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iwd/tools/ios_convert.py

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#!/usr/bin/python3
import subprocess
import sys
import os
import argparse
from xml.etree import ElementTree
class Network:
def __init__(self):
self.eap_types = []
self.outer_id = None
self.inner_eap = None
self.nai_realms = []
self.cert_path = None
self.is_hotspot = False
self.username = None
self.password = None
self.ssid = None
self.display_name = None
self.tls_trusted_servers = []
def process_eap_config(eap_conf, network):
for m in range(len(eap_conf)):
if eap_conf[m].text == "AcceptEAPTypes":
tarray = eap_conf[m + 1]
for i in range(len(tarray)):
network.eap_types.append(tarray[i].text)
elif eap_conf[m].text == "TTLSInnerAuthentication":
network.inner_eap = eap_conf[m + 1].text
elif eap_conf[m].text == "OuterIdentity":
network.outer_id = eap_conf[m + 1].text
elif eap_conf[m].text == "UserName" and args.user:
network.username = eap_conf[m + 1].text
elif eap_conf[m].text == "UserPassword" and args.passwd:
network.password = eap_conf[m + 1].text
elif eap_conf[m].text == "TLSTrustedServerNames":
tarray = eap_conf[m + 1]
for i in range(len(tarray)):
network.tls_trusted_servers.append(tarray[i].text)
def process_payload_array(parray):
network = Network()
for l in range(len(parray)):
if parray[l].text == "NAIRealmNames":
nai_array = parray[l + 1]
for i in range(len(nai_array)):
network.nai_realms.append(nai_array[i].text)
continue
elif parray[l].text == "IsHotspot":
if parray[l + 1].tag.lower() == "true":
network.is_hotspot = True
else:
network.is_hotspot = False
elif parray[l].text == "SSID_STR":
network.ssid = parray[l + 1].text
elif parray[l].text == "DisplayedOperatorName":
network.display_name = parray[l + 1].text
elif parray[l].text == "EAPClientConfiguration":
process_eap_config(parray[l + 1], network)
return network
def process_payload(payload):
networks = []
for k in range(len(payload)):
if payload[k].tag != "dict":
continue
n = process_payload_array(payload[k])
if n:
networks.append(n)
return networks
def write_network(network, root_ca_path):
global cert_path
output = ""
eap = None
# TODO: Handle multiple EAP types?
if len(network.eap_types) < 1:
print("Not configuring open network %s" % network.ssid)
return
if network.eap_types[0] == '21':
eap = 'TTLS'
elif network.eap_types[0] == '25':
eap = 'PEAP'
if not eap:
print("TTLS or PEAP config was not found in XML")
return
if not network.inner_eap:
print("No inner EAP method found in XML")
return
if network.is_hotspot and len(network.nai_realms) == 0:
print("No NAI realms found in XML")
return
output = "[Security]\n"
output += "EAP-Method=%s\n" % eap
# Use OuterIdentity if specified. But if not use "anonymous". Some AP's
# do not like an empty identity packet and will timeout.
if network.outer_id:
output += "EAP-Identity=%s\n" % network.outer_id
else:
output += "EAP-Identity=anonymous\n"
if root_ca_path:
output += "EAP-%s-CACert=embed:root_ca\n" % eap
output += "EAP-%s-Phase2-Method=Tunneled-%s\n" % \
(eap, network.inner_eap)
if network.username:
output += "EAP-%s-Phase2-Identity=%s\n" % \
(eap, network.username)
if network.password:
output += "EAP-%s-Phase2-Password=%s\n" % \
(eap, network.password)
if len(network.tls_trusted_servers) > 0:
output += "EAP-%s-ServerDomainMask=" % eap
output += ';'.join(network.tls_trusted_servers)
output += '\n'
if network.display_name:
name = network.display_name
elif network.ssid:
name = network.ssid
else:
name = "NameUnknown"
if network.is_hotspot:
conf_file = iwd_dir + '/hotspot/' + \
name + '.conf'
output += "[Hotspot]\n"
output += "NAIRealmNames="
output += ','.join(network.nai_realms)
output += "\n"
output += "Name=%s\n" % name
else:
conf_file = iwd_dir + '/' + name + '.8021x'
# Some AP's require older protocol versions. There should be no harm in
# setting this all the time.
output += "[EAPoL]\n"
output += "ProtocolVersion=1\n"
output += "\n"
if root_ca_path:
output += "[@pem@root_ca]\n"
with open(root_ca_path) as f:
output += f.read()
print("Provisioning network %s\n" % conf_file)
if args.verbose:
print(output)
with open(conf_file, 'w+') as f:
f.write(output)
def find_root_ca(chain):
def cleanup(certs):
for c in certs:
os.remove(c)
def parse_cert_chain(file):
certs = []
in_cert = False
current = ""
f = open(file, 'r')
for l in f:
if '-----BEGIN CERTIFICATE-----' in l:
if in_cert:
print("invalid BEGIN")
exit()
in_cert = True
elif '-----END CERTIFICATE-----' in l:
if not in_cert:
print("invalid END")
exit()
in_cert = False
current += l
certs.append(current)
current = ""
continue
current += l
return certs
def find_root_ca_path(hash):
path = '/etc/ssl/certs/%s.0' % hash
if os.path.exists(path):
return os.path.realpath(path)
return None
#
# Parse each cert out of the chain.
#
certs = parse_cert_chain(chain)
files = []
subjects = []
self_signed = None
if len(certs) < 1:
print("No certs found")
exit()
