hostapd/tests/hwsim/wpasupplicant.py
Ben Rosenfeld 8e751cfa05 tests: Change list_networks() to use global interface with P2P
list_networks() always used the wlanX control interface to query for the
current list of networks. However, when a dedicated P2P Device is used,
the global control interface should be used when checking persistent
group network profiles.

Fix this by adding an optional parameter indicating that the P2P
networks are requested, and in such a case use the global control
interface.

In addition update test_p2p_persistent to use the argument when needed.

Signed-off-by: Ben Rosenfeld <ben.rosenfeld@intel.com>
2015-05-08 18:29:03 +03:00

1090 lines
38 KiB
Python

# Python class for controlling wpa_supplicant
# Copyright (c) 2013-2014, Jouni Malinen <j@w1.fi>
#
# This software may be distributed under the terms of the BSD license.
# See README for more details.
import os
import time
import logging
import binascii
import re
import struct
import subprocess
import wpaspy
logger = logging.getLogger()
wpas_ctrl = '/var/run/wpa_supplicant'
class WpaSupplicant:
def __init__(self, ifname=None, global_iface=None):
self.group_ifname = None
self.gctrl_mon = None
if ifname:
self.set_ifname(ifname)
else:
self.ifname = None
self.global_iface = global_iface
if global_iface:
self.global_ctrl = wpaspy.Ctrl(global_iface)
self.global_mon = wpaspy.Ctrl(global_iface)
self.global_mon.attach()
else:
self.global_mon = None
def close_ctrl(self):
if self.global_mon:
self.global_mon.detach()
self.global_mon = None
self.global_ctrl = None
self.remove_ifname()
def set_ifname(self, ifname):
self.ifname = ifname
self.ctrl = wpaspy.Ctrl(os.path.join(wpas_ctrl, ifname))
self.mon = wpaspy.Ctrl(os.path.join(wpas_ctrl, ifname))
self.mon.attach()
def remove_ifname(self):
if self.ifname:
self.mon.detach()
self.mon = None
self.ctrl = None
self.ifname = None
def interface_add(self, ifname, config="", driver="nl80211",
drv_params=None, br_ifname=None, create=False,
set_ifname=True, all_params=False):
try:
groups = subprocess.check_output(["id"])
group = "admin" if "(admin)" in groups else "adm"
except Exception, e:
group = "admin"
cmd = "INTERFACE_ADD " + ifname + "\t" + config + "\t" + driver + "\tDIR=/var/run/wpa_supplicant GROUP=" + group
if drv_params:
cmd = cmd + '\t' + drv_params
if br_ifname:
if not drv_params:
cmd += '\t'
cmd += '\t' + br_ifname
if create:
if not br_ifname:
cmd += '\t'
if not drv_params:
cmd += '\t'
cmd += '\tcreate'
if all_params and not create:
if not br_ifname:
cmd += '\t'
if not drv_params:
cmd += '\t'
cmd += '\t'
if "FAIL" in self.global_request(cmd):
raise Exception("Failed to add a dynamic wpa_supplicant interface")
if not create and set_ifname:
self.set_ifname(ifname)
def interface_remove(self, ifname):
self.remove_ifname()
self.global_request("INTERFACE_REMOVE " + ifname)
def request(self, cmd, timeout=10):
logger.debug(self.ifname + ": CTRL: " + cmd)
return self.ctrl.request(cmd, timeout=timeout)
def global_request(self, cmd):
if self.global_iface is None:
self.request(cmd)
else:
ifname = self.ifname or self.global_iface
logger.debug(ifname + ": CTRL(global): " + cmd)
return self.global_ctrl.request(cmd)
def group_request(self, cmd):
if self.group_ifname and self.group_ifname != self.ifname:
logger.debug(self.group_ifname + ": CTRL: " + cmd)
gctrl = wpaspy.Ctrl(os.path.join(wpas_ctrl, self.group_ifname))
return gctrl.request(cmd)
return self.request(cmd)
def ping(self):
return "PONG" in self.request("PING")
def global_ping(self):
return "PONG" in self.global_request("PING")
def reset(self):
self.dump_monitor()
res = self.request("FLUSH")
if not "OK" in res:
logger.info("FLUSH to " + self.ifname + " failed: " + res)
self.global_request("REMOVE_NETWORK all")
