@gaonengwww/jose
Version:
JWA, JWS, JWE, JWT, JWK, JWKS for Node.js, Browser, Cloudflare Workers, Deno, Bun, and other Web-interoperable runtimes
976 lines (953 loc) • 29.3 kB
JavaScript
;
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __export = (target, all) => {
for (var name in all)
__defProp(target, name, { get: all[name], enumerable: true });
};
var __copyProps = (to, from, except, desc) => {
if (from && typeof from === "object" || typeof from === "function") {
for (let key of __getOwnPropNames(from))
if (!__hasOwnProp.call(to, key) && key !== except)
__defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable });
}
return to;
};
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
// src/jws/compact/verify.ts
var verify_exports = {};
__export(verify_exports, {
compactVerify: () => compactVerify
});
module.exports = __toCommonJS(verify_exports);
// src/lib/buffer_utils.ts
var encoder = new TextEncoder();
var decoder = new TextDecoder();
var MAX_INT32 = 2 ** 32;
function concat(...buffers) {
const size = buffers.reduce((acc, { length }) => acc + length, 0);
const buf = new Uint8Array(size);
let i = 0;
for (const buffer of buffers) {
buf.set(buffer, i);
i += buffer.length;
}
return buf;
}
// src/lib/base64.ts
function decodeBase64(encoded) {
if (Uint8Array.fromBase64) {
return Uint8Array.fromBase64(encoded);
}
const binary = atob(encoded);
const bytes = new Uint8Array(binary.length);
for (let i = 0; i < binary.length; i++) {
bytes[i] = binary.charCodeAt(i);
}
return bytes;
}
// src/util/base64url.ts
function decode(input) {
if (Uint8Array.fromBase64) {
return Uint8Array.fromBase64(typeof input === "string" ? input : decoder.decode(input), {
alphabet: "base64url"
});
}
let encoded = input;
if (encoded instanceof Uint8Array) {
encoded = decoder.decode(encoded);
}
encoded = encoded.replace(/-/g, "+").replace(/_/g, "/").replace(/\s/g, "");
try {
return decodeBase64(encoded);
} catch {
throw new TypeError("The input to be decoded is not correctly encoded.");
}
}
// src/util/errors.ts
var JOSEError = class extends Error {
/**
* A unique error code for the particular error subclass.
*
* @ignore
*/
static code = "ERR_JOSE_GENERIC";
/** A unique error code for {@link JOSEError}. */
code = "ERR_JOSE_GENERIC";
/** @ignore */
constructor(message2, options) {
super(message2, options);
this.name = this.constructor.name;
Error.captureStackTrace?.(this, this.constructor);
}
};
var JOSEAlgNotAllowed = class extends JOSEError {
/** @ignore */
static code = "ERR_JOSE_ALG_NOT_ALLOWED";
/** A unique error code for {@link JOSEAlgNotAllowed}. */
code = "ERR_JOSE_ALG_NOT_ALLOWED";
};
var JOSENotSupported = class extends JOSEError {
/** @ignore */
static code = "ERR_JOSE_NOT_SUPPORTED";
/** A unique error code for {@link JOSENotSupported}. */
code = "ERR_JOSE_NOT_SUPPORTED";
};
var JWSInvalid = class extends JOSEError {
/** @ignore */
static code = "ERR_JWS_INVALID";
/** A unique error code for {@link JWSInvalid}. */
code = "ERR_JWS_INVALID";
};
var JWSSignatureVerificationFailed = class extends JOSEError {
/** @ignore */
static code = "ERR_JWS_SIGNATURE_VERIFICATION_FAILED";
/** A unique error code for {@link JWSSignatureVerificationFailed}. */
code = "ERR_JWS_SIGNATURE_VERIFICATION_FAILED";
/** @ignore */
constructor(message2 = "signature verification failed", options) {
super(message2, options);
}
};
// src/lib/subtle_dsa.ts
var subtle_dsa_default = (alg, algorithm) => {
const hash = `SHA-${alg.slice(-3)}`;
switch (alg) {
case "HS256":
case "HS384":
case "HS512":
return { hash, name: "HMAC" };
case "PS256":
case "PS384":
case "PS512":
return { hash, name: "RSA-PSS", saltLength: parseInt(alg.slice(-3), 10) >> 3 };
