This is a java program to implement one time pad algorithm. In cryptography, a one-time pad (OTP) is an encryption technique that cannot be cracked if used correctly. In this technique, a plaintext is paired with random, secret key (or pad). Then, each bit or character of the plaintext is encrypted by combining it with the corresponding bit or character from the pad using modular addition. If the key is truly random, and at least as long as the plaintext, and never reused in whole or in part, and kept completely secret, then the resulting ciphertext will be impossible to decrypt or break. It has also been proven that any cipher with the perfect secrecy property must use keys with effectively the same requirements as OTP keys. However, practical problems have prevented one-time pads from being widely used.
Here is the source code of the Java Program to Implement the One Time Pad Algorithm. The Java program is successfully compiled and run on a Windows system. The program output is also shown below.
package com.maixuanviet.setandstring;
import java.util.Scanner;
public class OneTimePadCipher
{
public static String encryptionMessage(String s)
{
int i, j;
int randomBitPattern[] = new int[8];
for (i = 0; i < 7; i++)
{
randomBitPattern[i] = (i % 2 == 0) ? 1 : 0;
}
char asc[] = new char[s.length()];
for (i = 0; i < s.length(); i++)
{
asc[i] = (char) ((int) s.charAt(i));
}
BasicOperation b1 = new BasicOperation();
String cipherText = new String("");
for (i = 0; i < asc.length; i++)
{
int temp = (int) (asc[i]);
int len = b1.decimalToBinary(temp);
int bintemp[] = new int[7];
int xorlen;
if (len == 7)
{
for (j = 1; j <= len; j++)
{
bintemp[j - 1] = b1.binaryArrayAtPosition(j);
}
// XOR Operation
xorlen = b1.xorop(bintemp, randomBitPattern, len);
}
else
{
// System.out.println("\n less than 7 :"+len);
bintemp[0] = 0;
for (j = 1; j <= len; j++)
{
bintemp[j] = b1.binaryArrayAtPosition(j);
}
// XOR Operation
xorlen = b1.xorop(bintemp, randomBitPattern, len + 1);
}
int xor[] = new int[xorlen];
for (j = 0; j < xorlen; j++)
{
xor[j] = b1.xorinArrayAt(j);
cipherText = cipherText + xor[j];
}
cipherText += " ";
}
return (cipherText);
}
public static String decryptionMessage(String s)
{
int i, j;
// char cipherChar[]=new char[(s.length()/2)];
char cipherChar[] = new char[(s.length())];
int cnt = -1;
for (i = 0; i < s.length(); i++)
{
// we receive only Ascii of it is allow 0 and 1, do not accept white
// space
// int ascii=(int)s.charAt(i);
if ((int) s.charAt(i) == 48 || (int) s.charAt(i) == 49
|| (int) s.charAt(i) == 32)
{
cnt++;
cipherChar[cnt] = s.charAt(i);
}
}
String s1 = new String(cipherChar);
String s2[] = s1.split(" ");
int data[] = new int[s2.length];
for (i = 0; i < s2.length; i++)
{
data[i] = Integer.parseInt(s2[i]);
}
char randomBitPattern[] = new char[7];
for (i = 0; i < 7; i++)
{
randomBitPattern[i] = (i % 2 == 0) ? '1' : '0';
}
BasicOperation b1 = new BasicOperation();
String plain = new String("");
// do the XOR Operation
for (i = 0; i < s2.length; i++)
{
int xorlen = b1.xorop(s2[i], randomBitPattern);
int xor[] = new int[xorlen];
for (j = 0; j < xorlen; j++)
{
xor[j] = b1.xorinArrayAt(j);
plain += xor[j];
}
plain += " ";
}
String p[] = plain.split(" ");
BasicOperation ob = new BasicOperation();
int decryptedChar[] = new int[p.length];
char plainTextChar[] = new char[p.length];
for (i = 0; i < p.length; i++)
{
decryptedChar[i] = ob.binaryToDecimal(Integer.parseInt(p[i]));
plainTextChar[i] = (char) decryptedChar[i];
}
return (new String(plainTextChar));
}
public static void main(String[] args)
{
Scanner sc = new Scanner(System.in);
System.out.println("Enter the message: ");
String message = sc.next();
System.out.println("'" + message + "' in encrypted message : "
+ encryptionMessage(message));
System.out.println("'" + encryptionMessage(message)
+ "' in decrypted message : "
+ decryptionMessage(encryptionMessage(message)));
sc.close();
}
}
class BasicOperation
{
int bin[] = new int[100];
int xor[] = new int[100];
int temp1[] = new int[100];
int temp2[] = new int[100];
int len;
int xorlen;
// convert binary number to decimal number
public int binaryToDecimal(int myNum)
{
int dec = 0, no, i, n = 0;
no = myNum;
// Find total digit of no of inupted number
while (no > 0)
{
n++;
no = no / 10;
}
// Convert inputed number into decimal
no = myNum;
for (i = 0; i < n; i++)
{
int temp = no % 10;
dec = dec + temp * ((int) Math.pow(2, i));
no = no / 10;
}
return dec;
}
public int decimalToBinary(int myNum)
{
int j, i = -1, no, temp = 0;
no = myNum;
int t[] = new int[100];
while (no > 0)
{
i++;
temp = no % 2;
t[i] = temp;
no = no / 2;
}
len = (i + 1);
j = -1;
for (i = len; i >= 0; i--)
{
j++;
bin[j] = t[i];
}
return len;
}
// find the specific bit value of binary number at given position
public int binaryArrayAtPosition(int pos)
{
return bin[pos];
}
public int xorinArrayAt(int pos)
{
return xor[pos];
}
// perform the binary X-OR operation
public int xorop(int a[], int b[], int arrlen)
{
int i;
for (i = 0; i < arrlen; i++)
{
xor[i] = (a[i] == b[i]) ? 0 : 1;
}
xorlen = i;
return xorlen;
}
// perform the binary X-OR operation
public int xorop(String s, char c[])
{
int i = -1;
for (i = 0; i < s.length(); i++)
{
xor[i] = (s.charAt(i) == c[i]) ? 0 : 1;
}
xorlen = i;
return xorlen;
}
public int getLen()
{
return len + 1;
}
// display binary bit pattern or the array
public void displayBinaryArray()
{
for (int i = 0; i <= len; i++)
{
System.out.println("\n Binary Array :" + bin[i]);
}
}
}
Output:
$ javac OneTimePadCipher.java $ java OneTimePadCipher Enter the message: Sanfoundry 'Sanfoundry' in encrypted message : 0000110 0110100 0111011 0110011 0111010 0100000 0111011 0110001 0100111 0101100 '0000110 0110100 0111011 0110011 0111010 0100000 0111011 0110001 0100111 0101100 ' in decrypted message : Sanfoundry
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