#!/usr/bin/python3 ''' LANforge 192.168.100.178 Controller at 192.168.100.112 admin/Cisco123 Controller is 192.1.0.10 AP is 192.1.0.2''' import math import xlsxwriter import subprocess import argparse from time import sleep import time import logging import re import sys import datetime import importlib import os sys.path.append(os.path.join(os.path.abspath(__file__ + "../../"))) # TODO change the name from logg to logger # to match consistency with other files. logger = logging.getLogger(__name__) lf_logger_config = importlib.import_module("py-scripts.lf_logger_config") EPILOG = '''\ ############################################################################################## # Support History ############################################################################################## # Verified 2/7/2022 : Run against already created station "--station sta0001" ./lf_tx_power.py -d localhost -u admin -p Cisco123 --port 8888 --scheme ssh --ap AP687D.B45C.1D1C --bandwidth "160" --channel "36" --nss 4 --txpower "1" --pathloss 56 --antenna_gain 6 --band a --upstream_port eth2 --series 9800 --radio wiphy1 --slot 1 --ssid open-wlan --prompt "WLC2" --station sta0001 --ssidpw [BLANK] --security open --wlan open-wlan --wlanID 1 --wlanSSID open-wlan --lfmgr 192.168.100.131 --lfresource 1 --vht160 --tag_policy "RM204-TB2" # Verified 2/17/2022 : create station and create open wlan on controller on testbed WLC1 ./lf_tx_power.py -d localhost -u admin -p Cisco123 --port 8887 --scheme ssh --ap APA453.0E7B.CF9C --bandwidth "40" --channel "100" --nss 4 --txpower "1 3" --pathloss 56 --antenna_gain 6 --band a --upstream_port eth2 --series 9800 --radio wiphy4 --slot 1 --ssid open-wlan-14 --prompt "WLC1" --create_station 'sta0002' --lfmgr '192.168.100.178' --ssidpw '[BLANK]' --security open --wlan open-wlan-14 --wlanID 14 --wlanSSID open-wlan-14 --lfresource 1 --vht160 --tag_policy "RM204-TB1" --policy_profile "default-policy-profile" --testbed_id 'Cisco-WLC1' --module 'cc_module_9800_3504' --create_wlan ############################################################################################## ############################################################################################## make sure pexpect is installed: $ sudo yum install python3-pexpect $ sudo yum install python3-xlsxwriter You might need to install pexpect-serial using pip: $ pip3 install pexpect-serial $ pip3 install XlsxWriter This script will automatically create and start a layer-3 UDP connection between the configured upstream port and station. The user also has the option of setting up the station oustide of this script, however. # Examples: # See cisco_power_results.txt when complete. # See cisco_power_results.xlsx when complete. NOTE: Telnet port 23 unless specified , ssh port 22 unless specified, scheme defaults to ssh ############################################################################################## # read AP for powercfg values using : show controllers dot11Radio 1 powercfg | g T1' ############################################################################################## ./lf_tx_power.py -d 172.19.27.55 -u admin -p Wnbulab@123 --port 2013 --scheme telnet \ --ap 9120_Candela --bandwidth "20" --channel "149" --nss 4 --txpower "1" \ --pathloss 56 --band a --upstream_port eth2 --series 9800 --radio wiphy5 --slot 1 --ssid open-wlan \ --prompt "katar_candela" --create_station sta0001 --ssidpw [BLANK] --security open --verbose \ --antenna_gain "6" --wlanID 1 --wlan open-wlan --wlanSSID open-wlan\ --ap_info "ap_scheme==telnet ap_prompt==9120_Candela ap_ip==172.19.27.55 ap_port==2008 ap_user==admin ap_pw==Wnbulab@123" ############################################################################################## # send email and or text on --exit_on_fail ############################################################################################## ./lf_tx_power.py -d 192.168.100.112 -u admin -p Cisco123 -s ssh --port 22 -a APA453.0E7B.CF9C --lfmgr 192.168.100.178 \ --bandwidth "80" --channel "144" --nss 4 --txpower "1" --pathloss 51 --antenna_gain 10 --lfmgr 192.168.100.178 --band a \ --upstream_port eth3 --outfile cisco_power_results --create_station sta0001 --radio wiphy1 --ssid test_candela --ssidpw [BLANK] \ --security open -l out_file2 -D 14 --exit_on_fail \ --email "user==lanforgetest@gmail.com passwd==lanforge123 to==2082868321@vtext.com smtp==smtp.gmail.com port==465"\ --email "user==lanforgetest@gmail.com passwd==lanforge123 to==lanforgetest@gmail.com smtp==smtp.gmail.com port==465"\ --series "3504" --prompt "(Cisco Controler)" ############################################################################################## # Long duration test -- need to create the ---wlanID 1 --wlan open-wlan --wlanSSID open-wlan ############################################################################################## ./lf_tx_power.py -d 172.19.36.168 -u admin -p Wnbulab@123 --port 23 --scheme telnet --ap "APA453.0E7B.CF60" \ --bandwidth "20 40 80" --channel "36 40 44 48 52 56 60 64 100 104 108 112 116 120 124 128 132 136 140 144 149 153 157 161 165" \ --nss 4 --txpower "1 2 3 4 5 6 7 8" --pathloss 54 --antenna_gain 6 --band a --upstream_port eth2 --series 9800 \ --wlanID 1 --wlan open-wlan --wlanSSID open-wlan --create_station sta0001 --radio wiphy1 --ssid open-wlan --ssidpw [BLANK] --security open \ --outfile cisco_power_results_60_chan_ALL --cleanup --slot 1 --verbose ############################################################################################## # Per-channel path-loss example station present ############################################################################################## ./lf_tx_power.py -d 192.168.100.112 -u admin -p Cisco123 -s ssh --port 22 -a VC --lfmgr 192.168.100.178 \ --station sta00000 --bandwidth "20 40 80 160" --channel "36:64 149:60" --antenna_gain 5 --nss 4 --txpower "1 2 3 4 5 6 7 8" --pathloss 64 \ --band a --upstream_port eth2 --lfresource2 2 --verbose ############################################################################################## # To create a station run test against station create open-wlan ############################################################################################## ./lf_tx_power.py -d -u admin -p Cisco123 -port 23 --scheme telnet --ap AP6C71.0DE6.45D0 \ --station sta2222 --bandwidth "20" --channel "36" --nss 4 --txpower "1 2 3 4 5 6 7 8" --pathloss 54 --antenna_gain 6 --band a \ --upstream_port eth2 --series 9800 --wlanID 1 --wlan open-wlan --wlanSSID open-wlan --create_station sta2222 --radio wiphy1 --ssid open-wlan \ --ssidpw [BLANK] --security open --verbose ############################################################################################## # station already present ############################################################################################## ./lf_tx_power.py -d -u admin -p Cisco123 -port 23 --scheme telnet --ap AP6C71.0DE6.45D0 \ --station sta0000 --bandwidth "20" --channel "36" --nss 4 --txpower "1 2 3 4 5 6 7 8" --pathloss 64 --antenna_gain 5 --band a \ --upstream_port eth2 --series 9800 --wlanID 1 --wlan open-wlan --wlanSSID open-wlan --verbose ############################################################################################## # to create a station ############################################################################################## ./lf_associate_ap.pl --radio wiphy1 --ssid open-wlan --passphrase [BLANK] ssecurity open --upstream eth1 \ --first_ip DHCP --first_sta sta0001 --duration 5 --cxtype udp Changing regulatory domain should happen outside of this script. ############################################################################################## # If wish to send Text after test completion follow the email format based on carrier ############################################################################################## Text message via email: T-Mobile – number@tmomail.net Virgin Mobile – number@vmobl.com AT&T – number@txt.att.net Sprint – number@messaging.sprintpcs.com Verizon – number@vtext.com Tracfone – number@mmst5.tracfone.com Ting – number@message.ting.com Boost Mobile – number@myboostmobile.com U.S. Cellular – number@email.uscc.net Metro PCS – number@mymetropcs.com ############################################################################################## # OUTPUT in XLSX file - Spread sheet how values determined ############################################################################################## Tx Power : Input from command line (1-8) Allowed Per Path : Read from the Controller Cabling Pathloss : Input from command line, best if verified prior to testing Antenna Gain : Input from command line, if AP cannot detect antenna connection Beacon RSSI (beacon_sig) : From Lanforge probe, command ./lf_portmod.pl with cli parameter probe_port 1 (~line 1183, ~line 1209) Combined RSSI User (sig) : From Lanforge probe, command ./lf_portmod.pl with cli parameter probe_port 1 (~line 1183, ~line 1193) RSSI 1, RSSI 2, RSSI 3, RSSI 4 : (~line 1160) ants[q] (antX) read from Lanforge probe, command ./lf_portmod.pl with cli parameter probe_port 1 Ant 1, Ant 2, Ant 3, Ant 4 : () Starting Value for antX read from lanforge probe, using command ./lf_portmod.pl with cli parameter porbe_port 1 _noise_bear (_noise_i) = from Lanforge returning NOISE from command (!line 1070) lf_portmod.pl reading --show_port "AP, IP, Mode, NSS, Bandwith, Channel, Signal, NOISE, Status, RX-Rate rssi_adj (only used if --adjust_nf and _noise_bare != None) (~line 1263) _noise_i(_noise_bear) - nf_at_calibration (fixed value of -105) Thus calc_antX = int(antX read from Lanforge) + pi (path loss from command line) + rssi_adj + ag (antenna gain from command line) calc_antX is put on the spread sheet under Ant X Offset 1, Offset 2, Offset 3, Offset 4: which in the code is diff_aX = calc_antX - allowed_per_path (adjusted based on number of streams) Pass/Fail : (~line 1286) If the diff / offset is greater than the pfrange determins the pass or fail ''' if sys.version_info[0] != 3: print("This script requires Python 3") exit() NL = "\n" CR = "\r\n" Q = '"' A = "'" FORMAT = '%(asctime)s %(name)s %(levelname)s: %(message)s' lfmgr = "127.0.0.1" lfstation = "sta00000" lfresource = "1" lfresource2 = "1" outfile = "cisco_power_results.txt" full_outfile = "cisco_power_results_full.txt" outfile_xlsx = "cisco_power_results.xlsx" upstream_port = "eth1" pf_dbm = 6 # Allow one chain to have a lower signal, since customer's DUT has # lower tx-power on one chain when doing high MCS at 4x4. pf_ignore_offset = 0 # Threshold for allowing a pass failed_low_threshold = 0 # This below is only used when --adjust_nf is used. # Noise floor on ch 36 where we calibrated -54 path loss (based on hard-coded -95 noise-floor in driver) nf_at_calibration = -105 # older ath10k driver hard-codes noise-floor to -95 when calculating RSSI # RSSI = NF + reported_power # Shift RSSI by difference in actual vs calibrated noise-floor since driver hard-codes # the noise floor. # rssi_adjust = (current_nf - nf_at_calibration) def usage(): print("############ USAGE ############") print("-d|--dest: destination host, address of the controller") print("-o|--port: destination port, default = 23") print("-u|--user: login name or username") print("-p|--passwd: password") print("-s|--scheme (serial|telnet|ssh): connect via serial, ssh or telnet") print("-t|--tty tty serial device") print("-l|--log log has same namelog messages here ,stdout means output to console, default stdout") print("-a|--ap select AP") print("-b|--bandwidth: List of bandwidths to test: 20 40 80 160, NA means no change, 160 can only do 2x2 spatial streams in Intel due to radio limitations") print("-c|--channel: List of channels, with optional path-loss to test: 36:64 100:60 , NA means no change") print("-n|--nss: List of spatial streams to test: 1x1 2x2 3x3 4x4, NA means no change") print("-T|--txpower: List of TX power values to test: 1 2 3 4 5 6 7 8, NA means no change, 1 is highest power, the power is halved for each subsquent setting") print("-k|--keep_state keep the state, no configuration change at the end of the test, store true flage present ") print("--station: LANforge station name for test(sta0000), use if station present and --create_station not used") print("--upstream_port: LANforge upstream port name (eth1)") print("--lfmgr: LANforge manager IP address") print("--lfresource: LANforge resource ID for station") print("--lfresource2: LANforge resource ID for upstream port") print("--outfile: Output file for txt and xlsx data, default cisco_power_results") print("--pathloss: Calculated path-loss between LANforge station and AP") print("--antenna_gain: Antenna gain for AP, if no Antenna attached then antenna gain needs to be taken into account, default 0") print("--band: Select band (a | b | abgn), a means 5Ghz, b means 2.4, abgn means 2.4 on dual-band AP, default a") print("--pf_dbm: Pass/Fail range, default is 6") print("--pf_ignore_offset: Allow one chain to use lower tx-power and still pass when doing 4x4, default 100. so disabled") print("--wait_forever: Wait forever for station to associate, may aid debugging if STA cannot associate properly") print("--adjust_nf: Adjust RSSI based on noise-floor. ath10k without the use-real-noise-floor fix needs this option") print("--wlan: for 9800, wlan identifier ") print("--wlanID: wlanID for 9800 , defaults to 1") print("--wlanSSID: wlanSSID for 9800") print("--series: controller series 9800 , defaults to 3504") print("--slot: 9800 AP slot defaults to 1") print("--create_station", "create LANforge station at the beginning of the test") print("--radio", "radio to create LANforge station on at the beginning of the test") print("--ssid", "ssid default open-wlan") print("--ssidpw", "ssidpw default [BLANK]") print("--security", "security default open") print("--cleanup", " Clean up all stations after test completes, only need switch for True, Defaults False") print("--vht160", " Enables VHT160 in lanforge, only need switch for True, Defaults False") print("--verbose", " switch the cisco controller output will be captured") print("--exit_on_fail", "--exit_on_fail, exit on test failure") print("--exit_on_error", "--exit_on_error, exit on test error, test mechanics failed") print('-e', '--email', "--email user== passwd== to== smtp== port== 465 (SSL)") print('-ccp', '--prompt', "--prompt controller prompt default WLC") print('--beacon_dbm_diff', "--beacon_dbm_diff is the delta that is allowed between the controller tx and the beacon measured") print('--show_lf_portmod', " show the output of lf_portmod after traffic to verify RSSI values measured by lanforge") print( '-api', '--ap_info', "--ap_info ap_scheme== ap_prompt== ap_ip== ap_port== ap_user== ap_pw==") print("-h|--help") # see https://stackoverflow.com/a/13306095/11014343 class FileAdapter(object): def __init__(self, logger): self.logger = logger def write(self, data): # NOTE: data can be a partial line, multiple lines data = data.strip() # ignore leading/trailing whitespace if data: # non-blank self.logger.info(data) def flush(self): pass # leave it to logging to flush properly def exit_test(workbook): workbook.close() sleep(0.5) exit(1) def main(): global lfmgr global lfstation global lfresource global lfresource2 global outfile global outfile_xlsx global full_outfile global upstream_port global pf_dbm global pf_ignore_offset global failed_low_threshold parser = argparse.ArgumentParser(description="Cisco TX Power report Script", epilog=EPILOG, formatter_class=argparse.RawTextHelpFormatter) parser.add_argument("-d", "--dest", type=str, help="address of the cisco controller", required=True) parser.add_argument("-o", "--port", type=str, help="control port on the controller", required=True) parser.add_argument("-u", "--user", type=str, help="credential login/username", required=True) parser.add_argument("-p", "--passwd", type=str, help="credential password", required=True) parser.add_argument("-s", "--scheme", type=str, choices=["serial", "ssh", "telnet"], help="Connect via serial, ssh or telnet", required=True) parser.add_argument("-t", "--tty", type=str, help="tty serial device") parser.add_argument("-l", "--log", action='store_true', help="create logfile for messages, default stdout") parser.add_argument("-a", "--ap", type=str, help="select AP") parser.add_argument("-b", "--bandwidth", type=str, help="List of bandwidths to test. NA means no change") parser.add_argument("-c", "--channel", type=str, help="List of channels to test, with optional path-loss, 36:64 149:60. NA means no change") parser.add_argument("-n", "--nss", type=str, help="List of spatial streams to test. NA means no change") parser.add_argument("-T", "--txpower", type=str, help="List of txpowers to test. NA means no change") parser.add_argument("-k", "--keep_state", "--no_cleanup", dest="keep_state", action="store_true", help="keep the state, no configuration change at the end of the test") parser.add_argument( '-D', '--duration', type=str, help='--traffic example -t 20 (seconds) default: 20 ', default='20') parser.add_argument("--station", type=str, help="LANforge station to use (sta0000, etc) use if station present and --create_station not used") parser.add_argument("--upstream_port", type=str, help="LANforge upsteram-port to use (eth1, etc)") parser.add_argument("--lfmgr", type=str, help="LANforge Manager IP address") parser.add_argument("--lfresource", type=str, help="LANforge resource ID for the station") parser.add_argument("--lfresource2", type=str, help="LANforge resource ID for the upstream port system") parser.add_argument("--outfile", type=str, help="Output file for csv data", default="cisco_power_results") parser.add_argument("--pathloss", type=str, help="Calculated pathloss between LANforge Station and AP") parser.add_argument("--antenna_gain", type=str, help="Antenna gain, take into account the gain due to the antenna", default="0") parser.add_argument("--band", type=str, help="6g, Select band a, 5g, b, 24g", choices=["a", "5g", "24g", "b", "abgn", "6g"]) parser.add_argument("--pf_dbm", type=str, help="Pass/Fail threshold. Default is 6", default="6") parser.add_argument( "--pf_ignore_offset", type=str, help="Allow a chain to have lower tx-power and still pass. default 0 so disabled", default="0") parser.add_argument( "--wait_forever", action='store_true', help="Wait forever for station to associate, may aid debugging if STA cannot associate properly") parser.add_argument( "--adjust_nf", action='store_true', help="Adjust RSSI based on noise-floor. ath10k without the use-real-noise-floor fix needs this option") parser.add_argument("--wlan", type=str, help="--wlan 9800, wlan identifier", required=True) parser.add_argument("--wlanID", type=str, help="--wlanID 9800 , defaults to 1", default="1", required=True) parser.add_argument("--wlanSSID", type=str, help="--wlan 9800, wlan SSID, this must match the -ssid , ssid for station", required=True) parser.add_argument("--series", type=str, help="--series 9800 or 3504, defaults to 9800", default="9800") parser.add_argument("--slot", type=str, help="--slot 1 , 9800 AP slot defaults to 1", default="1") parser.add_argument("--create_station", type=str, help="create LANforge station at the beginning of the test") parser.add_argument("--radio", type=str, help="radio to create LANforge station on at the beginning of the test") parser.add_argument("--ssid", type=str, help="ssid, this must patch the wlan", required=True) parser.add_argument("--ssidpw", "--security_key", dest='ssidpw', type=str, help="ssidpw", required=True) parser.add_argument("--security", type=str, help="security type open wpa wpa2 wpa3", required=True) parser.add_argument("--cleanup", action='store_true', help="--cleanup , Clean up stations after test completes ") parser.add_argument("--vht160", action='store_true', help="--vht160 , Enable VHT160 in lanforge ") parser.add_argument('--verbose', action='store_true', help='--verbose , switch the cisco controller output will be captured') parser.add_argument("--exit_on_fail", action='store_true', help="--exit_on_fail, exit on test failure") parser.add_argument("--exit_on_error", action='store_true', help="--exit_on_error, exit on test error, test mechanics failed") parser.add_argument( '-e', '--email', action='append', nargs=1, type=str, help="--email user== passwd== to== smtp== port== 465 (SSL)") parser.add_argument('-ccp', '--prompt', type=str, help="controller prompt", required=True) parser.add_argument( '--beacon_dbm_diff', type=str, help="--beacon_dbm_diff is the delta that is allowed between the controller tx and the beacon measured", default="7") parser.add_argument( '--show_lf_portmod', action='store_true', help="--show_lf_portmod, show the output of lf_portmod after traffic to verify RSSI values measured by lanforge") parser.add_argument( '-api', '--ap_info', action='append', nargs=1, type=str, help="--ap_info ap_scheme== ap_prompt== ap_ip== ap_port== ap_user== ap_pw==") # parser.add_argument("--tag_policy", type=str, help="--tag_policy default-tag-policy", default="default-tag-policy") # TODO remove required parser.add_argument("--tag_policy", type=str, help="--tag_policy default-tag-policy", default="RM204-TB1") parser.add_argument("--policy_profile", type=str, help="--policy_profile default-policy-profile", default="default-policy-profile") parser.add_argument("--testbed_id", type=str, help="--testbed_id", default="") parser.add_argument("--create_wlan", help="--create_wlan", action='store_true') parser.add_argument("--lf_logger_config_json", help="--lf_logger_config_json , json configuration of logger") parser.add_argument("--module", type=str, help="series module", required=True) parser.add_argument("--timeout", type=str, help="timeout value", default=3) # current_time = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()) + "{:.3f}".format(time.time() - (math.floor(time.time())))[1:] # print(current_time) # usage() args = None try: # Parcing the input parameters and assignment args = parser.parse_args() # logfile = args.log if (args.station is not None): lfstation = args.station if (args.create_station is not None): lfstation = args.create_station if (args.station is not None): print( "NOTE: both station: {} and create_station: {} on command line, test will use create_station {} ".format( args.station, args.create_station, args.create_station)) if (args.upstream_port is not None): upstream_port = args.upstream_port if (args.lfmgr is not None): lfmgr = args.lfmgr if (args.lfresource is not None): lfresource = args.lfresource if (args.lfresource2 is not None): lfresource2 = args.lfresource2 if (args.outfile is not None): outfile = args.outfile full_outfile = "full-%s" % (outfile) outfile_xlsx = "%s.xlsx" % (outfile) if (args.pf_dbm is not None): pf_dbm = int(args.pf_dbm) if (args.pf_ignore_offset is not None): pf_ignore_offset = int(args.pf_ignore_offset) if (args.verbose): # capture the controller output , thus won't go to stdout some output always present cap_ctl_out = False else: cap_ctl_out = True if (args.wlanSSID != args.ssid): print("####### ERROR ################################") print("wlanSSID: {} must equial the station ssid: {}".format(args.wlanSSID, args.ssid)) print("####### ERROR ################################") exit(1) # note: there would always be an args.outfile due to the default current_time = time.strftime("%m_%d_%Y_%H_%M_%S", time.localtime()) outfile = "{}_{}.txt".format(args.outfile, current_time) full_outfile = "{}_full_{}.txt".format(args.outfile, current_time) outfile_xlsx = "{}_{}.xlsx".format(args.outfile, current_time) print("output file: {}".format(outfile)) print("output file full: {}".format(full_outfile)) print("output file xlsx: {}".format(outfile_xlsx)) if args.log: outfile_log = "{}_{}_output_log.log".format(args.outfile, current_time) print("output file log: {}".format(outfile_log)) ap_dict = [] if args.ap_info: ap_info = args.ap_info for _ap_info in ap_info: print("ap_info {}".format(_ap_info)) ap_keys = ['ap_scheme', 'ap_prompt', 'ap_ip', 'ap_port', 'ap_user', 'ap_pw'] ap_dict = dict(map(lambda x: x.split('=='), str(_ap_info).replace('[', '').replace(']', '').replace("'", "").split())) for key in ap_keys: if key not in ap_dict: print("missing ap config, for the {}, all these need to be set {} ".format(key, ap_keys)) exit(1) print("ap_dict: {}".format(ap_dict)) email_dicts = [] if args.email: emails = args.email for _email in emails: # print("email {}".format(_email)) email_keys = ['user', 'passwd', 'to', 'smtp', 'port'] _email_dict = dict(map(lambda x: x.split('=='), str(_email).replace('[', '').replace(']', '').replace("'", "").split())) # print("email_dict {}".format(_email_dict)) for key in email_keys: if key not in _email_dict: print("missing config, for the {}, all of the following need to be present {} ".format(key, email_keys)) exit(1) email_dicts.append(_email_dict) print("email_dicts: {}".format(email_dicts)) except Exception as e: logging.exception(e) usage() exit(2) # set up logger logger_config = lf_logger_config.lf_logger_config() if args.lf_logger_config_json: # logger_config.lf_logger_config_json = "lf_logger_config.json" logger_config.lf_logger_config_json = args.lf_logger_config_json logger_config.load_lf_logger_config() console_handler = logging.StreamHandler() formatter = logging.Formatter(FORMAT) # TODO refactor to be logger for consistency logg = logging.getLogger(__name__) # logg.setLevel(logging.DEBUG) file_handler = None # Setting up log file if specified if args.log: file_handler = logging.FileHandler(outfile_log, "w") file_handler.setLevel(logging.DEBUG) file_handler.setFormatter(formatter) logg.addHandler(file_handler) logg.addHandler(logging.StreamHandler(sys.stdout)) # allows to logging to file and stderr # logging.basicConfig(format=FORMAT, handlers=[console_handler]) else: # pass # stdout logging logging.basicConfig(format=FORMAT, handlers=[console_handler]) # logg.addHandler(logging.StreamHandler()) # allows to logging to file and stderr # dynamic import of the controller module series = importlib.import_module(args.module) # create the controller , cs is controller scheme cs = series.create_controller_series_object( scheme=args.scheme, dest=args.dest, user=args.user, passwd=args.passwd, prompt=args.prompt, series=args.series, ap=args.ap, port=args.port, band=args.band, timeout=args.timeout) cs.wlan = args.wlan cs.wlanID = args.wlanID cs.wlanSSID = args.wlanSSID # TODO change to use args.security_key cs.security_key = args.ssidpw if args.create_wlan: cs.tag_policy = args.tag_policy cs.policy_profile = args.policy_profile if bool(ap_dict): logg.info("ap_dict {}".format(ap_dict)) if bool(email_dicts): logg.info("email_dicts {}".format(email_dicts)) if args.outfile is not None: logg.info("output file: {}".format(outfile)) logg.info("output file full: {}".format(full_outfile)) logg.info("output file xlsx: {}".format(outfile_xlsx)) if args.log: logg.info("output file log: {}".format(outfile_log)) if (args.bandwidth is None): usage() logg.info("ERROR: Must specify bandwidths") exit(1) if (args.channel is None): usage() logg.info("ERROR: Must specify channels") exit(1) if (args.nss is None): usage() logg.info("ERROR: Must specify NSS") exit(1) if (args.txpower is None): usage() logg.info("ERROR: Must specify txpower") exit(1) if (args.pathloss is None): logg.info("ERROR: Pathloss must be specified.") exit(1) if (args.antenna_gain is None): usage() logg.info("ERROR: Antenna gain must be specified.") exit(1) # Full spread-sheet data csv = open(full_outfile, "w") csv.write("Regulatory Domain\tCabling Pathloss\tAntenna Gain\tCfg-Channel\tCfg-NSS\tCfg-AP-BW\tTx Power\tBeacon-Signal\tCombined-Signal\tRSSI 1\tRSSI 2\tRSSI 3\tRSSI 4\tAP-BSSID\tRpt-BW\tRpt-Channel\tRpt-Mode\tRpt-NSS\tRpt-Noise\tRpt-Rxrate\tCtrl-AP-MAC\tCtrl-Channel\tCtrl-Power\tCtrl-dBm\tCalc-dBm-Combined\tDiff-dBm-Combined\tAnt-1\tAnt-2\tAnt-3\tAnt-4\tOffset-1\tOffset-2\tOffset-3\tOffset-4\tPASS/FAIL(+-%sdB)\tTimeStamp\tWarnings-and-Errors" % (pf_dbm)) csv.write("\n") csv.flush() # Summary spread-sheet data csvs = open(outfile, "w") csvs.write("Regulatory Domain\tCabling Pathloss\tAntenna Gain\tAP Channel\tNSS\tAP BW\tTx Power\tAllowed Per-Path\tRSSI 1\tRSSI 2\tRSSI 3\tRSSI 4\tAnt-1\tAnt-2\tAnt-3\tAnt-4\tOffset-1\tOffset-2\tOffset-3\tOffset-4\tPASS/FAIL(+-%sdB)\tTimeStamp\tWarnings-and-Errors" % (pf_dbm)) csvs.write("\n") csvs.flush() # XLSX file workbook = xlsxwriter.Workbook(outfile_xlsx) worksheet = workbook.add_worksheet() # bold = workbook.add_format({'bold': True, 'align': 'center'}) dblue_bold = workbook.add_format({'bold': True, 'align': 'center'}) dblue_bold.set_bg_color("#b8cbe4") dblue_bold.set_border(1) dtan_bold = workbook.add_format({'bold': True, 'align': 'center'}) dtan_bold.set_bg_color("#dcd8c3") dtan_bold.set_border(1) dpeach_bold = workbook.add_format({'bold': True, 'align': 'center'}) dpeach_bold.set_bg_color("#ffd8bb") dpeach_bold.set_border(1) dpink_bold = workbook.add_format({'bold': True, 'align': 'center'}) dpink_bold.set_bg_color("#fcc8ca") dpink_bold.set_border(1) dyel_bold = workbook.add_format({'bold': True, 'align': 'center'}) dyel_bold.set_bg_color("#ffe699") dyel_bold.set_border(1) dgreen_bold = workbook.add_format({'bold': True, 'align': 'center'}) dgreen_bold.set_bg_color("#c6e0b4") dgreen_bold.set_border(1) dgreen_bold_left = workbook.add_format({'bold': True, 'align': 'left'}) dgreen_bold_left.set_bg_color("#c6e0b4") dgreen_bold_left.set_border(1) # center = workbook.add_format({'align': 'center'}) center_blue = workbook.add_format({'align': 'center'}) center_blue.set_bg_color("#dbe5f1") center_blue.set_border(1) center_tan = workbook.add_format({'align': 'center'}) center_tan.set_bg_color("#edede1") center_tan.set_border(1) center_peach = workbook.add_format({'align': 'center'}) center_peach.set_bg_color("#fce4d6") center_peach.set_border(1) center_yel = workbook.add_format({'align': 'center'}) center_yel.set_bg_color("#fdf2cc") center_yel.set_border(1) center_yel_red = workbook.add_format({'align': 'center', 'color': 'red'}) center_yel_red.set_bg_color("#fdf2cc") center_yel_red.set_border(1) center_pink = workbook.add_format({'align': 'center'}) center_pink.set_bg_color("ffd2d3") center_pink.set_border(1) red = workbook.add_format({'color': 'red', 'align': 'center'}) red.set_bg_color("#e0efda") red.set_border(1) red_left = workbook.add_format({'color': 'red', 'align': 'left'}) red_left.set_bg_color("#e0efda") red_left.set_border(1) green = workbook.add_format({'color': 'green', 'align': 'center'}) green.set_bg_color("#e0efda") green.set_border(1) green_left = workbook.add_format({'color': 'green', 'align': 'left'}) green_left.set_bg_color("#e0efda") green_left.set_border(1) orange_left = workbook.add_format({'color': 'orange', 'align': 'left'}) orange_left.set_bg_color("#e0efda") orange_left.set_border(1) worksheet.set_row(0, 45) # Set height worksheet.set_column(0, 0, 10) # Set width col = 0 row = 0 worksheet.write(row, col, 'Regulatory\nDomain', dblue_bold) col += 1 worksheet.set_column(col, col, 16) # Set width worksheet.write(row, col, 'Controller\n{testbed_id}'.format(testbed_id=args.testbed_id), dblue_bold) col += 1 worksheet.set_column(col, col, 20) # Set width worksheet.write(row, col, 'Controller\nChannel', dblue_bold) col += 1 worksheet.set_column(col, col, 20) # Set width worksheet.write(row, col, 'AP\n{ap}\nChannel'.format(ap=args.ap), dblue_bold) col += 1 worksheet.write(row, col, 'NSS', dblue_bold) col += 1 worksheet.set_column(col, col, 10) # Set width worksheet.write(row, col, 'Controller\nBW', dblue_bold) col += 1 worksheet.write(row, col, 'STA\nRpt\nBW', dblue_bold) col += 1 worksheet.write(row, col, 'Tx\nPower', dtan_bold) col += 1 worksheet.write(row, col, 'Allowed\nPer\nPath', dtan_bold) col += 1 worksheet.write(row, col, 'Cabling\nPathloss', dtan_bold) col += 1 worksheet.write(row, col, 'Antenna\nGain', dtan_bold) col += 1 worksheet.write(row, col, 'Noise\n', dpeach_bold) col += 1 if (args.adjust_nf): worksheet.write(row, col, 'Noise\nAdjust\n(vs -105)', dpeach_bold) col += 1 worksheet.set_column(col, col, 15) # Set width worksheet.write(row, col, 'Last\nMCS\n', dpeach_bold) col += 1 worksheet.set_column(col, col, 10) # Set width worksheet.write(row, col, 'Beacon\nRSSI\n', dpeach_bold) col += 1 worksheet.set_column(col, col, 10) # Set width worksheet.write(row, col, 'Combined\nRSSI\n', dpeach_bold) col += 1 worksheet.write(row, col, 'RSSI\n1', dpeach_bold) col += 1 worksheet.write(row, col, 'RSSI\n2', dpeach_bold) col += 1 worksheet.write(row, col, 'RSSI\n3', dpeach_bold) col += 1 worksheet.write(row, col, 'RSSI\n4', dpeach_bold) col += 1 worksheet.write(row, col, 'Ant\n1', dpink_bold) col += 1 worksheet.write(row, col, 'Ant\n2', dpink_bold) col += 1 worksheet.write(row, col, 'Ant\n3', dpink_bold) col += 1 worksheet.write(row, col, 'Ant\n4', dpink_bold) col += 1 worksheet.write(row, col, 'Offset\n1', dyel_bold) col += 1 worksheet.write(row, col, 'Offset\n2', dyel_bold) col += 1 worksheet.write(row, col, 'Offset\n3', dyel_bold) col += 1 worksheet.write(row, col, 'Offset\n4', dyel_bold) col += 1 worksheet.set_column(col, col, 10) # Set width worksheet.write(row, col, 'Controller\n dBm', dblue_bold) col += 1 worksheet.set_column(col, col, 10) # Set width worksheet.write(row, col, 'Calculated\n dBm\n Beacon', dblue_bold) col += 1 worksheet.set_column(col, col, 18) # Set width worksheet.write(row, col, 'Diff Controller dBm\n & Beacon dBm \n (+/- {} dBm)'.format(args.beacon_dbm_diff), dblue_bold) col += 1 worksheet.set_column(col, col, 14) # Set width worksheet.write(row, col, 'Calculated\n dBm\n Combined', dblue_bold) col += 1 worksheet.set_column(col, col, 14) # Set width worksheet.write(row, col, 'Diff\nController dBm\n & Combined', dblue_bold) col += 1 worksheet.set_column(col, col, 12) # Set width worksheet.write(row, col, "PASS /\nFAIL\n( += %s dBm)" % (pf_dbm), dgreen_bold) col += 1 worksheet.set_column(col, col, 24) # Set width worksheet.write(row, col, 'Time Stamp\n', dgreen_bold) col += 1 worksheet.set_column(col, col, 24) # Set width worksheet.write(row, col, 'Run Time Single Test\n', dgreen_bold) col += 1 worksheet.set_column(col, col, 24) # Set width worksheet.write(row, col, 'Total Run Time\n', dgreen_bold) col += 1 worksheet.set_column(col, col, 100) # Set width worksheet.write(row, col, 'Information, Warnings, Errors', dgreen_bold_left) col += 1 row += 1 bandwidths = args.bandwidth.split() channels = args.channel.split() nss = args.nss.split() txpowers = args.txpower.split() # The script has the ability to create a station if one does not exist if (args.create_station is not None): if (args.radio is None): logg.info("WARNING --create needs a radio") exit_test(workbook) elif (args.vht160): logg.info("creating station with VHT160 set: {} on radio {}".format(args.create_station, args.radio)) print() subprocess.run(["./lf_associate_ap.pl", "--mgr", lfmgr, "--radio", args.radio, "--ssid", args.ssid, "--passphrase", args.ssidpw, "--security", args.security, "--upstream", args.upstream_port, "--first_ip", "DHCP", "--first_sta", args.create_station, "--action", "add", "--xsec", "ht160_enable"], timeout=20, capture_output=True) sleep(3) else: logg.info("creating station: {} on radio {}".format(args.create_station, args.radio)) subprocess.run(["./lf_associate_ap.pl", "--mgr", lfmgr, "--radio", args.radio, "--ssid", args.ssid, "--passphrase", args.ssidpw, "--security", args.security, "--upstream", args.upstream_port, "--first_ip", "DHCP", "--first_sta", args.create_station, "--action", "add"], timeout=20, capture_output=True) sleep(3) # Find LANforge station parent radio parent = None logg.info("portmod command: ./lf_portmod.pl --manager {lfmgr} --card {lfresource} --port_name {lfstation} --show_port Parent/Peer".format( lfmgr=lfmgr, lfresource=lfresource, lfstation=lfstation)) port_stats = subprocess.run(["./lf_portmod.pl", "--manager", lfmgr, "--card", lfresource, "--port_name", lfstation, "--show_port", "Parent/Peer"], capture_output=True) pss = port_stats.stdout.decode('utf-8', 'ignore') for line in pss.splitlines(): m = re.search('Parent/Peer:\\s+(.*)', line) if (m is not None): parent = m.group(1) # Create downstream connection # First, delete any old one subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "rm_cx all c-udp-power"], capture_output=True) subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "rm_endp c-udp-power-A"], capture_output=True) subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource2, "--action", "do_cmd", "--cmd", "rm_endp c-udp-power-B"], capture_output=True) # Now, create the new connection subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "create_endp", "--port_name", lfstation, "--endp_type", "lf_udp", "--endp_name", "c-udp-power-A", "--speed", "0", "--report_timer", "1000"], capture_output=True) subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource2, "--action", "create_endp", "--port_name", upstream_port, "--endp_type", "lf_udp", "--endp_name", "c-udp-power-B", "--speed", "1000000", "--report_timer", "1000"], capture_output=True) subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "create_cx", "--cx_name", "c-udp-power", "--cx_endps", "c-udp-power-A,c-udp-power-B", "--report_timer", "1000"], capture_output=True) myrd = "" # The script supports both the 9800 series controller and the 3504 series controller , the controllers have different interfaces if args.series == "9800": cs.no_logging_console() cs.line_console_0() # TODO pss = cs.show_ap_summary() logg.info(pss) # Find our current regulatory domain so we can report it properly searchap = False for line in pss.splitlines(): if (line.startswith("---------")): searchap = True continue # the summaries are different between the 9800 series controller and the 3504 series # if the output changes then the following pattern/regular expression parcing needs to be changed # this site may help: https://regex101.com/ # when using https://regex101.com/ for tool beginning of string begins with ^ if (searchap): if args.series == "9800": pat = "%s\\s+\\S+\\s+\\S+\\s+\\S+\\s+\\S+\\s+\\S+\\s+\\S+\\s+(\\S+)" % (args.ap) else: pat = "%s\\s+\\S+\\s+\\S+\\s+\\S+\\s+\\S+.