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520 lines
21 KiB
TypeScript
520 lines
21 KiB
TypeScript
import { NodeCryptoFunctionService } from "jslib-node/services/nodeCryptoFunction.service";
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import { Utils } from "jslib-common/misc/utils";
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import { SymmetricCryptoKey } from "jslib-common/models/domain/symmetricCryptoKey";
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const RsaPublicKey =
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"MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAl0Vawl/toXzkEvB82FEtqHP" +
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"4xlU2ab/v0crqIfXfIoWF/XXdHGIdrZeilnRXPPJT1B9dTsasttEZNnua/0Rek/cjNDHtzT52irfoZYS7X6HNIfOi54Q+egP" +
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"RQ1H7iNHVZz3K8Db9GCSKPeC8MbW6gVCzb15esCe1gGzg6wkMuWYDFYPoh/oBqcIqrGah7firqB1nDedzEjw32heP2DAffVN" +
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"084iTDjiWrJNUxBJ2pDD5Z9dT3MzQ2s09ew1yMWK2z37rT3YerC7OgEDmo3WYo3xL3qYJznu3EO2nmrYjiRa40wKSjxsTlUc" +
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"xDF+F0uMW8oR9EMUHgepdepfAtLsSAQIDAQAB";
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const RsaPrivateKey =
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"MIIEvQIBADANBgkqhkiG9w0BAQEFAASCBKcwggSjAgEAAoIBAQCXRVrCX+2hfOQS8Hz" +
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"YUS2oc/jGVTZpv+/Ryuoh9d8ihYX9dd0cYh2tl6KWdFc88lPUH11Oxqy20Rk2e5r/RF6T9yM0Me3NPnaKt+hlhLtfoc0h86L" +
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"nhD56A9FDUfuI0dVnPcrwNv0YJIo94LwxtbqBULNvXl6wJ7WAbODrCQy5ZgMVg+iH+gGpwiqsZqHt+KuoHWcN53MSPDfaF4/" +
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"YMB99U3TziJMOOJask1TEEnakMPln11PczNDazT17DXIxYrbPfutPdh6sLs6AQOajdZijfEvepgnOe7cQ7aeatiOJFrjTApK" +
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"PGxOVRzEMX4XS4xbyhH0QxQeB6l16l8C0uxIBAgMBAAECggEASaWfeVDA3cVzOPFSpvJm20OTE+R6uGOU+7vh36TX/POq92q" +
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"Buwbd0h0oMD32FxsXywd2IxtBDUSiFM9699qufTVuM0Q3tZw6lHDTOVG08+tPdr8qSbMtw7PGFxN79fHLBxejjO4IrM9lapj" +
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"WpxEF+11x7r+wM+0xRZQ8sNFYG46aPfIaty4BGbL0I2DQ2y8I57iBCAy69eht59NLMm27fRWGJIWCuBIjlpfzET1j2HLXUIh" +
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"5bTBNzqaN039WH49HczGE3mQKVEJZc/efk3HaVd0a1Sjzyn0QY+N1jtZN3jTRbuDWA1AknkX1LX/0tUhuS3/7C3ejHxjw4Dk" +
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"1ZLo5/QKBgQDIWvqFn0+IKRSu6Ua2hDsufIHHUNLelbfLUMmFthxabcUn4zlvIscJO00Tq/ezopSRRvbGiqnxjv/mYxucvOU" +
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"BeZtlus0Q9RTACBtw9TGoNTmQbEunJ2FOSlqbQxkBBAjgGEppRPt30iGj/VjAhCATq2MYOa/X4dVR51BqQAFIEwKBgQDBSIf" +
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"TFKC/hDk6FKZlgwvupWYJyU9RkyfstPErZFmzoKhPkQ3YORo2oeAYmVUbS9I2iIYpYpYQJHX8jMuCbCz4ONxTCuSIXYQYUcU" +
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"q4PglCKp31xBAE6TN8SvhfME9/MvuDssnQinAHuF0GDAhF646T3LLS1not6Vszv7brwSoGwKBgQC88v/8cGfi80ssQZeMnVv" +
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"q1UTXIeQcQnoY5lGHJl3K8mbS3TnXE6c9j417Fdz+rj8KWzBzwWXQB5pSPflWcdZO886Xu/mVGmy9RWgLuVFhXwCwsVEPjNX" +
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"5ramRb0/vY0yzenUCninBsIxFSbIfrPtLUYCc4hpxr+sr2Mg/y6jpvQKBgBezMRRs3xkcuXepuI2R+BCXL1/b02IJTUf1F+1" +
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"eLLGd7YV0H+J3fgNc7gGWK51hOrF9JBZHBGeOUPlaukmPwiPdtQZpu4QNE3l37VlIpKTF30E6mb+BqR+nht3rUjarnMXgAoE" +
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"Z18y6/KIjpSMpqC92Nnk/EBM9EYe6Cf4eA9ApAoGAeqEUg46UTlJySkBKURGpIs3v1kkf5I0X8DnOhwb+HPxNaiEdmO7ckm8" +
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"+tPVgppLcG0+tMdLjigFQiDUQk2y3WjyxP5ZvXu7U96jaJRI8PFMoE06WeVYcdIzrID2HvqH+w0UQJFrLJ/0Mn4stFAEzXKZ" +
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"BokBGnjFnTnKcs7nv/O8=";
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const Sha1Mac = "4d4c223f95dc577b665ec4ccbcb680b80a397038";
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const Sha256Mac = "6be3caa84922e12aaaaa2f16c40d44433bb081ef323db584eb616333ab4e874f";
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const Sha512Mac =
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"21910e341fa12106ca35758a2285374509326c9fbe0bd64e7b99c898f841dc948c58ce66d3504d8883c" +
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"5ea7817a0b7c5d4d9b00364ccd214669131fc17fe4aca";
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describe("NodeCrypto Function Service", () => {
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describe("pbkdf2", () => {
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const regular256Key = "pj9prw/OHPleXI6bRdmlaD+saJS4awrMiQsQiDjeu2I=";
