// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. // Copyright Joyent, Inc. and Node.js contributors. All rights reserved. MIT license. // TODO(petamoriken): enable prefer-primordials for node polyfills // deno-lint-ignore-file prefer-primordials import { notImplemented } from "ext:deno_node/_utils.ts"; import { Buffer } from "node:buffer"; import { ERR_INVALID_ARG_TYPE, hideStackFrames, } from "ext:deno_node/internal/errors.ts"; import { isAnyArrayBuffer, isArrayBufferView, } from "ext:deno_node/internal/util/types.ts"; import { crypto as constants } from "ext:deno_node/internal_binding/constants.ts"; import { kHandle, kKeyObject, } from "ext:deno_node/internal/crypto/constants.ts"; export type EllipticCurve = { name: string; ephemeral: boolean; privateKeySize: number; publicKeySize: number; sharedSecretSize: number; }; export const ellipticCurves: Array = [ { name: "secp256k1", privateKeySize: 32, publicKeySize: 65, sharedSecretSize: 32, }, // Weierstrass-class EC used by Bitcoin { name: "prime256v1", privateKeySize: 32, publicKeySize: 65, sharedSecretSize: 32, }, // NIST P-256 EC { name: "secp256r1", privateKeySize: 32, publicKeySize: 65, sharedSecretSize: 32, }, // NIST P-256 EC (same as above) { name: "secp384r1", privateKeySize: 48, publicKeySize: 97, sharedSecretSize: 48, }, // NIST P-384 EC { name: "secp224r1", privateKeySize: 28, publicKeySize: 57, sharedSecretSize: 28, }, // NIST P-224 EC ]; // deno-fmt-ignore const supportedCiphers = [ "aes-128-ecb", "aes-192-ecb", "aes-256-ecb", "aes-128-cbc", "aes-192-cbc", "aes-256-cbc", "aes128", "aes192", "aes256", "aes-128-cfb", "aes-192-cfb", "aes-256-cfb", "aes-128-cfb8", "aes-192-cfb8", "aes-256-cfb8", "aes-128-cfb1", "aes-192-cfb1", "aes-256-cfb1", "aes-128-ofb", "aes-192-ofb", "aes-256-ofb", "aes-128-ctr", "aes-192-ctr", "aes-256-ctr", "aes-128-gcm", "aes-192-gcm", "aes-256-gcm" ]; export function getCiphers(): string[] { return supportedCiphers; } let defaultEncoding = "buffer"; export function setDefaultEncoding(val: string) { defaultEncoding = val; } export function getDefaultEncoding(): string { return defaultEncoding; } // This is here because many functions accepted binary strings without // any explicit encoding in older versions of node, and we don't want // to break them unnecessarily. export function toBuf(val: string | Buffer, encoding?: string): Buffer { if (typeof val === "string") { if (encoding === "buffer") { encoding = "utf8"; } return Buffer.from(val, encoding); } return val; } export const validateByteSource = hideStackFrames((val, name) => { val = toBuf(val); if (isAnyArrayBuffer(val) || isArrayBufferView(val)) { return; } throw new ERR_INVALID_ARG_TYPE( name, ["string", "ArrayBuffer", "TypedArray", "DataView", "Buffer"], val, ); }); const curveNames = ellipticCurves.map((x) => x.name); export function getCurves(): readonly string[] { return curveNames; } export interface SecureHeapUsage { total: number; min: number; used: number; utilization: number; } export function secureHeapUsed(): SecureHeapUsage { notImplemented("crypto.secureHeapUsed"); } export function setEngine(_engine: string, _flags: typeof constants) { notImplemented("crypto.setEngine"); } const kAesKeyLengths = [128, 192, 256]; export { kAesKeyLengths, kHandle, kKeyObject }; export default { getDefaultEncoding, setDefaultEncoding, getCiphers, getCurves, secureHeapUsed, setEngine, validateByteSource, toBuf, kHandle, kKeyObject, kAesKeyLengths, };