third_party/web_platform_tests/WebCryptoAPI/encrypt_decrypt/aes.js - cobalt - Git at Google


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

     // When are all these tests really done? When all the promises they use have resolved.
     var all_promises = [];

     // Source file aes_XXX_vectors.js provides the getTestVectors method
     // for the AES-XXX algorithm that drives these tests.
     var vectors = getTestVectors();
     var passingVectors = vectors.passing;
     var failingVectors = vectors.failing;
     var decryptionFailingVectors = vectors.decryptionFailing;

     // Check for successful encryption.
     passingVectors.forEach(function(vector) {
         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.encrypt(vector.algorithm, vector.key, vector.plaintext)
                 .then(function(result) {
                     assert_true(equalBuffers(result, vector.result), "Should return expected result");
                 }, function(err) {
                     assert_unreached("encrypt error for test " + vector.name + ": " + err.message);
                 });
             }, vector.name);
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: " + vector.name);
         });

         all_promises.push(promise);
     });

     // Check for successful encryption even if the buffer is changed after calling encrypt.
     passingVectors.forEach(function(vector) {
         var plaintext = copyBuffer(vector.plaintext);
         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 var operation = subtle.encrypt(vector.algorithm, vector.key, plaintext)
                 .then(function(result) {
                     assert_true(equalBuffers(result, vector.result), "Should return expected result");
                 }, function(err) {
                     assert_unreached("encrypt error for test " + vector.name + ": " + err.message);
                 });
                 plaintext[0] = 255 - plaintext[0];
                 return operation;
             }, vector.name + " with altered plaintext");
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: " + vector.name + " with altered plaintext");
         });

         all_promises.push(promise);
     });

     // Check for successful decryption.
     passingVectors.forEach(function(vector) {
         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.decrypt(vector.algorithm, vector.key, vector.result)
                 .then(function(result) {
                     assert_true(equalBuffers(result, vector.plaintext), "Should return expected result");
                 }, function(err) {
                     assert_unreached("decrypt error for test " + vector.name + ": " + err.message);
                 });
             }, vector.name + " decryption");
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step for decryption: " + vector.name);
         });

         all_promises.push(promise);
     });

     // Check for successful decryption even if ciphertext is altered.
     passingVectors.forEach(function(vector) {
         var ciphertext = copyBuffer(vector.result);
         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 var operation = subtle.decrypt(vector.algorithm, vector.key, ciphertext)
                 .then(function(result) {
                     assert_true(equalBuffers(result, vector.plaintext), "Should return expected result");
                 }, function(err) {
                     assert_unreached("decrypt error for test " + vector.name + ": " + err.message);
                 });
                 ciphertext[0] = 255 - ciphertext[0];
                 return operation;
             }, vector.name + " decryption with altered ciphertext");
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step for decryption: " + vector.name + " with altered ciphertext");
         });

         all_promises.push(promise);
     });

     // Everything that succeeded should fail if no "encrypt" usage.
     passingVectors.forEach(function(vector) {
         // Don't want to overwrite key being used for success tests!
         var badVector = Object.assign({}, vector);
         badVector.key = null;

         var promise = importVectorKey(badVector, ["decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.encrypt(vector.algorithm, vector.key, vector.plaintext)
                 .then(function(result) {
                     assert_unreached("should have thrown exception for test " + vector.name);
                 }, function(err) {
                     assert_equals(err.name, "InvalidAccessError", "Should throw an InvalidAccessError instead of " + err.message)
                 });
             }, vector.name + " without encrypt usage");
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: " + vector.name + " without encrypt usage");
         });

         all_promises.push(promise);
     });

     // Encryption should fail if algorithm of key doesn't match algorithm of function call.
     passingVectors.forEach(function(vector) {
         var algorithm = Object.assign({}, vector.algorithm);
         if (algorithm.name === "AES-CBC") {
             algorithm.name = "AES-CTR";
             algorithm.counter = new Uint8Array(16);
             algorithm.length = 64;
         } else {
             algorithm.name = "AES-CBC";
             algorithm.iv = new Uint8Array(16); // Need syntactically valid parameter to get to error being checked.
         }

