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mirror of https://git.kernel.org/pub/scm/network/wireless/iwd.git synced 2024-12-22 21:22:37 +01:00
iwd/autotests/util/hlrauc.py
James Prestwood 6a9de526a8 autotest: fix possible hlrauc race condition
The AuthCenter will now wait for the RX thread to start before
continuing with the test.

Also removed the non blocking option and fixed the loop to
handle a blocking recvfrom call.
2018-01-18 14:43:53 -06:00

261 lines
7.5 KiB
Python

import socket
import os
import threading
import sys
import signal
from Crypto.Cipher import AES
class AuthCenter:
'''
Home Location Register (HLR) and Authentication Center (AuC) used for
for retrieving SIM/AKA values. This provides a UDP server that
hostapd can communicate with to obtain SIM values.
'''
def __init__(self, sock_path, config_file):
self._read_config(config_file)
self._socket = socket.socket(socket.AF_UNIX, socket.SOCK_DGRAM)
if os.path.exists(sock_path):
os.unlink(sock_path)
self._socket.bind(sock_path)
self._rxhandle = threading.Thread(target=self._rx_thread)
self._rxhandle.ready = threading.Event()
self._rxhandle.start()
# wait for rx thread to start
self._rxhandle.ready.wait()
def _rx_thread(self):
self._rxhandle.ready.set()
while (True):
try:
data, addr = self._socket.recvfrom(1000)
data = data.decode('ascii')
resp = self._process_data(data)
except OSError:
break
except:
print("Exception:", sys.exc_info()[0])
break
if resp:
self._socket.sendto(bytearray(resp, 'UTF-8'), addr)
def _read_config(self, file):
self._database = {}
with open(file) as f:
for line in f:
if line[0] == '#':
continue
else:
data = line.strip('\n').split(':')
self._database[data[0]] = data[1:]
def _process_data(self, data):
if data[:12] == "SIM-REQ-AUTH":
# SIM requests just return the stored values for the IMSI
imsi, num_chals = data[13:].split(' ')
if not imsi or not num_chals:
return "ERROR"
data = self._database.get(imsi, None)
if not data:
return "ERROR"
response = "SIM-RESP-AUTH %s" % imsi
response += (' ' + ':'.join(data))*int(num_chals)
return response
elif data[:12] == "AKA-REQ-AUTH":
# AKA requests must compute the milenage parameters for the IMSI
imsi = data.split(' ')[1]
data = self._database.get(imsi, None)
if not data:
return "ERROR"
# make sure this is an AKA entry
if len(data) < 4:
return "ERROR"
k, opc, amf, sqn = data
rand = self._bytetostring(os.urandom(16))
response = "AKA-RESP-AUTH %s " % imsi
return response + self._get_milenage(opc, k, rand, sqn, amf)
elif data[:8] == "AKA-AUTS":
# sync error, parse out SQN and reset in database
imsi, auts, rand = data[9:].split(' ')
entry = self._database.get(imsi, None)
if not entry:
return "ERROR"
# make sure this is an AKA entry
if len(entry) < 4:
return "ERROR"
k, opc, amf, sqn = entry
# calculate/set new sequence number
entry[3] = self._resync_autn(opc, k, rand, auts)
self._database[imsi] = entry
return None
def _bytetostring(self, b):
return ''.join(format(x, '02x') for x in b)
def _xor(self, a, b):
ret = bytearray(16)
for i in range(len(a)):
ret[i] = a[i] ^ b[i]
return ret
def _resync_autn(self, opc, k, rand, auts):
opc = bytearray.fromhex(opc)
k = bytearray.fromhex(k)
