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wlan-lanforge-scripts/py-json/realm.py
Jed Reynolds d60d69663e JSON: adds DUT profile WIP
2020-10-22 16:00:06 -07:00

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#!/usr/bin/env python3
import re
import time
import pprint
from pprint import pprint
from LANforge import LFRequest
from LANforge import LFUtils
from LANforge import set_port
from LANforge import add_sta
from LANforge import add_dut
from LANforge import lfcli_base
from LANforge import add_vap
from LANforge.lfcli_base import LFCliBase
from generic_cx import GenericCx
from LANforge import add_monitor
from LANforge.add_monitor import *
import os
import datetime
def wpa_ent_list():
return [
"DEFAULT",
"NONE",
"WPA-PSK",
"FT-PSK",
"FT-EAP",
"FT-SAE",
"FT-EAP-SHA384",
"WPA-EAP",
"OSEN",
"IEEE8021X",
"WPA-PSK-SHA256",
"WPA-EAP-SHA256",
"WPA-PSK WPA-EAP",
"WPA-PSK-SHA256 WPA-EAP-SHA256",
"WPA-PSK WPA-EAP WPA-PSK-SHA256 WPA-EAP-SHA256"
"SAE",
"WPA-EAP-SUITE-B",
"WPA-EAP-SUITE-B-192",
"FILS-SHA256",
"FILS-SHA384",
"OWE"
]
class Realm(LFCliBase):
def __init__(self, lfclient_host="localhost", lfclient_port=8080, debug_=False, halt_on_error_=False):
super().__init__(_lfjson_host=lfclient_host, _lfjson_port=lfclient_port, _debug=debug_, _halt_on_error=halt_on_error_)
# self.lfclient_url = "http://%s:%s" % (lfclient_host, lfclient_port)
self.debug = debug_
self.check_connect()
self.chan_to_freq = {}
self.freq_to_chan = {}
freq = 0
chan = 1
for freq in range( 2412, 2472, 5):
self.freq_to_chan[freq] = chan
self.chan_to_freq[chan] = freq
chan += 1
self.chan_to_freq[14] = 2484
self.chan_to_freq[34] = 5170
self.chan_to_freq[36] = 5180
self.chan_to_freq[38] = 5190
self.chan_to_freq[40] = 5200
self.chan_to_freq[42] = 5210
self.chan_to_freq[44] = 5220
self.chan_to_freq[46] = 5230
self.chan_to_freq[48] = 5240
self.chan_to_freq[52] = 5260
self.chan_to_freq[56] = 5280
self.chan_to_freq[60] = 5300
self.chan_to_freq[64] = 5320
self.chan_to_freq[100] = 5500
self.chan_to_freq[104] = 5520
self.chan_to_freq[108] = 5540
self.chan_to_freq[112] = 5560
self.chan_to_freq[116] = 5580
self.chan_to_freq[120] = 5600
self.chan_to_freq[124] = 5620
self.chan_to_freq[128] = 5640
self.chan_to_freq[132] = 5660
self.chan_to_freq[136] = 5680
self.chan_to_freq[140] = 5700
self.chan_to_freq[144] = 5720
self.chan_to_freq[149] = 5745
self.chan_to_freq[153] = 5765
self.chan_to_freq[157] = 5785
self.chan_to_freq[161] = 5805
self.chan_to_freq[165] = 5825
self.chan_to_freq[169] = 5845
self.chan_to_freq[173] = 5865
self.freq_to_chan[2484] = 14
self.freq_to_chan[5170] = 34
self.freq_to_chan[5180] = 36
self.freq_to_chan[5190] = 38
self.freq_to_chan[5200] = 40
self.freq_to_chan[5210] = 42
self.freq_to_chan[5220] = 44
self.freq_to_chan[5230] = 46
self.freq_to_chan[5240] = 48
self.freq_to_chan[5260] = 52
self.freq_to_chan[5280] = 56
self.freq_to_chan[5300] = 60
self.freq_to_chan[5320] = 64
self.freq_to_chan[5500] = 100
self.freq_to_chan[5520] = 104
self.freq_to_chan[5540] = 108
self.freq_to_chan[5560] = 112
self.freq_to_chan[5580] = 116
self.freq_to_chan[5600] = 120
self.freq_to_chan[5620] = 124
self.freq_to_chan[5640] = 128
self.freq_to_chan[5660] = 132
self.freq_to_chan[5680] = 136
self.freq_to_chan[5700] = 140
self.freq_to_chan[5720] = 144
self.freq_to_chan[5745] = 149
self.freq_to_chan[5765] = 153
self.freq_to_chan[5785] = 157
self.freq_to_chan[5805] = 161
self.freq_to_chan[5825] = 165
self.freq_to_chan[5845] = 169
self.freq_to_chan[5865] = 173
# 4.9Ghz police band
self.chan_to_freq[183] = 4915
self.chan_to_freq[184] = 4920
self.chan_to_freq[185] = 4925
self.chan_to_freq[187] = 4935
self.chan_to_freq[188] = 4940
self.chan_to_freq[189] = 4945
self.chan_to_freq[192] = 4960
self.chan_to_freq[194] = 4970
self.chan_to_freq[196] = 4980
self.freq_to_chan[4915] = 183
self.freq_to_chan[4920] = 184
self.freq_to_chan[4925] = 185
self.freq_to_chan[4935] = 187
self.freq_to_chan[4940] = 188
self.freq_to_chan[4945] = 189
self.freq_to_chan[4960] = 192
self.freq_to_chan[4970] = 194
self.freq_to_chan[4980] = 196
def wait_until_ports_appear(self, sta_list=None, debug_=False):
if (sta_list is None) or (len(sta_list) < 1):
print("realm.wait_until_ports_appear: no stations provided")
return
LFUtils.wait_until_ports_appear(base_url=self.lfclient_url,
port_list=sta_list,
debug=debug_)
def rm_port(self, port_eid, check_exists=True):
req_url = "/cli-json/rm_vlan"
eid = self.name_to_eid(port_eid)
do_rm = True
if check_exists:
if not self.port_exists(port_eid):
do_rm = False
if do_rm:
data = {
"shelf": eid[0],
"resource": eid[1],
"port": eid[2]
}
rsp = self.json_post(req_url, data, debug_=self.debug)
return True
return False
def port_exists(self, port_eid):
data = {}
eid = self.name_to_eid(port_eid)
data["shelf"] = eid[0]
data["resource"] = eid[1]
data["port"] = eid[2]
current_stations = self.json_get("/port/%s/%s/%s?fields=alias" % (eid[0], eid[1], eid[2]))
if not current_stations is None:
return True
return False
def admin_up(self, port_eid):
eid = self.name_to_eid(port_eid)
shelf = eid[0]
resource = eid[1]
port = eid[2]
request = LFUtils.port_up_request(resource_id=resource, port_name=port)
self.json_post("/cli-json/set_port", request)
def admin_down(self, port_eid):
eid = self.name_to_eid(port_eid)
shelf = eid[0]
resource = eid[1]
port = eid[2]
request = LFUtils.port_down_request(resource_id=resource, port_name=port)
self.json_post("/cli-json/set_port", request)
def reset_port(self, port_eid):
eid = self.name_to_eid(port_eid)
shelf = eid[0]
resource = eid[1]
port = eid[2]
request = LFUtils.port_reset_request(resource_id=resource, port_name=port)
self.json_post("cli-json/reset_port", request)
def rm_cx(self, cx_name):
req_url = "cli-json/rm_cx"
data = {
"test_mgr": "ALL",
"cx_name": cx_name
}
self.json_post(req_url, data)
def rm_endp(self, ename, debug_=False, suppress_related_commands_=True):
req_url = "cli-json/rm_endp"
data = {
"endp_name": ename
}
self.json_post(req_url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
def set_endp_tos(self, ename, _tos, debug_=False, suppress_related_commands_=True):
req_url = "cli-json/set_endp_tos"
tos = _tos
# Convert some human readable values to numeric needed by LANforge.
if _tos == "BK":
tos = "64"
if _tos == "BE":
tos = "96"
if _tos == "VI":
tos = "128"
if _tos == "VO":
tos = "192"
data = {
"name": ename,
"tos": tos
}
self.json_post(req_url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
def stop_cx(self, cx_name):
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "ALL",
"cx_name": cx_name,
"cx_state": "STOPPED"
}, debug_=self.debug)
def cleanup_cxe_prefix(self, prefix):
cx_list = self.cx_list()
if cx_list is not None:
for cx_name in cx_list:
if cx_name.startswith(prefix):
self.rm_cx(cx_name)
endp_list = self.json_get("/endp/list")
if endp_list is not None:
if 'endpoint' in endp_list:
endp_list = list(endp_list['endpoint'])
for idx in range(len(endp_list)):
endp_name = list(endp_list[idx])[0]
if endp_name.startswith(prefix):
self.rm_endp(endp_name)
else:
print("cleanup_cxe_prefix no endpoints: endp_list{}".format(endp_list) )
def channel_freq(self, channel_=0):
return self.chan_to_freq[channel_]
def freq_channel(self, freq_=0):
return self.freq_to_chan[freq_]
# checks for OK or BUSY when querying cli-json/cv+is_built
def wait_while_building(self, debug_=False):
response_json=[]
data = {
"cmd": "cv is_built"
}
last_response = "BUSY"
dbg_param = ""
if debug_:
dbg_param = "?__debug=1"
while (last_response != "YES"):
response = self.json_post("/gui-json/cmd%s" % dbg_param, data, debug_=debug_, response_json_list_=response_json)
#LFUtils.debug_printer.pprint(response_json)
last_response = response_json[0]["LAST"]["response"]
if (last_response != "YES"):
last_response = None
response_json = []
time.sleep(1)
else:
return
return
# loads a database
def load(self, name):
if (name is None) or (name == ""):
raise ValueError("Realm::load: wants a test scenario database name, please find one in the Status tab of the GUI")
data = {
"name": name,
"action":"overwrite",
"clean_dut":"yes",
"clean_chambers": "yes"
}
self.json_post("/cli-json/load", _data=data, debug_=self.debug)
time.sleep(1)
# Returns json response from webpage of all layer 3 cross connects
def cx_list(self):
response = self.json_get("/cx/list")
return response
def waitUntilEndpsAppear(self, these_endp, debug=False):
return self.wait_until_endps_appear(these_endp, debug=debug)
def wait_until_endps_appear(self, these_endp, debug=False):
wait_more = True
count = 0
while wait_more:
time.sleep(1)
wait_more = False
endp_list = self.json_get("/endp/list")
found_endps = {}
if (endp_list is not None) and ("items" not in endp_list):
endp_list = list(endp_list['endpoint'])
for idx in range(len(endp_list)):
name = list(endp_list[idx])[0]
found_endps[name] = name
for req in these_endp:
if not req in found_endps:
if debug:
print("Waiting on endpoint: %s"%(req))
wait_more = True
count += 1
if (count > 100):
break
return not wait_more
def waitUntilCxsAppear(self, these_cx, debug=False):
return self.wait_until_cxs_appear(these_cx, debug=debug)
def wait_until_cxs_appear(self, these_cx, debug=False):
wait_more = True
count = 0
while wait_more:
time.sleep(1)
wait_more = False
found_cxs = {}
cx_list = self.cx_list()
not_cx = ['warnings', 'errors', 'handler', 'uri', 'items']
if cx_list is not None:
for cx_name in cx_list:
if cx_name in not_cx:
continue
found_cxs[cx_name] = cx_name
for req in these_cx:
if not req in found_cxs:
if debug:
print("Waiting on CX: %s"%(req))
wait_more = True
count += 1
if (count > 100):
break
return not wait_more
# Returns map of all stations with port+type == WIFI-STATION
def station_map(self):
response = super().json_get("/port/list?fields=_links,alias,device,port+type")
if (response is None) or ("interfaces" not in response):
pprint(response)
print("station_list: incomplete response, halting")
exit(1)
sta_map = {}
temp_map = LFUtils.portListToAliasMap(response)
for k, v in temp_map.items():
if (v['port type'] == "WIFI-STA"):
sta_map[k] = v
temp_map.clear()
del temp_map
del response
return sta_map
# Returns list of all stations with port+type == WIFI-STATION
def station_list(self):
sta_list = []
response = super().json_get("/port/list?fields=_links,alias,device,port+type")
if (response is None) or ("interfaces" not in response):
print("station_list: incomplete response:")
pprint(response)
exit(1)
for x in range(len(response['interfaces'])):
for k, v in response['interfaces'][x].items():
if v['port type'] == "WIFI-STA":
sta_list.append(response['interfaces'][x])
del response
return sta_list
# Returns list of all VAPs with "vap" in their name
def vap_list(self):
sta_list = []
response = super().json_get("/port/list?fields=_links,alias,device,port+type")
for x in range(len(response['interfaces'])):
for k, v in response['interfaces'][x].items():
if "vap" in v['device']:
sta_list.append(response['interfaces'][x])
return sta_list
# removes port by eid/eidpn
def remove_vlan_by_eid(self, eid):
if (eid is None) or ("" == eid):
raise ValueError("removeVlanByEid wants eid like 1.1.sta0 but given[%s]" % eid)
hunks = eid.split('.')