         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.encrypt(algorithm, vector.key, vector.plaintext)
                 .then(function(result) {
                     assert_unreached("encrypt succeeded despite mismatch " + vector.name + ": " + err.message);
                 }, function(err) {
                     assert_equals(err.name, "InvalidAccessError", "Mismatch should cause InvalidAccessError instead of " + err.message);
                 });
             }, vector.name + " with mismatched key and algorithm");
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: " + vector.name + " with mismatched key and algorithm");
         });

         all_promises.push(promise);
     });

     // Everything that succeeded decrypting should fail if no "decrypt" usage.
     passingVectors.forEach(function(vector) {
         // Don't want to overwrite key being used for success tests!
         var badVector = Object.assign({}, vector);
         badVector.key = null;

         var promise = importVectorKey(badVector, ["encrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.decrypt(vector.algorithm, vector.key, vector.result)
                 .then(function(result) {
                     assert_unreached("should have thrown exception for test " + vector.name);
                 }, function(err) {
                     assert_equals(err.name, "InvalidAccessError", "Should throw an InvalidAccessError instead of " + err.message)
                 });
             }, vector.name + " without decrypt usage");
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: " + vector.name + " without decrypt usage");
         });

         all_promises.push(promise);
     });

     // Check for OperationError due to data lengths.
     failingVectors.forEach(function(vector) {
         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.encrypt(vector.algorithm, vector.key, vector.plaintext)
                 .then(function(result) {
                     assert_unreached("should have thrown exception for test " + vector.name);
                 }, function(err) {
                     assert_equals(err.name, "OperationError", "Should throw an OperationError instead of " + err.message)
                 });
             }, vector.name);
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: " + vector.name);
         });

         all_promises.push(promise);
     });

     // Check for OperationError due to data lengths for decryption, too.
     failingVectors.forEach(function(vector) {
         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.decrypt(vector.algorithm, vector.key, vector.result)
                 .then(function(result) {
                     assert_unreached("should have thrown exception for test " + vector.name);
                 }, function(err) {
                     assert_equals(err.name, "OperationError", "Should throw an OperationError instead of " + err.message)
                 });
             }, vector.name + " decryption");
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: decryption " + vector.name);
         });

         all_promises.push(promise);
     });

     // Check for decryption failing for algorithm-specific reasons (such as bad
     // padding for AES-CBC).
     decryptionFailingVectors.forEach(function(vector) {
         var promise = importVectorKey(vector, ["encrypt", "decrypt"])
         .then(function(vector) {
             promise_test(function(test) {
                 return subtle.decrypt(vector.algorithm, vector.key, vector.result)
                 .then(function(result) {
                     assert_unreached("should have thrown exception for test " + vector.name);
                 }, function(err) {
                     assert_equals(err.name, "OperationError", "Should throw an OperationError instead of " + err.message)
                 });
             }, vector.name);
         }, function(err) {
             // We need a failed test if the importVectorKey operation fails, so
             // we know we never tested encryption
             promise_test(function(test) {
                 assert_unreached("importKey failed for " + vector.name);
             }, "importKey step: decryption " + vector.name);
         });

         all_promises.push(promise);
     });

     Promise.all(all_promises)
     .then(function() {done();})
     .catch(function() {done();})

     // A test vector has all needed fields for encryption, EXCEPT that the
     // key field may be null. This function replaces that null with the Correct
     // CryptoKey object.
     //
     // Returns a Promise that yields an updated vector on success.
     function importVectorKey(vector, usages) {
         if (vector.key !== null) {
             return new Promise(function(resolve, reject) {
                 resolve(vector);
             });
         } else {
             return subtle.importKey("raw", vector.keyBuffer, {name: vector.algorithm.name}, false, usages)
             .then(function(key) {
                 vector.key = key;
                 return vector;
             });
         }
     }

     // Returns a copy of the sourceBuffer it is sent.
     function copyBuffer(sourceBuffer) {
         var source = new Uint8Array(sourceBuffer);
         var copy = new Uint8Array(sourceBuffer.byteLength)

         for (var i=0; i<source.byteLength; i++) {
             copy[i] = source[i];
         }

         return copy;
     }

     function equalBuffers(a, b) {
         if (a.byteLength !== b.byteLength) {
             return false;
         }

         var aBytes = new Uint8Array(a);
         var bBytes = new Uint8Array(b);

         for (var i=0; i<a.byteLength; i++) {
             if (aBytes[i] !== bBytes[i]) {
                 return false;
             }
         }

         return true;
     }

     return;
 }

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

	// When are all these tests really done? When all the promises they use have resolved.
	var all_promises = [];

