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7
package-lock.json generated
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@ -48,6 +48,7 @@
"highlight.js": "^11.9.0", "highlight.js": "^11.9.0",
"ieee754": "^1.2.1", "ieee754": "^1.2.1",
"jimp": "^0.22.12", "jimp": "^0.22.12",
"jq-web": "^0.5.1",
"jquery": "3.7.1", "jquery": "3.7.1",
"js-crc": "^0.2.0", "js-crc": "^0.2.0",
"js-sha3": "^0.9.3", "js-sha3": "^0.9.3",
@ -12290,6 +12291,12 @@
"integrity": "sha512-WZzeDOEtTOBK4Mdsar0IqEU5sMr3vSV2RqkAIzUEV2BHnUfKGyswWFPFwK5EeDo93K3FohSHbLAjj0s1Wzd+dg==", "integrity": "sha512-WZzeDOEtTOBK4Mdsar0IqEU5sMr3vSV2RqkAIzUEV2BHnUfKGyswWFPFwK5EeDo93K3FohSHbLAjj0s1Wzd+dg==",
"license": "BSD-3-Clause" "license": "BSD-3-Clause"
}, },
"node_modules/jq-web": {
"version": "0.5.1",
"resolved": "https://registry.npmjs.org/jq-web/-/jq-web-0.5.1.tgz",
"integrity": "sha512-3Fa3E6g3U1O1j46ljy0EM10yRr4txzILga8J7bqOG8F89gZ6Lilz82WG9z6TItWpYEO0YGa4W8yFGj+NMM1xqQ==",
"license": "ISC"
},
"node_modules/jquery": { "node_modules/jquery": {
"version": "3.7.1", "version": "3.7.1",
"resolved": "https://registry.npmjs.org/jquery/-/jquery-3.7.1.tgz", "resolved": "https://registry.npmjs.org/jquery/-/jquery-3.7.1.tgz",

2
package.json
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@ -134,8 +134,8 @@
"highlight.js": "^11.9.0", "highlight.js": "^11.9.0",
"ieee754": "^1.2.1", "ieee754": "^1.2.1",
"jimp": "^0.22.12", "jimp": "^0.22.12",
"jq-web": "^0.5.1",
"jquery": "3.7.1", "jquery": "3.7.1",
"js-crc": "^0.2.0",
"js-sha3": "^0.9.3", "js-sha3": "^0.9.3",
"jsesc": "^3.0.2", "jsesc": "^3.0.2",
"json5": "^2.2.3", "json5": "^2.2.3",

11
src/core/config/Categories.json
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@ -72,6 +72,8 @@
"Avro to JSON", "Avro to JSON",
"CBOR Encode", "CBOR Encode",
"CBOR Decode", "CBOR Decode",
"YAML to JSON",
"JSON to YAML",
"Caret/M-decode", "Caret/M-decode",
"Rison Encode", "Rison Encode",
"Rison Decode", "Rison Decode",
@ -193,7 +195,9 @@
"Parse SSH Host Key", "Parse SSH Host Key",
"Parse CSR", "Parse CSR",
"Public Key from Certificate", "Public Key from Certificate",
"Public Key from Private Key" "Public Key from Private Key",
"SM2 Encrypt",
"SM2 Decrypt"
] ]
}, },
{ {
@ -441,9 +445,7 @@
"Fletcher-64 Checksum", "Fletcher-64 Checksum",
"Adler-32 Checksum", "Adler-32 Checksum",
"Luhn Checksum", "Luhn Checksum",
"CRC-8 Checksum", "CRC Checksum",
"CRC-16 Checksum",
"CRC-32 Checksum",
"TCP/IP Checksum" "TCP/IP Checksum"
] ]
}, },
@ -465,6 +467,7 @@
"CSS Minify", "CSS Minify",
"XPath expression", "XPath expression",
"JPath expression", "JPath expression",
"Jq",
"CSS selector", "CSS selector",
"PHP Deserialize", "PHP Deserialize",
"Microsoft Script Decoder", "Microsoft Script Decoder",

