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Gazebo_simulation-Frontend/node_modules/webcrypto-shim/test/alg/hmac_sha-1.js
Riddhi Dave 48eea114b9 React files
2020-12-21 10:29:31 -05:00

336 lines
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JavaScript
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describe( 'HMAC_SHA-1', function () {
var alg = { name: 'HMAC', hash: 'SHA-1' },
jwkAlg = 'HS1',
bs = 512;
describe( "generateKey", function () {
it( "extractable", function ( done ) {
var keyAlg = extend( normalizeAlg(alg), { length: 128 } ),
keyExt = true,
keyUse = [ 'sign', 'verify' ];
crypto.subtle.generateKey( keyAlg, keyExt, keyUse )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.extractable).toBe(keyExt);
expect(key.algorithm).toEqual(keyAlg);
expect(key.usages).toEqual(keyUse);
})
.catch(fail)
.then(done);
});
it( "non-extractable", function ( done ) {
var keyAlg = extend( normalizeAlg(alg), { length: 128 } ),
keyExt = false,
keyUse = [ 'sign', 'verify' ];
crypto.subtle.generateKey( keyAlg, keyExt, keyUse )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.extractable).toBe(keyExt);
expect(key.algorithm).toEqual(keyAlg);
expect(key.usages).toEqual(keyUse);
})
.catch(fail)
.then(done);
});
it( "non-extractable, w/ omited 'length' parameter", function ( done ) {
var keyAlg = extend( normalizeAlg(alg), { length: bs } ),
keyExt = false,
keyUse = [ 'sign', 'verify' ];
crypto.subtle.generateKey( alg, keyExt, keyUse )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.extractable).toBe(keyExt);
expect(key.algorithm).toEqual(keyAlg);
expect(key.usages).toEqual(keyUse);
})
.catch(fail)
.then(done);
});
it( "non-extractable, w/ 'length' parameter not a multiple of 8", function ( done ) {
var keyAlg = extend( normalizeAlg(alg), { length: 137 } ),
keyExt = false,
keyUse = [ 'sign', 'verify' ];
crypto.subtle.generateKey( keyAlg, keyExt, keyUse )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.extractable).toBe(keyExt);
expect(key.algorithm).toEqual(keyAlg);
expect(key.usages).toEqual(keyUse);
})
.catch(fail)
.then(done);
});
it( "w/ sign-only key usage", function ( done ) {
var keyAlg = extend( normalizeAlg(alg), { length: bs } ),
keyExt = false,
keyUse = [ 'sign' ];
crypto.subtle.generateKey( keyAlg, keyExt, keyUse )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.extractable).toBe(keyExt);
expect(key.algorithm).toEqual(keyAlg);
expect(key.usages).toEqual(keyUse);
})
.catch(fail)
.then(done);
});
it( "w/ verify-only key usage", function ( done ) {
var keyAlg = extend( normalizeAlg(alg), { length: bs } ),
keyExt = false,
keyUse = [ 'sign' ];
crypto.subtle.generateKey( keyAlg, keyExt, keyUse )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.extractable).toBe(keyExt);
expect(key.algorithm).toEqual(keyAlg);
expect(key.usages).toEqual(keyUse);
})
.catch(fail)
.then(done);
});
});
describe( "importKey", function () {
var vectors = [
{ key: "test",
use: [ 'sign', 'verify' ] },
{ comment: "non-extractable",
key: "test",
use: [ 'sign', 'verify' ] },
{ comment: "key length is't a multiple of 8",
key: "bits",
len: 31 },
{ comment: "sign-only",
key: "qwerty",
use: [ 'sign' ] },
{ comment: "verify-only",
key: "verify-only",
use: [ 'verify' ] },
{ comment: "160-bit key",
key: "0123456789abcdefghij",
use: [ 'verify' ] },
];
vectors.forEach( function ( v ) {
var keyAlg = extend( normalizeAlg(alg), { length: v.len || 8 * v.key.length } ),
keyBytes = s2b(v.key),
keyJwk = { kty: 'oct', alg: jwkAlg, ext: v.ext || true, key_ops: v.use || [ 'sign', 'verify' ],
k: btoa(v.key).replace(/\=+$/, '').replace(/\+/g, '-').replace(/\//g, '_') };
it( "'" + v.key + "' as 'raw' ArrayBuffer" + ( v.comment ? ", " + v.comment : "" ), function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes.buffer, keyAlg, v.ext || true, v.use || [ 'sign', 'verify' ] )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.algorithm).toEqual(keyAlg);
expect(key.extractable).toBe(v.ext || true);
expect(key.usages).toEqual(v.use || [ 'sign', 'verify' ] );
})
.catch(fail)
.then(done);
});
it( "'" + v.key + "' as 'raw' Uint8Array" + ( v.comment ? ", " + v.comment : "" ), function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes, keyAlg, v.ext || true, v.use || [ 'sign', 'verify' ] )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.algorithm).toEqual(keyAlg);
expect(key.extractable).toBe(v.ext || true);
expect(key.usages).toEqual(v.use || [ 'sign', 'verify' ] );
})
.catch(fail)
.then(done);
});
it( "'" + v.key + "' as 'jwk' JsonWebKey" + ( v.comment ? ", " + v.comment : "" ), function ( done ) {
crypto.subtle.importKey( 'jwk', keyJwk, keyAlg, v.ext || true, v.use || [ 'sign', 'verify' ] )
.then( function ( key ) {
expect(key).toEqual(jasmine.any(CryptoKey));
expect(key.type).toBe('secret');
expect(key.algorithm).toEqual(keyAlg);