	// Source file aes_XXX_vectors.js provides the getTestVectors method
	// for the AES-XXX algorithm that drives these tests.
	var vectors = getTestVectors();
	var passingVectors = vectors.passing;
	var failingVectors = vectors.failing;
	var decryptionFailingVectors = vectors.decryptionFailing;

	// Check for successful encryption.
	passingVectors.forEach(function(vector) {
	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.encrypt(vector.algorithm, vector.key, vector.plaintext)
	.then(function(result) {
	assert_true(equalBuffers(result, vector.result), "Should return expected result");
	}, function(err) {
	assert_unreached("encrypt error for test " + vector.name + ": " + err.message);
	});
	}, vector.name);
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: " + vector.name);
	});

	all_promises.push(promise);
	});

	// Check for successful encryption even if the buffer is changed after calling encrypt.
	passingVectors.forEach(function(vector) {
	var plaintext = copyBuffer(vector.plaintext);
	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	var operation = subtle.encrypt(vector.algorithm, vector.key, plaintext)
	.then(function(result) {
	assert_true(equalBuffers(result, vector.result), "Should return expected result");
	}, function(err) {
	assert_unreached("encrypt error for test " + vector.name + ": " + err.message);
	});
	plaintext[0] = 255 - plaintext[0];
	return operation;
	}, vector.name + " with altered plaintext");
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: " + vector.name + " with altered plaintext");
	});

	all_promises.push(promise);
	});

	// Check for successful decryption.
	passingVectors.forEach(function(vector) {
	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.decrypt(vector.algorithm, vector.key, vector.result)
	.then(function(result) {
	assert_true(equalBuffers(result, vector.plaintext), "Should return expected result");
	}, function(err) {
	assert_unreached("decrypt error for test " + vector.name + ": " + err.message);
	});
	}, vector.name + " decryption");
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step for decryption: " + vector.name);
	});

	all_promises.push(promise);
	});

	// Check for successful decryption even if ciphertext is altered.
	passingVectors.forEach(function(vector) {
	var ciphertext = copyBuffer(vector.result);
	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	var operation = subtle.decrypt(vector.algorithm, vector.key, ciphertext)
	.then(function(result) {
	assert_true(equalBuffers(result, vector.plaintext), "Should return expected result");
	}, function(err) {
	assert_unreached("decrypt error for test " + vector.name + ": " + err.message);
	});
	ciphertext[0] = 255 - ciphertext[0];
	return operation;
	}, vector.name + " decryption with altered ciphertext");
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step for decryption: " + vector.name + " with altered ciphertext");
	});

	all_promises.push(promise);
	});

	// Everything that succeeded should fail if no "encrypt" usage.
	passingVectors.forEach(function(vector) {
	// Don't want to overwrite key being used for success tests!
	var badVector = Object.assign({}, vector);
	badVector.key = null;

	var promise = importVectorKey(badVector, ["decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.encrypt(vector.algorithm, vector.key, vector.plaintext)
	.then(function(result) {
	assert_unreached("should have thrown exception for test " + vector.name);
	}, function(err) {
	assert_equals(err.name, "InvalidAccessError", "Should throw an InvalidAccessError instead of " + err.message)
	});
	}, vector.name + " without encrypt usage");
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: " + vector.name + " without encrypt usage");
	});

	all_promises.push(promise);
	});

	// Encryption should fail if algorithm of key doesn't match algorithm of function call.
	passingVectors.forEach(function(vector) {
	var algorithm = Object.assign({}, vector.algorithm);
	if (algorithm.name === "AES-CBC") {
	algorithm.name = "AES-CTR";
	algorithm.counter = new Uint8Array(16);
	algorithm.length = 64;
	} else {
	algorithm.name = "AES-CBC";
	algorithm.iv = new Uint8Array(16); // Need syntactically valid parameter to get to error being checked.
	}

