# P2P helper functions # Copyright (c) 2013-2019, Jouni Malinen # # This software may be distributed under the terms of the BSD license. # See README for more details. import logging logger = logging.getLogger() import threading import time try: from Queue import Queue except ImportError: from queue import Queue import hwsim_utils MGMT_SUBTYPE_PROBE_REQ = 4 MGMT_SUBTYPE_ACTION = 13 ACTION_CATEG_PUBLIC = 4 P2P_GO_NEG_REQ = 0 P2P_GO_NEG_RESP = 1 P2P_GO_NEG_CONF = 2 P2P_INVITATION_REQ = 3 P2P_INVITATION_RESP = 4 P2P_DEV_DISC_REQ = 5 P2P_DEV_DISC_RESP = 6 P2P_PROV_DISC_REQ = 7 P2P_PROV_DISC_RESP = 8 P2P_ATTR_STATUS = 0 P2P_ATTR_MINOR_REASON_CODE = 1 P2P_ATTR_CAPABILITY = 2 P2P_ATTR_DEVICE_ID = 3 P2P_ATTR_GROUP_OWNER_INTENT = 4 P2P_ATTR_CONFIGURATION_TIMEOUT = 5 P2P_ATTR_LISTEN_CHANNEL = 6 P2P_ATTR_GROUP_BSSID = 7 P2P_ATTR_EXT_LISTEN_TIMING = 8 P2P_ATTR_INTENDED_INTERFACE_ADDR = 9 P2P_ATTR_MANAGEABILITY = 10 P2P_ATTR_CHANNEL_LIST = 11 P2P_ATTR_NOTICE_OF_ABSENCE = 12 P2P_ATTR_DEVICE_INFO = 13 P2P_ATTR_GROUP_INFO = 14 P2P_ATTR_GROUP_ID = 15 P2P_ATTR_INTERFACE = 16 P2P_ATTR_OPERATING_CHANNEL = 17 P2P_ATTR_INVITATION_FLAGS = 18 P2P_ATTR_OOB_GO_NEG_CHANNEL = 19 P2P_ATTR_SERVICE_HASH = 21 P2P_ATTR_SESSION_INFORMATION_DATA = 22 P2P_ATTR_CONNECTION_CAPABILITY = 23 P2P_ATTR_ADVERTISEMENT_ID = 24 P2P_ATTR_ADVERTISED_SERVICE = 25 P2P_ATTR_SESSION_ID = 26 P2P_ATTR_FEATURE_CAPABILITY = 27 P2P_ATTR_PERSISTENT_GROUP = 28 P2P_ATTR_VENDOR_SPECIFIC = 221 P2P_SC_SUCCESS = 0 P2P_SC_FAIL_INFO_CURRENTLY_UNAVAILABLE = 1 P2P_SC_FAIL_INCOMPATIBLE_PARAMS = 2 P2P_SC_FAIL_LIMIT_REACHED = 3 P2P_SC_FAIL_INVALID_PARAMS = 4 P2P_SC_FAIL_UNABLE_TO_ACCOMMODATE = 5 P2P_SC_FAIL_PREV_PROTOCOL_ERROR = 6 P2P_SC_FAIL_NO_COMMON_CHANNELS = 7 P2P_SC_FAIL_UNKNOWN_GROUP = 8 P2P_SC_FAIL_BOTH_GO_INTENT_15 = 9 P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD = 10 P2P_SC_FAIL_REJECTED_BY_USER = 11 WSC_ATTR_CONFIG_METHODS = 0x1008 WLAN_EID_SSID = 0 WLAN_EID_SUPP_RATES = 1 WLAN_EID_VENDOR_SPECIFIC = 221 def go_neg_pin_authorized_persistent(i_dev, r_dev, i_intent=None, r_intent=None, i_method='enter', r_method='display', test_data=True, r_listen=True): if r_listen: r_dev.p2p_listen() i_dev.p2p_listen() pin = r_dev.wps_read_pin() logger.info("Start GO negotiation " + i_dev.ifname + " -> " + r_dev.ifname) r_dev.p2p_go_neg_auth(i_dev.p2p_dev_addr(), pin, r_method, go_intent=r_intent, persistent=True) if r_listen: r_dev.p2p_listen() i_res = i_dev.p2p_go_neg_init(r_dev.p2p_dev_addr(), pin, i_method, timeout=20, go_intent=i_intent, persistent=True) r_res = r_dev.p2p_go_neg_auth_result() logger.debug("i_res: " + str(i_res)) logger.debug("r_res: " + str(r_res)) r_dev.dump_monitor() i_dev.dump_monitor() logger.info("Group formed") if test_data: hwsim_utils.test_connectivity_p2p(r_dev, i_dev) return [i_res, r_res] def terminate_group(go, cli): logger.info("Terminate persistent group") cli.close_monitor_group() go.remove_group() cli.wait_go_ending_session() def invite(inv, resp, extra=None, persistent_reconnect=True, use_listen=True): addr = resp.p2p_dev_addr() if persistent_reconnect: resp.global_request("SET persistent_reconnect 1") else: resp.global_request("SET