freeipa/ipatests/create_external_ca.py

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#
# Copyright (C) 2017 FreeIPA Contributors see COPYING for license
#
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function
import argparse
from cryptography import x509
from cryptography.x509.oid import NameOID
from cryptography.hazmat.primitives import hashes
from cryptography.hazmat.primitives.asymmetric import rsa
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives import serialization
import datetime
ISSUER_CN = 'example.test'
class ExternalCA:
"""Provide external CA for testing
"""
def __init__(self, days=365, key_size=None):
self.now = datetime.datetime.now(tz=datetime.UTC)
self.delta = datetime.timedelta(days=days)
self.ca_key = None
self.ca_public_key = None
self.issuer = None
self.key_size = key_size or 2048
def create_ca_key(self):
"""Create private and public key for CA
Note: The test still creates 2048 although IPA CA uses 3072 bit RSA
by default. This also tests that IPA supports an external signing CA
with weaker keys than the IPA base CA.
"""
self.ca_key = rsa.generate_private_key(
public_exponent=65537,
key_size=self.key_size,
backend=default_backend(),
)
self.ca_public_key = self.ca_key.public_key()
def sign(self, builder):
return builder.sign(
private_key=self.ca_key,
algorithm=hashes.SHA256(),
backend=default_backend(),
)
def create_ca(self, cn=ISSUER_CN, path_length=None, extensions=()):
"""Create root CA.
:returns: bytes -- Root CA in PEM format.
"""
if self.ca_key is None:
self.create_ca_key()
subject = self.issuer = x509.Name([
x509.NameAttribute(NameOID.COMMON_NAME, str(cn)),
])
builder = x509.CertificateBuilder()
builder = builder.subject_name(subject)
builder = builder.issuer_name(self.issuer)
builder = builder.public_key(self.ca_public_key)
builder = builder.serial_number(x509.random_serial_number())
builder = builder.not_valid_before(self.now)
builder = builder.not_valid_after(self.now + self.delta)
builder = builder.add_extension(
x509.KeyUsage(
digital_signature=False,
content_commitment=False,
key_encipherment=False,
data_encipherment=False,
key_agreement=False,
key_cert_sign=True,
crl_sign=True,
encipher_only=False,
decipher_only=False,
),
critical=True,
)
builder = builder.add_extension(
x509.BasicConstraints(ca=True, path_length=path_length),
critical=True,
)
builder = builder.add_extension(
x509.SubjectKeyIdentifier.from_public_key(self.ca_public_key),
critical=False,
)
builder = builder.add_extension(
x509.AuthorityKeyIdentifier.from_issuer_public_key(
self.ca_public_key
),
critical=False,
)
for extension in extensions:
builder = builder.add_extension(extension, critical=False)
cert = builder.sign(self.ca_key, hashes.SHA256(), default_backend())
return cert.public_bytes(serialization.Encoding.PEM)
def sign_csr(self, ipa_csr, path_length=1):
"""Sign certificate CSR.
:param ipa_csr: CSR in PEM format.
:type ipa_csr: bytes.
:returns: bytes -- Signed CA in PEM format.
"""
csr_tbs = x509.load_pem_x509_csr(ipa_csr, default_backend())
csr_public_key = csr_tbs.public_key()
csr_subject = csr_tbs.subject
builder = x509.CertificateBuilder()
builder = builder.public_key(csr_public_key)
builder = builder.subject_name(csr_subject)
builder = builder.serial_number(x509.random_serial_number())
builder = builder.issuer_name(self.issuer)
builder = builder.not_valid_before(self.now)
builder = builder.not_valid_after(self.now + self.delta)
builder = builder.add_extension(
x509.KeyUsage(
digital_signature=False,
content_commitment=False,
key_encipherment=False,
data_encipherment=False,
key_agreement=False,
key_cert_sign=True,
crl_sign=True,
encipher_only=False,
decipher_only=False,
),
critical=True,
)
builder = builder.add_extension(
x509.SubjectKeyIdentifier.from_public_key(csr_public_key),
critical=False,
)
builder = builder.add_extension(
x509.AuthorityKeyIdentifier.from_issuer_public_key(
self.ca_public_key
),
critical=False,
)
builder = builder.add_extension(
x509.BasicConstraints(ca=True, path_length=path_length),
critical=True,
)
cert = self.sign(builder)
return cert.public_bytes(serialization.Encoding.PEM)
def main():
IPA_CSR = '/root/ipa.csr'
ROOT_CA = '/tmp/rootca.pem'
IPA_CA = '/tmp/ipaca.pem'
parser = argparse.ArgumentParser("Create external CA")
parser.add_argument(
'--csr', type=argparse.FileType('rb'), default=IPA_CSR,
help="Path to ipa.csr (default: {})".format(IPA_CSR)
)
parser.add_argument(
'--rootca', type=argparse.FileType('wb'), default=ROOT_CA,
help="New root CA file (default: {})".format(ROOT_CA)
)
parser.add_argument(
'--ipaca', type=argparse.FileType('wb'), default=IPA_CA,
help="New IPA CA file (default: {})".format(ROOT_CA)
)
args = parser.parse_args()
with args.csr as f:
ipa_csr = f.read()
external_ca = ExternalCA()
root_ca = external_ca.create_ca()
ipa_ca = external_ca.sign_csr(ipa_csr)
with args.rootca as f:
f.write(root_ca)
with args.ipaca as f:
f.write(ipa_ca)
o = "ipa-server-install --external-cert-file={} --external-cert-file={}"
print(o.format(args.rootca.name, args.ipaca.name))
if __name__ == '__main__':
main()