case "RS256":
case "RS384":
case "RS512":
return { hash, name: "RSASSA-PKCS1-v1_5" };
case "ES256":
case "ES384":
case "ES512":
return { hash, name: "ECDSA", namedCurve: algorithm.namedCurve };
case "Ed25519":
// Fall through
case "EdDSA":
return { name: "Ed25519" };
default:
throw new JOSENotSupported(
`alg ${alg} is not supported either by JOSE or your javascript runtime`
);
}
};
// src/lib/check_key_length.ts
var check_key_length_default = (alg, key) => {
if (alg.startsWith("RS") || alg.startsWith("PS")) {
const { modulusLength } = key.algorithm;
if (typeof modulusLength !== "number" || modulusLength < 2048) {
throw new TypeError(`${alg} requires key modulusLength to be 2048 bits or larger`);
}
}
};
// src/lib/crypto_key.ts
function unusable(name, prop = "algorithm.name") {
return new TypeError(`CryptoKey does not support this operation, its ${prop} must be ${name}`);
}
function isAlgorithm(algorithm, name) {
return algorithm.name === name;
}
function getHashLength(hash) {
return parseInt(hash.name.slice(4), 10);
}
function getNamedCurve(alg) {
switch (alg) {
case "ES256":
return "P-256";
case "ES384":
return "P-384";
case "ES512":
return "P-521";
default:
throw new Error("unreachable");
}
}
function checkUsage(key, usage) {
if (usage && !key.usages.includes(usage)) {
throw new TypeError(
`CryptoKey does not support this operation, its usages must include ${usage}.`
);
}
}
function checkSigCryptoKey(key, alg, usage) {
switch (alg) {
case "HS256":
case "HS384":
case "HS512": {
if (!isAlgorithm(key.algorithm, "HMAC")) throw unusable("HMAC");
const expected = parseInt(alg.slice(2), 10);
const actual = getHashLength(key.algorithm.hash);
if (actual !== expected) throw unusable(`SHA-${expected}`, "algorithm.hash");
break;
}
case "RS256":
case "RS384":
case "RS512": {
if (!isAlgorithm(key.algorithm, "RSASSA-PKCS1-v1_5"))
throw unusable("RSASSA-PKCS1-v1_5");
const expected = parseInt(alg.slice(2), 10);
const actual = getHashLength(key.algorithm.hash);
if (actual !== expected) throw unusable(`SHA-${expected}`, "algorithm.hash");
break;
}
case "PS256":
case "PS384":
case "PS512": {
if (!isAlgorithm(key.algorithm, "RSA-PSS")) throw unusable("RSA-PSS");
const expected = parseInt(alg.slice(2), 10);
const actual = getHashLength(key.algorithm.hash);
if (actual !== expected) throw unusable(`SHA-${expected}`, "algorithm.hash");
break;
}
case "Ed25519":
// Fall through
case "EdDSA": {
if (!isAlgorithm(key.algorithm, "Ed25519")) throw unusable("Ed25519");
break;
}
case "ES256":
case "ES384":
case "ES512": {
if (!isAlgorithm(key.algorithm, "ECDSA")) throw unusable("ECDSA");
const expected = getNamedCurve(alg);
const actual = key.algorithm.namedCurve;
if (actual !== expected) throw unusable(expected, "algorithm.namedCurve");
break;
}
default:
throw new TypeError("CryptoKey does not support this operation");
}
checkUsage(key, usage);
}
// src/lib/invalid_key_input.ts
function message(msg, actual, ...types) {
types = types.filter(Boolean);
if (types.length > 2) {
const last = types.pop();
msg += `one of type ${types.join(", ")}, or ${last}.`;
} else if (types.length === 2) {
msg += `one of type ${types[0]} or ${types[1]}.`;
} else {
msg += `of type ${types[0]}.`;
}
if (actual == null) {
msg += ` Received ${actual}`;
} else if (typeof actual === "function" && actual.name) {
msg += ` Received function ${actual.name}`;
} else if (typeof actual === "object" && actual != null) {
if (actual.constructor?.name) {
msg += ` Received an instance of ${actual.constructor.name}`;
}
}
return msg;
}
var invalid_key_input_default = (actual, ...types) => {
return message("Key must be ", actual, ...types);