258
src/core/lib/SM2.mjs Normal file
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@ -0,0 +1,258 @@
/**
* Utilities and operations utilized for SM2 encryption and decryption
* @author flakjacket95 [dflack95@gmail.com]
* @copyright Crown Copyright 2024
* @license Apache-2.0
*/
import OperationError from "../errors/OperationError.mjs";
import { fromHex } from "../lib/Hex.mjs";
import Utils from "../Utils.mjs";
import Sm3 from "crypto-api/src/hasher/sm3.mjs";
import {toHex} from "crypto-api/src/encoder/hex.mjs";
import r from "jsrsasign";
/**
* SM2 Class for encryption and decryption operations
*/
export class SM2 {
/**
* Constructor for SM2 class; sets up with the curve and the output format as specified in user args
*
* @param {*} curve
* @param {*} format
*/
constructor(curve, format) {
this.ecParams = null;
this.rng = new r.SecureRandom();
/*
For any additional curve definitions utilized by SM2, add another block like the below for that curve, then add the curve name to the Curve selection dropdown
*/
r.crypto.ECParameterDB.regist(
"sm2p256v1", // name / p = 2**256 - 2**224 - 2**96 + 2**64 - 1
256,
"FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFF", // p
"FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFC", // a
"28E9FA9E9D9F5E344D5A9E4BCF6509A7F39789F515AB8F92DDBCBD414D940E93", // b
"FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFF7203DF6B21C6052B53BBF40939D54123", // n
"1", // h
"32C4AE2C1F1981195F9904466A39C9948FE30BBFF2660BE1715A4589334C74C7", // gx
"BC3736A2F4F6779C59BDCEE36B692153D0A9877CC62A474002DF32E52139F0A0", // gy
[]
); // alias
this.ecParams = r.crypto.ECParameterDB.getByName(curve);
this.format = format;
}
/**
* Set the public key coordinates for the SM2 class
*
* @param {string} publicKeyX
* @param {string} publicKeyY
*/
setPublicKey(publicKeyX, publicKeyY) {
/*
* TODO: This needs some additional length validation; and checking for errors in the decoding process
* TODO: Can probably support other public key encoding methods here as well in the future
*/
this.publicKey = this.ecParams.curve.decodePointHex("04" + publicKeyX + publicKeyY);
if (this.publicKey.isInfinity()) {
throw new OperationError("Invalid Public Key");
}
}
/**
* Set the private key value for the SM2 class
*
* @param {string} privateKey
*/
setPrivateKey(privateKeyHex) {
this.privateKey = new r.BigInteger(privateKeyHex, 16);
}
/**
* Main encryption function; takes user input, processes encryption and returns the result in hex (with the components arranged as configured by the user args)
*
* @param {*} input
* @returns {string}
*/
encrypt(input) {
const G = this.ecParams.G;
/*
* Compute a new, random public key along the same elliptic curve to form the starting point for our encryption process (record the resulting X and Y as hex to provide as part of the operation output)
* k: Randomly generated BigInteger
* c1: Result of dotting our curve generator point `G` with the value of `k`
*/
const k = this.generatePublicKey();
const c1 = G.multiply(k);
const [hexC1X, hexC1Y] = this.getPointAsHex(c1);
/*
* Compute p2 (secret) using the public key, and the chosen k value above
*/
const p2 = this.publicKey.multiply(k);
/*
* Compute the C3 SM3 hash before we transform the array
*/
const c3 = this.c3(p2, input);
/*
* Genreate a proper length encryption key, XOR iteratively, and convert newly encrypted data to hex
*/
const key = this.kdf(p2, input.byteLength);
for (let i = 0; i < input.byteLength; i++) {
input[i] ^= Utils.ord(key[i]);
}
const c2 = Buffer.from(input).toString("hex");
/*
* Check user input specs; order the output components as selected
*/
if (this.format === "C1C3C2") {
return hexC1X + hexC1Y + c3 + c2;
} else {
return hexC1X + hexC1Y + c2 + c3;
}
}
/**
* Function to decrypt an SM2 encrypted message
*
* @param {*} input
*/
decrypt(input) {
const c1X = input.slice(0, 64);
const c1Y = input.slice(64, 128);
let c3 = "";
let c2 = "";
if (this.format === "C1C3C2") {
c3 = input.slice(128, 192);
c2 = input.slice(192);
} else {
c2 = input.slice(128, -64);
c3 = input.slice(-64);
}
c2 = Uint8Array.from(fromHex(c2));
const c1 = this.ecParams.curve.decodePointHex("04" + c1X + c1Y);
/*
* Compute the p2 (secret) value by taking the C1 point provided in the encrypted package, and multiplying by the private k value
*/
const p2 = c1.multiply(this.privateKey);
/*
* Similar to encryption; compute sufficient length key material and XOR the input data to recover the original message
*/
const key = this.kdf(p2, c2.byteLength);
for (let i = 0; i < c2.byteLength; i++) {
c2[i] ^= Utils.ord(key[i]);
}
const check = this.c3(p2, c2);
if (check === c3) {
return c2.buffer;
} else {
throw new OperationError("Decryption Error -- Computed Hashes Do Not Match");
}
}
/**
* Generates a large random number
*
* @param {*} limit
* @returns
*/
getBigRandom(limit) {
return new r.BigInteger(limit.bitLength(), this.rng)
.mod(limit.subtract(r.BigInteger.ONE))
.add(r.BigInteger.ONE);
}
/**
* Helper function for generating a large random K number; utilized for generating our initial C1 point
* TODO: Do we need to do any sort of validation on the resulting k values?
*
* @returns {BigInteger}
*/
generatePublicKey() {
const n = this.ecParams.n;
const k = this.getBigRandom(n);
return k;
}
/**
* SM2 Key Derivation Function (KDF); Takes P2 point, and generates a key material stream large enough to encrypt all of the input data
*
* @param {*} p2
* @param {*} len
* @returns {string}
*/
kdf(p2, len) {
const [hX, hY] = this.getPointAsHex(p2);
const total = Math.ceil(len / 32) + 1;
let cnt = 1;
let keyMaterial = "";
while (cnt < total) {
const num = Utils.intToByteArray(cnt, 4, "big");
const overall = fromHex(hX).concat(fromHex(hY)).concat(num);
keyMaterial += this.sm3(overall);
cnt++;
}
return keyMaterial;
}
/**
* Calculates the C3 component of our final encrypted payload; which is the SM3 hash of the P2 point and the original, unencrypted input data
*
* @param {*} p2
* @param {*} input
* @returns {string}
*/
c3(p2, input) {
const [hX, hY] = this.getPointAsHex(p2);
const overall = fromHex(hX).concat(Array.from(input)).concat(fromHex(hY));
return toHex(this.sm3(overall));
}
/**
* SM3 setup helper function; takes input data as an array, processes the hash and returns the result
*
* @param {*} data
* @returns {string}
*/
sm3(data) {
const hashData = Utils.arrayBufferToStr(Uint8Array.from(data).buffer, false);
const hasher = new Sm3();
hasher.update(hashData);
return hasher.finalize();
}
/**
* Utility function, returns an elliptic curve points X and Y values as hex;
*
* @param {EcPointFp} point
* @returns {[]}
*/
getPointAsHex(point) {
const biX = point.getX().toBigInteger();
const biY = point.getY().toBigInteger();
const charlen = this.ecParams.keycharlen;
const hX = ("0000000000" + biX.toString(16)).slice(- charlen);
const hY = ("0000000000" + biY.toString(16)).slice(- charlen);
return [hX, hY];
}
}

41
src/core/operations/CRC16Checksum.mjs
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@ -1,41 +0,0 @@
/**
* @author n1474335 [n1474335@gmail.com]
* @copyright Crown Copyright 2016
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import JSCRC from "js-crc";
/**
* CRC-16 Checksum operation
*/
class CRC16Checksum extends Operation {
/**
* CRC16Checksum constructor
*/
constructor() {
super();
this.name = "CRC-16 Checksum";
this.module = "Crypto";
this.description = "A cyclic redundancy check (CRC) is an error-detecting code commonly used in digital networks and storage devices to detect accidental changes to raw data.<br><br>The CRC was invented by W. Wesley Peterson in 1961.";
this.infoURL = "https://wikipedia.org/wiki/Cyclic_redundancy_check";
this.inputType = "ArrayBuffer";
this.outputType = "string";
this.args = [];
}
/**
* @param {ArrayBuffer} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
return JSCRC.crc16(input);
}
}
export default CRC16Checksum;

