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Split test-crypto-dh.js so that it is less likely to timeout on less powerful bots. PR-URL: #40451 Refs: nodejs/reliability#86 Reviewed-By: Colin Ihrig <[email protected]> Reviewed-By: Rich Trott <[email protected]>
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'use strict'; | ||
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const common = require('../common'); | ||
if (!common.hasCrypto) | ||
common.skip('missing crypto'); | ||
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const assert = require('assert'); | ||
const crypto = require('crypto'); | ||
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// The values below (modp2/modp2buf) are for a 1024 bits long prime from | ||
// RFC 2412 E.2, see https://tools.ietf.org/html/rfc2412. */ | ||
const modp2buf = Buffer.from([ | ||
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xc9, 0x0f, | ||
0xda, 0xa2, 0x21, 0x68, 0xc2, 0x34, 0xc4, 0xc6, 0x62, 0x8b, | ||
0x80, 0xdc, 0x1c, 0xd1, 0x29, 0x02, 0x4e, 0x08, 0x8a, 0x67, | ||
0xcc, 0x74, 0x02, 0x0b, 0xbe, 0xa6, 0x3b, 0x13, 0x9b, 0x22, | ||
0x51, 0x4a, 0x08, 0x79, 0x8e, 0x34, 0x04, 0xdd, 0xef, 0x95, | ||
0x19, 0xb3, 0xcd, 0x3a, 0x43, 0x1b, 0x30, 0x2b, 0x0a, 0x6d, | ||
0xf2, 0x5f, 0x14, 0x37, 0x4f, 0xe1, 0x35, 0x6d, 0x6d, 0x51, | ||
0xc2, 0x45, 0xe4, 0x85, 0xb5, 0x76, 0x62, 0x5e, 0x7e, 0xc6, | ||
0xf4, 0x4c, 0x42, 0xe9, 0xa6, 0x37, 0xed, 0x6b, 0x0b, 0xff, | ||
0x5c, 0xb6, 0xf4, 0x06, 0xb7, 0xed, 0xee, 0x38, 0x6b, 0xfb, | ||
0x5a, 0x89, 0x9f, 0xa5, 0xae, 0x9f, 0x24, 0x11, 0x7c, 0x4b, | ||
0x1f, 0xe6, 0x49, 0x28, 0x66, 0x51, 0xec, 0xe6, 0x53, 0x81, | ||
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, | ||
]); | ||
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function testDH({ publicKey: alicePublicKey, privateKey: alicePrivateKey }, | ||
{ publicKey: bobPublicKey, privateKey: bobPrivateKey }, | ||
expectedValue) { | ||
const buf1 = crypto.diffieHellman({ | ||
privateKey: alicePrivateKey, | ||
publicKey: bobPublicKey | ||
}); | ||
const buf2 = crypto.diffieHellman({ | ||
privateKey: bobPrivateKey, | ||
publicKey: alicePublicKey | ||
}); | ||
assert.deepStrictEqual(buf1, buf2); | ||
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if (expectedValue !== undefined) | ||
assert.deepStrictEqual(buf1, expectedValue); | ||
} | ||
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module.exports = { | ||
modp2buf, | ||
testDH | ||
}; |
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'use strict'; | ||
const common = require('../common'); | ||
if (!common.hasCrypto) | ||
common.skip('missing crypto'); | ||
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const assert = require('assert'); | ||
const crypto = require('crypto'); | ||
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const size = common.hasFipsCrypto || common.hasOpenSSL3 ? 1024 : 256; | ||
const dh1 = crypto.createDiffieHellman(size); | ||
const p1 = dh1.getPrime('buffer'); | ||
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{ | ||
const DiffieHellman = crypto.DiffieHellman; | ||
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const dh = DiffieHellman(p1, 'buffer'); | ||
assert(dh instanceof DiffieHellman, 'DiffieHellman is expected to return a ' + | ||
'new instance when called without `new`'); | ||
} | ||
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{ | ||
const DiffieHellmanGroup = crypto.DiffieHellmanGroup; | ||
const dhg = DiffieHellmanGroup('modp5'); | ||
assert(dhg instanceof DiffieHellmanGroup, 'DiffieHellmanGroup is expected ' + | ||
'to return a new instance when ' + | ||
'called without `new`'); | ||
} | ||
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{ | ||
const ECDH = crypto.ECDH; | ||
const ecdh = ECDH('prime256v1'); | ||
assert(ecdh instanceof ECDH, 'ECDH is expected to return a new instance ' + | ||
'when called without `new`'); | ||
} |
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'use strict'; | ||
const common = require('../common'); | ||
if (!common.hasCrypto) | ||
common.skip('missing crypto'); | ||
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const assert = require('assert'); | ||
const crypto = require('crypto'); | ||