};
function withAlg(alg, actual, ...types) {
return message(`Key for the ${alg} algorithm must be `, actual, ...types);
}
// src/lib/get_sign_verify_key.ts
var get_sign_verify_key_default = async (alg, key, usage) => {
if (key instanceof Uint8Array) {
if (!alg.startsWith("HS")) {
throw new TypeError(invalid_key_input_default(key, "CryptoKey", "KeyObject", "JSON Web Key"));
}
return crypto.subtle.importKey(
"raw",
key,
{ hash: `SHA-${alg.slice(-3)}`, name: "HMAC" },
false,
[usage]
);
}
checkSigCryptoKey(key, alg, usage);
return key;
};
// src/lib/verify.ts
var verify_default = async (alg, key, signature, data) => {
const cryptoKey = await get_sign_verify_key_default(alg, key, "verify");
check_key_length_default(alg, cryptoKey);
const algorithm = subtle_dsa_default(alg, cryptoKey.algorithm);
try {
return await crypto.subtle.verify(algorithm, cryptoKey, signature, data);
} catch {
return false;
}
};
// src/lib/is_disjoint.ts
var is_disjoint_default = (...headers) => {
const sources = headers.filter(Boolean);
if (sources.length === 0 || sources.length === 1) {
return true;
}
let acc;
for (const header of sources) {
const parameters = Object.keys(header);
if (!acc || acc.size === 0) {
acc = new Set(parameters);
continue;
}
for (const parameter of parameters) {
if (acc.has(parameter)) {
return false;
}
acc.add(parameter);
}
}
return true;
};
// src/lib/is_object.ts
function isObjectLike(value) {
return typeof value === "object" && value !== null;
}
var is_object_default = (input) => {
if (!isObjectLike(input) || Object.prototype.toString.call(input) !== "[object Object]") {
return false;
}
if (Object.getPrototypeOf(input) === null) {
return true;
}
let proto = input;
while (Object.getPrototypeOf(proto) !== null) {
proto = Object.getPrototypeOf(proto);
}
return Object.getPrototypeOf(input) === proto;
};
// src/lib/is_key_like.ts
function isCryptoKey(key) {
return key?.[Symbol.toStringTag] === "CryptoKey";
}
function isKeyObject(key) {
return key?.[Symbol.toStringTag] === "KeyObject";
}
var is_key_like_default = (key) => {
return isCryptoKey(key) || isKeyObject(key);
};
// src/lib/is_jwk.ts
function isJWK(key) {
return is_object_default(key) && typeof key.kty === "string";
}
function isPrivateJWK(key) {
return key.kty !== "oct" && typeof key.d === "string";
}
function isPublicJWK(key) {
return key.kty !== "oct" && typeof key.d === "undefined";
}
function isSecretJWK(key) {
return key.kty === "oct" && typeof key.k === "string";
}
// src/lib/check_key_type.ts
var tag = (key) => key?.[Symbol.toStringTag];
var jwkMatchesOp = (alg, key, usage) => {
if (key.use !== void 0) {
let expected;
switch (usage) {
case "sign":
case "verify":
expected = "sig";
break;
case "encrypt":
case "decrypt":
expected = "enc";
break;
}
if (key.use !== expected) {
throw new TypeError(
`Invalid key for this operation, its "use" must be "${expected}" when present`
);
}
}
if (key.alg !== void 0 && key.alg !== alg) {
throw new TypeError(`Invalid key for this operation, its "alg" must be "${alg}" when present`);
}
if (Array.isArray(key.key_ops)) {
let expectedKeyOp;
switch (true) {
case (usage === "sign" || usage === "verify"):
// Fall through
case alg === "dir":
// Fall through
case alg.includes("CBC-HS"):
expectedKeyOp = usage;
break;
case alg.startsWith("PBES2"):
expectedKeyOp = "deriveBits";
break;
case /^A\d{3}(?:GCM)?(?:KW)?$/.test(alg):
if (!alg.includes("GCM") && alg.endsWith("KW")) {
expectedKeyOp = usage === "encrypt" ? "wrapKey" : "unwrapKey";
} else {
expectedKeyOp = usage;
}
break;
case (usage === "encrypt" && alg.startsWith("RSA")):
expectedKeyOp = "wrapKey";
break;
case usage === "decrypt":
