mirror of
https://github.com/espressif/esp-idf.git
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654 lines
26 KiB
Python
654 lines
26 KiB
Python
"""
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Test case for iperf example.
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This test case might have problem running on windows:
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1. direct use of `make`
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2. use `sudo killall iperf` to force kill iperf, didn't implement windows version
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The test env Example_ShieldBox do need the following config::
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Example_ShieldBox:
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ap_list:
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- ssid: "ssid"
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password: "password"
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outlet: 1
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apc_ip: "192.168.1.88"
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attenuator_port: "/dev/ttyUSB0"
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iperf: "/dev/ttyUSB1"
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apc_ip: "192.168.1.88"
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pc_nic: "eth0"
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"""
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from __future__ import division
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from __future__ import unicode_literals
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from builtins import str
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from builtins import range
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from builtins import object
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import re
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import os
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import sys
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import time
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import subprocess
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# add current folder to system path for importing test_report
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sys.path.append(os.path.dirname(__file__))
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# this is a test case write with tiny-test-fw.
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# to run test cases outside tiny-test-fw,
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# we need to set environment variable `TEST_FW_PATH`,
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# then get and insert `TEST_FW_PATH` to sys path before import FW module
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test_fw_path = os.getenv("TEST_FW_PATH")
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if test_fw_path and test_fw_path not in sys.path:
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sys.path.insert(0, test_fw_path)
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import IDF
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import DUT
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import Utility
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from Utility import (Attenuator, PowerControl, LineChart)
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from test_report import (ThroughputForConfigsReport, ThroughputVsRssiReport)
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# configurations
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TEST_TIME = TEST_TIMEOUT = 60
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WAIT_AP_POWER_ON_TIMEOUT = 90
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SCAN_TIMEOUT = 3
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SCAN_RETRY_COUNT = 3
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RETRY_COUNT_FOR_BEST_PERFORMANCE = 2
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ATTEN_VALUE_LIST = range(0, 60, 2)
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# constants
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FAILED_TO_SCAN_RSSI = -97
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INVALID_HEAP_SIZE = 0xFFFFFFFF
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PC_IPERF_TEMP_LOG_FILE = ".tmp_iperf.log"
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CONFIG_NAME_PATTERN = re.compile(r"sdkconfig\.defaults\.(.+)")
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# We need to auto compare the difference between adjacent configs (01 -> 00, 02 -> 01, ...) and put them to reports.
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# Using numbers for config will make this easy.
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# Use default value `99` for config with best performance.
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BEST_PERFORMANCE_CONFIG = "99"
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class TestResult(object):
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""" record, analysis test result and convert data to output format """
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PC_BANDWIDTH_LOG_PATTERN = re.compile(r"(\d+).0\s*-\s*(\d+).0\s+sec\s+[\d.]+\s+MBytes\s+([\d.]+)\s+Mbits/sec")
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DUT_BANDWIDTH_LOG_PATTERN = re.compile(r"(\d+)-\s+(\d+)\s+sec\s+([\d.]+)\s+Mbits/sec")
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ZERO_POINT_THRESHOLD = -88 # RSSI, dbm
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ZERO_THROUGHPUT_THRESHOLD = -92 # RSSI, dbm
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BAD_POINT_RSSI_THRESHOLD = -85 # RSSI, dbm
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BAD_POINT_MIN_THRESHOLD = 3 # Mbps
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BAD_POINT_PERCENTAGE_THRESHOLD = 0.3
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# we need at least 1/2 valid points to qualify the test result
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THROUGHPUT_QUALIFY_COUNT = TEST_TIME//2
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def __init__(self, proto, direction, config_name):
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self.proto = proto
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self.direction = direction
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self.config_name = config_name
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self.throughput_by_rssi = dict()
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self.throughput_by_att = dict()
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self.att_rssi_map = dict()
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self.heap_size = INVALID_HEAP_SIZE
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self.error_list = []
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def _save_result(self, throughput, ap_ssid, att, rssi, heap_size):
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"""
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save the test results:
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* record the better throughput if att/rssi is the same.
