Created
November 26, 2016 03:00
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OpenSSL enc compatible script by Python.
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#!python3 | |
"""OpenSSL enc compatible script by Python. | |
""" | |
import sys | |
import os | |
import io | |
import hashlib | |
import binascii | |
import argparse | |
import logging | |
import getpass | |
from Crypto.Cipher import (AES, ARC2, ARC4, Blowfish, CAST, DES, DES3) | |
from Crypto.Cipher.blockalgo import (MODE_ECB, MODE_CBC, MODE_CFB, MODE_OFB, MODE_CTR, MODE_OPENPGP) | |
OPENSSL_ENC_MAGIC = b'Salted__' | |
PKCS5_SALT_LEN = 8 | |
def EVP_BytesToKey(key_length: int, iv_length: int, md, salt: bytes, data: bytes, count: int=1) -> (bytes, bytes): | |
""" | |
Usage: | |
key, iv = EVP_BytesToKey( | |
32, # 256 bits | |
Crypto.Cipher.AES.block_size, | |
hashlib.sha256, | |
salt, | |
password.encode('utf-8'), | |
) | |
See: | |
https://github.com/openssl/openssl/blob/6f0ac0e2f27d9240516edb9a23b7863e7ad02898/crypto/evp/evp_key.c#L74 | |
""" | |
assert data | |
assert salt == b'' or len(salt) == PKCS5_SALT_LEN | |
md_buf = b'' | |
key = b'' | |
iv = b'' | |
# key_length = 32 # type.key_size | |
# iv_length = type.block_size | |
addmd = 0 | |
while key_length > len(key) or iv_length > len(iv): | |
c = md() | |
if addmd: | |
c.update(md_buf) | |
addmd += 1 | |
c.update(data) | |
c.update(salt) | |
md_buf = c.digest() | |
for i in range(1, count): | |
md_buf = md(md_buf) | |
md_buf2 = md_buf | |
if key_length > len(key): | |
key, md_buf2 = key + md_buf2[:key_length - len(key)], md_buf2[key_length - len(key):] | |
if iv_length > len(iv): | |
iv, md_buf2 = iv + md_buf2[:iv_length - len(iv)], md_buf2[iv_length - len(iv):] | |
return key, iv | |
def openssl_enc_encrypt(input: io.BytesIO, output: io.BytesIO, passphrase: bytes, cipher_factory, key_length, block_size, md=hashlib.sha256, salt: bytes=None): | |
if salt is None: | |
# TODO: Python 3.6's secrets module | |
salt = os.urandom(PKCS5_SALT_LEN) | |
key, iv = EVP_BytesToKey(key_length, block_size, md, salt, passphrase) | |
cipher = cipher_factory(key, iv) | |
output.write(OPENSSL_ENC_MAGIC) | |
output.write(salt) | |
padding = b'' | |
while 1: | |
chunk = input.read(cipher.block_size) | |
# PKCS#7 padding method | |
if len(chunk) < cipher.block_size: | |
remaining = cipher.block_size - len(chunk) | |
padding = bytes([remaining] * remaining) | |
output.write(cipher.encrypt(chunk + padding)) | |
if padding: | |
break | |
def openssl_enc_decrypt(input: io.BytesIO, output: io.BytesIO, passphrase: bytes, cipher_factory, key_length, block_size, md=hashlib.sha256): | |
assert input.read(len(OPENSSL_ENC_MAGIC)) == OPENSSL_ENC_MAGIC, 'bad magic number' | |
salt = input.read(PKCS5_SALT_LEN) | |
key, iv = EVP_BytesToKey(key_length, block_size, md, salt, passphrase) | |
cipher = cipher_factory(key, iv) | |
prefetch = chunk = None | |
while 1: | |
chunk = prefetch | |
prefetch = input.read(cipher.block_size) | |
if chunk: | |
chunk = cipher.decrypt(chunk) | |
if not prefetch: | |
chunk = chunk[:-chunk[-1]] | |
output.write(chunk) | |
if not prefetch: | |
break | |
if __name__ == '__main__': | |
# https://github.com/openssl/openssl/blob/master/apps/enc.c | |
# https://wiki.openssl.org/index.php/Command_Line_Utilities#Basic_file | |
parser = argparse.ArgumentParser() | |
