-##
+# ----------------------------------------------------------------------
+# Copyright (c) 2008 Board of Trustees, Princeton University
+#
+# Permission is hereby granted, free of charge, to any person obtaining
+# a copy of this software and/or hardware specification (the "Work") to
+# deal in the Work without restriction, including without limitation the
+# rights to use, copy, modify, merge, publish, distribute, sublicense,
+# and/or sell copies of the Work, and to permit persons to whom the Work
+# is furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be
+# included in all copies or substantial portions of the Work.
+#
+# THE WORK IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
+# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
+# HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
+# WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+# OUT OF OR IN CONNECTION WITH THE WORK OR THE USE OR OTHER DEALINGS
+# IN THE WORK.
+# ----------------------------------------------------------------------
+
+#
# SFA uses two crypto libraries: pyOpenSSL and M2Crypto to implement
# the necessary crypto functionality. Ideally just one of these libraries
# would be used, but unfortunately each of these libraries is independently
# This module exports two classes: Keypair and Certificate.
##
#
-### $Id$
-### $URL$
+
+# Notes on using the openssl command line
+#
+# for verifying the chain in a gid,
+# assuming it is split into pieces p1.pem p2.pem p3.pem
+# you can use openssl to verify the chain using this command
+# openssl verify -verbose -CAfile <(cat p2.pem p3.pem) p1.pem
+# also you can use sfax509 to invoke openssl x509 on all parts of the gid
#
+
+from __future__ import print_function
+
+import functools
import os
import tempfile
import base64
-import traceback
-from OpenSSL import crypto
-import M2Crypto
-from M2Crypto import X509
from tempfile import mkstemp
+
+import OpenSSL
+# M2Crypto is imported on the fly to minimize crashes
+# import M2Crypto
+
+from sfa.util.py23 import PY3
+
+from sfa.util.faults import (CertExpired, CertMissingParent,
+ CertNotSignedByParent)
from sfa.util.sfalogging import logger
-from sfa.util.namespace import urn_to_hrn
-from sfa.util.faults import *
+
+# this tends to generate quite some logs for little or no value
+debug_verify_chain = False
+
+glo_passphrase_callback = None
+
+##
+# A global callback may be implemented for requesting passphrases from the
+# user. The function will be called with three arguments:
+#
+# keypair_obj: the keypair object that is calling the passphrase
+# string: the string containing the private key that's being loaded
+# x: unknown, appears to be 0, comes from pyOpenSSL and/or m2crypto
+#
+# The callback should return a string containing the passphrase.
+
+
+def set_passphrase_callback(callback_func):
+ global glo_passphrase_callback
+
+ glo_passphrase_callback = callback_func
+
+##
+# Sets a fixed passphrase.
+
+
+def set_passphrase(passphrase):
+ set_passphrase_callback(lambda k, s, x: passphrase)
+
+##
+# Check to see if a passphrase works for a particular private key string.
+# Intended to be used by passphrase callbacks for input validation.
+
+
+def test_passphrase(string, passphrase):
+ try:
+ OpenSSL.crypto.load_privatekey(
+ OpenSSL.crypto.FILETYPE_PEM, string, (lambda x: passphrase))
+ return True
+ except:
+ return False
+
def convert_public_key(key):
- keyconvert_path = "/usr/bin/keyconvert"
+ keyconvert_path = "/usr/bin/keyconvert.py"
if not os.path.isfile(keyconvert_path):
- raise IOError, "Could not find keyconvert in %s" % keyconvert_path
+ raise IOError(
+ "Could not find keyconvert in {}".format(keyconvert_path))
# we can only convert rsa keys
if "ssh-dss" in key:
- return None
+ raise Exception("keyconvert: dss keys are not supported")
(ssh_f, ssh_fn) = tempfile.mkstemp()
ssl_fn = tempfile.mktemp()
# that it can be expected to see why it failed.
# TODO: for production, cleanup the temporary files
if not os.path.exists(ssl_fn):
- return None
+ raise Exception(
+ "generated certificate not found. keyconvert may have failed.")
