hostapd/tests/remote/monitor.py
Janusz Dziedzic c203897a88 tests: remote: Allow passing of parameters with monitor interface
This is mainly for standalone monitor in case we know and would like to
setup specific monitor configuration.

-m monitor:<chan>,<bw>, <cf1>, <cf2>:...

For example:
-m monitor:1,40,3,0
-m e4300:1,40,3,0:11,40,9,0

This also supports monitor with multiple interfaces (one pcap).

Signed-off-by: Janusz Dziedzic <janusz.dziedzic@gmail.com>
2020-10-09 11:21:05 +03:00

193 lines
5.8 KiB
Python

# Monitor support
# Copyright (c) 2016, Tieto Corporation
#
# This software may be distributed under the terms of the BSD license.
# See README for more details.
import time
from remotehost import Host
import config
import rutils
import re
import traceback
import logging
logger = logging.getLogger()
import hostapd
# standalone monitor with multi iface support
def create(devices, setup_params, refs, duts, monitors):
mons = []
mhosts = []
hosts = duts + refs
# choose only standalone monitors
for monitor in monitors:
if monitor not in hosts and monitor != "all":
mons.append(monitor)
for mon in mons:
word = mon.split(":")
dev = config.get_device(devices, word[0])
if dev is None:
continue
host = Host(host=dev['hostname'],
ifname=dev['ifname'],
port=dev['port'],
name=dev['name'])
for iface_param in word[1:]:
params = iface_param.split(",")
if len(params) > 3:
monitor_param = { "freq" : rutils.c2f(params[0]),
"bw" : params[1],
"center_freq1" : rutils.c2f(params[2]),
"center_freq2" : rutils.c2f(params[3]) }
host.monitor_params.append(monitor_param)
try:
host.execute(["iw", "reg", "set", setup_params['country']])
rutils.setup_hw_host(host, setup_params, True)
except:
pass
mhosts.append(host)
return mhosts
def destroy(devices, hosts):
for host in hosts:
stop(host)
for monitor in host.monitors:
host.execute(["ifconfig", monitor, "down"])
host.monitor_params = []
def setup(host, monitor_params=None):
if host is None:
return
if monitor_params == None:
monitor_params = host.monitor_params
ifaces = re.split('; | |, ', host.ifname)
count = 0
for param in monitor_params:
try:
iface = ifaces[count]
except:
logger.debug(traceback.format_exc())
break
host.execute(["ifconfig", iface, " down"])
host.execute(["rfkill", "unblock", "wifi"])
host.execute(["iw", iface, "set type monitor"])
host.execute(["ifconfig", iface, "up"])
status, buf = host.execute(["iw", iface, "set", "freq", param['freq'],
param['bw'], param['center_freq1'],
param['center_freq2']])
if status != 0:
logger.debug("Could not setup monitor interface: " + buf)
continue
host.monitors.append(iface)
count = count + 1
def run(host, setup_params):
monitor_res = []
log_monitor = ""
if host is None:
return None
if len(host.monitors) == 0:
return None
try:
log_dir = setup_params['log_dir']
tc_name = setup_params['tc_name']
except:
return None
tshark = "tshark"
for monitor in host.monitors:
host.execute(["ifconfig", monitor, "up"])
tshark = tshark + " -i " + monitor
log_monitor = log_monitor + "_" + monitor
log = log_dir + tc_name + "_" + host.name + log_monitor + ".pcap"
host.add_log(log)
thread = host.execute_run([tshark, "-w", log], monitor_res)
host.thread = thread
def stop(host):
if host is None:
return
if len(host.monitors) == 0:
return
if host.thread is None:
return
host.execute_stop(host.thread)
host.thread = None
# Add monitor to existing interface
def add(host, monitors):
if host is None:
return
for monitor in monitors:
if monitor != "all" and monitor != host.name:
continue
mon = "mon_" + host.ifname
status, buf = host.execute(["iw", host.ifname, "interface", "add", mon,
"type", "monitor"])
if status == 0:
host.monitors.append(mon)
host.execute(["ifconfig", mon, "up"])
else:
logger.debug("Could not add monitor for " + host.name)
def remove(host):
stop(host)
for monitor in host.monitors:
host.execute(["iw", monitor, "del"])
host.monitors.remove(monitor)
# get monitor params from hostapd/wpa_supplicant
def get_monitor_params(wpa, is_p2p=False):
if is_p2p:
get_status_field_f = wpa.get_group_status_field
else:
get_status_field_f = wpa.get_status_field
freq = get_status_field_f("freq")
bw = "20"
center_freq1 = ""
center_freq2 = ""
vht_oper_chwidth = get_status_field_f("vht_oper_chwidth")
secondary_channel = get_status_field_f("secondary_channel")
vht_oper_centr_freq_seg0_idx = get_status_field_f("vht_oper_centr_freq_seg0_idx")
vht_oper_centr_freq_seg1_idx = get_status_field_f("vht_oper_centr_freq_seg1_idx")
if vht_oper_chwidth == "0" or vht_oper_chwidth is None:
if secondary_channel == "1":
bw = "40"
center_freq1 = str(int(freq) + 10)
elif secondary_channel == "-1":
center_freq1 = str(int(freq) - 10)
else:
pass
elif vht_oper_chwidth == "1":
bw = "80"
center_freq1 = str(int(vht_oper_centr_freq_seg0_idx) * 5 + 5000)
elif vht_oper_chwidth == "2":
bw = "160"
center_freq1 = str(int(vht_oper_centr_freq_seg0_idx) * 5 + 5000)
elif vht_oper_chwidth == "3":
bw = "80+80"
center_freq1 = str(int(vht_oper_centr_freq_seg0_idx) * 5 + 5000)
center_freq2 = str(int(vht_oper_centr_freq_seg1_idx) * 5 + 5000)
else:
pass
monitor_params = {"freq" : freq,
"bw" : bw,
"center_freq1" : center_freq1,
"center_freq2" : center_freq2}
return monitor_params