I'm trying to implement RC4 and DH key exchange in python. Problem is that I have no idea about how to convert the python long/int from the key exchange to the byte array I need for the RC4 implementation. Is there a simple way to convert a long to the required length byte array?

Update: forgot to mention that the numbers I'm dealing with are 768 bit unsigned integers.


10 Answers 10


With Python 3.2 and later, you can use int.to_bytes and int.from_bytes: https://docs.python.org/3/library/stdtypes.html#int.to_bytes

  • 11
    It OverflowError's out on big numbers. Commented Jul 25, 2020 at 7:45

Everyone has overcomplicated this answer:

some_int = <256 bit integer>
some_bytes = some_int.to_bytes(32, sys.byteorder)
my_bytearray = bytearray(some_bytes)

You just need to know the number of bytes that you are trying to convert. In my use cases, normally I only use this large of numbers for crypto, and at that point I have to worry about modulus and what-not, so I don't think this is a big problem to be required to know the max number of bytes to return.

Since you are doing it as 768-bit math, then instead of 32 as the argument it would be 96.

  • 1
    In Python 3 this solution worked really well for 2048 bit integer. It Python 2.7 it works only for int (2048 bit integer is long in Python 2.7).
    – desowin
    Commented May 21, 2016 at 13:50
  • 6
    In Python 2.7 some_bytes = some_int.to_bytes(32, sys.byteorder) produces error AttributeError: 'int' object has no attribute 'to_bytes' 😞
    – oHo
    Commented Aug 9, 2017 at 13:07
  • 1
    Not quite everyone... see the answer by @JackOConnor
    – Anonymous
    Commented Feb 19, 2020 at 23:11

I haven't done any benchmarks, but this recipe "works for me".

The short version: use '%x' % val, then unhexlify the result. The devil is in the details, though, as unhexlify requires an even number of hex digits, which %x doesn't guarantee. See the docstring, and the liberal inline comments for details.

from binascii import unhexlify

def long_to_bytes (val, endianness='big'):
    Use :ref:`string formatting` and :func:`~binascii.unhexlify` to
    convert ``val``, a :func:`long`, to a byte :func:`str`.

    :param long val: The value to pack

    :param str endianness: The endianness of the result. ``'big'`` for
      big-endian, ``'little'`` for little-endian.

    If you want byte- and word-ordering to differ, you're on your own.

    Using :ref:`string formatting` lets us use Python's C innards.

    # one (1) hex digit per four (4) bits
    width = val.bit_length()

    # unhexlify wants an even multiple of eight (8) bits, but we don't
    # want more digits than we need (hence the ternary-ish 'or')
    width += 8 - ((width % 8) or 8)

    # format width specifier: four (4) bits per hex digit
    fmt = '%%0%dx' % (width // 4)

    # prepend zero (0) to the width, to zero-pad the output
    s = unhexlify(fmt % val)

    if endianness == 'little':
        # see http://stackoverflow.com/a/931095/309233
        s = s[::-1]

    return s

...and my nosetest unit tests ;-)

class TestHelpers (object):
    def test_long_to_bytes_big_endian_small_even (self):
        s = long_to_bytes(0x42)
        assert s == '\x42'

        s = long_to_bytes(0xFF)
        assert s == '\xff'

    def test_long_to_bytes_big_endian_small_odd (self):
        s = long_to_bytes(0x1FF)
        assert s == '\x01\xff'

        s = long_to_bytes(0x201FF)
        assert s == '\x02\x01\xff'

    def test_long_to_bytes_big_endian_large_even (self):
        s = long_to_bytes(0xab23456c8901234567)
        assert s == '\xab\x23\x45\x6c\x89\x01\x23\x45\x67'

    def test_long_to_bytes_big_endian_large_odd (self):
        s = long_to_bytes(0x12345678901234567)
        assert s == '\x01\x23\x45\x67\x89\x01\x23\x45\x67'

    def test_long_to_bytes_little_endian_small_even (self):
        s = long_to_bytes(0x42, 'little')
        assert s == '\x42'

        s = long_to_bytes(0xFF, 'little')
        assert s == '\xff'

    def test_long_to_bytes_little_endian_small_odd (self):
        s = long_to_bytes(0x1FF, 'little')
        assert s == '\xff\x01'

        s = long_to_bytes(0x201FF, 'little')
        assert s == '\xff\x01\x02'

    def test_long_to_bytes_little_endian_large_even (self):
        s = long_to_bytes(0xab23456c8901234567, 'little')
        assert s == '\x67\x45\x23\x01\x89\x6c\x45\x23\xab'

    def test_long_to_bytes_little_endian_large_odd (self):
        s = long_to_bytes(0x12345678901234567, 'little')
        assert s == '\x67\x45\x23\x01\x89\x67\x45\x23\x01'
  • 1
    I encountered problems when the value is 0 (Python 3.5) binascii.Error: Odd-length string, quick fix for this: replace s = unhexlify(fmt % val) with s = unhexlify('00') if fmt % val == '0' else unhexlify(fmt % val)
    – Kevin
    Commented Nov 30, 2016 at 14:05
  • This is more concise. pastebin.com/iQRXyxsM Commented Jul 25, 2020 at 7:46



The 192 is 768 / 4, because OP wanted 768-bit numbers and there are 4 bits in a hex digit. If you need a bigger bytearray use a format string with a higher number. Example:

