src/third_party/web_platform_tests/WebCryptoAPI/generateKey/failures.js - cobalt - Git at Google

 function run_test(algorithmNames) {
     var subtle = crypto.subtle; // Change to test prefixed implementations

     setup({explicit_timeout: true});

 // These tests check that generateKey throws an error, and that
 // the error is of the right type, for a wide set of incorrect parameters.
 //
 // Error testing occurs by setting the parameter that should trigger the
 // error to an invalid value, then combining that with all valid
 // parameters that should be checked earlier by generateKey, and all
 // valid and invalid parameters that should be checked later by
 // generateKey.
 //
 // There are a lot of combinations of possible parameters for both
 // success and failure modes, resulting in a very large number of tests
 // performed.


 // Setup: define the correct behaviors that should be sought, and create
 // helper functions that generate all possible test parameters for
 // different situations.

     var allTestVectors = [ // Parameters that should work for generateKey
         {name: "AES-CTR",  resultType: CryptoKey, usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: []},
         {name: "AES-CBC",  resultType: CryptoKey, usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: []},
         {name: "AES-GCM",  resultType: CryptoKey, usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: []},
         {name: "AES-KW",   resultType: CryptoKey, usages: ["wrapKey", "unwrapKey"], mandatoryUsages: []},
         {name: "HMAC",     resultType: CryptoKey, usages: ["sign", "verify"], mandatoryUsages: []},
         {name: "RSASSA-PKCS1-v1_5", resultType: "CryptoKeyPair", usages: ["sign", "verify"], mandatoryUsages: ["sign"]},
         {name: "RSA-PSS",  resultType: "CryptoKeyPair", usages: ["sign", "verify"], mandatoryUsages: ["sign"]},
         {name: "RSA-OAEP", resultType: "CryptoKeyPair", usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: ["decrypt", "unwrapKey"]},
         {name: "ECDSA",    resultType: "CryptoKeyPair", usages: ["sign", "verify"], mandatoryUsages: ["sign"]},
         {name: "ECDH",     resultType: "CryptoKeyPair", usages: ["deriveKey", "deriveBits"], mandatoryUsages: ["deriveKey", "deriveBits"]}
     ];

     var testVectors = [];
     if (algorithmNames && !Array.isArray(algorithmNames)) {
         algorithmNames = [algorithmNames];
     };
     allTestVectors.forEach(function(vector) {
         if (!algorithmNames || algorithmNames.includes(vector.name)) {
             testVectors.push(vector);
         }
     });


     function parameterString(algorithm, extractable, usages) {
         if (typeof algorithm !== "object" && typeof algorithm !== "string") {
             alert(algorithm);
         }

         var result = "(" +
                         objectToString(algorithm) + ", " +
                         objectToString(extractable) + ", " +
                         objectToString(usages) +
                      ")";

         return result;
     }

     // Test that a given combination of parameters results in an error,
     // AND that it is the correct kind of error.
     //
     // Expected error is either a number, tested against the error code,
     // or a string, tested against the error name.
     function testError(algorithm, extractable, usages, expectedError, testTag) {
         promise_test(function(test) {
             return crypto.subtle.generateKey(algorithm, extractable, usages)
             .then(function(result) {
                 assert_unreached("Operation succeeded, but should not have");
             }, function(err) {
                 if (typeof expectedError === "number") {
                     assert_equals(err.code, expectedError, testTag + " not supported");
                 } else {
                     assert_equals(err.name, expectedError, testTag + " not supported");
                 }
             });
         }, testTag + ": generateKey" + parameterString(algorithm, extractable, usages));
     }


     // Given an algorithm name, create several invalid parameters.
     function badAlgorithmPropertySpecifiersFor(algorithmName) {
         var results = [];

         if (algorithmName.toUpperCase().substring(0, 3) === "AES") {
             // Specifier properties are name and length
             [64, 127, 129, 255, 257, 512].forEach(function(length) {
                 results.push({name: algorithmName, length: length});
             });
         } else if (algorithmName.toUpperCase().substring(0, 3) === "RSA") {
             [new Uint8Array([1]), new Uint8Array([1,0,0])].forEach(function(publicExponent) {
                 results.push({name: algorithmName, hash: "SHA-256", modulusLength: 1024, publicExponent: publicExponent});
             });
         } else if (algorithmName.toUpperCase().substring(0, 2) === "EC") {
             ["P-512", "Curve25519"].forEach(function(curveName) {
                 results.push({name: algorithmName, namedCurve: curveName});
             });
         }