# print("- - - - - - - - - - - - - - - - -")
# pprint(hunks)
# pprint(self.lfclient_url)
# print("- - - - - - - - - - - - - - - - -")
if (len(hunks) > 3) or (len(hunks) < 2):
raise ValueError("removeVlanByEid wants eid like 1.1.sta0 but given[%s]" % eid)
elif len(hunks) == 3:
LFUtils.removePort(hunks[1], hunks[2], self.lfclient_url)
else:
LFUtils.removePort(hunks[0], hunks[1], self.lfclient_url)
# Searches for ports that match a given pattern and returns a list of names
def find_ports_like(self, pattern="", _fields="_links,alias,device,port+type", resource=0, debug_=False):
if resource == 0:
url = "/port/1/list?fields=%s" % _fields
else:
url = "/port/1/%s/list?fields=%s" % (resource, _fields)
response = self.json_get(url)
if debug_:
print("# find_ports_like r:%s, u:%s #" % (resource, url))
pprint(response)
alias_map = LFUtils.portListToAliasMap(response, debug_=debug_)
if debug_:
pprint(alias_map)
prelim_map = {}
matched_map = {}
for name, record in alias_map.items():
try:
if debug_:
print("- prelim - - - - - - - - - - - - - - - - - - -")
pprint(record)
if (record["port type"] == "WIFI-STA"):
prelim_map[name] = record
except Exception as x:
self.error(x)
prefix = ""
try:
if pattern.find("+") > 0:
match = re.search(r"^([^+]+)[+]$", pattern)
if match.group(1):
prefix = match.group(1)
for port_eid, record in prelim_map.items():
if debug_:
print("name:", port_eid, " Group 1: ", match.group(1))
if port_eid.find(prefix) >= 0:
matched_map[port_eid] = record
elif pattern.find("*") > 0:
match = re.search(r"^([^\*]+)[*]$", pattern)
if match.group(1):
prefix = match.group(1)
if debug_:
print("group 1: ", prefix)
for port_eid, record in prelim_map.items():
if port_eid.find(prefix) >= 0:
matched_map[port_eid] = record
elif pattern.find("[") > 0:
# TODO: regex below might have too many hack escapes
match = re.search(r"^([^\[]+)\[(\d+)\.\.(\d+)\]$", pattern)
if match.group(0):
if debug_:
print("[group1]: ", match.group(1))
print("[group2]: ", match.group(2))
print("[group3]: ", match.group(3))
prefix = match.group(1)
for port_eid, record in prelim_map.items():
if port_eid.find(prefix) >= 0:
port_suf = record["device"][len(prefix):]
if (port_suf >= match.group(2)) and (port_suf <= match.group(3)):
# print("%s: suffix[%s] between %s:%s" % (port_name, port_name, match.group(2), match.group(3))
matched_map[port_eid] = record
except ValueError as e:
self.error(e)
return matched_map
def name_to_eid(self, eid):
return LFUtils.name_to_eid(eid)
def wait_for_ip(self, station_list=None, ipv4=True, ipv6=False, timeout_sec=60, debug=False):
print("Waiting for ips, timeout: %i..."%(timeout_sec))
#print(station_list)
if (station_list is None) or (len(station_list) < 1):
raise ValueError("wait_for_ip: expects non-empty list of ports")
wait_more = True
while wait_more and timeout_sec != 0:
wait_more = False
for sta_eid in station_list:
if debug:
print("checking sta-eid: %s"%(sta_eid))
eid = self.name_to_eid(sta_eid)
response = super().json_get("/port/%s/%s/%s?fields=alias,ip,port+type,ipv6+address" %
(eid[0], eid[1], eid[2]))
#pprint(response)
if (response is None) or ("interface" not in response):
print("station_list: incomplete response:")
pprint(response)
wait_more = True
break
if ipv4:
v = response['interface']
if v['ip'] == '0.0.0.0':
wait_more = True
if debug:
print("Waiting for port %s to get IPv4 Address."%(sta_eid))
else:
if debug:
print("Found IP: %s on port: %s"%(v['ip'], sta_eid))
if ipv6:
v = response['interface']
#print(v)
if v['ipv6 address'] != 'DELETED' and not v['ipv6 address'].startswith('fe80') \
and v['ipv6 address'] != 'AUTO':
if debug:
print("Found IPv6: %s on port: %s" % (v['ipv6 address'], sta_eid))
else:
wait_more = True
if debug:
print("Waiting for port %s to get IPv6 Address."%(sta_eid))
if wait_more:
time.sleep(1)
timeout_sec -= 1
return not wait_more
def duration_time_to_seconds(self, time_string):
if isinstance(time_string, str):
pattern = re.compile("^(\d+)([dhms]$)")
td = pattern.match(time_string)
if td is not None:
dur_time = int(td.group(1))
dur_measure = str(td.group(2))
if dur_measure == "d":
duration_sec = dur_time * 24 * 60 * 60
elif dur_measure == "h":
duration_sec = dur_time * 60 * 60
elif dur_measure == "m":
duration_sec = dur_time * 60
else:
duration_sec = dur_time * 1
else:
raise ValueError("Unknown value for time_string: %s" % time_string)
else:
raise ValueError("time_string must be of type str. Type %s provided" % type(time_string))
return duration_sec
pass
def parse_time(self, time_string):
if isinstance(time_string, str):
pattern = re.compile("^(\d+)([dhms]$)")
td = pattern.match(time_string)
if td is not None:
dur_time = int(td.group(1))
dur_measure = str(td.group(2))
if dur_measure == "d":
duration_time = datetime.timedelta(days=dur_time)
elif dur_measure == "h":
duration_time = datetime.timedelta(hours=dur_time)
elif dur_measure == "m":
duration_time = datetime.timedelta(minutes=dur_time)
else:
duration_time = datetime.timedelta(seconds=dur_time)
else:
raise ValueError("Unknown value for time_string: %s" % time_string)
else:
raise ValueError("time_string must be of type str. Type %s provided" % type(time_string))
return duration_time
def remove_all_stations(self, resource):
port_list = self.station_list()
sta_list = []
if sta_list is not None:
print("Removing all stations")
for item in list(port_list):
if "sta" in list(item)[0]:
sta_list.append(self.name_to_eid(list(item)[0])[2])
for sta_name in sta_list:
req_url = "cli-json/rm_vlan"
data = {
"shelf": 1,
"resource": resource,
"port": sta_name
}
self.json_post(req_url, data)
def remove_all_endps(self):
endp_list = self.json_get("/endp/list")
if "items" in endp_list or "empty" in endp_list:
return
if endp_list is not None or endp_list :
print("Removing all endps")
endp_list = list(endp_list['endpoint'])
for endp_name in range(len(endp_list)):
name = list(endp_list[endp_name])[0]
req_url = "cli-json/rm_endp"
data = {
"endp_name": name
}
self.json_post(req_url, data)
def remove_all_cxs(self,remove_all_endpoints=False):
# remove cross connects
# remove endpoints
# nc show endpoints
# nc show cross connects
try:
cx_list = list(self.cx_list())
not_cx = ['warnings', 'errors', 'handler', 'uri', 'items', 'empty']
if cx_list is not None:
print("Removing all cxs")
for cx_name in cx_list:
if cx_name in not_cx:
continue
req_url = "cli-json/rm_cx"
data = {
"test_mgr": "default_tm",
"cx_name": cx_name
}
self.json_post(req_url, data)
except:
print("no cxs to remove")
if remove_all_endpoints:
self.remove_all_endps()
req_url = "cli-json/nc_show_endpoints"
data = {
"endpoint":"all"
}
self.json_post(req_url, data)
req_url = "cli-json/show_cx"
data ={
"test_mgr":"all",
"cross_connect":"all"
}
def parse_link(self, link):
link = self.lfclient_url + link
info = ()
def new_station_profile(self):
station_prof = StationProfile(self.lfclient_url, local_realm=self, debug_=self.debug, up=False)
return station_prof
def new_multicast_profile(self):
multi_prof = MULTICASTProfile(self.lfclient_host, self.lfclient_port,
local_realm=self, debug_=self.debug, report_timer_=3000)
return multi_prof
def new_wifi_monitor_profile(self, resource_=1, debug_=False, up_=False):
wifi_mon_prof = WifiMonitor(self.lfclient_url,
local_realm=self,
resource_=resource_,
up=up_,
debug_=(self.debug or debug_))
return wifi_mon_prof
def new_l3_cx_profile(self):
cx_prof = L3CXProfile(self.lfclient_host,
self.lfclient_port,
local_realm=self,
debug_=self.debug,
report_timer_=3000)
return cx_prof
def new_l4_cx_profile(self):
cx_prof = L4CXProfile(self.lfclient_host, self.lfclient_port, local_realm=self, debug_=self.debug)
return cx_prof
def new_generic_endp_profile(self):
endp_prof = GenCXProfile(self.lfclient_host, self.lfclient_port, local_realm=self, debug_=self.debug)
return endp_prof
def new_generic_cx_profile(self):
"""
@deprecated
:return: new GenCXProfile
"""
cx_prof = GenCXProfile(self.lfclient_host, self.lfclient_port, local_realm=self, debug_=self.debug)
return cx_prof
def new_vap_profile(self):
vap_prof = VAPProfile(lfclient_host=self.lfclient_host, lfclient_port=self.lfclient_port, local_realm=self, debug_=self.debug)
return vap_prof
def new_vr_profile(self):
vap_prof = VRProfile(lfclient_host=self.lfclient_host, lfclient_port=self.lfclient_port, local_realm=self, debug_=self.debug)
return vap_prof
def new_http_profile(self):
http_prof = HTTPProfile(self.lfclient_host, self.lfclient_port, local_realm=self, debug_=self.debug)
return http_prof
def new_fio_endp_profile(self):
cx_prof = FIOEndpProfile(self.lfclient_host, self.lfclient_port, local_realm=self, debug_=self.debug)
return cx_prof
class MULTICASTProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm,
report_timer_=3000, name_prefix_="Unset", number_template_="00000", debug_=False):
"""
:param lfclient_host:
:param lfclient_port:
:param local_realm:
:param name_prefix_: prefix string for connection
:param number_template_: how many zeros wide we padd, possibly a starting integer with left padding
:param debug_:
"""
super().__init__(lfclient_host, lfclient_port, debug_, _halt_on_error=True)
self.lfclient_url = "http://%s:%s" % (lfclient_host, lfclient_port)
self.debug = debug_
self.local_realm = local_realm
self.report_timer = report_timer_
self.created_mc = {}
self.name_prefix = name_prefix_
self.number_template = number_template_
def get_mc_names(self):
return self.created_mc.keys()
def refresh_mc(self, debug_=False):
for endp_name in self.get_mc_names():
self.json_post("/cli-json/show_endpoints", {
"endpoint": endp_name
}, debug_=debug_)
def start_mc(self, suppress_related_commands=None, debug_ = False):
if self.debug:
debug_=True
for endp_name in self.get_mc_names():
print("Starting mcast endpoint: %s"%(endp_name))
json_data = {
"endp_name":endp_name
}
url = "cli-json/start_endp"
self.local_realm.json_post(url, json_data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
pass
def stop_mc(self, suppress_related_commands=None, debug_ = False):
if self.debug:
debug_=True
for endp_name in self.get_mc_names():
json_data = {
"endp_name":endp_name
}
url = "cli-json/stop_endp"
self.local_realm.json_post(url, json_data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
pass
def cleanup_prefix(self):
self.local_realm.cleanup_cxe_prefix(self.name_prefix)
def cleanup(self, suppress_related_commands=None, debug_ = False):
if self.debug:
debug_=True
for endp_name in self.get_mc_names():
self.local_realm.rm_endp(endp_name, debug_=debug_, suppress_related_commands_=suppress_related_commands)
def create_mc_tx(self, endp_type, side_tx, suppress_related_commands=None, debug_=False):
if self.debug:
debug_=True
side_tx_info = self.local_realm.name_to_eid(side_tx)
side_tx_shelf = side_tx_info[0]
side_tx_resource = side_tx_info[1]
side_tx_port = side_tx_info[2]
side_tx_name = "%smtx-%s-%i"%(self.name_prefix, side_tx_port, len(self.created_mc))
json_data = []
#add_endp mcast-xmit-sta 1 1 side_tx mc_udp -1 NO 4000000 0 NO 1472 0 INCREASING NO 32 0 0
json_data = {
'alias':side_tx_name,
'shelf':side_tx_shelf,
'resource':side_tx_resource,
'port':side_tx_port,
'type':endp_type,
'ip_port':-1,
'is_rate_bursty':
'NO','min_rate':256000,
'max_rate':0,
'is_pkt_sz_random':'NO',
'min_pkt':1472,
'max_pkt':0,
'payload_pattern':'INCREASING',
'use_checksum':'NO',
'ttl':32,
'send_bad_crc_per_million':0,
'multi_conn':0
}
url = "/cli-json/add_endp"