k = Keypair()
try:
k.load_pubkey_from_file(ssl_fn)
+ return k
except:
- traceback.print_exc()
- k = None
-
- # remove the temporary files
- os.remove(ssh_fn)
- os.remove(ssl_fn)
-
- return k
+ logger.log_exc("convert_public_key caught exception")
+ raise
+ finally:
+ # remove the temporary files
+ if os.path.exists(ssh_fn):
+ os.remove(ssh_fn)
+ if os.path.exists(ssl_fn):
+ os.remove(ssl_fn)
##
# Public-private key pairs are implemented by the Keypair class.
# A Keypair object may represent both a public and private key pair, or it
# may represent only a public key (this usage is consistent with OpenSSL).
+
class Keypair:
key = None # public/private keypair
m2key = None # public key (m2crypto format)
# Creates a Keypair object
# @param create If create==True, creates a new public/private key and
# stores it in the object
- # @param string If string!=None, load the keypair from the string (PEM)
- # @param filename If filename!=None, load the keypair from the file
+ # @param string If string != None, load the keypair from the string (PEM)
+ # @param filename If filename != None, load the keypair from the file
def __init__(self, create=False, string=None, filename=None):
if create:
self.load_from_file(filename)
##
- # Create a RSA public/private key pair and store it inside the keypair object
+ # Create a RSA public/private key pair and store it inside the keypair
+ # object
def create(self):
- self.key = crypto.PKey()
- self.key.generate_key(crypto.TYPE_RSA, 1024)
+ self.key = OpenSSL.crypto.PKey()
+ self.key.generate_key(OpenSSL.crypto.TYPE_RSA, 2048)
##
# Save the private key to a file
def save_to_file(self, filename):
open(filename, 'w').write(self.as_pem())
+ self.filename = filename
##
- # Load the private key from a file. Implicity the private key includes the public key.
+ # Load the private key from a file. Implicity the private key includes the
+ # public key.
def load_from_file(self, filename):
+ self.filename = filename
buffer = open(filename, 'r').read()
self.load_from_string(buffer)
##
- # Load the private key from a string. Implicitly the private key includes the public key.
+ # Load the private key from a string. Implicitly the private key includes
+ # the public key.
def load_from_string(self, string):
- self.key = crypto.load_privatekey(crypto.FILETYPE_PEM, string)
- self.m2key = M2Crypto.EVP.load_key_string(string)
+ import M2Crypto
+ if glo_passphrase_callback:
+ self.key = OpenSSL.crypto.load_privatekey(
+ OpenSSL.crypto.FILETYPE_PEM, string,
+ functools.partial(glo_passphrase_callback, self, string))
+ self.m2key = M2Crypto.EVP.load_key_string(
+ string, functools.partial(glo_passphrase_callback,
+ self, string))
+ else:
+ self.key = OpenSSL.crypto.load_privatekey(
+ OpenSSL.crypto.FILETYPE_PEM, string)
+ self.m2key = M2Crypto.EVP.load_key_string(string)
##
# Load the public key from a string. No private key is loaded.
def load_pubkey_from_file(self, filename):
+ import M2Crypto
# load the m2 public key
m2rsakey = M2Crypto.RSA.load_pub_key(filename)
self.m2key = M2Crypto.EVP.PKey()
# create an m2 x509 cert
m2name = M2Crypto.X509.X509_Name()
- m2name.add_entry_by_txt(field="CN", type=0x1001, entry="junk", len=-1, loc=-1, set=0)
+ m2name.add_entry_by_txt(field="CN", type=0x1001,
+ entry="junk", len=-1, loc=-1, set=0)
m2x509 = M2Crypto.X509.X509()
m2x509.set_pubkey(self.m2key)
m2x509.set_serial_number(0)
ASN1.set_time(500)
m2x509.set_not_before(ASN1)
m2x509.set_not_after(ASN1)
+ # x509v3 so it can have extensions
+ # prob not necc since this cert itself is junk but still...