persistent_reconnect 0") if use_listen: resp.p2p_listen() else: resp.p2p_find(social=True) if not inv.discover_peer(addr, social=True): raise Exception("Peer " + addr + " not found") inv.dump_monitor() peer = inv.get_peer(addr) cmd = "P2P_INVITE persistent=" + peer['persistent'] + " peer=" + addr if extra: cmd = cmd + " " + extra inv.global_request(cmd) def check_result(go, cli): ev = go.wait_global_event(["P2P-GROUP-STARTED", "Failed to start AP functionality"], timeout=30) if ev is None: raise Exception("Timeout on group re-invocation (on GO)") if "P2P-GROUP-STARTED" not in ev: raise Exception("GO failed to start the group for re-invocation") if "[PERSISTENT]" not in ev: raise Exception("Re-invoked group not marked persistent") go_res = go.group_form_result(ev) if go_res['role'] != 'GO': raise Exception("Persistent group GO did not become GO") if not go_res['persistent']: raise Exception("Persistent group not re-invoked as persistent (GO)") ev = cli.wait_global_event(["P2P-GROUP-STARTED"], timeout=30) if ev is None: raise Exception("Timeout on group re-invocation (on client)") if "[PERSISTENT]" not in ev: raise Exception("Re-invoked group not marked persistent") cli_res = cli.group_form_result(ev) if cli_res['role'] != 'client': raise Exception("Persistent group client did not become client") if not cli_res['persistent']: raise Exception("Persistent group not re-invoked as persistent (cli)") return [go_res, cli_res] def form(go, cli, test_data=True, reverse_init=False, r_listen=True): logger.info("Form a persistent group") if reverse_init: [i_res, r_res] = go_neg_pin_authorized_persistent(i_dev=cli, i_intent=0, r_dev=go, r_intent=15, test_data=test_data, r_listen=r_listen) else: [i_res, r_res] = go_neg_pin_authorized_persistent(i_dev=go, i_intent=15, r_dev=cli, r_intent=0, test_data=test_data, r_listen=r_listen) if not i_res['persistent'] or not r_res['persistent']: raise Exception("Formed group was not persistent") terminate_group(go, cli) if reverse_init: return r_res else: return i_res def invite_from_cli(go, cli, terminate=True): logger.info("Re-invoke persistent group from client") invite(cli, go) [go_res, cli_res] = check_result(go, cli) hwsim_utils.test_connectivity_p2p(go, cli) if terminate: terminate_group(go, cli) return [go_res, cli_res] def invite_from_go(go, cli, terminate=True, extra=None): logger.info("Re-invoke persistent group from GO") invite(go, cli, extra=extra) [go_res, cli_res] = check_result(go, cli) hwsim_utils.test_connectivity_p2p(go, cli) if terminate: terminate_group(go, cli) return [go_res, cli_res] def autogo(go, freq=None, persistent=None): logger.info("Start autonomous GO " + go.ifname) res = go.p2p_start_go(freq=freq, persistent=persistent) logger.debug("res: " + str(res)) return res def connect_cli(go, client, social=False, freq=None): logger.info("Try to connect the client to the GO") pin = client.wps_read_pin() go.p2p_go_authorize_client(pin) res = client.p2p_connect_group(go.p2p_dev_addr(), pin, timeout=60, social=social, freq=freq) logger.info("Client connected") hwsim_utils.test_connectivity_p2p(go, client) return res def check_grpform_results(i_res, r_res): if