self.local_realm.json_post(url, json_data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
#set_mc_endp mcast-xmit-sta 32 224.9.9.9 9999 No # critical
json_data = {
'name':side_tx_name,
'ttl':32,
'mcast_group':'224.9.9.9',
'mcast_dest_port':9999,
'rcv_mcast':'No'
}
url = "cli-json/set_mc_endp"
self.local_realm.json_post(url, json_data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
self.created_mc[side_tx_name] = side_tx_name
these_endp = [side_tx_name]
self.local_realm.wait_until_endps_appear(these_endp, debug=debug_)
def create_mc_rx(self, endp_type, side_rx, suppress_related_commands=None, debug_ = False):
if self.debug:
debug_=True
these_endp = []
for port_name in side_rx:
side_rx_info = self.local_realm.name_to_eid(port_name)
side_rx_shelf = side_rx_info[0]
side_rx_resource = side_rx_info[1]
side_rx_port = side_rx_info[2]
side_rx_name = "%smrx-%s-%i"%(self.name_prefix, side_rx_port, len(self.created_mc))
# add_endp mcast-rcv-sta-001 1 1 sta0002 mc_udp 9999 NO 0 0 NO 1472 0 INCREASING NO 32 0 0
json_data = {
'alias':side_rx_name,
'shelf':side_rx_shelf,
'resource':side_rx_resource,
'port':side_rx_port,
'type':endp_type,
'ip_port':9999,
'is_rate_bursty':'NO',
'min_rate':0,
'max_rate':0,
'is_pkt_sz_random':'NO',
'min_pkt':1472,
'max_pkt':0,
'payload_pattern':'INCREASING',
'use_checksum':'NO',
'ttl':32,
'send_bad_crc_per_million':0,
'multi_conn':0
}
url = "cli-json/add_endp"
self.local_realm.json_post(url, json_data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
json_data = {
'name':side_rx_name,
'ttl':32,
'mcast_group':'224.9.9.9',
'mcast_dest_port':9999,
'rcv_mcast':'Yes'
}
url = "cli-json/set_mc_endp"
self.local_realm.json_post(url, json_data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
self.created_mc[side_rx_name] = side_rx_name
these_endp.append(side_rx_name)
self.local_realm.wait_until_endps_appear(these_endp, debug=debug_)
def to_string(self):
pprint.pprint(self)
class L3CXProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm,
side_a_min_bps=None, side_b_min_bps=None,
side_a_max_bps=0, side_b_max_bps=0,
side_a_min_pdu=-1, side_b_min_pdu=-1,
side_a_max_pdu=0, side_b_max_pdu=0,
report_timer_=3000, name_prefix_="Unset", number_template_="00000", debug_=False):
"""
:param lfclient_host:
:param lfclient_port:
:param local_realm:
:param side_a_min_bps:
:param side_b_min_bps:
:param side_a_max_bps:
:param side_b_max_bps:
:param side_a_min_pdu:
:param side_b_min_pdu:
:param side_a_max_pdu:
:param side_b_max_pdu:
:param name_prefix_: prefix string for connection
:param number_template_: how many zeros wide we padd, possibly a starting integer with left padding
:param debug_:
"""
super().__init__(lfclient_host, lfclient_port, debug_, _halt_on_error=True)
self.lfclient_url = "http://%s:%s" % (lfclient_host, lfclient_port)
self.debug = debug_
self.local_realm = local_realm
self.side_a_min_pdu = side_a_min_pdu
self.side_b_min_pdu = side_b_min_pdu
self.side_a_max_pdu = side_a_max_pdu
self.side_b_max_pdu = side_b_max_pdu
self.side_a_min_bps = side_a_min_bps
self.side_b_min_bps = side_b_min_bps
self.side_a_max_bps = side_a_max_bps
self.side_b_max_bps = side_b_max_bps
self.report_timer = report_timer_
self.created_cx = {}
self.created_endp = {}
self.name_prefix = name_prefix_
self.number_template = number_template_
def get_cx_names(self):
return self.created_cx.keys()
def refresh_cx(self):
for cx_name in self.created_cx.keys():
self.json_post("/cli-json/show_cxe", {
"test_mgr": "ALL",
"cross_connect": cx_name
}, debug_=self.debug)
print(".", end='')
def start_cx(self):
print("Starting CXs...")
for cx_name in self.created_cx.keys():
print("cx-name: %s"%(cx_name))
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": cx_name,
"cx_state": "RUNNING"
}, debug_=self.debug)
print(".", end='')
print("")
def stop_cx(self):
print("Stopping CXs...")
for cx_name in self.created_cx.keys():
self.local_realm.stop_cx(cx_name)
print(".", end='')
print("")
def cleanup_prefix(self):
self.local_realm.cleanup_cxe_prefix(self.name_prefix)
def cleanup(self):
print("Cleaning up cxs and endpoints")
if len(self.created_cx) != 0:
for cx_name in self.created_cx.keys():
print("Cleaning cx: %s"%(cx_name))
self.local_realm.rm_cx(cx_name)
for side in range(len(self.created_cx[cx_name])):
ename = self.created_cx[cx_name][side]
print("Cleaning endpoint: %s"%(ename))
self.local_realm.rm_endp(self.created_cx[cx_name][side])
def create(self, endp_type, side_a, side_b, sleep_time=0.03, suppress_related_commands=None, debug_=False, tos=None):
if self.debug:
debug_=True
cx_post_data = []
timer_post_data = []
these_endp = []
these_cx = []
# print(self.side_a_min_rate, self.side_a_max_rate)
# print(self.side_b_min_rate, self.side_b_max_rate)
if (self.side_a_min_bps is None) \
or (self.side_a_max_bps is None) \
or (self.side_b_min_bps is None) \
or (self.side_b_max_bps is None):
raise ValueError("side_a_min_bps, side_a_max_bps, side_b_min_bps, and side_b_max_bps must all be set to a value")
if type(side_a) == list and type(side_b) != list:
side_b_info = self.local_realm.name_to_eid(side_b)
side_b_shelf = side_b_info[0]
side_b_resource = side_b_info[1]
for port_name in side_a:
side_a_info = self.local_realm.name_to_eid(port_name)
side_a_shelf = side_a_info[0]
side_a_resource = side_a_info[1]
if port_name.find('.') < 0:
port_name = "%d.%s" % (side_a_info[1], port_name)
cx_name = "%s%s-%i"%(self.name_prefix, side_a_info[2], len(self.created_cx))
endp_a_name = cx_name + "-A"
endp_b_name = cx_name + "-B"
self.created_cx[ cx_name ] = [endp_a_name, endp_b_name]
self.created_endp[endp_a_name] = endp_a_name
self.created_endp[endp_b_name] = endp_b_name
these_cx.append(cx_name)
these_endp.append(endp_a_name)
these_endp.append(endp_b_name)
endp_side_a = {
"alias": endp_a_name,
"shelf": side_a_shelf,
"resource": side_a_resource,
"port": side_a_info[2],
"type": endp_type,
"min_rate": self.side_a_min_bps,
"max_rate": self.side_a_max_bps,
"min_pkt": self.side_a_min_pdu,
"max_pkt": self.side_a_max_pdu,
"ip_port": -1
}
endp_side_b = {
"alias": endp_b_name,
"shelf": side_b_shelf,
"resource": side_b_resource,
"port": side_b_info[2],
"type": endp_type,
"min_rate": self.side_b_min_bps,
"max_rate": self.side_b_max_bps,
"min_pkt": self.side_b_min_pdu,
"max_pkt": self.side_b_max_pdu,
"ip_port": -1
}
url = "/cli-json/add_endp"
self.local_realm.json_post(url, endp_side_a, debug_=debug_, suppress_related_commands_=suppress_related_commands)
self.local_realm.json_post(url, endp_side_b, debug_=debug_, suppress_related_commands_=suppress_related_commands)
#print("napping %f sec"%sleep_time)
time.sleep(sleep_time)
url = "cli-json/set_endp_flag"
data = {
"name": endp_a_name,
"flag": "AutoHelper",
"val": 1
}
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
data["name"] = endp_b_name
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
if (endp_type == "lf_udp") or (endp_type == "udp") or (endp_type == "lf_udp6") or (endp_type == "udp6"):
data["name"] = endp_a_name
data["flag"] = "UseAutoNAT"
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
data["name"] = endp_b_name
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
if tos != None:
self.local_realm.set_endp_tos(endp_a_name, tos)
self.local_realm.set_endp_tos(endp_b_name, tos)
data = {
"alias": cx_name,
"test_mgr": "default_tm",
"tx_endp": endp_a_name,
"rx_endp": endp_b_name,
}
#pprint(data)
cx_post_data.append(data)
timer_post_data.append({
"test_mgr":"default_tm",
"cx_name":cx_name,
"milliseconds":self.report_timer
})
elif type(side_b) == list and type(side_a) != list:
side_a_info = self.local_realm.name_to_eid(side_a)
side_a_shelf = side_a_info[0]
side_a_resource = side_a_info[1]
#side_a_name = side_a_info[2]
for port_name in side_b:
print(side_b)
side_b_info = self.local_realm.name_to_eid(port_name)
side_b_shelf = side_b_info[0]
side_b_resource = side_b_info[1]
side_b_name = side_b_info[2]
cx_name = "%s%s-%i" % (self.name_prefix, port_name, len(self.created_cx))
endp_a_name = cx_name + "-A"
endp_b_name = cx_name + "-B"
self.created_cx[ cx_name ] = [endp_a_name, endp_b_name]
self.created_endp[endp_a_name] = endp_a_name
self.created_endp[endp_b_name] = endp_b_name
these_cx.append(cx_name)
these_endp.append(endp_a_name)
these_endp.append(endp_b_name)
endp_side_a = {
"alias": endp_a_name,
"shelf": side_a_shelf,
"resource": side_a_resource,
"port": side_a_info[2],
"type": endp_type,
"min_rate": self.side_a_min_bps,
"max_rate": self.side_a_max_bps,
"min_pkt": self.side_a_min_pdu,
"max_pkt": self.side_a_max_pdu,
"ip_port": -1
}
endp_side_b = {
"alias": endp_b_name,
"shelf": side_b_shelf,
"resource": side_b_resource,
"port": side_b_info[2],
"type": endp_type,
"min_rate": self.side_b_min_bps,
"max_rate": self.side_b_max_bps,
"min_pkt": self.side_b_min_pdu,
"max_pkt": self.side_b_max_pdu,
"ip_port": -1
}
url = "/cli-json/add_endp"
self.local_realm.json_post(url, endp_side_a, debug_=debug_, suppress_related_commands_=suppress_related_commands)
self.local_realm.json_post(url, endp_side_b, debug_=debug_, suppress_related_commands_=suppress_related_commands)
#print("napping %f sec" %sleep_time )
time.sleep(sleep_time)
url = "cli-json/set_endp_flag"
data = {
"name": endp_a_name,
"flag": "autohelper",
"val": 1
}
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
url = "cli-json/set_endp_flag"
data = {
"name": endp_b_name,
"flag": "autohelper",
"val": 1
}
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
#print("CXNAME451: %s" % cx_name)
data = {
"alias": cx_name,
"test_mgr": "default_tm",
"tx_endp": endp_a_name,
"rx_endp": endp_b_name,
}
cx_post_data.append(data)
timer_post_data.append({
"test_mgr":"default_tm",
"cx_name":cx_name,
"milliseconds":self.report_timer
})
else:
raise ValueError("side_a or side_b must be of type list but not both: side_a is type %s side_b is type %s" % (type(side_a), type(side_b)))
self.local_realm.wait_until_endps_appear(these_endp, debug=debug_)
for data in cx_post_data:
url = "/cli-json/add_cx"
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands)
time.sleep(0.01)
self.local_realm.wait_until_cxs_appear(these_cx, debug=debug_)
def to_string(self):
pprint.pprint(self)
class L4CXProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm, debug_=False):
super().__init__(lfclient_host, lfclient_port, debug_, _halt_on_error=True)
self.lfclient_url = "http://%s:%s" % (lfclient_host, lfclient_port)
self.debug = debug_
self.url = "http://localhost/"
self.requests_per_ten = 600
self.local_realm = local_realm
self.created_cx = {}
self.created_endp = []
def check_errors(self, debug=False):
fields_list = ["!conn", "acc.+denied", "bad-proto", "bad-url", "other-err", "total-err", "rslv-p", "rslv-h",
"timeout", "nf+(4xx)", "http-r", "http-p", "http-t", "login-denied"]
endp_list = self.json_get("layer4/list?fields=%s" % ','.join(fields_list))
debug_info = {}
if endp_list is not None and endp_list['endpoint'] is not None:
endp_list = endp_list['endpoint']
expected_passes = len(endp_list)
passes = len(endp_list)
for item in range(len(endp_list)):
for name, info in endp_list[item].items():
for field in fields_list:
if info[field.replace("+", " ")] > 0:
passes -= 1
debug_info[name] = {field: info[field.replace("+", " ")]}
if debug:
print(debug_info)
if passes == expected_passes:
return True
else:
print(list(debug_info), " Endps in this list showed errors getting to %s " % self.url)
return False
def start_cx(self):
print("Starting CXs...")