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* record the min heap size.
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"""
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if ap_ssid not in self.att_rssi_map:
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# for new ap, create empty dict()
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self.throughput_by_att[ap_ssid] = dict()
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self.throughput_by_rssi[ap_ssid] = dict()
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self.att_rssi_map[ap_ssid] = dict()
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self.att_rssi_map[ap_ssid][att] = rssi
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def record_throughput(database, key_value):
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try:
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# we save the larger value for same att
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if throughput > database[ap_ssid][key_value]:
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database[ap_ssid][key_value] = throughput
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except KeyError:
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database[ap_ssid][key_value] = throughput
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record_throughput(self.throughput_by_att, att)
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record_throughput(self.throughput_by_rssi, rssi)
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if int(heap_size) < self.heap_size:
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self.heap_size = int(heap_size)
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def add_result(self, raw_data, ap_ssid, att, rssi, heap_size):
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"""
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add result for one test
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:param raw_data: iperf raw data
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:param ap_ssid: ap ssid that tested
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:param att: attenuate value
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:param rssi: AP RSSI
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:param heap_size: min heap size during test
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:return: throughput
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"""
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fall_to_0_recorded = 0
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throughput_list = []
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result_list = self.PC_BANDWIDTH_LOG_PATTERN.findall(raw_data)
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if not result_list:
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# failed to find raw data by PC pattern, it might be DUT pattern
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result_list = self.DUT_BANDWIDTH_LOG_PATTERN.findall(raw_data)
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for result in result_list:
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if int(result[1]) - int(result[0]) != 1:
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# this could be summary, ignore this
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continue
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throughput_list.append(float(result[2]))
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if float(result[2]) == 0 and rssi > self.ZERO_POINT_THRESHOLD \
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and fall_to_0_recorded < 1:
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# throughput fall to 0 error. we only record 1 records for one test
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self.error_list.append("[Error][fall to 0][{}][att: {}][rssi: {}]: 0 throughput interval: {}-{}"
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.format(ap_ssid, att, rssi, result[0], result[1]))
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fall_to_0_recorded += 1
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if len(throughput_list) > self.THROUGHPUT_QUALIFY_COUNT:
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throughput = sum(throughput_list) / len(throughput_list)
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else:
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throughput = 0.0
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if throughput == 0 and rssi > self.ZERO_THROUGHPUT_THRESHOLD:
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self.error_list.append("[Error][Fatal][{}][att: {}][rssi: {}]: No throughput data found"
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.format(ap_ssid, att, rssi))
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self._save_result(throughput, ap_ssid, att, rssi, heap_size)
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return throughput
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def post_analysis(self):
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"""
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some rules need to be checked after we collected all test raw data:
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1. throughput value 30% worse than the next point with lower RSSI
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2. throughput value 30% worse than the next point with larger attenuate
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"""
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def analysis_bad_point(data, index_type):
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for ap_ssid in data:
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result_dict = data[ap_ssid]
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index_list = list(result_dict.keys())
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index_list.sort()
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if index_type == "att":
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index_list.reverse()
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for i, index_value in enumerate(index_list[1:]):
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if index_value < self.BAD_POINT_RSSI_THRESHOLD or \
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result_dict[index_list[i]] < self.BAD_POINT_MIN_THRESHOLD:
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continue
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_percentage = result_dict[index_value] / result_dict[index_list[i]]
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if _percentage < 1 - self.BAD_POINT_PERCENTAGE_THRESHOLD:
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self.error_list.append("[Error][Bad point][{}][{}: {}]: drop {:.02f}%"
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.format(ap_ssid, index_type, index_value,
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(1 - _percentage) * 100))
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analysis_bad_point(self.throughput_by_rssi, "rssi")
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analysis_bad_point(self.throughput_by_att, "att")
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@staticmethod
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def _convert_to_draw_format(data, label):
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keys = data.keys()
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keys.sort()
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return {
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"x-axis": keys,
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"y-axis": [data[x] for x in keys],
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"label": label,
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}
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def draw_throughput_figure(self, path, ap_ssid, draw_type):
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"""
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:param path: folder to save figure. make sure the folder is already created.