41
src/core/operations/CRC32Checksum.mjs
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@ -1,41 +0,0 @@
/**
* @author n1474335 [n1474335@gmail.com]
* @copyright Crown Copyright 2016
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import JSCRC from "js-crc";
/**
* CRC-32 Checksum operation
*/
class CRC32Checksum extends Operation {
/**
* CRC32Checksum constructor
*/
constructor() {
super();
this.name = "CRC-32 Checksum";
this.module = "Crypto";
this.description = "A cyclic redundancy check (CRC) is an error-detecting code commonly used in digital networks and storage devices to detect accidental changes to raw data.<br><br>The CRC was invented by W. Wesley Peterson in 1961; the 32-bit CRC function of Ethernet and many other standards is the work of several researchers and was published in 1975.";
this.infoURL = "https://wikipedia.org/wiki/Cyclic_redundancy_check";
this.inputType = "ArrayBuffer";
this.outputType = "string";
this.args = [];
}
/**
* @param {ArrayBuffer} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
return JSCRC.crc32(input);
}
}
export default CRC32Checksum;

157
src/core/operations/CRC8Checksum.mjs
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@ -1,157 +0,0 @@
/**
* @author mshwed [m@ttshwed.com]
* @copyright Crown Copyright 2019
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import OperationError from "../errors/OperationError.mjs";
import { toHexFast } from "../lib/Hex.mjs";
/**
* CRC-8 Checksum operation
*/
class CRC8Checksum extends Operation {
/**
* CRC8Checksum constructor
*/
constructor() {
super();
this.name = "CRC-8 Checksum";
this.module = "Crypto";
this.description = "A cyclic redundancy check (CRC) is an error-detecting code commonly used in digital networks and storage devices to detect accidental changes to raw data.<br><br>The CRC was invented by W. Wesley Peterson in 1961.";
this.infoURL = "https://wikipedia.org/wiki/Cyclic_redundancy_check";
this.inputType = "ArrayBuffer";
this.outputType = "string";
this.args = [
{
"name": "Algorithm",
"type": "option",
"value": [
"CRC-8",
"CRC-8/CDMA2000",
"CRC-8/DARC",
"CRC-8/DVB-S2",
"CRC-8/EBU",
"CRC-8/I-CODE",
"CRC-8/ITU",
"CRC-8/MAXIM",
"CRC-8/ROHC",
"CRC-8/WCDMA"
]
}
];
}
/**
* Generates the pre-computed lookup table for byte division
*
* @param polynomial
*/
calculateCRC8LookupTable(polynomial) {
const crc8Table = new Uint8Array(256);
let currentByte;
for (let i = 0; i < 256; i++) {
currentByte = i;
for (let bit = 0; bit < 8; bit++) {
if ((currentByte & 0x80) !== 0) {
currentByte <<= 1;
currentByte ^= polynomial;
} else {
currentByte <<= 1;
}
}
crc8Table[i] = currentByte;
}
return crc8Table;
}
/**
* Calculates the CRC-8 Checksum from an input
*
* @param {ArrayBuffer} input
* @param {number} polynomial
* @param {number} initializationValue
* @param {boolean} inputReflection
* @param {boolean} outputReflection
* @param {number} xorOut
*/
calculateCRC8(input, polynomial, initializationValue, inputReflection, outputReflection, xorOut) {
const crcSize = 8;
const crcTable = this.calculateCRC8LookupTable(polynomial);
let crc = initializationValue !== 0 ? initializationValue : 0;
let currentByte, position;
input = new Uint8Array(input);
for (const inputByte of input) {
currentByte = inputReflection ? this.reverseBits(inputByte, crcSize) : inputByte;
position = (currentByte ^ crc) & 255;
crc = crcTable[position];
}
crc = outputReflection ? this.reverseBits(crc, crcSize) : crc;
if (xorOut !== 0) crc = crc ^ xorOut;
return toHexFast(new Uint8Array([crc]));
}
/**
* Reverse the bits for a given input byte.
*
* @param {number} input
*/
reverseBits(input, hashSize) {
let reversedByte = 0;
for (let i = hashSize - 1; i >= 0; i--) {
reversedByte |= ((input & 1) << i);
input >>= 1;
}
return reversedByte;
}
/**
* @param {ArrayBuffer} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
const algorithm = args[0];
switch (algorithm) {
case "CRC-8":
return this.calculateCRC8(input, 0x7, 0x0, false, false, 0x0);
case "CRC-8/CDMA2000":
return this.calculateCRC8(input, 0x9B, 0xFF, false, false, 0x0);
case "CRC-8/DARC":
return this.calculateCRC8(input, 0x39, 0x0, true, true, 0x0);
case "CRC-8/DVB-S2":
return this.calculateCRC8(input, 0xD5, 0x0, false, false, 0x0);
case "CRC-8/EBU":
return this.calculateCRC8(input, 0x1D, 0xFF, true, true, 0x0);
case "CRC-8/I-CODE":
return this.calculateCRC8(input, 0x1D, 0xFD, false, false, 0x0);
case "CRC-8/ITU":
return this.calculateCRC8(input, 0x7, 0x0, false, false, 0x55);
case "CRC-8/MAXIM":
return this.calculateCRC8(input, 0x31, 0x0, true, true, 0x0);
case "CRC-8/ROHC":
return this.calculateCRC8(input, 0x7, 0xFF, true, true, 0x0);
case "CRC-8/WCDMA":
return this.calculateCRC8(input, 0x9B, 0x0, true, true, 0x0);
default:
throw new OperationError("Unknown checksum algorithm");
}
}
}
export default CRC8Checksum;