for cx_name in self.created_cx.keys():
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name],
"cx_state": "RUNNING"
}, debug_=self.debug)
print(".", end='')
print("")
def stop_cx(self):
print("Stopping CXs...")
for cx_name in self.created_cx.keys():
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name],
"cx_state": "STOPPED"
}, debug_=self.debug)
print(".", end='')
print("")
def cleanup(self):
print("Cleaning up cxs and endpoints")
if len(self.created_cx) != 0:
for cx_name in self.created_cx.keys():
req_url = "cli-json/rm_cx"
data = {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name]
}
self.json_post(req_url, data)
#pprint(data)
req_url = "cli-json/rm_endp"
data = {
"endp_name": cx_name
}
self.json_post(req_url, data)
#pprint(data)
def create(self, ports=[], sleep_time=.5, debug_=False, suppress_related_commands_=None):
cx_post_data = []
for port_name in ports:
if len(self.local_realm.name_to_eid(port_name)) == 3:
shelf = self.local_realm.name_to_eid(port_name)[0]
resource = self.local_realm.name_to_eid(port_name)[1]
name = self.local_realm.name_to_eid(port_name)[2]
else:
raise ValueError("Unexpected name for port_name %s" % port_name)
endp_data = {
"alias": name + "_l4",
"shelf": shelf,
"resource": resource,
"port": name,
"type": "l4_generic",
"timeout": 10,
"url_rate": self.requests_per_ten,
"url": self.url,
"proxy_auth_type": 0x200
}
url = "cli-json/add_l4_endp"
self.local_realm.json_post(url, endp_data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
time.sleep(sleep_time)
endp_data = {
"alias": "CX_" + name + "_l4",
"test_mgr": "default_tm",
"tx_endp": name + "_l4",
"rx_endp": "NA"
}
cx_post_data.append(endp_data)
self.created_cx[name + "_l4"] = "CX_" + name + "_l4"
for cx_data in cx_post_data:
url = "/cli-json/add_cx"
self.local_realm.json_post(url, cx_data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
time.sleep(sleep_time)
class GenCXProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm, debug_=False):
super().__init__(lfclient_host, lfclient_port, debug_, _halt_on_error=True)
self.lfclient_host = lfclient_host
self.lfclient_port = lfclient_port
self.lfclient_url = "http://%s:%s" % (lfclient_host, lfclient_port)
self.debug = debug_
self.type = "lfping"
self.dest = "127.0.0.1"
self.interval = 1
self.cmd = ""
self.local_realm = local_realm
self.name_prefix = "generic"
self.created_cx = []
self.created_endp = []
def parse_command(self, sta_name):
if self.type == "lfping":
if ((self.dest is not None) or (self.dest != "")) and ((self.interval is not None) or (self.interval > 0)):
self.cmd = "%s -i %s -I %s %s" % (self.type, self.interval, sta_name, self.dest)
#print(self.cmd)
else:
raise ValueError("Please ensure dest and interval have been set correctly")
else:
raise ValueError("Unknown command type")
def start_cx(self):
print("Starting CXs...")
#print(self.created_cx)
#print(self.created_endp)
for cx_name in self.created_cx:
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": cx_name,
"cx_state": "RUNNING"
}, debug_=self.debug)
print(".", end='')
print("")
def stop_cx(self):
print("Stopping CXs...")
for cx_name in self.created_cx:
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": cx_name,
"cx_state": "STOPPED"
}, debug_=self.debug)
print(".", end='')
print("")
def cleanup(self):
print("Cleaning up cxs and endpoints")
for cx_name in self.created_cx:
req_url = "cli-json/rm_cx"
data = {
"test_mgr": "default_tm",
"cx_name": cx_name
}
self.json_post(req_url, data)
for endp_name in self.created_endp:
req_url = "cli-json/rm_endp"
data = {
"endp_name": endp_name
}
self.json_post(req_url, data)
def create(self, ports=[], sleep_time=.5, debug_=False, suppress_related_commands_=None):
if self.debug:
debug_ = True
post_data = []
endp_tpls = []
for port_name in ports:
port_info = self.local_realm.name_to_eid(port_name)
if len(port_info) == 2:
resource = 1
shelf = port_info[0]
name = port_info[-1]
elif len(port_info) == 3:
resource = port_info[0]
shelf = port_info[1]
name = port_info[-1]
else:
raise ValueError("Unexpected name for port_name %s" % port_name)
# this naming convention follows what you see when you use
# lf_firemod.pl --action list_endp after creating a generic endpoint
gen_name_a = "%s-%s"%(self.name_prefix, name)
gen_name_b = "D_%s-%s"%(self.name_prefix, name)
endp_tpls.append( (resource, name, gen_name_a, gen_name_b))
for endp_tpl in endp_tpls:
resource = endp_tpl[0]
name = endp_tpl[1]
gen_name_a = endp_tpl[2]
#gen_name_b = endp_tpl[3]
genl = GenericCx(lfclient_host=self.lfclient_host, lfclient_port=self.lfclient_port, debug_=self.debug)
# (self, alias=None, shelf=1, resource=1, port=None, type=None):
genl.create_gen_endp(alias=gen_name_a, shelf=shelf, resource=resource, port=name)
# genl.create_gen_endp(alias=gen_name_b, shelf=shelf, resource=resource, port=name)
self.local_realm.json_post("/cli-json/nc_show_endpoints", {"endpoint": "all"})
time.sleep(sleep_time)
for endp_tpl in endp_tpls:
gen_name_a = endp_tpl[2]
gen_name_b = endp_tpl[3]
genl.set_flags(gen_name_a, "ClearPortOnStart", 1)
# genl.set_flags(gen_name_b, "ClearPortOnStart", 1)
# genl.set_flags(gen_name_b, "Unmanaged", 1)
time.sleep(sleep_time)
for endp_tpl in endp_tpls:
name = endp_tpl[1]
gen_name_a = endp_tpl[2]
# gen_name_b = endp_tpl[3]
self.parse_command(name)
genl.set_cmd(gen_name_a, self.cmd)
time.sleep(sleep_time)
for endp_tpl in endp_tpls:
name = endp_tpl[1]
gen_name_a = endp_tpl[2]
gen_name_b = endp_tpl[3]
cx_name = "CX_%s-%s"%(self.name_prefix, name)
data = {
"alias": cx_name,
"test_mgr": "default_tm",
"tx_endp": gen_name_a,
"rx_endp": gen_name_b
}
post_data.append(data)
self.created_cx.append(cx_name)
self.created_endp.append(gen_name_a)
self.created_endp.append(gen_name_b)
time.sleep(sleep_time)
for data in post_data:
url = "/cli-json/add_cx"
if self.debug:
pprint(data)
self.local_realm.json_post(url, data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
time.sleep(10)
time.sleep(sleep_time)
for data in post_data:
self.local_realm.json_post("/cli-json/show_cx", {
"test_mgr":"default_tm",
"cross_connect": data["alias"]
})
time.sleep(sleep_time)
class WifiMonitor:
def __init__(self, lfclient_url, local_realm, up=True, debug_=False, resource_=1):
self.debug = debug_
self.lfclient_url = lfclient_url
self.up = up
self.local_realm = local_realm
self.monitor_name = None
self.resource = resource_
self.flag_names = []
self.flag_mask_names = []
self.flags_mask = add_monitor.default_flags_mask
self.aid = "NA" # used when sniffing /ax radios
self.bsssid = "00:00:00:00:00:00" # used when sniffing on /ax radios
def create(self, resource_=1, channel=None, radio_="wiphy0", name_="moni0" ):
print("Creating monitor " + name_)
self.monitor_name = name_
computed_flags = 0
for flag_n in self.flag_names:
computed_flags += add_monitor.flags[flag_n]
# we want to query the existing country code of the radio
# there's no reason to change it but we get hollering from server
# if we don't provide a value for the parameter
jr = self.local_realm.json_get("/radiostatus/1/%s/%s?fields=channel,frequency,country"%(resource_, radio_), debug_=self.debug)
if jr is None:
raise ValueError("No radio %s.%s found"%(resource_, radio_))
eid = "1.%s.%s"%(resource_, radio_)
frequency = 0
country = 0
if eid in jr:
country = jr[eid]["country"]
data = {
"shelf": 1,
"resource": resource_,
"radio": radio_,
"mode": 0, #"NA", #0 for AUTO or "NA"
"channel": channel,
"country": country,
"frequency": self.local_realm.channel_freq(channel_=channel)
}
self.local_realm.json_post("/cli-json/set_wifi_radio", _data=data)
time.sleep(1)
self.local_realm.json_post("/cli-json/add_monitor", {
"shelf": 1,
"resource": resource_,
"radio": radio_,
"ap_name": self.monitor_name,
"flags": computed_flags,
"flags_mask": self.flags_mask
})
def set_flag(self, param_name, value):
if (param_name not in add_monitor.flags):
raise ValueError("Flag '%s' does not exist for add_monitor, consult add_monitor.py" % param_name)
if (value == 1) and (param_name not in self.flag_names):
self.flag_names.append(param_name)
elif (value == 0) and (param_name in self.flag_names):
del self.flag_names[param_name]
self.flags_mask |= add_monitor.flags[param_name]
def cleanup(self, resource_=1, desired_ports=None):
print("Cleaning up monitors")
if (desired_ports is None) or (len(desired_ports) < 1):
if (self.monitor_name is None) or (self.monitor_name == ""):
print("No monitor name set to delete")
return
LFUtils.removePort(resource=resource_,
port_name=self.monitor_name,
baseurl=self.lfclient_url,
debug=self.debug)
else:
names = ",".join(desired_ports)
existing_ports = self.local_realm.json_get("/port/1/%d/%s?fields=alias"%(resource_, names), debug_=False)
if (existing_ports is None) or ("interfaces" not in existing_ports) or ("interface" not in existing_ports):
print("No monitor names found to delete")
return
if ("interfaces" in existing_ports):
for eid,info in existing_ports["interfaces"].items():
LFUtils.removePort(resource=resource_,
port_name=info["alias"],
baseurl=self.lfclient_url,
debug=self.debug)
if ("interface" in existing_ports):
for eid,info in existing_ports["interface"].items():
LFUtils.removePort(resource=resource_,
port_name=info["alias"],
baseurl=self.lfclient_url,
debug=self.debug)
def admin_up(self):
up_request = LFUtils.port_up_request(resource_id=self.resource, port_name=self.monitor_name)
self.local_realm.json_post("/cli-json/set_port", up_request)
def admin_down(self):
down_request = LFUtils.portDownRequest(resource_id=self.resource, port_name=self.monitor_name)
self.local_realm.json_post("/cli-json/set_port", down_request)
def start_sniff(self, capname=None, duration_sec=60):
if capname is None:
raise ValueError("Need a capture file name")
data = {
"shelf": 1,
"resource": 1,
"port": self.monitor_name,
"display": "NA",
"flags": 0x2,
"outfile": capname,
"duration": duration_sec
}
self.local_realm.json_post("/cli-json/sniff_port", _data= data)
# "sniff_port 1 %s %s NA %s %s.pcap %i"%(r, m, sflags, m, int(dur))
class VAPProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm, vap_name="", ssid="NA", ssid_pass="NA", mode=0, debug_=False):
super().__init__(_lfjson_host=lfclient_host, _lfjson_port=lfclient_port, _debug=debug_)
self.debug = debug_
#self.lfclient_url = lfclient_url # done in super()
self.ssid = ssid
self.ssid_pass = ssid_pass
self.mode = mode
self.local_realm = local_realm
self.vap_name = vap_name
self.COMMANDS = ["add_vap", "set_port"]
self.desired_add_vap_flags = ["wpa2_enable", "80211u_enable", "create_admin_down"]
self.desired_add_vap_flags_mask = ["wpa2_enable", "80211u_enable", "create_admin_down"]
self.add_vap_data = {
"shelf": 1,
"resource": 1,
"radio": None,
"ap_name": None,
"flags": 0,
"flags_mask": 0,
"mode": 0,
"ssid": None,
"key": None,
"mac": "xx:xx:xx:xx:*:xx"
}
self.desired_set_port_cmd_flags = []
self.desired_set_port_current_flags = ["if_down"]
self.desired_set_port_interest_flags = ["current_flags", "ifdown"]
