XOR cipher

In cryptography, the simple XOR cipher is a type of additive cipher, an encryption algorithm that operates according to the principles:


 * A $$\oplus$$ 0 = A,
 * A $$\oplus$$ A = 0,
 * A $$\oplus$$ B = B $$\oplus$$ A,
 * (A $$\oplus$$ B) $$\oplus$$ C = A $$\oplus$$ (B $$\oplus$$ C),
 * (B $$\oplus$$ A) $$\oplus$$ A = B $$\oplus$$ 0 = B,

For example where $$\oplus$$ denotes the exclusive disjunction (XOR) operation. This operation is sometimes called modulus 2 addition (or subtraction, which is identical). With this logic, a string of text can be encrypted by applying the bitwise XOR operator to every character using a given key. To decrypt the output, merely reapplying the XOR function with the key will remove the cipher.

Example
The string "Wiki" (01010111 01101001 01101011 01101001 in 8-bit ASCII) can be encrypted with the repeating key 11110011 as follows:




 * || 01010111 01101001 01101011 01101001
 * $$\oplus$$ || 11110011 11110011 11110011 11110011
 * = || style="border-top: 1px solid black" | 10100100 10011010 10011000 10011010
 * }
 * = || style="border-top: 1px solid black" | 10100100 10011010 10011000 10011010
 * }

And conversely, for decryption:




 * || 10100100 10011010 10011000 10011010
 * $$\oplus$$ || 11110011 11110011 11110011 11110011
 * = || style="border-top: 1px solid black" | 01010111 01101001 01101011 01101001
 * }
 * = || style="border-top: 1px solid black" | 01010111 01101001 01101011 01101001
 * }

Use and security
The XOR operator is extremely common as a component in more complex ciphers. By itself, using a constant repeating key, a simple XOR cipher can trivially be broken using frequency analysis. If the content of any message can be guessed or otherwise known then the key can be revealed. Its primary merit is that it is simple to implement, and that the XOR operation is computationally inexpensive. A simple repeating XOR (i.e. using the same key for xor operation on the whole data) cipher is therefore sometimes used for hiding information in cases where no particular security is required. The XOR cipher is often used in computer malware to make reverse engineering more difficult.

If the key is random and is at least as long as the message, the XOR cipher is much more secure than when there is key repetition within a message. When the keystream is generated by a pseudo-random number generator, the result is a stream cipher. With a key that is truly random, the result is a one-time pad, which is unbreakable in theory.

The XOR operator in any of these ciphers is vulnerable to a known-plaintext attack, since plaintext $$\oplus$$ ciphertext = key. It is also trivial to flip arbitrary bits in the decrypted plaintext by manipulating the ciphertext. This is called malleability.

Usefulness in cryptography
The primary reason XOR is so useful in cryptography is because it is "perfectly balanced"; for a given plaintext input 0 or 1, the ciphertext result is equally likely to be either 0 or 1 for a truly random key bit.

The table below shows all four possible pairs of plaintext and key bits. It is clear that if nothing is known about the key or plaintext, nothing can be determined from the ciphertext alone. Other logical operations such and AND or OR do not have such a mapping (for example, AND would produce three 0's and one 1, so knowing that a given ciphertext bit is a 0 implies that there is a 2/3 chance that the original plaintext bit was a 0, as opposed to the ideal 1/2 chance in the case of XOR)

Example implementation
Example using the Python programming language.

A shorter example using the R programming language, based on a puzzle posted on Instagram by GCHQ.