node-rsa-es/src/formats/pkcs1.js

Node.js RSA library

// var ber = require('asn1').Ber;
// var _ = require('../utils')._;
// var utils = require('../utils');

import { Ber as ber } from 'asn1';
import { _ } from '../utils';
import * as utils from '../utils';
const PRIVATE_OPENING_BOUNDARY = '-----BEGIN RSA PRIVATE KEY-----';
const PRIVATE_CLOSING_BOUNDARY = '-----END RSA PRIVATE KEY-----';

const PUBLIC_OPENING_BOUNDARY = '-----BEGIN RSA PUBLIC KEY-----';
const PUBLIC_CLOSING_BOUNDARY = '-----END RSA PUBLIC KEY-----';

export default {
    privateExport: function (key, options) {
        options = options || {};

        var n = key.n.toBuffer();
        var d = key.d.toBuffer();
        var p = key.p.toBuffer();
        var q = key.q.toBuffer();
        var dmp1 = key.dmp1.toBuffer();
        var dmq1 = key.dmq1.toBuffer();
        var coeff = key.coeff.toBuffer();

        var length = n.length + d.length + p.length + q.length + dmp1.length + dmq1.length + coeff.length + 512; // magic
        var writer = new ber.Writer({size: length});

        writer.startSequence();
        writer.writeInt(0);
        writer.writeBuffer(n, 2);
        writer.writeInt(key.e);
        writer.writeBuffer(d, 2);
        writer.writeBuffer(p, 2);
        writer.writeBuffer(q, 2);
        writer.writeBuffer(dmp1, 2);
        writer.writeBuffer(dmq1, 2);
        writer.writeBuffer(coeff, 2);
        writer.endSequence();

        if (options.type === 'der') {
            return writer.buffer;
        } else {
            return PRIVATE_OPENING_BOUNDARY + '\n' + utils.linebrk(writer.buffer.toString('base64'), 64) + '\n' + PRIVATE_CLOSING_BOUNDARY;
        }
    },

    

    publicExport: function (key, options) {
        options = options || {};

        var n = key.n.toBuffer();
        var length = n.length + 512; // magic

        var bodyWriter = new ber.Writer({size: length});
        bodyWriter.startSequence();
        bodyWriter.writeBuffer(n, 2);
        bodyWriter.writeInt(key.e);
        bodyWriter.endSequence();

        if (options.type === 'der') {
            return bodyWriter.buffer;
        } else {
            return PUBLIC_OPENING_BOUNDARY + '\n' + utils.linebrk(bodyWriter.buffer.toString('base64'), 64) + '\n' + PUBLIC_CLOSING_BOUNDARY;
        }
    },

    publicImport,
    privateImport,
    /**
     * Trying autodetect and import key
     * @param key
     * @param data
     */
    autoImport: function (key, data) {
        // [\S\s]* matches zero or more of any character
        if (/^[\S\s]*-----BEGIN RSA PRIVATE KEY-----\s*(?=(([A-Za-z0-9+/=]+\s*)+))\1-----END RSA PRIVATE KEY-----[\S\s]*$/g.test(data)) {
            privateImport(key, data);
            return true;
        }

        if (/^[\S\s]*-----BEGIN RSA PUBLIC KEY-----\s*(?=(([A-Za-z0-9+/=]+\s*)+))\1-----END RSA PUBLIC KEY-----[\S\s]*$/g.test(data)) {
            publicImport(key, data);
            return true;
        }

        return false;
    }
};

function privateImport(key, data, options) {
        options = options || {};
        var buffer;

        if (options.type !== 'der') {
            if (Buffer.isBuffer(data)) {
                data = data.toString('utf8');
            }

            if (_.isString(data)) {
                var pem = utils.trimSurroundingText(data, PRIVATE_OPENING_BOUNDARY, PRIVATE_CLOSING_BOUNDARY)
                    .replace(/\s+|\n\r|\n|\r$/gm, '');
                buffer = Buffer.from(pem, 'base64');
            } else {
                throw Error('Unsupported key format');
            }
        } else if (Buffer.isBuffer(data)) {
            buffer = data;
        } else {
            throw Error('Unsupported key format');
        }

        var reader = new ber.Reader(buffer);
        reader.readSequence();
        reader.readString(2, true); // just zero
        key.setPrivate(
            reader.readString(2, true),  // modulus
            reader.readString(2, true),  // publicExponent
            reader.readString(2, true),  // privateExponent
            reader.readString(2, true),  // prime1
            reader.readString(2, true),  // prime2
            reader.readString(2, true),  // exponent1 -- d mod (p1)
            reader.readString(2, true),  // exponent2 -- d mod (q-1)
            reader.readString(2, true)   // coefficient -- (inverse of q) mod p
        );
    }
function publicImport(key, data, options) {
        options = options || {};
        var buffer;

        if (options.type !== 'der') {
            if (Buffer.isBuffer(data)) {
                data = data.toString('utf8');
            }

            if (_.isString(data)) {
                var pem = utils.trimSurroundingText(data, PUBLIC_OPENING_BOUNDARY, PUBLIC_CLOSING_BOUNDARY)
                    .replace(/\s+|\n\r|\n|\r$/gm, '');
                buffer = Buffer.from(pem, 'base64');
            }
        } else if (Buffer.isBuffer(data)) {
            buffer = data;
        } else {
            throw Error('Unsupported key format');
        }

        var body = new ber.Reader(buffer);
        body.readSequence();
        key.setPublic(
            body.readString(0x02, true), // modulus
            body.readString(0x02, true)  // publicExponent
        );
    }