self.set_port_data = {
"shelf": 1,
"resource": 1,
"port": None,
"current_flags": 0,
"interest": 0, # (0x2 + 0x4000 + 0x800000) # current, dhcp, down
}
self.wifi_extra_data_modified = False
self.wifi_extra_data = {
"shelf": 1,
"resource": 1,
"port": None,
"key_mgmt": None,
"eap": None,
"hessid": None,
"identity": None,
"password": None,
"realm": None,
"domain": None
}
def set_wifi_extra(self,
key_mgmt="WPA-EAP",
pairwise="DEFAULT",
group="DEFAULT",
psk="[BLANK]",
eap="TTLS",
identity="testuser",
passwd="testpasswd",
realm="localhost.localdomain",
domain="localhost.localdomain",
hessid="00:00:00:00:00:01"):
self.wifi_extra_data_modified = True
self.wifi_extra_data["key_mgmt"] = key_mgmt
self.wifi_extra_data["eap"] = eap
self.wifi_extra_data["identity"] = identity
self.wifi_extra_data["password"] = passwd
self.wifi_extra_data["realm"] = realm
self.wifi_extra_data["domain"] = domain
self.wifi_extra_data["hessid"] = hessid
def admin_up(self, resource):
set_port_r = LFRequest.LFRequest(self.lfclient_url, "/cli-json/set_port", debug_=self.debug)
req_json = LFUtils.portUpRequest(resource, None, debug_on=self.debug)
req_json["port"] = self.vap_name
set_port_r.addPostData(req_json)
json_response = set_port_r.jsonPost(self.debug)
time.sleep(0.03)
def admin_down(self, resource):
set_port_r = LFRequest.LFRequest(self.lfclient_url, "/cli-json/set_port", debug_=self.debug)
req_json = LFUtils.port_down_request(resource, None, debug_on=self.debug)
req_json["port"] = self.vap_name
set_port_r.addPostData(req_json)
json_response = set_port_r.jsonPost(self.debug)
time.sleep(0.03)
def use_security(self, security_type, ssid=None, passwd=None):
types = {"wep": "wep_enable", "wpa": "wpa_enable", "wpa2": "wpa2_enable", "wpa3": "use-wpa3", "open": "[BLANK]"}
self.add_vap_data["ssid"] = ssid
if security_type in types.keys():
if (ssid is None) or (ssid == ""):
raise ValueError("use_security: %s requires ssid" % security_type)
if (passwd is None) or (passwd == ""):
raise ValueError("use_security: %s requires passphrase or [BLANK]" % security_type)
for name in types.values():
if name in self.desired_add_vap_flags and name in self.desired_add_vap_flags_mask:
self.desired_add_vap_flags.remove(name)
self.desired_add_vap_flags_mask.remove(name)
if security_type != "open":
self.desired_add_vap_flags.append(types[security_type])
self.desired_add_vap_flags_mask.append(types[security_type])
else:
passwd = "[BLANK]"
self.set_command_param("add_vap", "ssid", ssid)
self.set_command_param("add_vap", "key", passwd)
# unset any other security flag before setting our present flags
if security_type == "wpa3":
self.set_command_param("add_vap", "ieee80211w", 2)
def set_command_flag(self, command_name, param_name, value):
# we have to check what the param name is
if (command_name is None) or (command_name == ""):
return
if (param_name is None) or (param_name == ""):
return
if command_name not in self.COMMANDS:
print("Command name name [%s] not defined in %s" % (command_name, self.COMMANDS))
return
if command_name == "add_vap":
if (param_name not in add_vap.add_vap_flags):
print("Parameter name [%s] not defined in add_vap.py" % param_name)
if self.debug:
pprint(add_vap.add_vap_flags)
return
if (value == 1) and (param_name not in self.desired_add_vap_flags):
self.desired_add_vap_flags.append(param_name)
self.desired_add_vap_flags_mask.append(param_name)
elif value == 0:
self.desired_add_vap_flags.remove(param_name)
self.desired_add_vap_flags_mask.append(param_name)
elif command_name == "set_port":
if (param_name not in set_port.set_port_current_flags) and (param_name not in set_port.set_port_cmd_flags) and (param_name not in set_port.set_port_interest_flags):
print("Parameter name [%s] not defined in set_port.py" % param_name)
if self.debug:
pprint(set_port.set_port_cmd_flags)
pprint(set_port.set_port_current_flags)
pprint(set_port.set_port_interest_flags)
return
if param_name in set_port.set_port_cmd_flags:
if (value == 1) and (param_name not in self.desired_set_port_cmd_flags):
self.desired_set_port_cmd_flags.append(param_name)
elif value == 0:
self.desired_set_port_cmd_flags.remove(param_name)
elif param_name in set_port.set_port_current_flags:
if (value == 1) and (param_name not in self.desired_set_port_current_flags):
self.desired_set_port_current_flags.append(param_name)
elif value == 0:
self.desired_set_port_current_flags.remove(param_name)
elif param_name in set_port.set_port_interest_flags:
if (value == 1) and (param_name not in self.desired_set_port_interest_flags):
self.desired_set_port_interest_flags.append(param_name)
elif value == 0:
self.desired_set_port_interest_flags.remove(param_name)
else:
raise ValueError("Unknown param name: " + param_name)
def set_command_param(self, command_name, param_name, param_value):
# we have to check what the param name is
if (command_name is None) or (command_name == ""):
return
if (param_name is None) or (param_name == ""):
return
if command_name not in self.COMMANDS:
self.error("Command name name [%s] not defined in %s" % (command_name, self.COMMANDS))
return
if command_name == "add_vap":
self.add_vap_data[param_name] = param_value
elif command_name == "set_port":
self.set_port_data[param_name] = param_value
def add_named_flags(self, desired_list, command_ref):
if desired_list is None:
raise ValueError("addNamedFlags wants a list of desired flag names")
if len(desired_list) < 1:
print("addNamedFlags: empty desired list")
return 0
if (command_ref is None) or (len(command_ref) < 1):
raise ValueError("addNamedFlags wants a maps of flag values")
result = 0
for name in desired_list:
if (name is None) or (name == ""):
continue
if name not in command_ref:
if self.debug:
pprint(command_ref)
raise ValueError("flag %s not in map" % name)
#print("add-named-flags: %s %i"%(name, command_ref[name]))
result |= command_ref[name]
return result
def create(self, resource, radio, channel=None, up_=None, debug=False, use_ht40=True, use_ht80=True, use_ht160=False,
suppress_related_commands_=True, use_radius=False, hs20_enable=False):
port_list = self.local_realm.json_get("port/1/1/list")
if port_list is not None:
port_list = port_list['interfaces']
for port in port_list:
for k,v in port.items():
if v['alias'] == self.vap_name:
self.local_realm.rm_port(k, check_exists=True)
if use_ht160:
self.desired_add_vap_flags.append("enable_80211d")
self.desired_add_vap_flags_mask.append("enable_80211d")
self.desired_add_vap_flags.append("80211h_enable")
self.desired_add_vap_flags_mask.append("80211h_enable")
self.desired_add_vap_flags.append("ht160_enable")
self.desired_add_vap_flags_mask.append("ht160_enable")
if not use_ht40:
self.desired_add_vap_flags.append("disable_ht40")
self.desired_add_vap_flags_mask.append("disable_ht40")
if not use_ht80:
self.desired_add_vap_flags.append("disable_ht80")
self.desired_add_vap_flags_mask.append("disable_ht80")
if use_radius:
self.desired_add_vap_flags.append("8021x_radius")
self.desired_add_vap_flags_mask.append("8021x_radius")
if hs20_enable:
self.desired_add_vap_flags.append("hs20_enable")
self.desired_add_vap_flags_mask.append("hs20_enable")
#print("MODE ========= ", self.mode)
jr = self.local_realm.json_get("/radiostatus/1/%s/%s?fields=channel,frequency,country" % (resource, radio), debug_=self.debug)
if jr is None:
raise ValueError("No radio %s.%s found" % (resource, radio))
eid = "1.%s.%s" % (resource, radio)
frequency = 0
country = 0
if eid in jr:
country = jr[eid]["country"]
data = {
"shelf": 1,
"resource": resource,
"radio": radio,
"mode": self.mode, #"NA", #0 for AUTO or "NA"
"channel": channel,
"country": country,
"frequency": self.local_realm.channel_freq(channel_=channel)
}
self.local_realm.json_post("/cli-json/set_wifi_radio", _data=data)
if up_ is not None:
self.up = up_
if self.up:
if "create_admin_down" in self.desired_add_vap_flags:
del self.desired_add_vap_flags[self.desired_add_vap_flags.index("create_admin_down")]
elif "create_admin_down" not in self.desired_add_vap_flags:
self.desired_add_vap_flags.append("create_admin_down")
# create vaps down, do set_port on them, then set vaps up
self.add_vap_data["mode"] = self.mode
self.add_vap_data["flags"] = self.add_named_flags(self.desired_add_vap_flags, add_vap.add_vap_flags)
self.add_vap_data["flags_mask"] = self.add_named_flags(self.desired_add_vap_flags_mask, add_vap.add_vap_flags)
self.add_vap_data["radio"] = radio
self.add_vap_data["resource"] = resource
self.set_port_data["current_flags"] = self.add_named_flags(self.desired_set_port_current_flags,
set_port.set_port_current_flags)
self.set_port_data["interest"] = self.add_named_flags(self.desired_set_port_interest_flags,
set_port.set_port_interest_flags)
# these are unactivated LFRequest objects that we can modify and
# re-use inside a loop, reducing the number of object creations
add_vap_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/add_vap")
set_port_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/set_port")
wifi_extra_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/set_wifi_extra")
if suppress_related_commands_:
self.add_vap_data["suppress_preexec_cli"] = "yes"
self.add_vap_data["suppress_preexec_method"] = 1
self.set_port_data["suppress_preexec_cli"] = "yes"
self.set_port_data["suppress_preexec_method"] = 1
# pprint(self.station_names)
# exit(1)
self.set_port_data["port"] = self.vap_name
self.add_vap_data["ap_name"] = self.vap_name
add_vap_r.addPostData(self.add_vap_data)
if debug:
print("- 1502 - %s- - - - - - - - - - - - - - - - - - " % self.vap_name)
pprint(self.add_vap_data)
pprint(self.set_port_data)
pprint(add_vap_r)
print("- ~1502 - - - - - - - - - - - - - - - - - - - ")
json_response = add_vap_r.jsonPost(debug)
# time.sleep(0.03)
time.sleep(2)
set_port_r.addPostData(self.set_port_data)
json_response = set_port_r.jsonPost(debug)
time.sleep(0.03)
self.wifi_extra_data["resource"] = resource
self.wifi_extra_data["port"] = self.vap_name
if self.wifi_extra_data_modified:
wifi_extra_r.addPostData(self.wifi_extra_data)
json_response = wifi_extra_r.jsonPost(debug)
port_list = self.local_realm.json_get("port/1/1/list")
if port_list is not None:
port_list = port_list['interfaces']
for port in port_list:
for k,v in port.items():
if v['alias'] == 'br0':
self.local_realm.rm_port(k, check_exists=True)
time.sleep(5)
# create bridge
data = {
"shelf": 1,
"resource": resource,
"port": "br0",
"network_devs": "eth1,%s" % self.vap_name
}
self.local_realm.json_post("cli-json/add_br", data)
bridge_set_port = {
"shelf": 1,
"resource": 1,
"port": "br0",
"current_flags": 0x80000000,
"interest": 0x4000 # (0x2 + 0x4000 + 0x800000) # current, dhcp, down
}
self.local_realm.json_post("cli-json/set_port", bridge_set_port)
if (self.up):
self.admin_up(1)
def cleanup(self, resource, delay=0.03):
print("Cleaning up VAPs")
desired_ports = ["1.%s.%s" % (resource, self.vap_name), "1.%s.br0" % resource]
del_count = len(desired_ports)