expect(key.extractable).toBe(v.ext || true);
expect(key.usages).toEqual(v.use || [ 'sign', 'verify' ] );
})
.catch(fail)
.then(done);
});
});
});
describe( "exportKey", function () {
var vectors = [
{ key: "test",
use: [ 'sign', 'verify' ] },
{ comment: "key length is't a multiple of 8",
key: "bits",
len: 31 },
{ comment: "sign-only",
key: "qwerty",
use: [ 'sign' ] },
{ comment: "verify-only",
key: "verify-only",
use: [ 'verify' ] },
{ comment: "160-bit key",
key: "0123456789abcdefghij",
use: [ 'verify' ] },
];
vectors.forEach( function ( v ) {
var keyBytes = s2b(v.key),
keyJwk = { kty: 'oct', alg: jwkAlg, ext: true, key_ops: v.use || [ 'sign', 'verify' ],
k: btoa(v.key).replace(/\=+$/, '').replace(/\+/g, '-').replace(/\//g, '_') };
it( "'" + v.key + "' as 'raw' ArrayBuffer" + ( v.comment ? ", " + v.comment : "" ), function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes, alg, true, v.use || [ 'sign', 'verify' ] )
.then( function ( key ) {
return crypto.subtle.exportKey( 'raw', key )
})
.then( function ( keyData ) {
expect(keyData).toEqual(jasmine.any(ArrayBuffer));
expect( b2s(keyData) ).toEqual(v.key);
})
.catch(fail)
.then(done);
});
it( "'" + v.key + "' as 'jwk' JsonWebKey" + ( v.comment ? ", " + v.comment : "" ), function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes, alg, true, v.use || [ 'sign', 'verify' ] )
.then( function ( key ) {
return crypto.subtle.exportKey( 'jwk', key )
})
.then( function ( jwk ) {
expect(jwk).toEqual(jasmine.any(Object));
expect(jwk).toEqual(keyJwk);
})
.catch(fail)
.then(done);
});
});
});
describe( "sign", function () {
var vectors = [
{ key: "test",
text: "",
mac: "fc85087452696e5bcbe3b7a71fde00e320af2cca" },
{ key: "test",
text: "hmac",
mac: "2642b744d69b90c320b6d929f16f10408c5ebb13" },
{ key: "test",
text: "Hmac",
mac: "8404861d13420ae01368f4f63cc8b45c1e35d9eb" },
{ key: "53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3t!",
text: "TestTestTest",
mac: "eac8bc37de470cbeb980fea9cebfa729dccbae46" },
{ key: "53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3t!\0",
text: "TestTestTest",
mac: "eac8bc37de470cbeb980fea9cebfa729dccbae46" },
{ key: "53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3t!\0\0",
text: "TestTestTest",
mac: "32534228e53ff25a0c475acee93577afaf21e544" },
];
vectors.forEach( function ( v ) {
var keyBytes = s2b( v.key ),
textBytes = s2b( v.text );
it( "'" + v.text + "' as ArrayBuffer w/ key '" + v.key + "'", function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes, alg, false, [ 'sign', 'verify' ] )
.then( function ( key ) {
return crypto.subtle.sign( alg, key, textBytes.buffer )
})
.then( function ( mac ) {
expect(mac).toEqual(jasmine.any(ArrayBuffer));
expect( b2x(mac) ).toEqual(v.mac);
})
.catch(fail)
.then(done);
});
it( "'" + v.text + "' as Uint8Array w/ key '" + v.key + "'", function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes, alg, false, [ 'sign', 'verify' ] )
.then( function ( key ) {
return crypto.subtle.sign( alg, key, textBytes )
})
.then( function ( mac ) {
expect(mac).toEqual(jasmine.any(ArrayBuffer));
expect( b2x(mac) ).toEqual(v.mac);
})
.catch(fail)
.then(done);
});
});
});
describe( "verify", function () {
var vectors = [
{ key: "test",
text: "",
mac: "fc85087452696e5bcbe3b7a71fde00e320af2cca" },
{ key: "test",
text: "hmac",
mac: "2642b744d69b90c320b6d929f16f10408c5ebb13" },
{ key: "test",
text: "Hmac",
mac: "8404861d13420ae01368f4f63cc8b45c1e35d9eb" },
{ key: "53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3t!",
text: "TestTestTest",
mac: "eac8bc37de470cbeb980fea9cebfa729dccbae46" },
{ key: "53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3t!\0",
text: "TestTestTest",
mac: "eac8bc37de470cbeb980fea9cebfa729dccbae46" },
{ key: "53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3tpw53cr3t!\0\0",
text: "TestTestTest",
mac: "32534228e53ff25a0c475acee93577afaf21e544" },
];
vectors.forEach( function ( v ) {
var keyBytes = s2b( v.key ),
textBytes = s2b( v.text ),
macBytes = x2b( v.mac );
it( "'" + v.text + "' w/ key '" + v.key + "' to match '" + v.mac + "' as ArrayBuffer", function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes, alg, false, [ 'sign', 'verify' ] )
.then( function ( key ) {
return crypto.subtle.verify( alg, key, macBytes.buffer, textBytes )
})
.then( function ( valid ) {
expect(valid).toBe(true);
})
.catch(fail)
.then(done);
});
it( "'" + v.text + "' w/ key '" + v.key + "' to match '" + v.mac + "' as Uint8Array", function ( done ) {
crypto.subtle.importKey( 'raw', keyBytes, alg, false, [ 'sign', 'verify' ] )
.then( function ( key ) {
return crypto.subtle.verify( alg, key, macBytes, textBytes )
})
.then( function ( valid ) {
expect(valid).toBe(true);
})
.catch(fail)
.then(done);
});
});
});
});
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