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test: add test cases for paramEncoding 'explicit' #27900

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test: add test cases for paramEncoding 'explicit' #27900

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92 changes: 92 additions & 0 deletions test/parallel/test-crypto-keygen.js
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Original file line number Diff line number Diff line change
Expand Up @@ -378,6 +378,30 @@ const sec1EncExp = (cipher) => getRegExpForPEM('EC PRIVATE KEY', cipher);
testSignVerify(publicKey, privateKey);
}));

// Test async elliptic curve key generation, e.g. for ECDSA, with a SEC1
// private key with paramEncoding explicit.
generateKeyPair('ec', {
namedCurve: 'prime256v1',
paramEncoding: 'explicit',
publicKeyEncoding: {
type: 'spki',
format: 'pem'
},
privateKeyEncoding: {
type: 'sec1',
format: 'pem'
}
}, common.mustCall((err, publicKey, privateKey) => {
assert.ifError(err);

assert.strictEqual(typeof publicKey, 'string');
assert(spkiExp.test(publicKey));
assert.strictEqual(typeof privateKey, 'string');
assert(sec1Exp.test(privateKey));

testSignVerify(publicKey, privateKey);
}));

// Do the same with an encrypted private key.
generateKeyPair('ec', {
namedCurve: 'prime256v1',
Expand Down Expand Up @@ -409,6 +433,38 @@ const sec1EncExp = (cipher) => getRegExpForPEM('EC PRIVATE KEY', cipher);

testSignVerify(publicKey, { key: privateKey, passphrase: 'secret' });
}));

// Do the same with an encrypted private key with paramEncoding explicit.
generateKeyPair('ec', {
namedCurve: 'prime256v1',
paramEncoding: 'explicit',
publicKeyEncoding: {
type: 'spki',
format: 'pem'
},
privateKeyEncoding: {
type: 'sec1',
format: 'pem',
cipher: 'aes-128-cbc',
passphrase: 'secret'
}
}, common.mustCall((err, publicKey, privateKey) => {
assert.ifError(err);

assert.strictEqual(typeof publicKey, 'string');
assert(spkiExp.test(publicKey));
assert.strictEqual(typeof privateKey, 'string');
assert(sec1EncExp('AES-128-CBC').test(privateKey));

// Since the private key is encrypted, signing shouldn't work anymore.
common.expectsError(() => testSignVerify(publicKey, privateKey), {
type: TypeError,
code: 'ERR_MISSING_PASSPHRASE',
message: 'Passphrase required for encrypted key'
});

testSignVerify(publicKey, { key: privateKey, passphrase: 'secret' });
}));
}

{
Expand Down Expand Up @@ -447,6 +503,42 @@ const sec1EncExp = (cipher) => getRegExpForPEM('EC PRIVATE KEY', cipher);
passphrase: 'top secret'
});
}));

// Test async elliptic curve key generation, e.g. for ECDSA, with an encrypted
// private key with paramEncoding explicit.
generateKeyPair('ec', {
namedCurve: 'P-256',
paramEncoding: 'explicit',
publicKeyEncoding: {
type: 'spki',
format: 'pem'
},
privateKeyEncoding: {
type: 'pkcs8',
format: 'pem',
cipher: 'aes-128-cbc',
passphrase: 'top secret'
}
}, common.mustCall((err, publicKey, privateKey) => {
assert.ifError(err);

assert.strictEqual(typeof publicKey, 'string');
assert(spkiExp.test(publicKey));
assert.strictEqual(typeof privateKey, 'string');
assert(pkcs8EncExp.test(privateKey));

// Since the private key is encrypted, signing shouldn't work anymore.
common.expectsError(() => testSignVerify(publicKey, privateKey), {
type: TypeError,
code: 'ERR_MISSING_PASSPHRASE',
message: 'Passphrase required for encrypted key'
});

testSignVerify(publicKey, {
key: privateKey,
passphrase: 'top secret'
});
}));
}

// Test invalid parameter encoding.
Expand Down