rand = bytearray.fromhex(rand)
auts = bytearray.fromhex(auts)
new_sqn = bytearray(6)
ak_star = bytearray(6)
temp = self._xor(rand, opc)
aes1 = AES.new(bytes(k), AES.MODE_ECB)
temp = aes1.encrypt(bytes(temp))
temp = bytearray(temp)
out5 = bytearray(16)
for i in range(16):
out5[(i + 4) % 16] = temp[i] ^ opc[i];
out5[15] ^= 8
aes2 = AES.new(bytes(k), AES.MODE_ECB)
out5 = aes2.encrypt(bytes(out5))
out5 = bytearray(out5)
for i in range(6):
ak_star[i] = out5[i] ^ opc[i]
for i in range(6):
new_sqn[i] = auts[i] ^ ak_star[i]
return self._bytetostring(new_sqn)
def _get_milenage(self, opc, k, rand, sqn, amf):
'''
Computes milenage values from OPc, K, RAND, SQN and AMF
Returns a concatenated list (RAND + AUTN + IK + CK + RES) that
will be sent back as the response to the client (hostapd). This
is a python re-write of the function eap_aka_get_milenage() from
src/simutil.c
'''
opc = bytearray.fromhex(opc)
k = bytearray.fromhex(k)
# rand gets returned, so it should be left as a hex string
_rand = bytearray.fromhex(rand)
sqn = bytearray.fromhex(sqn)
amf = bytearray.fromhex(amf)
aes1 = AES.new(bytes(k), AES.MODE_ECB)
tmp1 = self._xor(_rand, opc)
tmp1 = aes1.encrypt(bytes(tmp1))
tmp1 = bytearray(tmp1)
tmp2 = bytearray()
tmp2[0:6] = sqn
tmp2[6:2] = amf
tmp2[9:6] = sqn
tmp2[15:2] = amf
tmp3 = bytearray(16)
for i in range(len(tmp1)):
tmp3[(i + 8) % 16] = tmp2[i] ^ opc[i]
tmp3 = self._xor(tmp3, tmp1)
aes2 = AES.new(bytes(k), AES.MODE_ECB)
tmp1 = aes2.encrypt(bytes(tmp3))
tmp1 = bytearray(tmp1)
tmp1 = self._xor(tmp1, opc)
maca = self._bytetostring(tmp1[0:8])
tmp1 = self._xor(_rand, opc)
aes3 = AES.new(bytes(k), AES.MODE_ECB)
tmp2 = aes3.encrypt(bytes(tmp1))
tmp2 = bytearray(tmp2)
tmp1 = self._xor(tmp2, opc)
tmp1[15] ^= 1
aes4 = AES.new(bytes(k), AES.MODE_ECB)
tmp3 = aes4.encrypt(bytes(tmp1))
tmp3 = bytearray(tmp3)
tmp3 = self._xor(tmp3, opc)
res = self._bytetostring(tmp3[8:16])
ak = self._bytetostring(tmp3[0:6])
for i in range(len(tmp1)):
tmp1[(i + 12) % 16] = tmp2[i] ^ opc[i]
tmp1[15] ^= 1 << 1
aes5 = AES.new(bytes(k), AES.MODE_ECB)
tmp1 = aes5.encrypt(bytes(tmp1))
tmp1 = bytearray(tmp1)
tmp1 = self._xor(tmp1, opc)
ck = self._bytetostring(tmp1)
for i in range(len(tmp1)):
tmp1[(i + 8) % 16] = tmp2[i] ^ opc[i]
tmp1[15] ^= 1 << 2
aes6 = AES.new(bytes(k), AES.MODE_ECB)
tmp1 = aes6.encrypt(bytes(tmp1))
tmp1 = bytearray(tmp1)
tmp1 = self._xor(tmp1, opc)
ik = self._bytetostring(tmp1)
tmp1 = bytearray.fromhex(ak)
autn = bytearray(6)
for i in range(0, 6):
autn[i] = sqn[i] ^ tmp1[i]
autn[6:2] = amf
autn[8:8] = bytearray.fromhex(maca)[0:8]
autn = self._bytetostring(autn)
return rand + ' ' + autn + ' ' + ik + ' ' + ck + ' ' + res
def stop(self):
'''
Stop the Authentication server and close the socket
'''
self._socket.shutdown(socket.SHUT_RDWR)
self._socket.close()
self._rxhandle.join()
if __name__ == '__main__':
'''
This will run in a stand-alone mode for testing
'''
if len(sys.argv) < 3:
print('Usage: ./hlrauc.py <sock_path> <config>')
sys.exit()
hlrauc = AuthCenter(sys.argv[1], sys.argv[2])
def signal_handler(signal, frame):
print('Exiting...')
hlrauc.stop()
sys.exit()
signal.signal(signal.SIGINT, signal_handler)
signal.pause()