cryptonas-archive/v0.3.4.1/plugins/encrypted_webinterface/encrypted_webinterface.py

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#
# Copyright 2007 sense.lab e.V.
#
# This file is part of the CryptoBox.
#
# The CryptoBox 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 2 of the License, or
# (at your option) any later version.
#
# The CryptoBox 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 the CryptoBox; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
"""Create an SSL certificate to encrypt the webinterface connection via stunnel
requires:
- stunnel (>= 4.0)
- "M2Crypto" python module
"""
__revision__ = "$Id"
import cryptobox.plugins.base
import subprocess
import os
import cherrypy
CERT_FILENAME = 'cryptobox-ssl-certificate.pem'
KEY_BITS = 1024
ISSUER_INFOS = {
"ST": "SomeIssuerState",
"L": "SomeIssuerLocality",
"O": "SomeIssuerOrganization",
"OU": "CryptoBox-ServerIssuer",
"CN": "cryptoboxIssuer",
"emailAddress": "infoIssuer@cryptobox.org"}
CERT_INFOS = {
"ST": "SomeState",
"L": "SomeLocality",
"O": "SomeOrganization",
"OU": "CryptoBox-Server",
"CN": "*",
"emailAddress": "info@cryptobox.org"}
EXPIRE_TIME = 60*60*24*365*20 # 20 years forward and backward
SIGN_DIGEST = "md5"
PID_FILE = os.path.join("/tmp/cryptobox-stunnel.pid")
class encrypted_webinterface(cryptobox.plugins.base.CryptoBoxPlugin):
"""Provide an encrypted webinterface connection via stunnel
"""
plugin_capabilities = [ "system" ]
plugin_visibility = []
request_auth = True
rank = 80
def do_action(self):
"""The action handler.
"""
return None
def get_status(self):
"""Retrieve the current state of the webinterface connection
"""
if self.__is_encrypted():
return "1"
else:
return "0"
def get_warnings(self):
"""check if the connection is encrypted
"""
warnings = []
## check if m2crypto is available
try:
import M2Crypto
except ImportError:
warnings.append((45, "Plugins.%s.MissingModuleM2Crypto" % self.get_name()))
if not os.path.isfile(self.root_action.STUNNEL_BIN):
warnings.append((44, "Plugins.%s.MissingProgramStunnel" % self.get_name()))
if not self.__is_encrypted():
## plaintext connection -> "heavy security risk" (priority=20..39)
warnings.append((25, "Plugins.%s.NoSSL" % self.get_name()))
return warnings
def __is_encrypted(self):
"""perform some checks for encrypted connections
"""
if cherrypy.request.scheme == "https":
return True
## check an environment setting - this is quite common behind proxies
if os.environ.has_key("HTTPS"):
return True
## check if it is a local connection (or via stunnel)
if cherrypy.request.headers.has_key("Remote-Host") \
and (cherrypy.request.headers["Remote-Host"] == "127.0.0.1"):
return True
## the arbitrarily chosen header is documented in README.proxy
if cherrypy.request.headers.has_key("X-SSL-Request") \
and (cherrypy.request.headers["X-SSL-Request"] == "1"):
return True
## it looks like a plain connection
return False
def handle_event(self, event, event_info=None):
"""Create a certificate during startup (if it does not exist) and run stunnel
"""
if event == "bootup":
cert_abs_name = self.cbox.prefs.get_misc_config_filename(CERT_FILENAME)
if not os.path.isfile(cert_abs_name):
try:
cert = self.__get_certificate()
self.cbox.prefs.create_misc_config_file(CERT_FILENAME, cert)
self.cbox.log.info("Created new SSL certificate: %s" % \
cert_abs_name)
## make it non-readable for other users
try:
os.chmod(cert_abs_name, 0600)
except OSError, err_msg:
self.cbox.log.warn("Failed to change permissions of secret " \
+ "certificate file (%s): %s" % \
(cert_abs_name, err_msg))
except IOError, err_msg:
## do not run stunnel without a certificate
self.cbox.log.warn("Failed to create new SSL certificate (%s): %s" \
