0d073fa89e
- Add GETTING_STARTED.md with quick start guide and development modes - Add INSTALL.sh automated installation script - Add INSTALLATION_CHECKLIST.md, INSTALLATION_SUCCESS.md, and INSTALLATION_SUMMARY.md - Add QUICK_REFERENCE.md for common commands - Add SETUP_GUIDE.md with detailed setup instructions - Update README.md with improved project overview - Add did-wallet app dependencies and node_modules
198 lines
8.3 KiB
JavaScript
198 lines
8.3 KiB
JavaScript
"use strict";
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Object.defineProperty(exports, "__esModule", { value: true });
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exports.randomUuid = exports.randomBytes = exports.isWebCryptoSupported = exports.getJoseSignatureAlgorithmFromPublicKey = exports.checkValidProperty = exports.checkRequiredProperty = void 0;
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var crypto_1 = require("@noble/hashes/crypto");
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var utils_1 = require("@noble/hashes/utils");
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/**
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* Checks whether the properties object provided contains the specified property.
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*
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* @example
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* ```ts
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* const obj = { a: 'Bob', t: 30 };
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* checkRequiredProperty({ property: 'a', inObject: obj }); // No error
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* checkRequiredProperty({ property: 'z', inObject: obj }); // Throws TypeError
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* ```
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*
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* @param params - The parameters for the check.
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* @param params.property - Property key to check for.
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* @param params.properties - Properties object to check within.
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* @returns void
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* @throws {TypeError} If the property is not a key in the properties object.
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*/
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function checkRequiredProperty(params) {
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if (!params || params.property === undefined || params.inObject === undefined) {
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throw new TypeError("One or more required parameters missing: 'property, properties'");
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}
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var property = params.property, inObject = params.inObject;
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if (!(property in inObject)) {
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throw new TypeError("Required parameter missing: '".concat(property, "'"));
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}
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}
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exports.checkRequiredProperty = checkRequiredProperty;
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/**
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* Checks whether the property specified is a member of the list of valid properties.
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*
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* @example
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* ```ts
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* const property = 'color';
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* const allowedProperties = ['size', 'shape', 'color'];
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* checkValidProperty({ property, allowedProperties }); // No error
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* checkValidProperty({ property: 'weight', allowedProperties }); // Throws TypeError
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* ```
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*
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* @param property Property key to check for.
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* @param allowedProperties Properties Array, Map, or Set to check within.
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* @returns void
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* @throws {TypeError} If the property is not a member of the allowedProperties Array, Map, or Set.
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*/
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function checkValidProperty(params) {
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if (!params || params.property === undefined || params.allowedProperties === undefined) {
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throw new TypeError("One or more required parameters missing: 'property, allowedProperties'");
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}
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var property = params.property, allowedProperties = params.allowedProperties;
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if ((Array.isArray(allowedProperties) && !allowedProperties.includes(property)) ||
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(allowedProperties instanceof Set && !allowedProperties.has(property)) ||
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(allowedProperties instanceof Map && !allowedProperties.has(property))) {
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var validProperties = Array.from((allowedProperties instanceof Map) ? allowedProperties.keys() : allowedProperties).join(', ');
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throw new TypeError("Out of range: '".concat(property, "'. Must be one of '").concat(validProperties, "'"));
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}
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}
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exports.checkValidProperty = checkValidProperty;
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/**
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* Determines the JOSE algorithm identifier of the digital signature algorithm based on the `alg` or
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* `crv` property of a {@link Jwk | JWK}.
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*
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* If the `alg` property is present, its value takes precedence and is returned. Otherwise, the
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* `crv` property is used to determine the algorithm.
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*
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* @see {@link https://www.iana.org/assignments/jose/jose.xhtml#web-signature-encryption-algorithms | JOSE Algorithms}
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* @see {@link https://datatracker.ietf.org/doc/draft-ietf-jose-fully-specified-algorithms/ | Fully-Specified Algorithms for JOSE and COSE}
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*
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* @example
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* ```ts
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* const publicKey: Jwk = {
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* "kty": "OKP",
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* "crv": "Ed25519",
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* "x": "FEJG7OakZi500EydXxuE8uMc8uaAzEJkmQeG8khXANw"
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* }
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* const algorithm = getJoseSignatureAlgorithmFromPublicKey(publicKey);
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* console.log(algorithm); // Output: "EdDSA"
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* ```
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*
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* @param publicKey - A JWK containing the `alg` and/or `crv` properties.
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* @returns The name of the algorithm associated with the key.
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* @throws Error if the algorithm cannot be determined from the provided input.
