# # Copyright 2018 - The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from acts import asserts from acts.test_decorators import test_tracker_info from acts.test_utils.net.net_test_utils import start_tcpdump from acts.test_utils.net.net_test_utils import stop_tcpdump from acts.test_utils.wifi.WifiBaseTest import WifiBaseTest from acts.test_utils.wifi import wifi_test_utils as wutils import acts.base_test import acts.test_utils.wifi.wifi_test_utils as wutils import copy import os import random import time WifiEnums = wutils.WifiEnums RA_SCRIPT = 'sendra.py' SCAPY = 'scapy-2.2.0.tar.gz' SCAPY_INSTALL_COMMAND = 'sudo python setup.py install' PROC_NET_SNMP6 = '/proc/net/snmp6' LIFETIME_FRACTION = 6 LIFETIME = 180 INTERVAL = 2 class ApfCountersTest(WifiBaseTest): def __init__(self, controllers): WifiBaseTest.__init__(self, controllers) self.tests = ("test_IPv6_RA_packets", "test_IPv6_RA_with_RTT", ) def setup_class(self): self.dut = self.android_devices[0] wutils.wifi_test_device_init(self.dut) req_params = [] opt_param = ["reference_networks", ] self.unpack_userparams( req_param_names=req_params, opt_param_names=opt_param) if "AccessPoint" in self.user_params: self.legacy_configure_ap_and_start() asserts.assert_true( len(self.reference_networks) > 0, "Need at least one reference network with psk.") wutils.wifi_toggle_state(self.dut, True) self.wpapsk_2g = self.reference_networks[0]["2g"] self.wpapsk_5g = self.reference_networks[0]["5g"] # install scapy current_dir = os.path.dirname(os.path.realpath(__file__)) send_ra = os.path.join(current_dir, RA_SCRIPT) send_scapy = os.path.join(current_dir, SCAPY) self.access_points[0].install_scapy(send_scapy, send_ra) self.tcpdump_pid = None def setup_test(self): self.tcpdump_pid = start_tcpdump(self.dut, self.test_name) def teardown_test(self): stop_tcpdump(self.dut, self.tcpdump_pid, self.test_name) def on_fail(self, test_name, begin_time): self.dut.take_bug_report(test_name, begin_time) self.dut.cat_adb_log(test_name, begin_time) def teardown_class(self): if "AccessPoint" in self.user_params: del self.user_params["reference_networks"] self.access_points[0].cleanup_scapy() wutils.reset_wifi(self.dut) """ Helper methods """ def _get_icmp6intype134(self): """ Get ICMP6 Type 134 packet count on the DUT Returns: Number of ICMP6 type 134 packets """ cmd = "grep Icmp6InType134 %s || true" % PROC_NET_SNMP6 ra_count = self.dut.adb.shell(cmd) if not ra_count: return 0 ra_count = int(ra_count.split()[-1].rstrip()) self.dut.log.info("RA Count %s:" % ra_count) return ra_count """ Tests """ @test_tracker_info(uuid="bc8d3f27-582a-464a-be30-556f07b77ee1") def test_IPv6_RA_packets(self): """ Test if the device filters the IPv6 packets Steps: 1. Send a RA packet to DUT. DUT should accept this 2. Send duplicate RA packets. The RA packets should be filtered for the next 30 seconds (1/6th of RA lifetime) 3. The next RA packets should be accepted """ # get mac address of the dut ap = self.access_points[0] wifi_network = copy.deepcopy(self.wpapsk_5g) wifi_network['meteredOverride'] = 1 wutils.connect_to_wifi_network(self.dut, wifi_network) mac_addr = self.dut.droid.wifiGetConnectionInfo()['mac_address'] self.log.info("mac_addr %s" % mac_addr) time.sleep(30) # wait 30 sec before sending RAs # get the current ra count ra_count = self._get_icmp6intype134() # Start scapy to send RA to the phone's MAC ap.send_ra('wlan1', mac_addr, 0, 1) # get the latest ra count ra_count_latest = self._get_icmp6intype134() asserts.assert_true(ra_count_latest == ra_count + 1, "Device dropped the first RA in sequence") # Generate and send 'x' number of duplicate RAs, for 1/6th of the the # lifetime of the original RA. Test assumes that the original RA has a # lifetime of 180s. Hence, all RAs received within the next 30s of the # original RA should be filtered. ra_count = ra_count_latest count = LIFETIME / LIFETIME_FRACTION / INTERVAL ap.send_ra('wlan1', mac_addr, interval=INTERVAL, count=count) # Fail test if at least 90% of RAs were not dropped. ra_count_latest = self._get_icmp6intype134() pkt_loss = count - (ra_count_latest - ra_count) percentage_loss = float(pkt_loss) / count * 100 asserts.assert_true(percentage_loss >= 90, "Device did not filter " "duplicate RAs correctly. %d Percent of duplicate" " RAs were accepted" % (100 - percentage_loss)) # Any new RA after this should be accepted. ap.send_ra('wlan1', mac_addr, interval=INTERVAL, count=1) ra_count_latest = self._get_icmp6intype134() asserts.assert_true(ra_count_latest == ra_count + 1, "Device did not accept new RA after 1/6th time " "interval. Device dropped a valid RA in sequence.") @test_tracker_info(uuid="d2a0aff0-048c-475f-9bba-d90d8d9ebae3") def test_IPv6_RA_with_RTT(self): """Test if the device filters IPv6 RA packets with different re-trans time Steps: 1. Get the current RA count 2. Send 400 packets with different re-trans time 3. Verify that RA count increased by 400 4. Verify internet connectivity """ pkt_num = 400 rtt_list = random.sample(range(10, 10000), pkt_num) # get mac address of the dut ap = self.access_points[0] wutils.connect_to_wifi_network(self.dut, self.wpapsk_5g) mac_addr = self.dut.droid.wifiGetConnectionInfo()['mac_address'] self.log.info("mac_addr %s" % mac_addr) time.sleep(30) # wait 30 sec before sending RAs # get the current ra count ra_count = self._get_icmp6intype134() # send RA with differnt re-trans time for rtt in rtt_list: ap.send_ra('wlan1', mac_addr, 0, 1, rtt=rtt) # get the new RA count new_ra_count = self._get_icmp6intype134() asserts.assert_true(new_ra_count == ra_count + pkt_num, "Device did not accept all RAs") # verify if internet connectivity works after sending RA packets wutils.validate_connection(self.dut)