#!/usr/bin/python3.4 # # Copyright 2017 - 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. import queue import time from acts import asserts from acts.test_decorators import test_tracker_info from acts.test_utils.wifi.aware import aware_const as aconsts from acts.test_utils.wifi.aware import aware_test_utils as autils from acts.test_utils.wifi.aware.AwareBaseTest import AwareBaseTest from acts.test_utils.wifi.rtt import rtt_const as rconsts from acts.test_utils.wifi.rtt import rtt_test_utils as rutils from acts.test_utils.wifi.rtt.RttBaseTest import RttBaseTest class RangeAwareTest(AwareBaseTest, RttBaseTest): """Test class for RTT ranging to Wi-Fi Aware peers""" SERVICE_NAME = "GoogleTestServiceXY" # Number of RTT iterations NUM_ITER = 10 # Time gap (in seconds) between iterations TIME_BETWEEN_ITERATIONS = 0 # Time gap (in seconds) when switching between Initiator and Responder TIME_BETWEEN_ROLES = 4 def setup_test(self): """Manual setup here due to multiple inheritance: explicitly execute the setup method from both parents. """ AwareBaseTest.setup_test(self) RttBaseTest.setup_test(self) def teardown_test(self): """Manual teardown here due to multiple inheritance: explicitly execute the teardown method from both parents. """ AwareBaseTest.teardown_test(self) RttBaseTest.teardown_test(self) ############################################################################# def run_rtt_discovery(self, init_dut, resp_mac=None, resp_peer_id=None): """Perform single RTT measurement, using Aware, from the Initiator DUT to a Responder. The RTT Responder can be specified using its MAC address (obtained using out- of-band discovery) or its Peer ID (using Aware discovery). Args: init_dut: RTT Initiator device resp_mac: MAC address of the RTT Responder device resp_peer_id: Peer ID of the RTT Responder device """ asserts.assert_true( resp_mac is not None or resp_peer_id is not None, "One of the Responder specifications (MAC or Peer ID)" " must be provided!") if resp_mac is not None: id = init_dut.droid.wifiRttStartRangingToAwarePeerMac(resp_mac) else: id = init_dut.droid.wifiRttStartRangingToAwarePeerId(resp_peer_id) event_name = rutils.decorate_event(rconsts.EVENT_CB_RANGING_ON_RESULT, id) try: event = init_dut.ed.pop_event(event_name, rutils.EVENT_TIMEOUT) result = event["data"][rconsts.EVENT_CB_RANGING_KEY_RESULTS][0] if resp_mac is not None: rutils.validate_aware_mac_result(result, resp_mac, "DUT") else: rutils.validate_aware_peer_id_result(result, resp_peer_id, "DUT") return result except queue.Empty: self.log.warning("Timed-out waiting for %s", event_name) return None def run_rtt_ib_discovery_set(self, do_both_directions, iter_count, time_between_iterations, time_between_roles): """Perform a set of RTT measurements, using in-band (Aware) discovery. Args: do_both_directions: False - perform all measurements in one direction, True - perform 2 measurements one in both directions. iter_count: Number of measurements to perform. time_between_iterations: Number of seconds to wait between iterations. time_between_roles: Number of seconds to wait when switching between Initiator and Responder roles (only matters if do_both_directions=True). Returns: a list of the events containing the RTT results (or None for a failed measurement). If both directions are tested then returns a list of 2 elements: one set for each direction. """ p_dut = self.android_devices[0] s_dut = self.android_devices[1] (p_id, s_id, p_disc_id, s_disc_id, peer_id_on_sub, peer_id_on_pub) = autils.create_discovery_pair( p_dut, s_dut, p_config=autils.add_ranging_to_pub( autils.create_discovery_config( self.SERVICE_NAME, aconsts.PUBLISH_TYPE_UNSOLICITED), True), s_config=autils.add_ranging_to_pub( autils.create_discovery_config( self.SERVICE_NAME, aconsts.SUBSCRIBE_TYPE_PASSIVE), True), device_startup_offset=self.device_startup_offset, msg_id=self.get_next_msg_id()) resultsPS = [] resultsSP = [] for i in range(iter_count): if i != 0 and time_between_iterations != 0: time.sleep(time_between_iterations) # perform RTT from pub -> sub resultsPS.append( self.run_rtt_discovery(p_dut, resp_peer_id=peer_id_on_pub)) if do_both_directions: if time_between_roles != 0: time.sleep(time_between_roles) # perform RTT from sub -> pub