKeyFromPem(pkPem);
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start();
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});
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});
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test("RSA Encrypt", 1, function() {
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rsa_test.ct = rsa_test.keypair.publicKey.encrypt(rsa_test.test_message);
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ok(rsa_test.ct);
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});
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test("RSA Decrypt", 1, function() {
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var pt = rsa_test.keypair.privateKey.decrypt(rsa_test.ct);
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equal(rsa_test.test_message, pt);
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});
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test("SHA-256 Hash", 1, function() {
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rsa_test.md = forge.md.sha256.create();
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rsa_test.md.update(rsa_test.ct);
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var digest = rsa_test.md.digest().data;
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ok(digest);
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});
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test("RSA Sign", 1, function() {
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rsa_test.sig = rsa_test.keypair.privateKey.sign(rsa_test.md);
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ok(rsa_test.sig);
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});
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test("RSA Verify", 1, function() {
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var res = rsa_test.keypair.publicKey.verify(rsa_test.md.digest().getBytes(), rsa_test.sig);
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ok(res);
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});
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test("HMAC SHA-256", 1, function() {
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var util = new app.crypto.Util(window, uuid);
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var key = util.base642Str(util.random(forge_aes_test.keySize));
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var iv = util.base642Str(util.random(forge_aes_test.keySize));
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var hmac = forge.hmac.create();
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hmac.start('sha256', key);
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hmac.update(iv);
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hmac.update(rsa_test.test_message);
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var result = hmac.digest().toHex();
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ok(result);
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});
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test("PBKDF2", 1, function() {
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var util = new app.crypto.Util(window, uuid);
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var salt = util.base642Str("vbhmLjC+Ub6MSbhS6/CkOwxB25wvwRkSLP2DzDtYb+4=");
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var expect = '5223bd44b0523090b21e9d38a749b090';
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var dk = forge.pkcs5.pbkdf2('password', salt, 1000, 16);
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equal(expect, forge.util.bytesToHex(dk));
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});
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var forge_aes_test = {
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keySize: 128,
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test_message: new TestData().generateBigString(1000)
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};
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test("AES-128-CBC En/Decrypt", 1, function() {
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var util = new app.crypto.Util(window, uuid);
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var key = util.base642Str(util.random(forge_aes_test.keySize));
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var iv = util.base642Str(util.random(forge_aes_test.keySize));
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var input = forge_aes_test.test_message;
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// encrypt
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var enCipher = forge.aes.createEncryptionCipher(key);
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enCipher.start(iv);
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enCipher.update(forge.util.createBuffer(input));
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enCipher.finish();
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// decrypt
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var deCipher = forge.aes.createDecryptionCipher(key);
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deCipher.start(iv);
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deCipher.update(forge.util.createBuffer(enCipher.output.data));
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deCipher.finish();
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equal(input, deCipher.output, 'En/Decrypt');
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});
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<script src="../lib/sjcl/ecc.js"></script>
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<script src="../lib/sjcl/convenience.js"></script>
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<script src="../lib/forge/forge.rsa.bundle.js"></script>
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<script src="../lib/nacl.js"></script>
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<script src="../lib/uuid.js"></script>
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<script src="../lib/openpgp.min.js"></script>
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<script src="../js/app-config.js"></script>
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<script>
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@ -78,6 +79,7 @@
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<script src="../test-data.js"></script>
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<script src="util-test.js"></script>
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<script src="aes-test.js"></script>
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<script src="forge-test.js"></script>
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<script src="nacl-crypto-test.js"></script>
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<script src="ecc-test.js"></script>
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<script src="crypto-test.js"></script>
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nacl_test.util = new app.crypto.Util(window, uuid);
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ok(nacl_test.util, 'Util');
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// generate test data
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nacl_test.test_message = new TestData().generateBigString(1000);
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nacl_test.test_message = '06a9214036b8a15b512e03d534120006';
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nacl_test.crypto = new app.crypto.NaclCrypto(nacl, nacl_test.util);
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});
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@ -40,17 +40,25 @@ asyncTest("Generate Keypair", 2, function() {
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});
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});
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test("Asymmetric En/Decrypt (Synchronous)", 3, function() {
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test("Asymmetric Encrypt (Synchronous)", 2, function() {
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var plaintext = nacl_test.test_message;
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var nonce = nacl_test.crypto.generateNonce();
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ok(nonce, 'Nonce: ' + nonce);
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nacl_test.nonce = nonce;
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// encrypt
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var ct = nacl_test.crypto.asymEncryptSync(plaintext, nonce, nacl_test.recipientKeypair.boxPk, nacl_test.senderKeypair.boxSk);
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ok(ct, 'Ciphertext length: ' + ct.length);
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nacl_test.ct = nacl_test.crypto.asymEncryptSync(plaintext, nonce, nacl_test.recipientKeypair.boxPk, nacl_test.senderKeypair.boxSk);
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ok(nacl_test.ct, 'Ciphertext length: ' + nacl_test.ct.length);
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});
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test("Asymmetric Decrypt (Synchronous)", 1, function() {
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var plaintext = nacl_test.test_message;
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var nonce = nacl_test.nonce
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// decrypt
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var decrypted = nacl_test.crypto.asymDecryptSync(ct, nonce, nacl_test.senderKeypair.boxPk, nacl_test.recipientKeypair.boxSk);
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var decrypted = nacl_test.crypto.asymDecryptSync(nacl_test.ct, nonce, nacl_test.senderKeypair.boxPk, nacl_test.recipientKeypair.boxSk);
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equal(decrypted, plaintext, 'Decryption correct: ' + decrypted);
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});
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