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a347d44ed9
PR-URL: https://github.com/nodejs/node/pull/60374 Reviewed-By: Filip Skokan <panva.ip@gmail.com> Reviewed-By: Richard Lau <richard.lau@ibm.com> Reviewed-By: Luigi Pinca <luigipinca@gmail.com>
644 lines
17 KiB
JavaScript
644 lines
17 KiB
JavaScript
'use strict';
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const common = require('../common');
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if (!common.hasCrypto)
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common.skip('missing crypto');
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const assert = require('assert');
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const { hasOpenSSL } = require('../common/crypto');
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const { subtle } = globalThis.crypto;
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function getDeriveKeyInfo(name, length, hash, ...usages) {
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return [{ name, length, hash }, usages];
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}
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const kDerivedKeyTypes = [
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['AES-CBC', 128, undefined, 'encrypt', 'decrypt'],
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['AES-CBC', 256, undefined, 'encrypt', 'decrypt'],
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['AES-CTR', 128, undefined, 'encrypt', 'decrypt'],
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['AES-CTR', 256, undefined, 'encrypt', 'decrypt'],
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['AES-GCM', 128, undefined, 'encrypt', 'decrypt'],
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['AES-GCM', 256, undefined, 'encrypt', 'decrypt'],
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['HMAC', 256, 'SHA-1', 'sign', 'verify'],
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['HMAC', 256, 'SHA-256', 'sign', 'verify'],
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['HMAC', 256, 'SHA-384', 'sign', 'verify'],
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['HMAC', 256, 'SHA-512', 'sign', 'verify'],
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];
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if (!process.features.openssl_is_boringssl) {
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kDerivedKeyTypes.push(
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['AES-KW', 128, undefined, 'wrapKey', 'unwrapKey'],
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['AES-KW', 256, undefined, 'wrapKey', 'unwrapKey'],
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['HMAC', 256, 'SHA3-256', 'sign', 'verify'],
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['HMAC', 256, 'SHA3-384', 'sign', 'verify'],
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['HMAC', 256, 'SHA3-512', 'sign', 'verify'],
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);
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} else {
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common.printSkipMessage('Skipping unsupported test cases');
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}
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if (hasOpenSSL(3)) {
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kDerivedKeyTypes.push(
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['AES-OCB', 128, undefined, 'encrypt', 'decrypt'],
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['AES-OCB', 256, undefined, 'encrypt', 'decrypt'],
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);
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} else {
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common.printSkipMessage('Skipping unsupported test cases');
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}
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const kDerivedKeys = {
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short: '5040737377307264',
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long: '55736572732073686f756c64207069636b206c6f6e6720706173737068726' +
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'173657320286e6f74207573652073686f72742070617373776f7264732921',
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empty: ''
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};
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const kSalts = {
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normal: '536f6469756d2043686c6f7269646520636f6d706f756e64',
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empty: ''
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};
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const kInfos = {
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normal: '484b444620657874726120696e666f',
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empty: ''
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};
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const kDerivations = {
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short: {
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normal: {
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'SHA-384': {
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normal: '19ba74368e6b993390f27fe9a7d02bc3' +
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'38173f72be71a19fc744fcdb3fd4b84b',
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empty: '97601f4e0c53a5d3f3a2810099bc6820' +
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'ec50083434769b59fc24a417a9543734'
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},
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'SHA-512': {
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normal: '4bbd6db2435fb696157f6089c977c3c7' +
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'3f3eac5ef3dd6baae604cb53bfbb153e',
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empty: '2f3157e7fe0c10b01298c8f0886a90ed' +
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'cf80abdef5dbc1df2b1482532b52b934'
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},
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'SHA-1': {