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const utf8256Key = "yqvoFXgMRmHR3QPYr5pyR4uVuoHkltv9aHUP63p8n7I=";
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const unicode256Key = "ZdeOata6xoRpB4DLp8zHhXz5kLmkWtX5pd+TdRH8w8w=";
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const regular512Key =
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"liTi/Ke8LPU1Qv+Vl7NGEVt/XMbsBVJ2kQxtVG/Z1/JFHFKQW3ZkI81qVlwTiCpb+cFXzs+57" +
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"eyhhx5wfKo5Cg==";
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const utf8512Key =
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"df0KdvIBeCzD/kyXptwQohaqUa4e7IyFUyhFQjXCANu5T+scq55hCcE4dG4T/MhAk2exw8j7ixRN" +
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"zXANiVZpnw==";
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const unicode512Key =
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"FE+AnUJaxv8jh+zUDtZz4mjjcYk0/PZDZm+SLJe3XtxtnpdqqpblX6JjuMZt/dYYNMOrb2+mD" +
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"L3FiQDTROh1lg==";
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testPbkdf2("sha256", regular256Key, utf8256Key, unicode256Key);
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testPbkdf2("sha512", regular512Key, utf8512Key, unicode512Key);
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});
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describe("hkdf", () => {
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const regular256Key = "qBUmEYtwTwwGPuw/z6bs/qYXXYNUlocFlyAuuANI8Pw=";
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const utf8256Key = "6DfJwW1R3txgiZKkIFTvVAb7qVlG7lKcmJGJoxR2GBU=";
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const unicode256Key = "gejGI82xthA+nKtKmIh82kjw+ttHr+ODsUoGdu5sf0A=";
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const regular512Key = "xe5cIG6ZfwGmb1FvsOedM0XKOm21myZkjL/eDeKIqqM=";
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const utf8512Key = "XQMVBnxVEhlvjSFDQc77j5GDE9aorvbS0vKnjhRg0LY=";
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const unicode512Key = "148GImrTbrjaGAe/iWEpclINM8Ehhko+9lB14+52lqc=";
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testHkdf("sha256", regular256Key, utf8256Key, unicode256Key);
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testHkdf("sha512", regular512Key, utf8512Key, unicode512Key);
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});
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describe("hkdfExpand", () => {
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const prk16Byte = "criAmKtfzxanbgea5/kelQ==";
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const prk32Byte = "F5h4KdYQnIVH4rKH0P9CZb1GrR4n16/sJrS0PsQEn0Y=";
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const prk64Byte =
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"ssBK0mRG17VHdtsgt8yo4v25CRNpauH+0r2fwY/E9rLyaFBAOMbIeTry+" +
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"gUJ28p8y+hFh3EI9pcrEWaNvFYonQ==";
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testHkdfExpand("sha256", prk32Byte, 32, "BnIqJlfnHm0e/2iB/15cbHyR19ARPIcWRp4oNS22CD8=");
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testHkdfExpand(
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"sha256",
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prk32Byte,
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64,
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"BnIqJlfnHm0e/2iB/15cbHyR19ARPIcWRp4oNS22CD9BV+" +
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"/queOZenPNkDhmlVyL2WZ3OSU5+7ISNF5NhNfvZA=="
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);
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testHkdfExpand("sha512", prk64Byte, 32, "uLWbMWodSBms5uGJ5WTRTesyW+MD7nlpCZvagvIRXlk=");
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testHkdfExpand(
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"sha512",
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prk64Byte,
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64,
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"uLWbMWodSBms5uGJ5WTRTesyW+MD7nlpCZvagvIRXlkY5Pv0sB+" +
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"MqvaopmkC6sD/j89zDwTV9Ib2fpucUydO8w=="
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);
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it("should fail with prk too small", async () => {
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const cryptoFunctionService = new NodeCryptoFunctionService();
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const f = cryptoFunctionService.hkdfExpand(
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Utils.fromB64ToArray(prk16Byte),
