blob: dec36e0bf307e748910b8b7ddbd3d741b230fc17 [file] [log] [blame]
#
# Copyright 2016-present Ciena Corporation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
import sys, os
from EapolAAA import *
from Enum import *
import noseTlsAuthHolder as tlsAuthHolder
from scapy_ssl_tls.ssl_tls import *
from scapy_ssl_tls.ssl_tls_crypto import *
from tls_cert import Key
from socket import *
from CordTestServer import cord_test_radius_restart
import struct
import scapy
from nose.tools import *
from CordTestBase import CordTester
from CordContainer import *
from CordTestUtils import log_test
import re
import time
log_test.setLevel('INFO')
def bytes_to_num(data):
try:
return int(data.encode('hex'), 16)
except:
print('Exception')
return -1
class TLSAuthTest(EapolPacket, CordTester):
tlsStateTable = Enumeration("TLSStateTable", ("ST_EAP_SETUP",
"ST_EAP_START",
"ST_EAP_ID_REQ",
"ST_EAP_TLS_HELLO_REQ",
"ST_EAP_TLS_CERT_REQ",
"ST_EAP_TLS_CHANGE_CIPHER_SPEC",
"ST_EAP_TLS_FINISHED",
"ST_EAP_TLS_DONE"
)
)
tlsEventTable = Enumeration("TLSEventTable", ("EVT_EAP_SETUP",
"EVT_EAP_START",
"EVT_EAP_ID_REQ",
"EVT_EAP_TLS_HELLO_REQ",
"EVT_EAP_TLS_CERT_REQ",
"EVT_EAP_TLS_CHANGE_CIPHER_SPEC",
"EVT_EAP_TLS_FINISHED",
"EVT_EAP_TLS_DONE"
)
)
server_hello_done_signature = '\x0e\x00\x00\x00'
SERVER_HELLO = '\x02'
SERVER_CERTIFICATE = '\x0b'
CERTIFICATE_REQUEST = '\x0d'
SERVER_HELLO_DONE = '\x0e'
SERVER_UNKNOWN = '\xff'
HANDSHAKE = '\x16'
CHANGE_CIPHER = '\x14'
TLS_OFFSET = 28
HDR_IDX = 0
DATA_IDX = 1
CB_IDX = 2
#this is from client.crt file
CLIENT_CERT = """-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----"""
#this is from client.key
CLIENT_PRIV_KEY = """-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----"""
def handle_server_hello_done(self, server_hello_done):
if server_hello_done[-4:] == self.server_hello_done_signature:
log_test.info('server hello received over interface %s' %self.intf)
self.server_hello_done_received = True
def __init__(self, intf = 'veth0', client_cert = None, client_priv_key = None,
fail_cb = None, src_mac='default', version = "TLS_1_0", session_id = '',
session_id_length = None, gmt_unix_time=1234, invalid_content_type = 22,
record_fragment_length = None, cipher_suites_length = None,
compression_methods_length = None, compression_methods = TLSCompressionMethod.NULL,
CipherSuite = True, cipher_suite = 'RSA_WITH_AES_256_CBC_SHA', id_mismatch_in_identifier_response_packet = False,
id_mismatch_in_client_hello_packet = False , dont_send_client_certificate = False,
dont_send_client_hello = False, restart_radius = False, invalid_client_hello_handshake_type = False,
invalid_cert_req_handshake = False, incorrect_tlsrecord_type_cert_req = False,
invalid_client_hello_handshake_length = False, clientkeyex_replace_with_serverkeyex = False):
self.fsmTable = tlsAuthHolder.initTlsAuthHolderFsmTable(self, self.tlsStateTable, self.tlsEventTable)
EapolPacket.__init__(self, intf)
CordTester.__init__(self, self.fsmTable, self.tlsStateTable.ST_EAP_TLS_DONE)
#self.tlsStateTable, self.tlsEventTable)
self.currentState = self.tlsStateTable.ST_EAP_SETUP
self.currentEvent = self.tlsEventTable.EVT_EAP_SETUP
self.src_mac = src_mac
self.version = version
self.session_id_length = session_id_length
self.session_id = session_id
self.gmt_unix_time = gmt_unix_time
self.invalid_content_type = invalid_content_type
self.CipherSuite = CipherSuite