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normal: '05ad22ed2138c9600e4d9e2725ded301' +
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'f5d287fbfb5702f999bc6536d3edef98',
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empty: 'd51b6fb7e599ca30c5ee264593e4b85f' +
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'2220c7c3ab003157bff8cb4f369c7560'
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},
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'SHA-256': {
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normal: '2af5901e28849c28443857386aa1ac3b' +
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'b127e92631c1c051482d6690941772b4',
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empty: '9e4b719033742101e90f1ad61e2ff3b4' +
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'256863667296d74389f1f02af2c4e6a6'
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},
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...(!process.features.openssl_is_boringssl ? {
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'SHA3-256': {
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normal: '386b0693d7a58c4ddf01b49bfbbd2fa87c6f911991543995170ba20ed28df599',
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empty: 'd029bc828b6c6c8bb16ce3d25f5058f19c7d2517745e11c5d65c6d242e82e47f',
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},
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'SHA3-384': {
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normal: '8c3b72e659bad40bcd14bdc1f7c3836059d24253795ab046a272973fd0456508',
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empty: '3211ff4c676f761494c1ca2683d2d4662fe1d770ae5c58ebf6af6acb181c7d71',
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},
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'SHA3-512': {
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normal: '5588c5c70cb3dd2f95323da2e9d5f299ca99c301d920a499330c449d21c645cd',
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empty: '2c944b916c2751a71a1b5e57fcb487939c624335683995770b9f7cc7cbbb21f0',
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},
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} : {}),
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},
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empty: {
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'SHA-384': {
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normal: 'fb482ff22c4f8d466c4dfe6e29f2cc2e' +
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'cdabf5884328fbf08a738fd945f166cb',
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empty: '1e023c17b340533ceaef39230cb8b3bb' +
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'dbf663a13d6075d0dd326c049478fba5'
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},
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'SHA-512': {
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normal: 'f17b5bdcd8d7d3d4601036a19436317d' +
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'1644f9a4e0956efc0e372b83acdacfdb',
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empty: 'c7b474942f31f83faf5d14731802b1bd' +
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'49478549cb3a8f3dbfedc4d3209cf5b6'
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},
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'SHA-1': {
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normal: 'c126f1e6f25a9de42cf7d427059a52ed' +
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'9601f29a5815cbfbc64bc7f668c6a341',
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empty: '3215c3f08de70549b051b7033745a818' +
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'4f8cbaa6b1735330d2bcb6b16f4642ef'
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},
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'SHA-256': {
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normal: '733c8b6bcfac875c7f08982a6e3ffb56' +
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'0acea6f165476eb83460b9353ed41dfe',
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empty: 'c8e12774135305c9147f2cc4766e5ead' +
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'25d8f457b9a1953d52677361ced558fb'
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},
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...(!process.features.openssl_is_boringssl ? {
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'SHA3-256': {
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normal: '9befc557f5baf4075b5fb38c014b41b92ab7534150baf64201069e8807d0e83d',
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empty: '54d1fa1aa7cad99dab0622b772170e775c103756183bac36a228fd817a98a3f6',
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},
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'SHA3-384': {
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normal: '46b54c015e368677edf7ac16963bccd9d2ba8246eef0e8beb04d8d188774b91b',
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empty: '46eb0b2649bb0f605d70e4818ffc8176ee1be9782396e69fb4d0fd7cfe902b55',
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},
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'SHA3-512': {
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normal: 'aa4375c82b5d7a3cac88a0423250b3882f140c253e98e8e7a0f6055b0908e4c2',
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empty: '6613003f98602ddb53ac35f5aa256c9f5279d50ee65bb08fdf2ecf65cc5df27f',
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},
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} : {}),
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}
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},
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long: {
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normal: {
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'SHA-384': {
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normal: 'f91571b521f7eef13e573aa46378659e' +
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'f3b7f36ffdd1bb055db2cd77d260c467',
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empty: '68af1c2cf6b9370d2054344798bdbb18' +
