typescript-closure-tools

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Command-line tools to convert closure-style JSDoc annotations to typescript, and to convert typescript sources to closure externs files

github.com/fivetran/typescript-closure-tools

fivetran/typescript-closure-tools

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/// <reference path="../../yui/yui.d.ts" /> /// <reference path="../cryptojs.d.ts" /> YUI.add('algo-rabbit-legacy-test', function (Y) { var C = CryptoJS; Y.Test.Runner.add(new Y.Test.Case({ name: 'RabbitLegacy', testVector1: function () { Y.Assert.areEqual('02f74a1c26456bf5ecd6a536f05457b1', C.RabbitLegacy.encrypt(C.enc.Hex.parse('00000000000000000000000000000000'), C.enc.Hex.parse('00000000000000000000000000000000')).ciphertext.toString()); }, testVector2: function () { Y.Assert.areEqual('9c51e28784c37fe9a127f63ec8f32d3d', C.RabbitLegacy.encrypt(C.enc.Hex.parse('00000000000000000000000000000000'), C.enc.Hex.parse('dc51c3ac3bfc62f12e3d36fe91281329')).ciphertext.toString()); }, testVector3: function () { Y.Assert.areEqual('9b60d002fd5ceb32accd41a0cd0db10c', C.RabbitLegacy.encrypt(C.enc.Hex.parse('00000000000000000000000000000000'), C.enc.Hex.parse('c09b0043e9e9ab0187e0c73383957415')).ciphertext.toString()); }, testVector4: function () { Y.Assert.areEqual('edb70567375dcd7cd89554f85e27a7c6', C.RabbitLegacy.encrypt(C.enc.Hex.parse('00000000000000000000000000000000'), C.enc.Hex.parse('00000000000000000000000000000000'), { iv: C.enc.Hex.parse('0000000000000000') }).ciphertext.toString()); }, testVector5: function () { Y.Assert.areEqual('6d7d012292ccdce0e2120058b94ecd1f', C.RabbitLegacy.encrypt(C.enc.Hex.parse('00000000000000000000000000000000'), C.enc.Hex.parse('00000000000000000000000000000000'), { iv: C.enc.Hex.parse('597e26c175f573c3') }).ciphertext.toString()); }, testVector6: function () { Y.Assert.areEqual('4d1051a123afb670bf8d8505c8d85a44', C.RabbitLegacy.encrypt(C.enc.Hex.parse('00000000000000000000000000000000'), C.enc.Hex.parse('00000000000000000000000000000000'), { iv: C.enc.Hex.parse('2717f4d21a56eba6') }).ciphertext.toString()); }, testMultiPart: function () { var rabbit = C.algo.RabbitLegacy.createEncryptor(C.enc.Hex.parse('00000000000000000000000000000000')); var ciphertext1 = rabbit.process(C.enc.Hex.parse('000000000000')); var ciphertext2 = rabbit.process(C.enc.Hex.parse('0000000000')); var ciphertext3 = rabbit.process(C.enc.Hex.parse('0000000000')); var ciphertext4 = rabbit.finalize(); Y.Assert.areEqual('02f74a1c26456bf5ecd6a536f05457b1', ciphertext1.concat(ciphertext2).concat(ciphertext3).concat(ciphertext4).toString()); }, testInputIntegrity: function () { var message = C.enc.Hex.parse('00000000000000000000000000000000'); var key = C.enc.Hex.parse('00000000000000000000000000000000'); var iv = C.enc.Hex.parse('0000000000000000'); var expectedMessage = message.toString(); var expectedKey = key.toString(); var expectedIv = iv.toString(); C.RabbitLegacy.encrypt(message, key, { iv: iv }); Y.Assert.areEqual(expectedMessage, message.toString()); Y.Assert.areEqual(expectedKey, key.toString()); Y.Assert.areEqual(expectedIv, iv.toString()); }, testHelper: function () { // Save original random method var random = C.lib.WordArray.random; // Replace random method with one that returns a predictable value C.lib.WordArray.random = function (nBytes) { var words: number[] = []; for (var i = 0; i < nBytes; i += 4) { words.push(0x11223344); } return C.lib.WordArray.create(words, nBytes); }; // Test Y.Assert.areEqual(C.algo.RabbitLegacy.createEncryptor(C.MD5('Jefe')).finalize('Hi There').toString(), C.RabbitLegacy.encrypt('Hi There', C.MD5('Jefe')).ciphertext.toString()); Y.Assert.areEqual(C.lib.SerializableCipher.encrypt(C.algo.RabbitLegacy, 'Hi There', C.MD5('Jefe')).toString(), C.RabbitLegacy.encrypt('Hi There', C.MD5('Jefe')).toString()); Y.Assert.areEqual(C.lib.PasswordBasedCipher.encrypt(C.algo.RabbitLegacy, 'Hi There', 'Jefe').toString(), C.RabbitLegacy.encrypt('Hi There', 'Jefe').toString()); // Restore random method C.lib.WordArray.random = random; } })); }, '$Rev$');