1110
src/core/operations/CRCChecksum.mjs Normal file
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10
src/core/operations/GenerateAllHashes.mjs
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@ -27,9 +27,7 @@ import Fletcher16Checksum from "./Fletcher16Checksum.mjs";
import Fletcher32Checksum from "./Fletcher32Checksum.mjs"; import Fletcher32Checksum from "./Fletcher32Checksum.mjs";
import Fletcher64Checksum from "./Fletcher64Checksum.mjs"; import Fletcher64Checksum from "./Fletcher64Checksum.mjs";
import Adler32Checksum from "./Adler32Checksum.mjs"; import Adler32Checksum from "./Adler32Checksum.mjs";
import CRC8Checksum from "./CRC8Checksum.mjs"; import CRCChecksum from "./CRCChecksum.mjs";
import CRC16Checksum from "./CRC16Checksum.mjs";
import CRC32Checksum from "./CRC32Checksum.mjs";
import BLAKE2b from "./BLAKE2b.mjs"; import BLAKE2b from "./BLAKE2b.mjs";
import BLAKE2s from "./BLAKE2s.mjs"; import BLAKE2s from "./BLAKE2s.mjs";
import Streebog from "./Streebog.mjs"; import Streebog from "./Streebog.mjs";
@ -120,9 +118,9 @@ class GenerateAllHashes extends Operation {
{name: "Fletcher-32", algo: (new Fletcher32Checksum), inputType: "byteArray", params: []}, {name: "Fletcher-32", algo: (new Fletcher32Checksum), inputType: "byteArray", params: []},
{name: "Fletcher-64", algo: (new Fletcher64Checksum), inputType: "byteArray", params: []}, {name: "Fletcher-64", algo: (new Fletcher64Checksum), inputType: "byteArray", params: []},
{name: "Adler-32", algo: (new Adler32Checksum), inputType: "byteArray", params: []}, {name: "Adler-32", algo: (new Adler32Checksum), inputType: "byteArray", params: []},
{name: "CRC-8", algo: (new CRC8Checksum), inputType: "arrayBuffer", params: ["CRC-8"]}, {name: "CRC-8", algo: (new CRCChecksum), inputType: "arrayBuffer", params: ["CRC-8"]},
{name: "CRC-16", algo: (new CRC16Checksum), inputType: "arrayBuffer", params: []}, {name: "CRC-16", algo: (new CRCChecksum), inputType: "arrayBuffer", params: ["CRC-16"]},
{name: "CRC-32", algo: (new CRC32Checksum), inputType: "arrayBuffer", params: []} {name: "CRC-32", algo: (new CRCChecksum), inputType: "arrayBuffer", params: ["CRC-32"]}
]; ];
} }

46
src/core/operations/JSONtoYAML.mjs Normal file
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@ -0,0 +1,46 @@
/**
* @author ccarpo [ccarpo@gmx.net]
* @copyright Crown Copyright 2021
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import OperationError from "../errors/OperationError.mjs";
import YAML from "yaml";
/**
* JSON to YAML operation
*/
class JSONtoYAML extends Operation {
/**
* JSONtoYAML constructor
*/
constructor() {
super();
this.name = "JSON to YAML";
this.module = "Default";
this.description = "Format a JSON object into YAML";
this.infoURL = "https://en.wikipedia.org/wiki/YAML";
this.inputType = "JSON";
this.outputType = "string";
this.args = [];
}
/**
* @param {JSON} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
try {
return YAML.stringify(input);
} catch (err) {
throw new OperationError("Test");
}
}
}
export default JSONtoYAML;

57
src/core/operations/Jq.mjs Normal file
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@ -0,0 +1,57 @@
/**
* @author zhzy0077 [zhzy0077@hotmail.com]
* @copyright Crown Copyright 2023
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import OperationError from "../errors/OperationError.mjs";
import jq from "jq-web";
/**
* jq operation
*/
class Jq extends Operation {
/**
* Jq constructor
*/
constructor() {
super();
this.name = "Jq";
this.module = "Jq";
this.description = "jq is a lightweight and flexible command-line JSON processor.";
this.infoURL = "https://github.com/jqlang/jq";
this.inputType = "JSON";
this.outputType = "string";
this.args = [
{
name: "Query",
type: "string",
value: ""
}
];
}
/**
* @param {JSON} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
const [query] = args;
let result;
try {
result = jq.json(input, query);
} catch (err) {
throw new OperationError(`Invalid jq expression: ${err.message}`);
}
return JSON.stringify(result);
}
}
export default Jq;

10
src/core/operations/ParseX509Certificate.mjs
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@ -6,7 +6,8 @@
import r from "jsrsasign"; import r from "jsrsasign";
import { fromBase64 } from "../lib/Base64.mjs"; import { fromBase64 } from "../lib/Base64.mjs";
import { toHex } from "../lib/Hex.mjs"; import { runHash } from "../lib/Hash.mjs";
import { fromHex, toHex } from "../lib/Hex.mjs";
import { formatByteStr, formatDnObj } from "../lib/PublicKey.mjs"; import { formatByteStr, formatDnObj } from "../lib/PublicKey.mjs";
import Operation from "../Operation.mjs"; import Operation from "../Operation.mjs";
import Utils from "../Utils.mjs"; import Utils from "../Utils.mjs";
@ -81,7 +82,8 @@ class ParseX509Certificate extends Operation {
} }
if (undefinedInputFormat) throw "Undefined input format"; if (undefinedInputFormat) throw "Undefined input format";
const sn = cert.getSerialNumberHex(), const hex = Utils.strToArrayBuffer(Utils.byteArrayToChars(fromHex(cert.hex))),
sn = cert.getSerialNumberHex(),
issuer = cert.getIssuer(), issuer = cert.getIssuer(),
subject = cert.getSubject(), subject = cert.getSubject(),
pk = cert.getPublicKey(), pk = cert.getPublicKey(),
@ -191,6 +193,10 @@ Issuer
${issuerStr} ${issuerStr}
Subject Subject
${subjectStr} ${subjectStr}
Fingerprints
MD5: ${runHash("md5", hex)}
SHA1: ${runHash("sha1", hex)}
SHA256: ${runHash("sha256", hex)}
Public Key Public Key
${pkStr.slice(0, -1)} ${pkStr.slice(0, -1)}
Certificate Signature Certificate Signature