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"info",
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32,
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"sha256"
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);
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await expectAsync(f).toBeRejectedWith(new Error("prk is too small."));
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});
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it("should fail with outputByteSize is too large", async () => {
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const cryptoFunctionService = new NodeCryptoFunctionService();
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const f = cryptoFunctionService.hkdfExpand(
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Utils.fromB64ToArray(prk32Byte),
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"info",
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8161,
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"sha256"
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);
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await expectAsync(f).toBeRejectedWith(new Error("outputByteSize is too large."));
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});
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});
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describe("hash", () => {
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const regular1Hash = "2a241604fb921fad12bf877282457268e1dccb70";
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const utf81Hash = "85672798dc5831e96d6c48655d3d39365a9c88b6";
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const unicode1Hash = "39c975935054a3efc805a9709b60763a823a6ad4";
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const regular256Hash = "2b8e96031d352a8655d733d7a930b5ffbea69dc25cf65c7bca7dd946278908b2";
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const utf8256Hash = "25fe8440f5b01ed113b0a0e38e721b126d2f3f77a67518c4a04fcde4e33eeb9d";
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const unicode256Hash = "adc1c0c2afd6e92cefdf703f9b6eb2c38e0d6d1a040c83f8505c561fea58852e";
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const regular512Hash =
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"c15cf11d43bde333647e3f559ec4193bb2edeaa0e8b902772f514cdf3f785a3f49a6e02a4b87b3" +
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"b47523271ad45b7e0aebb5cdcc1bc54815d256eb5dcb80da9d";
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const utf8512Hash =
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"035c31a877a291af09ed2d3a1a293e69c3e079ea2cecc00211f35e6bce10474ca3ad6e30b59e26118" +
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"37463f20969c5bc95282965a051a88f8cdf2e166549fcdd";
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const unicode512Hash =
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"2b16a5561af8ad6fe414cc103fc8036492e1fc6d9aabe1b655497054f760fe0e34c5d100ac773d" +
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"9f3030438284f22dbfa20cb2e9b019f2c98dfe38ce1ef41bae";
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const regularMd5 = "5eceffa53a5fd58c44134211e2c5f522";
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const utf8Md5 = "3abc9433c09551b939c80aa0aa3174e1";
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const unicodeMd5 = "85ae134072c8d81257933f7045ba17ca";
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testHash("sha1", regular1Hash, utf81Hash, unicode1Hash);
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testHash("sha256", regular256Hash, utf8256Hash, unicode256Hash);
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testHash("sha512", regular512Hash, utf8512Hash, unicode512Hash);
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testHash("md5", regularMd5, utf8Md5, unicodeMd5);
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});
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describe("hmac", () => {
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testHmac("sha1", Sha1Mac);
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testHmac("sha256", Sha256Mac);
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testHmac("sha512", Sha512Mac);
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});
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describe("compare", () => {
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testCompare(false);
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});
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describe("hmacFast", () => {
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testHmac("sha1", Sha1Mac, true);
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testHmac("sha256", Sha256Mac, true);