* (\\S+)\\s+\\S+\\s*\\S+\\s+\\[" % (args.ap) m = re.search(pat, line) if (m is not None): myrd = m.group(1) # Loop through all iterations and run txpower tests. # The is the main loop of loops: Channels, spatial streams (nss), bandwidth (bw), txpowers (tx) # Note: supports 9800 and 3504 controllers wlan_created = False # create blank time stamp total_run_duration = datetime.timedelta(0) run_start_time = datetime.datetime.now() run_start_time_str = str(datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S")).replace(':', '-') logger.info("run_start_time : {run_start_time}".format(run_start_time=run_start_time_str)) for ch in channels: pathloss = args.pathloss antenna_gain = args.antenna_gain ch_colon = ch.count(":") if (ch_colon == 1): cha = ch.split(":") pathloss = cha[1] ch = cha[0] for n in nss: for bw in bandwidths: if (n != "NA"): ni = int(n) if (parent is None): logg.info("ERROR: Skipping setting the spatial streams because cannot find Parent radio for station: %s." % (lfstation)) else: # Set nss on LANforge Station, not sure it can be done on AP if (bw == "160"): # 9984 hardware needs 2 chains to do one NSS at 160Mhz if (ni > 2): if(args.vht160): ni = 2 logg.info("NOTE: --vht160 set will set ni : {}".format(ni)) # Set radio to 2x requested value ni *= 2 logg.info("NOTE: --vht160 set will set ni * 2 : {}".format(ni)) else: logg.info("NOTE: Skipping NSS %s for 160Mhz, LANforge radios do not support more than 2NSS at 160Mhz currently." % (n)) logg.info("NOTE: use --vht160 to force 2NSS at 160Mhz") continue else: # Set radio to 2x requested value for 160Mhz ni *= 2 antset = 0 # all available if (ni == 1): antset = 1 if (ni == 2): antset = 4 if (ni == 3): antset = 7 set_cmd = "set_wifi_radio 1 %s %s NA NA NA NA NA NA NA NA NA %s" % (lfresource, parent, antset) logg.info("Setting LANforge radio to %s NSS with command: %s" % (ni, set_cmd)) subprocess.run(["./lf_portmod.pl", "--manager", lfmgr, "--card", lfresource, "--port_name", parent, "--cli_cmd", set_cmd], capture_output=True) # tx power 1 is the highest power , 2 power is 1/2 of 1 power etc till power 8 the lowest. for tx in txpowers: # e_tot is the errors, w_tot is the warning, i_tot is information e_tot = "" w_tot = "" i_tot = "" # Stop traffic , if traffic was running , this is on the lanforge side. Commands that start with lf_ are directed # towards the lanforge subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "set_cx_state all c-udp-power STOPPED"], capture_output=True) # Down station port_stats = subprocess.run(["./lf_portmod.pl", "--manager", lfmgr, "--card", lfresource, "--port_name", lfstation, "--set_ifstate", "down"]) cs.show_ap_summary() # Disable AP, apply settings, enable AP cs.show_ap_dot11_5gz_shutdown() cs.show_ap_dot11_24gz_shutdown() if args.series == "9800": # 9800 series need to "Configure radio for manual channel assignment" logg.info("9800 Configure radio for manual channel assignment") cs.wlan_shutdown() cs.ap_dot11_5ghz_shutdown() cs.ap_dot11_24ghz_shutdown() # manual cs.ap_dot11_5ghz_radio_role_manual_client_serving() cs.ap_dot11_24ghz_radio_role_manual_client_serving() else: cs.ap_dot11_5ghz_shutdown() cs.ap_dot11_24ghz_shutdown() logg.info("9800/3504 test_parameters_summary: set : tx: {tx_power} ch: {channel} bw: {bandwidth}".format( tx_power=tx, channel=ch, bandwidth=bw)) if (tx != "NA"): logg.info("9800/3504 test_parameters: set txPower: {tx_power}".format(tx_power=tx)) cs.tx_power = tx # TODO add 24ghz and 6ghz if args.band == 'a': cs.config_dot11_5ghz_tx_power() elif args.band == 'b': cs.config_dot11_5ghz_tx_power() # TODO add 24ghz and 6ghz if (bw != "NA"): logg.info("bandwidth 20 prior to setting channel, some channels only support 20") cs.bandwidth = '20' cs.config_dot11_5ghz_channel_width() # setting channel to 20 is invalid for 20 Mhz # cs.config_dot11_24ghz_channel_width() # TODO add 24ghz , 6ghz # NSS is set on the station earlier... if (ch != "NA"): logg.info("9800/3504 test_parameters set channel: {}".format(ch)) cs.channel = ch if args.band == 'a': cs.config_dot11_5ghz_channel() elif args.band == 'b': cs.config_dot11_24ghz_channel() if (bw != "NA"): logg.info("9800/3504 test_parameters bandwidth: set : {}".format(bw)) cs.bandwidth = bw if args.band == 'a': cs.config_dot11_5ghz_channel_width() elif args.band == 'b': if bw != '20': logg.info(" 24ghz channel bw should be 20") cs.config_dot11_24ghz_channel_width() # only create the wlan the first time if args.series == "9800": if args.create_wlan is False: wlan_created = True if wlan_created: pss = cs.show_wlan_summary() logg.info(pss) logg.info( "wlan already present, no need to create wlanID {} wlan {} wlanSSID {} port {}".format( args.wlanID, args.wlan, args.wlanSSID, args.port)) pass else: # Verify that a wlan does not exist on wlanID # delete the wlan if already exists pss = cs.show_wlan_summary() logg.info(pss) # "number of WLANs:\s+(\S+)" search_wlan = False for line in pss.splitlines(): logg.info(line) if (line.startswith("---------")): search_wlan = True continue if (search_wlan): pat = "{}\\s+(\\S+)\\s+(\\S+)".format(args.wlanID) m = re.search(pat, line) if (m is not None): cc_wlan = m.group(1) cc_wlan_ssid = m.group(2) # wlanID is in use logg.info("###############################################################################") logg.info("Need to remove wlanID: {} cc_wlan: {} cc_wlan_ssid: {}".format(args.wlanID, cc_wlan, cc_wlan_ssid)) logg.info("###############################################################################") cs.config_no_wlan() # Create wlan wlan_created = True logg.info("create wlan {} wlanID {} port {}".format(args.wlan, args.wlanID, args.port)) # TODO be able to do for WPA2 , WPA3 # TODO check for failure to close cookbook # this needs to be configurable cs.config_wlan_open() cs.config_wireless_tag_policy_and_policy_profile() # enable_wlan cs.config_enable_wlan_send_no_shutdown() # enable transmission for the entier 802.11z network # enable_network_5ghz if args.band == 'a': # enable 5g wlan pss = cs.config_no_ap_dot11_5ghz_shutdown() logg.info(pss) # enable 5g pss = cs.config_ap_no_dot11_5ghz_shutdown() logg.info(pss) elif args.band == 'b': # enable wlan pss = cs.config_no_ap_dot11_24ghz_shutdown() logg.info(pss) # enable 2ghz cs.config_ap_no_dot11_24ghz_shutdown() # Wait a bit for AP to come back up time.sleep(3) loop_count = 0 cc_dbm_rcv = False if args.series == "9800": while cc_dbm_rcv is False and loop_count <= 3: logg.info("9800 read controller dBm") loop_count += 1 time.sleep(1) # TODO configuration for 24g, 6g if args.band == 'a': pss = cs.show_ap_dot11_5gz_summary() logg.info(pss) else: pss = cs.show_ap_dot11_24gz_summary() logg.info(pss) searchap = False cc_mac = "" cc_ch = "" cc_bw = "" cc_power = "" cc_dbm = "" for line in pss.splitlines(): if (line.startswith("---------")): searchap = True continue # if the pattern changes save the output of the advanced command and re parse https://regex101.com if (searchap): pat = "%s\\s+(\\S+)\\s+(%s)\\s+\\S+\\s+\\S+\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+dBm\\)+\\s+(\\S+)+\\s" % (args.ap, args.slot) m = re.search(pat, line) if (m is not None): if(m.group(2) == args.slot): cc_mac = m.group(1) cc_slot = m.group(2) cc_ch = m.group(6) # (132,136,140,144) cc_power = m.group(4) cc_power = cc_power.replace("/", " of ") # spread-sheets turn 1/8 into a date cc_dbm = m.group(5) cc_dbm = cc_dbm.replace("(", "") cc_ch_count = cc_ch.count(",") + 1 cc_bw = m.group(3) logg.info( "group 1: {} 2: {} 3: {} 4: {} 5: {} 6: {}".format( m.group(1), m.group(2), m.group(3), m.group(4), m.group(5), m.group(6))) logg.info("9800 test_parameters_summary: read: tx: {} ch: {} bw: {}".format(tx, ch, bw)) logg.info("9800 test_parameters cc_mac: read : {}".format(cc_mac)) logg.info("9800 test_parameters cc_slot: read : {}".format(cc_slot)) logg.info("9800 test_parameters cc_count: read : {}".format(cc_ch_count)) logg.info("9800 test_parameters cc_bw: read : {}".format(cc_bw)) logg.info("9800 test_parameters cc_power: read : {}".format(cc_power)) logg.info("9800 test_parameters cc_dbm: read : {}".format(cc_dbm)) logg.info("9800 test_parameters cc_ch: read : {}".format(cc_ch)) break if (cc_dbm == ""): if loop_count >= 3: # Could not talk to controller? Not this may not be a reason to exit # Some of the tests run for 32 plus hours , do not kill the whole test unless trying to # debug an issue with the test. Sometimes the controller is taking time to configure. err = "ERROR: Could not query dBm from controller, maybe controller died?" logg.info(err) logg.info("Check controller and AP , Command on AP to erase the config: capwap ap erase all") e_tot += err e_tot += " " else: logg.info("9800 read controller dBm loop_count {} try again".format(loop_count)) else: cc_dbm_rcv = True cs.show_wlan_summary() else: # TODO configuration for 24g, 6g pss = cs.show_ap_dot11_5gz_summary() logg.info(pss) pss = cs.show_ap_dot11_24gz_summary() logg.info(pss) pss = cs.show_wlan_summary() logg.info(pss) searchap = False cc_mac = "" cc_ch = "" cc_bw = "" cc_power = "" cc_dbm = "" ch_count = "" for line in pss.splitlines(): if (line.startswith("---------")): searchap = True continue if (searchap): pat = "%s\\s+(\\S+)\\s+\\S+\\s+\\S+\\s+\\S+\\s+(\\S+)\\s+(\\S+)\\s+\\(\\s*(\\S+)\\s+dBm" % (args.ap) m = re.search(pat, line) if (m is not None): cc_mac = m.group(1) cc_ch = m.group(2) # (132,136,140,144) cc_power = m.group(3) cc_power = cc_power.replace("/", " of ", 1) # spread-sheets turn 1/8 into a date cc_dbm = m.group(4) ch_count = cc_ch.count(",") cc_bw = 20 * (ch_count + 1) break if (cc_dbm == ""): # Could not talk to controller? err = "ERROR: Could not query dBm from controller, maybe controller died?" logg.info(err) e_tot += err e_tot += " " logg.info("3504 test_parameters cc_mac: read : {}".format(cc_mac)) logg.info("3504 test_parameters cc_count: read : {}".format(ch_count)) logg.info("3504 test_parameters cc_bw: read : {}".format(cc_bw)) logg.info("3504 test_parameters cc_power: read : {}".format(cc_power)) logg.info("3504 test_parameters cc_dbm: read : {}".format(cc_dbm)) logg.info("3504 test_parameters cc_ch: read : {}".format(cc_ch)) # Up station subprocess.run(["./lf_portmod.pl", "--manager", lfmgr, "--card", lfresource, "--port_name", lfstation, "--set_ifstate", "up"]) i = 0 wait_ip_print = False wait_assoc_print = False # Wait untill LANforge station connects while True: port_stats = subprocess.run(["./lf_portmod.pl", "--manager", lfmgr, "--card", lfresource, "--port_name", lfstation, "--show_port", "AP,IP,Mode,NSS,Bandwidth,Channel,Signal,Noise,Status,RX-Rate"], capture_output=True, check=True) pss = port_stats.stdout.decode('utf-8', 'ignore') _status = None _ip = None for line in pss.splitlines(): m = re.search('Status:\\s+(.