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:param ap_ssid: ap ssid string or a list of ap ssid string
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:param draw_type: "att" or "rssi"
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:return: file_name
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"""
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if draw_type == "rssi":
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type_name = "RSSI"
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data = self.throughput_by_rssi
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elif draw_type == "att":
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type_name = "Att"
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data = self.throughput_by_att
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else:
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raise AssertionError("draw type not supported")
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if isinstance(ap_ssid, list):
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file_name = "ThroughputVs{}_{}_{}_{}.png".format(type_name, self.proto, self.direction,
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hash(ap_ssid)[:6])
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data_list = [self._convert_to_draw_format(data[_ap_ssid], _ap_ssid)
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for _ap_ssid in ap_ssid]
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else:
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file_name = "ThroughputVs{}_{}_{}_{}.png".format(type_name, self.proto, self.direction, ap_ssid)
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data_list = [self._convert_to_draw_format(data[ap_ssid], ap_ssid)]
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LineChart.draw_line_chart(os.path.join(path, file_name),
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"Throughput Vs {} ({} {})".format(type_name, self.proto, self.direction),
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"Throughput (Mbps)",
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"{} (dbm)".format(type_name),
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data_list)
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return file_name
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def draw_rssi_vs_att_figure(self, path, ap_ssid):
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"""
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:param path: folder to save figure. make sure the folder is already created.
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:param ap_ssid: ap to use
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:return: file_name
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"""
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if isinstance(ap_ssid, list):
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file_name = "AttVsRSSI_{}.png".format(hash(ap_ssid)[:6])
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data_list = [self._convert_to_draw_format(self.att_rssi_map[_ap_ssid], _ap_ssid)
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for _ap_ssid in ap_ssid]
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else:
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file_name = "AttVsRSSI_{}.png".format(ap_ssid)
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data_list = [self._convert_to_draw_format(self.att_rssi_map[ap_ssid], ap_ssid)]
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LineChart.draw_line_chart(os.path.join(path, file_name),
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"Att Vs RSSI",
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"Att (dbm)",
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"RSSI (dbm)",
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data_list)
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return file_name
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def get_best_throughput(self):
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""" get the best throughput during test """
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best_for_aps = [max(self.throughput_by_att[ap_ssid].values())
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for ap_ssid in self.throughput_by_att]
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return max(best_for_aps)
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def __str__(self):
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"""
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returns summary for this test:
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1. test result (success or fail)
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2. best performance for each AP
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3. min free heap size during test
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"""
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if self.throughput_by_att:
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ret = "[{}_{}][{}]: {}\r\n\r\n".format(self.proto, self.direction, self.config_name,