# First, request remove on the list.
for port_eid in desired_ports:
self.local_realm.rm_port(port_eid, check_exists=True)
# And now see if they are gone
LFUtils.wait_until_ports_disappear(base_url=self.lfclient_url, port_list=desired_ports)
class VRProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm, ssid="NA", ssid_pass="NA", mode=0, debug_=False):
super().__init__(_lfjson_host=lfclient_host, _lfjson_port=lfclient_port, _debug=debug_)
#self.debug = debug_
# self.lfclient_url = lfclient_url
self.ssid = ssid
self.ssid_pass = ssid_pass
self.mode = mode
self.local_realm = local_realm
self.vr_name = None
self.created_rdds = []
self.created_vrcxs = []
self.add_vr_data = {
"alias": None,
"shelf": 1,
"resource": 1,
"x": 100,
"y": 100,
"width": 250,
"height": 250,
"flags": 0
}
self.vrcx_data = {
'shelf': 1,
'resource': 1,
'vr-name': None,
'local_dev': None, # outer rdd
'remote_dev': None, # inner rdd
"x": 0,
"y": 0,
"width": 10,
"height": 10,
'flags': 0,
"subnets": None,
"nexthop": None,
"vrrp_ip": "0.0.0.0"
}
self.set_port_data = {
"shelf": 1,
"resource": 1,
"port": None,
"ip_addr": None,
"netmask": None,
"gateway": None
}
def create_rdd(self, resource, ip_addr, netmask, gateway, suppress_related_commands_=True, debug_=False):
rdd_data = {
"shelf": 1,
"resource": resource,
"port": "rdd0",
"peer_ifname": "rdd1"
}
# print("creating rdd0")
self.local_realm.json_post("add_rdd", rdd_data, suppress_related_commands_=suppress_related_commands_, debug_=debug_)
rdd_data = {
"shelf": 1,
"resource": resource,
"port": "rdd1",
"peer_ifname": "rdd0"
}
# print("creating rdd1")
self.local_realm.json_post("add_rdd", rdd_data, suppress_related_commands_=suppress_related_commands_, debug_=debug_)
self.set_port_data["port"] = "rdd0"
self.set_port_data["ip_addr"] = gateway
self.set_port_data["netmask"] = netmask
self.set_port_data["gateway"] = gateway
self.local_realm.json_post("set_port", self.set_port_data, suppress_related_commands_=suppress_related_commands_, debug_=debug_)
self.set_port_data["port"] = "rdd1"
self.set_port_data["ip_addr"] = ip_addr
self.set_port_data["netmask"] = netmask
self.set_port_data["gateway"] = gateway
self.local_realm.json_post("set_port", self.set_port_data, suppress_related_commands_=suppress_related_commands_, debug_=debug_)
self.created_rdds.append("rdd0")
self.created_rdds.append("rdd1")
def create_vrcx(self, resource, local_dev, remote_dev, subnets, nexthop, flags, suppress_related_commands_=True, debug_=False):
if self.vr_name is not None:
self.vrcx_data["resource"] = resource
self.vrcx_data["vr_name"] = self.vr_name
self.vrcx_data["local_dev"] = local_dev
self.vrcx_data["remote_dev"] = remote_dev
self.vrcx_data["subnets"] = subnets
self.vrcx_data["nexthop"] = nexthop
self.vrcx_data["flags"] = flags
self.local_realm.json_post("add_vrcx", self.vrcx_data, suppress_related_commands_=suppress_related_commands_, debug_=debug_)
else:
raise ValueError("vr_name must be set. Current name: %s" % self.vr_name)
def create(self, resource, upstream_port="eth1", debug=False,
upstream_subnets="20.20.20.0/24", upstream_nexthop="20.20.20.1",
local_subnets="10.40.0.0/24", local_nexthop="10.40.3.198",
rdd_ip="20.20.20.20", rdd_gateway="20.20.20.1", rdd_netmask="255.255.255.0",
suppress_related_commands_=True):
# Create vr
if self.vr_name is not None:
self.add_vr_data["alias"] = self.vr_name
self.local_realm.json_post("add_vr", self.add_vr_data, debug_=debug)
else:
raise ValueError("vr_name must be set. Current name: %s" % self.vr_name)
# Create 1 rdd pair
self.create_rdd(resource=resource, ip_addr=rdd_ip, gateway=rdd_gateway, netmask=rdd_netmask) # rdd0, rdd1; rdd0 gateway, rdd1 connected to network
# connect rdds and upstream
self.create_vrcx(resource=resource, local_dev=upstream_port, remote_dev="NA", subnets=upstream_subnets, nexthop=upstream_nexthop,
flags=257, suppress_related_commands_=suppress_related_commands_, debug_=debug)
self.create_vrcx(resource=resource, local_dev="rdd0", remote_dev="rdd1", subnets=local_subnets, nexthop=local_nexthop,
flags=1, suppress_related_commands_=suppress_related_commands_, debug_=debug)
def cleanup(self, resource, delay=0.03):
# TODO: Cleanup for VRProfile
pass
class DUTProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm, debug_=False):
super().__init__(lfclient_host, lfclient_port, debug_, _halt_on_error=True)
self.name = "NA"
self.flags = "NA"
self.img_file = "NA"
self.sw_version = "NA"
self.hw_version = "NA"
self.model_num = "NA"
self.serial_num = "NA"
self.serial_port = "NA"
self.wan_port = "NA"
self.lan_port = "NA"
self.ssid1 = "NA"
self.ssid2 = "NA"
self.ssid3 = "NA"
self.passwd1 = "NA"
self.passwd2 = "NA"
self.passwd3 = "NA"
self.mgt_ip = "NA"
self.api_id = "NA"
self.flags_mask = "NA"
self.antenna_count1 = "NA"
self.antenna_count2 = "NA"
self.antenna_count3 = "NA"
self.bssid1 = "NA"
self.bssid2 = "NA"
self.bssid3 = "NA"
self.top_left_x = "NA"
self.top_left_y = "NA"
self.eap_id = "NA"
self.flags = {}
self.flags_mask = {}
def set_flag(self, name, value):
if (value != 0) or (value != 1) or (value != True) or (value != False):
raise ValueError("DUTProfile::set_flag wants values to be 0, 1, True or False")
if (name not in add_dut.dut_flags):
raise ValueError("DUTProfile::set_flag wants flag %s to be in add_dut.dut_flags"%name)
self.flags[name] = value
self.flags_mask[name] = 1
def create(self):
data = {}
for param in add_dut.dut_params:
if (param.name in self) and (self[param.name] != "NA"):
data[param.name] = self[param.name]
# todo: compute masks
url = "/cli-json/add_dut"
self.json_post(url, data)
class FIOEndpProfile(LFCliBase):
"""
Very often you will create the FileIO writer profile first so that it creates the data
that a reader profile will subsequently use.
"""
def __init__(self, lfclient_host, lfclient_port, local_realm, io_direction="write", debug_=False):
super().__init__(lfclient_host, lfclient_port, debug_, _halt_on_error=True)
self.local_realm = local_realm
self.fs_type = "fe_nfsv4"
self.min_rw_size = 128 * 1024
self.max_rw_size = 128 * 1024
self.min_file_size = 10 * 1024 * 1024
self.max_file_size = 10 * 1024 * 1024
self.min_read_rate_bps = 10 * 1000 * 1000
self.max_read_rate_bps = 10 * 1000 * 1000
self.min_write_rate_bps = 1000 * 1000 * 1000
self.max_write_rate_bps = 1000 * 1000 * 1000
self.file_num = 10 # number of files to write
self.directory = None # directory like /mnt/lf/$endp_name
# this refers to locally mounted directories presently used for writing
# you would set this when doing read tests simultaneously to write tests
# so like, if your endpoint names are like wo_300GB_001, your Directory value
# defaults to /mnt/lf/wo_300GB_001; but reader enpoint would be named
# /mnt/lf/ro_300GB_001, this overwrites a readers directory name to wo_300GB_001
self.mount_dir = "AUTO"
self.server_mount = None # like cifs://10.0.0.1/bashful or 192.168.1.1:/var/tmp
self.mount_options = None
self.iscsi_vol = None
self.retry_timer_ms = 2000
self.io_direction = io_direction # read / write
self.quiesce_ms = 3000
self.pattern = "increasing"
self.file_prefix = "AUTO" # defaults to endp_name
self.cx_prefix = "wo_"
self.created_cx = {}
self.created_endp = []
def start_cx(self):
print("Starting CXs...")
for cx_name in self.created_cx.keys():
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name],
"cx_state": "RUNNING"
}, debug_=self.debug)
print(".", end='')
print("")
def stop_cx(self):
print("Stopping CXs...")
