gajim-plural/gajim/common/jingle_xtls.py

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# This file is part of Gajim.
#
# Gajim 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; version 3 only.
#
# Gajim 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 Gajim. If not, see <http://www.gnu.org/licenses/>.
import logging
import os
import nbxmpp
from gajim.common import app
from gajim.common import configpaths
log = logging.getLogger('gajim.c.jingle_xtls')
PYOPENSSL_PRESENT = False
# key-exchange id -> [callback, args], accept that session once key-exchange completes
pending_contents = {}
def key_exchange_pend(id_, cb, args):
# args is a list
pending_contents[id_] = [cb, args]
def approve_pending_content(id_):
cb = pending_contents[id_][0]
args = pending_contents[id_][1]
cb(*args)
try:
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import OpenSSL.SSL
PYOPENSSL_PRESENT = True
except ImportError:
log.info("PyOpenSSL not available")
if PYOPENSSL_PRESENT:
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from OpenSSL import SSL, crypto
TYPE_RSA = crypto.TYPE_RSA
TYPE_DSA = crypto.TYPE_DSA
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SELF_SIGNED_CERTIFICATE = 'localcert'
DH_PARAMS = 'dh_params.pem'
DEFAULT_DH_PARAMS = 'dh4096.pem'
def default_callback(connection, certificate, error_num, depth, return_code):
log.info("certificate: %s", certificate)
return return_code
def load_cert_file(cert_path, cert_store=None):
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"""
This is almost identical to the one in nbxmpp.tls_nb
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"""
if not os.path.isfile(cert_path):
return None
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try:
f = open(cert_path)
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except IOError as e:
log.warning('Unable to open certificate file %s: %s', cert_path,
str(e))
return None
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lines = f.readlines()
i = 0
begin = -1
for line in lines:
if 'BEGIN CERTIFICATE' in line:
begin = i
elif 'END CERTIFICATE' in line and begin > -1:
cert = ''.join(lines[begin:i+2])
try:
x509cert = OpenSSL.crypto.load_certificate(
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OpenSSL.crypto.FILETYPE_PEM, cert)
if cert_store:
cert_store.add_cert(x509cert)
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f.close()
return x509cert
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except OpenSSL.crypto.Error as exception_obj:
log.warning('Unable to load a certificate from file %s: %s',
cert_path, exception_obj.args[0][0][2])
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except Exception:
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log.warning('Unknown error while loading certificate from file '
'%s', cert_path)
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begin = -1
i += 1
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f.close()
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def get_context(fingerprint, verify_cb=None, remote_jid=None):
"""
constructs and returns the context objects
"""
ctx = SSL.Context(SSL.SSLv23_METHOD)
flags = (SSL.OP_NO_SSLv2 | SSL.OP_NO_SSLv3 | SSL.OP_SINGLE_DH_USE \
| SSL.OP_NO_TICKET)
ctx.set_options(flags)
ctx.set_cipher_list('HIGH:!aNULL:!3DES')
if fingerprint == 'server': # for testing purposes only
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ctx.set_verify(SSL.VERIFY_NONE|SSL.VERIFY_FAIL_IF_NO_PEER_CERT,
verify_cb or default_callback)
elif fingerprint == 'client':
ctx.set_verify(SSL.VERIFY_PEER, verify_cb or default_callback)
cert_name = os.path.join(configpaths.get('MY_CERT'), SELF_SIGNED_CERTIFICATE)
ctx.use_privatekey_file((cert_name + '.pkey').encode('utf-8'))
ctx.use_certificate_file((cert_name + '.cert').encode('utf-8'))