self.request("SET p2p_add_cli_chan 0")
self.request("SET p2p_no_go_freq ")
self.request("SET p2p_pref_chan ")
self.request("SET p2p_no_group_iface 1")
self.request("SET p2p_go_intent 7")
self.request("SET ignore_old_scan_res 0")
if self.gctrl_mon:
try:
self.gctrl_mon.detach()
except:
pass
self.gctrl_mon = None
self.group_ifname = None
self.dump_monitor()
iter = 0
while iter < 60:
state = self.get_driver_status_field("scan_state")
if "SCAN_STARTED" in state or "SCAN_REQUESTED" in state:
logger.info(self.ifname + ": Waiting for scan operation to complete before continuing")
time.sleep(1)
else:
break
iter = iter + 1
if iter == 60:
logger.error(self.ifname + ": Driver scan state did not clear")
print "Trying to clear cfg80211/mac80211 scan state"
try:
cmd = ["ifconfig", self.ifname, "down"]
subprocess.call(cmd)
except subprocess.CalledProcessError, e:
logger.info("ifconfig failed: " + str(e.returncode))
logger.info(e.output)
try:
cmd = ["ifconfig", self.ifname, "up"]
subprocess.call(cmd)
except subprocess.CalledProcessError, e:
logger.info("ifconfig failed: " + str(e.returncode))
logger.info(e.output)
if iter > 0:
# The ongoing scan could have discovered BSSes or P2P peers
logger.info("Run FLUSH again since scan was in progress")
self.request("FLUSH")
self.dump_monitor()
if not self.ping():
logger.info("No PING response from " + self.ifname + " after reset")
def add_network(self):
id = self.request("ADD_NETWORK")
if "FAIL" in id:
raise Exception("ADD_NETWORK failed")
return int(id)
def remove_network(self, id):
id = self.request("REMOVE_NETWORK " + str(id))
if "FAIL" in id:
raise Exception("REMOVE_NETWORK failed")
return None
def get_network(self, id, field):
res = self.request("GET_NETWORK " + str(id) + " " + field)
if res == "FAIL\n":
return None
return res
def set_network(self, id, field, value):
res = self.request("SET_NETWORK " + str(id) + " " + field + " " + value)
if "FAIL" in res:
raise Exception("SET_NETWORK failed")
return None
def set_network_quoted(self, id, field, value):
res = self.request("SET_NETWORK " + str(id) + " " + field + ' "' + value + '"')
if "FAIL" in res:
raise Exception("SET_NETWORK failed")
return None
def list_networks(self, p2p=False):
if p2p:
res = self.global_request("LIST_NETWORKS")
else:
res = self.request("LIST_NETWORKS")
lines = res.splitlines()
networks = []
for l in lines:
if "network id" in l:
continue
[id,ssid,bssid,flags] = l.split('\t')
network = {}
network['id'] = id
network['ssid'] = ssid
network['bssid'] = bssid
network['flags'] = flags
networks.append(network)
return networks
def hs20_enable(self, auto_interworking=False):
self.request("SET interworking 1")
self.request("SET hs20 1")
if auto_interworking:
self.request("SET auto_interworking 1")
else:
self.request("SET auto_interworking 0")
def interworking_add_network(self, bssid):
id = self.request("INTERWORKING_ADD_NETWORK " + bssid)
if "FAIL" in id or "OK" in id:
raise Exception("INTERWORKING_ADD_NETWORK failed")
return int(id)
def add_cred(self):
id = self.request("ADD_CRED")
if "FAIL" in id:
raise Exception("ADD_CRED failed")
return int(id)
def remove_cred(self, id):
id = self.request("REMOVE_CRED " + str(id))
if "FAIL" in id:
raise Exception("REMOVE_CRED failed")
return None
def set_cred(self, id, field, value):
res = self.request("SET_CRED " + str(id) + " " + field + " " + value)
if "FAIL" in res:
raise Exception("SET_CRED failed")
return None
def set_cred_quoted(self, id, field, value):
res = self.request("SET_CRED " + str(id) + " " + field + ' "' + value + '"')
if "FAIL" in res:
raise Exception("SET_CRED failed")
return None
def get_cred(self, id, field):
return self.request("GET_CRED " + str(id) + " " + field)
def add_cred_values(self, params):
id = self.add_cred()
