# Python class for controlling wpa_supplicant # Copyright (c) 2013-2019, Jouni Malinen # # 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 wpaspy import remotehost import subprocess logger = logging.getLogger() wpas_ctrl = '/var/run/wpa_supplicant' class WpaSupplicant: def __init__(self, ifname=None, global_iface=None, hostname=None, port=9877, global_port=9878, monitor=True): self.monitor = monitor self.hostname = hostname self.group_ifname = None self.global_mon = None self.global_ctrl = None self.gctrl_mon = None self.ctrl = None self.mon = None self.ifname = None self.host = remotehost.Host(hostname, ifname) self._group_dbg = None if ifname: self.set_ifname(ifname, hostname, port) res = self.get_driver_status() if 'capa.flags' in res and int(res['capa.flags'], 0) & 0x20000000: self.p2p_dev_ifname = 'p2p-dev-' + self.ifname else: self.p2p_dev_ifname = ifname self.global_iface = global_iface if global_iface: if hostname != None: self.global_ctrl = wpaspy.Ctrl(hostname, global_port) if self.monitor: self.global_mon = wpaspy.Ctrl(hostname, global_port) self.global_dbg = hostname + "/" + str(global_port) + "/" else: self.global_ctrl = wpaspy.Ctrl(global_iface) if self.monitor: self.global_mon = wpaspy.Ctrl(global_iface) self.global_dbg = "" if self.monitor: self.global_mon.attach() def __del__(self): self.close_monitor() self.close_control() def close_control_ctrl(self): if self.ctrl: del self.ctrl self.ctrl = None def close_control_global(self): if self.global_ctrl: del self.global_ctrl self.global_ctrl = None def close_control(self): self.close_control_ctrl() self.close_control_global() def close_monitor_mon(self): if not self.mon: return try: while self.mon.pending(): ev = self.mon.recv() logger.debug(self.dbg + ": " + ev) except: pass try: self.mon.detach() except ConnectionRefusedError: pass except Exception as e: if str(e) == "DETACH failed": pass else: raise del self.mon self.mon = None def close_monitor_global(self): if not self.global_mon: return try: while self.global_mon.pending(): ev = self.global_mon.recv() logger.debug(self.global_dbg + ": " + ev) except: pass try: self.global_mon.detach() except ConnectionRefusedError: pass except Exception as e: if str(e) == "DETACH failed": pass else: raise del self.global_mon self.global_mon = None def close_monitor_group(self): if not self.gctrl_mon: return try: while self.gctrl_mon.pending(): ev = self.gctrl_mon.recv() logger.debug(self.dbg + ": " + ev) except: pass try: self.gctrl_mon.detach() except: pass del self.gctrl_mon self.gctrl_mon = None def close_monitor(self): self.close_monitor_mon() self.close_monitor_global() self.close_monitor_group() def cmd_execute(self, cmd_array, shell=False): if self.hostname is None: if shell: cmd = ' '.join(cmd_array) else: cmd = cmd_array proc = subprocess.Popen(cmd, stderr=subprocess.STDOUT, stdout=subprocess.PIPE, shell=shell) out = proc.communicate()[0] ret = proc.returncode return ret, out.decode() else: return self.host.execute(cmd_array) def terminate(self): if self.global_mon: self.close_monitor_global() self.global_ctrl.terminate() self.global_ctrl = None def close_ctrl(self): self.close_monitor_global() self.close_control_global() self.remove_ifname() def set_ifname(self, ifname, hostname=None, port=9877): self.remove_ifname() self.ifname = ifname if hostname != None: self.ctrl = wpaspy.Ctrl(hostname, port) if self.monitor: self.mon = wpaspy.Ctrl(hostname, port) self.host = remotehost.Host(hostname, ifname) self.dbg = hostname + "/" + ifname else: self.ctrl = wpaspy.Ctrl(os.path.join(wpas_ctrl, ifname)) if self.monitor: self.mon = wpaspy.Ctrl(os.path.join(wpas_ctrl, ifname)) self.dbg = ifname if self.monitor: self.mon.attach() def remove_ifname(self): self.close_monitor_mon() self.close_control_ctrl() self.ifname = None def get_ctrl_iface_port(self, ifname): if self.hostname is None: return None res = self.global_request("INTERFACES ctrl") lines = res.splitlines() found = False for line in lines: words = line.split() if words[0] == ifname: found = True break if not found: raise Exception("Could not find UDP port for " + ifname) res = line.find("ctrl_iface=udp:") if res == -1: raise Exception("Wrong