CyberChef/src/core/operations/AESKeyUnwrap.mjs

/**
 * @author mikecat
 * @copyright Crown Copyright 2022
 * @license Apache-2.0
 */

import Operation from "../Operation.mjs";
import Utils from "../Utils.mjs";
import { toHexFast } from "../lib/Hex.mjs";
import forge from "node-forge";
import OperationError from "../errors/OperationError.mjs";

/**
 * AES Key Unwrap operation
 */
class AESKeyUnwrap extends Operation {

    /**
     * AESKeyUnwrap constructor
     */
    constructor() {
        super();

        this.name = "AES Key Unwrap";
        this.module = "Ciphers";
        this.description = "Decryptor for a key wrapping algorithm defined in RFC3394, which is used to protect keys in untrusted storage or communications, using AES.<br><br>This algorithm uses an AES key (KEK: key-encryption key) and a 64-bit IV to decrypt 64-bit blocks.";
        this.infoURL = "https://wikipedia.org/wiki/Key_wrap";
        this.inputType = "string";
        this.outputType = "string";
        this.args = [
            {
                "name": "Key (KEK)",
                "type": "toggleString",
                "value": "",
                "toggleValues": ["Hex", "UTF8", "Latin1", "Base64"]
            },
            {
                "name": "IV",
                "type": "toggleString",
                "value": "a6a6a6a6a6a6a6a6",
                "toggleValues": ["Hex", "UTF8", "Latin1", "Base64"]
            },
            {
                "name": "Input",
                "type": "option",
                "value": ["Hex", "Raw"]
            },
            {
                "name": "Output",
                "type": "option",
                "value": ["Hex", "Raw"]
            },
        ];
    }

    /**
     * @param {string} input
     * @param {Object[]} args
     * @returns {string}
     */
    run(input, args) {
        const kek = Utils.convertToByteString(args[0].string, args[0].option),
            iv = Utils.convertToByteString(args[1].string, args[1].option),
            inputType = args[2],
            outputType = args[3];

        if (kek.length !== 16 && kek.length !== 24 && kek.length !== 32) {
            throw new OperationError("KEK must be either 16, 24, or 32 bytes (currently " + kek.length + " bytes)");
        }
        if (iv.length !== 8) {
            throw new OperationError("IV must be 8 bytes (currently " + iv.length + " bytes)");
        }
        const inputData = Utils.convertToByteString(input, inputType);
        if (inputData.length % 8 !== 0 || inputData.length < 24) {
            throw new OperationError("input must be 8n (n>=3) bytes (currently " + inputData.length + " bytes)");
        }

        const cipher = forge.cipher.createCipher("AES-ECB", kek);
        cipher.start();
        cipher.update(forge.util.createBuffer(""));
        cipher.finish();
        const paddingBlock = cipher.output.getBytes();

        const decipher = forge.cipher.createDecipher("AES-ECB", kek);

        let A = inputData.substring(0, 8);
        const R = [];
        for (let i = 8; i < inputData.length; i += 8) {
            R.push(inputData.substring(i, i + 8));
        }
        let cntLower = R.length >>> 0;
        let cntUpper = (R.length / ((1 << 30) * 4)) >>> 0;
        cntUpper = cntUpper * 6 + ((cntLower * 6 / ((1 << 30) * 4)) >>> 0);
        cntLower = cntLower * 6 >>> 0;
        for (let j = 5; j >= 0; j--) {
            for (let i = R.length - 1; i >= 0; i--) {
                const aBuffer = Utils.strToArrayBuffer(A);
                const aView = new DataView(aBuffer);
                aView.setUint32(0, aView.getUint32(0) ^ cntUpper);
                aView.setUint32(4, aView.getUint32(4) ^ cntLower);
                A = Utils.arrayBufferToStr(aBuffer, false);
                decipher.start();
                decipher.update(forge.util.createBuffer(A + R[i] + paddingBlock));
                decipher.finish();
                const B = decipher.output.getBytes();
                A = B.substring(0, 8);
                R[i] = B.substring(8, 16);
                cntLower--;
                if (cntLower < 0) {
                    cntUpper--;
                    cntLower = 0xffffffff;
                }
            }
        }
        if (A !== iv) {
            throw new OperationError("IV mismatch");
        }
        const P = R.join("");

        if (outputType === "Hex") {
            return toHexFast(Utils.strToArrayBuffer(P));
        }
        return P;
    }

}

export default AESKeyUnwrap;
add new operations: AES Key Wrap/Unwrap 2022-10-31 16:35:27 +01:00			`/**`
			`* @author mikecat`
			`* @copyright Crown Copyright 2022`
			`* @license Apache-2.0`
			`*/`