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'47ccf407b7652b793dd136d4640e0348'
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},
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'SHA-512': {
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normal: '710aae2fdf889e45fe0fb995b2c26b33' +
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'eb988650ec0faef167028a7a6ccb3638',
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empty: 'e5de568081c71e562750829871c34275' +
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'8104765ed6f306f0613c9d4bb336f2aa'
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},
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'SHA-1': {
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normal: '7f957edcbce3cb0b70566e1eb60efd1e' +
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'405a13304c661d3663778109bf06899c',
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empty: '3062f3cf1a730b9cef51f02c1dfac85e' +
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'd91e4b0065eb50ca9fd8b0107e728733'
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},
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'SHA-256': {
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normal: '31b7d68530a863e717c081ca6917b686' +
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'50b3dd9a29f30606e2cad199bec14d13',
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empty: 'e579d1f9e7f08e6f990ffcfcce1ed201' +
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'c5e37e62cdf606f0ba4aca80427fbc44'
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},
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...(!process.features.openssl_is_boringssl ? {
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'SHA3-256': {
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normal: '24f38fd1905554b7cbf8395cc3976292d11ce24a0b3131da0fd4b109832d27e3',
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empty: '33d0a5151c0f52e4bb7fb67cf7a17063127624dc3e685903f49ebb07872084d1',
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},
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'SHA3-384': {
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normal: '15777581a1ea81ad0baac8a97d954df4142f7260d9e8351aa7f6ef6de2d04632',
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empty: 'ada4da4e28dc971633a8760b265b3019db57baf17e7bf7e13cf78b1a676f6d44',
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},
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'SHA3-512': {
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normal: '621e4602b07fcba55ed6b976a8bef513b0f7c4ad0c546e0f852993051d887408',
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empty: 'f1292af65b05c86cf7146b739bc65785c707450316f3207ee54a3f596a7d0f7b',
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},
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} : {}),
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},
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empty: {
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'SHA-384': {
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normal: '619eb6f9287395bbd5ed6a67c968465a' +
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'd82b6c559f3c38b604bbb08f58320b03',
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empty: 'ff447b423d83fe76836c32337228b56b' +
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'5bd9bf68d58e7dca4b7cca842a45e11a'
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},
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'SHA-512': {
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normal: '133e8a7f7ff433690cc88432c2a338c2' +
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'77e5c13756ff878f46753fe6a564e3e5',
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empty: 'de54f7eec80c9cc66d349fc987f80d46' +
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'1db2ef4ff4e18505d28bd80cb42c7d76'
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},
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'SHA-1': {
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normal: 'adb93cdbce79b7d51159b6c0131a2b62' +
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'f23828d26acd685e34c06535e6f77496',
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empty: '47710d2a7507e05a1ddcc87a7c2f9061' +
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'77a266efb9e622510cccb3713cd08d58'
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},
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'SHA-256': {
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normal: 'a401d7c9158a29e5c7193ab9730f0748' +
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'851cc5baadb42cad024b6290fe213436',
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empty: 'b4f7e7557674d501cbfbc0148ad800c0' +
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'750189fe295a2aca5e1bf4122c85edf9'
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},
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...(!process.features.openssl_is_boringssl ? {
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'SHA3-256': {
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normal: 'fe32459f7339dd2e8df6c6fc874ed9e81e3b7aad669edad9b71196f53ed95b12',
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empty: '04519be1eb94079c91306cc5b21946b3de6a78ad35ec83d4f4a37bafbda678d7',
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},
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'SHA3-384': {
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normal: 'a474e8289cb4a0511e90b87eaf9ec29cadd74d4c1f2ee1fb8cb5f7d08f91a379',
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empty: '726c8c4b39083a7d5755604d3a67e9aa6139db00c08028ac9e69f7fb1525bf1d',
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},
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'SHA3-512': {
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normal: 'c7a7f5004d1d595c6896498c169642ac24b946e13296ff53e12b534962a88675',
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empty: '7b543480b5696932551abb3100d72e05c18f57fbb63aa44fe020bef1eec3555c',
