/** * @author n1474335 [n1474335@gmail.com] * @copyright Crown Copyright 2016 * @license Apache-2.0 */ import Operation from "../Operation"; import Utils from "../Utils"; import MD2 from "./MD2"; import MD4 from "./MD4"; import MD5 from "./MD5"; import MD6 from "./MD6"; import SHA0 from "./SHA0"; import SHA1 from "./SHA1"; import SHA2 from "./SHA2"; import SHA3 from "./SHA3"; import Keccak from "./Keccak"; import Shake from "./Shake"; import RIPEMD from "./RIPEMD"; import HAS160 from "./HAS160"; import Whirlpool from "./Whirlpool"; import SSDEEP from "./SSDEEP"; import CTPH from "./CTPH"; import Fletcher8Checksum from "./Fletcher8Checksum"; import Fletcher16Checksum from "./Fletcher16Checksum"; import Fletcher32Checksum from "./Fletcher32Checksum"; import Fletcher64Checksum from "./Fletcher64Checksum"; import Adler32Checksum from "./Adler32Checksum"; import CRC16Checksum from "./CRC16Checksum"; import CRC32Checksum from "./CRC32Checksum"; /** * Generate all hashes operation */ class GenerateAllHashes extends Operation { /** * GenerateAllHashes constructor */ constructor() { super(); this.name = "Generate all hashes"; this.module = "Crypto"; this.description = "Generates all available hashes and checksums for the input."; this.infoURL = "https://wikipedia.org/wiki/Comparison_of_cryptographic_hash_functions"; this.inputType = "ArrayBuffer"; this.outputType = "string"; this.args = []; } /** * @param {ArrayBuffer} input * @param {Object[]} args * @returns {string} */ run(input, args) { const arrayBuffer = input, str = Utils.arrayBufferToStr(arrayBuffer, false), byteArray = new Uint8Array(arrayBuffer), output = "MD2: " + (new MD2()).run(arrayBuffer, []) + "\nMD4: " + (new MD4()).run(arrayBuffer, []) + "\nMD5: " + (new MD5()).run(arrayBuffer, []) + "\nMD6: " + (new MD6()).run(str, []) + "\nSHA0: " + (new SHA0()).run(arrayBuffer, []) + "\nSHA1: " + (new SHA1()).run(arrayBuffer, []) + "\nSHA2 224: " + (new SHA2()).run(arrayBuffer, ["224"]) + "\nSHA2 256: " + (new SHA2()).run(arrayBuffer, ["256"]) + "\nSHA2 384: " + (new SHA2()).run(arrayBuffer, ["384"]) + "\nSHA2 512: " + (new SHA2()).run(arrayBuffer, ["512"]) + "\nSHA3 224: " + (new SHA3()).run(arrayBuffer, ["224"]) + "\nSHA3 256: " + (new SHA3()).run(arrayBuffer, ["256"]) + "\nSHA3 384: " + (new SHA3()).run(arrayBuffer, ["384"]) + "\nSHA3 512: " + (new SHA3()).run(arrayBuffer, ["512"]) + "\nKeccak 224: " + (new Keccak()).run(arrayBuffer, ["224"]) + "\nKeccak 256: " + (new Keccak()).run(arrayBuffer, ["256"]) + "\nKeccak 384: " + (new Keccak()).run(arrayBuffer, ["384"]) + "\nKeccak 512: " + (new Keccak()).run(arrayBuffer, ["512"]) + "\nShake 128: " + (new Shake()).run(arrayBuffer, ["128", 256]) + "\nShake 256: " + (new Shake()).run(arrayBuffer, ["256", 512]) + "\nRIPEMD-128: " + (new RIPEMD()).run(arrayBuffer, ["128"]) + "\nRIPEMD-160: " + (new RIPEMD()).run(arrayBuffer, ["160"]) + "\nRIPEMD-256: " + (new RIPEMD()).run(arrayBuffer, ["256"]) + "\nRIPEMD-320: " + (new RIPEMD()).run(arrayBuffer, ["320"]) + "\nHAS-160: " + (new HAS160()).run(arrayBuffer, []) + "\nWhirlpool-0: " + (new Whirlpool()).run(arrayBuffer, ["Whirlpool-0"]) + "\nWhirlpool-T: " + (new Whirlpool()).run(arrayBuffer, ["Whirlpool-T"]) + "\nWhirlpool: " + (new Whirlpool()).run(arrayBuffer, ["Whirlpool"]) + "\nSSDEEP: " + (new SSDEEP()).run(str) + "\nCTPH: " + (new CTPH()).run(str) + "\n\nChecksums:" + "\nFletcher-8: " + (new Fletcher8Checksum).run(byteArray, []) + "\nFletcher-16: " + (new Fletcher16Checksum).run(byteArray, []) + "\nFletcher-32: " + (new Fletcher32Checksum).run(byteArray, []) + "\nFletcher-64: " + (new Fletcher64Checksum).run(byteArray, []) + "\nAdler-32: " + (new Adler32Checksum).run(byteArray, []) + "\nCRC-16: " + (new CRC16Checksum).run(str, []) + "\nCRC-32: " + (new CRC32Checksum).run(str, []); return output; } } export default GenerateAllHashes;