	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.encrypt(algorithm, vector.key, vector.plaintext)
	.then(function(result) {
	assert_unreached("encrypt succeeded despite mismatch " + vector.name + ": " + err.message);
	}, function(err) {
	assert_equals(err.name, "InvalidAccessError", "Mismatch should cause InvalidAccessError instead of " + err.message);
	});
	}, vector.name + " with mismatched key and algorithm");
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: " + vector.name + " with mismatched key and algorithm");
	});

	all_promises.push(promise);
	});

	// Everything that succeeded decrypting should fail if no "decrypt" usage.
	passingVectors.forEach(function(vector) {
	// Don't want to overwrite key being used for success tests!
	var badVector = Object.assign({}, vector);
	badVector.key = null;

	var promise = importVectorKey(badVector, ["encrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.decrypt(vector.algorithm, vector.key, vector.result)
	.then(function(result) {
	assert_unreached("should have thrown exception for test " + vector.name);
	}, function(err) {
	assert_equals(err.name, "InvalidAccessError", "Should throw an InvalidAccessError instead of " + err.message)
	});
	}, vector.name + " without decrypt usage");
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: " + vector.name + " without decrypt usage");
	});

	all_promises.push(promise);
	});

	// Check for OperationError due to data lengths.
	failingVectors.forEach(function(vector) {
	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.encrypt(vector.algorithm, vector.key, vector.plaintext)
	.then(function(result) {
	assert_unreached("should have thrown exception for test " + vector.name);
	}, function(err) {
	assert_equals(err.name, "OperationError", "Should throw an OperationError instead of " + err.message)
	});
	}, vector.name);
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: " + vector.name);
	});

	all_promises.push(promise);
	});

	// Check for OperationError due to data lengths for decryption, too.
	failingVectors.forEach(function(vector) {
	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.decrypt(vector.algorithm, vector.key, vector.result)
	.then(function(result) {
	assert_unreached("should have thrown exception for test " + vector.name);
	}, function(err) {
	assert_equals(err.name, "OperationError", "Should throw an OperationError instead of " + err.message)
	});
	}, vector.name + " decryption");
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: decryption " + vector.name);
	});

	all_promises.push(promise);
	});

	// Check for decryption failing for algorithm-specific reasons (such as bad
	// padding for AES-CBC).
	decryptionFailingVectors.forEach(function(vector) {
	var promise = importVectorKey(vector, ["encrypt", "decrypt"])
	.then(function(vector) {
	promise_test(function(test) {
	return subtle.decrypt(vector.algorithm, vector.key, vector.result)
	.then(function(result) {
	assert_unreached("should have thrown exception for test " + vector.name);
	}, function(err) {
	assert_equals(err.name, "OperationError", "Should throw an OperationError instead of " + err.message)
	});
	}, vector.name);
	}, function(err) {
	// We need a failed test if the importVectorKey operation fails, so
	// we know we never tested encryption
	promise_test(function(test) {
	assert_unreached("importKey failed for " + vector.name);
	}, "importKey step: decryption " + vector.name);
	});

	all_promises.push(promise);
	});

	Promise.all(all_promises)
	.then(function() {done();})
	.catch(function() {done();})

	// A test vector has all needed fields for encryption, EXCEPT that the
	// key field may be null. This function replaces that null with the Correct
	// CryptoKey object.
	//
	// Returns a Promise that yields an updated vector on success.
	function importVectorKey(vector, usages) {
	if (vector.key !== null) {
	return new Promise(function(resolve, reject) {
	resolve(vector);
	});
	} else {
	return subtle.importKey("raw", vector.keyBuffer, {name: vector.algorithm.name}, false, usages)
	.then(function(key) {
	vector.key = key;
	return vector;
	});
	}
	}

	// Returns a copy of the sourceBuffer it is sent.
	function copyBuffer(sourceBuffer) {
	var source = new Uint8Array(sourceBuffer);
	var copy = new Uint8Array(sourceBuffer.byteLength)

	for (var i=0; i<source.byteLength; i++) {
	copy[i] = source[i];
	}

	return copy;
	}

	function equalBuffers(a, b) {
	if (a.byteLength !== b.byteLength) {
	return false;
	}

	var aBytes = new Uint8Array(a);
	var bBytes = new Uint8Array(b);

	for (var i=0; i<a.byteLength; i++) {
	if (aBytes[i] !== bBytes[i]) {
	return false;
	}
	}

	return true;
	}

	return;
	}