+ m2x509.set_version(2)
junk_key = Keypair(create=True)
- m2x509.sign(pkey=junk_key.get_m2_pkey(), md="sha1")
+ m2x509.sign(pkey=junk_key.get_m2_pubkey(), md="sha1")
# convert the m2 x509 cert to a pyopenssl x509
m2pem = m2x509.as_pem()
- pyx509 = crypto.load_certificate(crypto.FILETYPE_PEM, m2pem)
+ pyx509 = OpenSSL.crypto.load_certificate(
+ OpenSSL.crypto.FILETYPE_PEM, m2pem)
# get the pyopenssl pkey from the pyopenssl x509
self.key = pyx509.get_pubkey()
+ self.filename = filename
##
# Load the public key from a string. No private key is loaded.
# Return the private key in PEM format.
def as_pem(self):
- return crypto.dump_privatekey(crypto.FILETYPE_PEM, self.key)
+ return OpenSSL.crypto.dump_privatekey(
+ OpenSSL.crypto.FILETYPE_PEM, self.key)
##
# Return an M2Crypto key object
- def get_m2_pkey(self):
+ def get_m2_pubkey(self):
+ import M2Crypto
if not self.m2key:
self.m2key = M2Crypto.EVP.load_key_string(self.as_pem())
return self.m2key
# Returns a string containing the public key represented by this object.
def get_pubkey_string(self):
- m2pkey = self.get_m2_pkey()
+ m2pkey = self.get_m2_pubkey()
return base64.b64encode(m2pkey.as_der())
##
def get_openssl_pkey(self):
return self.key
-
##
# Given another Keypair object, return TRUE if the two keys are the same.
return self.as_pem() == pkey.as_pem()
def sign_string(self, data):
- k = self.get_m2_pkey()
+ k = self.get_m2_pubkey()
k.sign_init()
k.sign_update(data)
return base64.b64encode(k.sign_final())
def verify_string(self, data, sig):
- k = self.get_m2_pkey()
+ import M2Crypto
+ k = self.get_m2_pubkey()
k.verify_init()
k.verify_update(data)
return M2Crypto.m2.verify_final(k.ctx, base64.b64decode(sig), k.pkey)
def compute_hash(self, value):
return self.sign_string(str(value))
+ # only informative
+ def get_filename(self):
+ return getattr(self, 'filename', None)
+
+ def dump(self, *args, **kwargs):
+ print(self.dump_string(*args, **kwargs))
+
+ def dump_string(self):
+ result = ""
+ result += "KEYPAIR: pubkey={:>40}...".format(self.get_pubkey_string())
+ filename = self.get_filename()
+ if filename:
+ result += "Filename {}\n".format(filename)
+ return result
+
##
# The certificate class implements a general purpose X509 certificate, making
# use of the appropriate pyOpenSSL or M2Crypto abstractions. It also adds
# When saving a certificate to a file or a string, the caller can choose
# whether to save the parent certificates as well.
+
class Certificate:
- digest = "md5"
+ digest = "sha256"
- cert = None
- issuerKey = None
- issuerSubject = None
- parent = None
+# x509 = None
+# issuerKey = None
+# issuerSubject = None
+# parent = None
+ isCA = None # will be a boolean once set
- separator="-----parent-----"
+ separator = "-----parent-----"
##
# Create a certificate object.
#
+ # @param lifeDays life of cert in days - default is 1825==5 years
# @param create If create==True, then also create a blank X509 certificate.
# @param subject If subject!=None, then create a blank certificate and set
# it's subject name.
# @param string If string!=None, load the certficate from the string.
# @param filename If filename!=None, load the certficiate from the file.
+ # @param isCA If !=None, set whether this cert is for a CA
+
+ def __init__(self, lifeDays=1825, create=False, subject=None, string=None,
+ filename=None, isCA=None):
+ # these used to be defined in the class !
+ self.x509 = None
+ self.issuerKey = None
+ self.issuerSubject = None
+ self.parent = None
- def __init__(self, create=False, subject=None, string=None, filename=None, intermediate=None):
self.data = {}
if create or subject:
- self.create()
+ self.create(lifeDays)
if subject:
self.set_subject(subject)
if string:
if filename:
self.load_from_file(filename)
- if intermediate:
- self.set_intermediate_ca(intermediate)
+ # Set the CA bit if a value was supplied
+ if isCA is not None:
+ self.set_is_ca(isCA)