parser.add_argument('-in', dest='input', nargs='?', type=argparse.FileType('rb'), default=sys.stdin.buffer, help='Input file') | |
parser.add_argument('-out', dest='output', nargs='?', type=argparse.FileType('wb'), default=sys.stdout.buffer, help='Output file') | |
# {"pass", OPT_PASS, 's', "Passphrase source"}, | |
group = parser.add_mutually_exclusive_group() | |
group.add_argument('-e', dest='encrypt', action='store_true', default=True, help='Encrypt') | |
group.add_argument('-d', dest='encrypt', action='store_false', help='Decrypt') | |
# group = parser.add_mutually_exclusive_group() | |
# group.add_argument('-p', dest='print', action='store_true', help='Print the iv/key') | |
# group.add_argument('-P', dest='print_exit', action='store_true', help='Print the iv/key and exit') | |
group = parser.add_mutually_exclusive_group() | |
group.add_argument('-v', dest='loglevel', action='count', help='Verbose output') | |
group.add_argument('-debug', dest='loglevel', action='store_const', const=4, help='Print debug info') | |
# {"nopad", OPT_NOPAD, '-', "Disable standard block padding"}, | |
# parser.add_argument('-a', '-base64', dest='base64', action='store_true', default=True, help='Base64 encode/decode, depending on encryption flag') | |
# {"A", OPT_UPPER_A, '-', | |
# "Used with -[base64|a] to specify base64 buffer as a single line"}, | |
# {"bufsize", OPT_BUFSIZE, 's', "Buffer size"}, | |
group = parser.add_mutually_exclusive_group() | |
group.add_argument('-k', dest='passphrase', help='Passphrase') | |
group.add_argument('-K', dest='passphrase', type=binascii.a2b_hex, help='Raw key, in hex') | |
group = parser.add_mutually_exclusive_group() | |
group.add_argument('-salt', dest='dummy', action='store_true', help='Use salt in the KDF (default)') | |
group.add_argument('-nosalt', dest='salt', action='store_const', const=b'', help='Do not use salt in the KDF') | |
parser.add_argument('-S', dest='salt', type=binascii.a2b_hex, help='Salt, in hex') | |
# parser.add_argument('-iv', dest='iv', type=binascii.a2b_hex, help='IV in hex') | |
parser.add_argument('-md', dest='md', type=lambda v: functools.partial(hashlib.new, v), default=hashlib.sha256, help='Use specified digest to create a key from the passphrase') | |
group = parser.add_mutually_exclusive_group(required=True) | |
for key_size in AES.key_size: | |
prefix = '-aes-%d' % (key_size * 8, ) | |
group.add_argument(prefix + '-cbc', dest='cipher', action='store_const', const=(lambda key, iv: AES.new(key, MODE_CBC, iv), key_size, AES.block_size)) | |
# -aes-128-ccm | |
group.add_argument(prefix + '-cfb', dest='cipher', action='store_const', const=(lambda key, iv: AES.new(key, MODE_CFB, iv), key_size, AES.block_size)) | |
# -aes-128-cfb1 | |
# -aes-128-cfb8 | |
group.add_argument(prefix + '-ctr', dest='cipher', action='store_const', const=(lambda key, iv: AES.new(key, MODE_CTR, iv), key_size, AES.block_size)) | |
group.add_argument(prefix + '-ecb', dest='cipher', action='store_const', const=(lambda key, iv: AES.new(key, MODE_ECB, iv), key_size, AES.block_size)) | |
# -aes-128-gcm | |
# -aes-128-ocb | |
group.add_argument(prefix + '-ofb', dest='cipher', action='store_const', const=(lambda key, iv: AES.new(key, MODE_OFB, iv), key_size, AES.block_size)) | |
