2

I am trying to make a simple Java program that involves cryptography.

First I read a block of 32 bytes from file clearmsg.txt. Then I convert this block to integer number, and use it for encryption. Unfortunately the size of the ciphertext is not static; sometimes it returns 30 bytes and sometimes 26 bytes. This seems independent on result of add operation.

How can I make sure it becomes a cipher block of 32 bytes? How add bits / bytes to this block? Because when I try decrypt this block I need to read 32 ciphertext bytes.

private void ENC_add() {

    final File clearmsg = new File("F:/java_projects/clearmsg.txt");
    final File ciphermsg = new File("F:/java_projects/ciphermsg.txt");
    final byte[] block = new byte[32];
    try {
        final FileInputStream fis = new FileInputStream(clearmsg);
        final FileOutputStream fcs = new FileOutputStream(ciphermsg);
        int i;
        while ((i = fis.read(block)) != -1) {
            // Is this process true
            // here M2 (Plain text) shuld be 32 byte
            M2 = new BigInteger(block);
            // here encrypt M2 by add k1 where k1 any number less than P
            CM2 = M2.add(K1).mod(P);
            // here my problem some time Cipher CM2 length 31 , some time CM2 length 32 ,some time CM2 length 30
            System.out.println("THE CM2=" + CM2.toByteArray().Length);
            fcs.write(CM2.toByteArray(), 0, i);
        }
        fcs.close();

    }

    catch (final IOException e) {
        e.printStackTrace();
    }
}

// Here problem for decrypt
private void DEC_ADD() {

    // DECREPT METHOD
    final File ciphermsg = new File("F:/java_projects/ciphermsg.txt");
    final File clearmsg = new File("F:/java_projects/rciphermsg.txt");
    final byte[] block = new byte[32];
    try {
        final FileInputStream fis = new FileInputStream(ciphermsg);
        final FileOutputStream fos = new FileOutputStream(clearmsg);
        int i;
        while ((i = fis.read(block)) != -1) {
            // CM2 NOT STATIC BITS NUMBER BECAUSE INDEPENDET ON RESULT ADDITIONAL AND PRIME NUMBER P through ENCRYPT
            // Process
            CM2 = new BigInteger(block);
            // here RM2 is decrypt cipher (CM2) NOTE When encrypt above M2 WAS 32 bytes and Cipher CM2 was 30 bytes
            // and When I read from file 32 bytes then this is my problem
            RM2 = CM2.subtract(K1).mod(P);

            fos.write(RM2.toByteArray(), 0, i);
        }
        fos.close();
        System.out.println("THE RM2=" + CM2.bitLength());
    } catch (final IOException e) {
        e.printStackTrace();
    }
}
3

For the encrypt a function is required that is normally called Integer to Octet String Primitive or I2OSP. For decryption you need an OS2IP function to convert back to integers. Both are explained here.

These functions are used to encode/decode to an octet string (byte array) of a given size. This size is normally directly related to the size of the modulus (P in your case) of RSA encryption.

The I2OSP function is normally coded like this:

public static byte[] i2os(final BigInteger i, final int size) {
    if (i == null || i.signum() == -1) {
        throw new IllegalArgumentException("Integer should be a positive number or 0");
    }

    if (size < 1) {
        throw new IllegalArgumentException("Size of the octet string should be at least 1 but is " + size);
    }

    final byte[] signed = i.toByteArray();
    if (signed.length == size) {
        return signed;
    }

    final byte[] os = new byte[size];
    if (signed.length < size) {
        // copy to rightmost part of os variable (os initialized to 0x00 bytes)
        System.arraycopy(signed, 0, os, size - signed.length, signed.length);
        return os;
    }

    if (signed.length == size + 1 && signed[0] == 0x00) {
        // copy to os variable, skipping initial sign byte
        System.arraycopy(signed, 1, os, 0, size);
        return os;
    }

    throw new IllegalArgumentException("Integer does not fit into an array of size " + size);
}

Fortunately, the reverse function is not as complicated:

public static BigInteger os2i(final byte[] data, final int size) {
    if (data.length != size) {
        throw new IllegalArgumentException("Size of the octet string should be precisely " + size);
    }

    return new BigInteger(1, data); 
}

I've kept in the size validation so it can be called with the expected octet size, even though it is not required for the calculation itself.

  • Thank you Mr owlstead your code is very useful for me. Thanks again. just I have one question when run this two lines give me value amazing me System.out.println("THE P length=" +P.toByteArray().length); System.out.println("THE K1 length=" +K1.toByteArray().length); the results is as the following THE P length=33 THE K1 length=33 Why 33 bytes? Why not 32 bytes ?Therefore P has 256 bit and K1 has 255 bits. any detail about this. – MHS Sep 16 '13 at 20:31
  • @user2782318 Normally (asymmetric) encryption uses only modulo mathematics. Modulo operates on a group, starting at 0 to N-1. Now if you have a bitsize of a multiple of 8, say 32, the highest bit is always 1. But since any number in Java is signed, including BigInteger, it requires a byte with 00 value in front of the number. Otherwise the number would be interpreted as a negative (two-complement) number. Try removing the 1 from new BigInteger(1, data) above and you will likely see negative numbers... Encode the values as hexadecimal or binary numbers to get a better view. – Maarten Bodewes Sep 16 '13 at 21:42
  • ok I sory for late. My problem is solved else something. When used above code with my code for read 32 bytes from text file it give me good result. but exist problem when used decryptin function. When try write into decrypt file "rciphermsg.txt" all decrypt characters same orginal characters else last block . I thing this problem occurs just when write data less than 32 byte any suggest. thank you again. – MHS Sep 19 '13 at 22:25

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