expectedKeyOp = alg.startsWith("RSA") ? "unwrapKey" : "deriveBits";
break;
}
if (expectedKeyOp && key.key_ops?.includes?.(expectedKeyOp) === false) {
throw new TypeError(
`Invalid key for this operation, its "key_ops" must include "${expectedKeyOp}" when present`
);
}
}
return true;
};
var symmetricTypeCheck = (alg, key, usage) => {
if (key instanceof Uint8Array) return;
if (isJWK(key)) {
if (isSecretJWK(key) && jwkMatchesOp(alg, key, usage)) return;
throw new TypeError(
`JSON Web Key for symmetric algorithms must have JWK "kty" (Key Type) equal to "oct" and the JWK "k" (Key Value) present`
);
}
if (!is_key_like_default(key)) {
throw new TypeError(
withAlg(alg, key, "CryptoKey", "KeyObject", "JSON Web Key", "Uint8Array")
);
}
if (key.type !== "secret") {
throw new TypeError(`${tag(key)} instances for symmetric algorithms must be of type "secret"`);
}
};
var asymmetricTypeCheck = (alg, key, usage) => {
if (isJWK(key)) {
switch (usage) {
case "decrypt":
case "sign":
if (isPrivateJWK(key) && jwkMatchesOp(alg, key, usage)) return;
throw new TypeError(`JSON Web Key for this operation be a private JWK`);
case "encrypt":
case "verify":
if (isPublicJWK(key) && jwkMatchesOp(alg, key, usage)) return;
throw new TypeError(`JSON Web Key for this operation be a public JWK`);
}
}
if (!is_key_like_default(key)) {
throw new TypeError(withAlg(alg, key, "CryptoKey", "KeyObject", "JSON Web Key"));
}
if (key.type === "secret") {
throw new TypeError(
`${tag(key)} instances for asymmetric algorithms must not be of type "secret"`
);
}
if (key.type === "public") {
switch (usage) {
case "sign":
throw new TypeError(
`${tag(key)} instances for asymmetric algorithm signing must be of type "private"`
);
case "decrypt":
throw new TypeError(
`${tag(key)} instances for asymmetric algorithm decryption must be of type "private"`
);
default:
break;
}
}
if (key.type === "private") {
switch (usage) {
case "verify":
throw new TypeError(
`${tag(key)} instances for asymmetric algorithm verifying must be of type "public"`
);
case "encrypt":
throw new TypeError(
`${tag(key)} instances for asymmetric algorithm encryption must be of type "public"`
);
default:
break;
}
}
};
var check_key_type_default = (alg, key, usage) => {
const symmetric = alg.startsWith("HS") || alg === "dir" || alg.startsWith("PBES2") || /^A(?:128|192|256)(?:GCM)?(?:KW)?$/.test(alg) || /^A(?:128|192|256)CBC-HS(?:256|384|512)$/.test(alg);
if (symmetric) {
symmetricTypeCheck(alg, key, usage);
} else {
asymmetricTypeCheck(alg, key, usage);
}
};
// src/lib/validate_crit.ts
var validate_crit_default = (Err, recognizedDefault, recognizedOption, protectedHeader, joseHeader) => {
if (joseHeader.crit !== void 0 && protectedHeader?.crit === void 0) {
throw new Err('"crit" (Critical) Header Parameter MUST be integrity protected');
}
if (!protectedHeader || protectedHeader.crit === void 0) {
return /* @__PURE__ */ new Set();
}
if (!Array.isArray(protectedHeader.crit) || protectedHeader.crit.length === 0 || protectedHeader.crit.some((input) => typeof input !== "string" || input.length === 0)) {
throw new Err(
'"crit" (Critical) Header Parameter MUST be an array of non-empty strings when present'
);
}
let recognized;
if (recognizedOption !== void 0) {
recognized = new Map([...Object.entries(recognizedOption), ...recognizedDefault.entries()]);
} else {
recognized = recognizedDefault;
}
for (const parameter of protectedHeader.crit) {
if (!recognized.has(parameter)) {
throw new JOSENotSupported(`Extension Header Parameter "${parameter}" is not recognized`);
}
if (joseHeader[parameter] === void 0) {
throw new Err(`Extension Header Parameter "${parameter}" is missing`);
}