ctrl_interface format") words = line.split(":") return int(words[1]) def interface_add(self, ifname, config="", driver="nl80211", drv_params=None, br_ifname=None, create=False, set_ifname=True, all_params=False, if_type=None): status, groups = self.host.execute(["id"]) if status != 0: group = "admin" group = "admin" if "(admin)" in groups else "adm" 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 if_type: cmd += '\t' + if_type 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: port = self.get_ctrl_iface_port(ifname) self.set_ifname(ifname, self.hostname, port) res = self.get_driver_status() if 'capa.flags' in res and int(res['capa.flags'], 0) & 0x20000000: self.p2p_dev_ifname = 'p2p-dev-' + self.ifname else: self.p2p_dev_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.dbg + ": CTRL: " + cmd) return self.ctrl.request(cmd, timeout=timeout) def global_request(self, cmd): if self.global_iface is None: return self.request(cmd) else: ifname = self.ifname or self.global_iface logger.debug(self.global_dbg + ifname + ": CTRL(global): " + cmd) return self.global_ctrl.request(cmd) @property def group_dbg(self): if self._group_dbg is not None: return self._group_dbg if self.group_ifname is None: raise Exception("Cannot have group_dbg without group_ifname") if self.hostname is None: self._group_dbg = self.group_ifname else: self._group_dbg = self.hostname + "/" + self.group_ifname return self._group_dbg def group_request(self, cmd): if self.group_ifname and self.group_ifname != self.ifname: if self.hostname is None: gctrl = wpaspy.Ctrl(os.path.join(wpas_ctrl, self.group_ifname)) else: port = self.get_ctrl_iface_port(self.group_ifname) gctrl = wpaspy.Ctrl(self.hostname, port) logger.debug(self.group_dbg + ": CTRL(group): " + cmd) 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 "OK" not in res: logger.info("FLUSH to " + self.ifname + " failed: " + res) self.global_request("REMOVE_NETWORK all") self.global_request("SET p2p_no_group_iface 1") self.global_request("P2P_FLUSH") self.close_monitor_group() self.group_ifname = None self.dump_monitor() iter = 0 while iter < 60: state1 = self.get_driver_status_field("scan_state") p2pdev = "p2p-dev-" + self.ifname state2 = self.get_driver_status_field("scan_state", ifname=p2pdev) states = str(state1) + " " + str(state2) if "SCAN_STARTED" in states or "SCAN_REQUESTED" in states: 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") status, buf = self.host.execute(["ifconfig", self.ifname, "down"]) if status != 0: logger.info("ifconfig failed: " + buf) logger.info(status) status, buf = self.host.execute(["ifconfig", self.ifname, "up"]) if status != 0: logger.info("ifconfig failed: " + buf) logger.info(status) 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 set(self, field, value, allow_fail=False): if "OK" not in self.request("SET " + field + " " + value): if allow_fail: return raise Exception("Failed to set wpa_supplicant parameter " + field) 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 p2pdev_request(self, cmd): return self.global_request("IFNAME=" + self.p2p_dev_ifname + " " + cmd) def p2pdev_add_network(self): id = self.p2pdev_request("ADD_NETWORK") if "FAIL" in id: raise Exception("p2pdev ADD_NETWORK failed") return int(id) def p2pdev_set_network(self, id, field, value): res = self.p2pdev_request("SET_NETWORK " + str(id) + " " + field + " " + value) if "FAIL" in res: raise Exception("p2pdev SET_NETWORK failed") return None def p2pdev_set_network_quoted(self, id, field, value): res = self.p2pdev_request("SET_NETWORK " + str(id) + " " + field + ' "' + value + '"') if "FAIL" in res: raise Exception("p2pdev 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", "private_key_passwd", "roaming_consortiums", "imsi_privacy_key"] 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=None): if timeout is None: timeout = 10 if self.hostname is None else 60 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 as 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, ifname=None): if ifname is None: res = self.request("STATUS-DRIVER") else: res = self.global_request("IFNAME=%s STATUS-DRIVER" % ifname) if res.startswith("FAIL"): return dict() 