sta_connect: refactoring leading to a base class LFCliBase and class structure for sta_connect

This commit is contained in:
Jed Reynolds
2020-06-01 13:59:07 -07:00
parent 6eb4830956
commit 6da7ef8afc
2 changed files with 400 additions and 362 deletions

View File

@@ -5,412 +5,418 @@
# to the requested BSSID if bssid is specified as an argument.
# The script will clean up the station and connections at the end of the test.
import os
import time
import sys
import argparse
if 'py-json' not in sys.path:
sys.path.append('../py-json')
sys.path.append('../py-json')
import subprocess
import json
import pprint
from LANforge import LFRequest
# from LANforge import LFRequest
from LANforge import LFUtils
# from LANforge import LFCliBase
from LANforge.LFCliBase import LFCliBase
from LANforge.LFUtils import *
import create_genlink as genl
debugOn = True
if sys.version_info[0] != 3:
print("This script requires Python 3")
exit(1)
dest = "localhost";
port = "8080";
dut_ssid = "MyAP"
dut_passwd = "NA"
dut_bssid = ""
user = ""
passwd = ""
sta_mode = "0" # See add_sta LANforge CLI users guide entry
radio = "wiphy0"
resource = "1"
upstream_resource = "1"
upstream_port = "eth2"
sta_name = "sta001"
parser = argparse.ArgumentParser(description="LANforge Unit Test: Connect Station to AP\nExample:\n./sta_connect.py --dest 192.168.100.209 --dut_ssid OpenWrt-2 --dut_bssid 24:F5:A2:08:21:6C")
parser.add_argument("-d", "--dest", type=str, help="address of the LANforge GUI machine (localhost is default)")
parser.add_argument("-o", "--port", type=int, help="IP Port the LANforge GUI is listening on (8080 is default)")
parser.add_argument("-u", "--user", type=str, help="TBD: credential login/username")
parser.add_argument("-p", "--passwd", type=str, help="TBD: credential password")
parser.add_argument("--resource", type=str, help="LANforge Station resource ID to use, default is 1")
parser.add_argument("--upstream_resource", type=str, help="LANforge Ethernet port resource ID to use, default is 1")
parser.add_argument("--upstream_port", type=str, help="LANforge Ethernet port name, default is eth2")
parser.add_argument("--radio", type=str, help="LANforge radio to use, default is wiphy0")
parser.add_argument("--sta_mode", type=str, help="LANforge station-mode setting (see add_sta LANforge CLI documentation, default is 0 (auto))")
parser.add_argument("--dut_ssid", type=str, help="DUT SSID")
parser.add_argument("--dut_passwd", type=str, help="DUT PSK password. Do not set for OPEN auth")
parser.add_argument("--dut_bssid", type=str, help="DUT BSSID to which we expect to connect.")