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"Fail" if self.error_list else "Success")
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ret += "Performance for each AP:\r\n"
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for ap_ssid in self.throughput_by_att:
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ret += "[{}]: {:.02f} Mbps\r\n".format(ap_ssid, max(self.throughput_by_att[ap_ssid].values()))
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if self.heap_size != INVALID_HEAP_SIZE:
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ret += "Minimum heap size: {}".format(self.heap_size)
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else:
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ret = ""
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return ret
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class IperfTestUtility(object):
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""" iperf test implementation """
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def __init__(self, dut, config_name, ap_ssid, ap_password,
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pc_nic_ip, pc_iperf_log_file, test_result=None):
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self.config_name = config_name
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self.dut = dut
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self.pc_iperf_log_file = pc_iperf_log_file
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self.ap_ssid = ap_ssid
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self.ap_password = ap_password
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self.pc_nic_ip = pc_nic_ip
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if test_result:
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self.test_result = test_result
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else:
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self.test_result = {
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"tcp_tx": TestResult("tcp", "tx", config_name),
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"tcp_rx": TestResult("tcp", "rx", config_name),
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"udp_tx": TestResult("udp", "tx", config_name),
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"udp_rx": TestResult("udp", "rx", config_name),
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}
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def setup(self):
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"""
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setup iperf test:
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1. kill current iperf process
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2. reboot DUT (currently iperf is not very robust, need to reboot DUT)
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3. scan to get AP RSSI
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4. connect to AP
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"""
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try:
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subprocess.check_output("sudo killall iperf 2>&1 > /dev/null", shell=True)
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except subprocess.CalledProcessError:
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pass
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self.dut.write("restart")
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self.dut.expect("esp32>")
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self.dut.write("scan {}".format(self.ap_ssid))
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for _ in range(SCAN_RETRY_COUNT):
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try:
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rssi = int(self.dut.expect(re.compile(r"\[{}]\[rssi=(-\d+)]".format(self.ap_ssid)),
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timeout=SCAN_TIMEOUT)[0])
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break
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except DUT.ExpectTimeout:
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continue
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else:
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raise AssertionError("Failed to scan AP")
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self.dut.write("sta {} {}".format(self.ap_ssid, self.ap_password))
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dut_ip = self.dut.expect(re.compile(r"event: sta ip: ([\d.]+), mask: ([\d.]+), gw: ([\d.]+)"))[0]
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return dut_ip, rssi
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def _save_test_result(self, test_case, raw_data, att, rssi, heap_size):
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return self.test_result[test_case].add_result(raw_data, self.ap_ssid, att, rssi, heap_size)
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def _test_once(self, proto, direction):
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""" do measure once for one type """
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# connect and scan to get RSSI