quoted = [ "realm", "username", "password", "domain", "imsi",
"excluded_ssid", "milenage", "ca_cert", "client_cert",
"private_key", "domain_suffix_match", "provisioning_sp",
"roaming_partner", "phase1", "phase2" ]
for field in quoted:
if field in params:
self.set_cred_quoted(id, field, params[field])
not_quoted = [ "eap", "roaming_consortium", "priority",
"required_roaming_consortium", "sp_priority",
"max_bss_load", "update_identifier", "req_conn_capab",
"min_dl_bandwidth_home", "min_ul_bandwidth_home",
"min_dl_bandwidth_roaming", "min_ul_bandwidth_roaming" ]
for field in not_quoted:
if field in params:
self.set_cred(id, field, params[field])
return id;
def select_network(self, id, freq=None):
if freq:
extra = " freq=" + str(freq)
else:
extra = ""
id = self.request("SELECT_NETWORK " + str(id) + extra)
if "FAIL" in id:
raise Exception("SELECT_NETWORK failed")
return None
def mesh_group_add(self, id):
id = self.request("MESH_GROUP_ADD " + str(id))
if "FAIL" in id:
raise Exception("MESH_GROUP_ADD failed")
return None
def mesh_group_remove(self):
id = self.request("MESH_GROUP_REMOVE " + str(self.ifname))
if "FAIL" in id:
raise Exception("MESH_GROUP_REMOVE failed")
return None
def connect_network(self, id, timeout=10):
self.dump_monitor()
self.select_network(id)
self.wait_connected(timeout=timeout)
self.dump_monitor()
def get_status(self, extra=None):
if extra:
extra = "-" + extra
else:
extra = ""
res = self.request("STATUS" + extra)
lines = res.splitlines()
vals = dict()
for l in lines:
try:
[name,value] = l.split('=', 1)
vals[name] = value
except ValueError, e:
logger.info(self.ifname + ": Ignore unexpected STATUS line: " + l)
return vals
def get_status_field(self, field, extra=None):
vals = self.get_status(extra)
if field in vals:
return vals[field]
return None
def get_group_status(self, extra=None):
if extra:
extra = "-" + extra
else:
extra = ""
res = self.group_request("STATUS" + extra)
lines = res.splitlines()
vals = dict()
for l in lines:
try:
[name,value] = l.split('=', 1)
except ValueError:
logger.info(self.ifname + ": Ignore unexpected status line: " + l)
continue
vals[name] = value
return vals
def get_group_status_field(self, field, extra=None):
vals = self.get_group_status(extra)
if field in vals:
return vals[field]
return None
def get_driver_status(self):
res = self.request("STATUS-DRIVER")
lines = res.splitlines()
vals = dict()
for l in lines:
try:
[name,value] = l.split('=', 1)
except ValueError:
logger.info(self.ifname + ": Ignore unexpected status-driver line: " + l)
continue
vals[name] = value
return vals
def get_driver_status_field(self, field):
vals = self.get_driver_status()
if field in vals:
return vals[field]
return None
def get_mcc(self):
mcc = int(self.get_driver_status_field('capa.num_multichan_concurrent'))
return 1 if mcc < 2 else mcc
def get_mib(self):
res = self.request("MIB")
lines = res.splitlines()
vals = dict()
for l in lines:
try:
[name,value] = l.split('=', 1)
vals[name] = value
except ValueError, e:
logger.info(self.ifname + ": Ignore unexpected MIB line: " + l)
return vals
def p2p_dev_addr(self):
return self.get_status_field("p2p_device_address")
def p2p_interface_addr(self):
return self.get_group_status_field("address")
def own_addr(self):
try:
res = self.p2p_interface_addr()
except:
res = self.p2p_dev_addr()
return res
def p2p_listen(self):
return self.global_request("P2P_LISTEN")
def p2p_find(self, social=False, progressive=False, dev_id=None,
dev_type=None, delay=None, freq=None):
cmd = "P2P_FIND"
if social:
cmd = cmd + " type=social"
elif progressive:
cmd = cmd + " type=progressive"
if dev_id:
cmd = cmd + " dev_id=" + dev_id
if dev_type:
cmd = cmd + " dev_type=" + dev_type
if delay:
cmd = cmd + " delay=" + str(delay)
if freq:
cmd = cmd + " freq=" + str(freq)
return self.global_request(cmd)
def p2p_stop_find(self):
return self.global_request("P2P_STOP_FIND")
def wps_read_pin(self):
self.pin = self.request("WPS_PIN get").rstrip("\n")
if "FAIL" in self.pin:
raise Exception("Could not generate PIN")
return self.pin
def peer_known(self, peer, full=True):
res = self.global_request("P2P_PEER " + peer)
if peer.lower() not in res.lower():
return False
if not full:
return True
return "[PROBE_REQ_ONLY]" not in res
def discover_peer(self, peer, full=True, timeout=15, social=True, force_find=False):
logger.info(self.ifname + ": Trying to discover peer " + peer)
if not force_find and self.peer_known(peer, full):
return True
self.p2p_find(social)
count = 0
while count < timeout * 4:
time.sleep(0.25)
count = count + 1
if self.peer_known(peer, full):
return True
return False
def get_peer(self, peer):
res = self.global_request("P2P_PEER " + peer)
if peer.lower() not in res.lower():
raise Exception("Peer information not available")
lines = res.splitlines()
vals = dict()
for l in lines:
if '=' in l:
[name,value] = l.split('=', 1)
vals[name] = value
return vals
def group_form_result(self, ev, expect_failure=False, go_neg_res=None):
if expect_failure:
if "P2P-GROUP-STARTED" in ev:
raise Exception("Group formation succeeded when expecting failure")
exp = r'<.>(P2P-GO-NEG-FAILURE) status=([0-9]*)'
s = re.split(exp, ev)
if len(s) < 3:
return None
res = {}
res['result'] = 'go-neg-failed'
res['status'] = int(s[2])
return res
if "P2P-GROUP-STARTED" not in ev:
raise Exception("No P2P-GROUP-STARTED event seen")
exp = r'<.>(P2P-GROUP-STARTED) ([^ ]*) ([^ ]*) ssid="(.*)" freq=([0-9]*) ((?:psk=.*)|(?:passphrase=".*")) go_dev_addr=([0-9a-f:]*) ip_addr=([0-9.]*) ip_mask=([0-9.]*) go_ip_addr=([0-9.]*)'
s = re.split(exp, ev)
if len(s) < 11:
exp = r'<.>(P2P-GROUP-STARTED) ([^ ]*) ([^ ]*) ssid="(.*)" freq=([0-9]*) ((?:psk=.*)|(?:passphrase=".*")) go_dev_addr=([0-9a-f:]*)'
s = re.split(exp, ev)
if len(s) < 8:
raise Exception("Could not parse P2P-GROUP-STARTED")
res = {}
res['result'] = 'success'
res['ifname'] = s[2]
self.group_ifname = s[2]
try:
self.gctrl_mon = wpaspy.Ctrl(os.path.join(wpas_ctrl, self.group_ifname))
self.gctrl_mon.attach()
except:
logger.debug("Could not open monitor socket for group interface")
self.gctrl_mon = None
res['role'] = s[3]
res['ssid'] = s[4]
res['freq'] = s[5]
if "[PERSISTENT]" in ev:
res['persistent'] = True
else:
res['persistent'] = False
p = re.match(r'psk=([0-9a-f]*)', s[6])
if p:
res['psk'] = p.group(1)
p = re.match(r'passphrase="(.*)"', s[6])
if p:
res['passphrase'] = p.group(1)
res['go_dev_addr'] = s[7]
if len(s) > 8 and len(s[8]) > 0:
res['ip_addr'] = s[8]
if len(s) > 9:
res['ip_mask'] = s[9]
if len(s) > 10:
res['go_ip_addr'] = s[10]
if go_neg_res:
exp = r'<.>(P2P-GO-NEG-SUCCESS) role=(GO|client) freq=([0-9]*)'
s = re.split(exp, go_neg_res)
if len(s) < 4:
raise Exception("Could not parse P2P-GO-NEG-SUCCESS")
res['go_neg_role'] = s[2]
res['go_neg_freq'] = s[3]
return res
def p2p_go_neg_auth(self, peer, pin, method, go_intent=None, persistent=False, freq=None):
if not self.discover_peer(peer):
raise Exception("Peer " + peer + " not found")
self.dump_monitor()
if pin:
cmd = "P2P_CONNECT " + peer + " " + pin + " " + method + " auth"
else:
cmd = "P2P_CONNECT " + peer + " " + method + " auth"
if go_intent:
cmd = cmd + ' go_intent=' + str(go_intent)
if freq:
cmd = cmd + ' freq=' + str(freq)
if persistent:
cmd = cmd + " persistent"
if "OK" in self.global_request(cmd):
return None
raise Exception("P2P_CONNECT (auth) failed")
def p2p_go_neg_auth_result(self, timeout=1, expect_failure=False):
go_neg_res = None
ev = self.wait_global_event(["P2P-GO-NEG-SUCCESS",
"P2P-GO-NEG-FAILURE"], timeout);
if ev is None:
if expect_failure:
return None
raise Exception("Group formation timed out")
if "P2P-GO-NEG-SUCCESS" in ev:
go_neg_res = ev
ev = self.wait_global_event(["P2P-GROUP-STARTED"], timeout);
if ev is None:
if expect_failure:
return None
raise Exception("Group formation timed out")
self.dump_monitor()
return self.group_form_result(ev, expect_failure, go_neg_res)
def p2p_go_neg_init(self, peer, pin, method, timeout=0, go_intent=None, expect_failure=False, persistent=False, persistent_id=None, freq=None, provdisc=False, wait_group=True):
if not self.discover_peer(peer):
raise Exception("Peer " + peer + " not found")
self.dump_monitor()
if pin:
cmd = "P2P_CONNECT " + peer + " " + pin + " " + method
else:
cmd = "P2P_CONNECT " + peer + " " + method
if go_intent:
cmd = cmd + ' go_intent=' + str(go_intent)
if freq:
cmd = cmd + ' freq=' + str(freq)
if persistent:
cmd = cmd + " persistent"
elif persistent_id:
cmd = cmd + " persistent=" + persistent_id
if provdisc:
cmd = cmd + " provdisc"
if "OK" in self.global_request(cmd):
if timeout == 0:
self.dump_monitor()
return None
go_neg_res = None
ev = self.wait_global_event(["P2P-GO-NEG-SUCCESS",
"P2P-GO-NEG-FAILURE"], timeout)
if ev is None:
if expect_failure:
return None
raise Exception("Group formation timed out")
if "P2P-GO-NEG-SUCCESS" in ev:
if not wait_group:
return ev
go_neg_res = ev
ev = self.wait_global_event(["P2P-GROUP-STARTED"], timeout)
if ev is None:
if expect_failure:
return None
raise Exception("Group formation timed out")
self.dump_monitor()
return self.group_form_result(ev, expect_failure, go_neg_res)
raise Exception("P2P_CONNECT failed")
def wait_event(self, events, timeout=10):
start = os.times()[4]
while True:
while self.mon.pending():
ev = self.mon.recv()
logger.debug(self.ifname + ": " + ev)
for event in events:
if event in ev:
return ev
now = os.times()[4]
remaining = start + timeout - now
if remaining <= 0:
break
if not self.mon.pending(timeout=remaining):
break
return None
def wait_global_event(self, events, timeout):
if self.global_iface is None:
self.wait_event(events, timeout)
else:
start = os.times()[4]
while True:
while self.global_mon.pending():
ev = self.global_mon.recv()
logger.debug(self.ifname + "(global): " + ev)
for event in events:
if event in ev:
return ev
now = os.times()[4]
remaining = start + timeout - now
if remaining <= 0:
break
if not self.global_mon.pending(timeout=remaining):
break
return None
def wait_group_event(self, events, timeout=10):
if self.group_ifname and self.group_ifname != self.ifname:
if self.gctrl_mon is None:
return None
start = os.times()[4]
while True:
while self.gctrl_mon.pending():
ev = self.gctrl_mon.recv()
logger.debug(self.group_ifname + ": " + ev)
for event in events:
if event in ev:
return ev
now = os.times()[4]
remaining = start + timeout - now
if remaining <= 0:
break
if not self.gctrl_mon.pending(timeout=remaining):
break
return None
return self.wait_event(events, timeout)
def wait_go_ending_session(self):
if self.gctrl_mon:
try:
self.gctrl_mon.detach()
except:
pass
self.gctrl_mon = None
ev = self.wait_global_event(["P2P-GROUP-REMOVED"], timeout=3)
if ev is None:
raise Exception("Group removal event timed out")
if "reason=GO_ENDING_SESSION" not in ev:
raise Exception("Unexpected group removal reason")
def dump_monitor(self):
while self.mon.pending():
ev = self.mon.recv()
logger.debug(self.ifname + ": " + ev)
while self.global_mon and self.global_mon.pending():
ev = self.global_mon.recv()
logger.debug(self.ifname + "(global): " + ev)
def remove_group(self, ifname=None):
if self.gctrl_mon:
try:
self.gctrl_mon.detach()
except:
pass
self.gctrl_mon = None
if ifname is None:
ifname = self.group_ifname if self.group_ifname else self.ifname