if (recognized.get(parameter) && protectedHeader[parameter] === void 0) {
throw new Err(`Extension Header Parameter "${parameter}" MUST be integrity protected`);
}
}
return new Set(protectedHeader.crit);
};
// src/lib/validate_algorithms.ts
var validate_algorithms_default = (option, algorithms) => {
if (algorithms !== void 0 && (!Array.isArray(algorithms) || algorithms.some((s) => typeof s !== "string"))) {
throw new TypeError(`"${option}" option must be an array of strings`);
}
if (!algorithms) {
return void 0;
}
return new Set(algorithms);
};
// src/lib/jwk_to_key.ts
function subtleMapping(jwk) {
let algorithm;
let keyUsages;
switch (jwk.kty) {
case "RSA": {
switch (jwk.alg) {
case "PS256":
case "PS384":
case "PS512":
algorithm = { name: "RSA-PSS", hash: `SHA-${jwk.alg.slice(-3)}` };
keyUsages = jwk.d ? ["sign"] : ["verify"];
break;
case "RS256":
case "RS384":
case "RS512":
algorithm = { name: "RSASSA-PKCS1-v1_5", hash: `SHA-${jwk.alg.slice(-3)}` };
keyUsages = jwk.d ? ["sign"] : ["verify"];
break;
case "RSA-OAEP":
case "RSA-OAEP-256":
case "RSA-OAEP-384":
case "RSA-OAEP-512":
algorithm = {
name: "RSA-OAEP",
hash: `SHA-${parseInt(jwk.alg.slice(-3), 10) || 1}`
};
keyUsages = jwk.d ? ["decrypt", "unwrapKey"] : ["encrypt", "wrapKey"];
break;
default:
throw new JOSENotSupported('Invalid or unsupported JWK "alg" (Algorithm) Parameter value');
}
break;
}
case "EC": {
switch (jwk.alg) {
case "ES256":
algorithm = { name: "ECDSA", namedCurve: "P-256" };
keyUsages = jwk.d ? ["sign"] : ["verify"];
break;
case "ES384":
algorithm = { name: "ECDSA", namedCurve: "P-384" };
keyUsages = jwk.d ? ["sign"] : ["verify"];
break;
case "ES512":
algorithm = { name: "ECDSA", namedCurve: "P-521" };
keyUsages = jwk.d ? ["sign"] : ["verify"];
break;
case "ECDH-ES":
case "ECDH-ES+A128KW":
case "ECDH-ES+A192KW":
case "ECDH-ES+A256KW":
algorithm = { name: "ECDH", namedCurve: jwk.crv };
keyUsages = jwk.d ? ["deriveBits"] : [];
break;
default:
throw new JOSENotSupported('Invalid or unsupported JWK "alg" (Algorithm) Parameter value');
}
break;
}
case "OKP": {
switch (jwk.alg) {
case "Ed25519":
// Fall through
case "EdDSA":
algorithm = { name: "Ed25519" };
keyUsages = jwk.d ? ["sign"] : ["verify"];
break;
case "ECDH-ES":
case "ECDH-ES+A128KW":
case "ECDH-ES+A192KW":
case "ECDH-ES+A256KW":
algorithm = { name: jwk.crv };
keyUsages = jwk.d ? ["deriveBits"] : [];
break;
default:
throw new JOSENotSupported('Invalid or unsupported JWK "alg" (Algorithm) Parameter value');
}
break;
}
default:
throw new JOSENotSupported('Invalid or unsupported JWK "kty" (Key Type) Parameter value');
}
return { algorithm, keyUsages };
}
var jwk_to_key_default = async (jwk) => {
if (!jwk.alg) {
throw new TypeError('"alg" argument is required when "jwk.alg" is not present');
}
const { algorithm, keyUsages } = subtleMapping(jwk);
const keyData = { ...jwk };
delete keyData.alg;
delete keyData.use;
return crypto.subtle.importKey(
"jwk",
keyData,
algorithm,
jwk.ext ?? (jwk.d ? false : true),
jwk.key_ops ?? keyUsages
);
};
// src/lib/normalize_key.ts
var cache;
var handleJWK = async (key, jwk, alg, freeze = false) => {
cache ||= /* @__PURE__ */ new WeakMap();
let cached = cache.get(key);
if (cached?.[alg]) {
return cached[alg];
}
const cryptoKey = await jwk_to_key_default({ ...jwk, alg });
if (freeze) Object.freeze(key);
if (!cached) {
cache.set(key, { [alg]: cryptoKey });
} else {
cached[alg] = cryptoKey;
}
return cryptoKey;
};
var handleKeyObject = (keyObject, alg) => {
cache ||= /* @__PURE__ */ new WeakMap();
let cached = cache.get(keyObject);
if (cached?.[alg]) {
return cached[alg];
}
const isPublic = keyObject.type === "public";
const extractable = isPublic ? true : false;