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dut_ip, rssi = self.setup()
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assert direction in ["rx", "tx"]
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assert proto in ["tcp", "udp"]
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# run iperf test
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if direction == "tx":
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with open(PC_IPERF_TEMP_LOG_FILE, "w") as f:
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if proto == "tcp":
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process = subprocess.Popen(["iperf", "-s", "-B", self.pc_nic_ip,
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"-t", str(TEST_TIME), "-i", "1", "-f", "m"],
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stdout=f, stderr=f)
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self.dut.write("iperf -c {} -i 1 -t {}".format(self.pc_nic_ip, TEST_TIME))
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else:
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process = subprocess.Popen(["iperf", "-s", "-u", "-B", self.pc_nic_ip,
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"-t", str(TEST_TIME), "-i", "1", "-f", "m"],
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stdout=f, stderr=f)
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self.dut.write("iperf -c {} -u -i 1 -t {}".format(self.pc_nic_ip, TEST_TIME))
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for _ in range(TEST_TIMEOUT):
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if process.poll() is not None:
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break
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time.sleep(1)
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else:
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process.terminate()
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with open(PC_IPERF_TEMP_LOG_FILE, "r") as f:
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pc_raw_data = server_raw_data = f.read()
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else:
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with open(PC_IPERF_TEMP_LOG_FILE, "w") as f:
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if proto == "tcp":
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self.dut.write("iperf -s -i 1 -t {}".format(TEST_TIME))
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process = subprocess.Popen(["iperf", "-c", dut_ip,
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"-t", str(TEST_TIME), "-f", "m"],
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stdout=f, stderr=f)
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else:
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self.dut.write("iperf -s -u -i 1 -t {}".format(TEST_TIME))
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process = subprocess.Popen(["iperf", "-c", dut_ip, "-u", "-b", "100M",
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"-t", str(TEST_TIME), "-f", "m"],
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stdout=f, stderr=f)
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for _ in range(TEST_TIMEOUT):
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if process.poll() is not None:
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break
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time.sleep(1)
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else:
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process.terminate()
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server_raw_data = self.dut.read()
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with open(PC_IPERF_TEMP_LOG_FILE, "r") as f:
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pc_raw_data = f.read()
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# save PC iperf logs to console
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with open(self.pc_iperf_log_file, "a+") as f:
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f.write("## [{}] `{}`\r\n##### {}"
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.format(self.config_name,
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"{}_{}".format(proto, direction),
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time.strftime("%m-%d %H:%M:%S", time.localtime(time.time()))))
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f.write('\r\n```\r\n\r\n' + pc_raw_data + '\r\n```\r\n')
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self.dut.write("heap")
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heap_size = self.dut.expect(re.compile(r"min heap size: (\d+)\D"))[0]
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# return server raw data (for parsing test results) and RSSI
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return server_raw_data, rssi, heap_size
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def run_test(self, proto, direction, atten_val):
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"""
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run test for one type, with specified atten_value and save the test result
