// 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 randomBytes from "ext:deno_node/internal/crypto/_randomBytes.ts"; import randomFill, { randomFillSync, } from "ext:deno_node/internal/crypto/_randomFill.mjs"; import randomInt from "ext:deno_node/internal/crypto/_randomInt.ts"; import { validateBoolean, validateFunction, validateInt32, validateObject, } from "ext:deno_node/internal/validators.mjs"; import { isAnyArrayBuffer, isArrayBufferView, } from "ext:deno_node/internal/util/types.ts"; import { ERR_INVALID_ARG_TYPE, ERR_OUT_OF_RANGE, } from "ext:deno_node/internal/errors.ts"; export { default as randomBytes } from "ext:deno_node/internal/crypto/_randomBytes.ts"; export { default as randomFill, randomFillSync, } from "ext:deno_node/internal/crypto/_randomFill.mjs"; export { default as randomInt } from "ext:deno_node/internal/crypto/_randomInt.ts"; import { primordials } from "ext:core/mod.js"; const { StringPrototypePadStart, StringPrototypeToString } = primordials; const { core } = globalThis.__bootstrap; const { ops } = core; const { op_node_gen_prime_async, op_node_check_prime_bytes_async, op_node_check_prime_async, } = Deno.core.ensureFastOps(); export type LargeNumberLike = | ArrayBufferView | SharedArrayBuffer | ArrayBuffer | bigint; export interface CheckPrimeOptions { /** * The number of Miller-Rabin probabilistic primality iterations to perform. * When the value is 0 (zero), a number of checks is used that yields a false positive rate of at most 2-64 for random input. * Care must be used when selecting a number of checks. * Refer to the OpenSSL documentation for the BN_is_prime_ex function nchecks options for more details. * * @default 0 */ checks?: number | undefined; } export function checkPrime( candidate: LargeNumberLike, callback: (err: Error | null, result: boolean) => void, ): void; export function checkPrime( candidate: LargeNumberLike, options: CheckPrimeOptions, callback: (err: Error | null, result: boolean) => void, ): void; export function checkPrime( candidate: LargeNumberLike, options: CheckPrimeOptions | ((err: Error | null, result: boolean) => void) = {}, callback?: (err: Error | null, result: boolean) => void, ) { if (typeof options === "function") { callback = options; options = {}; } validateFunction(callback, "callback"); validateObject(options, "options"); const { checks = 0, } = options!; validateInt32(checks, "options.checks", 0); let op = op_node_check_prime_bytes_async; if (typeof candidate === "bigint") { op = op_node_check_prime_async; } else if (!isAnyArrayBuffer(candidate) && !isArrayBufferView(candidate)) { throw new ERR_INVALID_ARG_TYPE( "candidate", [ "ArrayBuffer", "TypedArray", "Buffer", "DataView", "bigint", ], candidate, ); } op(candidate, checks).then( (result) => { callback?.(null, result); }, ).catch((err) => { callback?.(err, false); }); } export function checkPrimeSync( candidate: LargeNumberLike, options: CheckPrimeOptions = {}, ): boolean { validateObject(options, "options"); const { checks = 0, } = options!; validateInt32(checks, "options.checks", 0); if (typeof candidate === "bigint") { return ops.op_node_check_prime(candidate, checks); } else if (!isAnyArrayBuffer(candidate) && !isArrayBufferView(candidate)) { throw new ERR_INVALID_ARG_TYPE( "candidate", [ "ArrayBuffer", "TypedArray", "Buffer", "DataView", "bigint", ], candidate, ); } return ops.op_node_check_prime_bytes(candidate, checks); } export interface GeneratePrimeOptions { add?: LargeNumberLike | undefined; rem?: LargeNumberLike | undefined; /** * @default false */ safe?: boolean | undefined; bigint?: boolean | undefined; } export function generatePrime( size: number, options: GeneratePrimeOptions = {}, callback?: (err: Error | null, prime: ArrayBuffer | bigint) => void, ) { validateInt32(size, "size", 1); if (typeof options === "function") { callback = options; options = {}; } validateFunction(callback, "callback"); const { bigint, } = validateRandomPrimeJob(size, options); op_node_gen_prime_async(size).then((prime: Uint8Array) => bigint ? arrayBufferToUnsignedBigInt(prime.buffer) : prime.buffer ).then((prime: ArrayBuffer | bigint) => { callback?.(null, prime); }); } export function generatePrimeSync( size: number, options: GeneratePrimeOptions = {}, ): ArrayBuffer | bigint { const { bigint, } = validateRandomPrimeJob(size, options); const prime = ops.op_node_gen_prime(size); if (bigint) return arrayBufferToUnsignedBigInt(prime.buffer); return prime.buffer; } function validateRandomPrimeJob( size: number, options: GeneratePrimeOptions, ): GeneratePrimeOptions { validateInt32(size, "size", 1); validateObject(options, "options"); let { safe = false, bigint = false, add, rem, } = options!; validateBoolean(safe, "options.safe"); validateBoolean(bigint, "options.bigint"); if (add !== undefined) { if (typeof add === "bigint") { add = unsignedBigIntToBuffer(add, "options.add"); } else if (!isAnyArrayBuffer(add) && !isArrayBufferView(add)) { throw new ERR_INVALID_ARG_TYPE( "options.add", [ "ArrayBuffer", "TypedArray", "Buffer", "DataView", "bigint", ], add, ); } } if (rem !== undefined) { if (typeof rem === "bigint") { rem = unsignedBigIntToBuffer(rem, "options.rem"); } else if (!isAnyArrayBuffer(rem) && !isArrayBufferView(rem)) { throw new ERR_INVALID_ARG_TYPE( "options.rem", [ "ArrayBuffer", "TypedArray", "Buffer", "DataView", "bigint", ], rem, ); } } // TODO(@littledivy): safe, add and rem options are not implemented. if (safe || add || rem) { notImplemented("safe, add and rem options are not implemented."); } return { safe, bigint, add, rem, }; } /** * 48 is the ASCII code for '0', 97 is the ASCII code for 'a'. * @param {number} number An integer between 0 and 15. * @returns {number} corresponding to the ASCII code of the hex representation * of the parameter. */ const numberToHexCharCode = (number: number): number => (number < 10 ? 48 : 87) + number; /** * @param {ArrayBuffer} buf An ArrayBuffer. * @return {bigint} */ function arrayBufferToUnsignedBigInt(buf: ArrayBuffer): bigint { const length = buf.byteLength; const chars: number[] = Array(length * 2); const view = new DataView(buf); for (let i = 0; i < length; i++) { const val = view.getUint8(i); chars[2 * i] = numberToHexCharCode(val >> 4); chars[2 * i + 1] = numberToHexCharCode(val & 0xf); } return BigInt(`0x${String.fromCharCode(...chars)}`); } function unsignedBigIntToBuffer(bigint: bigint, name: string) { if (bigint < 0) { throw new ERR_OUT_OF_RANGE(name, ">= 0", bigint); } const hex = StringPrototypeToString(bigint, 16); const padded = StringPrototypePadStart(hex, hex.length + (hex.length % 2), 0); return Buffer.from(padded, "hex"); } export const randomUUID = () => globalThis.crypto.randomUUID(); export default { checkPrime, checkPrimeSync, generatePrime, generatePrimeSync, randomUUID, randomInt, randomBytes, randomFill, randomFillSync, };