class StaConnect(LFCliBase):
def __init__(self, lfjson_host, lfjson_port, _dut_ssid="MyAP", _dut_passwd="NA", _dut_bssid="",
_user="", _passwd="", _sta_mode="0", _radio="wiphy0",
_resource=1, _upstream_resource=1, _upstream_port="eth2",
_sta_name="sta001", _debugOn=False):
# self.dest = "localhost" # in super
# self.port = "8080" # in super
args = None
super().__init__(self, lfjson_host, lfjson_port)
self.dut_ssid = _dut_ssid
self.dut_passwd = _dut_passwd
self.dut_bssid = _dut_bssid
self.user = _user
self.passwd = _passwd
self.sta_mode = _sta_mode # See add_sta LANforge CLI users guide entry
self.radio = _radio
self.resource = _resource
self.upstream_resource = _upstream_resource
self.upstream_port = _upstream_port
self.sta_name = _sta_name
self.sta_url = None # defer construction
self.upstream_url = None # defer construction
args = parser.parse_args()
if (args.dest != None):
dest = args.dest
if (args.port != None):
port = args.port
if (args.user != None):
user = args.user
if (args.passwd != None):
passwd = args.passwd
if (args.sta_mode != None):
sta_mode = args.sta_mode
if (args.upstream_resource != None):
upstream_resource = args.upstream_resource
if (args.upstream_port != None):
upstream_port = args.upstream_port
if (args.radio != None):
radio = args.radio
if (args.resource != None):
resource = args.resource
if (args.dut_passwd != None):
dut_passwd = args.dut_passwd
if (args.dut_bssid != None):
dut_bssid = args.dut_bssid
if (args.dut_ssid != None):
dut_ssid = args.dut_ssid
def getStaUrl(self):
if self.sta_url is None:
self.sta_url = f"port/1/{self.resource}/{self.sta_name}"
return self.sta_url
mgrURL = "http://%s:%s/"%(dest, port)
radio_url = "port/1/%s/%s"%(resource, radio)
sta_url = "port/1/%s/%s"%(resource, sta_name)
upstream_url = "port/1/%s/%s"%(upstream_resource, upstream_port)
def getUpstreamUrl(self):
if self.upstream_url is None:
self.upstream_url = f"port/1/{self.upstream_resource}/{self.upstream_port}"
return self.upstream_url
def jsonReq(mgrURL, reqURL, data, exitWhenCalled=False):
lf_r = LFRequest.LFRequest(mgrURL + reqURL)
def checkConnect(self):
print(f"Checking for LANforge GUI connection: {self.mgr_url}")
response = super().jsonGet("/")
duration = 0
while (response is None) and (duration < 300):
print(f"LANforge GUI connection not found sleeping 5 seconds, tried: {self.mgr_url}")
duration += 2
time.sleep(2)
response = super().jsonGet("/")
data['suppress_preexec_cli'] = True
data['suppress_preexec_method'] = True
if duration >= 300:
print("Could not connect to LANforge GUI")
sys.exit(1)
lf_r.addPostData(data)
# Compare pre-test values to post-test values
@staticmethod
def compareVals(name, postVal):
# print(f"Comparing {name}")
if postVal > 0:
print("PASSED: %s %s" % (name, postVal))
else:
print("FAILED: %s did not report traffic: %s" % (name, postVal))
json_response = lf_r.jsonPost(True)
# Debugging
#if (json_response != None):
# print("jsonReq: response: ")
# LFUtils.debug_printer.pprint(vars(json_response))
if exitWhenCalled:
print("jsonReq: bye")
sys.exit(1)
def run(self):
self.checkConnect()
# Create stations and turn dhcp on
print("Creating station and turning on dhcp")
def getJsonInfo(mgrURL, reqURL, debug=False):
lf_r = LFRequest.LFRequest(mgrURL + reqURL)
json_response = lf_r.getAsJson(debug)
return json_response
#print(name)
#j_printer = pprint.PrettyPrinter(indent=2)
