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In order to write an simple nodejs app talking to an server written in java I have to implement the following functionality for nodejs.

public class Crypto {
  Cipher decipher;

  byte[] salt = {
      (byte) 0x01, (byte) 0x02, (byte) 0x03, (byte) 0x04,
      (byte) 0x0A, (byte) 0x0B, (byte) 0x0C, (byte) 0x0D
  };
  int iterationCount = 10;

  public Crypto(String pass) {
    try {
      KeySpec keySpec = new PBEKeySpec(pass.toCharArray(), salt, iterationCount);

      SecretKey key = SecretKeyFactory.getInstance(
          "PBEWithMD5AndTripleDES").generateSecret(keySpec);

      ecipher = Cipher.getInstance("PBEWithMD5AndTripleDES/CBC/PKCS5Padding");

      AlgorithmParameterSpec paramSpec = new PBEParameterSpec(salt, iterationCount);

      decipher.init(Cipher.DECRYPT_MODE, key, paramSpec);

    } catch (Exception ex) {
    }
  }
}

I use the crypto module of nodejs

var crypto = require('crypto'),
      pass = new Buffer(wek),
      salt = new Buffer([0x01, 0x02, 0x03, 0x04, 0x0A, 0x0B, 0x0C, 0x0D])
      password = 'mySecretPassword'
      key = crypto.pbkdf2(pass, salt, 10, 256)
      cipher, 
      encrypted;

cipher = crypto.createCipher('des-ede-cbc', key);
encrypted = cipher.update(new Buffer('the very secred information'));

After sending the encrypted information to the server, I can't decrypt the message with the decipher Object as listed in the java code sample above. I think the main problem is the md5 part. I can't figure out how to implement that with the crypto nodejs module. Has anyone an idea how to solve this problem? Or is ther any other module or library to achieve that?

EDIT: I tried another module for nodejs: node-forge

forge = require('node-forge')

var numIterations = 10,
      keyLength = 24,
      password = forge.util.createBuffer('mySecretPassword'),
      salt = new forge.util.ByteBuffer(new Uint8Array([0x01, 0x02, 0x03, 0x04, 0x0A, 0x0B, 0x0C, 0x0D])),
      derivedKey = forge.pkcs5.pbkdf2(password, salt.getBytes(), numIterations, keyLength, forge.md.md5.create())
      iv = {}; // TODO... ???

var cipher = forge.des.createEncryptionCipher(derivedKey);
cipher.start(iv);
cipher.update('the very secred information');
cipher.finish();
var encrypted = cipher.output;

But I have several problems/questions:

  • Do I use the correct algorithm in javascript?
  • Is the salt calculation match with the java implementation?
  • How can I determine which keyLength is used in the java implementation?
  • How is the initialization vector generated in the java implementation? In the last code sample with node-forgeI have to provide the iv on cipher.start(iv). In the java code I can't see how this is done. In my opinion the iv must be the same on client and server or is this incorrect?
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According to this document, the PBEWithMD5AndDES cipher uses the key derivation algorithm defined in PKCS #5 v1.5. PBKDF2 is defined in PKCS #5 v2.0. The PBE* ciphers are a bit of a mystery anyway (not to mention extremely weak), so I'd go ahead and use PBKDF2 manually in the Java code too. Also, consider something like TLS instead of rolling your own protocol. – ntoskrnl Mar 6 '14 at 13:42
    
Nevertheless, I can't change the server implementation. I got a sample of the serverside code and I have to implement a client on nodejs. Therefore I have to implement the entcryption that way. – MadMG Mar 6 '14 at 14:46
2  
I checked the source code, and PBEWithMD5AndTripleDES seems to use a proprietary (non-standard) key derivation algorithm. The comment in PBEWithMD5AndTripleDESCipher describes the algorithm, and you can find the actual implementation in PBES1Core. As I said, it's a bit of a mess. – ntoskrnl Mar 6 '14 at 15:37

I reverse engineered the DESede part of the key derivation function found at com.sun.crypto.provider.PBES1Core#deriveCipherKey();

We use Jasypt as encryption library in a Java server and our node.js server is able to encrypt and decrypt with this. I hope it helps (Written in ES2015, runs in node v4.0.0 and up):

'use strict';
var crypto = require('crypto');

class Encryption {
    constructor() {
        this.privateKey = new Buffer('<your password>', 'utf-8');
    }

    encrypt(message) {
        var salt = crypto.randomBytes(8);
        var key = this._generateKey(this.privateKey, salt);
        var cipher = crypto.createCipheriv('des-ede3-cbc', this._subBuf(key, 0, 24), this._subBuf(key, 24));
        var result = cipher.update(message, 'utf-8', 'hex');
        return salt.toString('hex') + result + cipher.final('hex');
    }

    decrypt(message) {
        var salt = new Buffer(message.substr(0, 16), 'hex');
        var key = this._generateKey(this.privateKey, salt);
        message = message.substr(16);
        var decipher = crypto.createDecipheriv('des-ede3-cbc', this._subBuf(key, 0, 24), this._subBuf(key, 24));
        var result = decipher.update(message, 'hex', 'utf-8');
        return result + decipher.final('utf-8');
    }

    _generateKey(password, salt) {
        if (!(password instanceof Buffer)) {
            throw new Error('Password needs to be a buffer');
        }
        if (!(salt instanceof Buffer) || salt.length != 8) {
            throw new Error('Salt needs to be an 8 byte buffer');
        }

        var iterations;
        for(iterations = 0; iterations < 4 && salt[iterations] == salt[iterations + 4]; ++iterations) {}

        if(iterations == 4) {
            for(iterations = 0; iterations < 2; ++iterations) {
                var tmp = salt[iterations];
                salt[iterations] = salt[3 - iterations];
                salt[2] = tmp; // Seems like an error that we have to live with now
            }
        }

        var result = new Buffer(32);
        for(iterations = 0; iterations < 2; ++iterations) {
            var intermediate = new Buffer(salt.length / 2);
            for (let i = 0; i < salt.length / 2; i++) {
                intermediate[i] = salt[iterations * (salt.length / 2) + i];
            }

            for(let i = 0; i < 1000; ++i) {
                var hash = crypto.createHash('md5');
                hash.update(intermediate);
                hash.update(password);
                intermediate = hash.digest();
            }

            for (let i = 0; i<intermediate.length; i++) {
                result[i + (iterations * 16)] = intermediate[i];
            }
        }
        return result;
    }

    _subBuf(buffer, start, length) {
        if (!length) {
            length = buffer.length - start;
        }
        var result = new Buffer(length, 'hex');
        for (let i = 0; i < length; i++) {
            result[i] = buffer[i + start]
        }
        return result;
    }
}

To explain a little what's going on:

  • Encrypted messages are returned in hex format, something else might fit your implementation better.
  • The _generateKey() is a direct copy from the java source.
  • The keys used are 32 byte length and assume that the first 24 bytes are the keys for TripleDES and the last 8 are the salt
  • The generated message is prefixed with the random generated salt that used to encrypt the message.
  • Depending on the security settings of your JVM it might be possible that you are not actually using des-ede3 (cbc seems to be a fixed setting). You should definitely double check if this works with your setup.

Some code clean up might be necessary here, but it should at least get you started in the right direction.

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