71
src/core/operations/SM2Decrypt.mjs Normal file
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@ -0,0 +1,71 @@
/**
* @author flakjacket95 [dflack95@gmail.com]
* @copyright Crown Copyright 2024
* @license Apache-2.0
*/
import OperationError from "../errors/OperationError.mjs";
import Operation from "../Operation.mjs";
import { SM2 } from "../lib/SM2.mjs";
/**
* SM2Decrypt operation
*/
class SM2Decrypt extends Operation {
/**
* SM2Decrypt constructor
*/
constructor() {
super();
this.name = "SM2 Decrypt";
this.module = "Crypto";
this.description = "Decrypts a message utilizing the SM2 standard";
this.infoURL = ""; // Usually a Wikipedia link. Remember to remove localisation (i.e. https://wikipedia.org/etc rather than https://en.wikipedia.org/etc)
this.inputType = "string";
this.outputType = "ArrayBuffer";
this.args = [
{
name: "Private Key",
type: "string",
value: "DEADBEEF"
},
{
"name": "Input Format",
"type": "option",
"value": ["C1C3C2", "C1C2C3"],
"defaultIndex": 0
},
{
name: "Curve",
type: "option",
"value": ["sm2p256v1"],
"defaultIndex": 0
}
];
}
/**
* @param {string} input
* @param {Object[]} args
* @returns {ArrayBuffer}
*/
run(input, args) {
const [privateKey, inputFormat, curveName] = args;
if (privateKey.length !== 64) {
throw new OperationError("Input private key must be in hex; and should be 32 bytes");
}
const sm2 = new SM2(curveName, inputFormat);
sm2.setPrivateKey(privateKey);
const result = sm2.decrypt(input);
return result;
}
}
export default SM2Decrypt;

77
src/core/operations/SM2Encrypt.mjs Normal file
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@ -0,0 +1,77 @@
/**
* @author flakjacket95 [dflack95@gmail.com]
* @copyright Crown Copyright 2024
* @license Apache-2.0
*/
import OperationError from "../errors/OperationError.mjs";
import Operation from "../Operation.mjs";
import { SM2 } from "../lib/SM2.mjs";
/**
* SM2 Encrypt operation
*/
class SM2Encrypt extends Operation {
/**
* SM2Encrypt constructor
*/
constructor() {
super();
this.name = "SM2 Encrypt";
this.module = "Crypto";
this.description = "Encrypts a message utilizing the SM2 standard";
this.infoURL = ""; // Usually a Wikipedia link. Remember to remove localisation (i.e. https://wikipedia.org/etc rather than https://en.wikipedia.org/etc)
this.inputType = "ArrayBuffer";
this.outputType = "string";
this.args = [
{
name: "Public Key X",
type: "string",
value: "DEADBEEF"
},
{
name: "Public Key Y",
type: "string",
value: "DEADBEEF"
},
{
"name": "Output Format",
"type": "option",
"value": ["C1C3C2", "C1C2C3"],
"defaultIndex": 0
},
{
name: "Curve",
type: "option",
"value": ["sm2p256v1"],
"defaultIndex": 0
}
];
}
/**
* @param {ArrayBuffer} input
* @param {Object[]} args
* @returns {byteArray}
*/
run(input, args) {
const [publicKeyX, publicKeyY, outputFormat, curveName] = args;
this.outputFormat = outputFormat;
if (publicKeyX.length !== 64 || publicKeyY.length !== 64) {
throw new OperationError("Invalid Public Key - Ensure each component is 32 bytes in size and in hex");
}
const sm2 = new SM2(curveName, outputFormat);
sm2.setPublicKey(publicKeyX, publicKeyY);
const result = sm2.encrypt(new Uint8Array(input));
return result;
}
}
export default SM2Encrypt;

45
src/core/operations/YAMLToJSON.mjs Normal file
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@ -0,0 +1,45 @@
/**
* @author ccarpo [ccarpo@gmx.net]
* @copyright Crown Copyright 2021
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import OperationError from "../errors/OperationError.mjs";
import jsYaml from "js-yaml";
/**
* YAML to JSON operation
*/
class YAMLToJSON extends Operation {
/**
* YAMLToJSON constructor
*/
constructor() {
super();
this.name = "YAML to JSON";
this.module = "Default";
this.description = "Convert YAML to JSON";
this.infoURL = "https://en.wikipedia.org/wiki/YAML";
this.inputType = "string";
this.outputType = "JSON";
this.args = [];
}
/**
* @param {string} input
* @param {Object[]} args
* @returns {JSON}
*/
run(input, args) {
try {
return jsYaml.load(input);
} catch (err) {
throw new OperationError("Unable to parse YAML: " + err);
}
}
}
export default YAMLToJSON;

25
src/web/waiters/OptionsWaiter.mjs
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@ -160,18 +160,37 @@ class OptionsWaiter {
// Update theme selection // Update theme selection
const themeSelect = document.getElementById("theme"); const themeSelect = document.getElementById("theme");
themeSelect.selectedIndex = themeSelect.querySelector(`option[value="${theme}"`).index; let themeOption = themeSelect.querySelector(`option[value="${theme}"]`);
if (!themeOption) {
const preferredColorScheme = this.getPreferredColorScheme();
document.querySelector(":root").className = preferredColorScheme;
themeOption = themeSelect.querySelector(`option[value="${preferredColorScheme}"]`);
}
themeSelect.selectedIndex = themeOption.index;
} }
/** /**
* Applies the user's preferred color scheme using the `prefers-color-scheme` media query. * Applies the user's preferred color scheme using the `prefers-color-scheme` media query.
*/ */
applyPreferredColorScheme() { applyPreferredColorScheme() {
const prefersDarkScheme = window.matchMedia("(prefers-color-scheme: dark)").matches; const themeFromStorage = this.app?.options?.theme;
const theme = prefersDarkScheme ? "dark" : "classic"; let theme = themeFromStorage;
if (!theme) {
theme = this.getPreferredColorScheme();
}
this.changeTheme(theme); this.changeTheme(theme);
} }
/**
* Get the user's preferred color scheme using the `prefers-color-scheme` media query.
*/
getPreferredColorScheme() {
const prefersDarkScheme = window.matchMedia("(prefers-color-scheme: dark)").matches;
return prefersDarkScheme ? "dark" : "classic";
}
/** /**
* Changes the console logging level. * Changes the console logging level.
* *