resultsSP.append( self.run_rtt_discovery(s_dut, resp_peer_id=peer_id_on_sub)) return resultsPS if not do_both_directions else [resultsPS, resultsSP] def run_rtt_oob_discovery_set(self, do_both_directions, iter_count, time_between_iterations, time_between_roles): """Perform a set of RTT measurements, using out-of-band discovery. Args: do_both_directions: False - perform all measurements in one direction, True - perform 2 measurements one in both directions. iter_count: Number of measurements to perform. time_between_iterations: Number of seconds to wait between iterations. time_between_roles: Number of seconds to wait when switching between Initiator and Responder roles (only matters if do_both_directions=True). enable_ranging: True to enable Ranging, False to disable. Returns: a list of the events containing the RTT results (or None for a failed measurement). If both directions are tested then returns a list of 2 elements: one set for each direction. """ dut0 = self.android_devices[0] dut1 = self.android_devices[1] id0, mac0 = autils.attach_with_identity(dut0) id1, mac1 = autils.attach_with_identity(dut1) # wait for for devices to synchronize with each other - there are no other # mechanisms to make sure this happens for OOB discovery (except retrying # to execute the data-path request) time.sleep(autils.WAIT_FOR_CLUSTER) # start publisher(s) on the Responder(s) with ranging enabled p_config = autils.add_ranging_to_pub( autils.create_discovery_config(self.SERVICE_NAME, aconsts.PUBLISH_TYPE_UNSOLICITED), enable_ranging=True) dut1.droid.wifiAwarePublish(id1, p_config) autils.wait_for_event(dut1, aconsts.SESSION_CB_ON_PUBLISH_STARTED) if do_both_directions: dut0.droid.wifiAwarePublish(id0, p_config) autils.wait_for_event(dut0, aconsts.SESSION_CB_ON_PUBLISH_STARTED) results01 = [] results10 = [] for i in range(iter_count): if i != 0 and time_between_iterations != 0: time.sleep(time_between_iterations) # perform RTT from dut0 -> dut1 results01.append(self.run_rtt_discovery(dut0, resp_mac=mac1)) if do_both_directions: if time_between_roles != 0: time.sleep(time_between_roles) # perform RTT from dut1 -> dut0 results10.append(self.run_rtt_discovery(dut1, resp_mac=mac0)) return results01 if not do_both_directions else [results01, results10] def verify_results(self, results, results_reverse_direction=None, accuracy_evaluation=False): """Verifies the results of the RTT experiment. Args: results: List of RTT results. results_reverse_direction: List of RTT results executed in the reverse direction. Optional. accuracy_evaluation: False - only evaluate success rate. True - evaluate both success rate and accuracy default is False. """ stats = rutils.extract_stats(results, self.rtt_reference_distance_mm, self.rtt_reference_distance_margin_mm, self.rtt_min_expected_rssi_dbm) stats_reverse_direction = None if results_reverse_direction is not None: stats_reverse_direction = rutils.extract_stats( results_reverse_direction, self.rtt_reference_distance_mm, self.rtt_reference_distance_margin_mm, self.rtt_min_expected_rssi_dbm) self.log.debug("Stats: %s", stats) if stats_reverse_direction is not None: self.log.debug("Stats in reverse direction: %s", stats_reverse_direction) extras = stats if stats_reverse_direction is None else { "forward": stats, "reverse": stats_reverse_direction } asserts.assert_true( stats['num_no_results'] == 0, "Missing (timed-out) results", extras=extras) asserts.assert_false( stats['any_lci_mismatch'], "LCI mismatch", extras=extras) asserts.assert_false( stats['any_lcr_mismatch'], "LCR mismatch", extras=extras) asserts.assert_false( stats['invalid_num_attempted'], "Invalid (0) number of attempts", extras=stats) asserts.assert_false( stats['invalid_num_successful'], "Invalid (0) number of successes", extras=stats) asserts.assert_equal( stats['num_invalid_rssi'], 0, "Invalid RSSI", extras=extras) asserts.assert_true( stats['num_failures'] <= self.rtt_max_failure_rate_two_sided_rtt_percentage * stats['num_results'] / 100, "Failure rate is too high", extras=extras) if accuracy_evaluation: asserts.assert_true( stats['num_range_out_of_margin'] <= self.rtt_max_margin_exceeded_rate_two_sided_rtt_percentage * stats['num_success_results'] / 100, "Results exceeding error margin rate is too high", extras=extras) if stats_reverse_direction is not