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testHmac("sha512", Sha512Mac, true);
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});
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describe("compareFast", () => {
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testCompare(true);
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});
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describe("aesEncrypt", () => {
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it("should successfully encrypt data", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const iv = makeStaticByteArray(16);
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const key = makeStaticByteArray(32);
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const data = Utils.fromUtf8ToArray("EncryptMe!");
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const encValue = await nodeCryptoFunctionService.aesEncrypt(
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data.buffer,
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iv.buffer,
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key.buffer
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);
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expect(Utils.fromBufferToB64(encValue)).toBe("ByUF8vhyX4ddU9gcooznwA==");
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});
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it("should successfully encrypt and then decrypt data", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const iv = makeStaticByteArray(16);
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const key = makeStaticByteArray(32);
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const value = "EncryptMe!";
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const data = Utils.fromUtf8ToArray(value);
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const encValue = await nodeCryptoFunctionService.aesEncrypt(
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data.buffer,
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iv.buffer,
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key.buffer
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);
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const decValue = await nodeCryptoFunctionService.aesDecrypt(encValue, iv.buffer, key.buffer);
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expect(Utils.fromBufferToUtf8(decValue)).toBe(value);
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});
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});
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describe("aesDecryptFast", () => {
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it("should successfully decrypt data", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const iv = Utils.fromBufferToB64(makeStaticByteArray(16).buffer);
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const symKey = new SymmetricCryptoKey(makeStaticByteArray(32).buffer);
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const data = "ByUF8vhyX4ddU9gcooznwA==";
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const params = nodeCryptoFunctionService.aesDecryptFastParameters(data, iv, null, symKey);
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const decValue = await nodeCryptoFunctionService.aesDecryptFast(params);
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expect(decValue).toBe("EncryptMe!");
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});
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});
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describe("aesDecrypt", () => {
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it("should successfully decrypt data", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const iv = makeStaticByteArray(16);
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const key = makeStaticByteArray(32);
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const data = Utils.fromB64ToArray("ByUF8vhyX4ddU9gcooznwA==");
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const decValue = await nodeCryptoFunctionService.aesDecrypt(
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data.buffer,
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iv.buffer,
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key.buffer
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);
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expect(Utils.fromBufferToUtf8(decValue)).toBe("EncryptMe!");
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});
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});
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describe("rsaEncrypt", () => {
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it("should successfully encrypt and then decrypt data", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const pubKey = Utils.fromB64ToArray(RsaPublicKey);