6
tests/browser/02_ops.js
View file

@ -64,9 +64,9 @@ module.exports = {
testOp(browser, ["From Hex", "Bzip2 Decompress"], "425a68393141592653597b0884b7000003038000008200ce00200021a647a4218013709517c5dc914e14241ec2212dc0", "test_output", [[], [true]]); testOp(browser, ["From Hex", "Bzip2 Decompress"], "425a68393141592653597b0884b7000003038000008200ce00200021a647a4218013709517c5dc914e14241ec2212dc0", "test_output", [[], [true]]);
// testOp(browser, "CBOR Decode", "test input", "test output"); // testOp(browser, "CBOR Decode", "test input", "test output");
// testOp(browser, "CBOR Encode", "test input", "test output"); // testOp(browser, "CBOR Encode", "test input", "test output");
testOp(browser, "CRC-16 Checksum", "test input", "77c7"); testOp(browser, "CRC Checksum", "test input", "77c7", ["CRC-16"]);
testOp(browser, "CRC-32 Checksum", "test input", "29822bc8"); testOp(browser, "CRC Checksum", "test input", "29822bc8", ["CRC-32"]);
testOp(browser, "CRC-8 Checksum", "test input", "9d"); testOp(browser, "CRC Checksum", "test input", "9d", ["CRC-8"]);
// testOp(browser, "CSS Beautify", "test input", "test_output"); // testOp(browser, "CSS Beautify", "test input", "test_output");
// testOp(browser, "CSS Minify", "test input", "test_output"); // testOp(browser, "CSS Minify", "test input", "test_output");
// testOp(browser, "CSS selector", "test input", "test_output"); // testOp(browser, "CSS selector", "test input", "test_output");

10
tests/node/tests/operations.mjs
View file

@ -305,16 +305,6 @@ Full hash: $2a$10$ODeP1.6fMsb.ENk2ngPUCO7qTGVPyHA9TqDVcyupyed8FjsiF65L6`;
assert.strictEqual(result.toString(), "2"); assert.strictEqual(result.toString(), "2");
}), }),
it("CRC16 Checksum", () => {
const result = chef.CRC16Checksum("Rain on Your Parade");
assert.strictEqual(result.toString(), "db1c");
}),
it("CRC32 Checksum", () => {
const result = chef.CRC32Checksum("Rain on Your Parade");
assert.strictEqual(result.toString(), "e902f76c");
}),
it("CSS Beautify", () => { it("CSS Beautify", () => {
const result = chef.CSSBeautify("header {color:black;padding:3rem;}"); const result = chef.CSSBeautify("header {color:black;padding:3rem;}");
const expected = `header { const expected = `header {

13
tests/operations/index.mjs
View file

@ -44,7 +44,6 @@ import "./tests/ChaCha.mjs";
import "./tests/ChangeIPFormat.mjs"; import "./tests/ChangeIPFormat.mjs";
import "./tests/CharEnc.mjs"; import "./tests/CharEnc.mjs";
import "./tests/Charts.mjs"; import "./tests/Charts.mjs";
import "./tests/Checksum.mjs";
import "./tests/Ciphers.mjs"; import "./tests/Ciphers.mjs";
import "./tests/CipherSaber2.mjs"; import "./tests/CipherSaber2.mjs";
import "./tests/CMAC.mjs"; import "./tests/CMAC.mjs";
@ -56,6 +55,7 @@ import "./tests/ConditionalJump.mjs";
import "./tests/ConvertCoordinateFormat.mjs"; import "./tests/ConvertCoordinateFormat.mjs";
import "./tests/ConvertLeetSpeak.mjs"; import "./tests/ConvertLeetSpeak.mjs";
import "./tests/ConvertToNATOAlphabet.mjs"; import "./tests/ConvertToNATOAlphabet.mjs";
import "./tests/CRCChecksum.mjs";
import "./tests/Crypt.mjs"; import "./tests/Crypt.mjs";
import "./tests/CSV.mjs"; import "./tests/CSV.mjs";
import "./tests/DateTime.mjs"; import "./tests/DateTime.mjs";
@ -144,6 +144,7 @@ import "./tests/SetIntersection.mjs";
import "./tests/SetUnion.mjs"; import "./tests/SetUnion.mjs";
import "./tests/Shuffle.mjs"; import "./tests/Shuffle.mjs";
import "./tests/SIGABA.mjs"; import "./tests/SIGABA.mjs";
import "./tests/SM2.mjs";
import "./tests/SM4.mjs"; import "./tests/SM4.mjs";
// import "./tests/SplitColourChannels.mjs"; // Cannot test operations that use the File type yet // import "./tests/SplitColourChannels.mjs"; // Cannot test operations that use the File type yet
import "./tests/StrUtils.mjs"; import "./tests/StrUtils.mjs";
@ -160,6 +161,16 @@ import "./tests/TranslateDateTimeFormat.mjs";
import "./tests/Typex.mjs"; import "./tests/Typex.mjs";
import "./tests/UnescapeString.mjs"; import "./tests/UnescapeString.mjs";
import "./tests/Unicode.mjs"; import "./tests/Unicode.mjs";
import "./tests/RSA.mjs";
import "./tests/CBOREncode.mjs";
import "./tests/CBORDecode.mjs";
import "./tests/JA3Fingerprint.mjs";
import "./tests/JA3SFingerprint.mjs";
import "./tests/HASSH.mjs";
import "./tests/JSONtoYAML.mjs";
// Cannot test operations that use the File type yet
// import "./tests/SplitColourChannels.mjs";
import "./tests/YARA.mjs"; import "./tests/YARA.mjs";
import "./tests/ParseCSR.mjs"; import "./tests/ParseCSR.mjs";
import "./tests/XXTEA.mjs"; import "./tests/XXTEA.mjs";

