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iwd/autotests/util/hostapd.py
James Prestwood 31b5275c1f auto-t: hostapd.py: use IO watch for hostapd events 
With how fast UML is hostapd events were being sent out prior to
ever calling wait_for_event. Instead set an IO watch on the control
socket and cache all events as they come. Then, when wait_for_event
is called, it can reference this list. If the event is found any
older events are purged from the list.

The AP-ENABLED event needed a special case because hostapd gets
started before the IO watch can be registered. To fix this an
enabled property was added which queries the state directly. This
is checked first, and if not enabled wait_for_event continues normally.
2022-03-31 18:12:59 -05:00

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#!/usr/bin/python3
import os, os.path
import re
import socket
import select
import time
from gi.repository import GLib
from weakref import WeakValueDictionary
from config import ctx
chan_freq_map = [
None,
2412,
2417,
2422,
2427,
2432,
2437,
2442,
2447,
2452,
2457,
2462,
2467,
2472,
2484
]
ctrl_count = 0
mainloop = GLib.MainLoop()
class HostapdCLI(object):
_instances = WeakValueDictionary()
def __new__(cls, config=None, *args, **kwargs):
hapd = ctx.hostapd[config]
if not config:
config = hapd.config
if not config in cls._instances.keys():
obj = object.__new__(cls, *args, **kwargs)
obj._initialized = False
cls._instances[config] = obj
return cls._instances[config]
def __init__(self, config=None, *args, **kwargs):
global ctrl_count
if self._initialized:
return
self._initialized = True
self.ctrl_sock = None
if not ctx.hostapd:
raise Exception("No hostapd instances are configured")
if not config and len(ctx.hostapd.instances) > 1:
raise Exception('config must be provided if more than one hostapd instance exists')
hapd = ctx.hostapd[config]
self.interface = hapd.intf
self.config = hapd.config
if not self.interface:
raise Exception('config %s not found' % config)
self.ifname = self.interface.name
self.socket_path = os.path.dirname(self.interface.ctrl_interface)
self.cmdline = ['hostapd_cli', '-p', self.socket_path, '-i', self.ifname]
self.local_ctrl = '/tmp/hostapd_' + str(os.getpid()) + '_' + \
str(ctrl_count)
self.ctrl_sock = socket.socket(socket.AF_UNIX, socket.SOCK_DGRAM)
self.ctrl_sock.bind(self.local_ctrl)
self.ctrl_sock.connect(self.socket_path + '/' + self.ifname)
self.events = []
self.io_watch = GLib.io_add_watch(self.ctrl_sock, GLib.IO_IN, self._handle_data_in)
if 'OK' not in self._ctrl_request('ATTACH'):
raise Exception('ATTACH failed')
ctrl_count = ctrl_count + 1
def _handle_data_in(self, sock, *args):
newdata = sock.recv(4096)
decoded = newdata.decode('utf-8')
if len(decoded) >= 3 and decoded[0] == '<' and decoded[2] == '>':
decoded = decoded[3:]
while len(decoded) and decoded[-1] == '\n':
decoded = decoded[:-1]
self.events.insert(0, decoded)
return True
def _poll_event(self, event):