let cryptoKey;
if (keyObject.asymmetricKeyType === "x25519") {
switch (alg) {
case "ECDH-ES":
case "ECDH-ES+A128KW":
case "ECDH-ES+A192KW":
case "ECDH-ES+A256KW":
break;
default:
throw new TypeError("given KeyObject instance cannot be used for this algorithm");
}
cryptoKey = keyObject.toCryptoKey(
keyObject.asymmetricKeyType,
extractable,
isPublic ? [] : ["deriveBits"]
);
}
if (keyObject.asymmetricKeyType === "ed25519") {
if (alg !== "EdDSA" && alg !== "Ed25519") {
throw new TypeError("given KeyObject instance cannot be used for this algorithm");
}
cryptoKey = keyObject.toCryptoKey(keyObject.asymmetricKeyType, extractable, [
isPublic ? "verify" : "sign"
]);
}
if (keyObject.asymmetricKeyType === "rsa") {
let hash;
switch (alg) {
case "RSA-OAEP":
hash = "SHA-1";
break;
case "RS256":
case "PS256":
case "RSA-OAEP-256":
hash = "SHA-256";
break;
case "RS384":
case "PS384":
case "RSA-OAEP-384":
hash = "SHA-384";
break;
case "RS512":
case "PS512":
case "RSA-OAEP-512":
hash = "SHA-512";
break;
default:
throw new TypeError("given KeyObject instance cannot be used for this algorithm");
}
if (alg.startsWith("RSA-OAEP")) {
return keyObject.toCryptoKey(
{
name: "RSA-OAEP",
hash
},
extractable,
isPublic ? ["encrypt"] : ["decrypt"]
);
}
cryptoKey = keyObject.toCryptoKey(
{
name: alg.startsWith("PS") ? "RSA-PSS" : "RSASSA-PKCS1-v1_5",
hash
},
extractable,
[isPublic ? "verify" : "sign"]
);
}
if (keyObject.asymmetricKeyType === "ec") {
const nist = /* @__PURE__ */ new Map([
["prime256v1", "P-256"],
["secp384r1", "P-384"],
["secp521r1", "P-521"]
]);
const namedCurve = nist.get(keyObject.asymmetricKeyDetails?.namedCurve);
if (!namedCurve) {
throw new TypeError("given KeyObject instance cannot be used for this algorithm");
}
if (alg === "ES256" && namedCurve === "P-256") {
cryptoKey = keyObject.toCryptoKey(
{
name: "ECDSA",
namedCurve
},
extractable,
[isPublic ? "verify" : "sign"]
);
}
if (alg === "ES384" && namedCurve === "P-384") {
cryptoKey = keyObject.toCryptoKey(
{
name: "ECDSA",
namedCurve
},
extractable,
[isPublic ? "verify" : "sign"]
);
}
if (alg === "ES512" && namedCurve === "P-521") {
cryptoKey = keyObject.toCryptoKey(
{
name: "ECDSA",
namedCurve
},
extractable,
[isPublic ? "verify" : "sign"]
);
}
if (alg.startsWith("ECDH-ES")) {
cryptoKey = keyObject.toCryptoKey(
{
name: "ECDH",
namedCurve
},
extractable,
isPublic ? [] : ["deriveBits"]
);
}
}
if (!cryptoKey) {
throw new TypeError("given KeyObject instance cannot be used for this algorithm");
}
if (!cached) {
cache.set(keyObject, { [alg]: cryptoKey });
} else {
cached[alg] = cryptoKey;
}
return cryptoKey;
};
var normalize_key_default = async (key, alg) => {
if (key instanceof Uint8Array) {
return key;
}
if (isCryptoKey(key)) {
return key;
}
if (isKeyObject(key)) {
if (key.type === "secret") {
return key.export();
}
if ("toCryptoKey" in key && typeof key.toCryptoKey === "function") {
try {
return handleKeyObject(key, alg);
} catch (err) {
if (err instanceof TypeError) {
throw err;
}
}
}
let jwk = key.export({ format: "jwk" });
return handleJWK(key, jwk, alg);
}
if (isJWK(key)) {
if (key.k) {
return decode(key.k);
}
return handleJWK(key, key, alg, true);
}
throw new Error("unreachable");
};
// src/jws/flattened/verify.ts
async function flattenedVerify(jws, key, options) {
if (!is_object_default(jws)) {
throw new JWSInvalid("Flattened JWS must be an object");
}
if (jws.protected === void 0 && jws.header === void 0) {
throw new JWSInvalid('Flattened JWS must have either of the "protected" or "header" members');
}
if (jws.protected !== void 0 && typeof jws.protected !== "string") {
throw new JWSInvalid("JWS Protected Header incorrect type");