self.cipher_suites_length = cipher_suites_length
self.compression_methods_length = compression_methods_length
self.cipher_suite = cipher_suite
self.compression_methods_length = compression_methods_length
self.compression_methods = compression_methods
self.record_fragment_length = record_fragment_length
self.invalid_client_hello_handshake_type = invalid_client_hello_handshake_type
self.invalid_client_hello_handshake_length = invalid_client_hello_handshake_length
self.invalid_cert_req_handshake = invalid_cert_req_handshake
self.id_mismatch_in_identifier_response_packet = id_mismatch_in_identifier_response_packet
self.id_mismatch_in_client_hello_packet = id_mismatch_in_client_hello_packet
self.dont_send_client_certificate = dont_send_client_certificate
self.dont_send_client_hello = dont_send_client_hello
self.incorrect_tlsrecord_type_cert_req = incorrect_tlsrecord_type_cert_req
self.restart_radius = restart_radius
self.clientkeyex_replace_with_serverkeyex = clientkeyex_replace_with_serverkeyex
self.nextState = None
self.nextEvent = None
self.pending_bytes = 0 #for TLS fragment reassembly
self.server_hello_done_received = False
self.server_hello_done_eap_id = 0
self.send_tls_response = True
self.server_certs = []
self.pkt_last = ''
self.pkt_history = []
self.pkt_map = { self.SERVER_HELLO: ['', '', lambda pkt: pkt ],
self.SERVER_CERTIFICATE: ['', '', lambda pkt: pkt ],
self.CERTIFICATE_REQUEST: ['', '', lambda pkt: pkt ],
self.SERVER_HELLO_DONE: ['', '', self.handle_server_hello_done ],
self.SERVER_UNKNOWN: ['', '', lambda pkt: pkt ]
}
if self.clientkeyex_replace_with_serverkeyex:
self.tls_ctx = TLSSessionCtx(client = False)
else:
self.tls_ctx = TLSSessionCtx(client = True)
self.client_cert = self.CLIENT_CERT if client_cert is None else client_cert
self.client_priv_key = self.CLIENT_PRIV_KEY if client_priv_key is None else client_priv_key
self.failTest = False
self.fail_cb = fail_cb
def load_tls_record(self, data, pkt_type = ''):
#if pkt_type not in [ self.SERVER_HELLO_DONE, self.SERVER_UNKNOWN ]:
if pkt_type == self.SERVER_HELLO_DONE:
data = str(TLSRecord(content_type=TLSContentType.HANDSHAKE)/data)
elif pkt_type == self.CERTIFICATE_REQUEST:
data = str(TLSRecord()/TLSHandshake(type=TLSHandshakeType.CERTIFICATE_REQUEST)/data[9:])
data = None #For now ignore this record
if data:
TLS(data, ctx = self.tls_ctx)
def pkt_update(self, pkt_type, data, hdr=None, reassembled = False):
if not self.pkt_map.has_key(pkt_type):
return
if hdr is not None:
self.pkt_map[pkt_type][self.HDR_IDX] += hdr
self.pkt_map[pkt_type][self.DATA_IDX] += data
if reassembled is True:
self.pkt_map[pkt_type][self.CB_IDX](self.pkt_map[pkt_type][self.DATA_IDX])
log_test.info('Interface %s, Appending packet type %02x to packet history of len %d'
%(self.intf, ord(pkt_type), len(self.pkt_map[pkt_type][self.DATA_IDX])))
self.pkt_history.append(self.pkt_map[pkt_type][self.DATA_IDX])
data = ''.join(self.pkt_map[pkt_type][:self.DATA_IDX+1])
self.load_tls_record(data, pkt_type = pkt_type)
self.pkt_map[pkt_type][self.HDR_IDX] = ''
self.pkt_map[pkt_type][self.DATA_IDX] = ''
def tlsFail(self):
##Force a failure
log_test.info('entering into testFail function for interface %s' %self.intf)
self.nextEvent = self.tlsEventTable.EVT_EAP_TLS_FINISHED
self.nextState = self.tlsStateTable.ST_EAP_TLS_FINISHED
self.failTest = True
def eapol_server_hello_cb(self, pkt):