None: asserts.assert_true( stats_reverse_direction['num_no_results'] == 0, "Missing (timed-out) results", extras=extras) asserts.assert_false( stats_reverse_direction['any_lci_mismatch'], "LCI mismatch", extras=extras) asserts.assert_false( stats_reverse_direction['any_lcr_mismatch'], "LCR mismatch", extras=extras) asserts.assert_equal( stats_reverse_direction['num_invalid_rssi'], 0, "Invalid RSSI", extras=extras) asserts.assert_true( stats_reverse_direction['num_failures'] <= self.rtt_max_failure_rate_two_sided_rtt_percentage * stats_reverse_direction['num_results'] / 100, "Failure rate is too high", extras=extras) if accuracy_evaluation: asserts.assert_true( stats_reverse_direction['num_range_out_of_margin'] <= self.rtt_max_margin_exceeded_rate_two_sided_rtt_percentage * stats_reverse_direction['num_success_results'] / 100, "Results exceeding error margin rate is too high", extras=extras) asserts.explicit_pass("RTT Aware test done", extras=extras) ############################################################################# @test_tracker_info(uuid="9e4e7ab4-2254-498c-9788-21e15ed9a370") def test_rtt_oob_discovery_one_way(self): """Perform RTT between 2 Wi-Fi Aware devices. Use out-of-band discovery to communicate the MAC addresses to the peer. Test one-direction RTT only. Functionality test: Only evaluate success rate. """ rtt_results = self.run_rtt_oob_discovery_set( do_both_directions=False, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results) @test_tracker_info(uuid="22edba77-eeb2-43ee-875a-84437550ad84") def test_rtt_oob_discovery_both_ways(self): """Perform RTT between 2 Wi-Fi Aware devices. Use out-of-band discovery to communicate the MAC addresses to the peer. Test RTT both-ways: switching rapidly between Initiator and Responder. Functionality test: Only evaluate success rate. """ rtt_results1, rtt_results2 = self.run_rtt_oob_discovery_set( do_both_directions=True, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results1, rtt_results2) @test_tracker_info(uuid="18cef4be-95b4-4f7d-a140-5165874e7d1c") def test_rtt_ib_discovery_one_way(self): """Perform RTT between 2 Wi-Fi Aware devices. Use in-band (Aware) discovery to communicate the MAC addresses to the peer. Test one-direction RTT only. Functionality test: Only evaluate success rate. """ rtt_results = self.run_rtt_ib_discovery_set( do_both_directions=False, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results) @test_tracker_info(uuid="c67c8e70-c417-42d9-9bca-af3a89f1ddd9") def test_rtt_ib_discovery_both_ways(self): """Perform RTT between 2 Wi-Fi Aware devices. Use in-band (Aware) discovery to communicate the MAC addresses to the peer. Test RTT both-ways: switching rapidly between Initiator and Responder. Functionality test: Only evaluate success rate. """ rtt_results1, rtt_results2 = self.run_rtt_ib_discovery_set( do_both_directions=True, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results1, rtt_results2) @test_tracker_info(uuid="3a1d19a2-7241-49e0-aaf2-0a1da4c29783") def test_rtt_oob_discovery_one_way_with_accuracy_evaluation(self): """Perform RTT between 2 Wi-Fi Aware devices. Use out-of-band discovery to communicate the MAC addresses to the peer. Test one-direction RTT only. Performance test: evaluate success rate and accuracy. """ rtt_results = self.run_rtt_oob_discovery_set( do_both_directions=False, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results, accuracy_evaluation=True) @test_tracker_info(uuid="82f954a5-c0ec-4bc6-8940-3b72199328ac") def test_rtt_oob_discovery_both_ways_with_accuracy_evaluation(self): """Perform RTT between 2 Wi-Fi Aware devices. Use out-of-band discovery to communicate the MAC addresses to the peer. Test RTT both-ways: switching rapidly between Initiator and Responder. Performance test: evaluate success rate and accuracy. """ rtt_results1, rtt_results2 = self.run_rtt_oob_discovery_set( do_both_directions=True, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results1, rtt_results2, accuracy_evaluation=True) @test_tracker_info(uuid="4194e00c-ea49-488e-b67f-ad9360daa5fa") def test_rtt_ib_discovery_one_way_with_accuracy_evaluation(self): """Perform RTT between 2 Wi-Fi Aware devices. Use in-band (Aware) discovery to communicate the MAC addresses to the peer. Test one-direction