# hwsim testing utilities # Copyright (c) 2013-2014, 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 logger = logging.getLogger() from wpasupplicant import WpaSupplicant def config_data_test(dev1, dev2, dev1group, dev2group, ifname1, ifname2): cmd = "DATA_TEST_CONFIG 1" if ifname1: cmd = cmd + " ifname=" + ifname1 if dev1group: res = dev1.group_request(cmd) else: res = dev1.request(cmd) if "OK" not in res: raise Exception("Failed to enable data test functionality") cmd = "DATA_TEST_CONFIG 1" if ifname2: cmd = cmd + " ifname=" + ifname2 if dev2group: res = dev2.group_request(cmd) else: res = dev2.request(cmd) if "OK" not in res: raise Exception("Failed to enable data test functionality") def run_multicast_connectivity_test(dev1, dev2, tos=None, dev1group=False, dev2group=False, ifname1=None, ifname2=None, config=True, timeout=5, send_len=None, multicast_to_unicast=False, broadcast_retry_c=1): addr1 = dev1.get_addr(dev1group) addr2 = dev2.get_addr(dev2group) if config: config_data_test(dev1, dev2, dev1group, dev2group, ifname1, ifname2) cmd = "DATA_TEST_TX ff:ff:ff:ff:ff:ff {} {}".format(addr1, tos) if send_len is not None: cmd += " len=" + str(send_len) for i in range(broadcast_retry_c): try: if dev1group: dev1.group_request(cmd) else: dev1.request(cmd) if dev2group: ev = dev2.wait_group_event(["DATA-TEST-RX"], timeout=timeout) else: ev = dev2.wait_event(["DATA-TEST-RX"], timeout=timeout) if ev is None: raise Exception("dev1->dev2 broadcast data delivery failed") if multicast_to_unicast: if "DATA-TEST-RX ff:ff:ff:ff:ff:ff {}".format(addr1) in ev: raise Exception("Unexpected dev1->dev2 broadcast data result: multicast to unicast conversion missing") if "DATA-TEST-RX {} {}".format(addr2, addr1) not in ev: raise Exception("Unexpected dev1->dev2 broadcast data result (multicast to unicast enabled)") else: if "DATA-TEST-RX ff:ff:ff:ff:ff:ff {}".format(addr1) not in ev: raise Exception("Unexpected dev1->dev2 broadcast data result") if send_len is not None: if " len=" + str(send_len) not in ev: raise Exception("Unexpected dev1->dev2 broadcast data length") else: if " len=" in ev: raise Exception("Unexpected dev1->dev2 broadcast data length") break except Exception as e: if i == broadcast_retry_c - 1: raise def run_connectivity_test(dev1, dev2, tos, dev1group=False, dev2group=False, ifname1=None, ifname2=None, config=True, timeout=5, multicast_to_unicast=False, broadcast=True, send_len=None): addr1 = dev1.get_addr(dev1group) addr2 = dev2.get_addr(dev2group) dev1.dump_monitor() dev2.dump_monitor() if dev1.hostname is None and dev2.hostname is None: broadcast_retry_c = 1 else: broadcast_retry_c = 10 try: if config: config_data_test(dev1, dev2, dev1group, dev2group, ifname1, ifname2) cmd = "DATA_TEST_TX {} {} {}".format(addr2, addr1, tos) if send_len is not None: cmd += " len=" + str(send_len) if dev1group: dev1.group_request(cmd) else: dev1.request(cmd) if dev2group: ev = dev2.wait_group_event(["DATA-TEST-RX"], timeout=timeout) else: ev = dev2.wait_event(["DATA-TEST-RX"], timeout=timeout) if ev is None: raise Exception("dev1->dev2 unicast data delivery failed") if "DATA-TEST-RX {} {}".format(addr2, addr1) not in ev: raise Exception("Unexpected dev1->dev2 unicast data result") if send_len is not None: if " len=" + str(send_len) not in ev: raise Exception("Unexpected dev1->dev2 unicast data length") else: if " len=" in ev: raise Exception("Unexpected dev1->dev2 unicast data length") if broadcast: run_multicast_connectivity_test(dev1, dev2, tos, dev1group, dev2group, ifname1, ifname2, False, timeout, send_len, False, broadcast_retry_c) cmd = "DATA_TEST_TX {} {} {}".format(addr1, addr2, tos) if send_len is not None: cmd += " len=" + str(send_len) if dev2group: dev2.group_request(cmd) else: dev2.request(cmd) if dev1group: ev = dev1.wait_group_event(["DATA-TEST-RX"], timeout=timeout) else: ev = dev1.wait_event(["DATA-TEST-RX"], timeout=timeout) if ev is None: raise Exception("dev2->dev1 unicast data delivery failed") if "DATA-TEST-RX {} {}".format(addr1, addr2) not in ev: raise Exception("Unexpected dev2->dev1 unicast data result") if send_len is not None: if " len=" + str(send_len) not in ev: raise Exception("Unexpected dev2->dev1 unicast data length") else: if " len=" in ev: raise Exception("Unexpected dev2->dev1 unicast data length") if broadcast: run_multicast_connectivity_test(dev2, dev1, tos, dev2group, dev1group, ifname2, ifname1, False, timeout, send_len, multicast_to_unicast, broadcast_retry_c) finally: if config: if dev1group: dev1.group_request("DATA_TEST_CONFIG 0") else: dev1.request("DATA_TEST_CONFIG 0") if dev2group: dev2.group_request("DATA_TEST_CONFIG 0") else: dev2.request("DATA_TEST_CONFIG 0") def test_connectivity(dev1, dev2, dscp=None, tos=None, max_tries=1, dev1group=False, dev2group=False, ifname1=None, ifname2=None, config=True, timeout=5, multicast_to_unicast=False, success_expected=True, broadcast=True, send_len=None): if dscp: tos = dscp << 2 if not tos: tos = 0 success = False last_err = None for i in range(0, max_tries): try: run_connectivity_test(dev1, dev2, tos, dev1group, dev2group, ifname1, ifname2, config=config, timeout=timeout, multicast_to_unicast=multicast_to_unicast, broadcast=broadcast, send_len=send_len) success = True break except Exception as e: last_err = e if i + 1 < max_tries: time.sleep(1) if success_expected and not success: raise Exception(last_err) if not success_expected and success: raise Exception("Unexpected connectivity detected") def test_connectivity_iface(dev1, dev2, ifname, dscp=None, tos=None, max_tries=1, timeout=5): test_connectivity(dev1, dev2, dscp, tos, ifname2=ifname, max_tries=max_tries, timeout=timeout) def test_connectivity_p2p(dev1, dev2, dscp=None, tos=None): test_connectivity(dev1, dev2, dscp, tos, dev1group=True, dev2group=True) def test_connectivity_p2p_sta(dev1, dev2, dscp=None, tos=None): test_connectivity(dev1, dev2, dscp, tos, dev1group=True, dev2group=False) def test_connectivity_sta(dev1, dev2, dscp=None, tos=None): test_connectivity(dev1, dev2, dscp, tos) (PS_DISABLED, PS_ENABLED, PS_AUTO_POLL, PS_MANUAL_POLL) = list(range(4)) def set_powersave(dev, val): phy = dev.get_driver_status_field("phyname") fname = '/sys/kernel/debug/ieee80211/%s/hwsim/ps' % phy data = '%d' % val (res, data) = dev.cmd_execute(["echo", data, ">", fname], shell=True) if res != 0: raise Exception("Failed to set power save for device") def set_group_map(dev, val): phy = dev.get_driver_status_field("phyname") fname = '/sys/kernel/debug/ieee80211/%s/hwsim/group' % phy data = '%d' % val (res, data) = dev.cmd_execute(["echo", data, ">", fname], shell=True) if res != 0: raise Exception("Failed to set group map for %s" % phy) def set_rx_rssi(dev, val): """ Configure signal strength when receiving transmitted frames. mac80211_hwsim driver sets rssi to: TX power - 50 According to that set tx_power in order to get the desired RSSI. Valid RSSI range: -50 to -30. """ tx_power = (val + 50) * 100 ifname = dev.get_driver_status_field("ifname") (res, data) = dev.cmd_execute(['iw', ifname, 'set', 'txpower', 'fixed', str(tx_power)]) if res != 0: raise Exception("Failed to set RSSI to %d" % val) def reset_rx_rssi(dev): set_rx_rssi(dev, -30)