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, ifname=None): vals = self.get_driver_status(ifname) 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 as 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 get_addr(self, group=False): dev_addr = self.own_addr() if not group: addr = self.get_status_field('address') if addr: dev_addr = addr return dev_addr def p2p_listen(self): return self.global_request("P2P_LISTEN") def p2p_ext_listen(self, period, interval): return self.global_request("P2P_EXT_LISTEN %d %d" % (period, interval)) def p2p_cancel_ext_listen(self): return self.global_request("P2P_EXT_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, freq=None): 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, freq=freq) 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: if self.hostname is None: self.gctrl_mon = wpaspy.Ctrl(os.path.join(wpas_ctrl, self.group_ifname)) else: port = self.get_ctrl_iface_port(self.group_ifname) self.gctrl_mon = wpaspy.Ctrl(self.hostname, port) if self.monitor: 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 and "[PERSISTENT]" not in s[8]: 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, freq2=None, max_oper_chwidth=None, ht40=False, vht=False): 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 freq2: cmd = cmd + ' freq2=' + str(freq2) if max_oper_chwidth: cmd = cmd + ' max_oper_chwidth=' + str(max_oper_chwidth) if ht40: cmd = cmd + ' ht40' if vht: cmd = cmd + ' vht' 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=None, expect_failure=False): if timeout is None: timeout = 1 if expect_failure else 5 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, freq2=None, max_oper_chwidth=None, ht40=False, vht=False): 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 is not None: cmd = cmd + ' go_intent=' + str(go_intent) if freq: cmd = cmd + ' freq=' + str(freq) if freq2: cmd = cmd + ' freq2=' + str(freq2) if max_oper_chwidth: cmd = cmd + ' max_oper_chwidth=' + str(max_oper_chwidth) if ht40: cmd = cmd + ' ht40' if vht: cmd = cmd + ' vht' 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: 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, mon, pfx, events, timeout): if not isinstance(events, list): raise Exception("WpaSupplicant._wait_event() called with incorrect events argument type") start = os.times()[4] while True: while mon.pending(): ev = mon.recv() logger.debug(self.dbg + pfx + 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 mon.pending(timeout=remaining): break return None def wait_event(self, events, timeout=10): return self._wait_event(self.mon, ": ", events, timeout) def wait_global_event(self, events, timeout): if self.global_iface is None: return self.wait_event(events, timeout) return self._wait_event(self.global_mon, "(global): ", events, timeout) def wait_group_event(self, events, timeout=10): if not isinstance(events, list): raise Exception("WpaSupplicant.wait_group_event() called with incorrect events argument type") 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_dbg + "(group): " + 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): self.close_monitor_group() timeout = 3 if self.hostname is None else 10 ev = self.wait_global_event(["P2P-GROUP-REMOVED"], timeout=timeout) 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, mon=True, global_mon=True): count_iface = 0 count_global = 0 while mon and self.monitor and self.mon.pending(): ev = self.mon.recv() logger.debug(self.dbg + ": " + ev) count_iface += 1 while global_mon and self.monitor and self.global_mon and self.global_mon.pending(): ev = self.global_mon.recv() logger.debug(self.global_dbg + self.ifname + "(global): " + ev) count_global += 1 return (count_iface, count_global) def remove_group(self, ifname=None): self.close_monitor_group() 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, freq=freq): if social or not self.discover_peer(go_addr, social=social): raise Exception("GO " + go_addr + " not found") self.p2p_stop_find() 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", "P2P-GROUP-FORMATION-FAILURE"], timeout) if ev is None: raise Exception("Joining the group timed out") if "P2P-GROUP-STARTED" not in ev: raise Exception("Failed