RTT only. Performance test: evaluate success rate and accuracy. """ rtt_results = self.run_rtt_ib_discovery_set( do_both_directions=False, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results, accuracy_evaluation=True) @test_tracker_info(uuid="bea3ac8b-756d-4cd8-8936-b8bfe64676c9") def test_rtt_ib_discovery_both_ways_with_accuracy_evaluation(self): """Perform RTT between 2 Wi-Fi Aware devices. Use in-band (Aware) discovery to communicate the MAC addresses to the peer. Test RTT both-ways: switching rapidly between Initiator and Responder. Performance test: evaluate success rate and accuracy. """ rtt_results1, rtt_results2 = self.run_rtt_ib_discovery_set( do_both_directions=True, iter_count=self.NUM_ITER, time_between_iterations=self.TIME_BETWEEN_ITERATIONS, time_between_roles=self.TIME_BETWEEN_ROLES) self.verify_results(rtt_results1, rtt_results2, accuracy_evaluation=True) @test_tracker_info(uuid="54f9693d-45e5-4979-adbb-1b875d217c0c") def test_rtt_without_initiator_aware(self): """Try to perform RTT operation when there is no local Aware session (on the Initiator). The Responder is configured normally: Aware on and a Publisher with Ranging enable. Should FAIL. """ init_dut = self.android_devices[0] resp_dut = self.android_devices[1] # Enable a Responder and start a Publisher resp_id = resp_dut.droid.wifiAwareAttach(True) autils.wait_for_event(resp_dut, aconsts.EVENT_CB_ON_ATTACHED) resp_ident_event = autils.wait_for_event( resp_dut, aconsts.EVENT_CB_ON_IDENTITY_CHANGED) resp_mac = resp_ident_event['data']['mac'] resp_config = autils.add_ranging_to_pub( autils.create_discovery_config(self.SERVICE_NAME, aconsts.PUBLISH_TYPE_UNSOLICITED), enable_ranging=True) resp_dut.droid.wifiAwarePublish(resp_id, resp_config) autils.wait_for_event(resp_dut, aconsts.SESSION_CB_ON_PUBLISH_STARTED) # Initiate an RTT to Responder (no Aware started on Initiator!) results = [] num_no_responses = 0 num_successes = 0 for i in range(self.NUM_ITER): result = self.run_rtt_discovery(init_dut, resp_mac=resp_mac) self.log.debug("result: %s", result) results.append(result) if result is None: num_no_responses = num_no_responses + 1 elif (result[rconsts.EVENT_CB_RANGING_KEY_STATUS] == rconsts.EVENT_CB_RANGING_STATUS_SUCCESS): num_successes = num_successes + 1 asserts.assert_equal( num_no_responses, 0, "No RTT response?", extras={"data": results}) asserts.assert_equal( num_successes, 0, "Aware RTT w/o Aware should FAIL!", extras={"data": results}) asserts.explicit_pass("RTT Aware test done", extras={"data": results}) @test_tracker_info(uuid="87a69053-8261-4928-8ec1-c93aac7f3a8d") def test_rtt_without_responder_aware(self): """Try to perform RTT operation when there is no peer Aware session (on the Responder). Should FAIL.""" init_dut = self.android_devices[0] resp_dut = self.android_devices[1] # Enable a Responder and start a Publisher resp_id = resp_dut.droid.wifiAwareAttach(True) autils.wait_for_event(resp_dut, aconsts.EVENT_CB_ON_ATTACHED) resp_ident_event = autils.wait_for_event( resp_dut, aconsts.EVENT_CB_ON_IDENTITY_CHANGED) resp_mac = resp_ident_event['data']['mac'] resp_config = autils.add_ranging_to_pub( autils.create_discovery_config(self.SERVICE_NAME, aconsts.PUBLISH_TYPE_UNSOLICITED), enable_ranging=True) resp_dut.droid.wifiAwarePublish(resp_id, resp_config) autils.wait_for_event(resp_dut, aconsts.SESSION_CB_ON_PUBLISH_STARTED) # Disable Responder resp_dut.droid.wifiAwareDestroy(resp_id) # Enable the Initiator init_id = init_dut.droid.wifiAwareAttach() autils.wait_for_event(init_dut, aconsts.EVENT_CB_ON_ATTACHED) # Initiate an RTT to Responder (no Aware started on Initiator!) results = [] num_no_responses = 0 num_successes = 0 for i in range(self.NUM_ITER): result = self.run_rtt_discovery(init_dut, resp_mac=resp_mac) self.log.debug("result: %s", result) results.append(result) if result is None: num_no_responses = num_no_responses + 1 elif (result[rconsts.EVENT_CB_RANGING_KEY_STATUS] == rconsts.EVENT_CB_RANGING_STATUS_SUCCESS): num_successes = num_successes + 1 asserts.assert_equal( num_no_responses, 0, "No RTT response?", extras={"data": results}) asserts.assert_equal( num_successes, 0, "Aware RTT w/o Aware should FAIL!", extras={"data": results}) asserts.explicit_pass("RTT Aware test done", extras={"data": results})