- ##
# Create a blank X509 certificate and store it in this object.
- def create(self):
- self.cert = crypto.X509()
- self.cert.set_serial_number(3)
- self.cert.gmtime_adj_notBefore(0)
- self.cert.gmtime_adj_notAfter(60*60*24*365*5) # five years
+ def create(self, lifeDays=1825):
+ self.x509 = OpenSSL.crypto.X509()
+ # FIXME: Use different serial #s
+ self.x509.set_serial_number(3)
+ self.x509.gmtime_adj_notBefore(0) # 0 means now
+ self.x509.gmtime_adj_notAfter(
+ lifeDays * 60 * 60 * 24) # five years is default
+ self.x509.set_version(2) # x509v3 so it can have extensions
##
# Given a pyOpenSSL X509 object, store that object inside of this
# certificate object.
def load_from_pyopenssl_x509(self, x509):
- self.cert = x509
+ self.x509 = x509
##
# Load the certificate from a string
def load_from_string(self, string):
# if it is a chain of multiple certs, then split off the first one and
- # load it (support for the ---parent--- tag as well as normal chained certs)
+ # load it (support for the ---parent--- tag as well as normal chained
+ # certs)
+
+ if string is None or string.strip() == "":
+ logger.warn("Empty string in load_from_string")
+ return
string = string.strip()
+ # If it's not in proper PEM format, wrap it
+ if string.count('-----BEGIN CERTIFICATE') == 0:
+ string = '-----BEGIN CERTIFICATE-----'\
+ '\n{}\n-----END CERTIFICATE-----'\
+ .format(string)
- if not string.startswith('-----'):
- string = '-----BEGIN CERTIFICATE-----\n%s\n-----END CERTIFICATE-----' % string
+ # If there is a PEM cert in there, but there is some other text first
+ # such as the text of the certificate, skip the text
+ beg = string.find('-----BEGIN CERTIFICATE')
+ if beg > 0:
+ # skipping over non cert beginning
+ string = string[beg:]
parts = []
if string.count('-----BEGIN CERTIFICATE-----') > 1 and \
- string.count(Certificate.separator) == 0:
- parts = string.split('-----END CERTIFICATE-----',1)
+ string.count(Certificate.separator) == 0:
+ parts = string.split('-----END CERTIFICATE-----', 1)
parts[0] += '-----END CERTIFICATE-----'
else:
parts = string.split(Certificate.separator, 1)
- self.cert = crypto.load_certificate(crypto.FILETYPE_PEM, parts[0])
+ self.x509 = OpenSSL.crypto.load_certificate(
+ OpenSSL.crypto.FILETYPE_PEM, parts[0])
+
+ if self.x509 is None:
+ logger.warn(
+ "Loaded from string but cert is None: {}".format(string))
# if there are more certs, then create a parent and let the parent load
# itself from the remainder of the string
file = open(filename)
string = file.read()
self.load_from_string(string)
+ self.filename = filename
##
# Save the certificate to a string.
#
- # @param save_parents If save_parents==True, then also save the parent certificates.
+ # @param save_parents If save_parents==True,
+ # then also save the parent certificates.
def save_to_string(self, save_parents=True):
- string = crypto.dump_certificate(crypto.FILETYPE_PEM, self.cert)
+ if self.x509 is None:
+ logger.warn("None cert in certificate.save_to_string")
+ return ""
+ string = OpenSSL.crypto.dump_certificate(
+ OpenSSL.crypto.FILETYPE_PEM, self.x509)
+ if PY3 and isinstance(string, bytes):
+ string = string.decode()
if save_parents and self.parent:
string = string + self.parent.save_to_string(save_parents)
return string
##
# Save the certificate to a file.
- # @param save_parents If save_parents==True, then also save the parent certificates.
+ # @param save_parents If save_parents==True,
+ # then also save the parent certificates.
def save_to_file(self, filename, save_parents=True, filep=None):
string = self.save_to_string(save_parents=save_parents)
f = filep
else:
f = open(filename, 'w')
+ if PY3 and isinstance(string, bytes):
+ string = string.decode()
f.write(string)
f.close()
+ self.filename = filename
##
# Save the certificate to a random file in /tmp/
- # @param save_parents If save_parents==True, then also save the parent certificates.