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// Second OAKLEY group, see | ||
// https://github.com/nodejs/node-v0.x-archive/issues/2338 and | ||
// https://xml2rfc.tools.ietf.org/public/rfc/html/rfc2412.html#anchor49 | ||
const p = 'FFFFFFFFFFFFFFFFC90FDAA22168C234C4C6628B80DC1CD129024E088A67CC74' + | ||
'020BBEA63B139B22514A08798E3404DDEF9519B3CD3A431B302B0A6DF25F1437' + | ||
'4FE1356D6D51C245E485B576625E7EC6F44C42E9A637ED6B0BFF5CB6F406B7ED' + | ||
'EE386BFB5A899FA5AE9F24117C4B1FE649286651ECE65381FFFFFFFFFFFFFFFF'; | ||
crypto.createDiffieHellman(p, 'hex'); | ||
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// Confirm DH_check() results are exposed for optional examination. | ||
const bad_dh = crypto.createDiffieHellman('02', 'hex'); | ||
assert.notStrictEqual(bad_dh.verifyError, 0); | ||
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const availableCurves = new Set(crypto.getCurves()); | ||
const availableHashes = new Set(crypto.getHashes()); | ||
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// Oakley curves do not clean up ERR stack, it was causing unexpected failure | ||
// when accessing other OpenSSL APIs afterwards. | ||
if (availableCurves.has('Oakley-EC2N-3')) { | ||
crypto.createECDH('Oakley-EC2N-3'); | ||
crypto.createHash('sha256'); | ||
} | ||
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// Test ECDH | ||
if (availableCurves.has('prime256v1') && availableCurves.has('secp256k1')) { | ||
const ecdh1 = crypto.createECDH('prime256v1'); | ||
const ecdh2 = crypto.createECDH('prime256v1'); | ||
const key1 = ecdh1.generateKeys(); | ||
const key2 = ecdh2.generateKeys('hex'); | ||
const secret1 = ecdh1.computeSecret(key2, 'hex', 'base64'); | ||
const secret2 = ecdh2.computeSecret(key1, 'latin1', 'buffer'); | ||
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assert.strictEqual(secret1, secret2.toString('base64')); | ||
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// Point formats | ||
assert.strictEqual(ecdh1.getPublicKey('buffer', 'uncompressed')[0], 4); | ||
let firstByte = ecdh1.getPublicKey('buffer', 'compressed')[0]; | ||
assert(firstByte === 2 || firstByte === 3); | ||
firstByte = ecdh1.getPublicKey('buffer', 'hybrid')[0]; | ||
assert(firstByte === 6 || firstByte === 7); | ||
// Format value should be string | ||
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assert.throws( | ||
() => ecdh1.getPublicKey('buffer', 10), | ||
{ | ||
code: 'ERR_CRYPTO_ECDH_INVALID_FORMAT', | ||
name: 'TypeError', | ||
message: 'Invalid ECDH format: 10' | ||
}); | ||
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// ECDH should check that point is on curve | ||
const ecdh3 = crypto.createECDH('secp256k1'); | ||
const key3 = ecdh3.generateKeys(); | ||
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assert.throws( | ||
() => ecdh2.computeSecret(key3, 'latin1', 'buffer'), | ||
{ | ||
code: 'ERR_CRYPTO_ECDH_INVALID_PUBLIC_KEY', | ||
name: 'Error', | ||
message: 'Public key is not valid for specified curve' | ||
}); | ||
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// ECDH should allow .setPrivateKey()/.setPublicKey() | ||
const ecdh4 = crypto.createECDH('prime256v1'); | ||
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ecdh4.setPrivateKey(ecdh1.getPrivateKey()); | ||
ecdh4.setPublicKey(ecdh1.getPublicKey()); | ||
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assert.throws(() => { | ||
ecdh4.setPublicKey(ecdh3.getPublicKey()); | ||
}, { message: 'Failed to convert Buffer to EC_POINT' }); | ||
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// Verify that we can use ECDH without having to use newly generated keys. | ||
const ecdh5 = crypto.createECDH('secp256k1'); | ||
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// Verify errors are thrown when retrieving keys from an uninitialized object. | ||
assert.throws(() => { | ||
ecdh5.getPublicKey(); | ||
}, /^Error: Failed to get ECDH public key$/); | ||
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assert.throws(() => { | ||
ecdh5.getPrivateKey(); | ||
}, /^Error: Failed to get ECDH private key$/); | ||
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// A valid private key for the secp256k1 curve. | ||
const cafebabeKey = 'cafebabe'.repeat(8); | ||