# -aes-128-xts | |
group.add_argument('-aes%d' % (key_size * 8, ), dest='cipher', action='store_const', const=(lambda key, iv: AES.new(key, MODE_CBC, iv), key_size, AES.block_size)) | |
# -aes128-wrap | |
# -bf | |
# -bf-cbc | |
# -bf-cfb | |
# -bf-ecb | |
# -bf-ofb | |
# -blowfish | |
# -camellia-128-cbc | |
# -camellia-128-cfb | |
# -camellia-128-cfb1 | |
# -camellia-128-cfb8 | |
# -camellia-128-ctr | |
# -camellia-128-ecb | |
# -camellia-128-ofb | |
# -camellia-192-cbc | |
# -camellia-192-cfb | |
# -camellia-192-cfb1 | |
# -camellia-192-cfb8 | |
# -camellia-192-ctr | |
# -camellia-192-ecb | |
# -camellia-192-ofb | |
# -camellia-256-cbc | |
# -camellia-256-cfb | |
# -camellia-256-cfb1 | |
# -camellia-256-cfb8 | |
# -camellia-256-ctr | |
# -camellia-256-ecb | |
# -camellia-256-ofb | |
# -camellia128 | |
# -camellia192 | |
# -camellia256 | |
# -cast | |
# -cast-cbc | |
# -cast5-cbc | |
# -cast5-cfb | |
# -cast5-ecb | |
# -cast5-ofb | |
# -chacha20 | |
# -chacha20-poly1305 | |
# -des | |
# -des-cbc | |
# -des-cfb | |
# -des-cfb1 | |
# -des-cfb8 | |
# -des-ecb | |
# -des-ede | |
# -des-ede-cbc | |
# -des-ede-cfb | |
# -des-ede-ecb | |
# -des-ede-ofb | |
# -des-ede3 | |
# -des-ede3-cbc | |
# -des-ede3-cfb | |
# -des-ede3-cfb1 | |
# -des-ede3-cfb8 | |
# -des-ede3-ecb | |
# -des-ede3-ofb | |
# -des-ofb | |
# -des3 | |
# -des3-wrap | |
# -desx | |
# -desx-cbc | |
# -id-aes128-CCM | |
# -id-aes128-GCM | |
# -id-aes128-wrap | |
# -id-aes128-wrap-pad | |
# -id-aes192-CCM | |
# -id-aes192-GCM | |
# -id-aes192-wrap | |
# -id-aes192-wrap-pad | |
# -id-aes256-CCM | |
# -id-aes256-GCM | |
# -id-aes256-wrap | |
# -id-aes256-wrap-pad | |
# -id-smime-alg-CMS3DESwrap | |
# -idea | |
# -idea-cbc | |
# -idea-cfb | |
# -idea-ecb | |
# -idea-ofb | |
# -rc2 | |
# -rc2-128 | |
# -rc2-40 | |
# -rc2-40-cbc | |
# -rc2-64 | |
# -rc2-64-cbc | |
# -rc2-cbc | |
# -rc2-cfb | |
# -rc2-ecb | |
# -rc2-ofb | |
# -rc4 | |
# -rc4-40 | |
# -rc4-hmac-md5 | |
# -seed | |
# -seed-cbc | |
# -seed-cfb | |
# -seed-ecb | |
# -seed-ofb | |
# {"none", OPT_NONE, '-', "Don't encrypt"}, | |
# {"z", OPT_Z, '-', "Use zlib as the 'encryption'"}, | |
arg = parser.parse_args() | |
arg.loglevel = max([logging.CRITICAL, logging.ERROR, logging.WARNING, logging.INFO, logging.DEBUG, logging.NOTSET][arg.loglevel:] + [logging.NOTSET]) | |
if arg.passphrase is None: | |
arg.passphrase = getpass.getpass('password: ') | |
if isinstance(arg.passphrase, str): | |
arg.passphrase = arg.passphrase.encode('utf-8') | |
if arg.encrypt: | |
openssl_enc_encrypt(arg.input, arg.output, arg.passphrase, arg.cipher[0], arg.cipher[1], arg.cipher[2], arg.md, arg.salt) | |
else: | |
openssl_enc_decrypt(arg.input, arg.output, arg.passphrase, arg.cipher[0], arg.cipher[1], arg.cipher[2], arg.md) |
Hey can I use your script?. Will you help me implementing Ruby OpenSSL::Cipher::Cipher.new("AES-128-ECB") In Python ?
This code is converted from OpenSSL.
So, you use this code under OpenSSL's license.
Thanks for this! The only thing is that I got an error when using EPV_BytesToKey stand-alone:
TypeError: object supporting the buffer API required
It's easily solvable by channging line 53 to
md_buf = md(md_buf).digest()
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Hey, is this on MIT or BSD-3 license by any chance?