# Look through the list (most recent is first) until the even is found.
# Once found consume this event and any older ones as to not
# accidentally trigger a false positive later on.
for idx, e in enumerate(self.events):
if event in e:
self.events = self.events[:idx]
return e
return False
def wait_for_event(self, event, timeout=10):
if event == 'AP-ENABLED':
if self.enabled:
return 'AP-ENABLED'
return ctx.non_block_wait(self._poll_event, timeout, event,
exception=TimeoutError("waiting for event"))
def _data_available(self):
[r, w, e] = select.select([self.ctrl_sock], [], [])
if r:
return True
return False
def _ctrl_request(self, command, timeout=10):
if type(command) is str:
command = str.encode(command)
self.ctrl_sock.send(bytes(command))
ctx.non_block_wait(self._data_available, timeout,
exception=TimeoutError("waiting for control response"))
return self.ctrl_sock.recv(4096).decode('utf-8')
def __del__(self):
if self.ctrl_sock:
self.ctrl_sock.close()
try:
os.remove(self.local_ctrl)
except:
pass
def set_value(self, key, value):
cmd = self.cmdline + ['set', key, value]
ctx.start_process(cmd).wait()
def wps_push_button(self):
ctx.start_process(self.cmdline + ['wps_pbc']).wait()
def wps_pin(self, pin):
cmd = self.cmdline + ['wps_pin', 'any', pin]
ctx.start_process(cmd).wait()
def deauthenticate(self, client_address):
cmd = self.cmdline + ['deauthenticate', client_address]
ctx.start_process(cmd).wait()
def eapol_reauth(self, client_address):
cmd = 'IFNAME=' + self.ifname + ' EAPOL_REAUTH ' + client_address
self.ctrl_sock.sendall(cmd.encode('utf-8'))
def reload(self):
# Seemingly all three commands needed for the instance to notice
# interface's address change
ctx.start_process(self.cmdline + ['reload']).wait()
ctx.start_process(self.cmdline + ['disable']).wait()
ctx.start_process(self.cmdline + ['enable']).wait()
def disable(self):
ctx.start_process(self.cmdline + ['disable']).wait()
def list_sta(self):
proc = ctx.start_process(self.cmdline + ['list_sta'])
proc.wait()
if not proc.out:
return []
return [line for line in proc.out.split('\n') if line]
def set_neighbor(self, addr, ssid, nr):
cmd = self.cmdline + ['set_neighbor', addr, 'ssid="%s"' % ssid, 'nr=%s' % nr]
ctx.start_process(cmd).wait()
def remove_neighbor(self, addr):
cmd = self.cmdline + ['remove_neighbor', addr]
ctx.start_process(cmd).wait()
def send_bss_transition(self, device, nr_list):
# Send a BSS transition to a station (device). nr_list should be an
# array of tuples containing the BSS address and neighbor report.
# Parsing the neighbor report is a bit ugly but it makes it more
# consistent with the set_neighbor() API, i.e. the same neighbor report
# string could be used in both API's.
pref = 1
cmd = self.cmdline + ['bss_tm_req', device]
for i in nr_list:
addr = i[0]
nr = i[1]
bss_info=str(int(nr[0:8], 16))
op_class=str(int(nr[8:10], 16))
chan_num=nr[10:12]
phy_num=nr[14:16]
cmd += ['pref=%s' % str(pref), 'neighbor=%s,%s,%s,%s,%s' % \
(addr, bss_info, op_class, chan_num, phy_num)]
pref += 1
proc = ctx.start_process(cmd)
proc.wait()
if 'OK' not in proc.out:
raise Exception('BSS_TM_REQ failed, is hostapd built with CONFIG_WNM_AP=y?')
def req_beacon(self, addr, request):
'''
Send a RRM Beacon request
'''
cmd = self.cmdline + ['req_beacon', addr, request]
ctx.start_process(cmd).wait()
def rekey(self, address=None):
if address:
cmd = 'REKEY_PTK %s' % address
self.ctrl_sock.sendall(cmd.encode('utf-8'))
self.wait_for_event('EAPOL-4WAY-HS-COMPLETED')
return
cmd = 'REKEY_GTK'
self.ctrl_sock.sendall(cmd.encode('utf-8'))
def resend_m3(self, address):
cmd = 'RESEND_M3 %s' % address
self.ctrl_sock.sendall(cmd.encode('utf-8'))
def chan_switch(self, channel):
if channel > len(chan_freq_map):
raise Exception("Only 2.4GHz channels supported for chan_switch")
cmd = self.cmdline + ['chan_switch', '50', str(chan_freq_map[channel])]
ctx.start_process(cmd).wait()
self.wait_for_event('AP-CSA-FINISHED')
def _get_status(self):
ret = {}
cmd = self.cmdline + ['status']
proc = ctx.start_process(cmd)
proc.wait()
status = proc.out.strip().split('\n')
for kv in status:
k, v = kv.split('=')
ret[k] = v
return ret
@property
def bssid(self):
return self._get_status()['bssid[0]']
@property
def frequency(self):
return int(self._get_status()['freq'])
@property
def enabled(self):
return self._get_status()['state'] == 'ENABLED'
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