to join the group") 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.items(): 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 (tsid, up) not 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", "machine_identity", "machine_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", "bgscan", "ht_mcs", "id_str", "openssl_ciphers", "domain_match", "dpp_connector", "sae_password", "sae_password_id", "check_cert_subject", "machine_ca_cert", "machine_client_cert", "machine_private_key", "machine_phase2", "imsi_identity", "imsi_privacy_key"] 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", "freq_list", "eap", "eapol_flags", "fragment_size", "scan_ssid", "auth_alg", "wpa_ptk_rekey", "disable_ht", "disable_vht", "bssid", "disable_he", "disable_max_amsdu", "ampdu_factor", "ampdu_density", "disable_ht40", "disable_sgi", "disable_ldpc", "ht40_intolerant", "update_identifier", "mac_addr", "erp", "bg_scan_period", "bssid_ignore", "bssid_accept", "mem_only_psk", "eap_workaround", "engine", "fils_dh_group", "bssid_hint", "dpp_csign", "dpp_csign_expiry", "dpp_netaccesskey", "dpp_netaccesskey_expiry", "dpp_pfs", "group_mgmt", "owe_group", "owe_only", "owe_ptk_workaround", "transition_disable", "sae_pk", "roaming_consortium_selection", "ocv", "multi_ap_backhaul_sta", "rx_stbc", "tx_stbc", "ft_eap_pmksa_caching", "beacon_prot", "wpa_deny_ptk0_rekey"] for field in not_quoted: if field in kwargs and kwargs[field]: self.set_network(id, field, kwargs[field]) known_args = {"raw_psk", "password_hex", "peerkey", "okc", "ocsp", "only_add_network", "wait_connect", "raw_identity"} unknown = set(kwargs.keys()) unknown -= set(quoted) unknown -= set(not_quoted) unknown -= known_args if unknown: raise Exception("Unknown WpaSupplicant::connect() arguments: " + str(unknown)) if "raw_identity" in kwargs and kwargs['raw_identity']: self.set_network(id, "identity", kwargs['raw_identity']) 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, passive=False): if not no_wait: self.dump_monitor() if type: cmd = "SCAN TYPE=" + type else: cmd = "SCAN" if freq: cmd = cmd + " freq=" + str(freq) if only_new: cmd += " only_new=1" if passive: cmd += " passive=1" if not no_wait: self.dump_monitor() res = self.request(cmd) if "OK" not in res: raise Exception("Failed to trigger scan: " + str(res)) if no_wait: return ev = self.wait_event(["CTRL-EVENT-SCAN-RESULTS", "CTRL-EVENT-SCAN-FAILED"], 15) if ev is None: raise Exception("Scan timed out") if "CTRL-EVENT-SCAN-FAILED" in ev: raise Exception("Scan failed: " + ev) def scan_for_bss(self, bssid, freq=None, force_scan=False, only_new=False, passive=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, passive=passive) 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) res = self.request("SCAN_RESULTS") if len(res.splitlines()) > 1: logger.debug("Scan results remaining after first attempt to flush the results:\n" + res) self.request("BSS_FLUSH 0") self.scan(freq=2422, only_new=True) res = self.request("SCAN_RESULTS") if len(res.splitlines()) > 1: logger.info("flush_scan_cache: Could not clear all BSS entries. These remain:\n" + res) def disconnect_and_stop_scan(self): self.request("DISCONNECT") res = self.request("ABORT_SCAN") for i in range(2 if "OK" in res else 1): self.wait_event(["CTRL-EVENT-DISCONNECTED", "CTRL-EVENT-SCAN-RESULTS"], timeout=0.5) self.dump_monitor() def roam(self, bssid, fail_test=False, assoc_reject_ok=False, check_bssid=True): self.dump_monitor() if "OK" not in self.request("ROAM " + bssid): raise Exception("ROAM failed") if fail_test: if assoc_reject_ok: ev = self.wait_event(["CTRL-EVENT-CONNECTED", "CTRL-EVENT-DISCONNECTED", "CTRL-EVENT-ASSOC-REJECT"], timeout=1) else: ev = self.wait_event(["CTRL-EVENT-CONNECTED", "CTRL-EVENT-DISCONNECTED"], timeout=1) if ev and "CTRL-EVENT-DISCONNECTED" in ev: self.dump_monitor() return if ev is not None and "CTRL-EVENT-ASSOC-REJECT" not in ev: raise Exception("Unexpected connection") self.dump_monitor() return if assoc_reject_ok: ev = self.wait_event(["CTRL-EVENT-CONNECTED", "CTRL-EVENT-DISCONNECTED"], timeout=10) else: ev = self.wait_event(["CTRL-EVENT-CONNECTED", "CTRL-EVENT-DISCONNECTED", "CTRL-EVENT-ASSOC-REJECT"], timeout=10) if