for cx_name in self.created_cx.keys():
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name],
"cx_state": "STOPPED"
}, debug_=self.debug)
print(".", end='')
print("")
def create_ro_profile(self):
ro_profile = self.local_realm.new_fio_endp_profile()
ro_profile.realm = self.local_realm
ro_profile.fs_type = self.fs_type
ro_profile.min_read_rate_bps = self.min_write_rate_bps
ro_profile.max_read_rate_bps = self.max_write_rate_bps
ro_profile.min_write_rate_bps = self.min_read_rate_bps
ro_profile.max_write_rate_bps = self.max_read_rate_bps
ro_profile.file_num = self.file_num
ro_profile.directory = self.directory
ro_profile.mount_dir = self.directory
ro_profile.server_mount = self.server_mount
ro_profile.mount_options = self.mount_options
ro_profile.iscsi_vol = self.iscsi_vol
ro_profile.retry_timer_ms = self.retry_timer_ms
ro_profile.io_direction = "read"
ro_profile.quiesce_ms = self.quiesce_ms
ro_profile.pattern = self.pattern
ro_profile.file_prefix = self.file_prefix
ro_profile.cx_prefix = "ro_"
return ro_profile
def cleanup(self):
print("Cleaning up cxs and endpoints")
if len(self.created_cx) != 0:
for cx_name in self.created_cx.keys():
req_url = "cli-json/rm_cx"
data = {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name]
}
self.json_post(req_url, data)
#pprint(data)
req_url = "cli-json/rm_endp"
data = {
"endp_name": cx_name
}
self.json_post(req_url, data)
#pprint(data)
def create(self, ports=[], sleep_time=.5, debug_=False, suppress_related_commands_=None):
cx_post_data = []
for port_name in ports:
if len(self.local_realm.name_to_eid(port_name)) == 3:
shelf = self.local_realm.name_to_eid(port_name)[0]
resource = self.local_realm.name_to_eid(port_name)[1]
name = self.local_realm.name_to_eid(port_name)[2]
else:
raise ValueError("Unexpected name for port_name %s" % port_name)
if self.directory is None or self.server_mount is None or self.fs_type is None:
raise ValueError("directory [%s], server_mount [%s], and type [%s] must not be None" % (self.directory, self.server_mount, self.fs_type))
endp_data = {
"alias": self.cx_prefix + name + "_fio",
"shelf": shelf,
"resource": resource,
"port": name,
"type": self.fs_type,
"min_read_rate": self.min_read_rate_bps,
"max_read_rate": self.max_read_rate_bps,
"min_write_rate": self.min_write_rate_bps,
"max_write_rate": self.max_write_rate_bps,
"directory": self.directory,
"server_mount": self.server_mount,
"mount_dir": self.mount_dir,
"prefix": self.file_prefix,
"payload_pattern": self.pattern,
}
if self.io_direction == "read":
endp_data["prefix"] = "wo_" + name + "_fio"
endp_data["directory"] = "/mnt/lf/wo_" + name + "_fio"
url = "cli-json/add_file_endp"
self.local_realm.json_post(url, endp_data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
time.sleep(sleep_time)
data = {
"name": self.cx_prefix + name + "_fio",
"io_direction": self.io_direction,
"num_files": 5
}
self.local_realm.json_post("cli-json/set_fe_info", data, debug_=debug_,
suppress_related_commands_=suppress_related_commands_)
endp_data = {
"alias": "CX_" + self.cx_prefix + name + "_fio",
"test_mgr": "default_tm",
"tx_endp": self.cx_prefix + name + "_fio",
"rx_endp": "NA"
}
cx_post_data.append(endp_data)
self.created_cx[self.cx_prefix + name + "_fio"] = "CX_" + self.cx_prefix + name + "_fio"
for cx_data in cx_post_data:
url = "/cli-json/add_cx"
self.local_realm.json_post(url, cx_data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
time.sleep(sleep_time)
class PacketFilter():
def get_filter_wlan_assoc_packets(self, ap_mac, sta_mac):
filter = "-T fields -e wlan.fc.type_subtype -e wlan.addr -e wlan.fc.pwrmgt " \
"-Y \"(wlan.addr==%s or wlan.addr==%s) and wlan.fc.type_subtype<=3\" " % (ap_mac, sta_mac)
return filter
def get_filter_wlan_null_packets(self, ap_mac, sta_mac):
filter = "-T fields -e wlan.fc.type_subtype -e wlan.addr -e wlan.fc.pwrmgt " \
"-Y \"(wlan.addr==%s or wlan.addr==%s) and wlan.fc.type_subtype==44\" " % (ap_mac, sta_mac)
return filter
def run_filter(self, pcap_file, filter):
filename = "/tmp/tshark_dump.txt"
cmd = "tshark -r %s %s > %s" % (pcap_file, filter, filename)
# print("CMD: ", cmd)
os.system(cmd)
lines = []
with open(filename) as tshark_file:
for line in tshark_file:
lines.append(line.rstrip())
return lines
class PortUtils():
def __init__(self, local_realm):
self.local_realm = local_realm
def set_ftp(self, port_name="", resource=1, on=False):
if port_name != "":
data = {
"shelf": 1,
"resource": resource,
"port": port_name,
"current_flags": 0,
"interest": 0
}
if on:
data["current_flags"] = 0x400000000000
data["interest"] = 0x10000000
else:
data["interest"] = 0x10000000
self.local_realm.json_post("cli-json/set_port", data)
else:
raise ValueError("Port name required")
def set_http(self, port_name="", resource=1, on=False):
if port_name != "":
data = {
"shelf": 1,
"resource": resource,
"port": port_name,
"current_flags": 0,
"interest": 0
}
if on:
data["current_flags"] = 0x200000000000
data["interest"] = 0x8000000
else:
data["interest"] = 0x8000000
self.local_realm.json_post("cli-json/set_port", data)
else:
raise ValueError("Port name required")
class HTTPProfile(LFCliBase):
def __init__(self, lfclient_host, lfclient_port, local_realm, debug_=False):
super().__init__(lfclient_host, lfclient_port, debug_, _halt_on_error=True)
self.lfclient_url = "http://%s:%s" % (lfclient_host, lfclient_port)
self.debug = debug_
self.requests_per_ten = 600
self.local_realm = local_realm
self.created_cx = {}
self.created_endp = []
self.ip_map = {}
self.direction = "dl"
self.dest = "/dev/null"
self.port_util = PortUtils(self.local_realm)
def check_errors(self, debug=False):
fields_list = ["!conn", "acc.+denied", "bad-proto", "bad-url", "other-err", "total-err", "rslv-p", "rslv-h",
"timeout", "nf+(4xx)", "http-r", "http-p", "http-t", "login-denied"]
endp_list = self.json_get("layer4/list?fields=%s" % ','.join(fields_list))
debug_info = {}
if endp_list is not None and endp_list['endpoint'] is not None:
endp_list = endp_list['endpoint']
expected_passes = len(endp_list)
passes = len(endp_list)
for item in range(len(endp_list)):
for name, info in endp_list[item].items():
for field in fields_list:
if info[field.replace("+", " ")] > 0:
passes -= 1
debug_info[name] = {field: info[field.replace("+", " ")]}
if debug:
print(debug_info)
if passes == expected_passes:
return True
else:
print(list(debug_info), " Endps in this list showed errors getting to its URL") # %s") % self.url)
return False
def start_cx(self):
print("Starting CXs...")
for cx_name in self.created_cx.keys():
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name],
"cx_state": "RUNNING"
}, debug_=self.debug)
print(".", end='')
print("")
def stop_cx(self):
print("Stopping CXs...")
for cx_name in self.created_cx.keys():
self.json_post("/cli-json/set_cx_state", {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name],
"cx_state": "STOPPED"
}, debug_=self.debug)
print(".", end='')
print("")
def cleanup(self):
print("Cleaning up cxs and endpoints")
if len(self.created_cx) != 0:
for cx_name in self.created_cx.keys():
req_url = "cli-json/rm_cx"
data = {
"test_mgr": "default_tm",
"cx_name": self.created_cx[cx_name]
}
self.json_post(req_url, data)
#pprint(data)
req_url = "cli-json/rm_endp"
data = {
"endp_name": cx_name
}
self.json_post(req_url, data)
#pprint(data)
def map_sta_ips(self, sta_list=[]):
for sta_eid in sta_list:
eid = self.local_realm.name_to_eid(sta_eid)
sta_list = self.json_get("/port/%s/%s/%s?fields=alias,ip" %
(eid[0], eid[1], eid[2]))
if sta_list['interface'] is not None:
self.ip_map[sta_list['interface']['alias']] = sta_list['interface']['ip']
def create(self, ports=[], sleep_time=.5, debug_=False, suppress_related_commands_=None, http=False, ftp=False,
user=None, passwd=None, source=None):
cx_post_data = []
self.map_sta_ips(ports)
for i in range(len(list(self.ip_map))):
url = None
if i != len(list(self.ip_map)) - 1:
port_name = list(self.ip_map)[i]
ip_addr = self.ip_map[list(self.ip_map)[i+1]]
else:
port_name = list(self.ip_map)[i]
ip_addr = self.ip_map[list(self.ip_map)[0]]
if (ip_addr is None) or (ip_addr == ""):
raise ValueError("HTTPProfile::create encountered blank ip/hostname")
if len(self.local_realm.name_to_eid(port_name)) == 3:
shelf = self.local_realm.name_to_eid(port_name)[0]
resource = self.local_realm.name_to_eid(port_name)[1]
name = self.local_realm.name_to_eid(port_name)[2]
else:
raise ValueError("Unexpected name for port_name %s" % port_name)
if http:
self.port_util.set_http(port_name=name, resource=resource, on=True)
url = "%s http://%s/ %s" % (self.direction, ip_addr, self.dest)
if ftp:
self.port_util.set_ftp(port_name=name, resource=resource, on=True)
if user is not None and passwd is not None and source is not None:
url = "%s ftp://%s:%s@%s%s %s" % (self.direction, user, passwd, ip_addr, source, self.dest)
else:
raise ValueError("user: %s, passwd: %s, and source: %s must all be set" % (user, passwd, source))
if not http and not ftp:
raise ValueError("Please specify ftp and/or http")
if (url is None) or (url == ""):
raise ValueError("HTTPProfile::create: url unset")
endp_data = {
"alias": name + "_l4",
"shelf": shelf,
"resource": resource,
"port": name,
"type": "l4_generic",
"timeout": 10,
"url_rate": self.requests_per_ten,
"url": url,
"proxy_auth_type": 0x200
}
url = "cli-json/add_l4_endp"
self.local_realm.json_post(url, endp_data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
time.sleep(sleep_time)
endp_data = {
"alias": "CX_" + name + "_l4",
"test_mgr": "default_tm",
"tx_endp": name + "_l4",
"rx_endp": "NA"
}
cx_post_data.append(endp_data)
self.created_cx[name + "_l4"] = "CX_" + name + "_l4"
for cx_data in cx_post_data:
url = "/cli-json/add_cx"
self.local_realm.json_post(url, cx_data, debug_=debug_, suppress_related_commands_=suppress_related_commands_)
time.sleep(sleep_time)