         return results;
     }


     // Don't create an exhaustive list of all invalid usages,
     // because there would usually be nearly 2**8 of them,
     // way too many to test. Instead, create every singleton
     // of an illegal usage, and "poison" every valid usage
     // with an illegal one.
     function invalidUsages(validUsages, mandatoryUsages) {
         var results = [];

         var illegalUsages = [];
         ["encrypt", "decrypt", "sign", "verify", "wrapKey", "unwrapKey", "deriveKey", "deriveBits"].forEach(function(usage) {
             if (!validUsages.includes(usage)) {
                 illegalUsages.push(usage);
             }
         });

         var goodUsageCombinations = allValidUsages(validUsages, false, mandatoryUsages);

         illegalUsages.forEach(function(illegalUsage) {
             results.push([illegalUsage]);
             goodUsageCombinations.forEach(function(usageCombination) {
                 results.push(usageCombination.concat([illegalUsage]));
             });
         });

         return results;
     }


 // Now test for properly handling errors
 // - Unsupported algorithm
 // - Bad usages for algorithm
 // - Bad key lengths

     // Algorithm normalization should fail with "Not supported"
     var badAlgorithmNames = [
         "AES",
         {name: "AES"},
         {name: "AES", length: 128},
         {name: "AES-CMAC", length: 128},    // Removed after CR
         {name: "AES-CFB", length: 128},      // Removed after CR
         {name: "HMAC", hash: "MD5"},
         {name: "RSA", hash: "SHA-256", modulusLength: 2048, publicExponent: new Uint8Array([1,0,1])},
         {name: "RSA-PSS", hash: "SHA", modulusLength: 2048, publicExponent: new Uint8Array([1,0,1])},
         {name: "EC", namedCurve: "P521"}
     ];


     // Algorithm normalization failures should be found first
     // - all other parameters can be good or bad, should fail
     //   due to NotSupportedError.
     badAlgorithmNames.forEach(function(algorithm) {
         allValidUsages(["decrypt", "sign", "deriveBits"], true, []) // Small search space, shouldn't matter because should fail before used
         .forEach(function(usages) {
             [false, true, "RED", 7].forEach(function(extractable){
                 testError(algorithm, extractable, usages, "NotSupportedError", "Bad algorithm");
             });
         });
     });


     // Algorithms normalize okay, but usages bad (though not empty).
     // It shouldn't matter what other extractable is. Should fail
     // due to SyntaxError
     testVectors.forEach(function(vector) {
         var name = vector.name;

         allAlgorithmSpecifiersFor(name).forEach(function(algorithm) {
             invalidUsages(vector.usages, vector.mandatoryUsages).forEach(function(usages) {
                 [true].forEach(function(extractable) {
                     testError(algorithm, extractable, usages, "SyntaxError", "Bad usages");
                 });
             });
         });
     });


     // Other algorithm properties should be checked next, so try good
     // algorithm names and usages, but bad algorithm properties next.
     // - Special case: normally bad usage [] isn't checked until after properties,
     //   so it's included in this test case. It should NOT cause an error.
     testVectors.forEach(function(vector) {
         var name = vector.name;
         badAlgorithmPropertySpecifiersFor(name).forEach(function(algorithm) {
             allValidUsages(vector.usages, true, vector.mandatoryUsages)
             .forEach(function(usages) {
                 [false, true].forEach(function(extractable) {
                     if (name.substring(0,2) === "EC") {
                         testError(algorithm, extractable, usages, "NotSupportedError", "Bad algorithm property");
                     } else {
                         testError(algorithm, extractable, usages, "OperationError", "Bad algorithm property");
                     }
                 });
             });
         });
     });


     // The last thing that should be checked is an empty usages (for secret keys).
     testVectors.forEach(function(vector) {
         var name = vector.name;

         allAlgorithmSpecifiersFor(name).forEach(function(algorithm) {
             var usages = [];
             [false, true].forEach(function(extractable) {
                 testError(algorithm, extractable, usages, "SyntaxError", "Empty usages");
             });
         });
     });