+ # @param save_parents If save_parents==True,
+ # then also save the parent certificates.
def save_to_random_tmp_file(self, save_parents=True):
fp, filename = mkstemp(suffix='cert', text=True)
fp = os.fdopen(fp, "w")
# Sets the issuer private key and name
# @param key Keypair object containing the private key of the issuer
# @param subject String containing the name of the issuer
- # @param cert (optional) Certificate object containing the name of the issuer
+ # @param cert (optional)
+ # Certificate object containing the name of the issuer
def set_issuer(self, key, subject=None, cert=None):
self.issuerKey = key
# it's a mistake to use subject and cert params at the same time
assert(not cert)
if isinstance(subject, dict) or isinstance(subject, str):
- req = crypto.X509Req()
+ req = OpenSSL.crypto.X509Req()
reqSubject = req.get_subject()
- if (isinstance(subject, dict)):
+ if isinstance(subject, dict):
for key in reqSubject.keys():
setattr(reqSubject, key, subject[key])
else:
self.issuerReq = req
if cert:
# if a cert was supplied, then get the subject from the cert
- subject = cert.cert.get_subject()
+ subject = cert.x509.get_subject()
assert(subject)
self.issuerSubject = subject
# Get the issuer name
def get_issuer(self, which="CN"):
- x = self.cert.get_issuer()
+ x = self.x509.get_issuer()
return getattr(x, which)
##
# Set the subject name of the certificate
def set_subject(self, name):
- req = crypto.X509Req()
+ req = OpenSSL.crypto.X509Req()
subj = req.get_subject()
- if (isinstance(name, dict)):
+ if isinstance(name, dict):
for key in name.keys():
setattr(subj, key, name[key])
else:
setattr(subj, "CN", name)
- self.cert.set_subject(subj)
+ self.x509.set_subject(subj)
+
##
# Get the subject name of the certificate
def get_subject(self, which="CN"):
- x = self.cert.get_subject()
+ x = self.x509.get_subject()
return getattr(x, which)
+ ##
+ # Get a pretty-print subject name of the certificate
+ # let's try to make this a little more usable as is makes logs hairy
+ # FIXME: Consider adding 'urn:publicid' and 'uuid' back for GENI?
+ pretty_fields = ['email']
+
+ def filter_chunk(self, chunk):
+ for field in self.pretty_fields:
+ if field in chunk:
+ return " " + chunk
+
+ def pretty_cert(self):
+ message = "[Cert."
+ x = self.x509.get_subject()
+ ou = getattr(x, "OU")
+ if ou:
+ message += " OU: {}".format(ou)
+ cn = getattr(x, "CN")
+ if cn:
+ message += " CN: {}".format(cn)
+ data = self.get_data(field='subjectAltName')
+ if data:
+ message += " SubjectAltName:"
+ counter = 0
+ filtered = [self.filter_chunk(chunk) for chunk in data.split()]
+ message += " ".join([f for f in filtered if f])
+ omitted = len([f for f in filtered if not f])
+ if omitted:
+ message += "..+{} omitted".format(omitted)
+ message += "]"
+ return message
+
+ def pretty_chain(self):
+ message = "{}".format(self.x509.get_subject())
+ parent = self.parent
+ while parent:
+ message += "->{}".format(parent.x509.get_subject())
+ parent = parent.parent
+ return message
+
+ def pretty_name(self):
+ return self.get_filename() or self.pretty_chain()
+
##
# Get the public key of the certificate.
#
def set_pubkey(self, key):
assert(isinstance(key, Keypair))
- self.cert.set_pubkey(key.get_openssl_pkey())
+ self.x509.set_pubkey(key.get_openssl_pkey())
##
# Get the public key of the certificate.
# It is returned in the form of a Keypair object.
def get_pubkey(self):
- m2x509 = X509.load_cert_string(self.save_to_string())
+ import M2Crypto
+ m2x509 = M2Crypto.X509.load_cert_string(self.save_to_string())
pkey = Keypair()
- pkey.key = self.cert.get_pubkey()
+ pkey.key = self.x509.get_pubkey()
pkey.m2key = m2x509.get_pubkey()
return pkey
def set_intermediate_ca(self, val):
- self.intermediate = val
+ return self.set_is_ca(val)
+
+ # Set whether this cert is for a CA.