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},
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} : {}),
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}
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},
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};
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async function setupBaseKeys() {
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const promises = [];
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const baseKeys = {};
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const noBits = {};
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const noKey = {};
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let wrongKey = null;
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Object.keys(kDerivedKeys).forEach((size) => {
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const keyData = Buffer.from(kDerivedKeys[size], 'hex');
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promises.push(
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subtle.importKey(
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'raw',
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keyData,
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{ name: 'HKDF' },
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false,
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['deriveKey', 'deriveBits'])
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.then(
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(baseKey) => baseKeys[size] = baseKey,
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(err) => assert.ifError(err)));
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promises.push(
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subtle.importKey(
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'raw',
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keyData,
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{ name: 'HKDF' },
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false, ['deriveBits'])
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.then(
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(baseKey) => noKey[size] = baseKey,
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(err) => assert.ifError(err)));
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promises.push(
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subtle.importKey(
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'raw',
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keyData,
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{ name: 'HKDF' },
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false, ['deriveKey'])
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.then(
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(baseKey) => noBits[size] = baseKey,
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(err) => assert.ifError(err)));
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});
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promises.push(
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subtle.generateKey(
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{
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name: 'ECDH',
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namedCurve: 'P-521'
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},
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false,
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['deriveKey', 'deriveBits'])
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.then(
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(baseKey) => wrongKey = baseKey.privateKey,
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(err) => assert.ifError(err)));
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await Promise.all(promises);
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return {
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baseKeys,
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noBits,
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noKey,
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wrongKey
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};
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}
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async function testDeriveBits(
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baseKeys,
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size,
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saltSize,
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hash,
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infoSize) {
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const algorithm = {
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name: 'HKDF',
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salt: Buffer.from(kSalts[saltSize], 'hex'),
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info: Buffer.from(kInfos[infoSize], 'hex'),
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hash
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};
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const bits = await subtle.deriveBits(
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algorithm,
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baseKeys[size],
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256);
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assert(bits instanceof ArrayBuffer);
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assert.strictEqual(
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Buffer.from(bits).toString('hex'),
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kDerivations[size][saltSize][hash][infoSize]);
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}
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async function testDeriveBitsBadLengths(
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baseKeys,
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size,
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saltSize,
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hash,
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infoSize) {
