I'm trying to create a non-detached signature on python3. I currently have code that does this on python2 with m2crypto, but m2crypto isn't available for python3.

I've been trying rsa, pycrypto and openssl, but haven't seen to find how.

Here's the equivalent OpenSSL command:

openssl smime -sign -signer $CRTFILE -inkey $KEYFILE -outformDER -nodetach

It's the nodetach option that I can't imitate with either rsa, pyopenssl or pycrypto.

Has anyone does this on python3? I'd like to avoid using Popen+openssl as much as possible.


3 Answers 3


It looks like you can achieve this with pyca/cryptography if you do not mind doing some lower-level OpenSSL programming. You can give this a try:

from cryptography import x509
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives import serialization
from cryptography.hazmat.bindings.openssl.binding import Binding

_lib = Binding.lib
_ffi = Binding.ffi

msg = "Hello, World!"

with open('key.pem', 'rb') as key_file:
    private_key = serialization.load_pem_private_key(
        key_file.read(), None, default_backend())

with open('cert.pem', 'rb') as cert_file:
    cert = x509.load_pem_x509_certificate(
        cert_file.read(), default_backend())

bio_in = _lib.BIO_new_mem_buf(msg.encode('utf-8'), len(msg))
pkcs7 = _lib.PKCS7_sign(cert._x509, private_key._evp_pkey, _ffi.NULL, bio_in, 0)

_lib.PEM_write_bio_PKCS7(bio_out, pkcs7)

result_buffer = _ffi.new('char**')
buffer_length = _lib.BIO_get_mem_data(bio_out, result_buffer)
sout = _ffi.buffer(result_buffer[0], buffer_length)[:]


This script is for illustration purposes only and there might be better ways to do it. This approach basically mimics your openssl smime command.

If you do want to go down this path, you will have to look closer at memory management and free up things when you are done. There is a reason why this stuff is called hazmat...


I actually ended up solving this with OpenSSL.crypto, albeit, with some internal methods:

from OpenSSL import crypto

PKCS7_NOSIGS = 0x4  # defined in pkcs7.h

def create_embeded_pkcs7_signature(data, cert, key):
    Creates an embeded ("nodetached") pkcs7 signature.

    This is equivalent to the output of::

        openssl smime -sign -signer cert -inkey key -outform DER -nodetach < data

    :type data: bytes
    :type cert: str
    :type key: str
    """  # noqa: E501

    assert isinstance(data, bytes)
    assert isinstance(cert, str)

        pkey = crypto.load_privatekey(crypto.FILETYPE_PEM, key)
        signcert = crypto.load_certificate(crypto.FILETYPE_PEM, cert)
    except crypto.Error as e:
        raise ValueError('Certificates files are invalid') from e

    bio_in = crypto._new_mem_buf(data)
    pkcs7 = crypto._lib.PKCS7_sign(
        signcert._x509, pkey._pkey, crypto._ffi.NULL, bio_in, PKCS7_NOSIGS
    bio_out = crypto._new_mem_buf()
    crypto._lib.i2d_PKCS7_bio(bio_out, pkcs7)
    signed_data = crypto._bio_to_string(bio_out)

    return signed_data

This is possible using the cryptography package in python 3.

This is the OpenSSL command I was trying to replicate

openssl smime -sign
    -signer cert.crt
    -inkey cert.key
    -certfile intermediate.pem 
    -outform der 
    -in mdm.mobileconfig 
    -out mdm-signed.mobileconfig
import cyptography

with open('cert.crt', 'rb') as fp:
    cert = cryptography.x509.load_pem_x509_certificate(fp.read())

with open('intermediate.pem', 'rb') as fp:
    ca = cryptography.x509.load_pem_x509_certificate(fp.read())

with open('cert.key', 'rb') as fp:            
    key = cryptography.hazmat.primitives.serialization.load_pem_private_key(
        fp.read(), None,

with open('data.bin', 'rb') as fp:
    data = fp.read()

signed_data = cryptography.hazmat.primitives.serialization.pkcs7.PKCS7SignatureBuilder(
        (cert, key, cryptography.hazmat.primitives.hashes.SHA512()),
    cryptography.hazmat.primitives.serialization.Encoding.DER, options=[],

-nodetach is achieved by default with options=[] since openssl adds the detached flag by default.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.