// Associated compressed and uncompressed public keys (points). | ||
const cafebabePubPtComp = | ||
'03672a31bfc59d3f04548ec9b7daeeba2f61814e8ccc40448045007f5479f693a3'; | ||
const cafebabePubPtUnComp = | ||
'04672a31bfc59d3f04548ec9b7daeeba2f61814e8ccc40448045007f5479f693a3' + | ||
'2e02c7f93d13dc2732b760ca377a5897b9dd41a1c1b29dc0442fdce6d0a04d1d'; | ||
ecdh5.setPrivateKey(cafebabeKey, 'hex'); | ||
assert.strictEqual(ecdh5.getPrivateKey('hex'), cafebabeKey); | ||
// Show that the public point (key) is generated while setting the | ||
// private key. | ||
assert.strictEqual(ecdh5.getPublicKey('hex'), cafebabePubPtUnComp); | ||
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// Compressed and uncompressed public points/keys for other party's | ||
// private key. | ||
// 0xDEADBEEFDEADBEEFDEADBEEFDEADBEEFDEADBEEFDEADBEEFDEADBEEFDEADBEEF | ||
const peerPubPtComp = | ||
'02c6b754b20826eb925e052ee2c25285b162b51fdca732bcf67e39d647fb6830ae'; | ||
const peerPubPtUnComp = | ||
'04c6b754b20826eb925e052ee2c25285b162b51fdca732bcf67e39d647fb6830ae' + | ||
'b651944a574a362082a77e3f2b5d9223eb54d7f2f76846522bf75f3bedb8178e'; | ||
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const sharedSecret = | ||
'1da220b5329bbe8bfd19ceef5a5898593f411a6f12ea40f2a8eead9a5cf59970'; | ||
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assert.strictEqual(ecdh5.computeSecret(peerPubPtComp, 'hex', 'hex'), | ||
sharedSecret); | ||
assert.strictEqual(ecdh5.computeSecret(peerPubPtUnComp, 'hex', 'hex'), | ||
sharedSecret); | ||
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// Verify that we still have the same key pair as before the computation. | ||
assert.strictEqual(ecdh5.getPrivateKey('hex'), cafebabeKey); | ||
assert.strictEqual(ecdh5.getPublicKey('hex'), cafebabePubPtUnComp); | ||
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// Verify setting and getting compressed and non-compressed serializations. | ||
ecdh5.setPublicKey(cafebabePubPtComp, 'hex'); | ||
assert.strictEqual(ecdh5.getPublicKey('hex'), cafebabePubPtUnComp); | ||
assert.strictEqual( | ||
ecdh5.getPublicKey('hex', 'compressed'), | ||
cafebabePubPtComp | ||
); | ||
ecdh5.setPublicKey(cafebabePubPtUnComp, 'hex'); | ||
assert.strictEqual(ecdh5.getPublicKey('hex'), cafebabePubPtUnComp); | ||
assert.strictEqual( | ||
ecdh5.getPublicKey('hex', 'compressed'), | ||
cafebabePubPtComp | ||
); | ||
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// Show why allowing the public key to be set on this type | ||
// does not make sense. | ||
ecdh5.setPublicKey(peerPubPtComp, 'hex'); | ||
assert.strictEqual(ecdh5.getPublicKey('hex'), peerPubPtUnComp); | ||
assert.throws(() => { | ||
// Error because the public key does not match the private key anymore. | ||
ecdh5.computeSecret(peerPubPtComp, 'hex', 'hex'); | ||
}, /Invalid key pair/); | ||
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// Set to a valid key to show that later attempts to set an invalid key are | ||
// rejected. | ||
ecdh5.setPrivateKey(cafebabeKey, 'hex'); | ||
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// Some invalid private keys for the secp256k1 curve. | ||
const errMessage = /Private key is not valid for specified curve/; | ||
['0000000000000000000000000000000000000000000000000000000000000000', | ||
'FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141', | ||
'FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF', | ||
].forEach((element) => { | ||
assert.throws(() => { | ||
ecdh5.setPrivateKey(element, 'hex'); | ||
}, errMessage); | ||
// Verify object state did not change. | ||
assert.strictEqual(ecdh5.getPrivateKey('hex'), cafebabeKey); | ||
}); | ||
} | ||
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// Use of invalid keys was not cleaning up ERR stack, and was causing | ||
// unexpected failure in subsequent signing operations. | ||
if (availableCurves.has('prime256v1') && availableHashes.has('sha256')) { | ||
const curve = crypto.createECDH('prime256v1'); | ||
const invalidKey = Buffer.alloc(65); | ||
invalidKey.fill('\0'); | ||
curve.generateKeys(); | ||
assert.throws( | ||
() => curve.computeSecret(invalidKey), | ||
{ | ||
code: 'ERR_CRYPTO_ECDH_INVALID_PUBLIC_KEY', | ||
name: 'Error', | ||
message: 'Public key is not valid for specified curve' | ||