#j_printer.pprint(json_response)
#for record in json_response[key]:
# j_printer.pprint(record)
url = self.getStaUrl()
response = super().jsonGet(url)
if response is not None:
if response["interface"] is not None:
print("removing old station")
LFUtils.removePort(self.resource, self.sta_name, self.mgr_url)
time.sleep(5)
print("Checking for LANforge GUI connection: %s"%(mgrURL))
response = getJsonInfo(mgrURL, radio_url);
duration = 0
while ((response == None) and (duration < 300)):
print("LANforge GUI connection not found sleeping 5 seconds, tried: %s"%(mgrURL))
duration += 2
time.sleep(2)
response = getJsonInfo(mgrURL, radio_url)
if duration >= 300:
print("Could not connect to LANforge GUI")
sys.exit(1)
#Create stations and turn dhcp on
print("Creating station and turning on dhcp")
url = sta_url
debugOn = True
response = getJsonInfo(mgrURL, url)
if (response is not None):
if (response["interface"] is not None):
print("removing old station")
LFUtils.removePort(resource, sta_name, mgrURL)
time.sleep(5)
# See add_sta in LANforge CLI user guide
url = "cli-json/add_sta"
data = {
"shelf":1,
"resource":resource,
"radio":radio,
"sta_name":sta_name,
"ssid":dut_ssid,
"key":dut_passwd,
"mode":sta_mode,
"mac":"xx:xx:xx:xx:*:xx",
"flags":0x10000 # verbose, open
}
print("adding new station")
jsonReq(mgrURL, url, data)
reqURL = "cli-json/set_port"
data = {
"shelf":1,
"resource":resource,
"port":sta_name,
"current_flags": 0x80000000, # use DHCP, not down
"interest":0x4002 # set dhcp, current flags
}
print("configuring port")
jsonReq(mgrURL, reqURL, data)
time.sleep(5)
eth1IP = getJsonInfo(mgrURL, upstream_url)
if eth1IP['interface']['ip'] == "0.0.0.0":
print("Warning: %s lacks ip address"%(upstream_url))
reqURL = "cli-json/nc_show_ports"
data = { "shelf":1,
"resource":resource,
"port":sta_name,
"probe_flags":1 }
jsonReq(mgrURL, reqURL, data)
station_info = getJsonInfo(mgrURL, "%s?fields=port,ip,ap"%(sta_url))
duration = 0
maxTime = 300
ip = "0.0.0.0"
ap = ""
while ((ip == "0.0.0.0") and (duration < maxTime)):
duration += 2
time.sleep(2)
station_info = getJsonInfo(mgrURL, "%s?fields=port,ip,ap"%(sta_url))
#LFUtils.debug_printer.pprint(station_info)
if ((station_info is not None) and ("interface" in station_info)):
if ("ip" in station_info["interface"]):
ip = station_info["interface"]["ip"]
if ("ap" in station_info["interface"]):
ap = station_info["interface"]["ap"]
if ((ap == "Not-Associated") or (ap == "")):
print("Station waiting to associate...")
else:
if (ip == "0.0.0.0"):
print("Station waiting for IP ...")
if ((ap != "") and (ap != "Not-Associated")):
print("Connected to AP: %s"%(ap))
if (dut_bssid != ""):
if (dut_bssid.lower() == ap.lower()):
print("PASSED: Connected to BSSID: %s"%(ap))
else:
print("FAILED: Connected to wrong BSSID, requested: %s Actual: %s"%(dut_bssid, ap))
else:
print("FAILED: Did not connect to AP");
sys.exit(3)
if (ip is "0.0.0.0"):
print("FAILED: %s did not get an ip. Ending test"%(sta_name))
print("Cleaning up...")
removePort(resource, sta_name, mgrURL)
sys.exit(1)
else:
print("PASSED: Connected to AP: %s With IP: %s"%(ap, ip))
#create endpoints and cxs
# Create UDP endpoints
reqURL = "cli-json/add_endp"
data = {
"alias":"testUDP-A",
"shelf":1,
"resource":resource,
"port":sta_name,
"type":"lf_udp",
"ip_port":"-1",
"min_rate":1000000
}