# use the station profile to set the combination of features you want on your stations
# once this combination is configured, build the stations with the build(resource, radio, number) call
# build() calls will fail if the station already exists. Please survey and clean your resource
# before calling build()
# survey = Realm.findStations(resource=1)
# Realm.removeStations(survey)
# profile = Realm.newStationProfile()
# profile.set...
# profile.build(resource, radio, 64)
#
class StationProfile:
def __init__(self, lfclient_url, local_realm,
ssid="NA",
ssid_pass="NA",
security="open",
number_template_="00000",
mode=0,
up=True,
dhcp=True,
debug_=False,
use_ht160=False):
self.debug = debug_
self.lfclient_url = lfclient_url
self.ssid = ssid
self.ssid_pass = ssid_pass
self.mode = mode
self.up = up
self.dhcp = dhcp
self.security = security
self.local_realm = local_realm
self.use_ht160 = use_ht160
self.COMMANDS = ["add_sta", "set_port"]
self.desired_add_sta_flags = ["wpa2_enable", "80211u_enable", "create_admin_down"]
self.desired_add_sta_flags_mask = ["wpa2_enable", "80211u_enable", "create_admin_down"]
self.number_template = number_template_
self.station_names = [] # eids
self.add_sta_data = {
"shelf": 1,
"resource": 1,
"radio": None,
"sta_name": None,
"ssid": None,
"key": None,
"mode": 0,
"mac": "xx:xx:xx:xx:*:xx",
"flags": 0, # (0x400 + 0x20000 + 0x1000000000) # create admin down
}
self.desired_set_port_cmd_flags = []
self.desired_set_port_current_flags = ["if_down"]
self.desired_set_port_interest_flags = ["current_flags", "ifdown"]
if self.dhcp:
self.desired_set_port_current_flags.append("use_dhcp")
self.desired_set_port_interest_flags.append("dhcp")
self.set_port_data = {
"shelf": 1,
"resource": 1,
"port": None,
"current_flags": 0,
"interest": 0, # (0x2 + 0x4000 + 0x800000) # current, dhcp, down,
}
self.wifi_extra_data_modified = False
self.wifi_extra_data = {
"shelf":1,
"resource":1,
"port": None,
"key_mgmt": None,
"eap": None,
"hessid": None,
"identity": None,
"password": None,
"realm": None,
"domain": None
}
self.reset_port_extra_data = {
"shelf":1,
"resource":1,
"port": None,
"test_duration": 0,
"reset_port_enable": False,
"reset_port_time_min": 0,
"reset_port_time_max": 0,
"reset_port_timer_started": False,
"port_to_reset": 0,
"seconds_till_reset": 0
}
def set_wifi_extra(self, key_mgmt="WPA-EAP",
pairwise="CCMP TKIP",
group="CCMP TKIP",
psk="[BLANK]",
wep_key="[BLANK]", #wep key
ca_cert="[BLANK]",
eap="TTLS",
identity="testuser",
anonymous_identity="[BLANK]",
phase1="NA", # outter auth
phase2="NA", # inner auth
passwd="testpasswd", # eap passphrase
pin="NA",
pac_file="NA",
private_key="NA",
pk_password="NA", # priv key password
hessid="00:00:00:00:00:01",
realm="localhost.localdomain",
client_cert="NA",
imsi="NA",
milenage="NA",
domain="localhost.localdomain",
roaming_consortium="NA",
venue_group="NA",
network_type="NA",
ipaddr_type_avail="NA",
network_auth_type="NA",
anqp_3gpp_cell_net="NA"
):
self.wifi_extra_data_modified = True
self.wifi_extra_data["key_mgmt"] = key_mgmt
self.wifi_extra_data["pairwise"] = pairwise
self.wifi_extra_data["group"] = group
self.wifi_extra_data["psk"] = psk
self.wifi_extra_data["key"] = wep_key
self.wifi_extra_data["ca_cert"] = ca_cert
self.wifi_extra_data["eap"] = eap
self.wifi_extra_data["identity"] = identity
self.wifi_extra_data["anonymous_identity"] = anonymous_identity
self.wifi_extra_data["phase1"] = phase1
self.wifi_extra_data["phase2"] = phase2
self.wifi_extra_data["password"] = passwd
self.wifi_extra_data["pin"] = pin
self.wifi_extra_data["pac_file"] = pac_file
self.wifi_extra_data["private_key"] = private_key
self.wifi_extra_data["pk_passwd"] = pk_password
self.wifi_extra_data["hessid"] = hessid
self.wifi_extra_data["realm"] = realm
self.wifi_extra_data["client_cert"] = client_cert
self.wifi_extra_data["imsi"] = imsi
self.wifi_extra_data["milenage"] = milenage
self.wifi_extra_data["domain"] = domain
self.wifi_extra_data["roaming_consortium"] = roaming_consortium
self.wifi_extra_data["venue_group"] = venue_group
self.wifi_extra_data["network_type"] = network_type
self.wifi_extra_data["ipaddr_type_avail"] = ipaddr_type_avail
self.wifi_extra_data["network_auth_type"] = network_auth_type
self.wifi_extra_data["anqp_3gpp_cell_net"] = anqp_3gpp_cell_net
def set_reset_extra(self, reset_port_enable=False, test_duration=0, reset_port_min_time=0, reset_port_max_time=0,
reset_port_timer_start=False, port_to_reset=0, time_till_reset=0):
self.reset_port_extra_data["reset_port_enable"] = reset_port_enable
self.reset_port_extra_data["test_duration"] = test_duration
self.reset_port_extra_data["reset_port_time_min"] = reset_port_min_time
self.reset_port_extra_data["reset_port_time_max"] = reset_port_max_time
def use_security(self, security_type, ssid=None, passwd=None):
types = {"wep": "wep_enable", "wpa": "wpa_enable", "wpa2": "wpa2_enable", "wpa3": "use-wpa3", "open": "[BLANK]"}
self.add_sta_data["ssid"] = ssid
if security_type in types.keys():
if (ssid is None) or (ssid == ""):
raise ValueError("use_security: %s requires ssid" % security_type)
if (passwd is None) or (passwd == ""):
raise ValueError("use_security: %s requires passphrase or [BLANK]" % security_type)
for name in types.values():
if name in self.desired_add_sta_flags and name in self.desired_add_sta_flags_mask:
self.desired_add_sta_flags.remove(name)
self.desired_add_sta_flags_mask.remove(name)
if security_type != "open":
self.desired_add_sta_flags.append(types[security_type])
#self.set_command_flag("add_sta", types[security_type], 1)
self.desired_add_sta_flags_mask.append(types[security_type])
else:
passwd = "[BLANK]"
self.set_command_param("add_sta", "ssid", ssid)
self.set_command_param("add_sta", "key", passwd)
# unset any other security flag before setting our present flags
if security_type == "wpa3":
self.set_command_param("add_sta", "ieee80211w", 2)
#self.add_sta_data["key"] = passwd
def set_command_param(self, command_name, param_name, param_value):
# we have to check what the param name is
if (command_name is None) or (command_name == ""):
return
if (param_name is None) or (param_name == ""):
return
if command_name not in self.COMMANDS:
raise ValueError("Command name name [%s] not defined in %s" % (command_name, self.COMMANDS))
# return
if command_name == "add_sta":
self.add_sta_data[param_name] = param_value
elif command_name == "set_port":
self.set_port_data[param_name] = param_value
def set_command_flag(self, command_name, param_name, value):
# we have to check what the param name is
if (command_name is None) or (command_name == ""):
return
if (param_name is None) or (param_name == ""):
return
if command_name not in self.COMMANDS:
print("Command name name [%s] not defined in %s" % (command_name, self.COMMANDS))
return
if command_name == "add_sta":
if (param_name not in add_sta.add_sta_flags) and (param_name not in add_sta.add_sta_modes):
print("Parameter name [%s] not defined in add_sta.py" % param_name)
if self.debug:
pprint(add_sta.add_sta_flags)
return
if (value == 1) and (param_name not in self.desired_add_sta_flags):
self.desired_add_sta_flags.append(param_name)
self.desired_add_sta_flags_mask.append(param_name)
elif value == 0:
self.desired_add_sta_flags.remove(param_name)
self.desired_add_sta_flags_mask.append(param_name)
elif command_name == "set_port":
if (param_name not in set_port.set_port_current_flags) and (param_name not in set_port.set_port_cmd_flags) and (param_name not in set_port.set_port_interest_flags):
print("Parameter name [%s] not defined in set_port.py" % param_name)
if self.debug:
pprint(set_port.set_port_cmd_flags)
pprint(set_port.set_port_current_flags)
pprint(set_port.set_port_interest_flags)
return
if (param_name in set_port.set_port_cmd_flags):
if (value == 1) and (param_name not in self.desired_set_port_cmd_flags):
self.desired_set_port_cmd_flags.append(param_name)
elif value == 0:
self.desired_set_port_cmd_flags.remove(param_name)
elif (param_name in set_port.set_port_current_flags):
if (value == 1) and (param_name not in self.desired_set_port_current_flags):
self.desired_set_port_current_flags.append(param_name)
elif value == 0:
self.desired_set_port_current_flags.remove(param_name)
elif (param_name in set_port.set_port_interest_flags):
if (value == 1) and (param_name not in self.desired_set_port_interest_flags):
self.desired_set_port_interest_flags.append(param_name)
elif value == 0:
self.desired_set_port_interest_flags.remove(param_name)
else:
raise ValueError("Unknown param name: "+param_name)
# use this for hinting station name; stations begin with 'sta', the
# stations created with a prefix '0100' indicate value 10100 + n with
# resulting substring(1,) applied; station 900 becomes 'sta1000'
def set_number_template(self, pref):
self.number_template = pref
def add_named_flags(self, desired_list, command_ref):
if desired_list is None:
raise ValueError("addNamedFlags wants a list of desired flag names")
if len(desired_list) < 1:
print("addNamedFlags: empty desired list")
return 0
if (command_ref is None) or (len(command_ref) < 1):
raise ValueError("addNamedFlags wants a maps of flag values")
result = 0
for name in desired_list:
if (name is None) or (name == ""):
continue
if name not in command_ref:
if self.debug:
pprint(command_ref)
raise ValueError("flag %s not in map" % name)
result += command_ref[name]
return result
def admin_up(self):
for sta_name in self.station_names:
self.local_realm.admin_up(sta_name)
def admin_down(self):
for sta_name in self.station_names:
self.local_realm.admin_down(sta_name)
def cleanup(self, desired_stations=None, delay=0.03):
print("Cleaning up stations")
if (desired_stations is None):
desired_stations = self.station_names
if len(desired_stations) < 1:
print("ERROR: StationProfile cleanup, list is empty")
return
del_count = len(desired_stations)
# First, request remove on the list.
for port_eid in desired_stations:
self.local_realm.rm_port(port_eid, check_exists=True)
# And now see if they are gone
LFUtils.wait_until_ports_disappear(base_url=self.lfclient_url, port_list=desired_stations)
# Checks for errors in initialization values and creates specified number of stations using init parameters
def create(self, radio, num_stations=0,
sta_names_=None,
dry_run=False,
up_=None,
debug=False,
suppress_related_commands_=True,
use_radius=False,
hs20_enable=False,
sleep_time=2):
radio_eid = self.local_realm.name_to_eid(radio)
radio_shelf = radio_eid[0]
radio_resource = radio_eid[1]
radio_port = radio_eid[2]
if self.use_ht160:
self.desired_add_sta_flags.append("ht160_enable")
self.desired_add_sta_flags_mask.append("ht160_enable")
self.add_sta_data["mode"] = self.mode
if use_radius:
self.desired_add_sta_flags.append("8021x_radius")
self.desired_add_sta_flags_mask.append("8021x_radius")
if hs20_enable:
self.desired_add_sta_flags.append("hs20_enable")
self.desired_add_sta_flags_mask.append("hs20_enable")
if up_ is not None:
self.up = up_
if (sta_names_ is None) and (num_stations == 0):
raise ValueError("StationProfile.create needs either num_stations= or sta_names_= specified")
if self.up:
if "create_admin_down" in self.desired_add_sta_flags:
del self.desired_add_sta_flags[self.desired_add_sta_flags.index("create_admin_down")]
elif "create_admin_down" not in self.desired_add_sta_flags:
self.desired_add_sta_flags.append("create_admin_down")
# create stations down, do set_port on them, then set stations up
self.add_sta_data["flags"] = self.add_named_flags(self.desired_add_sta_flags, add_sta.add_sta_flags)
self.add_sta_data["flags_mask"] = self.add_named_flags(self.desired_add_sta_flags_mask, add_sta.add_sta_flags)
self.add_sta_data["radio"] = radio_port
self.add_sta_data["resource"] = radio_resource
self.set_port_data["current_flags"] = self.add_named_flags(self.desired_set_port_current_flags,
set_port.set_port_current_flags)
self.set_port_data["interest"] = self.add_named_flags(self.desired_set_port_interest_flags,
set_port.set_port_interest_flags)
# these are unactivated LFRequest objects that we can modify and
# re-use inside a loop, reducing the number of object creations
add_sta_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/add_sta")
set_port_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/set_port")
wifi_extra_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/set_wifi_extra")
my_sta_names = []
if num_stations > 0:
my_sta_names = LFUtils.portNameSeries("sta", 0, num_stations - 1, int("1" + self.number_template))
else:
my_sta_names = sta_names_
if (len(my_sta_names) >= 15) or (suppress_related_commands_ == True):
self.add_sta_data["suppress_preexec_cli"] = "yes"
self.add_sta_data["suppress_preexec_method"] = 1
self.set_port_data["suppress_preexec_cli"] = "yes"
self.set_port_data["suppress_preexec_method"] = 1
num = 0
#pprint(self.station_names)
#exit(1)
for eidn in my_sta_names:
eid = self.local_realm.name_to_eid(eidn)
name = eid[2]
num += 1
self.add_sta_data["shelf"] = radio_shelf
self.add_sta_data["resource"] = radio_resource
self.add_sta_data["radio"] = radio_port
self.add_sta_data["sta_name"] = name # for create station calls
self.set_port_data["port"] = name # for set_port calls.
self.station_names.append("%s.%s.%s" % (radio_shelf, radio_resource, name))
add_sta_r.addPostData(self.add_sta_data)
if debug:
print("- 381 - %s- - - - - - - - - - - - - - - - - - " % name)
pprint(self.add_sta_data)
pprint(self.set_port_data)
pprint(add_sta_r)
print("- ~381 - - - - - - - - - - - - - - - - - - - ")
if dry_run:
print("dry run")
continue
json_response = add_sta_r.jsonPost(debug)
# time.sleep(0.03)
time.sleep(sleep_time)
set_port_r.addPostData(self.set_port_data)
json_response = set_port_r.jsonPost(debug)
time.sleep(0.03)
self.wifi_extra_data["resource"] = radio_resource
self.wifi_extra_data["port"] = name
if self.wifi_extra_data_modified:
wifi_extra_r.addPostData(self.wifi_extra_data)
json_response = wifi_extra_r.jsonPost(debug)
LFUtils.waitUntilPortsAppear(self.lfclient_url, self.station_names)
# and set ports up
if dry_run:
return
if (self.up):
self.admin_up()
self.admin_up()
# for sta_name in self.station_names:
# req = LFUtils.portUpRequest(resource, sta_name, debug_on=False)
# set_port_r.addPostData(req)
# json_response = set_port_r.jsonPost(debug)
# time.sleep(0.03)
print("created %s stations" % num)
#
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