I am adding a go application to an already existing python codebase. I've been having trouble dealing with encryption between the languages. This is using go 1.2.1 and Python 2.7.x / PyCrypto 2.7a1.

Here is the Python sample:

import Crypto.Cipher
import Crypto.Hash.HMAC
import Crypto.Hash.SHA256
import Crypto.PublicKey.RSA
from binascii import hexlify, unhexlify

payload =  unhexlify("abababababababababababababababababababababababababababababababab")
password = unhexlify("0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF")
iv = unhexlify("00000000000000000000000000000000")

print "IV: ", hexlify(iv), "len: ", len(iv)
print "Password length: ", len(password)

cipher = Crypto.Cipher.AES.new(

payload = cipher.encrypt(payload)

print hexlify(payload) #dbf6b1877ba903330cb9cf0c4f530d40bf77fe2bf505820e993741c7f698ad6b

And this is the Go sample:

package main

import (

// encrypt
func main() {
    payload, err1 := hex.DecodeString("abababababababababababababababababababababababababababababababab")
    password, err2 := hex.DecodeString("0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF")
    iv, err3 := hex.DecodeString("00000000000000000000000000000000")

    if err1 != nil {
        fmt.Printf("error 1: %v", err1)

    if err2 != nil {
        fmt.Printf("error 2: %v", err2)

    if err3 != nil {
        fmt.Printf("error 3: %v", err3)

    aesBlock, err4 := aes.NewCipher(password)

    fmt.Printf("IV length:%v\n", len(iv))
    fmt.Printf("password length:%v\n", len(password))

    if err4 != nil {
        fmt.Printf("error 4: %v", err4)

    cfbDecrypter := cipher.NewCFBEncrypter(aesBlock, iv)
    cfbDecrypter.XORKeyStream(payload, payload) 

    fmt.Printf("%v\n", hex.EncodeToString(payload)) // db70cd9e6904359cb848410bfa38d7d0a47b594f7eff72d547d3772c9d4f5dbe

Here is the golang link, I could not find a Python pastebin that had PyCrypto installed.

As suggested by the title & source, the two snippets produce different cyphertext:
Python: dbf6b1877ba903330cb9cf0c4f530d40bf77fe2bf505820e993741c7f698ad6b
Golang: db70cd9e6904359cb848410bfa38d7d0a47b594f7eff72d547d3772c9d4f5dbe

Both languages can decrypt their 'native' cypthertext, but neither can decrypt the others'. Because the python implementation already exists, I'm looking for a solution that will allow Go to decrypt cyphertext encrypted with the example PyCrypto AES settings & key size.


5 Answers 5


Research on the current system has revealed that our python system uses CFB8 (8 bit segments). Go does not support this out of the box, but the source code used in the current CFBDecrypter / CFBEncrypter looks like it can be adapted fairly easily.

  • 7
    don't know if I should upvote you for stating that or downvote for the lost 30 minutes of my life trying to figure this one out :) May 27, 2014 at 22:04
  • 2
    Take solace in the fact that I lost far more than 30 minutes of my life figuring it out :D May 29, 2014 at 0:14
  • Any pointers of what CFB# Go does use? Got a similar issue "translating" from Go to C#. Mar 18, 2017 at 1:55
  • I ended up being able to solve this. Go seems to be using a feedback of 128, but without padding, which C# complains about for size on decryption. Solution: pad the encrypted text yourself to nearest 128B (keep track of how many bytes you appended, simple 0 bytes works), then just remove that padding after decryption. Voila! Mar 18, 2017 at 3:02

If anyone is looking for Go implementation of CFB mode with segment size = 8 you can use this:

import "crypto/cipher"