jsonReq(mgrURL, reqURL, data)
reqURL = "cli-json/add_endp"
data = {
"alias":"testUDP-B",
"shelf":1,
"resource":upstream_resource,
"port":upstream_port,
"type":"lf_udp",
"ip_port":"-1",
"min_rate":1000000
}
jsonReq(mgrURL, reqURL, data)
# Create CX
reqURL = "cli-json/add_cx"
data = {
"alias":"testUDP",
"test_mgr":"default_tm",
"tx_endp":"testUDP-A",
"rx_endp":"testUDP-B",
}
jsonReq(mgrURL, reqURL, data)
# Create TCP endpoints
reqURL = "cli-json/add_endp"
data = {
"alias":"testTCP-A",
"shelf":1,
"resource":resource,
"port":sta_name,
"type":"lf_tcp",
"ip_port":"0",
"min_rate":1000000
}
jsonReq(mgrURL, reqURL, data)
reqURL = "cli-json/add_endp"
data = {
"alias":"testTCP-B",
"shelf":1,
"resource":upstream_resource,
"port":upstream_port,
"type":"lf_tcp",
"ip_port":"-1",
"min_rate":1000000
}
jsonReq(mgrURL, reqURL, data)
# Create CX
reqURL = "cli-json/add_cx"
data = {
"alias":"testTCP",
"test_mgr":"default_tm",
"tx_endp":"testTCP-A",
"rx_endp":"testTCP-B",
}
jsonReq(mgrURL, reqURL, data)
cxNames = ["testTCP","testUDP"]
endpNames = ["testTCP-A", "testTCP-B",
"testUDP-A", "testUDP-B"]
#start cx traffic
print("\nStarting CX Traffic")
for name in range(len(cxNames)):
reqURL = "cli-json/set_cx_state"
data = {
"test_mgr":"ALL",
"cx_name":cxNames[name],
"cx_state":"RUNNING"
# See add_sta in LANforge CLI user guide
url = "cli-json/add_sta"
data = {
"shelf": 1,
"resource": self.resource,
"radio": self.radio,
"sta_name": self.sta_name,
"ssid": self.dut_ssid,
"key": self.dut_passwd,
"mode": self.sta_mode,
"mac": "xx:xx:xx:xx:*:xx",
"flags": 0x10000 # verbose, open
}
jsonReq(mgrURL, reqURL, data)
print("adding new station")
super().jsonPost(url, data)
# Refresh stats
print("\nRefresh CX stats")
for name in range(len(cxNames)):
reqURL = "cli-json/show_cxe"
data = {
"test_mgr":"ALL",
"cross_connect":cxNames[name]
reqURL = "cli-json/set_port"
data = {
"shelf": 1,
"resource": self.resource,
"port": self.sta_name,
"current_flags": 0x80000000, # use DHCP, not down
"interest": 0x4002 # set dhcp, current flags
}
jsonReq(mgrURL, reqURL, data)
print("configuring port")
super().jsonPost(reqURL, data)
#print("Sleeping for 15 seconds")
time.sleep(15)
time.sleep(5)
#stop cx traffic
print("\nStopping CX Traffic")
for name in range(len(cxNames)):
reqURL = "cli-json/set_cx_state"
data = {
"test_mgr":"ALL",
"cx_name":cxNames[name],
"cx_state":"STOPPED"
eth1IP = self.jsonGet(self.getUpstreamUrl())
if eth1IP['interface']['ip'] == "0.0.0.0":
print(f"Warning: {self.getUpstreamUrl()} lacks ip address")
reqURL = "cli-json/nc_show_ports"
data = {"shelf": 1,
"resource": self.resource,
"port": self.sta_name,
"probe_flags": 1}
super().jsonPost(reqURL, data)
# station_info = self.jsonGet(self.mgr_url, "%s?fields=port,ip,ap" % (self.getStaUrl()))
duration = 0
maxTime = 300
ip = "0.0.0.0"
ap = ""
while (ip == "0.0.0.0") and (duration < maxTime):
duration += 2
time.sleep(2)
station_info = super().jsonGet(f"{self.getStaUrl()}?fields=port,ip,ap")
# LFUtils.debug_printer.pprint(station_info)
if (station_info is not None) and ("interface" in station_info):
if "ip" in station_info["interface"]:
ip = station_info["interface"]["ip"]
if "ap" in station_info["interface"]:
ap = station_info["interface"]["ap"]
if (ap == "Not-Associated") or (ap == ""):
print("Station waiting to associate...")
else:
if ip == "0.0.0.0":
print("Station waiting for IP ...")