+ # All signers and only signers should be CAs.
+ # The local member starts unset, letting us check that you only set it once
+ # @param val Boolean indicating whether this cert is for a CA
+ def set_is_ca(self, val):
+ if val is None:
+ return
+
+ if self.isCA is not None:
+ # Can't double set properties
+ raise Exception(
+ "Cannot set basicConstraints CA:?? more than once. "
+ "Was {}, trying to set as {}".format(self.isCA, val))
+
+ self.isCA = val
if val:
self.add_extension('basicConstraints', 1, 'CA:TRUE')
-
-
+ else:
+ self.add_extension('basicConstraints', 1, 'CA:FALSE')
##
- # Add an X509 extension to the certificate. Add_extension can only be called
- # once for a particular extension name, due to limitations in the underlying
- # library.
+ # Add an X509 extension to the certificate. Add_extension can only
+ # be called once for a particular extension name, due to
+ # limitations in the underlying library.
#
# @param name string containing name of extension
# @param value string containing value of the extension
def add_extension(self, name, critical, value):
- ext = crypto.X509Extension (name, critical, value)
- self.cert.add_extensions([ext])
+ oldExtVal = None
+ try:
+ oldExtVal = self.get_extension(name)
+ except:
+ # M2Crypto LookupError when the extension isn't there (yet)
+ pass
+
+ # This code limits you from adding the extension with the same value
+ # The method comment says you shouldn't do this with the same name
+ # But actually it (m2crypto) appears to allow you to do this.
+ if oldExtVal and oldExtVal == value:
+ # don't add this extension again
+ # just do nothing as here
+ return
+ # FIXME: What if they are trying to set with a different value?
+ # Is this ever OK? Or should we raise an exception?
+# elif oldExtVal:
+# raise "Cannot add extension {} which had val {} with new val {}"\
+# .format(name, oldExtVal, value)
+
+ ext = OpenSSL.crypto.X509Extension(name, critical, value)
+ self.x509.add_extensions([ext])
##
# Get an X509 extension from the certificate
def get_extension(self, name):
+
+ import M2Crypto
+ if name is None:
+ return None
+
+ certstr = self.save_to_string()
+ if certstr is None or certstr == "":
+ return None
# pyOpenSSL does not have a way to get extensions
- m2x509 = X509.load_cert_string(self.save_to_string())
+ m2x509 = M2Crypto.X509.load_cert_string(certstr)
+ if m2x509 is None:
+ logger.warn("No cert loaded in get_extension")
+ return None
+ if m2x509.get_ext(name) is None:
+ return None
value = m2x509.get_ext(name).get_value()
+
return value
##
- # Set_data is a wrapper around add_extension. It stores the parameter str in
- # the X509 subject_alt_name extension. Set_data can only be called once, due
- # to limitations in the underlying library.
+ # Set_data is a wrapper around add_extension. It stores the
+ # parameter str in the X509 subject_alt_name extension. Set_data
+ # can only be called once, due to limitations in the underlying
+ # library.
- def set_data(self, str, field='subjectAltName'):
+ def set_data(self, string, field='subjectAltName'):
# pyOpenSSL only allows us to add extensions, so if we try to set the
# same extension more than once, it will not work
- if self.data.has_key(field):
- raise "cannot set ", field, " more than once"
- self.data[field] = str
- self.add_extension(field, 0, str)
+ if field in self.data:
+ raise Exception("Cannot set {} more than once".format(field))
+ self.data[field] = string
+ self.add_extension(field, 0, string)
##
# Return the data string that was previously set with set_data
def get_data(self, field='subjectAltName'):
- if self.data.has_key(field):
+ if field in self.data:
return self.data[field]
try:
return self.data[field]
##
- # Sign the certificate using the issuer private key and issuer subject previous set with set_issuer().
