CyberChef/src/core/operations/ToBCD.mjs

/**
 * @author n1474335 [n1474335@gmail.com]
 * @copyright Crown Copyright 2017
 * @license Apache-2.0
 */

import Operation from "../Operation";
import Utils from "../Utils";
import OperationError from "../errors/OperationError";
import {ENCODING_SCHEME, ENCODING_LOOKUP, FORMAT} from "../lib/BCD";
import BigNumber from "bignumber.js";

/**
 * To BCD operation
 */
class ToBCD extends Operation {

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

        this.name = "To BCD";
        this.module = "Default";
        this.description = "Binary-Coded Decimal (BCD) is a class of binary encodings of decimal numbers where each decimal digit is represented by a fixed number of bits, usually four or eight. Special bit patterns are sometimes used for a sign";
        this.infoURL = "https://wikipedia.org/wiki/Binary-coded_decimal";
        this.inputType = "BigNumber";
        this.outputType = "string";
        this.args = [
            {
                "name": "Scheme",
                "type": "option",
                "value": ENCODING_SCHEME
            },
            {
                "name": "Packed",
                "type": "boolean",
                "value": true
            },
            {
                "name": "Signed",
                "type": "boolean",
                "value": false
            },
            {
                "name": "Output format",
                "type": "option",
                "value": FORMAT
            }
        ];
    }

    /**
     * @param {BigNumber} input
     * @param {Object[]} args
     * @returns {string}
     */
    run(input, args) {
        if (input.isNaN())
            throw new OperationError("Invalid input");
        if (!input.integerValue(BigNumber.ROUND_DOWN).isEqualTo(input))
            throw new OperationError("Fractional values are not supported by BCD");

        const encoding = ENCODING_LOOKUP[args[0]],
            packed = args[1],
            signed = args[2],
            outputFormat = args[3];

        // Split input number up into separate digits
        const digits = input.toFixed().split("");

        if (digits[0] === "-" || digits[0] === "+") {
            digits.shift();
        }

        let nibbles = [];

        digits.forEach(d => {
            const n = parseInt(d, 10);
            nibbles.push(encoding[n]);
        });

        if (signed) {
            if (packed && digits.length % 2 === 0) {
                // If there are an even number of digits, we add a leading 0 so
                // that the sign nibble doesn't sit in its own byte, leading to
                // ambiguity around whether the number ends with a 0 or not.
                nibbles.unshift(encoding[0]);
            }

            nibbles.push(input > 0 ? 12 : 13);
            // 12 ("C") for + (credit)
            // 13 ("D") for - (debit)
        }

        let bytes = [];

        if (packed) {
            let encoded = 0,
                little = false;

            nibbles.forEach(n => {
                encoded ^= little ? n : (n << 4);
                if (little) {
                    bytes.push(encoded);
                    encoded = 0;
                }
                little = !little;
            });

            if (little) bytes.push(encoded);
        } else {
            bytes = nibbles;

            // Add null high nibbles
            nibbles = nibbles.map(n => {
                return [0, n];
            }).reduce((a, b) => {
                return a.concat(b);
            });
        }

        // Output
        switch (outputFormat) {
            case "Nibbles":
                return nibbles.map(n => {
                    return n.toString(2).padStart(4, "0");
                }).join(" ");
            case "Bytes":
                return bytes.map(b => {
                    return b.toString(2).padStart(8, "0");
                }).join(" ");
            case "Raw":
            default:
                return Utils.byteArrayToChars(bytes);
        }
    }

}

export default ToBCD;
ESM: Ported Base58, Base and BCD operations 2018-05-16 18:25:05 +02:00			`/**`
			`* @author n1474335 [n1474335@gmail.com]`
			`* @copyright Crown Copyright 2017`
			`* @license Apache-2.0`
			`*/`

			`import Operation from "../Operation";`
			`import Utils from "../Utils";`
			`import OperationError from "../errors/OperationError";`
			`import {ENCODING_SCHEME, ENCODING_LOOKUP, FORMAT} from "../lib/BCD";`
			`import BigNumber from "bignumber.js";`