if (ap != "") and (ap != "Not-Associated"):
print(f"Connected to AP: {ap}")
if self.dut_bssid != "":
if self.dut_bssid.lower() == ap.lower():
print(f"PASSED: Connected to BSSID: {ap}")
else:
print("FAILED: Connected to wrong BSSID, requested: %s Actual: %s" % (self.dut_bssid, ap))
else:
print("FAILED: Did not connect to AP")
sys.exit(3)
if ip == "0.0.0.0":
print(f"FAILED: {self.sta_name} did not get an ip. Ending test")
print("Cleaning up...")
removePort(self.resource, self.sta_name, self.mgr_url)
sys.exit(1)
else:
print("PASSED: Connected to AP: %s With IP: %s" % (ap, ip))
# create endpoints and cxs
# Create UDP endpoints
reqURL = "cli-json/add_endp"
data = {
"alias": "testUDP-A",
"shelf": 1,
"resource": self.resource,
"port": self.sta_name,
"type": "lf_udp",
"ip_port": "-1",
"min_rate": 1000000
}
jsonReq(mgrURL, reqURL, data)
super().jsonPost(reqURL, data)
# Refresh stats
print("\nRefresh CX stats")
for name in range(len(cxNames)):
reqURL = "cli-json/show_cxe"
data = {
"test_mgr":"ALL",
"cross_connect":cxNames[name]
reqURL = "cli-json/add_endp"
data = {
"alias": "testUDP-B",
"shelf": 1,
"resource": self.upstream_resource,
"port": self.upstream_port,
"type": "lf_udp",
"ip_port": "-1",
"min_rate": 1000000
}
jsonReq(mgrURL, reqURL, data)
super().jsonPost(reqURL, data)
#print("Sleeping for 5 seconds")
time.sleep(5)
# Create CX
reqURL = "cli-json/add_cx"
data = {
"alias": "testUDP",
"test_mgr": "default_tm",
"tx_endp": "testUDP-A",
"rx_endp": "testUDP-B",
}
super().jsonPost(reqURL, data)
#get data for endpoints JSON
print("Collecting Data")
try:
ptestTCPA = getJsonInfo(mgrURL, "endp/testTCP-A?fields=tx+bytes,rx+bytes")
ptestTCPATX = ptestTCPA['endpoint']['tx bytes']
ptestTCPARX = ptestTCPA['endpoint']['rx bytes']
# Create TCP endpoints
reqURL = "cli-json/add_endp"
data = {
"alias": "testTCP-A",
"shelf": 1,
"resource": self.resource,
"port": self.sta_name,
"type": "lf_tcp",
"ip_port": "0",
"min_rate": 1000000
}
super().jsonPost(reqURL, data)
ptestTCPB = getJsonInfo(mgrURL, "endp/testTCP-B?fields=tx+bytes,rx+bytes")
ptestTCPBTX = ptestTCPB['endpoint']['tx bytes']
ptestTCPBRX = ptestTCPB['endpoint']['rx bytes']
reqURL = "cli-json/add_endp"
data = {
"alias": "testTCP-B",
"shelf": 1,
"resource": self.upstream_resource,
"port": self.upstream_port,
"type": "lf_tcp",
"ip_port": "-1",
"min_rate": 1000000
}
super().jsonPost(reqURL, data)
ptestUDPA = getJsonInfo(mgrURL, "endp/testUDP-A?fields=tx+bytes,rx+bytes")
ptestUDPATX = ptestUDPA['endpoint']['tx bytes']
ptestUDPARX = ptestUDPA['endpoint']['rx bytes']
# Create CX
reqURL = "cli-json/add_cx"
data = {
"alias": "testTCP",
"test_mgr": "default_tm",
"tx_endp": "testTCP-A",
"rx_endp": "testTCP-B",
}
super().jsonPost(reqURL, data)
ptestUDPB = getJsonInfo(mgrURL, "endp/testUDP-B?fields=tx+bytes,rx+bytes")
ptestUDPBTX = ptestUDPB['endpoint']['tx bytes']
ptestUDPBRX = ptestUDPB['endpoint']['rx bytes']
except Exception as e:
print("Something went wrong")
print(e)
print("Cleaning up...")