2054
tests/operations/tests/CRCChecksum.mjs Normal file
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241
tests/operations/tests/Checksum.mjs
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@ -1,241 +0,0 @@
/**
* Checksum tests.
*
* @author n1474335 [n1474335@gmail.com]
* @copyright Crown Copyright 2018
* @license Apache-2.0
*/
import TestRegister from "../../lib/TestRegister.mjs";
const BASIC_STRING = "The ships hung in the sky in much the same way that bricks don't.";
const UTF8_STR = "ნუ პანიკას";
const ALL_BYTES = [
"\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f",
"\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f",
"\x20\x21\x22\x23\x24\x25\x26\x27\x28\x29\x2a\x2b\x2c\x2d\x2e\x2f",
"\x30\x31\x32\x33\x34\x35\x36\x37\x38\x39\x3a\x3b\x3c\x3d\x3e\x3f",
"\x40\x41\x42\x43\x44\x45\x46\x47\x48\x49\x4a\x4b\x4c\x4d\x4e\x4f",
"\x50\x51\x52\x53\x54\x55\x56\x57\x58\x59\x5a\x5b\x5c\x5d\x5e\x5f",
"\x60\x61\x62\x63\x64\x65\x66\x67\x68\x69\x6a\x6b\x6c\x6d\x6e\x6f",
"\x70\x71\x72\x73\x74\x75\x76\x77\x78\x79\x7a\x7b\x7c\x7d\x7e\x7f",
"\x80\x81\x82\x83\x84\x85\x86\x87\x88\x89\x8a\x8b\x8c\x8d\x8e\x8f",
"\x90\x91\x92\x93\x94\x95\x96\x97\x98\x99\x9a\x9b\x9c\x9d\x9e\x9f",
"\xa0\xa1\xa2\xa3\xa4\xa5\xa6\xa7\xa8\xa9\xaa\xab\xac\xad\xae\xaf",
"\xb0\xb1\xb2\xb3\xb4\xb5\xb6\xb7\xb8\xb9\xba\xbb\xbc\xbd\xbe\xbf",
"\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf",
"\xd0\xd1\xd2\xd3\xd4\xd5\xd6\xd7\xd8\xd9\xda\xdb\xdc\xdd\xde\xdf",
"\xe0\xe1\xe2\xe3\xe4\xe5\xe6\xe7\xe8\xe9\xea\xeb\xec\xed\xee\xef",
"\xf0\xf1\xf2\xf3\xf4\xf5\xf6\xf7\xf8\xf9\xfa\xfb\xfc\xfd\xfe\xff",
].join("");
TestRegister.addTests([
{
name: "CRC-8: nothing",
input: "",
expectedOutput: "00",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8"]
}
]
},
{
name: "CRC-8: default check",
input: "123456789",
expectedOutput: "f4",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8"]
}
]
},
{
name: "CRC-8: CDMA2000",
input: "123456789",
expectedOutput: "da",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/CDMA2000"]
}
]
},
{
name: "CRC-8: DARC",
input: "123456789",
expectedOutput: "15",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/DARC"]
}
]
},
{
name: "CRC-8: DVB-S2",
input: "123456789",
expectedOutput: "bc",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/DVB-S2"]
}
]
},
{
name: "CRC-8: EBU",
input: "123456789",
expectedOutput: "97",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/EBU"]
}
]
},
{
name: "CRC-8: I-CODE",
input: "123456789",
expectedOutput: "7e",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/I-CODE"]
}
]
},
{
name: "CRC-8: ITU",
input: "123456789",
expectedOutput: "a1",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/ITU"]
}
]
},
{
name: "CRC-8: MAXIM",
input: "123456789",
expectedOutput: "a1",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/MAXIM"]
}
]
},
{
name: "CRC-8: ROHC",
input: "123456789",
expectedOutput: "d0",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/ROHC"]
}
]
},
{
name: "CRC-8: WCDMA",
input: "123456789",
expectedOutput: "25",
recipeConfig: [
{
"op": "CRC-8 Checksum",
"args": ["CRC-8/WCDMA"]
}
]
},
{
name: "CRC-16: nothing",
input: "",
expectedOutput: "0000",
recipeConfig: [
{
"op": "CRC-16 Checksum",
"args": []
}
]
},
{
name: "CRC-16: basic string",
input: BASIC_STRING,
expectedOutput: "0c70",
recipeConfig: [
{
"op": "CRC-16 Checksum",
"args": []
}
]
},
{
name: "CRC-16: UTF-8",
input: UTF8_STR,
expectedOutput: "dcf6",
recipeConfig: [
{
"op": "CRC-16 Checksum",
"args": []
}
]
},
{
name: "CRC-16: all bytes",
input: ALL_BYTES,
expectedOutput: "bad3",
recipeConfig: [
{
"op": "CRC-16 Checksum",
"args": []
}
]
},
{
name: "CRC-32: nothing",
input: "",
expectedOutput: "00000000",
recipeConfig: [
{
"op": "CRC-32 Checksum",
"args": []
}
]
},
{
name: "CRC-32: basic string",
input: BASIC_STRING,
expectedOutput: "bf4b739c",
recipeConfig: [
{
"op": "CRC-32 Checksum",
"args": []
}
]
},
{
name: "CRC-32: UTF-8",
input: UTF8_STR,
expectedOutput: "87553290",
recipeConfig: [
{
"op": "CRC-32 Checksum",
"args": []
}
]
},
{
name: "CRC-32: all bytes",
input: ALL_BYTES,
expectedOutput: "29058c73",
recipeConfig: [
{
"op": "CRC-32 Checksum",
"args": []
}
]
}
]);

41
tests/operations/tests/JSONtoYAML.mjs Normal file
View file

@ -0,0 +1,41 @@
/**
* YAML tests.
*
* @author ccarpo [ccarpo@gmx.net]
*
* @copyright Crown Copyright 2021
* @license Apache-2.0
*/
import TestRegister from "../../lib/TestRegister.mjs";
const EXAMPLE_YAML = `number: 3\nplain: string\nblock: |\n two\n lines`;
const EXAMPLE_JSON = `{ "number": 3, "plain": "string" }`;
TestRegister.addTests([
{
name: "YAML to JSON",
input: EXAMPLE_YAML,
expectedOutput: JSON.stringify({
"number": 3,
"plain": "string",
"block": "two\nlines\n"
}, null, 4),
recipeConfig: [
{
op: "YAML to JSON",
args: [],
}
],
},
{
name: "JSON to YAML",
input: EXAMPLE_JSON,
expectedOutput: `number: 3\nplain: string\n`,
recipeConfig: [
{
op: "JSON to YAML",
args: [],
}
],
},
]);