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const privKey = Utils.fromB64ToArray(RsaPrivateKey);
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const value = "EncryptMe!";
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const data = Utils.fromUtf8ToArray(value);
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const encValue = await nodeCryptoFunctionService.rsaEncrypt(
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data.buffer,
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pubKey.buffer,
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"sha1"
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);
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const decValue = await nodeCryptoFunctionService.rsaDecrypt(encValue, privKey.buffer, "sha1");
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expect(Utils.fromBufferToUtf8(decValue)).toBe(value);
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});
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});
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describe("rsaDecrypt", () => {
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it("should successfully decrypt data", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const privKey = Utils.fromB64ToArray(RsaPrivateKey);
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const data = Utils.fromB64ToArray(
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"A1/p8BQzN9UrbdYxUY2Va5+kPLyfZXF9JsZrjeEXcaclsnHurdxVAJcnbEqYMP3UXV" +
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"4YAS/mpf+Rxe6/X0WS1boQdA0MAHSgx95hIlAraZYpiMLLiJRKeo2u8YivCdTM9V5vuAEJwf9Tof/qFsFci3sApdbATkorCT" +
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"zFOIEPF2S1zgperEP23M01mr4dWVdYN18B32YF67xdJHMbFhp5dkQwv9CmscoWq7OE5HIfOb+JAh7BEZb+CmKhM3yWJvoR/D" +
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"/5jcercUtK2o+XrzNrL4UQ7yLZcFz6Bfwb/j6ICYvqd/YJwXNE6dwlL57OfwJyCdw2rRYf0/qI00t9u8Iitw=="
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);
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const decValue = await nodeCryptoFunctionService.rsaDecrypt(
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data.buffer,
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privKey.buffer,
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"sha1"
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);
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expect(Utils.fromBufferToUtf8(decValue)).toBe("EncryptMe!");
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});
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});
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describe("rsaExtractPublicKey", () => {
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it("should successfully extract key", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const privKey = Utils.fromB64ToArray(RsaPrivateKey);
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const publicKey = await nodeCryptoFunctionService.rsaExtractPublicKey(privKey.buffer);
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expect(Utils.fromBufferToB64(publicKey)).toBe(RsaPublicKey);
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});
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});
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describe("rsaGenerateKeyPair", () => {
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testRsaGenerateKeyPair(1024);
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testRsaGenerateKeyPair(2048);
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// Generating 4096 bit keys is really slow with Forge lib.
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// Maybe move to something else if we ever want to generate keys of this size.
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// testRsaGenerateKeyPair(4096);
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});
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describe("randomBytes", () => {
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it("should make a value of the correct length", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const randomData = await nodeCryptoFunctionService.randomBytes(16);
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expect(randomData.byteLength).toBe(16);
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});
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it("should not make the same value twice", async () => {
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const nodeCryptoFunctionService = new NodeCryptoFunctionService();
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const randomData = await nodeCryptoFunctionService.randomBytes(16);