i_res['result'] != 'success' or r_res['result'] != 'success': raise Exception("Failed group formation") if i_res['ssid'] != r_res['ssid']: raise Exception("SSID mismatch") if i_res['freq'] != r_res['freq']: raise Exception("freq mismatch") if 'go_neg_freq' in r_res and i_res['go_neg_freq'] != r_res['go_neg_freq']: raise Exception("go_neg_freq mismatch") if i_res['freq'] != i_res['go_neg_freq']: raise Exception("freq/go_neg_freq mismatch") if i_res['role'] != i_res['go_neg_role']: raise Exception("role/go_neg_role mismatch") if 'go_neg_role' in r_res and r_res['role'] != r_res['go_neg_role']: raise Exception("role/go_neg_role mismatch") if i_res['go_dev_addr'] != r_res['go_dev_addr']: raise Exception("GO Device Address mismatch") def go_neg_init(i_dev, r_dev, pin, i_method, i_intent, res): logger.debug("Initiate GO Negotiation from i_dev") try: i_res = i_dev.p2p_go_neg_init(r_dev.p2p_dev_addr(), pin, i_method, timeout=20, go_intent=i_intent) logger.debug("i_res: " + str(i_res)) except Exception as e: i_res = None logger.info("go_neg_init thread caught an exception from p2p_go_neg_init: " + str(e)) res.put(i_res) def go_neg_pin(i_dev, r_dev, i_intent=None, r_intent=None, i_method='enter', r_method='display'): r_dev.p2p_listen() i_dev.p2p_listen() pin = r_dev.wps_read_pin() logger.info("Start GO negotiation " + i_dev.ifname + " -> " + r_dev.ifname) r_dev.dump_monitor() res = Queue() t = threading.Thread(target=go_neg_init, args=(i_dev, r_dev, pin, i_method, i_intent, res)) t.start() logger.debug("Wait for GO Negotiation Request on r_dev") ev = r_dev.wait_global_event(["P2P-GO-NEG-REQUEST"], timeout=15) if ev is None: t.join() raise Exception("GO Negotiation timed out") r_dev.dump_monitor() logger.debug("Re-initiate GO Negotiation from r_dev") try: r_res = r_dev.p2p_go_neg_init(i_dev.p2p_dev_addr(), pin, r_method, go_intent=r_intent, timeout=20) except Exception as e: logger.info("go_neg_pin - r_dev.p2p_go_neg_init() exception: " + str(e)) t.join() raise logger.debug("r_res: " + str(r_res)) r_dev.dump_monitor() t.join() i_res = res.get() if i_res is None: raise Exception("go_neg_init thread failed") logger.debug("i_res: " + str(i_res)) logger.info("Group formed") hwsim_utils.test_connectivity_p2p(r_dev, i_dev) i_dev.dump_monitor() return [i_res, r_res] def go_neg_pin_authorized(i_dev, r_dev, i_intent=None, r_intent=None, expect_failure=False, i_go_neg_status=None, i_method='enter', r_method='display', test_data=True, i_freq=None, r_freq=None, i_freq2=None, r_freq2=None, i_max_oper_chwidth=None, r_max_oper_chwidth=None, i_ht40=False, i_vht=False, r_ht40=False, r_vht=False): i_dev.p2p_listen() pin = r_dev.wps_read_pin() logger.info("Start GO negotiation " + i_dev.ifname + " -> " + r_dev.ifname) r_dev.p2p_go_neg_auth(i_dev.p2p_dev_addr(), pin, r_method, go_intent=r_intent, freq=r_freq, freq2=r_freq2, max_oper_chwidth=r_max_oper_chwidth, ht40=r_ht40, vht=r_vht) r_dev.p2p_listen() i_res = i_dev.p2p_go_neg_init(r_dev.p2p_dev_addr(), pin, i_method, timeout=20, go_intent=i_intent, expect_failure=expect_failure, freq=i_freq, freq2=i_freq2, max_oper_chwidth=i_max_oper_chwidth, ht40=i_ht40, vht=i_vht) r_res = r_dev.p2p_go_neg_auth_result(expect_failure=expect_failure) logger.debug("i_res: " + str(i_res)) logger.debug("r_res: " + str(r_res)) r_dev.dump_monitor() i_dev.dump_monitor() if i_go_neg_status: if i_res['result'] != 'go-neg-failed': raise Exception("Expected GO Negotiation failure not reported") if i_res['status'] != i_go_neg_status: raise Exception("Expected GO Negotiation status not seen") if expect_failure: return logger.info("Group formed") if test_data: hwsim_utils.test_connectivity_p2p(r_dev, i_dev) return [i_res, r_res] def go_neg_init_pbc(i_dev, r_dev, i_intent, res, freq, provdisc): logger.debug("Initiate GO Negotiation from i_dev") try: i_res = i_dev.p2p_go_neg_init(r_dev.p2p_dev_addr(), None, "pbc", timeout=20, go_intent=i_intent, freq=freq, provdisc=provdisc) logger.debug("i_res: " + str(i_res)) except Exception as e: i_res = None logger.info("go_neg_init_pbc thread caught an exception from p2p_go_neg_init: " + str(e)) res.put(i_res) def go_neg_pbc(i_dev, r_dev, i_intent=None, r_intent=None, i_freq=None, r_freq=None, provdisc=False, r_listen=False): if r_listen: r_dev.p2p_listen() else: r_dev.p2p_find(social=True) i_dev.p2p_find(social=True) logger.info("Start GO negotiation " + i_dev.ifname + " -> " + r_dev.ifname) r_dev.dump_monitor() res = Queue() t = threading.Thread(target=go_neg_init_pbc, args=(i_dev, r_dev, i_intent, res, i_freq, provdisc)) t.start() logger.debug("Wait for GO Negotiation Request on r_dev") ev = r_dev.wait_global_event(["P2P-GO-NEG-REQUEST"], timeout=15) if ev is None: t.join() raise Exception("GO Negotiation timed out") r_dev.dump_monitor() # Allow some time for the GO Neg Resp to go out before initializing new # GO Negotiation. time.sleep(0.2) logger.debug("Re-initiate GO Negotiation from r_dev") try: r_res = r_dev.p2p_go_neg_init(i_dev.p2p_dev_addr(), None, "pbc", go_intent=r_intent, timeout=20, freq=r_freq) except Exception as e: logger.info("go_neg_pbc - r_dev.p2p_go_neg_init() exception: " + str(e)) t.join() raise logger.debug("r_res: " + str(r_res)) r_dev.dump_monitor() t.join() i_res = res.get() if i_res is None: raise Exception("go_neg_init_pbc thread failed") logger.debug("i_res: " + str(i_res)) logger.info("Group formed") hwsim_utils.test_connectivity_p2p(r_dev, i_dev) i_dev.dump_monitor() return [i_res, r_res] def go_neg_pbc_authorized(i_dev, r_dev, i_intent=None, r_intent=None, expect_failure=False, i_freq=None, r_freq=None): i_dev.p2p_listen() logger.info("Start GO negotiation " + i_dev.ifname + " -> " + r_dev.ifname) r_dev.p2p_go_neg_auth(i_dev.p2p_dev_addr(), None, "pbc", go_intent=r_intent, freq=r_freq) r_dev.p2p_listen() i_res = i_dev.p2p_go_neg_init(r_dev.p2p_dev_addr(), None, "pbc", timeout=20, go_intent=i_intent, expect_failure=expect_failure, freq=i_freq) r_res = r_dev.p2p_go_neg_auth_result(expect_failure=expect_failure) logger.debug("i_res: " + str(i_res)) logger.debug("r_res: " + str(r_res)) r_dev.dump_monitor() i_dev.dump_monitor() if expect_failure: return logger.info("Group formed") return [i_res, r_res] def remove_group(dev1, dev2, allow_failure=False): try: dev1.remove_group() except: if not allow_failure: raise try: dev2.remove_group() except: pass