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const algorithm = {
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name: 'HKDF',
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salt: Buffer.from(kSalts[saltSize], 'hex'),
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info: Buffer.from(kInfos[infoSize], 'hex'),
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hash
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};
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return Promise.all([
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assert.rejects(
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subtle.deriveBits(algorithm, baseKeys[size], undefined), {
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name: 'OperationError',
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}),
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assert.rejects(
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subtle.deriveBits(algorithm, baseKeys[size], null), {
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message: 'length cannot be null',
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name: 'OperationError',
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}),
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assert.rejects(
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subtle.deriveBits(algorithm, baseKeys[size]), {
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message: 'length cannot be null',
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name: 'OperationError',
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}),
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assert.rejects(
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subtle.deriveBits(algorithm, baseKeys[size], 15), {
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message: /length must be a multiple of 8/,
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name: 'OperationError',
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}),
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]);
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}
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async function testDeriveBitsBadHash(
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baseKeys,
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size,
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saltSize,
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hash,
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infoSize) {
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const salt = Buffer.from(kSalts[saltSize], 'hex');
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const info = Buffer.from(kInfos[infoSize], 'hex');
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const algorithm = { name: 'HKDF', salt, info };
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return Promise.all([
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assert.rejects(
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subtle.deriveBits(
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{
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...algorithm,
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hash: hash.replace('-', '')
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}, baseKeys[size], 256), {
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message: /Unrecognized algorithm name/,
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name: 'NotSupportedError',
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}),
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assert.rejects(
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subtle.deriveBits(
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{
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...algorithm,
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hash: 'PBKDF2'
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},
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baseKeys[size], 256), {
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name: 'NotSupportedError',
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}),
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]);
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}
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async function testDeriveBitsBadUsage(
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noBits,
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size,
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saltSize,
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hash,
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infoSize) {
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const algorithm = {
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name: 'HKDF',
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salt: Buffer.from(kSalts[saltSize], 'hex'),
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info: Buffer.from(kInfos[infoSize], 'hex'),
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hash
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};
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return assert.rejects(
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subtle.deriveBits(algorithm, noBits[size], 256), {
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message: /baseKey does not have deriveBits usage/
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});
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}
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async function testDeriveBitsMissingSalt(
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baseKeys,
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size,
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saltSize,
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hash,
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infoSize) {
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const algorithm = {
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name: 'HKDF',
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info: Buffer.from(kInfos[infoSize], 'hex'),
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hash