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const randomData2 = await nodeCryptoFunctionService.randomBytes(16);
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expect(
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randomData.byteLength === randomData2.byteLength && randomData !== randomData2
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).toBeTruthy();
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});
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});
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});
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function testPbkdf2(
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algorithm: "sha256" | "sha512",
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regularKey: string,
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utf8Key: string,
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unicodeKey: string
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) {
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const regularEmail = "user@example.com";
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const utf8Email = "üser@example.com";
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const regularPassword = "password";
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const utf8Password = "pǻssword";
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const unicodePassword = "😀password🙏";
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it("should create valid " + algorithm + " key from regular input", async () => {
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const cryptoFunctionService = new NodeCryptoFunctionService();
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const key = await cryptoFunctionService.pbkdf2(regularPassword, regularEmail, algorithm, 5000);
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expect(Utils.fromBufferToB64(key)).toBe(regularKey);
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});
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it("should create valid " + algorithm + " key from utf8 input", async () => {
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const cryptoFunctionService = new NodeCryptoFunctionService();
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const key = await cryptoFunctionService.pbkdf2(utf8Password, utf8Email, algorithm, 5000);
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expect(Utils.fromBufferToB64(key)).toBe(utf8Key);
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});
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it("should create valid " + algorithm + " key from unicode input", async () => {
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const cryptoFunctionService = new NodeCryptoFunctionService();
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const key = await cryptoFunctionService.pbkdf2(unicodePassword, regularEmail, algorithm, 5000);
|
|
expect(Utils.fromBufferToB64(key)).toBe(unicodeKey);
|
|
});
|
|
|
|
it("should create valid " + algorithm + " key from array buffer input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const key = await cryptoFunctionService.pbkdf2(
|
|
Utils.fromUtf8ToArray(regularPassword).buffer,
|
|
Utils.fromUtf8ToArray(regularEmail).buffer,
|
|
algorithm,
|
|
5000
|
|
);
|
|
expect(Utils.fromBufferToB64(key)).toBe(regularKey);
|
|
});
|
|
}
|
|
|
|
function testHkdf(
|
|
algorithm: "sha256" | "sha512",
|
|
regularKey: string,
|
|
utf8Key: string,
|
|
unicodeKey: string
|
|
) {
|
|
const ikm = Utils.fromB64ToArray("criAmKtfzxanbgea5/kelQ==");
|
|
|
|
const regularSalt = "salt";
|
|
const utf8Salt = "üser_salt";
|
|
const unicodeSalt = "😀salt🙏";
|
|
|
|
const regularInfo = "info";
|
|
const utf8Info = "üser_info";
|
|
const unicodeInfo = "😀info🙏";
|
|
|
|
it("should create valid " + algorithm + " key from regular input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const key = await cryptoFunctionService.hkdf(ikm, regularSalt, regularInfo, 32, algorithm);
|
|
expect(Utils.fromBufferToB64(key)).toBe(regularKey);
|
|
});
|
|
|
|
it("should create valid " + algorithm + " key from utf8 input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const key = await cryptoFunctionService.hkdf(ikm, utf8Salt, utf8Info, 32, algorithm);
|
|
expect(Utils.fromBufferToB64(key)).toBe(utf8Key);
|
|
});
|
|
|
|
it("should create valid " + algorithm + " key from unicode input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const key = await cryptoFunctionService.hkdf(ikm, unicodeSalt, unicodeInfo, 32, algorithm);
|
|
expect(Utils.fromBufferToB64(key)).toBe(unicodeKey);
|
|
});
|
|
|
|
it("should create valid " + algorithm + " key from array buffer input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const key = await cryptoFunctionService.hkdf(