#
# Write each cert into an intermediate#.pem file, get subject and see if
# any are self-signed (Root CA). If one is self signed, save this file
# to be used later when verifying the chain.
#
for index, c in enumerate(certs):
with open("/tmp/intermediate" + str(index) + ".pem", 'w+') as f:
f.write(c)
files.append("/tmp/intermediate%d.pem" % index)
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(['openssl', 'x509', '-subject',
'-hash', '-issuer_hash', '-noout', '-in',
'/tmp/intermediate%d.pem' % index],
stdout=subprocess.PIPE, stderr=devnull)
result, err = proc.communicate()
results = result.decode("utf-8").split('\n')
sub = results[0]
own_hash = results[1]
issuer_hash = results[2]
#
# Get rid of "depth=#" openssl output
#
sub = sub[sub.index('C ='):].strip()
subjects.append(sub)
if own_hash == issuer_hash:
self_signed = '/tmp/intermediate%d.pem' % index
#
# Let openssl verify and print the subject of the cert chain. If there
# is a self signed cert we want openssl to bypass looking in the cert
# store (-no-CApath), and provide this CA (-CAfile). Otherwise, let
# openssl verify the chain as usual.
#
if not self_signed:
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(['openssl', 'verify',
'-show_chain', '-untrusted', chain,
'/tmp/intermediate0.pem'],
stdout=subprocess.PIPE, stderr=devnull)
else:
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(['openssl', 'verify',
'-show_chain', '-no-CApath', '-CAfile',
self_signed, '-untrusted', chain,
'/tmp/intermediate0.pem'],
stdout=subprocess.PIPE, stderr=devnull)
results, err = proc.communicate()
results = results.decode("utf-8").strip().split('\n')
#
# We only want lines starting with depth=
#
results = [e for e in results if e.startswith('depth=')]
print("Found %d certs in chain" % len(results))
#
# Get rid of prepended "depth=#"
#
ca_sub = results[-1]
ca_sub = ca_sub[ca_sub.index('C ='):].strip()
#
# The last cert in the chain will either be a Root CA, or issued by a
# Root CA. If we find a matching subject in our previous -show_chain
# command we know there is a Root CA in the chain, if not we need to
# find the Root CA on the system.
#
ca_cert_index = len(results) - 2
for i, sub in enumerate(subjects):
if ca_sub == sub:
print("Root CA found in chain, index=%d" % i)
ca_cert_index = i
#
# Now that we have this last cert, check if its a Root CA or not by
# checking if its hash matches the issuer hash.
#
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(['openssl', 'x509', '-hash',
'-issuer_hash', '-noout', '-in',
'/tmp/intermediate%d.pem' % ca_cert_index],
stdout=subprocess.PIPE, stderr=devnull)
hashes, err = proc.communicate()
hashes = hashes.decode('utf-8').strip().split('\n')
own = hashes[0]
issuer = hashes[1]
if own == issuer:
#
# Since this is a Root CA, we should already have a copy on the
# system. Verify the hash links to a system cert.
#
path = find_root_ca_path(issuer)
if path is not None:
print("Verified Root CA exists: %s" % path)
else:
print("Root CA in chain could not be found on system")
return None
cleanup(files)
return path
print("Root CA not found in cert chain, looking on system")
#
# The final cert in the chain was not a Root CA, check if we have a Root
# CA on the system matching the last certs issuer hash.
#
path = find_root_ca_path(issuer)
if path is None:
print("Could not find issuer %s" % issuer)
return None
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(['openssl', 'x509', '-hash',
'-issuer_hash', '-noout', '-in', path],
stdout=subprocess.PIPE, stderr=devnull)
hashes, err = proc.communicate()
hashes = hashes.decode('utf-8').strip().split('\n')
own = hashes[0]
issuer = hashes[1]
if own == issuer:
path = find_root_ca_path(issuer)
if path is not None:
print("Verified Root CA exists: %s" % path)
else:
print("Root CA could not be found on system")
return None
cleanup(files)
return path
iwd_dir='/var/lib/iwd'
cert_path = None
description = '''
Convert iOS mobileconfig file to IWD format. Currently only TTLS and PEAP are
supported. Inner methods supported are PAP, CHAP, MSCHAP, MSCHAPv2.
'''
parser = argparse.ArgumentParser(description=description)
group = parser.add_mutually_exclusive_group(required=True)
group.add_argument('-i', '--input', nargs='?', metavar='mobileconfig',
help='iOS mobileconfig file')
parser.add_argument('-o', '--iwd-out', nargs='?', metavar='dir',
help='IWD configuration directory (default /var/lib/iwd)')
parser.add_argument('-u', '--user', action='store_true',
help='Store username in provisioning file')
parser.add_argument('-p', '--passwd', action='store_true',
help='Store password (plaintext) in provisioning file')
parser.add_argument('-v', '--verbose', action='store_true',
help='Enable verbose output')
group.add_argument('-x', '--xml', nargs='?',
help='Directly pass XML')
args = parser.parse_args()
if args.iwd_out:
iwd_dir = args.iwd_out
if args.input:
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(['openssl', 'cms', '-in', args.input, '-inform',
'der', '-verify', '-noverify'],
stdout=subprocess.PIPE, stderr=devnull)
xml, err = proc.communicate()
xml = xml.decode('utf-8')
else:
with open(args.xml) as f:
xml = f.read()
if args.verbose:
print(xml)
if args.input:
subprocess.call(['openssl', 'cms', '-in', args.input, '-inform', 'der',
'-outform', 'pem', '-noout', '-cmsout', '-certsout',
'/tmp/certchain.crt'])
root = ElementTree.fromstring(xml)
for i in range(len(root)):
for j in range(len(root[i])):
if root[i][j].text != "PayloadContent":
continue
if (root[i][j + 1].tag != "array"):
continue
payload = root[i][j + 1]
nets = process_payload(payload)
if args.input:
root_ca_path = find_root_ca('/tmp/certchain.crt')
else:
root_ca_path = None
for n in nets:
write_network(n, root_ca_path)