if "OK" not in self.global_request("P2P_GROUP_REMOVE " + ifname):
raise Exception("Group could not be removed")
self.group_ifname = None
def p2p_start_go(self, persistent=None, freq=None, no_event_clear=False):
self.dump_monitor()
cmd = "P2P_GROUP_ADD"
if persistent is None:
pass
elif persistent is True:
cmd = cmd + " persistent"
else:
cmd = cmd + " persistent=" + str(persistent)
if freq:
cmd = cmd + " freq=" + str(freq)
if "OK" in self.global_request(cmd):
ev = self.wait_global_event(["P2P-GROUP-STARTED"], timeout=5)
if ev is None:
raise Exception("GO start up timed out")
if not no_event_clear:
self.dump_monitor()
return self.group_form_result(ev)
raise Exception("P2P_GROUP_ADD failed")
def p2p_go_authorize_client(self, pin):
cmd = "WPS_PIN any " + pin
if "FAIL" in self.group_request(cmd):
raise Exception("Failed to authorize client connection on GO")
return None
def p2p_go_authorize_client_pbc(self):
cmd = "WPS_PBC"
if "FAIL" in self.group_request(cmd):
raise Exception("Failed to authorize client connection on GO")
return None
def p2p_connect_group(self, go_addr, pin, timeout=0, social=False,
freq=None):
self.dump_monitor()
if not self.discover_peer(go_addr, social=social):
if social or not self.discover_peer(go_addr, social=social):
raise Exception("GO " + go_addr + " not found")
self.dump_monitor()
cmd = "P2P_CONNECT " + go_addr + " " + pin + " join"
if freq:
cmd += " freq=" + str(freq)
if "OK" in self.global_request(cmd):
if timeout == 0:
self.dump_monitor()
return None
ev = self.wait_global_event(["P2P-GROUP-STARTED"], timeout)
if ev is None:
raise Exception("Joining the group timed out")
self.dump_monitor()
return self.group_form_result(ev)
raise Exception("P2P_CONNECT(join) failed")
def tdls_setup(self, peer):
cmd = "TDLS_SETUP " + peer
if "FAIL" in self.group_request(cmd):
raise Exception("Failed to request TDLS setup")
return None
def tdls_teardown(self, peer):
cmd = "TDLS_TEARDOWN " + peer
if "FAIL" in self.group_request(cmd):
raise Exception("Failed to request TDLS teardown")
return None
def tdls_link_status(self, peer):
cmd = "TDLS_LINK_STATUS " + peer
ret = self.group_request(cmd)
if "FAIL" in ret:
raise Exception("Failed to request TDLS link status")
return ret
def tspecs(self):
"""Return (tsid, up) tuples representing current tspecs"""
res = self.request("WMM_AC_STATUS")
tspecs = re.findall(r"TSID=(\d+) UP=(\d+)", res)
tspecs = [tuple(map(int, tspec)) for tspec in tspecs]
logger.debug("tspecs: " + str(tspecs))
return tspecs
def add_ts(self, tsid, up, direction="downlink", expect_failure=False,
extra=None):
params = {
"sba": 9000,
"nominal_msdu_size": 1500,
"min_phy_rate": 6000000,
"mean_data_rate": 1500,
}
cmd = "WMM_AC_ADDTS %s tsid=%d up=%d" % (direction, tsid, up)
for (key, value) in params.iteritems():
cmd += " %s=%d" % (key, value)
if extra:
cmd += " " + extra
if self.request(cmd).strip() != "OK":
raise Exception("ADDTS failed (tsid=%d up=%d)" % (tsid, up))
if expect_failure:
ev = self.wait_event(["TSPEC-REQ-FAILED"], timeout=2)
if ev is None:
raise Exception("ADDTS failed (time out while waiting failure)")
if "tsid=%d" % (tsid) not in ev:
raise Exception("ADDTS failed (invalid tsid in TSPEC-REQ-FAILED")
return
ev = self.wait_event(["TSPEC-ADDED"], timeout=1)
if ev is None:
raise Exception("ADDTS failed (time out)")
if "tsid=%d" % (tsid) not in ev:
raise Exception("ADDTS failed (invalid tsid in TSPEC-ADDED)")
if not (tsid, up) in self.tspecs():
raise Exception("ADDTS failed (tsid not in tspec list)")
def del_ts(self, tsid):
if self.request("WMM_AC_DELTS %d" % (tsid)).strip() != "OK":
raise Exception("DELTS failed")
ev = self.wait_event(["TSPEC-REMOVED"], timeout=1)
if ev is None:
raise Exception("DELTS failed (time out)")
if "tsid=%d" % (tsid) not in ev:
raise Exception("DELTS failed (invalid tsid in TSPEC-REMOVED)")
tspecs = [(t, u) for (t, u) in self.tspecs() if t == tsid]
if tspecs:
raise Exception("DELTS failed (still in tspec list)")
def connect(self, ssid=None, ssid2=None, **kwargs):
logger.info("Connect STA " + self.ifname + " to AP")
id = self.add_network()
if ssid:
self.set_network_quoted(id, "ssid", ssid)
elif ssid2:
self.set_network(id, "ssid", ssid2)
quoted = [ "psk", "identity", "anonymous_identity", "password",
"ca_cert", "client_cert", "private_key",
"private_key_passwd", "ca_cert2", "client_cert2",
"private_key2", "phase1", "phase2", "domain_suffix_match",
"altsubject_match", "subject_match", "pac_file", "dh_file",
"bgscan", "ht_mcs", "id_str", "openssl_ciphers",
"domain_match" ]
for field in quoted:
if field in kwargs and kwargs[field]:
self.set_network_quoted(id, field, kwargs[field])
not_quoted = [ "proto", "key_mgmt", "ieee80211w", "pairwise",
"group", "wep_key0", "wep_key1", "wep_key2", "wep_key3",
"wep_tx_keyidx", "scan_freq", "eap",
"eapol_flags", "fragment_size", "scan_ssid", "auth_alg",
"wpa_ptk_rekey", "disable_ht", "disable_vht", "bssid",
"disable_max_amsdu", "ampdu_factor", "ampdu_density",
"disable_ht40", "disable_sgi", "disable_ldpc",
"ht40_intolerant", "update_identifier", "mac_addr",
"erp", "bg_scan_period", "bssid_blacklist",
"bssid_whitelist", "mem_only_psk", "eap_workaround" ]
for field in not_quoted:
if field in kwargs and kwargs[field]:
self.set_network(id, field, kwargs[field])
if "raw_psk" in kwargs and kwargs['raw_psk']:
self.set_network(id, "psk", kwargs['raw_psk'])
if "password_hex" in kwargs and kwargs['password_hex']:
self.set_network(id, "password", kwargs['password_hex'])
if "peerkey" in kwargs and kwargs['peerkey']:
self.set_network(id, "peerkey", "1")
if "okc" in kwargs and kwargs['okc']:
self.set_network(id, "proactive_key_caching", "1")
if "ocsp" in kwargs and kwargs['ocsp']:
self.set_network(id, "ocsp", str(kwargs['ocsp']))
if "only_add_network" in kwargs and kwargs['only_add_network']:
return id
if "wait_connect" not in kwargs or kwargs['wait_connect']:
if "eap" in kwargs:
self.connect_network(id, timeout=20)
else:
self.connect_network(id)
else:
self.dump_monitor()
self.select_network(id)
return id
def scan(self, type=None, freq=None, no_wait=False, only_new=False):
if type:
cmd = "SCAN TYPE=" + type
else:
cmd = "SCAN"
if freq:
cmd = cmd + " freq=" + str(freq)
if only_new:
cmd += " only_new=1"
if not no_wait:
self.dump_monitor()
if not "OK" in self.request(cmd):
raise Exception("Failed to trigger scan")
if no_wait:
return
ev = self.wait_event(["CTRL-EVENT-SCAN-RESULTS"], 15)
if ev is None:
raise Exception("Scan timed out")
def scan_for_bss(self, bssid, freq=None, force_scan=False, only_new=False):
if not force_scan and self.get_bss(bssid) is not None:
return
for i in range(0, 10):
self.scan(freq=freq, type="ONLY", only_new=only_new)
if self.get_bss(bssid) is not None:
return
raise Exception("Could not find BSS " + bssid + " in scan")
def flush_scan_cache(self, freq=2417):
self.request("BSS_FLUSH 0")
self.scan(freq=freq, only_new=True)
def roam(self, bssid, fail_test=False):
self.dump_monitor()
if "OK" not in self.request("ROAM " + bssid):
raise Exception("ROAM failed")
if fail_test:
ev = self.wait_event(["CTRL-EVENT-CONNECTED"], timeout=1)
if ev is not None:
raise Exception("Unexpected connection")
self.dump_monitor()
return
self.wait_connected(timeout=10, error="Roaming with the AP timed out")
self.dump_monitor()
def roam_over_ds(self, bssid, fail_test=False):
self.dump_monitor()
if "OK" not in self.request("FT_DS " + bssid):
raise Exception("FT_DS failed")
if fail_test:
ev = self.wait_event(["CTRL-EVENT-CONNECTED"], timeout=1)
if ev is not None:
raise Exception("Unexpected connection")