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*/
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function getJoseSignatureAlgorithmFromPublicKey(publicKey) {
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var curveToJoseAlgorithm = {
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'Ed25519': 'EdDSA',
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'P-256': 'ES256',
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'P-384': 'ES384',
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'P-521': 'ES512',
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'secp256k1': 'ES256K',
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};
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// If the key contains an `alg` property that matches a JOSE registered algorithm identifier,
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// return its value.
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if (publicKey.alg && Object.values(curveToJoseAlgorithm).includes(publicKey.alg)) {
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return publicKey.alg;
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}
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// If the key contains a `crv` property, return the corresponding algorithm.
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if (publicKey.crv && Object.keys(curveToJoseAlgorithm).includes(publicKey.crv)) {
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return curveToJoseAlgorithm[publicKey.crv];
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}
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throw new Error("Unable to determine algorithm based on provided input: alg=".concat(publicKey.alg, ", crv=").concat(publicKey.crv, ". ") +
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"Supported 'alg' values: ".concat(Object.values(curveToJoseAlgorithm).join(', '), ". ") +
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"Supported 'crv' values: ".concat(Object.keys(curveToJoseAlgorithm).join(', '), "."));
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}
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exports.getJoseSignatureAlgorithmFromPublicKey = getJoseSignatureAlgorithmFromPublicKey;
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/**
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* Checks if the Web Crypto API is supported in the current runtime environment.
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*
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* @remarks
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* The function uses `globalThis` to provide a universal reference to the global
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* scope, regardless of the environment. `globalThis` is a standard feature introduced
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* in ECMAScript 2020 that is agnostic to the underlying JavaScript environment, making
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* the code portable across browser, Node.js, and Web Workers environments.
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*
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* In a web browser, `globalThis` is equivalent to the `window` object. In Node.js, it
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* is equivalent to the `global` object, and in Web Workers, it corresponds to `self`.
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*
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* This method checks for the `crypto` object and its `subtle` property on the global scope
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* to determine the availability of the Web Crypto API. If both are present, the API is
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* supported; otherwise, it is not.
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*
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* @example
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* ```ts
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* if (isWebCryptoSupported()) {
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* console.log('Crypto operations can be performed');
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* } else {
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* console.log('Crypto operations are not supported in this environment');
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* }
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* ```
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*
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* @returns A boolean indicating whether the Web Crypto API is supported in the current environment.
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*/
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function isWebCryptoSupported() {
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if (globalThis.crypto && globalThis.crypto.subtle) {
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return true;
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}
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else {
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return false;
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}
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}
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exports.isWebCryptoSupported = isWebCryptoSupported;
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/**
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* Generates secure pseudorandom values of the specified length using
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* `crypto.getRandomValues`, which defers to the operating system.
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*
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* @remarks
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* This function is a wrapper around `randomBytes` from the '@noble/hashes'
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* package. It's designed to be cryptographically strong, suitable for
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* generating initialization vectors, nonces, and other random values.
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*
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* @see {@link https://www.npmjs.com/package/@noble/hashes | @noble/hashes on NPM} for more
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* information about the underlying implementation.
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*
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* @example
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* ```ts
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* const bytes = randomBytes(32); // Generates 32 random bytes
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* ```
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*
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* @param bytesLength - The number of bytes to generate.
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* @returns A Uint8Array containing the generated random bytes.
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*/
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function randomBytes(bytesLength) {
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return (0, utils_1.randomBytes)(bytesLength);
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}
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exports.randomBytes = randomBytes;
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/**
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* Generates a UUID (Universally Unique Identifier) using a
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* cryptographically strong random number generator following
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* the version 4 format, as specified in RFC 4122.
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*
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* A version 4 UUID is a randomly generated UUID. The 13th character
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* is set to '4' to denote version 4, and the 17th character is one
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* of '8', '9', 'A', or 'B' to comply with the variant 1 format of
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* UUIDs (the high bits are set to '10').
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*
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* The UUID is a 36 character string, including hyphens, and looks like this:
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* xxxxxxxx-xxxx-4xxx-axxx-xxxxxxxxxxxx
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*
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* Note that while UUIDs are not guaranteed to be unique, they are
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* practically unique" given the large number of possible UUIDs and
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* the randomness of generation.
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*
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* @example
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* ```ts
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* const uuid = randomUuid();
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* console.log(uuid); // Outputs a version 4 UUID, e.g., '123e4567-e89b-12d3-a456-426655440000'
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* ```
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*
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* @returns A string containing a randomly generated, 36 character long v4 UUID.
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*/
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function randomUuid() {
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var uuid = crypto_1.crypto.randomUUID();
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return uuid;
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}
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exports.randomUuid = randomUuid;
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//# sourceMappingURL=utils.js.map
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