Merge pull request #2262 from intgr/special-issuer-for-selfsigned-certs

Use special issuer values <selfsigned> and <unknown> in special cases
This commit is contained in:
Hossein Shafagh 2019-02-11 16:37:27 -08:00 committed by GitHub
commit c79d9c7051
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
6 changed files with 81 additions and 4 deletions

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@ -3,6 +3,8 @@ import unicodedata
from cryptography import x509
from flask import current_app
from lemur.common.utils import is_selfsigned
from lemur.extensions import sentry
from lemur.constants import SAN_NAMING_TEMPLATE, DEFAULT_NAMING_TEMPLATE
@ -229,15 +231,22 @@ def issuer(cert):
"""
Gets a sane issuer slug from a given certificate, stripping non-alphanumeric characters.
:param cert:
For self-signed certificates, the special value '<selfsigned>' is returned.
If issuer cannot be determined, '<unknown>' is returned.
:param cert: Parsed certificate object
:return: Issuer slug
"""
# If certificate is self-signed, we return a special value -- there really is no distinct "issuer" for it
if is_selfsigned(cert):
return '<selfsigned>'
# Try Common Name or fall back to Organization name
attrs = (cert.issuer.get_attributes_for_oid(x509.OID_COMMON_NAME) or
cert.issuer.get_attributes_for_oid(x509.OID_ORGANIZATION_NAME))
if not attrs:
current_app.logger.error("Unable to get issuer! Cert serial {:x}".format(cert.serial_number))
return "Unknown"
return '<unknown>'
return text_to_slug(attrs[0].value, '')

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@ -11,9 +11,10 @@ import string
import sqlalchemy
from cryptography import x509
from cryptography.exceptions import InvalidSignature, UnsupportedAlgorithm
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives import hashes
from cryptography.hazmat.primitives.asymmetric import rsa, ec
from cryptography.hazmat.primitives.asymmetric import rsa, ec, padding
from cryptography.hazmat.primitives.serialization import load_pem_private_key
from flask_restful.reqparse import RequestParser
from sqlalchemy import and_, func
@ -143,6 +144,40 @@ def generate_private_key(key_type):
)
def check_cert_signature(cert, issuer_public_key):
"""
Check a certificate's signature against an issuer public key.
On success, returns None; on failure, raises UnsupportedAlgorithm or InvalidSignature.
"""
if isinstance(issuer_public_key, rsa.RSAPublicKey):
# RSA requires padding, just to make life difficult for us poor developers :(
if cert.signature_algorithm_oid == x509.SignatureAlgorithmOID.RSASSA_PSS:
# In 2005, IETF devised a more secure padding scheme to replace PKCS #1 v1.5. To make sure that
# nobody can easily support or use it, they mandated lots of complicated parameters, unlike any
# other X.509 signature scheme.
# https://tools.ietf.org/html/rfc4056
raise UnsupportedAlgorithm("RSASSA-PSS not supported")
else:
padder = padding.PKCS1v15()
issuer_public_key.verify(cert.signature, cert.tbs_certificate_bytes, padder, cert.signature_hash_algorithm)
else:
# EllipticCurvePublicKey or DSAPublicKey
issuer_public_key.verify(cert.signature, cert.tbs_certificate_bytes, cert.signature_hash_algorithm)
def is_selfsigned(cert):
"""
Returns True if the certificate is self-signed.
Returns False for failed verification or unsupported signing algorithm.
"""
try:
check_cert_signature(cert, cert.public_key())
# If verification was successful, it's self-signed.
return True
except InvalidSignature:
return False
def is_weekend(date):
"""
Determines if a given date is on a weekend.

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@ -3,6 +3,8 @@ import os
import datetime
import pytest
from cryptography import x509
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives import hashes
from flask import current_app
from flask_principal import identity_changed, Identity
@ -263,6 +265,12 @@ def cert_builder(private_key):
.not_valid_after(datetime.datetime(2040, 1, 1)))
@pytest.fixture
def selfsigned_cert(cert_builder, private_key):
# cert_builder uses the same cert public key as 'private_key'
return cert_builder.sign(private_key, hashes.SHA256(), default_backend())
@pytest.fixture(scope='function')
def aws_credentials():
os.environ['AWS_ACCESS_KEY_ID'] = 'testing'

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@ -81,6 +81,13 @@ def test_create_name(client):
datetime(2015, 5, 12, 0, 0, 0),
False
) == 'xn--mnchen-3ya.de-VertrauenswurdigAutoritat-20150507-20150512'
assert certificate_name(
'selfie.example.org',
'<selfsigned>',
datetime(2015, 5, 7, 0, 0, 0),
datetime(2025, 5, 12, 13, 37, 0),
False
) == 'selfie.example.org-selfsigned-20150507-20250512'
def test_issuer(client, cert_builder, issuer_private_key):
@ -106,4 +113,9 @@ def test_issuer(client, cert_builder, issuer_private_key):
cert = (cert_builder
.issuer_name(x509.Name([]))
.sign(issuer_private_key, hashes.SHA256(), default_backend()))
assert issuer(cert) == 'Unknown'
assert issuer(cert) == '<unknown>'
def test_issuer_selfsigned(selfsigned_cert):
from lemur.common.defaults import issuer
assert issuer(selfsigned_cert) == '<selfsigned>'

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@ -1,5 +1,7 @@
import pytest
from lemur.tests.vectors import SAN_CERT, INTERMEDIATE_CERT, ROOTCA_CERT
def test_generate_private_key():
from lemur.common.utils import generate_private_key
@ -71,3 +73,13 @@ KFfxwrO1
-----END CERTIFICATE-----'''
authority_key = get_authority_key(test_cert)
assert authority_key == 'feacb541be81771293affa412d8dc9f66a3ebb80'
def test_is_selfsigned(selfsigned_cert):
from lemur.common.utils import is_selfsigned
assert is_selfsigned(selfsigned_cert) is True
assert is_selfsigned(SAN_CERT) is False
assert is_selfsigned(INTERMEDIATE_CERT) is False
# Root CA certificates are also technically self-signed
assert is_selfsigned(ROOTCA_CERT) is True

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@ -45,6 +45,7 @@ ssvobJ6Xe2D4cCVjUmsqtFEztMgdqgmlcWyGdUKeXdi7CMoeTb4uO+9qRQq46wYW
n7K1z+W0Kp5yhnnPAoOioAP4vjASDx3z3RnLaZvMmcO7YdCIwhE5oGV0
-----END CERTIFICATE-----
"""
ROOTCA_CERT = parse_certificate(ROOTCA_CERT_STR)
ROOTCA_KEY = """\
-----BEGIN RSA PRIVATE KEY-----
MIIEowIBAAKCAQEAvyVpe0tfIzri3l3PYH2r7hW86wKF58GLY+Ua52rEO5E3eXQq