self.dump_monitor()
return
self.wait_connected(timeout=10, error="Roaming with the AP timed out")
self.dump_monitor()
def wps_reg(self, bssid, pin, new_ssid=None, key_mgmt=None, cipher=None,
new_passphrase=None, no_wait=False):
self.dump_monitor()
if new_ssid:
self.request("WPS_REG " + bssid + " " + pin + " " +
new_ssid.encode("hex") + " " + key_mgmt + " " +
cipher + " " + new_passphrase.encode("hex"))
if no_wait:
return
ev = self.wait_event(["WPS-SUCCESS"], timeout=15)
else:
self.request("WPS_REG " + bssid + " " + pin)
if no_wait:
return
ev = self.wait_event(["WPS-CRED-RECEIVED"], timeout=15)
if ev is None:
raise Exception("WPS cred timed out")
ev = self.wait_event(["WPS-FAIL"], timeout=15)
if ev is None:
raise Exception("WPS timed out")
self.wait_connected(timeout=15)
def relog(self):
self.global_request("RELOG")
def wait_completed(self, timeout=10):
for i in range(0, timeout * 2):
if self.get_status_field("wpa_state") == "COMPLETED":
return
time.sleep(0.5)
raise Exception("Timeout while waiting for COMPLETED state")
def get_capability(self, field):
res = self.request("GET_CAPABILITY " + field)
if "FAIL" in res:
return None
return res.split(' ')
def get_bss(self, bssid, ifname=None):
if not ifname or ifname == self.ifname:
res = self.request("BSS " + bssid)
elif ifname == self.group_ifname:
res = self.group_request("BSS " + bssid)
else:
return None
if "FAIL" in res:
return None
lines = res.splitlines()
vals = dict()
for l in lines:
[name,value] = l.split('=', 1)
vals[name] = value
if len(vals) == 0:
return None
return vals
def get_pmksa(self, bssid):
res = self.request("PMKSA")
lines = res.splitlines()
for l in lines:
if bssid not in l:
continue
vals = dict()
[index,aa,pmkid,expiration,opportunistic] = l.split(' ')
vals['index'] = index
vals['pmkid'] = pmkid
vals['expiration'] = expiration
vals['opportunistic'] = opportunistic
return vals
return None
def get_sta(self, addr, info=None, next=False):
cmd = "STA-NEXT " if next else "STA "
if addr is None:
res = self.request("STA-FIRST")
elif info:
res = self.request(cmd + addr + " " + info)
else:
res = self.request(cmd + addr)
lines = res.splitlines()
vals = dict()
first = True
for l in lines:
if first:
vals['addr'] = l
first = False
else:
[name,value] = l.split('=', 1)
vals[name] = value
return vals
def mgmt_rx(self, timeout=5):
ev = self.wait_event(["MGMT-RX"], timeout=timeout)
if ev is None:
return None
msg = {}
items = ev.split(' ')
field,val = items[1].split('=')
if field != "freq":
raise Exception("Unexpected MGMT-RX event format: " + ev)
msg['freq'] = val
frame = binascii.unhexlify(items[4])
msg['frame'] = frame
hdr = struct.unpack('<HH6B6B6BH', frame[0:24])
msg['fc'] = hdr[0]
msg['subtype'] = (hdr[0] >> 4) & 0xf
hdr = hdr[1:]
msg['duration'] = hdr[0]
hdr = hdr[1:]
msg['da'] = "%02x:%02x:%02x:%02x:%02x:%02x" % hdr[0:6]
hdr = hdr[6:]
msg['sa'] = "%02x:%02x:%02x:%02x:%02x:%02x" % hdr[0:6]
hdr = hdr[6:]
msg['bssid'] = "%02x:%02x:%02x:%02x:%02x:%02x" % hdr[0:6]
hdr = hdr[6:]
msg['seq_ctrl'] = hdr[0]
msg['payload'] = frame[24:]
return msg
def wait_connected(self, timeout=10, error="Connection timed out"):
ev = self.wait_event(["CTRL-EVENT-CONNECTED"], timeout=timeout)
if ev is None:
raise Exception(error)
return ev
def wait_disconnected(self, timeout=10, error="Disconnection timed out"):
ev = self.wait_event(["CTRL-EVENT-DISCONNECTED"], timeout=timeout)
if ev is None:
raise Exception(error)
return ev
def get_group_ifname(self):
return self.group_ifname if self.group_ifname else self.ifname
def get_config(self):
res = self.request("DUMP")
if res.startswith("FAIL"):
raise Exception("DUMP failed")
lines = res.splitlines()
vals = dict()
for l in lines:
[name,value] = l.split('=', 1)
vals[name] = value
return vals