}
if (jws.payload === void 0) {
throw new JWSInvalid("JWS Payload missing");
}
if (typeof jws.signature !== "string") {
throw new JWSInvalid("JWS Signature missing or incorrect type");
}
if (jws.header !== void 0 && !is_object_default(jws.header)) {
throw new JWSInvalid("JWS Unprotected Header incorrect type");
}
let parsedProt = {};
if (jws.protected) {
try {
const protectedHeader = decode(jws.protected);
parsedProt = JSON.parse(decoder.decode(protectedHeader));
} catch {
throw new JWSInvalid("JWS Protected Header is invalid");
}
}
if (!is_disjoint_default(parsedProt, jws.header)) {
throw new JWSInvalid(
"JWS Protected and JWS Unprotected Header Parameter names must be disjoint"
);
}
const joseHeader = {
...parsedProt,
...jws.header
};
const extensions = validate_crit_default(
JWSInvalid,
/* @__PURE__ */ new Map([["b64", true]]),
options?.crit,
parsedProt,
joseHeader
);
let b64 = true;
if (extensions.has("b64")) {
b64 = parsedProt.b64;
if (typeof b64 !== "boolean") {
throw new JWSInvalid(
'The "b64" (base64url-encode payload) Header Parameter must be a boolean'
);
}
}
const { alg } = joseHeader;
if (typeof alg !== "string" || !alg) {
throw new JWSInvalid('JWS "alg" (Algorithm) Header Parameter missing or invalid');
}
const algorithms = options && validate_algorithms_default("algorithms", options.algorithms);
if (algorithms && !algorithms.has(alg)) {
throw new JOSEAlgNotAllowed('"alg" (Algorithm) Header Parameter value not allowed');
}
if (b64) {
if (typeof jws.payload !== "string") {
throw new JWSInvalid("JWS Payload must be a string");
}
} else if (typeof jws.payload !== "string" && !(jws.payload instanceof Uint8Array)) {
throw new JWSInvalid("JWS Payload must be a string or an Uint8Array instance");
}
let resolvedKey = false;
if (typeof key === "function") {
key = await key(parsedProt, jws);
resolvedKey = true;
}
check_key_type_default(alg, key, "verify");
const data = concat(
encoder.encode(jws.protected ?? ""),
encoder.encode("."),
typeof jws.payload === "string" ? encoder.encode(jws.payload) : jws.payload
);
let signature;
try {
signature = decode(jws.signature);
} catch {
throw new JWSInvalid("Failed to base64url decode the signature");
}
const k = await normalize_key_default(key, alg);
const verified = await verify_default(alg, k, signature, data);
if (!verified) {
throw new JWSSignatureVerificationFailed();
}
let payload;
if (b64) {
try {
payload = decode(jws.payload);
} catch {
throw new JWSInvalid("Failed to base64url decode the payload");
}
} else if (typeof jws.payload === "string") {
payload = encoder.encode(jws.payload);
} else {
payload = jws.payload;
}
const result = { payload };
if (jws.protected !== void 0) {
result.protectedHeader = parsedProt;
}
if (jws.header !== void 0) {
result.unprotectedHeader = jws.header;
}
if (resolvedKey) {
return { ...result, key: k };
}
return result;
}
// src/jws/compact/verify.ts
async function compactVerify(jws, key, options) {
if (jws instanceof Uint8Array) {
jws = decoder.decode(jws);
}
if (typeof jws !== "string") {
throw new JWSInvalid("Compact JWS must be a string or Uint8Array");
}
const { 0: protectedHeader, 1: payload, 2: signature, length } = jws.split(".");
if (length !== 3) {
throw new JWSInvalid("Invalid Compact JWS");
}
const verified = await flattenedVerify(
{ payload, protected: protectedHeader, signature },
key,
options
);
const result = { payload: verified.payload, protectedHeader: verified.protectedHeader };
if (typeof key === "function") {
return { ...result, key: verified.key };
}
return result;
}
// Annotate the CommonJS export names for ESM import in node:
0 && (module.exports = {
compactVerify
});