			`import Operation from "../Operation.mjs";`
			`import Utils from "../Utils.mjs";`
			`import { toHexFast } from "../lib/Hex.mjs";`
			`import forge from "node-forge";`
			`import OperationError from "../errors/OperationError.mjs";`

			`/**`
			`* AES Key Unwrap operation`
			`*/`
			`class AESKeyUnwrap extends Operation {`

			`/**`
			`* AESKeyUnwrap constructor`
			`*/`
			`constructor() {`
			`super();`

			`this.name = "AES Key Unwrap";`
			`this.module = "Ciphers";`
			`this.description = "Decryptor for a key wrapping algorithm defined in RFC3394, which is used to protect keys in untrusted storage or communications, using AES.<br><br>This algorithm uses an AES key (KEK: key-encryption key) and a 64-bit IV to decrypt 64-bit blocks.";`
			`this.infoURL = "https://wikipedia.org/wiki/Key_wrap";`
			`this.inputType = "string";`
			`this.outputType = "string";`
			`this.args = [`
			`{`
			`"name": "Key (KEK)",`
			`"type": "toggleString",`
			`"value": "",`
			`"toggleValues": ["Hex", "UTF8", "Latin1", "Base64"]`
			`},`
			`{`
			`"name": "IV",`
			`"type": "toggleString",`
			`"value": "a6a6a6a6a6a6a6a6",`
			`"toggleValues": ["Hex", "UTF8", "Latin1", "Base64"]`
			`},`
			`{`
			`"name": "Input",`
			`"type": "option",`
			`"value": ["Hex", "Raw"]`
			`},`
			`{`
			`"name": "Output",`
			`"type": "option",`
			`"value": ["Hex", "Raw"]`
			`},`
			`];`
			`}`

			`/**`
			`* @param {string} input`
			`* @param {Object[]} args`
			`* @returns {string}`
			`*/`
			`run(input, args) {`
			`const kek = Utils.convertToByteString(args[0].string, args[0].option),`
			`iv = Utils.convertToByteString(args[1].string, args[1].option),`
			`inputType = args[2],`
			`outputType = args[3];`

			`if (kek.length !== 16 && kek.length !== 24 && kek.length !== 32) {`
			`throw new OperationError("KEK must be either 16, 24, or 32 bytes (currently " + kek.length + " bytes)");`
			`}`
			`if (iv.length !== 8) {`
			`throw new OperationError("IV must be 8 bytes (currently " + iv.length + " bytes)");`
			`}`
			`const inputData = Utils.convertToByteString(input, inputType);`
			`if (inputData.length % 8 !== 0 \|\| inputData.length < 24) {`
			`throw new OperationError("input must be 8n (n>=3) bytes (currently " + inputData.length + " bytes)");`
			`}`

			`const cipher = forge.cipher.createCipher("AES-ECB", kek);`
			`cipher.start();`
			`cipher.update(forge.util.createBuffer(""));`
			`cipher.finish();`
			`const paddingBlock = cipher.output.getBytes();`

			`const decipher = forge.cipher.createDecipher("AES-ECB", kek);`

			`let A = inputData.substring(0, 8);`
			`const R = [];`
			`for (let i = 8; i < inputData.length; i += 8) {`
			`R.push(inputData.substring(i, i + 8));`
			`}`
			`let cntLower = R.length >>> 0;`
			`let cntUpper = (R.length / ((1 << 30) * 4)) >>> 0;`
			`cntUpper = cntUpper * 6 + ((cntLower * 6 / ((1 << 30) * 4)) >>> 0);`
			`cntLower = cntLower * 6 >>> 0;`
			`for (let j = 5; j >= 0; j--) {`
			`for (let i = R.length - 1; i >= 0; i--) {`
			`const aBuffer = Utils.strToArrayBuffer(A);`
			`const aView = new DataView(aBuffer);`
			`aView.setUint32(0, aView.getUint32(0) ^ cntUpper);`
			`aView.setUint32(4, aView.getUint32(4) ^ cntLower);`
			`A = Utils.arrayBufferToStr(aBuffer, false);`
			`decipher.start();`
			`decipher.update(forge.util.createBuffer(A + R[i] + paddingBlock));`
			`decipher.finish();`
			`const B = decipher.output.getBytes();`
			`A = B.substring(0, 8);`
			`R[i] = B.substring(8, 16);`
			`cntLower--;`
			`if (cntLower < 0) {`
			`cntUpper--;`
			`cntLower = 0xffffffff;`
			`}`
			`}`
			`}`
			`if (A !== iv) {`
			`throw new OperationError("IV mismatch");`
			`}`
			`const P = R.join("");`

			`if (outputType === "Hex") {`
			`return toHexFast(Utils.strToArrayBuffer(P));`
			`}`
			`return P;`
			`}`

			`}`

			`export default AESKeyUnwrap;`