# Try to load Diffie-Hellman parameters.
# First try user DH parameters, if this fails load the default DH parameters
dh_params_name = os.path.join(configpaths.get('MY_CERT'), DH_PARAMS)
try:
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with open(dh_params_name, "r"):
ctx.load_tmp_dh(dh_params_name.encode('utf-8'))
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except FileNotFoundError as err:
default_dh_params_name = os.path.join(configpaths.get('DATA'),
'other', DEFAULT_DH_PARAMS)
try:
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with open(default_dh_params_name, "r"):
ctx.load_tmp_dh(default_dh_params_name.encode('utf-8'))
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except FileNotFoundError as err:
log.error('Unable to load default DH parameter file: %s, %s',
default_dh_params_name, err)
raise
if remote_jid:
store = ctx.get_cert_store()
path = os.path.join(os.path.expanduser(configpaths.get('MY_PEER_CERTS')),
remote_jid) + '.cert'
if os.path.exists(path):
load_cert_file(path, cert_store=store)
log.debug('certificate file %s loaded fingerprint %s',
path, fingerprint)
return ctx
def read_cert(certpath):
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certificate = ''
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with open(certpath, 'r') as certfile:
for line in certfile.readlines():
if not line.startswith('-'):
certificate += line
return certificate
def send_cert(con, jid_from, sid):
certpath = os.path.join(configpaths.get('MY_CERT'), SELF_SIGNED_CERTIFICATE) + \
'.cert'
certificate = read_cert(certpath)
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iq = nbxmpp.Iq('result', to=jid_from)
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iq.setAttr('id', sid)
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pubkey = iq.setTag('pubkeys')
pubkey.setNamespace(nbxmpp.NS_PUBKEY_PUBKEY)
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keyinfo = pubkey.setTag('keyinfo')
name = keyinfo.setTag('name')
name.setData('CertificateHash')
cert = keyinfo.setTag('x509cert')
cert.setData(certificate)
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con.send(iq)
def handle_new_cert(con, obj, jid_from):
jid = app.get_jid_without_resource(jid_from)
certpath = os.path.join(os.path.expanduser(configpaths.get('MY_PEER_CERTS')), jid)
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certpath += '.cert'
id_ = obj.getAttr('id')
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x509cert = obj.getTag('pubkeys').getTag('keyinfo').getTag('x509cert')
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cert = x509cert.getData()
f = open(certpath, 'w')
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f.write('-----BEGIN CERTIFICATE-----\n')
f.write(cert)
f.write('-----END CERTIFICATE-----\n')
f.close()
approve_pending_content(id_)
def check_cert(jid, fingerprint):
certpath = os.path.join(os.path.expanduser(configpaths.get('MY_PEER_CERTS')), jid)
certpath += '.cert'
if os.path.exists(certpath):
cert = load_cert_file(certpath)
if cert:
try:
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digest_algo = cert.get_signature_algorithm().decode('utf-8').\
split('With')[0]
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except AttributeError:
# Old py-OpenSSL is missing get_signature_algorithm
digest_algo = "sha256"
if cert.digest(digest_algo) == fingerprint:
return True
return False
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def send_cert_request(con, to_jid):
iq = nbxmpp.Iq('get', to=to_jid)
id_ = con.connection.getAnID()
iq.setAttr('id', id_)
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pubkey = iq.setTag('pubkeys')
pubkey.setNamespace(nbxmpp.NS_PUBKEY_PUBKEY)
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con.connection.send(iq)
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return str(id_)
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# the following code is partly due to pyopenssl examples
def createKeyPair(type_, bits):
"""
Create a public/private key pair.
Arguments: type_ - Key type, must be one of TYPE_RSA and TYPE_DSA
bits - Number of bits to use in the key
Returns: The public/private key pair in a PKey object
"""
pkey = crypto.PKey()
pkey.generate_key(type_, bits)
return pkey
def createCertRequest(pkey, digest="sha256", **name):
"""
Create a certificate request.
Arguments: pkey - The key to associate with the request
digest - Digestion method to use for signing, default is sha256
**name - The name of the subject of the request, possible
arguments are:
C - Country name
ST - State or province name
L - Locality name
O - Organization name
OU - Organizational unit name
CN - Common name
emailAddress - E-mail address
Returns: The certificate request in an X509Req object
"""
req = crypto.X509Req()
subj = req.get_subject()
for (key, value) in name.items():
setattr(subj, key, value)
req.set_pubkey(pkey)
req.sign(pkey, digest)
return req
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def createCertificate(req, issuerCert, issuerKey, serial, notBefore, notAfter, digest="sha256"):
"""
Generate a certificate given a certificate request.
Arguments: req - Certificate reqeust to use
issuerCert - The certificate of the issuer
issuerKey - The private key of the issuer
serial - Serial number for the certificate
notBefore - Timestamp (relative to now) when the certificate
starts being valid
notAfter - Timestamp (relative to now) when the certificate
stops being valid
digest - Digest method to use for signing, default is sha256
Returns: The signed certificate in an X509 object
"""
cert = crypto.X509()
cert.set_serial_number(serial)
cert.gmtime_adj_notBefore(notBefore)
cert.gmtime_adj_notAfter(notAfter)
cert.set_issuer(issuerCert.get_subject())
cert.set_subject(req.get_subject())
cert.set_pubkey(req.get_pubkey())
cert.sign(issuerKey, digest)
return cert
def make_certs(filepath, CN):
"""
make self signed certificates
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filepath : absolute path of certificate file, will be appended the '.pkey'
and '.cert' extensions
CN : common name
"""
key = createKeyPair(TYPE_RSA, 4096)
req = createCertRequest(key, CN=CN)
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cert = createCertificate(req, req, key, 0, 0, 60*60*24*365*5) # five years
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with open(filepath + '.pkey', 'wb') as f:
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os.chmod(filepath + '.pkey', 0o600)
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f.write(crypto.dump_privatekey(crypto.FILETYPE_PEM, key))
with open(filepath + '.cert', 'wb') as f:
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f.write(crypto.dump_certificate(crypto.FILETYPE_PEM, cert))
if __name__ == '__main__':
make_certs('./selfcert', 'gajim')