135
tests/operations/tests/SM2.mjs Normal file
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@ -0,0 +1,135 @@
/**
* SM2 Tests
*
* @author flakjacket95 [dflack95@gmail.com]
* @copyright Crown Copyright 2024
* @license Apache-2.0
*/
import TestRegister from "../../lib/TestRegister.mjs";
/* Plaintexts */
const SMALL_PLAIN = "I am a small plaintext";
const LARGE_PLAIN = "I am a larger plaintext, that will require the encryption KDF to generate a much larger key to properly encrypt me";
/* Test Key Parameters */
const PUBLIC_X = "f7d903cab7925066c31150a92b31e548e63f954f92d01eaa0271fb2a336baef8";
const PUBLIC_Y = "fb0c45e410ef7a6cdae724e6a78dbff52562e97ede009e762b667d9b14adea6c";
const PRIVATE_K = "e74a72505084c3269aa9b696d603e3e08c74c6740212c11a31e26cdfe08bdf6a";
const CURVE = "sm2p256v1";
/* Decryption Test Ciphertext*/
const CIPHERTEXT_1 = "9a31bc0adb4677cdc4141479e3949572a55c3e6fb52094721f741c2bd2e179aaa87be6263bc1be602e473be3d5de5dce97f8248948b3a7e15f9f67f64aef21575e0c05e6171870a10ff9ab778dbef24267ad90e1a9d47d68f757d57c4816612e9829f804025dea05a511cda39371c22a2828f976f72e";
const CIPHERTEXT_2 = "d3647d68568a2e7a4f8e843286be7bf2b4d80256697d19a73df306ae1a7e6d0364d942e23d2340606e7a2502a838b132f9242587b2ea7e4c207e87242eea8cae68f5ff4da2a95a7f6d350608ae5b6777e1d925bf9c560087af84aba7befba713130106ddb4082d803811bca3864594722f3198d58257fe4ba37f4aa540adf4cb0568bddd2d8140ad3030deea0a87e3198655cc4d22bfc3d73b1c4afec2ff15d68c8d1298d97132cace922ee8a4e41ca288a7e748b77ca94aa81dc283439923ae7939e00898e16fe5111fbe1d928d152b216a";
const CIPHERTEXT_3 = "5f340eeb4398fa8950ee3408d0e3fe34bf7728c9fdb060c94b916891b5c693610274160b52a7132a2bf16ad5cdb57d1e00da2f3ddbd55350729aa9c268b53e40c05ccce9912daa14406e8c132e389484e69757350be25351755dcc6c25c94b3c1a448b2cf8c2017582125eb6cf782055b199a875e966";
const CIPHERTEXT_4 = "0649bac46c3f9fd7fb3b2be4bff27414d634651efd02ca67d8c802bbc5468e77d035c39b581d6b56227f5d87c0b4efbea5032c0761139295ae194b9f1fce698f2f4b51d89fa5554171a1aad2e61fe9de89831aec472ecc5ab178ebf4d2230c1fb94fca03e536b87b9eba6db71ba9939260a08ffd230ca86cb45cf754854222364231bdb8b873791d63ad57a4b3fa5b6375388dc879373f5f1be9051bc5072a8afbec5b7b034e4907aa5bb4b6b1f50e725d09cb6a02e07ce20263005f6c9157ce05d3ea739d231d4f09396fb72aa680884d78";
TestRegister.addTests([
{
name: "SM2 Decrypt: Small Input; Format One",
input: CIPHERTEXT_1,
expectedOutput: SMALL_PLAIN,
recipeConfig: [
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C3C2", CURVE]
}
]
},
{
name: "SM2 Decrypt: Large Input; Format One",
input: CIPHERTEXT_2,
expectedOutput: LARGE_PLAIN,
recipeConfig: [
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C3C2", CURVE]
}
]
},
{
name: "SM2 Decrypt: Small Input; Format Two",
input: CIPHERTEXT_3,
expectedOutput: SMALL_PLAIN,
recipeConfig: [
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C2C3", CURVE]
}
]
},
{
name: "SM2 Decrypt: Large Input; Format Two",
input: CIPHERTEXT_4,
expectedOutput: LARGE_PLAIN,
recipeConfig: [
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C2C3", CURVE]
}
]
},
{
name: "SM2 Encrypt And Decrypt: Small Input; Format One",
input: SMALL_PLAIN,
expectedOutput: SMALL_PLAIN,
recipeConfig: [
{
"op": "SM2 Encrypt",
"args": [PUBLIC_X, PUBLIC_Y, "C1C3C2", CURVE],
},
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C3C2", CURVE]
}
]
},
{
name: "SM2 Encrypt And Decrypt: Large Input; Format One",
input: LARGE_PLAIN,
expectedOutput: LARGE_PLAIN,
recipeConfig: [
{
"op": "SM2 Encrypt",
"args": [PUBLIC_X, PUBLIC_Y, "C1C3C2", CURVE],
},
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C3C2", CURVE]
}
]
},
{
name: "SM2 Encrypt And Decrypt: Small Input; Format Two",
input: SMALL_PLAIN,
expectedOutput: SMALL_PLAIN,
recipeConfig: [
{
"op": "SM2 Encrypt",
"args": [PUBLIC_X, PUBLIC_Y, "C1C2C3", CURVE],
},
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C2C2", CURVE]
}
]
},
{
name: "SM2 Encrypt And Decrypt: Large Input; Format Two",
input: LARGE_PLAIN,
expectedOutput: LARGE_PLAIN,
recipeConfig: [
{
"op": "SM2 Encrypt",
"args": [PUBLIC_X, PUBLIC_Y, "C1C2C3", CURVE],
},
{
"op": "SM2 Decrypt",
"args": [PRIVATE_K, "C1C2C3", CURVE]
}
]
},
]);