ev is None: raise Exception("Roaming with the AP timed out") if "CTRL-EVENT-ASSOC-REJECT" in ev: raise Exception("Roaming association rejected") if "CTRL-EVENT-DISCONNECTED" in ev: raise Exception("Unexpected disconnection when waiting for roam to complete") self.dump_monitor() if check_bssid and self.get_status_field('bssid') != bssid: raise Exception("Did not roam to correct BSSID") 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 ev = self.wait_event(["CTRL-EVENT-CONNECTED", "CTRL-EVENT-ASSOC-REJECT"], timeout=10) if ev is None: raise Exception("Roaming with the AP timed out") if "CTRL-EVENT-ASSOC-REJECT" in ev: raise Exception("Roaming association rejected") 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 + " " + binascii.hexlify(new_ssid.encode()).decode() + " " + key_mgmt + " " + cipher + " " + binascii.hexlify(new_passphrase.encode()).decode()) 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() try: [index, aa, pmkid, expiration, opportunistic] = l.split(' ') cache_id = None except ValueError: [index, aa, pmkid, expiration, opportunistic, cache_id] = l.split(' ') vals['index'] = index vals['pmkid'] = pmkid vals['expiration'] = expiration vals['opportunistic'] = opportunistic if cache_id != None: vals['cache_id'] = cache_id return vals return None def get_pmk(self, network_id): bssid = self.get_status_field('bssid') res = self.request("PMKSA_GET %d" % network_id) for val in res.splitlines(): if val.startswith(bssid): return val.split(' ')[2] 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 field, val = items[2].split('=') if field != "datarate": raise Exception("Unexpected MGMT-RX event format: " + ev) msg['datarate'] = val field, val = items[3].split('=') if field != "ssi_signal": raise Exception("Unexpected MGMT-RX event format: " + ev) msg['ssi_signal'] = val frame = binascii.unhexlify(items[4]) msg['frame'] = frame hdr = struct.unpack('> 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=None, error="Disconnection timed out"): if timeout is None: timeout = 10 if self.hostname is None else 30 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 def asp_provision(self, peer, adv_id, adv_mac, session_id, session_mac, method="1000", info="", status=None, cpt=None, role=None): if status is None: cmd = "P2P_ASP_PROVISION" params = "info='%s' method=%s" % (info, method) else: cmd = "P2P_ASP_PROVISION_RESP" params = "status=%d" % status if role is not None: params += " role=" + role if cpt is not None: params += " cpt=" + cpt if "OK" not in self.global_request("%s %s adv_id=%s adv_mac=%s session=%d session_mac=%s %s" % (cmd, peer, adv_id, adv_mac, session_id, session_mac, params)): raise Exception("%s request failed" % cmd) def note(self, txt): self.request("NOTE " + txt) def save_config(self): if "OK" not in self.request("SAVE_CONFIG"): raise Exception("Failed to save configuration file") def wait_regdom(self, country_ie=False): for i in range(5): ev = self.wait_event(["CTRL-EVENT-REGDOM-CHANGE"], timeout=1) if ev is None: break if country_ie: if "init=COUNTRY_IE" in ev: break else: break def dpp_qr_code(self, uri): res = self.request("DPP_QR_CODE " + uri) if "FAIL" in res: raise Exception("Failed to parse QR Code URI") return int(res) def dpp_nfc_uri(self, uri): res = self.request("DPP_NFC_URI " + uri) if "FAIL" in res: raise Exception("Failed to parse NFC URI") return int(res) def dpp_bootstrap_gen(self, type="qrcode", chan=None, mac=None, info=None, curve=None, key=None, supported_curves=None): cmd = "DPP_BOOTSTRAP_GEN type=" + type if chan: cmd += " chan=" + chan if mac: if mac is True: mac = self.own_addr() cmd += " mac=" + mac.replace(':', '') if info: cmd += " info=" + info if curve: cmd += " curve=" + curve if key: cmd += " key=" + key if supported_curves: cmd += " supported_curves=" + supported_curves res = self.request(cmd) if "FAIL" in res: raise Exception("Failed to generate bootstrapping info") return int(res) def dpp_bootstrap_set(self, id, conf=None, configurator=None, ssid=None, extra=None): cmd = "DPP_BOOTSTRAP_SET %d" % id if ssid: cmd += " ssid=" + binascii.hexlify(ssid.encode()).decode() if extra: cmd += " " + extra if conf: cmd += " conf=" + conf if configurator is not None: cmd += " configurator=%d" % configurator if "OK" not in self.request(cmd): raise Exception("Failed to set bootstrapping parameters") def dpp_listen(self, freq, netrole=None, qr=None, role=None): cmd = "DPP_LISTEN " + str(freq) if netrole: cmd += " netrole=" + netrole if qr: cmd += " qr=" + qr if role: cmd += " role=" + role if "OK" not in self.request(cmd): raise Exception("Failed to start listen operation") def dpp_auth_init(self, peer=None, uri=None, conf=None, configurator=None, extra=None, own=None, role=None, neg_freq=None, ssid=None, passphrase=None, expect_fail=False, tcp_addr=None, tcp_port=None, conn_status=False, ssid_charset=None, nfc_uri=None, netrole=None, csrattrs=None): cmd = "DPP_AUTH_INIT" if peer is None: if nfc_uri: peer = self.dpp_nfc_uri(nfc_uri) else: peer = self.dpp_qr_code(uri) cmd += " peer=%d" % peer if own is not None: cmd += " own=%d" % own if role: cmd += " role=" + role if extra: cmd += " " + extra if conf: cmd += " conf=" + conf if configurator is not None: cmd += " configurator=%d" % configurator if neg_freq: cmd += " neg_freq=%d" % neg_freq if ssid: cmd += " ssid=" + binascii.hexlify(ssid.encode()).decode() if ssid_charset: cmd += " ssid_charset=%d" % ssid_charset if passphrase: cmd += " pass=" + binascii.hexlify(passphrase.encode()).decode() if tcp_addr: cmd += " tcp_addr=" + tcp_addr if tcp_port: cmd += " tcp_port=" + tcp_port if conn_status: cmd += " conn_status=1" if netrole: cmd += " netrole=" + netrole if csrattrs: cmd += " csrattrs=" + csrattrs res = self.request(cmd) if expect_fail: if "FAIL" not in res: raise Exception("DPP authentication started unexpectedly") return if "OK" not in res: raise Exception("Failed to initiate DPP Authentication") return int(peer) def dpp_pkex_init(self, identifier, code, role=None, key=None, curve=None, extra=None, use_id=None, allow_fail=False, ver=None, tcp_addr=None, tcp_port=None): if use_id is None: id1 = self.dpp_bootstrap_gen(type="pkex", key=key, curve=curve) else: id1 = use_id cmd = "own=%d " % id1 if identifier: cmd += "identifier=%s " % identifier cmd += "init=1 " if ver is not None: cmd += "ver=" + str(ver) + " " if role: cmd += "role=%s " % role if tcp_addr: cmd += "tcp_addr=" + tcp_addr + " " if tcp_port: cmd += "tcp_port=" + tcp_port + " " if extra: cmd += extra + " " cmd += "code=%s" % code res = self.request("DPP_PKEX_ADD " + cmd) if allow_fail: return id1 if "FAIL" in res: raise Exception("Failed to set PKEX data (initiator)") return id1 def dpp_pkex_resp(self, freq, identifier, code, key=None, curve=None, listen_role=None, use_id=None): if use_id is None: id0 = self.dpp_bootstrap_gen(type="pkex", key=key, curve=curve) else: id0 = use_id cmd = "own=%d " % id0 if identifier: cmd += "identifier=%s " % identifier cmd += "code=%s" % code res = self.request("DPP_PKEX_ADD " + cmd) if "FAIL" in res: raise Exception("Failed to set PKEX data (responder)") self.dpp_listen(freq, role=listen_role) return id0 def dpp_configurator_add(self, curve=None, key=None, net_access_key_curve=None): cmd = "DPP_CONFIGURATOR_ADD" if curve: cmd += " curve=" + curve if net_access_key_curve: cmd += " net_access_key_curve=" + net_access_key_curve if key: cmd += " key=" + key res = self.request(cmd) if "FAIL" in res: raise Exception("Failed to add configurator") return int(res) def dpp_configurator_set(self, conf_id, net_access_key_curve=None): cmd = "DPP_CONFIGURATOR_SET %d" % conf_id if net_access_key_curve: cmd += " net_access_key_curve=" + net_access_key_curve res = self.request(cmd) if "FAIL" in res: raise Exception("Failed to set configurator") def dpp_configurator_remove(self, conf_id): res = self.request("DPP_CONFIGURATOR_REMOVE %d" % conf_id) if "OK" not in res: raise Exception("DPP_CONFIGURATOR_REMOVE failed") def get_ptksa(self, bssid, cipher): res = self.request("PTKSA_CACHE_LIST") lines = res.splitlines() for l in lines: if bssid not in l or cipher not in l: continue vals = dict() [index, addr, cipher, expiration, tk, kdk] = l.split(' ', 5) vals['index'] = index vals['addr'] = addr vals['cipher'] = cipher vals['expiration'] = expiration vals['tk'] = tk vals['kdk'] = kdk return vals return None