reqURL = "cli-json/rm_vlan"
data = {
"shelf":1,
"resource":resource,
"port":sta_name
}
cxNames = ["testTCP", "testUDP"]
endpNames = ["testTCP-A", "testTCP-B",
"testUDP-A", "testUDP-B"]
jsonReq(mgrURL, reqURL, data)
# start cx traffic
print("\nStarting CX Traffic")
for name in range(len(cxNames)):
reqURL = "cli-json/set_cx_state"
data = {
"test_mgr": "ALL",
"cx_name": cxNames[name],
"cx_state": "RUNNING"
}
super().jsonPost(reqURL, data)
removeCX(mgrURL, cxNames)
removeEndps(mgrURL, endpNames)
sys.exit(1)
# Refresh stats
print("\nRefresh CX stats")
for name in range(len(cxNames)):
reqURL = "cli-json/show_cxe"
data = {
"test_mgr": "ALL",
"cross_connect": cxNames[name]
}
super().jsonPost(reqURL, data)
#compare pre-test values to post-test values
# print("Sleeping for 15 seconds")
time.sleep(15)
def compareVals(name, postVal):
#print(f"Comparing {name}")
if postVal > 0:
print("PASSED: %s %s"%(name, postVal))
else:
print("FAILED: %s did not report traffic: %s"%(name, postVal))
# stop cx traffic
print("\nStopping CX Traffic")
for name in range(len(cxNames)):
reqURL = "cli-json/set_cx_state"
data = {
"test_mgr": "ALL",
"cx_name": cxNames[name],
"cx_state": "STOPPED"
}
super().jsonPost(reqURL, data)
print("\n")
compareVals("testTCP-A TX", ptestTCPATX)
compareVals("testTCP-A RX", ptestTCPARX)
# Refresh stats
print("\nRefresh CX stats")
for name in range(len(cxNames)):
reqURL = "cli-json/show_cxe"
data = {
"test_mgr": "ALL",
"cross_connect": cxNames[name]
}
super().jsonPost(reqURL, data)
compareVals("testTCP-B TX", ptestTCPBTX)
compareVals("testTCP-B RX", ptestTCPBRX)
# print("Sleeping for 5 seconds")
time.sleep(5)
compareVals("testUDP-A TX", ptestUDPATX)
compareVals("testUDP-A RX", ptestUDPARX)
# get data for endpoints JSON
print("Collecting Data")
try:
ptestTCPA = super().jsonGet("endp/testTCP-A?fields=tx+bytes,rx+bytes")
ptestTCPATX = ptestTCPA['endpoint']['tx bytes']
ptestTCPARX = ptestTCPA['endpoint']['rx bytes']
compareVals("testUDP-B TX", ptestUDPBTX)
compareVals("testUDP-B RX", ptestUDPBRX)
print("\n")
ptestTCPB = super().jsonGet("endp/testTCP-B?fields=tx+bytes,rx+bytes")
ptestTCPBTX = ptestTCPB['endpoint']['tx bytes']
ptestTCPBRX = ptestTCPB['endpoint']['rx bytes']
ptestUDPA = super().jsonGet("endp/testUDP-A?fields=tx+bytes,rx+bytes")
ptestUDPATX = ptestUDPA['endpoint']['tx bytes']
ptestUDPARX = ptestUDPA['endpoint']['rx bytes']
ptestUDPB = super().jsonGet("endp/testUDP-B?fields=tx+bytes,rx+bytes")
ptestUDPBTX = ptestUDPB['endpoint']['tx bytes']
ptestUDPBRX = ptestUDPB['endpoint']['rx bytes']
except Exception as e:
print("Something went wrong")
print(e)
print("Cleaning up...")