% (cert_abs_name, err_msg))
return
self.__run_stunnel(cert_abs_name)
elif event == "shutdown":
self.__kill_stunnel()
def __kill_stunnel(self):
"""try to kill a running stunnel daemon
"""
if not os.path.isfile(PID_FILE):
self.cbox.log.warn("Could not find the pid file of a running stunnel " \
+ "daemon: %s" % PID_FILE)
return
try:
pfile = open(PID_FILE, "r")
try:
pid = pfile.read().strip()
except IOError, err_msg:
self.cbox.log.warn("Failed to read the pid file (%s): %s" % (PID_FILE, err_msg))
pfile.close()
return
pfile.close()
except IOError, err_msg:
self.cbox.log.warn("Failed to open the pid file (%s): %s" % (PID_FILE, err_msg))
return
if pid.isdigit():
pid = int(pid)
else:
return
try:
## SIGTERM = 15
os.kill(pid, 15)
self.cbox.log.info("Successfully stopped stunnel")
try:
os.remove(PID_FILE)
except OSError, err_msg:
self.cbox.log.warn("Failed to remove the pid file (%s) of stunnel: %s" \
% (PID_FILE, err_msg))
except OSError, err_msg:
self.cbox.log.warn("Failed to kill stunnel process (PID: %d): %s" % \
(pid, err_msg))
def __run_stunnel(self, cert_name, dest_port=443):
## retrieve currently requested port (not necessarily the port served
## by cherrypy - e.g. in a proxy setup)
request_port = cherrypy.config.get("server.socket_port", 80)
self.cbox.log.debug("[encrypted_webinterface] starting " \
+ "%s on port %s for %s" % \
(self.root_action.STUNNEL_BIN, dest_port, request_port))
proc = subprocess.Popen(
shell = False,
stdout = subprocess.PIPE,
stderr = subprocess.PIPE,
args = [
self.cbox.prefs["Programs"]["super"],
self.cbox.prefs["Programs"]["CryptoBoxRootActions"],
"plugin", os.path.join(self.plugin_dir, "root_action.py"),
cert_name,
str(request_port),
str(dest_port),
PID_FILE ])
(output, error) = proc.communicate()
if proc.returncode == 0:
self.cbox.log.info("Successfully started 'stunnel'")
return True
else:
self.cbox.log.warn("Failed to run 'stunnel': %s" % error)
return False
def __get_certificate(self):
"""Create a self-signed certificate and return its pem content
The code is mainly inspired by:
https://dev.tribler.org/browser/m2crypto/trunk/contrib/SimpleX509create.py
"""
import M2Crypto
import time
string_type = 0x1000 | 1 # see http://www.koders.com/python/..
# ../fid07A99E089F55187896A06CD4E0B6F21B9B8F5B0B.aspx?s=bavaria
key_gen_number = 0x10001 # commonly used for key generation: 65537
rsa_key = M2Crypto.RSA.gen_key(KEY_BITS, key_gen_number, callback=lambda: None)
rsa_key2 = M2Crypto.RSA.gen_key(KEY_BITS, key_gen_number, callback=lambda: None)
pkey = M2Crypto.EVP.PKey(md=SIGN_DIGEST)
pkey.assign_rsa(rsa_key)
sign_key = M2Crypto.EVP.PKey(md=SIGN_DIGEST)
sign_key.assign_rsa(rsa_key2)
subject = M2Crypto.X509.X509_Name()
for (key, value) in CERT_INFOS.items():
subject.add_entry_by_txt(key, string_type, value, -1, -1, 0)
issuer = M2Crypto.X509.X509_Name(M2Crypto.m2.x509_name_new())
for (key, value) in ISSUER_INFOS.items():
issuer.add_entry_by_txt(key, string_type, value, -1, -1, 0)
## time object
asn_time1 = M2Crypto.ASN1.ASN1_UTCTIME()
asn_time1.set_time(long(time.time()) - EXPIRE_TIME)
asn_time2 = M2Crypto.ASN1.ASN1_UTCTIME()
asn_time2.set_time(long(time.time()) + EXPIRE_TIME)
request = M2Crypto.X509.Request()
request.set_subject_name(subject)
request.set_pubkey(pkey)
request.sign(pkey=pkey, md=SIGN_DIGEST)
cert = M2Crypto.X509.X509()
## always create a unique version number
cert.set_version(0)
cert.set_serial_number(long(time.time()))
cert.set_pubkey(pkey)
cert.set_not_before(asn_time1)
cert.set_not_after(asn_time2)
cert.set_subject_name(request.get_subject())
cert.set_issuer_name(issuer)
cert.sign(pkey, SIGN_DIGEST)
result = ""
result += cert.as_pem()
result += pkey.as_pem(cipher=None)
return result