 }
	function run_test(algorithmNames) {
	var subtle = crypto.subtle; // Change to test prefixed implementations

	setup({explicit_timeout: true});

	// These tests check that generateKey throws an error, and that
	// the error is of the right type, for a wide set of incorrect parameters.
	//
	// Error testing occurs by setting the parameter that should trigger the
	// error to an invalid value, then combining that with all valid
	// parameters that should be checked earlier by generateKey, and all
	// valid and invalid parameters that should be checked later by
	// generateKey.
	//
	// There are a lot of combinations of possible parameters for both
	// success and failure modes, resulting in a very large number of tests
	// performed.


	// Setup: define the correct behaviors that should be sought, and create
	// helper functions that generate all possible test parameters for
	// different situations.

	var allTestVectors = [ // Parameters that should work for generateKey
	{name: "AES-CTR", resultType: CryptoKey, usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: []},
	{name: "AES-CBC", resultType: CryptoKey, usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: []},
	{name: "AES-GCM", resultType: CryptoKey, usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: []},
	{name: "AES-KW", resultType: CryptoKey, usages: ["wrapKey", "unwrapKey"], mandatoryUsages: []},
	{name: "HMAC", resultType: CryptoKey, usages: ["sign", "verify"], mandatoryUsages: []},
	{name: "RSASSA-PKCS1-v1_5", resultType: "CryptoKeyPair", usages: ["sign", "verify"], mandatoryUsages: ["sign"]},
	{name: "RSA-PSS", resultType: "CryptoKeyPair", usages: ["sign", "verify"], mandatoryUsages: ["sign"]},
	{name: "RSA-OAEP", resultType: "CryptoKeyPair", usages: ["encrypt", "decrypt", "wrapKey", "unwrapKey"], mandatoryUsages: ["decrypt", "unwrapKey"]},
	{name: "ECDSA", resultType: "CryptoKeyPair", usages: ["sign", "verify"], mandatoryUsages: ["sign"]},
	{name: "ECDH", resultType: "CryptoKeyPair", usages: ["deriveKey", "deriveBits"], mandatoryUsages: ["deriveKey", "deriveBits"]}
	];

	var testVectors = [];
	if (algorithmNames && !Array.isArray(algorithmNames)) {
	algorithmNames = [algorithmNames];
	};
	allTestVectors.forEach(function(vector) {
	if (!algorithmNames \|\| algorithmNames.includes(vector.name)) {
	testVectors.push(vector);
	}
	});


	function parameterString(algorithm, extractable, usages) {
	if (typeof algorithm !== "object" && typeof algorithm !== "string") {
	alert(algorithm);
	}

	var result = "(" +
	objectToString(algorithm) + ", " +
	objectToString(extractable) + ", " +
	objectToString(usages) +
	")";

	return result;
	}

	// Test that a given combination of parameters results in an error,
	// AND that it is the correct kind of error.
	//
	// Expected error is either a number, tested against the error code,
	// or a string, tested against the error name.
	function testError(algorithm, extractable, usages, expectedError, testTag) {
	promise_test(function(test) {
	return crypto.subtle.generateKey(algorithm, extractable, usages)
	.then(function(result) {
	assert_unreached("Operation succeeded, but should not have");
	}, function(err) {
	if (typeof expectedError === "number") {
	assert_equals(err.code, expectedError, testTag + " not supported");
	} else {
	assert_equals(err.name, expectedError, testTag + " not supported");
	}
	});
	}, testTag + ": generateKey" + parameterString(algorithm, extractable, usages));
	}


	// Given an algorithm name, create several invalid parameters.
	function badAlgorithmPropertySpecifiersFor(algorithmName) {
	var results = [];

	if (algorithmName.toUpperCase().substring(0, 3) === "AES") {
	// Specifier properties are name and length
	[64, 127, 129, 255, 257, 512].forEach(function(length) {
	results.push({name: algorithmName, length: length});
	});
	} else if (algorithmName.toUpperCase().substring(0, 3) === "RSA") {
	[new Uint8Array([1]), new Uint8Array([1,0,0])].forEach(function(publicExponent) {
	results.push({name: algorithmName, hash: "SHA-256", modulusLength: 1024, publicExponent: publicExponent});
	});
	} else if (algorithmName.toUpperCase().substring(0, 2) === "EC") {
	["P-512", "Curve25519"].forEach(function(curveName) {
	results.push({name: algorithmName, namedCurve: curveName});
	});
	}