+ # Sign the certificate using the issuer private key and issuer subject
+ # previous set with set_issuer().
def sign(self):
- assert self.cert != None
- assert self.issuerSubject != None
- assert self.issuerKey != None
- self.cert.set_issuer(self.issuerSubject)
- self.cert.sign(self.issuerKey.get_openssl_pkey(), self.digest)
+ logger.debug('certificate.sign')
+ assert self.x509 is not None
+ assert self.issuerSubject is not None
+ assert self.issuerKey is not None
+ self.x509.set_issuer(self.issuerSubject)
+ self.x509.sign(self.issuerKey.get_openssl_pkey(), self.digest)
##
# Verify the authenticity of a certificate.
# @param pkey is a Keypair object representing a public key. If Pkey
# did not sign the certificate, then an exception will be thrown.
- def verify(self, pkey):
+ def verify(self, pubkey):
+ import M2Crypto
# pyOpenSSL does not have a way to verify signatures
- m2x509 = X509.load_cert_string(self.save_to_string())
- m2pkey = pkey.get_m2_pkey()
+ m2x509 = M2Crypto.X509.load_cert_string(self.save_to_string())
+ m2pubkey = pubkey.get_m2_pubkey()
# verify it
- return m2x509.verify(m2pkey)
+ # https://www.openssl.org/docs/man1.1.0/crypto/X509_verify.html
+ # verify returns
+ # 1 if it checks out
+ # 0 if if does not
+ # -1 if it could not be checked 'for some reason'
+ m2result = m2x509.verify(m2pubkey)
+ result = m2result == 1
+ if debug_verify_chain:
+ logger.debug("Certificate.verify: <- {} (m2={}) ({} x {})"
+ .format(result, m2result,
+ self.pretty_cert(), m2pubkey))
+ return result
# XXX alternatively, if openssl has been patched, do the much simpler:
# try:
- # self.cert.verify(pkey.get_openssl_key())
+ # self.x509.verify(pkey.get_openssl_key())
# return 1
# except:
# return 0
##
- # Return True if pkey is identical to the public key that is contained in the certificate.
+ # Return True if pkey is identical to the public key that is
+ # contained in the certificate.
# @param pkey Keypair object
def is_pubkey(self, pkey):
# @param cert certificate object
def is_signed_by_cert(self, cert):
+ logger.debug("Certificate.is_signed_by_cert -> invoking verify")
k = cert.get_pubkey()
result = self.verify(k)
return result
# child. If a parent did not sign a child, then an exception is thrown. If
# the bottom of the recursion is reached and the certificate does not match
# a trusted root, then an exception is thrown.
+ # Also require that parents are CAs.
#
# @param Trusted_certs is a list of certificates that are trusted.
#
- def verify_chain(self, trusted_certs = None):
+ def verify_chain(self, trusted_certs=None):
# Verify a chain of certificates. Each certificate must be signed by
# the public key contained in it's parent. The chain is recursed
# until a certificate is found that is signed by a trusted root.
- # TODO: verify expiration time
- #print "====Verify Chain====="
+ logger.debug("Certificate.verify_chain {}".format(self.pretty_name()))
+ # verify expiration time
+ if self.x509.has_expired():
+ if debug_verify_chain:
+ logger.debug("verify_chain: NO, Certificate {} has expired"
+ .format(self.pretty_cert()))
+ raise CertExpired(self.pretty_cert(), "client cert")
+
# if this cert is signed by a trusted_cert, then we are set
- for trusted_cert in trusted_certs:
- #print "***************"
- # TODO: verify expiration of trusted_cert ?
- #print "CLIENT CERT", self.dump()
- #print "TRUSTED CERT", trusted_cert.dump()
- #print "Client is signed by Trusted?", self.is_signed_by_cert(trusted_cert)
+ for i, trusted_cert in enumerate(trusted_certs, 1):
+ logger.debug("Certificate.verify_chain - trying trusted #{} : {}"
+ .format(i, trusted_cert.pretty_name()))
if self.is_signed_by_cert(trusted_cert):
- return trusted_cert
+ # verify expiration of trusted_cert ?
+ if not trusted_cert.x509.has_expired():
+ if debug_verify_chain:
+ logger.debug("verify_chain: YES."
+ " Cert {} signed by trusted cert {}"
+ .format(self.pretty_name(),
+ trusted_cert.pretty_name()))
+ return trusted_cert
+ else:
+ if debug_verify_chain:
+ logger.debug("verify_chain: NO. Cert {} "
+ "is signed by trusted_cert {}, "
+ "but that signer is expired..."