// CFB stream with 8 bit segment size
// See http://csrc.nist.gov/publications/nistpubs/800-38a/sp800-38a.pdf
type cfb8 struct {
    b         cipher.Block
    blockSize int
    in        []byte
    out       []byte

    decrypt bool

func (x *cfb8) XORKeyStream(dst, src []byte) {
    for i := range src {
        x.b.Encrypt(x.out, x.in)
        copy(x.in[:x.blockSize-1], x.in[1:])
        if x.decrypt {
            x.in[x.blockSize-1] = src[i]
        dst[i] = src[i] ^ x.out[0]
        if !x.decrypt {
            x.in[x.blockSize-1] = dst[i]

// NewCFB8Encrypter returns a Stream which encrypts with cipher feedback mode
// (segment size = 8), using the given Block. The iv must be the same length as
// the Block's block size.
func newCFB8Encrypter(block cipher.Block, iv []byte) cipher.Stream {
    return newCFB8(block, iv, false)

// NewCFB8Decrypter returns a Stream which decrypts with cipher feedback mode
// (segment size = 8), using the given Block. The iv must be the same length as
// the Block's block size.
func newCFB8Decrypter(block cipher.Block, iv []byte) cipher.Stream {
    return newCFB8(block, iv, true)

func newCFB8(block cipher.Block, iv []byte, decrypt bool) cipher.Stream {
    blockSize := block.BlockSize()
    if len(iv) != blockSize {
        // stack trace will indicate whether it was de or encryption
        panic("cipher.newCFB: IV length must equal block size")
    x := &cfb8{
        b:         block,
        blockSize: blockSize,
        out:       make([]byte, blockSize),
        in:        make([]byte, blockSize),
        decrypt:   decrypt,
    copy(x.in, iv)

    return x
  • 2
    I believe that weakens security properties by reducing the cycle length. It also introduces inefficiencies. You should probably use Go's implementation with its full feedback size and fix Python or Mcrypt. Also see Cipher Feedback Mode on the Security Stack Exchange.
    – jww
    Nov 18, 2016 at 14:30
  • 1
    @jww: For new systems, or if you're free to change the encryption scheme of an existing system, I agree. (In fact, I'd go further and suggest that you probably shouldn't use CFB mode at all; you should instead use CTR mode or, better yet, an authenticated encryption mode like SIV.) However, sometimes you do have to interoperate with legacy systems using cipher modes that you cannot change. Aug 17, 2019 at 23:13
  • 1
    Ps. While testing your code for another question, I noticed that your code was broken in encryption mode due to a typo (= src[i] instead of = dst[i]) in XORKeyStream. I've edited your answer to fix it, and it seems to work now (insofar as it now correctly decrypts its own ciphertext, and matches implementations in other languages). Aug 17, 2019 at 23:33

It seems that the cipher can be made compatible to Go's crypto/cipher if we change segment_size of AES object from the default 8 to AES.block_size*8 (which is 128), like this:

  • I got an error: ValueError: Input strings must be a multiple of the segment size 16 in length Aug 27, 2016 at 15:01
  • You need to remember to pad your input Mar 9, 2017 at 20:46
  • There shouldn't technically be any need to pad the input for CFB mode, regardless of the feedback size. But if pycrypto insists on that, you can probably just pad the input with arbitrary bytes and then remove that many bytes from the end of the output after en/decryption. Sep 11, 2019 at 8:38

I found that easiest way to deal with this from Python side is to use M2Crypto library.

Final code looks like:

import M2Crypto.EVP

iv = ciphertext[:16]
ciphertext = ciphertext[16:]

cipher = M2Crypto.EVP.Cipher('aes_256_cfb', t, iv, 0)
text = cipher.update(ciphertext)
print text

Works perfect without need to change something in Go.


i solve by adapt python code like this (golang encode and python decode):

# golang encode
padNum := len(data) % 16
if padNum != 0 {
    for i := 0; i < 16-padNum; i++ {
        data = append(data, ',')

# python decode
cipher = AES.new(key=self.key, mode=AES.MODE_CFB, IV=iv,segment_size=128)

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