	return results;
	}


	// Don't create an exhaustive list of all invalid usages,
	// because there would usually be nearly 2**8 of them,
	// way too many to test. Instead, create every singleton
	// of an illegal usage, and "poison" every valid usage
	// with an illegal one.
	function invalidUsages(validUsages, mandatoryUsages) {
	var results = [];

	var illegalUsages = [];
	["encrypt", "decrypt", "sign", "verify", "wrapKey", "unwrapKey", "deriveKey", "deriveBits"].forEach(function(usage) {
	if (!validUsages.includes(usage)) {
	illegalUsages.push(usage);
	}
	});

	var goodUsageCombinations = allValidUsages(validUsages, false, mandatoryUsages);

	illegalUsages.forEach(function(illegalUsage) {
	results.push([illegalUsage]);
	goodUsageCombinations.forEach(function(usageCombination) {
	results.push(usageCombination.concat([illegalUsage]));
	});
	});

	return results;
	}


	// Now test for properly handling errors
	// - Unsupported algorithm
	// - Bad usages for algorithm
	// - Bad key lengths

	// Algorithm normalization should fail with "Not supported"
	var badAlgorithmNames = [
	"AES",
	{name: "AES"},
	{name: "AES", length: 128},
	{name: "AES-CMAC", length: 128}, // Removed after CR
	{name: "AES-CFB", length: 128}, // Removed after CR
	{name: "HMAC", hash: "MD5"},
	{name: "RSA", hash: "SHA-256", modulusLength: 2048, publicExponent: new Uint8Array([1,0,1])},
	{name: "RSA-PSS", hash: "SHA", modulusLength: 2048, publicExponent: new Uint8Array([1,0,1])},
	{name: "EC", namedCurve: "P521"}
	];


	// Algorithm normalization failures should be found first
	// - all other parameters can be good or bad, should fail
	// due to NotSupportedError.
	badAlgorithmNames.forEach(function(algorithm) {
	allValidUsages(["decrypt", "sign", "deriveBits"], true, []) // Small search space, shouldn't matter because should fail before used
	.forEach(function(usages) {
	[false, true, "RED", 7].forEach(function(extractable){
	testError(algorithm, extractable, usages, "NotSupportedError", "Bad algorithm");
	});
	});
	});


	// Algorithms normalize okay, but usages bad (though not empty).
	// It shouldn't matter what other extractable is. Should fail
	// due to SyntaxError
	testVectors.forEach(function(vector) {
	var name = vector.name;

	allAlgorithmSpecifiersFor(name).forEach(function(algorithm) {
	invalidUsages(vector.usages, vector.mandatoryUsages).forEach(function(usages) {
	[true].forEach(function(extractable) {
	testError(algorithm, extractable, usages, "SyntaxError", "Bad usages");
	});
	});
	});
	});


	// Other algorithm properties should be checked next, so try good
	// algorithm names and usages, but bad algorithm properties next.
	// - Special case: normally bad usage [] isn't checked until after properties,
	// so it's included in this test case. It should NOT cause an error.
	testVectors.forEach(function(vector) {
	var name = vector.name;
	badAlgorithmPropertySpecifiersFor(name).forEach(function(algorithm) {
	allValidUsages(vector.usages, true, vector.mandatoryUsages)
	.forEach(function(usages) {
	[false, true].forEach(function(extractable) {
	if (name.substring(0,2) === "EC") {
	testError(algorithm, extractable, usages, "NotSupportedError", "Bad algorithm property");
	} else {
	testError(algorithm, extractable, usages, "OperationError", "Bad algorithm property");
	}
	});
	});
	});
	});


	// The last thing that should be checked is an empty usages (for secret keys).
	testVectors.forEach(function(vector) {
	var name = vector.name;

	allAlgorithmSpecifiersFor(name).forEach(function(algorithm) {
	var usages = [];
	[false, true].forEach(function(extractable) {
	testError(algorithm, extractable, usages, "SyntaxError", "Empty usages");
	});
	});
	});


	}