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:param proto: tcp or udp
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:param direction: tx or rx
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:param atten_val: attenuate value
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"""
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rssi = FAILED_TO_SCAN_RSSI
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heap_size = INVALID_HEAP_SIZE
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try:
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server_raw_data, rssi, heap_size = self._test_once(proto, direction)
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throughput = self._save_test_result("{}_{}".format(proto, direction),
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server_raw_data, atten_val,
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rssi, heap_size)
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Utility.console_log("[{}][{}_{}][{}][{}]: {:.02f}"
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.format(self.config_name, proto, direction, rssi, self.ap_ssid, throughput))
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except Exception as e:
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self._save_test_result("{}_{}".format(proto, direction), "", atten_val, rssi, heap_size)
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Utility.console_log("Failed during test: {}".format(e))
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def run_all_cases(self, atten_val):
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"""
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run test for all types (udp_tx, udp_rx, tcp_tx, tcp_rx).
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:param atten_val: attenuate value
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"""
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self.run_test("tcp", "tx", atten_val)
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self.run_test("tcp", "rx", atten_val)
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self.run_test("udp", "tx", atten_val)
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self.run_test("udp", "rx", atten_val)
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def wait_ap_power_on(self):
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"""
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AP need to take sometime to power on. It changes for different APs.
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This method will scan to check if the AP powers on.
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:return: True or False
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"""
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self.dut.write("restart")
|
|
self.dut.expect("esp32>")
|
|
for _ in range(WAIT_AP_POWER_ON_TIMEOUT // SCAN_TIMEOUT):
|
|
try:
|
|
self.dut.write("scan {}".format(self.ap_ssid))
|
|
self.dut.expect(re.compile(r"\[{}]\[rssi=(-\d+)]".format(self.ap_ssid)),
|
|
timeout=SCAN_TIMEOUT)
|
|
ret = True
|
|
break
|
|
except DUT.ExpectTimeout:
|
|
pass
|
|
else:
|
|
ret = False
|
|
return ret
|
|
|
|
|
|
def build_iperf_with_config(config_name):
|
|
"""
|
|
we need to build iperf example with different configurations.
|
|
|
|
:param config_name: sdkconfig we want to build
|
|
"""
|
|
|
|
# switch to iperf example path before build when we're running test with Runner
|
|
example_path = os.path.dirname(__file__)
|
|
cwd = os.getcwd()
|
|
if cwd != example_path and example_path:
|
|
os.chdir(example_path)
|
|
try:
|
|
subprocess.check_call("make clean > /dev/null", shell=True)
|
|
subprocess.check_call(["cp", "sdkconfig.defaults.{}".format(config_name), "sdkconfig.defaults"])
|
|
subprocess.check_call(["rm", "-f", "sdkconfig"])
|
|
subprocess.check_call("make defconfig > /dev/null", shell=True)
|
|
# save sdkconfig to generate config comparision report
|
|
subprocess.check_call(["cp", "sdkconfig", "sdkconfig.{}".format(config_name)])
|
|
subprocess.check_call("make -j5 > /dev/null", shell=True)
|
|
subprocess.check_call("make print_flash_cmd | tail -n 1 > build/download.config", shell=True)
|
|
finally:
|
|
os.chdir(cwd)
|
|
|
|
|
|
@IDF.idf_example_test(env_tag="Example_ShieldBox_Basic", category="stress")
|
|
def test_wifi_throughput_with_different_configs(env, extra_data):
|
|
"""
|
|
steps: |
|
|
1. build iperf with specified configs
|
|
2. test throughput for all routers
|
|
"""
|
|
pc_nic_ip = env.get_pc_nic_info("pc_nic", "ipv4")["addr"]
|
|
pc_iperf_log_file = os.path.join(env.log_path, "pc_iperf_log.md")
|
|
ap_info = {
|
|
"ssid": env.get_variable("ap_ssid"),
|
|
"password": env.get_variable("ap_password"),
|
|
}
|
|
|
|
config_names_raw = subprocess.check_output(["ls", os.path.dirname(os.path.abspath(__file__))])
|
|
|
|
test_result = dict()
|
|
sdkconfig_files = dict()
|
|
|
|
for config_name in CONFIG_NAME_PATTERN.findall(config_names_raw):
|
|
# 1. build config
|
|
build_iperf_with_config(config_name)
|
|
sdkconfig_files[config_name] = os.path.join(os.path.dirname(__file__),
|
|
"sdkconfig.{}".format(config_name))
|
|
|
|
# 2. get DUT and download
|
|
dut = env.get_dut("iperf", "examples/wifi/iperf")