'''Reassemble and send response for server hello/certificate fragments'''
r = str(pkt)
offset = self.TLS_OFFSET
tls_data = r[offset:]
type_hdrlen = 0
if self.pending_bytes > 0:
if len(tls_data) >= self.pending_bytes:
self.pkt_update(self.pkt_last, tls_data[:self.pending_bytes], reassembled = True)
offset += self.pending_bytes
self.pkt_last = ''
self.pending_bytes = 0
else:
self.pkt_update(self.pkt_last, tls_data)
self.pending_bytes -= len(tls_data)
print('Interface: %s, Offset: %d, pkt : %d, pending %d\n' %(self.intf, offset, len(pkt), self.pending_bytes))
while self.pending_bytes == 0 and offset < len(pkt):
tls_data = r[offset:]
hexdump(tls_data)
self.pending_bytes = bytes_to_num(tls_data[3:5])
if self.pending_bytes < 0:
self.pending_bytes = 0
return
if tls_data[0] == self.HANDSHAKE:
pkt_type = tls_data[5]
if pkt_type in [ self.CERTIFICATE_REQUEST ]:
self.pending_bytes = bytes_to_num(tls_data[6:9])
type_hdrlen = 4
if len(tls_data) - 5 - type_hdrlen >= self.pending_bytes:
data_received = tls_data[5: 5 + type_hdrlen + self.pending_bytes ]
offset += 5 + type_hdrlen + self.pending_bytes
type_hdrlen = 0
self.pending_bytes = 0
self.pkt_update(pkt_type, data_received,
hdr = tls_data[:5],
reassembled = True)
else:
self.pkt_update(pkt_type, tls_data[5:],
hdr = tls_data[:5],
reassembled = False)
self.pending_bytes -= len(tls_data) - 5 - type_hdrlen
self.pkt_last = pkt_type
log_test.info('Interface: %s, Pending bytes left %d' %(self.intf, self.pending_bytes))
assert self.pending_bytes > 0
elif tls_data[0] == self.SERVER_HELLO_DONE:
self.server_hello_done_eap_id = pkt[EAP].id
self.pkt_update(tls_data[0], tls_data, reassembled = True)
break
else:
self.pkt_last = self.SERVER_UNKNOWN
if len(tls_data) - 5 >= self.pending_bytes:
offset += 5 + self.pending_bytes
self.pending_bytes = 0
self.pkt_last = ''
#send TLS response ack till we receive server hello done
if self.server_hello_done_received == False:
eap_payload = self.eapTLS(EAP_RESPONSE, pkt[EAP].id, TLS_LENGTH_INCLUDED, '')
self.eapol_send(EAPOL_EAPPACKET, eap_payload)
def _eapSetup(self):
#if self.src_mac == 'bcast':self.setup(src_mac='bcast')
#if self.src_mac == 'mcast': self.setup(src_mac='mcast')
#if self.src_mac == 'zeros': self.setup(src_mac='zeros')
#if self.src_mac == 'default': self.setup(src_mac='default')
#log_test.info('Interface: %s, Source mac is %s' %(self.intf, self.src_mac))
self.setup(src_mac=self.src_mac)
self.nextEvent = self.tlsEventTable.EVT_EAP_START
def _eapStart(self):
log_test.info('_eapStart method started over interface %s' %(self.intf))
self.eapol_start()
self.nextEvent = self.tlsEventTable.EVT_EAP_ID_REQ
def _eapIdReq(self):
log_test.info('Inside EAP ID Req for interface %s' %(self.intf))
def eapol_cb(pkt):
log_test.info('Got EAPOL packet with type id and code request for interface %s' %(self.intf))
log_test.info('Interface: %s, Packet code: %d, type: %d, id: %d' %(self.intf, pkt[EAP].code, pkt[EAP].type, pkt[EAP].id))
log_test.info("Send EAP Response with identity %s over interface %s" % (USER, self.intf))
if self.id_mismatch_in_identifier_response_packet:
log_test.info('\nSending invalid id field in EAP Identity Response packet over interface %s' %(self.intf))
self.eapol_id_req(pkt[EAP].id+10, USER)
else:
self.eapol_id_req(pkt[EAP].id, USER)
r = self.eapol_scapy_recv(cb = eapol_cb,
lfilter =
lambda pkt: EAP in pkt and pkt[EAP].type == EAP.TYPE_ID and pkt[EAP].code == EAP.REQUEST)