|
|
ikm,
|
|
Utils.fromUtf8ToArray(regularSalt).buffer,
|
|
Utils.fromUtf8ToArray(regularInfo).buffer,
|
|
32,
|
|
algorithm
|
|
);
|
|
expect(Utils.fromBufferToB64(key)).toBe(regularKey);
|
|
});
|
|
}
|
|
|
|
function testHkdfExpand(
|
|
algorithm: "sha256" | "sha512",
|
|
b64prk: string,
|
|
outputByteSize: number,
|
|
b64ExpectedOkm: string
|
|
) {
|
|
const info = "info";
|
|
|
|
it("should create valid " + algorithm + " " + outputByteSize + " byte okm", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const okm = await cryptoFunctionService.hkdfExpand(
|
|
Utils.fromB64ToArray(b64prk),
|
|
info,
|
|
outputByteSize,
|
|
algorithm
|
|
);
|
|
expect(Utils.fromBufferToB64(okm)).toBe(b64ExpectedOkm);
|
|
});
|
|
}
|
|
|
|
function testHash(
|
|
algorithm: "sha1" | "sha256" | "sha512" | "md5",
|
|
regularHash: string,
|
|
utf8Hash: string,
|
|
unicodeHash: string
|
|
) {
|
|
const regularValue = "HashMe!!";
|
|
const utf8Value = "HǻshMe!!";
|
|
const unicodeValue = "😀HashMe!!!🙏";
|
|
|
|
it("should create valid " + algorithm + " hash from regular input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const hash = await cryptoFunctionService.hash(regularValue, algorithm);
|
|
expect(Utils.fromBufferToHex(hash)).toBe(regularHash);
|
|
});
|
|
|
|
it("should create valid " + algorithm + " hash from utf8 input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const hash = await cryptoFunctionService.hash(utf8Value, algorithm);
|
|
expect(Utils.fromBufferToHex(hash)).toBe(utf8Hash);
|
|
});
|
|
|
|
it("should create valid " + algorithm + " hash from unicode input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const hash = await cryptoFunctionService.hash(unicodeValue, algorithm);
|
|
expect(Utils.fromBufferToHex(hash)).toBe(unicodeHash);
|
|
});
|
|
|
|
it("should create valid " + algorithm + " hash from array buffer input", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const hash = await cryptoFunctionService.hash(
|
|
Utils.fromUtf8ToArray(regularValue).buffer,
|
|
algorithm
|
|
);
|
|
expect(Utils.fromBufferToHex(hash)).toBe(regularHash);
|
|
});
|
|
}
|
|
|
|
function testHmac(algorithm: "sha1" | "sha256" | "sha512", mac: string, fast = false) {
|
|
it("should create valid " + algorithm + " hmac", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const value = Utils.fromUtf8ToArray("SignMe!!").buffer;
|
|
const key = Utils.fromUtf8ToArray("secretkey").buffer;
|
|
let computedMac: ArrayBuffer = null;
|
|
if (fast) {
|
|
computedMac = await cryptoFunctionService.hmacFast(value, key, algorithm);
|
|
} else {
|
|
computedMac = await cryptoFunctionService.hmac(value, key, algorithm);
|
|
}
|
|
expect(Utils.fromBufferToHex(computedMac)).toBe(mac);
|
|
});
|
|
}
|
|
|
|
function testCompare(fast = false) {
|
|
it("should successfully compare two of the same values", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const a = new Uint8Array(2);
|
|
a[0] = 1;
|
|
a[1] = 2;
|
|
const equal = fast
|
|
? await cryptoFunctionService.compareFast(a.buffer, a.buffer)
|
|
: await cryptoFunctionService.compare(a.buffer, a.buffer);
|
|
expect(equal).toBe(true);
|
|
});
|
|
|
|
it("should successfully compare two different values of the same length", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const a = new Uint8Array(2);
|
|
a[0] = 1;
|
|
a[1] = 2;
|
|
const b = new Uint8Array(2);
|
|
b[0] = 3;
|
|
b[1] = 4;
|
|
const equal = fast
|
|
? await cryptoFunctionService.compareFast(a.buffer, b.buffer)
|
|
: await cryptoFunctionService.compare(a.buffer, b.buffer);
|
|
expect(equal).toBe(false);
|
|
});
|
|
|
|
it("should successfully compare two different values of different lengths", async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const a = new Uint8Array(2);
|
|
a[0] = 1;
|
|
a[1] = 2;
|
|
const b = new Uint8Array(2);
|
|
b[0] = 3;
|
|
const equal = fast
|
|
? await cryptoFunctionService.compareFast(a.buffer, b.buffer)
|
|
: await cryptoFunctionService.compare(a.buffer, b.buffer);
|
|
expect(equal).toBe(false);
|
|
});
|
|
}
|
|
|
|
function testRsaGenerateKeyPair(length: 1024 | 2048 | 4096) {
|
|
it(
|
|
"should successfully generate a " + length + " bit key pair",
|
|
async () => {
|
|
const cryptoFunctionService = new NodeCryptoFunctionService();
|
|
const keyPair = await cryptoFunctionService.rsaGenerateKeyPair(length);
|
|
expect(keyPair[0] == null || keyPair[1] == null).toBe(false);
|
|
const publicKey = await cryptoFunctionService.rsaExtractPublicKey(keyPair[1]);
|
|
expect(Utils.fromBufferToB64(keyPair[0])).toBe(Utils.fromBufferToB64(publicKey));
|
|
},
|
|
30000
|
|
);
|
|
}
|
|
|
|
function makeStaticByteArray(length: number) {
|
|
const arr = new Uint8Array(length);
|
|
for (let i = 0; i < length; i++) {
|
|
arr[i] = i;
|
|
}
|
|
return arr;
|
|
}
|