|
|
dut.start_app()
|
|
dut.expect("esp32>")
|
|
|
|
# 3. run test for each required att value
|
|
test_result[config_name] = {
|
|
"tcp_tx": TestResult("tcp", "tx", config_name),
|
|
"tcp_rx": TestResult("tcp", "rx", config_name),
|
|
"udp_tx": TestResult("udp", "tx", config_name),
|
|
"udp_rx": TestResult("udp", "rx", config_name),
|
|
}
|
|
|
|
test_utility = IperfTestUtility(dut, config_name, ap_info["ssid"],
|
|
ap_info["password"], pc_nic_ip, pc_iperf_log_file, test_result[config_name])
|
|
|
|
for _ in range(RETRY_COUNT_FOR_BEST_PERFORMANCE):
|
|
test_utility.run_all_cases(0)
|
|
|
|
for result_type in test_result[config_name]:
|
|
summary = str(test_result[config_name][result_type])
|
|
if summary:
|
|
Utility.console_log(summary, color="orange")
|
|
|
|
# 4. check test results
|
|
env.close_dut("iperf")
|
|
|
|
# 5. generate report
|
|
report = ThroughputForConfigsReport(os.path.join(env.log_path, "ThroughputForConfigsReport"),
|
|
ap_info["ssid"], test_result, sdkconfig_files)
|
|
report.generate_report()
|
|
|
|
|
|
@IDF.idf_example_test(env_tag="Example_ShieldBox", category="stress")
|
|
def test_wifi_throughput_vs_rssi(env, extra_data):
|
|
"""
|
|
steps: |
|
|
1. build with best performance config
|
|
2. switch on one router
|
|
3. set attenuator value from 0-60 for each router
|
|
4. test TCP tx rx and UDP tx rx throughput
|
|
"""
|
|
att_port = env.get_variable("attenuator_port")
|
|
ap_list = env.get_variable("ap_list")
|
|
pc_nic_ip = env.get_pc_nic_info("pc_nic", "ipv4")["addr"]
|
|
apc_ip = env.get_variable("apc_ip")
|
|
pc_iperf_log_file = os.path.join(env.log_path, "pc_iperf_log.md")
|
|
|
|
test_result = {
|
|
"tcp_tx": TestResult("tcp", "tx", BEST_PERFORMANCE_CONFIG),
|
|
"tcp_rx": TestResult("tcp", "rx", BEST_PERFORMANCE_CONFIG),
|
|
"udp_tx": TestResult("udp", "tx", BEST_PERFORMANCE_CONFIG),
|
|
"udp_rx": TestResult("udp", "rx", BEST_PERFORMANCE_CONFIG),
|
|
}
|
|
|
|
# 1. build config
|
|
build_iperf_with_config(BEST_PERFORMANCE_CONFIG)
|
|
|
|
# 2. get DUT and download
|
|
dut = env.get_dut("iperf", "examples/wifi/iperf")
|
|
dut.start_app()
|
|
dut.expect("esp32>")
|
|
|
|
# 3. run test for each required att value
|
|
for ap_info in ap_list:
|
|
test_utility = IperfTestUtility(dut, BEST_PERFORMANCE_CONFIG, ap_info["ssid"], ap_info["password"],
|
|
pc_nic_ip, pc_iperf_log_file, test_result)
|
|
|
|
PowerControl.Control.control_rest(apc_ip, ap_info["outlet"], "OFF")
|
|
PowerControl.Control.control(apc_ip, {ap_info["outlet"]: "ON"})
|
|
Attenuator.set_att(att_port, 0)
|
|
|
|
if not test_utility.wait_ap_power_on():
|
|
Utility.console_log("[{}] failed to power on, skip testing this AP"
|
|
.format(ap_info["ssid"]), color="red")
|
|
continue
|
|
|
|
for atten_val in ATTEN_VALUE_LIST:
|
|
assert Attenuator.set_att(att_port, atten_val) is True
|
|
test_utility.run_all_cases(atten_val)
|
|
|
|
# 4. check test results
|
|
env.close_dut("iperf")
|
|
|
|
# 5. generate report
|
|
report = ThroughputVsRssiReport(os.path.join(env.log_path, "ThroughputVsRssiReport"),
|
|
test_result)
|
|
report.generate_report()
|
|
|
|
|
|
@IDF.idf_example_test(env_tag="Example_ShieldBox_Basic")
|
|
def test_wifi_throughput_basic(env, extra_data):
|
|
"""
|
|
steps: |
|
|
1. test TCP tx rx and UDP tx rx throughput
|
|
2. compare with the pre-defined pass standard
|
|
"""
|
|
pc_nic_ip = env.get_pc_nic_info("pc_nic", "ipv4")["addr"]
|
|
pc_iperf_log_file = os.path.join(env.log_path, "pc_iperf_log.md")
|
|
ap_info = {
|
|
"ssid": env.get_variable("ap_ssid"),
|
|
"password": env.get_variable("ap_password"),
|
|
}
|
|
|
|
# 1. build iperf with best config
|
|
build_iperf_with_config(BEST_PERFORMANCE_CONFIG)
|
|
|
|
# 2. get DUT
|
|
dut = env.get_dut("iperf", "examples/wifi/iperf")
|
|
dut.start_app()
|
|
dut.expect("esp32>")
|
|
|
|
# 3. preparing
|
|
test_result = {
|
|
"tcp_tx": TestResult("tcp", "tx", BEST_PERFORMANCE_CONFIG),
|
|
"tcp_rx": TestResult("tcp", "rx", BEST_PERFORMANCE_CONFIG),
|
|
"udp_tx": TestResult("udp", "tx", BEST_PERFORMANCE_CONFIG),
|
|
"udp_rx": TestResult("udp", "rx", BEST_PERFORMANCE_CONFIG),
|
|
}
|
|
|
|
test_utility = IperfTestUtility(dut, BEST_PERFORMANCE_CONFIG, ap_info["ssid"],
|
|
ap_info["password"], pc_nic_ip, pc_iperf_log_file, test_result)
|
|
|
|
# 4. run test for TCP Tx, Rx and UDP Tx, Rx
|
|
for _ in range(RETRY_COUNT_FOR_BEST_PERFORMANCE):
|
|
test_utility.run_all_cases(0)
|
|
|
|
# 5. log performance and compare with pass standard
|
|
for throughput_type in test_result:
|
|
IDF.log_performance("{}_throughput".format(throughput_type),
|
|
"{:.02f} Mbps".format(test_result[throughput_type].get_best_throughput()))
|
|
# do check after logging, otherwise test will exit immediately if check fail, some performance can't be logged.
|
|
for throughput_type in test_result:
|
|
IDF.check_performance("{}_throughput".format(throughput_type),
|
|
test_result[throughput_type].get_best_throughput())
|
|
|
|
env.close_dut("iperf")
|
|
|
|
|
|
if __name__ == '__main__':
|
|
test_wifi_throughput_basic(env_config_file="EnvConfig.yml")
|
|
test_wifi_throughput_with_different_configs(env_config_file="EnvConfig.yml")
|
|
test_wifi_throughput_vs_rssi(env_config_file="EnvConfig.yml")
|