if len(r) > 0:
self.nextEvent = self.tlsEventTable.EVT_EAP_TLS_HELLO_REQ
else:
self.tlsFail()
return r
def _eapTlsHelloReq(self):
def eapol_cb(pkt):
log_test.info('Got hello request for id %d over interface %s', pkt[EAP].id, self.intf)
self.client_hello = TLSClientHello(version= self.version,
gmt_unix_time=self.gmt_unix_time,
random_bytes= '\xAB' * 28,
session_id_length = self.session_id_length,
session_id= self.session_id,
compression_methods_length = self.compression_methods_length,
compression_methods= self.compression_methods,
cipher_suites_length = self.cipher_suites_length,
cipher_suites=[self.cipher_suite]
)
if self.invalid_client_hello_handshake_type:
log_test.info('sending server_hello instead of client_hello handshape type in client hello packet')
client_hello_data = TLSHandshake(type='server_hello')/self.client_hello
elif self.invalid_client_hello_handshake_length:
log_test.info('sending TLS Handshake message with zero length field in client hello packet')
client_hello_data = TLSHandshake(length=0)/self.client_hello
else:
client_hello_data = TLSHandshake()/self.client_hello
#client_hello_data = TLSHandshake()/self.client_hello
self.pkt_history.append( str(client_hello_data) )
if self.record_fragment_length:
reqdata = TLSRecord(length=self.record_fragment_length)/client_hello_data
else:
reqdata = TLSRecord()/client_hello_data
self.load_tls_record(str(reqdata))
log_test.info("Sending Client Hello TLS payload of len %d, id %d over interface %s" %(len(reqdata),pkt[EAP].id, self.intf))
if self.id_mismatch_in_client_hello_packet:
log_test.info('\nsending invalid id field in client hello packet')
eap_payload = self.eapTLS(EAP_RESPONSE, pkt[EAP].id+10, TLS_LENGTH_INCLUDED, str(reqdata))
else:
eap_payload = self.eapTLS(EAP_RESPONSE, pkt[EAP].id, TLS_LENGTH_INCLUDED, str(reqdata))
if self.dont_send_client_hello:
log_test.info('\nskipping client hello packet sending part')
pass
else:
self.eapol_send(EAPOL_EAPPACKET, eap_payload)
if self.restart_radius:
cord_test_radius_restart()
r = self.eapol_scapy_recv(cb = eapol_cb,
lfilter =
lambda pkt: EAP in pkt and pkt[EAP].type == EAP_TYPE_TLS and pkt[EAP].code == EAP.REQUEST)
if len(r) == 0:
self.tlsFail()
return r
#move to client/server certificate request
self.nextEvent = self.tlsEventTable.EVT_EAP_TLS_CERT_REQ
def get_verify_data(self):
all_handshake_pkts = ''.join(self.pkt_history)
return self.tls_ctx.get_verify_data(data = all_handshake_pkts)
def get_verify_signature(self, pem_data):
all_handshake_pkts = ''.join(self.pkt_history)
k = Key(pem_data)
signature = k.sign(all_handshake_pkts, t = 'pkcs', h = 'tls')
signature_data = '{}{}'.format(struct.pack('!H', len(signature)), signature)
return signature_data
def get_encrypted_handshake_msg(self, finish_val=''):
if not finish_val:
finish_val = self.get_verify_data()
msg = str(TLSHandshake(type=TLSHandshakeType.FINISHED)/finish_val)
crypto_container = CryptoContainer(self.tls_ctx, data = msg,
content_type = TLSContentType.HANDSHAKE)
return crypto_container.encrypt()
def get_encrypted_application_msg(self, msg = ''):
'''Needed with tunneled TLS'''
if not msg:
msg = 'test data'
return to_raw(TLSPlaintext(data = 'GET / HTTP/1.1\r\nHOST: localhost\r\n\r\n'), self.tls_ctx)
def _eapTlsCertReq(self):
log_test.info('Receiving server certificates over interface %s', self.intf)
while self.server_hello_done_received == False:
r = self.eapol_scapy_recv(cb = self.eapol_server_hello_cb,
lfilter =
lambda pkt: EAP in pkt and pkt[EAP].type == EAP_TYPE_TLS and \
pkt[EAP].code == EAP.REQUEST)
if len(r) == 0:
self.tlsFail()
return r
log_test.info('Sending client certificate request over interface %s', self.intf)
rex_pem = re.compile(r'\-+BEGIN[^\-]+\-+(.*?)\-+END[^\-]+\-+', re.DOTALL)
if self.client_cert:
der_cert = rex_pem.findall(self.client_cert)[0].decode("base64")
client_certificate_list = TLSHandshake()/TLSCertificateList(
certificates=[TLSCertificate(data=x509.X509Cert(der_cert))])
else:
client_certificate_list = TLSHandshake()/TLSCertificateList(certificates=[])
client_certificate = TLSRecord(version="TLS_1_0")/client_certificate_list
kex_data = self.tls_ctx.get_client_kex_data()
client_key_ex_data = TLSHandshake()/kex_data
client_key_ex = TLSRecord()/client_key_ex_data
if self.client_cert:
self.load_tls_record(str(client_certificate))
self.pkt_history.append(str(client_certificate_list))
self.load_tls_record(str(client_key_ex))
self.pkt_history.append(str(client_key_ex_data))
verify_signature = self.get_verify_signature(self.client_priv_key)
if self.invalid_cert_req_handshake:
log_test.info("sending 'certificate-request' type of handshake message instead of 'certificate-verify' type")
client_cert_verify = TLSHandshake(type=TLSHandshakeType.CERTIFICATE_REQUEST)/verify_signature
else:
client_cert_verify = TLSHandshake(type=TLSHandshakeType.CERTIFICATE_VERIFY)/verify_signature
if self.incorrect_tlsrecord_type_cert_req:
log_test.info("sending TLS Record type as ALERT instead of HANDSHAKE in certificate request packet")
client_cert_record = TLSRecord(content_type=TLSContentType.ALERT)/client_cert_verify
else:
client_cert_record = TLSRecord(content_type=TLSContentType.HANDSHAKE)/client_cert_verify
self.pkt_history.append(str(client_cert_verify))
#log_test.info('Interface: %s, TLS ctxt: %s' %(self.intf, self.tls_ctx))
client_ccs = TLSRecord(version="TLS_1_0")/TLSChangeCipherSpec()
enc_handshake_msg = self.get_encrypted_handshake_msg()
if self.invalid_content_type:
handshake_msg = str(TLSRecord(content_type=self.invalid_content_type)/enc_handshake_msg)
else:
handshake_msg = str(TLSRecord(content_type=TLSContentType.HANDSHAKE)/enc_handshake_msg)
reqdata = str(TLS.from_records([client_certificate, client_key_ex, client_cert_record, client_ccs]))
reqdata += handshake_msg
log_test.info("Sending Client Hello TLS Certificate payload of len %d over interface %s" %(len(reqdata), self.intf))
if self.dont_send_client_certificate:
log_test.info('\nskipping sending client certificate part')
pass
else:
status = self.eapFragmentSend(EAP_RESPONSE, self.server_hello_done_eap_id, TLS_LENGTH_INCLUDED,
payload = reqdata, fragsize = 1024)
assert_equal(status, True)
self.nextEvent = self.tlsEventTable.EVT_EAP_TLS_CHANGE_CIPHER_SPEC
def _eapTlsCertReq_delay(self):
self.server_hello_done_received = True
log_test.info('Sending client certificate request over interface %s', self.intf)
rex_pem = re.compile(r'\-+BEGIN[^\-]+\-+(.*?)\-+END[^\-]+\-+', re.DOTALL)
if self.client_cert:
der_cert = rex_pem.findall(self.client_cert)[0].decode("base64")
client_certificate_list = TLSHandshake()/TLSCertificateList(
certificates=[TLSCertificate(data=x509.X509Cert(der_cert))])
else:
client_certificate_list = TLSHandshake()/TLSCertificateList(certificates=[])