}); | ||
// Check that signing operations are not impacted by the above error. | ||
const ecPrivateKey = | ||
'-----BEGIN EC PRIVATE KEY-----\n' + | ||
'MHcCAQEEIF+jnWY1D5kbVYDNvxxo/Y+ku2uJPDwS0r/VuPZQrjjVoAoGCCqGSM49\n' + | ||
'AwEHoUQDQgAEurOxfSxmqIRYzJVagdZfMMSjRNNhB8i3mXyIMq704m2m52FdfKZ2\n' + | ||
'pQhByd5eyj3lgZ7m7jbchtdgyOF8Io/1ng==\n' + | ||
'-----END EC PRIVATE KEY-----'; | ||
crypto.createSign('SHA256').sign(ecPrivateKey); | ||
} |
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'use strict'; | ||
const common = require('../common'); | ||
if (!common.hasCrypto) | ||
common.skip('missing crypto'); | ||
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const assert = require('assert'); | ||
const crypto = require('crypto'); | ||
const { modp2buf } = require('../common/crypto'); | ||
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const modp2 = crypto.createDiffieHellmanGroup('modp2'); | ||
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const views = common.getArrayBufferViews(modp2buf); | ||
for (const buf of [modp2buf, ...views]) { | ||
// Ensure specific generator (string with encoding) works as expected with | ||
// any ArrayBufferViews as the first argument to createDiffieHellman(). | ||
const exmodp2 = crypto.createDiffieHellman(buf, '02', 'hex'); | ||
modp2.generateKeys(); | ||
exmodp2.generateKeys(); | ||
const modp2Secret = modp2.computeSecret(exmodp2.getPublicKey()) | ||
.toString('hex'); | ||
const exmodp2Secret = exmodp2.computeSecret(modp2.getPublicKey()) | ||
.toString('hex'); | ||
assert.strictEqual(modp2Secret, exmodp2Secret); | ||
} |
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'use strict'; | ||
const common = require('../common'); | ||
if (!common.hasCrypto) | ||
common.skip('missing crypto'); | ||
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const assert = require('assert'); | ||
const crypto = require('crypto'); | ||
const { modp2buf } = require('../common/crypto'); | ||
const modp2 = crypto.createDiffieHellmanGroup('modp2'); | ||
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{ | ||
// Ensure specific generator (buffer) works as expected. | ||
const exmodp2 = crypto.createDiffieHellman(modp2buf, Buffer.from([2])); | ||
modp2.generateKeys(); | ||
exmodp2.generateKeys(); | ||
const modp2Secret = modp2.computeSecret(exmodp2.getPublicKey()) | ||
.toString('hex'); | ||
const exmodp2Secret = exmodp2.computeSecret(modp2.getPublicKey()) | ||
.toString('hex'); | ||
assert.strictEqual(modp2Secret, exmodp2Secret); | ||
} | ||
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{ | ||
// Ensure specific generator (string without encoding) works as expected. | ||
const exmodp2 = crypto.createDiffieHellman(modp2buf, '\x02'); | ||
exmodp2.generateKeys(); | ||
const modp2Secret = modp2.computeSecret(exmodp2.getPublicKey()) | ||
.toString('hex'); | ||
const exmodp2Secret = exmodp2.computeSecret(modp2.getPublicKey()) | ||
.toString('hex'); | ||
assert.strictEqual(modp2Secret, exmodp2Secret); | ||
} | ||
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{ | ||
// Ensure specific generator (numeric) works as expected. | ||
const exmodp2 = crypto.createDiffieHellman(modp2buf, 2); | ||
exmodp2.generateKeys(); | ||
const modp2Secret = modp2.computeSecret(exmodp2.getPublicKey()) | ||
.toString('hex'); | ||
const exmodp2Secret = exmodp2.computeSecret(modp2.getPublicKey()) | ||
.toString('hex'); | ||
assert.strictEqual(modp2Secret, exmodp2Secret); | ||
} |
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'use strict'; | ||
const common = require('../common'); | ||
if (!common.hasCrypto) | ||
common.skip('missing crypto'); | ||
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const assert = require('assert'); | ||
const crypto = require('crypto'); | ||
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const alice = crypto.createDiffieHellmanGroup('modp5'); | ||
const bob = crypto.createDiffieHellmanGroup('modp5'); | ||
alice.generateKeys(); | ||
bob.generateKeys(); | ||
const aSecret = alice.computeSecret(bob.getPublicKey()).toString('hex'); | ||
const bSecret = bob.computeSecret(alice.getPublicKey()).toString('hex'); | ||
assert.strictEqual(aSecret, bSecret); |
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