>>> big_int = 911085911092802609795174074963333909087482261102921406113936886764014693975052768158290106460018649707059449553895568111944093294751504971131180816868149233377773327312327573120920667381269572962606994373889233844814776702037586419
>>> bytearray.fromhex('{:0192x}'.format(big_int))
>>> lepi_int = 0x963b685edb4a8f336f624c9cc2b02d9ea4536a2df669c19e9794854d1d93105c81c289cde061c0448176dfeda9c18370db55f1d0fe5229ce07de704d88cc7f765c1c8d69874e008da8bd5b3cdfaf137a3a48edc229a41e0fa792a7c61686f1f
>>> bytearray.fromhex('{:0192x}'.format(lepi_int))

[My answer had used hex() before. I corrected it with format() in order to handle ints with odd-sized byte expressions. This fixes previous complaints about ValueError.]

  • it does not work if you don't produce a Long though. I think smt like bytearray.fromhex(hex(2**61-1).strip('0x').strip('L')) is safer Commented Jul 7, 2014 at 9:30
  • @MarioAlemi the code in your comment is wrong. strip('0x') will also strip the trailing zeros, which will result bad result (and sometimes ValueError)!
    – Lepi
    Commented Dec 5, 2014 at 18:07
  • 2
    @Jess Austin: Your solution is totally wrong, because it works only when x consists of even number of hex-digits. Example: x=0x963b685edb4a8f336f624c9cc2b02d9ea4536a2df669c19e9794854d1d93105c81c289cde061c0448176dfeda9c18370db55f1d0fe5229ce07de704d88cc7f765c1c8d69874e008da8bd5b3cdfaf137a3a48edc229a41e0fa792a7c61686f1fL
    – Lepi
    Commented Dec 5, 2014 at 18:26
  • @lepi can you make an example? Commented Dec 21, 2014 at 17:23
  • 1
    Right, I was just trying to point out that if you change the 192 in the format string to 191 (or to any odd number), you will get a ValueError. Just something that tripped me up.
    – Justin
    Commented Apr 10, 2018 at 13:04

long/int to the byte array looks like exact purpose of struct.pack. For long integers that exceed 4(8) bytes, you can come up with something like the next:

>>> limit = 256*256*256*256 - 1
>>> i = 1234567890987654321
>>> parts = []
>>> while i:
        parts.append(i & limit)
        i >>= 32

>>> struct.pack('>' + 'L'*len(parts), *parts )

>>> struct.unpack('>LL', '\xb1l\x1c\xb1\x11"\x10\xf4')
(2976652465L, 287445236)
>>> (287445236L << 32) + 2976652465L
  • 4
    But it won't help with big numbers (> 8 bytes), which will usually be used for cryptographic applications.
    – interjay
    Commented Jan 4, 2012 at 17:48
  • it's written not to be generic but more like fixed size solution to common problem of representing all possible ip's or similar... Commented Sep 8, 2016 at 21:38

You can try using struct:

import struct
  • 2
    Sadly no, error: integer out of range for 'L' format code. It's a 768 bit long, which is quite a bit bigger than the 4 byte unsigned int.
    – cdecker
    Commented Jan 4, 2012 at 18:14
  • 1
    Downvoted because Python long int are arbitrarily long integers. Think of it like an array of 32 (or whatever) bits integers. A C long is a size defined datatype. With this response, you are confusing both.
    – Havok
    Commented Jan 15, 2016 at 22:04

Little-endian, reverse the result or the range if you want Big-endian:

def int_to_bytes(val, num_bytes):
    return [(val & (0xff << pos*8)) >> pos*8 for pos in range(num_bytes)]


def int_to_bytes(val, num_bytes):
    return [(val & (0xff << pos*8)) >> pos*8 for pos in reversed(range(num_bytes))]

Basically what you need to do is convert the int/long into its base 256 representation -- i.e. a number whose "digits" range from 0-255. Here's a fairly efficient way to do something like that:

def base256_encode(n, minwidth=0): # int/long to byte array
    if n > 0:
        arr = []
        while n:
            n, rem = divmod(n, 256)
        b = bytearray(reversed(arr))
    elif n == 0:
        b = bytearray(b'\x00')
        raise ValueError

    if minwidth > 0 and len(b) < minwidth: # zero padding needed?
        b = (minwidth-len(b)) * '\x00' + b
    return b

You many not need thereversed()call depending on the endian-ness desired (doing so would require the padding to be done differently as well). Also note that as written it doesn't handle negative numbers.

You might also want to take a look at the similar but highly optimized long_to_bytes() function in thenumber.pymodule which is part of the open source Python Cryptography Toolkit. It actually converts the number into a string, not a byte array, but that's a minor issue.


Python 2.7 does not implement the int.to- very slow_bytes() method.

I tried 3 methods:

  1. hex unpack/pack : very slow
  2. byte shifting 8 bits at a time: significantly faster.
  3. using a "C" module and packing into the lower (7 ia64 or 3 i32) bytes. This was about twice as fast as 2/ . It is the fastest option, but still too slow.

All these methods are very inefficient for two reasons:

  • Python 2.7 does not support this useful operation.
  • c does not support extended precision arithmetic using the carry/borrow/overflow flags available on most platforms.
i = 0x12345678
s = struct.pack('<I',i)
b = struct.unpack('BBBB',s)

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