*)', line) if (m is not None): _status = m.group(1) m = re.search('IP:\\s+(.*)', line) if (m is not None): _ip = m.group(1) # logg.info("IP %s Status %s"%(_ip, _status)) if (_status == "Authorized"): if ((_ip is not None) and (_ip != "0.0.0.0")): logg.info("Station is associated with IP address.") break else: if (not wait_ip_print): logg.info("Waiting for station to get IP Address.") wait_ip_print = True else: if (not wait_assoc_print): logg.info("Waiting up to 180s for station to associate.") wait_assoc_print = True i += 1 # We wait a fairly long time since AP will take a long time to start on a CAC channel. if (i > 180): err = "ERROR: Station did not connect within 180 seconds." logg.info(err) e_tot += err e_tot += " " if args.series == "9800": pss = cs.show_ap_dot11_5gz_summary() logg.info(pss) if (args.wait_forever): logg.info("Will continue waiting, you may wish to debug the system...") i = 0 else: break time.sleep(1) # Start traffic subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "set_cx_state all c-udp-power RUNNING"], capture_output=True, check=True) # Wait configured number of seconds more seconds logg.info("Waiting {} seconds to let traffic run for a bit, Channel {} NSS {} BW {} TX-Power {}".format(args.duration, ch, n, bw, tx)) time.sleep(int(args.duration)) # Gather probe results and record data, verify NSS, BW, Channel i = 0 beacon_sig = None sig = None pf = 1 ants = [] while True: time.sleep(1) port_stats = subprocess.run(["./lf_portmod.pl", "--manager", lfmgr, "--card", lfresource, "--port_name", lfstation, "--cli_cmd", "probe_port 1 %s %s" % (lfresource, lfstation)], capture_output=True, check=True) pss = port_stats.stdout.decode('utf-8', 'ignore') # for debug: print the output of lf_portmod.pl and the command used if (args.show_lf_portmod): logg.info("./lf_portmod.pl --manager {} --card {} --port_name {} --cli_cmd probe_port 1 {} {}".format(lfmgr, lfresource, lfstation, lfresource, lfstation)) logg.info(pss) foundit = False for line in pss.splitlines(): # logg.info("probe-line: %s"%(line)) m = re.search('signal avg:\\s+(\\S+)\\s+\\[(.*)\\]\\s+dBm', line) if (m is not None): logg.info("search: signal ave: resulted in m = {}".format(m)) sig = m.group(1) ants = m.group(2).split() q = 0 for a in ants: ants[q] = ants[q].replace(",", "", 1) q += 1 logg.info("sig: %s ants: %s ants-len: %s n: %s" % (sig, m.group(2), len(ants), n)) if (len(ants) == int(n)): foundit = True else: logg.info("Looking for %s spatial streams, signal avg reported fewer: %s" % (n, m.group(1))) m = re.search('beacon signal avg:\\s+(\\S+)\\s+dBm', line) if (m is not None): logg.info("search: beacon signal avg: resulted in m = {}".format(m)) beacon_sig = m.group(1) logg.info("beacon_sig: %s " % (beacon_sig)) if (foundit): break i += 1 if (i > 10): err = "Tried and failed 10 times to find correct spatial streams, continuing." logg.info(err) e_tot += err e_tot += " " while (len(ants) < int(n)): ants.append("") break endp_stats = subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--endp_vals", "rx_bps", "--cx_name", "c-udp-power"], capture_output=True, check=True) pss = endp_stats.stdout.decode('utf-8', 'ignore') # logg.info(pss) for line in pss.splitlines(): # logg.info("probe-line: %s"%(line))From Lanforge probe, command # ./lf_portmod.pl with cli parameter probe_port 1 (about line 1150) m = re.search('Rx Bytes:\\s+(\\d+)', line) if (m is not None): logg.info("Rx Bytes: result {}".format(m)) rx_bytes = int(m.group(1)) if (rx_bytes == 0): err = "ERROR: No bytes received by data connection, test results may not be valid." e_tot += err e_tot += " " # Stop traffic subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "set_cx_state all c-udp-power STOPPED"], capture_output=True, check=True) antstr = "" for x in range(4): if (x < int(n)): logg.info("x: %s n: %s len(ants): %s" % (x, n, len(ants))) antstr += ants[x] else: antstr += " " antstr += "\t" port_stats = subprocess.run(["./lf_portmod.pl", "--manager", lfmgr, "--card", lfresource, "--port_name", lfstation, "--show_port", "AP,IP,Mode,NSS,Bandwidth,Channel,Signal,Noise,Status,RX-Rate"], capture_output=True, check=True) pss = port_stats.stdout.decode('utf-8', 'ignore') _ap = None _bw = None _ch = None _mode = None _nss = None _noise = None _rxrate = None _noise_bare = None for line in pss.splitlines(): m = re.search('AP:\\s+(.*)', line) if (m is not None): _ap = m.group(1) logg.info("AP: {}".format(m)) m = re.search('Bandwidth:\\s+(.*)Mhz', line) if (m is not None): _bw = m.group(1) logg.info("Bandwidth: {}".format(m)) m = re.search('Channel:\\s+(.*)', line) if (m is not None): _ch = m.group(1) logg.info("Channel: {}".format(m)) m = re.search('Mode:\\s+(.*)', line) if (m is not None): _mode = m.group(1) logg.info("Mode: {}".format(m)) m = re.search('NSS:\\s+(.*)', line) if (m is not None): _nss = m.group(1) logg.info("NSS: {}".format(m)) m = re.search('Noise:\\s+(.*)', line) if (m is not None): _noise = m.group(1) logg.info("Noise: {}".format(m)) m = re.search('Noise:\\s+(.*)dBm', line) if (m is not None): _noise_bare = m.group(1) logg.info("Noise Bare: {}".format(m)) m = re.search('RX-Rate:\\s+(.*)', line) if (m is not None): _rxrate = m.group(1) logg.info("RX-Rate: {}".format(m)) # ath10k radios now take noise-floor into account, so adjust_nf # should remain set to false when using those radios. Possibly other # radios would need this, so leave code in place. rssi_adj = 0 if (args.adjust_nf and _noise_bare is not None): _noise_i = int(_noise_bare) if (_noise_i == 0): # Guess we could not detect noise properly? e_tot += "WARNING: Invalid noise-floor, calculations may be inaccurate. " pf = 0 else: rssi_adj = (_noise_i - nf_at_calibration) if (sig is None): e_tot += "ERROR: Could not detect signal level. " sig = -100 pf = 0 if (beacon_sig is None): e_tot += "ERROR: Could not detect beacon signal level. " beacon_sig = -100 pf = 0 pi = int(pathloss) ag = int(antenna_gain) calc_dbm_beacon = int(beacon_sig) + pi + rssi_adj + ag logg.info("calc_dbm_beacon {}".format(calc_dbm_beacon)) logg.info("sig: %s" % sig) calc_dbm = int(sig) + pi + rssi_adj + ag logg.info("calc_dbm %s" % (calc_dbm)) # Calculated per-antenna power is what we calculate the AP transmitted # at (rssi + pathloss + antenna_gain ). So, if we see -30 rssi, with pathloss of 44 , # with antenna gain of 6 # then we calculate AP transmitted at +20 calc_ant1 = 0 if (ants[0] != ""): calc_ant1 = int(ants[0]) + pi + rssi_adj + ag logg.info("calc_ant1: {} = ants[0]: {} + pi: {} + rssi_adj: {} + ag: {}".format(calc_ant1, ants[0], pi, rssi_adj, ag)) calc_ant2 = 0 calc_ant3 = 0 calc_ant4 = 0 if (len(ants) > 1 and ants[1] != ""): calc_ant2 = int(ants[1]) + pi + rssi_adj + ag logg.info("calc_ant2: {} = ants[1]: {} + pi: {} + rssi_adj: {} + ag: {}".format(calc_ant2, ants[1], pi, rssi_adj, ag)) if (len(ants) > 2 and ants[2] != ""): calc_ant3 = int(ants[2]) + pi + rssi_adj + ag logg.info("calc_ant3: {} = ants[2]: {} + pi: {} + rssi_adj: {} + ag: {}".format(calc_ant3, ants[2], pi, rssi_adj, ag)) if (len(ants) > 3 and ants[3] != ""): calc_ant4 = int(ants[3]) + pi + rssi_adj + ag logg.info("calc_ant4: {} = ants[3]: {} + pi: {} + rssi_adj: {} + ag: {}".format(calc_ant4, ants[3], pi, rssi_adj, ag)) diff_a1 = "" diff_a2 = "" diff_a3 = "" diff_a4 = "" if (cc_dbm == ""): cc_dbmi = 0 else: cc_dbmi = int(cc_dbm) diff_dbm = calc_dbm - cc_dbmi logg.info("diff_dbm {} calc_dbm {} - cc_dbmi {}".format(diff_dbm, calc_dbm, cc_dbmi)) diff_dbm_beacon = calc_dbm_beacon - cc_dbmi logg.info("diff_dbm_beacon {} calc_dbm_beacon {} - cc_dbmi {}".format(diff_dbm_beacon, calc_dbm_beacon, cc_dbmi)) if(int(abs(diff_dbm_beacon)) > int(args.beacon_dbm_diff)): w_tot = "WARNING: Controller dBm and Calculated dBm Beacon power different by greater than +/- {} dBm".format( args.beacon_dbm_diff) pfs = "PASS" pfrange = pf_dbm # Allowed per path is what we expect the AP should be transmitting at. # calc_ant1 is what we calculated it actually transmitted at based on rssi # pathloss and antenna gain. Allowed per-path is modified taking into account that multi # NSS tranmission will mean that each chain should be decreased so that sum total # of all chains is equal to the maximum allowed txpower. allowed_per_path = cc_dbmi logg.info("allowed_per_path: {} = cc_dbmi: {}".format(allowed_per_path, cc_dbmi)) if (int(_nss) == 1): diff_a1 = calc_ant1 - cc_dbmi logg.info("(Offset 1) diff_a1 (): {} = calc_ant1: {} - allowed_per_path: {}".format(diff_a1, calc_ant1, allowed_per_path)) if (abs(diff_a1) > pfrange): pf = 0 if (int(_nss) == 2): # NSS of 2 means each chain should transmit at 1/2 total power, thus the '- 3' allowed_per_path = cc_dbmi - 3 logg.info("allowed_per_path: {} = cc_dbmi: {} - 3".format(allowed_per_path, cc_dbmi)) diff_a1 = calc_ant1 - allowed_per_path logg.info("(Offset 1) diff_a1: {} = calc_ant1: {} - allowed_per_path: {}".format(diff_a1, calc_ant1, allowed_per_path)) diff_a2 = calc_ant2 - allowed_per_path logg.info("(Offset 2) diff_a2: {} = calc_ant2: {} - allowed_per_path: {}".format(diff_a2, calc_ant2, allowed_per_path)) if ((abs(diff_a1) > pfrange) or (abs(diff_a2) > pfrange)): pf = 0 if (int(_nss) == 3): # NSS of 3 means each chain should transmit at 1/3 total power, thus the '- 5' allowed_per_path = cc_dbmi - 5 logg.info("allowed_per_path: {} = cc_dbmi: {} - 5".format(allowed_per_path, cc_dbmi)) diff_a1 = calc_ant1 - allowed_per_path logg.info("(Offset 1) diff_a1: {} = calc_ant1: {} - allowed_per_path: {}".format(diff_a1, calc_ant1, allowed_per_path)) diff_a2 = calc_ant2 - allowed_per_path logg.info("(Offset 2) diff_a2: {} = calc_ant2: {} - allowed_per_path: {}".format(diff_a2, calc_ant2, allowed_per_path)) diff_a3 = calc_ant3 - allowed_per_path logg.info("(Offset 3) diff_a3: {} = calc_ant3: {} - allowed_per_path: {}".format(diff_a3, calc_ant3, allowed_per_path)) if ((abs(diff_a1) > pfrange) or (abs(diff_a2) > pfrange) or (abs(diff_a3) > pfrange)): pf = 0 if (int(_nss) == 4): # NSS of 4 means each chain should transmit at 1/4 total power, thus the '- 6' allowed_per_path = cc_dbmi - 6 logg.info("allowed_per_path: {} = cc_dbmi: {} - 6".format(allowed_per_path, cc_dbmi)) diff_a1 = calc_ant1 - allowed_per_path logg.info("(Offset 1) diff_a1: {} = calc_ant1: {} - allowed_per_path: {}".format(diff_a1, calc_ant1, allowed_per_path)) diff_a2 = calc_ant2 - allowed_per_path logg.info("(Offset 2) diff_a2: {} = calc_ant2: {} - allowed_per_path: {}".format(diff_a2, calc_ant2, allowed_per_path)) diff_a3 = calc_ant3 - allowed_per_path logg.info("(Offset 3) diff_a3: {} = calc_ant3: {} - allowed_per_path: {}".format(diff_a3, calc_ant3, allowed_per_path)) diff_a4 = calc_ant4 - allowed_per_path logg.info("(Offset 4) diff_a4: {} = calc_ant4: {} - allowed_per_path: {}".format(diff_a4, calc_ant4, allowed_per_path)) # Read AP to determine if there are less chains or spatial steams then expected # Thus provide a passing result failed_low = 0 # least = 0 if (diff_a1 < -pfrange): failed_low += 1 # least = diff_a1 #leave in code if want to move to least if (diff_a2 < -pfrange): failed_low += 1 # least = min(least, diff_a2) if (diff_a3 < -pfrange): failed_low += 1 # least = min(least, diff_a3) if (diff_a4 < -pfrange): failed_low += 1 # least = min(least, diff_a4) failed_low_threshold = 0 # # # If the ap dictionary is set the read the AP to see the number # of spatial streams used. For tx power 1 the AP may determine to use # fewer spatial streams # # P1 = None T1 = None P2 = None T2 = None P3 = None T3 = None P4 = None T4 = None N_ANT = None DAA_Pwr = None DAA_N_TX = None DAA_Total_pwr = None if(bool(ap_dict)): logg.info("ap_dict {}".format(ap_dict)) logg.info("Read AP ap_scheme: {} ap_ip: {} ap_port: {} ap_user: {} ap_pw: {}".format(ap_dict['ap_scheme'], ap_dict['ap_ip'], ap_dict["ap_port"], ap_dict['ap_user'], ap_dict['ap_pw'])) logg.info("####################################################################################################") logg.info("# READ AP POWERCFG") logg.info("####################################################################################################") try: logg.info("ap_ctl.py: read AP power information") ap_info = subprocess.run(["./ap_ctl.py", "--scheme", ap_dict['ap_scheme'], "--prompt", ap_dict['ap_prompt'], "--dest", ap_dict['ap_ip'], "--port", ap_dict["ap_port"], "--user", ap_dict['ap_user'], "--passwd", ap_dict['ap_pw'], "--action", "powercfg"], stdout=subprocess.PIPE) try: pss = ap_info.stdout.decode('utf-8', 'ignore') except BaseException: logg.info("ap_info was of type NoneType will set pss empty") pss = "empty" except subprocess.CalledProcessError as process_error: logg.info("####################################################################################################") logg.info("# CHECK IF AP HAS TELNET CONNECTION ALREADY ACTIVE") logg.info("####################################################################################################") logg.info("####################################################################################################") logg.info( "# Unable to commicate to AP error code: {} output {}".format( process_error.returncode, process_error.output)) logg.info("####################################################################################################") # exit_test(workbook) pss = "empty_process_error" logg.info(pss) for line in pss.splitlines(): logg.info("ap {}".format(line)) pat = '^\\s+1\\s+6\\s+\\S+\\s+\\S+\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)\\s+(\\S+)' m = re.search(pat, line) if (m is not None): P1 = m.group(1) T1 = m.group(2) P2 = m.group(3) T2 = m.group(4) P3 = m.group(5) T3 = m.group(6) P4 = m.group(7) T4 = m.group(8) N_ANT = m.group(9) DAA_Pwr = m.group(10) DAA_N_TX = m.group(11) # number of spatial streams DAA_Total_pwr = m.group(12) # adjust the fail criterial based on the number of spatial streams if DAA_N_TX == "4": failed_low_threshold = 0 logg.info("4 failed_low_threshold {}".format(failed_low_threshold)) if DAA_N_TX == "3": failed_low_threshold = 1 logg.info("3 failed_low_threshold {}".format(failed_low_threshold)) if DAA_N_TX == "2": failed_low_threshold = 2 logg.info("2 failed_low_threshold {}".format(failed_low_threshold)) if DAA_N_TX == "1": failed_low_threshold = 3 logg.info("1 failed_low_threshold {}".format(failed_low_threshold)) i_tot = "P1: {} T1: {} P2: {} T2: {} P3: {} T3: {} P4: {} T4: {} N_ANT: {} DAA_Pwr: {} DAA_N_TX: {} DAA_Total_pwr: {} ".format( P1, T1, P2, T2, P3, T3, P4, T4, N_ANT, DAA_Pwr, DAA_N_TX, DAA_Total_pwr) print(i_tot) logg.info(i_tot) else: logg.info("AP Check using regular expressions") # # The controller may adjust the number of spatial streams to allow for the # best power values # # for 4 spatial streams if the AP is read and the failed threshold is met then there is a failure # the failure will be caugh below if the range is not correct. # range check and reading the data from the AP may be used in conjunction thus it is coded to be non-exclusive logg.info("failed_low: {} failed_low_threshold: {}".format(failed_low, failed_low_threshold)) if bool(ap_dict) and failed_low > failed_low_threshold: logg.info("failed_low: {} > failed_low_threshold: {}".format(failed_low, failed_low_threshold)) pf = 0 if(pf_ignore_offset != 0): logg.info( "diff_a1: {} diff_a2: {} diff_a3: {} diff_a4: {} pfrange: {} pf_ignore_offset: {}".format( diff_a1, diff_a2, diff_a3, diff_a4, pfrange, pf_ignore_offset)) if (diff_a1 < -pfrange): if(diff_a1 < (-pfrange - pf_ignore_offset)): logg.info("diff_a1: {} < -pfrange: {} - pf_ignore_offset: {}".format(diff_a1, pfrange, pf_ignore_offset)) i_tot += "PASSED diff_a1({}) < -pfrange({}) - pf_ignore_offset({}) ".format(diff_a1, pfrange, pf_ignore_offset) logg.info("i_tot {}".format(i_tot)) else: logg.info("diff_a1: {} failure".format(diff_a1)) pf = 0 if (diff_a2 < -pfrange): if(diff_a2 < (-pfrange - pf_ignore_offset)): logg.info("diff_a2: {} < -pfrange: {} - pf_ignore_offset: {}".format(diff_a2, pfrange, pf_ignore_offset)) i_tot += "PASSED diff_a2({}) < -pfrange({}) - pf_ignore_offset({}) ".format(diff_a2, pfrange, pf_ignore_offset) logg.info("i_tot {}".format(i_tot)) else: logg.info("diff_a2: {} failure".format(diff_a2)) pf = 0 if (diff_a3 < -pfrange): if(diff_a3 < (-pfrange - pf_ignore_offset)): logg.info("diff_a3: {} < -pfrange: {} - pf_ignore_offset: {}".format(diff_a3, pfrange, pf_ignore_offset)) i_tot += "PASSED diff_a3({}) < -pfrange({}) - pf_ignore_offset({}) ".format(diff_a3, pfrange, pf_ignore_offset) logg.info("i_tot {}".format(i_tot)) else: logg.info("diff_a3: {} failure".format(diff_a3)) pf = 0 if (diff_a4 < -pfrange): if(diff_a4 < (-pfrange - pf_ignore_offset)): logg.info("diff_a4: {} < -pfrange: {} - pf_ignore_offset: {}".format(diff_a4, pfrange, pf_ignore_offset)) i_tot += "PASSED diff_a4({}) < -pfrange({}) - pf_ignore_offset({}) ".format(diff_a4, pfrange, pf_ignore_offset) logg.info("i_tot {}".format(i_tot)) else: logg.info("diff_a4: {} failure".format(diff_a4)) pf = 0 # check for range to high if (diff_a1 > pfrange): pf = 0 if (diff_a2 > pfrange): pf = 0 if (diff_a3 > pfrange): pf = 0 if (diff_a4 > pfrange): pf = 0 logg.info("_nss {} allowed_per_path (AP should be transmitting at) {}".format(_nss, allowed_per_path)) if (pf == 0 or e_tot != ""): pfs = "FAIL" run_end_time = datetime.datetime.now() run_end_time_str = str(datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S")).replace(':', '-') logger.info("run_end_time : {run_end_time}".format(run_end_time=run_end_time_str)) run_time_delta = run_end_time - run_start_time minutes, seconds = divmod(run_time_delta.seconds, 60) hours, minutes = divmod(minutes, 60) run_duration = "{day}d {hours}h {minutes}m {seconds}s {msec} ms".format( day=run_time_delta.days, hours=hours, minutes=minutes, seconds=seconds, msec=run_time_delta.microseconds) logger.info("Run Duration: {run_duration}".format(run_duration=run_duration)) total_run_duration += run_time_delta minutes, seconds = divmod(total_run_duration.seconds, 60) hours, minutes = divmod(minutes, 60) total_run_duration_str = "{day}d {hours}h {minutes}m {seconds}s {msec} ms".format( day=total_run_duration.days, hours=hours, minutes=minutes, seconds=seconds, msec=total_run_duration.microseconds) logger.info("Total Run Duration: {total_run_duration}".format(total_run_duration=total_run_duration)) run_start_time = run_end_time time_stamp = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()) + "{:.3f}".format(time.time() - (math.floor(time.time())))[1:] ln = "%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s" % ( myrd, pathloss, antenna_gain, ch, n, bw, tx, beacon_sig, sig, antstr, _ap, _bw, _ch, _mode, _nss, _noise, _rxrate, cc_mac, cc_ch, cc_power, cc_dbm, calc_dbm, diff_dbm, calc_ant1, calc_ant2, calc_ant3, calc_ant4, diff_a1, diff_a2, diff_a3, diff_a4, pfs, time_stamp, run_duration, total_run_duration_str ) # logg.info("RESULT: %s"%(ln)) csv.write(ln) csv.write("\t") ln = "%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s" % ( myrd, pathloss, antenna_gain, _ch, _nss, _bw, tx, allowed_per_path, antstr, calc_ant1, calc_ant2, calc_ant3, calc_ant4, diff_a1, diff_a2, diff_a3, diff_a4, pfs, time_stamp, run_duration, total_run_duration_str ) csvs.write(ln) csvs.write("\t") col = 0 worksheet.write(row, col, myrd, center_blue) col += 1 worksheet.write(row, col, args.series, center_blue) col += 1 worksheet.write(row, col, cc_ch, center_blue) col += 1 worksheet.write(row, col, _ch, center_blue) col += 1 worksheet.write(row, col, _nss, center_blue) col += 1 worksheet.write(row, col, cc_bw, center_blue) col += 1 worksheet.write(row, col, _bw, center_blue) col += 1 worksheet.write(row, col, tx, center_tan) col += 1 worksheet.write(row, col, allowed_per_path, center_tan) col += 1 worksheet.write(row, col, pathloss, center_tan) col += 1 worksheet.write(row, col, antenna_gain, center_tan) col += 1 worksheet.write(row, col, _noise, center_tan) col += 1 if (args.adjust_nf): worksheet.write(row, col, rssi_adj, center_tan) col += 1 worksheet.write(row, col, _rxrate, center_tan) col += 1 worksheet.write(row, col, beacon_sig, center_tan) col += 1 worksheet.write(row, col, sig, center_tan) col += 1 for x in range(4): if (x < int(n)): worksheet.write(row, col, ants[x], center_peach) col += 1 else: worksheet.write(row, col, " ", center_peach) col += 1 worksheet.write(row, col, calc_ant1, center_pink) col += 1 worksheet.write(row, col, calc_ant2, center_pink) col += 1 worksheet.write(row, col, calc_ant3, center_pink) col += 1 worksheet.write(row, col, calc_ant4, center_pink) col += 1 if (diff_a1 != "" and abs(diff_a1) > pfrange): worksheet.write(row, col, diff_a1, center_yel_red) col += 1 else: worksheet.write(row, col, diff_a1, center_yel) col += 1 if (diff_a2 != "" and abs(diff_a2) > pfrange): worksheet.write(row, col, diff_a2, center_yel_red) col += 1 else: worksheet.write(row, col, diff_a2, center_yel) col += 1 if (diff_a3 != "" and abs(diff_a3) > pfrange): worksheet.write(row, col, diff_a3, center_yel_red) col += 1 else: worksheet.write(row, col, diff_a3, center_yel) col += 1 if (diff_a4 != "" and abs(diff_a4) > pfrange): worksheet.write(row, col, diff_a4, center_yel_red) col += 1 else: worksheet.write(row, col, diff_a4, center_yel) col += 1 worksheet.write(row, col, cc_dbmi, center_blue) col += 1 worksheet.write(row, col, calc_dbm_beacon, center_blue) col += 1 worksheet.write(row, col, diff_dbm_beacon, center_blue) col += 1 worksheet.write(row, col, calc_dbm, center_blue) col += 1 worksheet.write(row, col, diff_dbm, center_blue) col += 1 if (pfs == "FAIL"): worksheet.write(row, col, pfs, red) col += 1 else: worksheet.write(row, col, pfs, green) col += 1 worksheet.write(row, col, time_stamp, green) col += 1 worksheet.write(row, col, run_duration, green) col += 1 worksheet.write(row, col, total_run_duration_str, green) col += 1 if (_bw != bw): err = "ERROR: Requested bandwidth: %s != station's reported bandwidth: %s. " % (bw, _bw) e_tot += err logg.info(err) csv.write(err) csvs.write(err) if (_nss != n): err = "ERROR: Station NSS: %s != configured: %s. " % (_nss, n) logg.info(err) csv.write(err) csvs.write(err) e_tot += err if (e_tot == ""): e_w_tot = e_tot + w_tot + i_tot if(w_tot == ""): worksheet.write(row, col, e_w_tot, green_left) col += 1 else: worksheet.write(row, col, e_w_tot, orange_left) col += 1 else: e_w_tot = e_tot + w_tot + i_tot worksheet.write(row, col, e_w_tot, red_left) col += 1 row += 1 csv.write("\n") csv.flush() csvs.write("\n") csvs.flush() # write out the data and exit on error : error takes presidence over failure if (e_tot != ""): if(args.exit_on_error): logg.info("EXITING ON ERROR, exit_on_error err: {} ".format(e_tot)) if bool(email_dicts): for email_dict in email_dicts: try: logg.info("Sending Email ") subject = "Lanforge: Error {}".format(outfile_xlsx) body = "Lanforeg: Error: AP: {} Channel: {} NSS: {} BW: {} TX-Power {}, pfs: {} time_stamp: {} {}".format( args.ap, ch, n, bw, tx, pfs, time_stamp, outfile_xlsx) email_out = subprocess.run(["./lf_mail.py", "--user", email_dict['user'], "--passwd", email_dict['passwd'], "--to", email_dict['to'], "--subject", subject, "--body", body, "--smtp", email_dict['smtp'], "--port", email_dict['port']], capture_output=cap_ctl_out, check=True) pss = email_out.stdout.decode('utf-8', 'ignore') logg.info(pss) except subprocess.CalledProcessError as process_error: logg.info("Unable to send email smtp {} port {} error code: {} output {}".format( email_dict['smtp'], email_dict['port'], process_error.returncode, process_error.output)) exit_test(workbook) # write out the data and exit on failure if (pf == 0): if(args.exit_on_fail): if(e_tot != ""): logg.info("EXITING ON FAILURE as a result of err {}".format(e_tot)) else: logg.info("EXITING ON FAILURE, exit_on_fail set there was no err ") if bool(email_dicts): for email_dict in email_dicts: try: logg.info("Sending Email ") subject = "Lanforge: Failure Found {}".format(outfile_xlsx) body = "Lanforge: Failure Found: AP: {} Channel: {} NSS: {} BW: {} TX-Power {}, pfs: {} time_stamp: {} {}".format( args.ap, ch, n, bw, tx, pfs, time_stamp, outfile_xlsx) email_out = subprocess.run(["./lf_mail.py", "--user", email_dict['user'], "--passwd", email_dict['passwd'], "--to", email_dict['to'], "--subject", subject, "--body", body, "--smtp", email_dict['smtp'], "--port", email_dict['port']], capture_output=cap_ctl_out, check=True) if cap_ctl_out: pss = email_out.stdout.decode('utf-8', 'ignore') logg.info(pss) except subprocess.CalledProcessError as process_error: logg.info("Unable to send email smtp {} port {} error code: {} output {}".format( email_dict['smtp'], email_dict['port'], process_error.returncode, process_error.output)) exit_test(workbook) if bool(email_dicts): for email_dict in email_dicts: try: logg.info("Sending Email ") subject = "Lanforge Test Compete {}".format(outfile_xlsx) body = "Lanforeg Test Complete : AP: {} time_stamp: {} {}".format(args.ap, time_stamp, outfile_xlsx) email_out = subprocess.run(["./lf_mail.py", "--user", email_dict['user'], "--passwd", email_dict['passwd'], "--to", email_dict['to'], "--subject", subject, "--body", body, "--smtp", email_dict['smtp'], "--port", email_dict['port']], capture_output=cap_ctl_out, check=True) if cap_ctl_out: pss = email_out.stdout.decode('utf-8', 'ignore') logg.info(pss) except subprocess.CalledProcessError as process_error: logg.info("Unable to send email smtp {} port {} error code: {} output {}".format( email_dict['smtp'], email_dict['port'], process_error.returncode, process_error.output)) workbook.close() # check if keeping the existing state # TODO add --no_cleanup if(args.keep_state): logg.info("9800/3504 flag --keep_state set thus keeping state") pss = cs.show_ap_dot11_5gz_summary() logg.info(pss) pss = cs.show_ap_dot11_24gz_summary() logg.info(pss) pss = cs.show_ap_summary() logg.info(pss) exit_test(workbook) else: # Set things back to defaults # remove the station if(args.cleanup): logg.info("--cleanup set Deleting all stations on radio {}".format(args.radio)) subprocess.run(["./lf_associate_ap.pl", "--action", "del_all_phy", "--port_del", args.radio], timeout=20, capture_output=True) # Disable AP, apply settings, enable AP # TODO disable 24gz if args.series == "9800": pss = cs.config_no_wlan() logg.info(pss) pss = cs.ap_dot11_5ghz_shutdown() logg.info(pss) pss = cs.ap_dot11_24ghz_shutdown() logg.info(pss) pss = cs.config_dot11_5ghz_tx_power() logg.info(pss) # NSS is set on the station earlier... if (ch != "NA"): pss = cs.config_dot11_5ghz_channel() if (bw != "NA"): pss = cs.config_dot11_5ghz_channel_width() logg.info(pss) if args.series == "9800": pss = cs.config_no_ap_dot11_5ghz_shutdown() logg.info(pss) pss = cs.config_no_ap_dot11_24ghz_shutdown() logg.info(pss) pss = cs.ap_dot11_5ghz_radio_role_auto() logg.info(pss) else: pss = cs.config_no_ap_dot11_5ghz_shutdown() logg.info(pss) pss = cs.config_no_ap_dot11_24ghz_shutdown() logg.info(pss) pss = cs.config_no_ap_dot11_5ghz_shutdown() # enable_network 5ghz logg.info(pss) # Remove LANforge traffic connection subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "set_cx_state all c-udp-power DELETED"], capture_output=True) subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "rm_endp c-udp-power-A"], capture_output=True) subprocess.run(["./lf_firemod.pl", "--manager", lfmgr, "--resource", lfresource, "--action", "do_cmd", "--cmd", "rm_endp c-udp-power-B"], capture_output=True) # Show controller status pss = cs.show_ap_dot11_5gz_summary() logg.info(pss) # ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- if __name__ == '__main__': main() print("Summary results stored in %s, full results in %s, xlsx file in %s" % (outfile, full_outfile, outfile_xlsx)) #### #### ####