+ .format(self.pretty_cert(),
+ trusted_cert.pretty_cert()))
+ raise CertExpired("{} signer trusted_cert {}"
+ .format(self.pretty_name(),
+ trusted_cert.pretty_name()))
+ else:
+ logger.debug("verify_chain: not a direct"
+ " descendant of a trusted root")
# if there is no parent, then no way to verify the chain
if not self.parent:
- #print self.get_subject(), "has no parent"
- raise CertMissingParent(self.get_subject())
+ if debug_verify_chain:
+ logger.debug("verify_chain: NO. {} has no parent "
+ "and issuer {} is not in {} trusted roots"
+ .format(self.pretty_name(), self.get_issuer(),
+ len(trusted_certs)))
+ raise CertMissingParent("{}: Issuer {} is not "
+ "one of the {} trusted roots, "
+ "and cert has no parent."
+ .format(self.pretty_name(),
+ self.get_issuer(),
+ len(trusted_certs)))
# if it wasn't signed by the parent...
if not self.is_signed_by_cert(self.parent):
- #print self.get_subject(), "is not signed by parent"
- return CertNotSignedByParent(self.get_subject())
+ if debug_verify_chain:
+ logger.debug("verify_chain: NO. {} is not signed by parent {}"
+ .format(self.pretty_name(),
+ self.parent.pretty_name()))
+ self.save_to_file("/tmp/xxx-capture.pem", save_parents=True)
+ raise CertNotSignedByParent("{}: Parent {}, issuer {}"
+ .format(self.pretty_name(),
+ self.parent.pretty_name(),
+ self.get_issuer()))
+
+ # Confirm that the parent is a CA. Only CAs can be trusted as
+ # signers.
+ # Note that trusted roots are not parents, so don't need to be
+ # CAs.
+ # Ugly - cert objects aren't parsed so we need to read the
+ # extension and hope there are no other basicConstraints
+ if not self.parent.isCA and not (
+ self.parent.get_extension('basicConstraints') == 'CA:TRUE'):
+ logger.warn("verify_chain: cert {}'s parent {} is not a CA"
+ .format(self.pretty_name(), self.parent.pretty_name()))
+ raise CertNotSignedByParent("{}: Parent {} not a CA"
+ .format(self.pretty_name(),
+ self.parent.pretty_name()))
# if the parent isn't verified...
+ if debug_verify_chain:
+ logger.debug("verify_chain: .. {}, -> verifying parent {}"
+ .format(self.pretty_name(),
+ self.parent.pretty_name()))
self.parent.verify_chain(trusted_certs)
return
+
+ # more introspection
+ def get_extensions(self):
+ import M2Crypto
+ # pyOpenSSL does not have a way to get extensions
+ triples = []
+ m2x509 = M2Crypto.X509.load_cert_string(self.save_to_string())
+ nb_extensions = m2x509.get_ext_count()
+ logger.debug("X509 had {} extensions".format(nb_extensions))
+ for i in range(nb_extensions):
+ ext = m2x509.get_ext_at(i)
+ triples.append(
+ (ext.get_name(), ext.get_value(), ext.get_critical(),))
+ return triples
+
+ def get_data_names(self):
+ return self.data.keys()
+
+ def get_all_datas(self):
+ triples = self.get_extensions()
+ for name in self.get_data_names():
+ triples.append((name, self.get_data(name), 'data',))
+ return triples
+
+ # only informative
+ def get_filename(self):
+ return getattr(self, 'filename', None)
+
+ def dump(self, *args, **kwargs):
+ print(self.dump_string(*args, **kwargs))
+
+ def dump_string(self, show_extensions=False):
+ result = ""
+ result += "CERTIFICATE for {}\n".format(self.pretty_cert())
+ result += "Issued by {}\n".format(self.get_issuer())
+ filename = self.get_filename()
+ if filename:
+ result += "Filename {}\n".format(filename)
+ if show_extensions:
+ all_datas = self.get_all_datas()
+ result += " has {} extensions/data attached".format(len(all_datas))
+ for n, v, c in all_datas:
+ if c == 'data':
+ result += " data: {}={}\n".format(n, v)
+ else:
+ result += " ext: {} (crit={})=<<<{}>>>\n".format(n, c, v)
+ return result