mirror of
https://github.com/denoland/deno.git
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4fa8869f24
This completely rewrites how we handle key material in ext/node. Changes in this PR: - **Signing** - RSA - RSA-PSS 🆕 - DSA 🆕 - EC - ED25519 🆕 - **Verifying** - RSA - RSA-PSS 🆕 - DSA 🆕 - EC 🆕 - ED25519 🆕 - **Private key import** - Passphrase encrypted private keys 🆕 - RSA - PEM - DER (PKCS#1) 🆕 - DER (PKCS#8) 🆕 - RSA-PSS - PEM - DER (PKCS#1) 🆕 - DER (PKCS#8) 🆕 - DSA 🆕 - EC - PEM - DER (SEC1) 🆕 - DER (PKCS#8) 🆕 - X25519 🆕 - ED25519 🆕 - DH - **Public key import** - RSA - PEM - DER (PKCS#1) 🆕 - DER (PKCS#8) 🆕 - RSA-PSS 🆕 - DSA 🆕 - EC 🆕 - X25519 🆕 - ED25519 🆕 - DH 🆕 - **Private key export** - RSA 🆕 - DSA 🆕 - EC 🆕 - X25519 🆕 - ED25519 🆕 - DH 🆕 - **Public key export** - RSA - DSA 🆕 - EC 🆕 - X25519 🆕 - ED25519 🆕 - DH 🆕 - **Key pair generation** - Overhauled, but supported APIs unchanged This PR adds a lot of new individual functionality. But most importantly because of the new key material representation, it is now trivial to add new algorithms (as shown by this PR). Now, when adding a new algorithm, it is also widely supported - for example previously we supported ED25519 key pair generation, but we could not import, export, sign or verify with ED25519. We can now do all of those things.
298 lines
7.6 KiB
TypeScript
298 lines
7.6 KiB
TypeScript
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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// Copyright Joyent, Inc. and Node.js contributors. All rights reserved. MIT license.
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// TODO(petamoriken): enable prefer-primordials for node polyfills
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// deno-lint-ignore-file prefer-primordials
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import {
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op_node_create_hash,
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op_node_export_secret_key,
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op_node_get_hashes,
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op_node_hash_clone,
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op_node_hash_digest,
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op_node_hash_digest_hex,
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op_node_hash_update,
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op_node_hash_update_str,
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} from "ext:core/ops";
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import { primordials } from "ext:core/mod.js";
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import { Buffer } from "node:buffer";
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import { Transform } from "node:stream";
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import {
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forgivingBase64Encode as encodeToBase64,
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forgivingBase64UrlEncode as encodeToBase64Url,
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} from "ext:deno_web/00_infra.js";
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import type { TransformOptions } from "ext:deno_node/_stream.d.ts";
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import {
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validateEncoding,
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validateString,
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validateUint32,
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} from "ext:deno_node/internal/validators.mjs";
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import type {
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BinaryToTextEncoding,
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Encoding,
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} from "ext:deno_node/internal/crypto/types.ts";
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import {
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KeyObject,
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prepareSecretKey,
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} from "ext:deno_node/internal/crypto/keys.ts";
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import {
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ERR_CRYPTO_HASH_FINALIZED,
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ERR_INVALID_ARG_TYPE,
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NodeError,
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} from "ext:deno_node/internal/errors.ts";
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import LazyTransform from "ext:deno_node/internal/streams/lazy_transform.mjs";
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import {
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getDefaultEncoding,
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toBuf,
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} from "ext:deno_node/internal/crypto/util.ts";
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import {
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isAnyArrayBuffer,
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isArrayBufferView,
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} from "ext:deno_node/internal/util/types.ts";
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const { ReflectApply, ObjectSetPrototypeOf } = primordials;
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function unwrapErr(ok: boolean) {
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if (!ok) throw new ERR_CRYPTO_HASH_FINALIZED();
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}
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declare const __hasher: unique symbol;
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type Hasher = { __hasher: typeof __hasher };
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const kHandle = Symbol("kHandle");
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export function Hash(
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this: Hash,
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algorithm: string | Hasher,
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options?: { outputLength?: number },
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): Hash {
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if (!(this instanceof Hash)) {
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return new Hash(algorithm, options);
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}
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if (!(typeof algorithm === "object")) {
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validateString(algorithm, "algorithm");
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}
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const xofLen = typeof options === "object" && options !== null
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? options.outputLength
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: undefined;
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if (xofLen !== undefined) {
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validateUint32(xofLen, "options.outputLength");
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}
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try {
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this[kHandle] = typeof algorithm === "object"
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? op_node_hash_clone(algorithm, xofLen)
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: op_node_create_hash(algorithm.toLowerCase(), xofLen);
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} catch (err) {
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// TODO(lucacasonato): don't do this
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if (err.message === "Output length mismatch for non-extendable algorithm") {
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throw new NodeError(
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"ERR_OSSL_EVP_NOT_XOF_OR_INVALID_LENGTH",
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"Invalid XOF digest length",
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);
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} else {
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throw err;
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}
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}
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if (this[kHandle] === null) throw new ERR_CRYPTO_HASH_FINALIZED();
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ReflectApply(LazyTransform, this, [options]);
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}
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interface Hash {
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[kHandle]: object;
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}
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ObjectSetPrototypeOf(Hash.prototype, LazyTransform.prototype);
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ObjectSetPrototypeOf(Hash, LazyTransform);
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Hash.prototype.copy = function copy(options?: { outputLength: number }) {
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return new Hash(this[kHandle], options);
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};
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Hash.prototype._transform = function _transform(
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chunk: string | Buffer,
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encoding: Encoding | "buffer",
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callback: () => void,
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) {
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this.update(chunk, encoding);
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callback();
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};
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Hash.prototype._flush = function _flush(callback: () => void) {
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this.push(this.digest());
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callback();
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};
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Hash.prototype.update = function update(
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data: string | Buffer,
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encoding: Encoding | "buffer",
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) {
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encoding = encoding || getDefaultEncoding();
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if (typeof data === "string") {
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validateEncoding(data, encoding);
