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I know that there is code like this: http://www.java2s.com/Code/Android/Security/RSAencryptdecryptfunctionRSAECBPKCS1Padding.htm

/*
 Copyright (c) 2010, Sungjin Han <meinside@gmail.com>
 All rights reserved.

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//package org.andlib.helpers;
public static KeyPair generateRsaKeyPair(int keySize, BigInteger publicExponent)
{
KeyPair keys = null;
try
{
  KeyPairGenerator keyGen = KeyPairGenerator.getInstance("RSA");
  RSAKeyGenParameterSpec spec = new RSAKeyGenParameterSpec(keySize, publicExponent);
  keyGen.initialize(spec);
  keys = keyGen.generateKeyPair();
}
catch(Exception e)
{
//  Logger.e(e.toString());
}
return keys;


}



/**
   * generates a RSA public key with given modulus and public exponent
   * 
   * @param modulus (must be positive? don't know exactly)
   * @param publicExponent
   * @return
   */
  public static PublicKey generateRsaPublicKey(BigInteger modulus, BigInteger publicExponent)
  {
    try
    {
      return KeyFactory.getInstance("RSA").generatePublic(new RSAPublicKeySpec(modulus,     publicExponent));
    }
    catch(Exception e)
    {
    //  Logger.e(e.toString());
    }
    return null;
  }

  /**
   * generates a RSA private key with given modulus and private exponent
   * 
   * @param modulus (must be positive? don't know exactly)
   * @param privateExponent
   * @return
   */
  public static PrivateKey generateRsaPrivateKey(BigInteger modulus, BigInteger privateExponent)
  {
    try
    {
      return KeyFactory.getInstance("RSA").generatePrivate(new RSAPrivateKeySpec(modulus, privateExponent));
    }
    catch(Exception e)
    {
    //  Logger.e(e.toString());
    }
    return null;
  }

  /**
   * RSA encrypt function (RSA / ECB / PKCS1-Padding)
   * 
   * @param original
   * @param key
   * @return
   */
  public static byte[] rsaEncrypt(byte[] original, PublicKey key)
  {
    try
    {
      Cipher cipher = Cipher.getInstance("RSA/ECB/PKCS1Padding");
      cipher.init(Cipher.ENCRYPT_MODE, key);
      return cipher.doFinal(original);
    }
    catch(Exception e)
    {
    //  Logger.e(e.toString());
    }
    return null;
  }

  /**
   * RSA decrypt function (RSA / ECB / PKCS1-Padding)
   * 
   * @param encrypted
   * @param key
   * @return
   */
  public static byte[] rsaDecrypt(byte[] encrypted, PrivateKey key)
  {
    try
    {
      Cipher cipher = Cipher.getInstance("RSA/ECB/PKCS1Padding");
      cipher.init(Cipher.DECRYPT_MODE, key);
      return cipher.doFinal(encrypted);
    }
    catch(Exception e)
    {
    //  Logger.e(e.toString());
    }
    return null;
  }

Some questions:

Are there side attacks for the code linked above, or is it secure?

If the answer to the first question is no, then is there a module which takes care of side attacks?

I am using Froyo and have tried googling for a while now. All help is appreciated, thanks.

share|improve this question

1 Answer 1

up vote 2 down vote accepted

What do you mean by 'side attacks'? Whether it's secure or not, depends on many things, mostly on how you use it, and what are you encrypting/decrypting. Funny thing is, the license is longer than the code, and code basically does nothing special: just swallowing exceptions...

This has little to do with Android, BTW.

share|improve this answer
    
Yea, I guess what I meant is, is the API in Android secure against side attacks. Now to define side attack: a side attack is an attack which is possible due to the implementation of a system. So a theoretically sound system can be insecure because of a poor implementation or an incomplete one. –  returneax Nov 27 '11 at 6:13
1  
First, the API cannot be said to be secure or not, just the implementation. Second, your question is way to general: there are multiple versions and builds of Android, running on multiple devices. If you want to audit something you should audit the whole system: the device+kernel+Android framework. For your case, even if the RSA implementation itself is correct, if the random generator is faulty (this may be implemented in the kernel), you can end up with insecure keys. Using those will compromise the whole system, even if the actual crypto implementation is correct. –  Nikolay Elenkov Nov 27 '11 at 12:59

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