71 lines
3.1 KiB
Plaintext
71 lines
3.1 KiB
Plaintext
"use strict";
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Object.defineProperty(exports, "__esModule", { value: true });
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exports.ecdhAllowed = exports.generateEpk = exports.deriveKey = void 0;
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const node_crypto_1 = require("node:crypto");
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const node_util_1 = require("node:util");
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const get_named_curve_js_1 = require("./get_named_curve.js");
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const buffer_utils_js_1 = require("../lib/buffer_utils.js");
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const errors_js_1 = require("../util/errors.js");
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const webcrypto_js_1 = require("./webcrypto.js");
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const crypto_key_js_1 = require("../lib/crypto_key.js");
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const is_key_object_js_1 = require("./is_key_object.js");
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const invalid_key_input_js_1 = require("../lib/invalid_key_input.js");
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const is_key_like_js_1 = require("./is_key_like.js");
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const generateKeyPair = (0, node_util_1.promisify)(node_crypto_1.generateKeyPair);
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async function deriveKey(publicKee, privateKee, algorithm, keyLength, apu = new Uint8Array(0), apv = new Uint8Array(0)) {
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let publicKey;
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if ((0, webcrypto_js_1.isCryptoKey)(publicKee)) {
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(0, crypto_key_js_1.checkEncCryptoKey)(publicKee, 'ECDH');
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publicKey = node_crypto_1.KeyObject.from(publicKee);
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}
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else if ((0, is_key_object_js_1.default)(publicKee)) {
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publicKey = publicKee;
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}
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else {
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throw new TypeError((0, invalid_key_input_js_1.default)(publicKee, ...is_key_like_js_1.types));
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}
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let privateKey;
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if ((0, webcrypto_js_1.isCryptoKey)(privateKee)) {
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(0, crypto_key_js_1.checkEncCryptoKey)(privateKee, 'ECDH', 'deriveBits');
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privateKey = node_crypto_1.KeyObject.from(privateKee);
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}
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else if ((0, is_key_object_js_1.default)(privateKee)) {
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privateKey = privateKee;
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}
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else {
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throw new TypeError((0, invalid_key_input_js_1.default)(privateKee, ...is_key_like_js_1.types));
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}
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const value = (0, buffer_utils_js_1.concat)((0, buffer_utils_js_1.lengthAndInput)(buffer_utils_js_1.encoder.encode(algorithm)), (0, buffer_utils_js_1.lengthAndInput)(apu), (0, buffer_utils_js_1.lengthAndInput)(apv), (0, buffer_utils_js_1.uint32be)(keyLength));
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const sharedSecret = (0, node_crypto_1.diffieHellman)({ privateKey, publicKey });
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return (0, buffer_utils_js_1.concatKdf)(sharedSecret, keyLength, value);
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}
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exports.deriveKey = deriveKey;
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async function generateEpk(kee) {
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let key;
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if ((0, webcrypto_js_1.isCryptoKey)(kee)) {
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key = node_crypto_1.KeyObject.from(kee);
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}
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else if ((0, is_key_object_js_1.default)(kee)) {
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key = kee;
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}
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else {
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throw new TypeError((0, invalid_key_input_js_1.default)(kee, ...is_key_like_js_1.types));
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}
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switch (key.asymmetricKeyType) {
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case 'x25519':
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return generateKeyPair('x25519');
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case 'x448': {
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return generateKeyPair('x448');
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}
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case 'ec': {
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const namedCurve = (0, get_named_curve_js_1.default)(key);
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return generateKeyPair('ec', { namedCurve });
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}
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default:
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throw new errors_js_1.JOSENotSupported('Invalid or unsupported EPK');
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}
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}
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exports.generateEpk = generateEpk;
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const ecdhAllowed = (key) => ['P-256', 'P-384', 'P-521', 'X25519', 'X448'].includes((0, get_named_curve_js_1.default)(key));
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exports.ecdhAllowed = ecdhAllowed;
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