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} else if (!isArrayBufferView(data)) {
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throw new ERR_INVALID_ARG_TYPE(
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"data",
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["string", "Buffer", "TypedArray", "DataView"],
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data,
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);
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}
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if (
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typeof data === "string" && (encoding === "utf8" || encoding === "buffer")
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) {
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unwrapErr(op_node_hash_update_str(this[kHandle], data));
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} else {
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unwrapErr(op_node_hash_update(this[kHandle], toBuf(data, encoding)));
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}
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return this;
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};
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Hash.prototype.digest = function digest(outputEncoding: Encoding | "buffer") {
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outputEncoding = outputEncoding || getDefaultEncoding();
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outputEncoding = `${outputEncoding}`;
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if (outputEncoding === "hex") {
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const result = op_node_hash_digest_hex(this[kHandle]);
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if (result === null) throw new ERR_CRYPTO_HASH_FINALIZED();
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return result;
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}
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const digest = op_node_hash_digest(this[kHandle]);
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if (digest === null) throw new ERR_CRYPTO_HASH_FINALIZED();
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// TODO(@littedivy): Fast paths for below encodings.
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switch (outputEncoding) {
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case "binary":
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return String.fromCharCode(...digest);
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case "base64":
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return encodeToBase64(digest);
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case "base64url":
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return encodeToBase64Url(digest);
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case undefined:
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case "buffer":
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return Buffer.from(digest);
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default:
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return Buffer.from(digest).toString(outputEncoding);
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}
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};
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export function Hmac(
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hmac: string,
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key: string | ArrayBuffer | KeyObject,
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options?: TransformOptions,
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): Hmac {
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return new HmacImpl(hmac, key, options);
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}
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type Hmac = HmacImpl;
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class HmacImpl extends Transform {
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#ipad: Uint8Array;
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#opad: Uint8Array;
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#ZEROES = Buffer.alloc(128);
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#algorithm: string;
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#hash: Hash;
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constructor(
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hmac: string,
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key: string | ArrayBuffer | KeyObject,
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options?: TransformOptions,
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) {
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super({
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transform(chunk: string, encoding: string, callback: () => void) {
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// deno-lint-ignore no-explicit-any
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self.update(Buffer.from(chunk), encoding as any);
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callback();
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},
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flush(callback: () => void) {
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this.push(self.digest());
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callback();
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},
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});
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// deno-lint-ignore no-this-alias
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const self = this;
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validateString(hmac, "hmac");
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key = prepareSecretKey(key, options?.encoding);
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let keyData;
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if (isArrayBufferView(key)) {
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keyData = key;
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} else if (isAnyArrayBuffer(key)) {
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keyData = new Uint8Array(key);
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} else {
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keyData = op_node_export_secret_key(key);
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}
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const alg = hmac.toLowerCase();
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this.#algorithm = alg;
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const blockSize = (alg === "sha512" || alg === "sha384") ? 128 : 64;
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const keySize = keyData.length;
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let bufKey: Buffer;
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if (keySize > blockSize) {
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const hash = new Hash(alg, options);
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bufKey = hash.update(keyData).digest() as Buffer;
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} else {
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bufKey = Buffer.concat([keyData, this.#ZEROES], blockSize);
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}
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this.#ipad = Buffer.allocUnsafe(blockSize);
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this.#opad = Buffer.allocUnsafe(blockSize);
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for (let i = 0; i < blockSize; i++) {
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this.#ipad[i] = bufKey[i] ^ 0x36;
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this.#opad[i] = bufKey[i] ^ 0x5C;
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}
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this.#hash = new Hash(alg);
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this.#hash.update(this.#ipad);
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}
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digest(): Buffer;
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digest(encoding: BinaryToTextEncoding): string;
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digest(encoding?: BinaryToTextEncoding): Buffer | string {
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const result = this.#hash.digest();
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return new Hash(this.#algorithm).update(this.#opad).update(result)
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.digest(
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encoding,
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);
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}
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update(data: string | ArrayBuffer, inputEncoding?: Encoding): this {
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this.#hash.update(data, inputEncoding);
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return this;
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}
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}
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Hmac.prototype = HmacImpl.prototype;
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/**
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* Creates and returns a Hash object that can be used to generate hash digests
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* using the given `algorithm`. Optional `options` argument controls stream behavior.
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*/
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export function createHash(algorithm: string, opts?: TransformOptions) {
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return new Hash(algorithm, opts);
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}
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/**
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* Get the list of implemented hash algorithms.
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* @returns Array of hash algorithm names.
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*/
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export function getHashes() {
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return op_node_get_hashes();
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}
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export default {
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Hash,
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Hmac,
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createHash,
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};
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