# byte operations (XOR) in python

``````    #!/usr/bin/env python3

import binascii

var=binascii.a2b_qp("hello")
key=binascii.a2b_qp("supersecretkey")[:len(var)]

print(binascii.b2a_qp(var))
print(binascii.b2a_qp(key))

#here i want to do an XOR operation on the bytes in var and key and place them in 'encryption': encryption=var XOR key

print(binascii.b2a_qp(encrypted))
``````

If someone could enlighten me on how I could accomplish this I would be very happy. Very new to the whole data-type conversions so yeah...reading through the python wiki is not as clear as I would like :(.

• do you mean xoring the var string against the key string? Mind you they They have different lengths. In python the xor operator is ^ Apr 2, 2015 at 8:21
• So my use of [:len(var)] to cut the key to the same size as the the var string will not work? I thought each character is converted in to a single byte where a=97=01100001 for example. When I use encrypted = var ^ key I get "TypeError: unsupported operand type(s) for ^: 'bytes' and 'bytes'"
– Jcov
Apr 2, 2015 at 8:26

## Comparison of two python3 solutions

The first one is based on zip:

``````    def encrypt1(var, key):
return bytes(a ^ b for a, b in zip(var, key))
``````

The second one uses int.from_bytes and int.to_bytes:

``````    def encrypt2(var, key, byteorder=sys.byteorder):
key, var = key[:len(var)], var[:len(key)]
int_var = int.from_bytes(var, byteorder)
int_key = int.from_bytes(key, byteorder)
int_enc = int_var ^ int_key
return int_enc.to_bytes(len(var), byteorder)
``````

Simple tests:

``````assert encrypt1(b'hello', b'supersecretkey') == b'\x1b\x10\x1c\t\x1d'
assert encrypt2(b'hello', b'supersecretkey') == b'\x1b\x10\x1c\t\x1d'
``````

Performance tests with `var` and `key` being 1000 bytes long:

``````\$ python3 -m timeit \
-s "import test_xor;a=b'abcdefghij'*100;b=b'0123456789'*100" \
"test_xor.encrypt1(a, b)"
10000 loops, best of 3: 100 usec per loop

\$ python3 -m timeit \
-s "import test_xor;a=b'abcdefghij'*100;b=b'0123456789'*100" \
"test_xor.encrypt2(a, b)"
100000 loops, best of 3: 5.1 usec per loop
``````

The integer approach seems to be significantly faster.

• One might simply use `int.from_bytes(bytes_object, endianness)` to convert a bytes object to an integer directly (and in a saner way). Mar 8, 2017 at 7:41
• @Czechnology The integer approach seems to be significantly faster. See my edit. May 4, 2017 at 14:24
• This faster version is a neat discovery. Thanks! Apr 9, 2018 at 8:22
• Both encrypt and encrypt2 function fails to fully encrypt the 'var' if length of 'key' is less than 'var'. For example, the following function calls encrypt2(b'hello world', b'ab' ) will result in only first two characters to be encrypted: b'\t\x07llo world'
– Moiz
Jul 22, 2020 at 21:23
• Adding `if len(key) < len(var): key = key * int(len(var)/len(key) + 1)` before `key = key[:len(var)]` will fix the issue
– Moiz
Jul 22, 2020 at 23:01

It looks like what you need to do is XOR each of the characters in the message with the corresponding character in the key. However, to do that you need a bit of interconversion using `ord` and `chr`, because you can only xor numbers, not strings:

``````>>> encrypted = [ chr(ord(a) ^ ord(b)) for (a,b) in zip(var, key) ]
>>> encrypted
['\x1b', '\x10', '\x1c', '\t', '\x1d']

>>> decrypted = [ chr(ord(a) ^ ord(b)) for (a,b) in zip(encrypted, key) ]
>>> decrypted
['h', 'e', 'l', 'l', 'o']

>>> "".join(decrypted)
'hello'
``````

Note that `binascii.a2b_qp("hello")` just converts a string to another string (though possibly with different encoding).

Your approach, and my code above, will only work if the key is at least as long as the message. However, you can easily repeat the key if required using `itertools.cycle`:

``````>>> from itertools import cycle
>>> var="hello"
>>> key="xy"

>>> encrypted = [ chr(ord(a) ^ ord(b)) for (a,b) in zip(var, cycle(key)) ]
>>> encrypted
['\x10', '\x1c', '\x14', '\x15', '\x17']

>>> decrypted = [ chr(ord(a) ^ ord(b)) for (a,b) in zip(encrypted, cycle(key)) ]
>>> "".join(decrypted)
'hello'
``````

To address the issue of unicode/multi-byte characters (raised in the comments below), one can convert the string (and key) to bytes, zip these together, then perform the XOR, something like:

``````>>> var=u"hello\u2764"
>>> var
'hello❤'

>>> encrypted = [ a ^ b for (a,b) in zip(bytes(var, 'utf-8'),cycle(bytes(key, 'utf-8'))) ]
>>> encrypted
[27, 16, 28, 9, 29, 145, 248, 199]

>>> decrypted = [ a ^ b for (a,b) in zip(bytes(encrypted), cycle(bytes(key, 'utf-8'))) ]
>>> decrypted
[104, 101, 108, 108, 111, 226, 157, 164]

>>> bytes(decrypted)
b'hello\xe2\x9d\xa4'

>>> bytes(decrypted).decode()
'hello❤'
``````
• Thanks! I see I need to just re-do my code really ha.
– Jcov
Apr 2, 2015 at 8:55
• This solution fails to account for the length of the `var` and `key`. If `var` is longer than `key` it will shop off the extra character. Mar 1, 2017 at 14:44
• @mbecker True, though that's what the OP asked for. I will update my answer with a solution to this issue.
– DNA
Mar 1, 2017 at 17:27
• Updated using `itertools.cycle`
– DNA
Mar 1, 2017 at 17:33
• IMO this just underlines how tricky p2 can be for byte operations...the only quick fix I see for this is to double-check that the input is a str not a unicode e.g. `if not isinstance(var, str) or not isinstance(key, str)`
– Hamy
Sep 25, 2017 at 23:04

You can use Numpy to perform faster

``````import numpy as np
def encrypt(var, key):
a = np.frombuffer(var, dtype = np.uint8)
b = np.frombuffer(key, dtype = np.uint8)
return (a^b).tobytes()
``````