reqURL = "cli-json/rm_vlan"
data = {
"shelf": 1,
"resource": self.resource,
"port": self.sta_name
}
self.jsonPost(reqURL, data)
removeCX(self.mgr_url, cxNames)
removeEndps(self.mgr_url, endpNames)
sys.exit(1)
print("\n")
self.compareVals("testTCP-A TX", ptestTCPATX)
self.compareVals("testTCP-A RX", ptestTCPARX)
self.compareVals("testTCP-B TX", ptestTCPBTX)
self.compareVals("testTCP-B RX", ptestTCPBRX)
self.compareVals("testUDP-A TX", ptestUDPATX)
self.compareVals("testUDP-A RX", ptestUDPARX)
self.compareVals("testUDP-B TX", ptestUDPBTX)
self.compareVals("testUDP-B RX", ptestUDPBRX)
print("\n")
# remove all endpoints and cxs
LFUtils.removePort(self.resource, self.sta_name, self.mgr_url)
removeCX(self.mgr_url, cxNames)
removeEndps(self.mgr_url, endpNames)
# ~class
# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
def main():
lfjson_host = "http://localhost"
lfjson_port = 8080
parser = argparse.ArgumentParser(
description="""LANforge Unit Test: Connect Station to AP
Example:
./sta_connect.py --dest 192.168.100.209 --dut_ssid OpenWrt-2 --dut_bssid 24:F5:A2:08:21:6C
""")
parser.add_argument("-d", "--dest", type=str, help="address of the LANforge GUI machine (localhost is default)")
parser.add_argument("-o", "--port", type=int, help="IP Port the LANforge GUI is listening on (8080 is default)")
parser.add_argument("-u", "--user", type=str, help="TBD: credential login/username")
parser.add_argument("-p", "--passwd", type=str, help="TBD: credential password")
parser.add_argument("--resource", type=str, help="LANforge Station resource ID to use, default is 1")
parser.add_argument("--upstream_resource", type=str, help="LANforge Ethernet port resource ID to use, default is 1")
parser.add_argument("--upstream_port", type=str, help="LANforge Ethernet port name, default is eth2")
parser.add_argument("--radio", type=str, help="LANforge radio to use, default is wiphy0")
parser.add_argument("--sta_mode", type=str,
help="LANforge station-mode setting (see add_sta LANforge CLI documentation, default is 0 (auto))")
parser.add_argument("--dut_ssid", type=str, help="DUT SSID")
parser.add_argument("--dut_passwd", type=str, help="DUT PSK password. Do not set for OPEN auth")
parser.add_argument("--dut_bssid", type=str, help="DUT BSSID to which we expect to connect.")
args = parser.parse_args()
if args.dest is not None:
lfjson_host = args.dest
if args.port is not None:
lfjson_port = args.port
staConnect = StaConnect(lfjson_host, lfjson_port)
if args.user is not None:
staConnect.user = args.user
if args.passwd is not None:
staConnect.passwd = args.passwd
if args.sta_mode is not None:
staConnect.sta_mode = args.sta_mode
if args.upstream_resource is not None:
staConnect.upstream_resource = args.upstream_resource
if args.upstream_port is not None:
staConnect.upstream_port = args.upstream_port
if args.radio is not None:
staConnect.radio = args.radio
if args.resource is not None:
staConnect.resource = args.resource
if args.dut_passwd is not None:
staConnect.dut_passwd = args.dut_passwd
if args.dut_bssid is not None:
staConnect.dut_bssid = args.dut_bssid
if args.dut_ssid is not None:
staConnect.dut_ssid = args.dut_ssid
# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
#remove all endpoints and cxs
LFUtils.removePort(resource, sta_name, mgrURL)
if __name__ == "__main__":
main()
removeCX(mgrURL, cxNames)
removeEndps(mgrURL, endpNames)