client_certificate = TLSRecord(version="TLS_1_0")/client_certificate_list
kex_data = self.tls_ctx.get_client_kex_data()
client_key_ex_data = TLSHandshake()/kex_data
client_key_ex = TLSRecord()/client_key_ex_data
if self.client_cert:
self.load_tls_record(str(client_certificate))
self.pkt_history.append(str(client_certificate_list))
self.load_tls_record(str(client_key_ex))
self.pkt_history.append(str(client_key_ex_data))
verify_signature = self.get_verify_signature(self.client_priv_key)
if self.invalid_cert_req_handshake:
log_test.info("Sending 'certificate-request' type of handshake message instead of 'certificate-verify' type")
client_cert_verify = TLSHandshake(type=TLSHandshakeType.CERTIFICATE_REQUEST)/verify_signature
else:
client_cert_verify = TLSHandshake(type=TLSHandshakeType.CERTIFICATE_VERIFY)/verify_signature
if self.incorrect_tlsrecord_type_cert_req:
log_test.info("Sending TLS Record type as ALERT instead of HANDSHAKE in certificate request packet")
client_cert_record = TLSRecord(content_type=TLSContentType.ALERT)/client_cert_verify
else:
client_cert_record = TLSRecord(content_type=TLSContentType.HANDSHAKE)/client_cert_verify
self.pkt_history.append(str(client_cert_verify))
#log_test.info('TLS ctxt: %s' %self.tls_ctx)
client_ccs = TLSRecord(version="TLS_1_0")/TLSChangeCipherSpec()
enc_handshake_msg = self.get_encrypted_handshake_msg()
if self.invalid_content_type:
handshake_msg = str(TLSRecord(content_type=self.invalid_content_type)/enc_handshake_msg)
else:
handshake_msg = str(TLSRecord(content_type=TLSContentType.HANDSHAKE)/enc_handshake_msg)
reqdata = str(TLS.from_records([client_certificate, client_key_ex, client_cert_record, client_ccs]))
reqdata += handshake_msg
log_test.info("Sending Client Hello TLS Certificate payload of len %d over interface %s" %(len(reqdata), self.intf))
if self.dont_send_client_certificate:
log_test.info('\nSkipping sending client certificate part')
pass
else:
status = self.eapFragmentSend(EAP_RESPONSE, self.server_hello_done_eap_id, TLS_LENGTH_INCLUDED,
payload = reqdata, fragsize = 1024)
assert_equal(status, True)
self.nextEvent = self.tlsEventTable.EVT_EAP_TLS_CHANGE_CIPHER_SPEC
def _eapTlsChangeCipherSpec(self):
def eapol_cb(pkt):
r = str(pkt)
log_test.info('Interface %s. Received data in change cipher spec function is %s'%(self.intf, pkt.show()))
tls_data = r[self.TLS_OFFSET:]
log_test.info('Verifying TLS Change Cipher spec record type %x over interface %s' %(ord(tls_data[0]), self.intf))
assert tls_data[0] == self.CHANGE_CIPHER
log_test.info('Handshake finished. Sending empty data over interface %s' %self.intf)
eap_payload = self.eapTLS(EAP_RESPONSE, pkt[EAP].id, 0, '')
self.eapol_send(EAPOL_EAPPACKET, eap_payload)
r = self.eapol_scapy_recv(cb = eapol_cb,
lfilter =
lambda pkt: EAP in pkt and pkt[EAP].type == EAP_TYPE_TLS and pkt[EAP].code == EAP.REQUEST)
if len(r) > 0:
self.nextEvent = self.tlsEventTable.EVT_EAP_TLS_FINISHED
else:
self.tlsFail()
return r
def _eapTlsFinished(self):
self.nextEvent = None
def eapol_cb(pkt):
log_test.info('Server authentication successfull over interface %s' %self.intf)
timeout = 5
if self.failTest is True:
if self.fail_cb is not None:
self.fail_cb()
return
timeout = None ##Wait forever on failure and force testcase timeouts
self.eapol_scapy_recv(cb = eapol_cb,
lfilter =
lambda pkt: EAP in pkt and pkt[EAP].code == EAP.SUCCESS,
timeout = timeout)
self.eapol_logoff()