#!/usr/bin/env python3 # # 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. import itertools import pprint import time import acts.signals import acts_contrib.test_utils.wifi.wifi_test_utils as wutils from acts import asserts from acts.test_decorators import test_tracker_info from acts_contrib.test_utils.wifi.WifiBaseTest import WifiBaseTest from acts.controllers import iperf_server as ipf import json import logging import math import os from acts import utils import csv WifiEnums = wutils.WifiEnums class WifiIOTTwPkg1Test(WifiBaseTest): """ Tests for wifi IOT Test Bed Requirement: * One Android device * Wi-Fi IOT networks visible to the device """ def setup_class(self): super().setup_class() self.dut = self.android_devices[0] wutils.wifi_test_device_init(self.dut) req_params = [ "iot_networks", ] opt_params = [ "open_network", "iperf_server_address","iperf_port_arg", "pdu_address" , "pduon_wait_time","pduon_address" ] self.unpack_userparams(req_param_names=req_params, opt_param_names=opt_params) asserts.assert_true( len(self.iot_networks) > 0, "Need at least one iot network with psk.") if getattr(self, 'open_network', False): self.iot_networks.append(self.open_network) wutils.wifi_toggle_state(self.dut, True) if "iperf_server_address" in self.user_params: self.iperf_server = self.iperf_servers[0] # create hashmap for testcase name and SSIDs self.iot_test_prefix = "test_iot_connection_to_" self.ssid_map = {} for network in self.iot_networks: SSID = network['SSID'].replace('-','_') self.ssid_map[SSID] = network # create folder for IOT test result self.log_path = os.path.join(logging.log_path, "IOT_results") os.makedirs(self.log_path, exist_ok=True) Header=("test_name","throughput_TX","throughput_RX") self.csv_write(Header) # check pdu_address if "pdu_address" and "pduon_wait_time" in self.user_params: self.pdu_func() def setup_test(self): super().setup_test() self.dut.droid.wakeLockAcquireBright() self.dut.droid.wakeUpNow() def teardown_test(self): super().teardown_test() self.dut.droid.wakeLockRelease() self.dut.droid.goToSleepNow() wutils.reset_wifi(self.dut) def teardown_class(self): if "iperf_server_address" in self.user_params: self.iperf_server.stop() """Helper Functions""" def connect_to_wifi_network(self, network): """Connection logic for open and psk wifi networks. Args: params: Dictionary with network info. """ SSID = network[WifiEnums.SSID_KEY] self.dut.ed.clear_all_events() wutils.start_wifi_connection_scan(self.dut) scan_results = self.dut.droid.wifiGetScanResults() wutils.assert_network_in_list({WifiEnums.SSID_KEY: SSID}, scan_results) wutils.wifi_connect(self.dut, network, num_of_tries=3) def run_iperf_client(self, network): """Run iperf TX throughput after connection. Args: params: Dictionary with network info. """ if "iperf_server_address" in self.user_params: # Add iot_result iot_result = [] self.iperf_server.start(tag="TX_server_{}".format( self.current_test_name)) wait_time = 5 SSID = network[WifiEnums.SSID_KEY] self.log.info("Starting iperf traffic TX through {}".format(SSID)) time.sleep(wait_time) port_arg = "-p {} -J {}".format(self.iperf_server.port,self.iperf_port_arg) success, data = self.dut.run_iperf_client(self.iperf_server_address, port_arg) # Parse and log result client_output_path = os.path.join( self.iperf_server.log_path, "IperfDUT,{},TX_client_{}".format( self.iperf_server.port,self.current_test_name)) with open(client_output_path, 'w') as out_file: out_file.write("\n".join(data)) self.iperf_server.stop() iperf_file = self.iperf_server.log_files[-1] try: iperf_result = ipf.IPerfResult(iperf_file) curr_throughput = math.fsum(iperf_result.instantaneous_rates) except: self.log.warning( "ValueError: Cannot get iperf result. Setting to 0") curr_throughput = 0 iot_result.append(curr_throughput) self.log.info("Throughput is {0:.2f} Mbps".format(curr_throughput)) self.log.debug(pprint.pformat(data)) asserts.assert_true(success, "Error occurred in iPerf traffic.") return iot_result def run_iperf_server(self, network): """Run iperf RX throughput after connection. Args: params: Dictionary with network info. Returns: iot_result: dict containing iot_results """ if "iperf_server_address" in self.user_params: # Add iot_result iot_result = [] self.iperf_server.start(tag="RX_client_{}".format( self.current_test_name)) wait_time = 5 SSID = network[WifiEnums.SSID_KEY] self.log.info("Starting iperf traffic RX through {}".format(SSID)) time.sleep(wait_time) port_arg = "-p {} -J -R {}".format(self.iperf_server.port,self.iperf_port_arg) success, data = self.dut.run_iperf_client(self.iperf_server_address, port_arg) client_output_path = os.path.join( self.iperf_server.log_path, "IperfDUT,{},RX_server_{}".format( self.iperf_server.port,self.current_test_name)) with open(client_output_path, 'w') as out_file: out_file.write("\n".join(data)) self.iperf_server.stop() iperf_file = client_output_path try: iperf_result = ipf.IPerfResult(iperf_file) curr_throughput = math.fsum(iperf_result.instantaneous_rates) except: self.log.warning( "ValueError: Cannot get iperf result. Setting to 0") curr_throughput = 0 iot_result.append(curr_throughput) self.log.info("Throughput is {0:.2f} Mbps".format(curr_throughput)) self.log.debug(pprint.pformat(data)) asserts.assert_true(success, "Error occurred in iPerf traffic.") return iot_result def iperf_test_func(self,network): """Main function to test iperf TX/RX. Args: params: Dictionary with network info """ # Initialize iot_result = {} # Run RvR and log result iot_result["throughput_TX"] = self.run_iperf_client(network) iot_result["throughput_RX"] = self.run_iperf_server(network) iot_result["test_name"] = self.current_test_name # Save output as text file results_file_path = "{}/{}.json".format(self.log_path, self.current_test_name) with open(results_file_path, 'w') as results_file: json.dump(iot_result, results_file, indent=4) data=(iot_result["test_name"],iot_result["throughput_TX"][0], iot_result["throughput_RX"][0]) self.csv_write(data) def csv_write(self,data): with open("{}/Result.csv".format(self.log_path), "a", newline="") as csv_file: csv_writer = csv.writer(csv_file,delimiter=',') csv_writer.writerow(data) csv_file.close() def pdu_func(self): """control Power Distribution Units on local machine. Logic steps are 1. Turn off PDU for all port. 2. Turn on PDU for specified port. """ out_file_name = "PDU.log" self.full_out_path = os.path.join(self.log_path, out_file_name) cmd = "curl http://snmp:1234@{}/offs.cgi?led=11111111> {}".format(self.pdu_address, self.full_out_path) self.pdu_process = utils.start_standing_subprocess(cmd) wait_time = 10 self.log.info("Starting set PDU to OFF") time.sleep(wait_time) self.full_out_path = os.path.join(self.log_path, out_file_name) cmd = "curl http://snmp:1234@{}/ons.cgi?led={}> {}".format(self.pdu_address, self.pduon_address, self.full_out_path) self.pdu_process = utils.start_standing_subprocess(cmd) wait_time = int("{}".format(self.pduon_wait_time)) self.log.info("Starting set PDU to ON for port1," "wait for {}s".format(self.pduon_wait_time)) time.sleep(wait_time) self.log.info("PDU setup complete") def connect_to_wifi_network_and_run_iperf(self, network): """Connection logic for open and psk wifi networks. Logic steps are 1. Connect to the network. 2. Run iperf throghput. Args: params: A dictionary with network info. """ self.connect_to_wifi_network(network) self.iperf_test_func(network) """Tests""" @test_tracker_info(uuid="0e4ad6ed-595c-4629-a4c9-c6be9c3c58e0") def test_iot_connection_to_ASUS_RT_AC68U_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="a76d8acc-808e-4a5d-a52b-5ba07d07b810") def test_iot_connection_to_ASUS_RT_AC68U_5G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="659a3e5e-07eb-4905-9cda-92e959c7b674") def test_iot_connection_to_D_Link_DIR_868L_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="6bcfd736-30fc-48a8-b4fb-723d1d113f3c") def test_iot_connection_to_D_Link_DIR_868L_5G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="c9da945a-2c4a-44e1-881d-adf307b39b21") def test_iot_connection_to_TP_LINK_WR940N_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="db0d224d-df81-401f-bf35-08ad02e41a71") def test_iot_connection_to_ASUS_RT_N66U_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="845ff1d6-618d-40f3-81c3-6ed3a0751fde") def test_iot_connection_to_ASUS_RT_N66U_5G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="6908039b-ccc9-4777-a0f1-3494ce642014") def test_iot_connection_to_ASUS_RT_AC54U_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="2647c15f-2aad-47d7-8dee-b2ee1ac4cef6") def test_iot_connection_to_ASUS_RT_AC54U_5G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="99678f66-ddf1-454d-87e4-e55177ec380d") def test_iot_connection_to_ASUS_RT_N56U_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="4dd75e81-9a8e-44fd-9449-09f5ab8a63c3") def test_iot_connection_to_ASUS_RT_N56U_5G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="315397ce-50d5-4abf-a11c-1abcaef832d3") def test_iot_connection_to_BELKIN_F9K1002v1_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="05ba464a-b1ef-4ac1-a32f-c919ec4aa1dd") def test_iot_connection_to_CISCO_E1200_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="04912868-4a47-40ce-877e-4e4c89849557") def test_iot_connection_to_TP_LINK_C2_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="53517a21-3802-4185-b8bb-6eaace063a42") def test_iot_connection_to_TP_LINK_C2_5G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="71c08c1c-415d-4da4-a151-feef43fb6ad8") def test_iot_connection_to_ASUS_RT_AC66U_2G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key]) @test_tracker_info(uuid="2322c155-07d1-47c9-bd21-2e358e3df6ee") def test_iot_connection_to_ASUS_RT_AC66U_5G(self): ssid_key = self.current_test_name.replace(self.iot_test_prefix, "") self.connect_to_wifi_network_and_run_iperf(self.ssid_map[ssid_key])