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};
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return assert.rejects(
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subtle.deriveBits(algorithm, baseKeys[size], 0), {
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code: 'ERR_MISSING_OPTION'
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});
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}
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async function testDeriveBitsMissingInfo(
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baseKeys,
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size,
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saltSize,
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hash,
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infoSize) {
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const algorithm = {
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name: 'HKDF',
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salt: Buffer.from(kSalts[infoSize], 'hex'),
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hash
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};
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return assert.rejects(
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subtle.deriveBits(algorithm, baseKeys[size], 0), {
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code: 'ERR_MISSING_OPTION'
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});
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}
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async function testBitsWrongKeyType(
|
|
wrongKey,
|
|
saltSize,
|
|
hash,
|
|
infoSize) {
|
|
const algorithm = {
|
|
name: 'HKDF',
|
|
salt: Buffer.from(kSalts[saltSize], 'hex'),
|
|
info: Buffer.from(kInfos[infoSize], 'hex'),
|
|
hash
|
|
};
|
|
|
|
return assert.rejects(
|
|
subtle.deriveBits(algorithm, wrongKey, 256), {
|
|
message: /Key algorithm mismatch/
|
|
});
|
|
}
|
|
|
|
async function testDeriveKey(
|
|
baseKeys,
|
|
size,
|
|
saltSize,
|
|
hash,
|
|
infoSize,
|
|
keyType,
|
|
usages) {
|
|
const algorithm = {
|
|
name: 'HKDF',
|
|
salt: Buffer.from(kSalts[saltSize], 'hex'),
|
|
info: Buffer.from(kInfos[infoSize], 'hex'),
|
|
hash
|
|
};
|
|
|
|
const key = await subtle.deriveKey(
|
|
algorithm,
|
|
baseKeys[size],
|
|
keyType,
|
|
true,
|
|
usages);
|
|
|
|
const bits = await subtle.exportKey(key.algorithm.name === 'AES-OCB' ? 'raw-secret' : 'raw', key);
|
|
|
|
assert.strictEqual(
|
|
Buffer.from(bits).toString('hex'),
|
|
kDerivations[size][saltSize][hash][infoSize].slice(0, keyType.length / 4));
|
|
}
|
|
|
|
async function testDeriveKeyBadHash(
|
|
baseKeys,
|
|
size,
|
|
saltSize,
|
|
hash,
|
|
infoSize,
|
|
keyType,
|
|
usages) {
|
|
const salt = Buffer.from(kSalts[saltSize], 'hex');
|
|
const info = Buffer.from(kInfos[infoSize], 'hex');
|
|
const algorithm = { name: 'HKDF', salt, info };
|
|
|
|
return Promise.all([
|
|
assert.rejects(
|
|
subtle.deriveKey(
|
|
{
|
|
...algorithm,
|
|
hash: hash.replace('-', '')
|
|
},
|
|
baseKeys[size],
|
|
keyType,
|
|
true,
|
|
usages),
|
|
{ name: 'NotSupportedError' }),
|
|
assert.rejects(
|
|
subtle.deriveKey(
|
|
{
|
|
...algorithm,
|
|
hash: 'PBKDF2'
|
|
},
|
|
baseKeys[size],
|
|
keyType,
|
|
true,
|
|
usages),
|
|
{ name: 'NotSupportedError' }),
|
|
]);
|
|
}
|
|
|
|
async function testDeriveKeyBadUsage(
|
|
noKey,
|
|
size,
|
|
saltSize,
|
|
hash,
|
|
infoSize,
|
|
keyType,
|
|
usages) {
|
|
const algorithm = {
|
|
name: 'HKDF',
|
|
salt: Buffer.from(kSalts[saltSize], 'hex'),
|
|
info: Buffer.from(kInfos[infoSize], 'hex'),
|
|
hash
|
|
};
|
|
|
|
return assert.rejects(
|
|
subtle.deriveKey(algorithm, noKey[size], keyType, true, usages), {
|
|
message: /baseKey does not have deriveKey usage/
|
|
});
|
|
}
|
|
|
|
async function testWrongKeyType(
|
|
wrongKey,
|
|
saltSize,
|
|
hash,
|
|
infoSize,
|
|
keyType,
|
|
usages
|
|
) {
|
|
const algorithm = {
|
|
name: 'HKDF',
|
|
salt: Buffer.from(kSalts[saltSize], 'hex'),
|
|
info: Buffer.from(kInfos[infoSize], 'hex'),
|
|
hash
|
|
};
|
|
|
|
return assert.rejects(
|
|
subtle.deriveKey(algorithm, wrongKey, keyType, true, usages), {
|
|
message: /Key algorithm mismatch/
|
|
});
|
|
}
|
|
|
|
(async function() {
|
|
const {
|
|
baseKeys,
|
|
noBits,
|
|
noKey,
|
|
wrongKey,
|
|
} = await setupBaseKeys();
|
|
|
|
const variations = [];
|
|
|
|
Object.keys(kDerivations).forEach((size) => {
|
|
Object.keys(kDerivations[size]).forEach((saltSize) => {
|
|
Object.keys(kDerivations[size][saltSize]).forEach((hash) => {
|
|
Object.keys(kDerivations[size][saltSize][hash]).forEach(
|
|
async (infoSize) => {
|
|
const args = [baseKeys, size, saltSize, hash, infoSize];
|
|
variations.push(testDeriveBits(...args));
|
|
variations.push(testDeriveBitsBadLengths(...args));
|
|
variations.push(testDeriveBitsMissingSalt(...args));
|
|
variations.push(testDeriveBitsMissingInfo(...args));
|
|
variations.push(testDeriveBitsBadHash(...args));
|
|
variations.push(
|
|
testDeriveBitsBadUsage(
|
|
noBits,
|
|
size,
|
|
saltSize,
|
|
hash,
|
|
infoSize));
|
|
variations.push(
|
|
testBitsWrongKeyType(
|
|
wrongKey,
|
|
saltSize,
|
|
hash,
|
|
infoSize));
|
|
|
|
kDerivedKeyTypes.forEach((keyType) => {
|
|
const keyArgs = getDeriveKeyInfo(...keyType);
|
|
variations.push(testDeriveKey(...args, ...keyArgs));
|
|
variations.push(testDeriveKeyBadHash(...args, ...keyArgs));
|
|
variations.push(testDeriveKeyBadUsage(
|
|
noKey, size, saltSize, hash, infoSize, ...keyArgs));
|
|
variations.push(
|
|
testWrongKeyType(
|
|
wrongKey,
|
|
saltSize,
|
|
hash,
|
|
infoSize,
|
|
...keyArgs));
|
|
});
|
|
});
|
|
});
|
|
});
|
|
});
|
|
|
|
await Promise.all(variations);
|
|
|
|
})().then(common.mustCall());
|
|
|
|
// https://github.com/w3c/webcrypto/pull/380
|
|
{
|
|
crypto.subtle.importKey('raw', new Uint8Array(0), 'HKDF', false, ['deriveBits']).then((key) => {
|
|
return crypto.subtle.deriveBits({
|
|
name: 'HKDF',
|
|
hash: { name: 'SHA-256' },
|
|
info: new Uint8Array(0),
|
|
salt: new Uint8Array(0),
|
|
}, key, 0);
|
|
}).then((bits) => {
|
|
assert.deepStrictEqual(bits, new ArrayBuffer(0));
|
|
})
|
|
.then(common.mustCall());
|
|
}
|