			`/**`
			`* To BCD operation`
			`*/`
			`class ToBCD extends Operation {`

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

			`this.name = "To BCD";`
			`this.module = "Default";`
			`this.description = "Binary-Coded Decimal (BCD) is a class of binary encodings of decimal numbers where each decimal digit is represented by a fixed number of bits, usually four or eight. Special bit patterns are sometimes used for a sign";`
Added more infoLinks and updated newOperation script to include prompt for them. 2018-08-21 20:07:13 +02:00			`this.infoURL = "https://wikipedia.org/wiki/Binary-coded_decimal";`
ESM: Ported Base58, Base and BCD operations 2018-05-16 18:25:05 +02:00			`this.inputType = "BigNumber";`
			`this.outputType = "string";`
			`this.args = [`
			`{`
			`"name": "Scheme",`
			`"type": "option",`
			`"value": ENCODING_SCHEME`
			`},`
			`{`
			`"name": "Packed",`
			`"type": "boolean",`
			`"value": true`
			`},`
			`{`
			`"name": "Signed",`
			`"type": "boolean",`
			`"value": false`
			`},`
			`{`
			`"name": "Output format",`
			`"type": "option",`
			`"value": FORMAT`
			`}`
			`];`
			`}`

			`/**`
			`* @param {BigNumber} input`
			`* @param {Object[]} args`
			`* @returns {string}`
			`*/`
			`run(input, args) {`
			`if (input.isNaN())`
			`throw new OperationError("Invalid input");`
			`if (!input.integerValue(BigNumber.ROUND_DOWN).isEqualTo(input))`
			`throw new OperationError("Fractional values are not supported by BCD");`

			`const encoding = ENCODING_LOOKUP[args[0]],`
			`packed = args[1],`
			`signed = args[2],`
			`outputFormat = args[3];`

			`// Split input number up into separate digits`
			`const digits = input.toFixed().split("");`

			`if (digits[0] === "-" \|\| digits[0] === "+") {`
			`digits.shift();`
			`}`

			`let nibbles = [];`

			`digits.forEach(d => {`
			`const n = parseInt(d, 10);`
			`nibbles.push(encoding[n]);`
			`});`

			`if (signed) {`
			`if (packed && digits.length % 2 === 0) {`
			`// If there are an even number of digits, we add a leading 0 so`
			`// that the sign nibble doesn't sit in its own byte, leading to`
			`// ambiguity around whether the number ends with a 0 or not.`
			`nibbles.unshift(encoding[0]);`
			`}`

			`nibbles.push(input > 0 ? 12 : 13);`
			`// 12 ("C") for + (credit)`
			`// 13 ("D") for - (debit)`
			`}`

			`let bytes = [];`

			`if (packed) {`
			`let encoded = 0,`
			`little = false;`

			`nibbles.forEach(n => {`
			`encoded ^= little ? n : (n << 4);`
			`if (little) {`
			`bytes.push(encoded);`
			`encoded = 0;`
			`}`
			`little = !little;`
			`});`

			`if (little) bytes.push(encoded);`
			`} else {`
			`bytes = nibbles;`

			`// Add null high nibbles`
			`nibbles = nibbles.map(n => {`
			`return [0, n];`
			`}).reduce((a, b) => {`
			`return a.concat(b);`
			`});`
			`}`

			`// Output`
			`switch (outputFormat) {`
			`case "Nibbles":`
			`return nibbles.map(n => {`
			`return n.toString(2).padStart(4, "0");`
			`}).join(" ");`
			`case "Bytes":`
			`return bytes.map(b => {`
			`return b.toString(2).padStart(8, "0");`
			`}).join(" ");`
			`case "Raw":`
			`default:`
			`return Utils.byteArrayToChars(bytes);`
			`}`
			`}`

			`}`

			`export default ToBCD;`