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iwd/autotests/util/wpas.py

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#!/usr/bin/python3
import os
import socket
import shutil
from gi.repository import GLib
from config import ctx
from unittest import SkipTest
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import binascii
from utils import Process
ctrl_count = 0
class Wpas:
io_watch = None
sockets = {}
wpa_supplicant = None
cleanup_paths = []
def _start_wpas(self, config_name=None, p2p=False):
if not shutil.which('wpa_supplicant'):
print('wpa_supplicant not found, skipping test')
raise SkipTest
main_interface = None
for interface in ctx.wpas_interfaces:
if config_name is None or interface.config == config_name:
if main_interface is not None:
raise Exception('More than one wpa_supplicant interface matches given config')
main_interface = interface
if main_interface is None:
raise Exception('No matching wpa_supplicant interface')
ifname = main_interface.name
if p2p:
ifname = 'p2p-dev-' + ifname
self.interface = main_interface
self.ifname = ifname
self.config_path = '/tmp/' + self.interface.config
self.config = self._get_config()
self.socket_path = self.config['ctrl_interface']
cmd = ['wpa_supplicant', '-i', self.interface.name, '-c', self.config_path]
if Process.is_verbose('wpa_supplicant-dbg'):
cmd += ['-d']
self.wpa_supplicant = ctx.start_process(cmd)
self.sockets = {}
self.io_watch = GLib.io_add_watch(self._get_socket(), GLib.IO_IN, self._handle_data_in)
self.p2p_peers = {}
self.p2p_go_neg_requests = {}
self.p2p_clients = {}
self.p2p_group = None
self._rx_data = []
self._ctrl_request('ATTACH')
self.wait_for_event('OK')
def __init__(self, *args, **kwargs):
self._start_wpas(*args, **kwargs)
def _get_config(self):
f = open(self.config_path)
lines = f.readlines()
f.close()
return dict([[v.strip() for v in kv] for kv in [l.split('#', 1)[0].split('=', 1) for l in lines] if len(kv) == 2])
def _check_event(self, event):
if not event and len(self._rx_data) >= 1:
return self._rx_data[0]
for e in self._rx_data:
if event in e:
return e
return False
def wait_for_event(self, event, timeout=10):
self._rx_data = []
return ctx.non_block_wait(self._check_event, timeout, event)
def wait_for_result(self, timeout=10):
self._rx_data = []
return self.wait_for_event(None, timeout=timeout)
def _event_parse(self, line):
# Unescape event parameter values in '', other escaping rules not implemented
key = None
value = ''
count = 0
quoted = False
event = {}
def handle_eow():
nonlocal key, value, count, event
if count == 0:
key = 'event'
elif key is None:
if not value:
return
key = 'arg' + str(count)
event[key] = value
key = None
value = ''
count += 1
for ch in line:
if ch == '\'':
quoted = not quoted
elif quoted:
value += ch
elif ch == '=' and key is None:
key = value
value = ''
elif ch in ' \n':
handle_eow()
else:
value += ch
handle_eow()
return event
def _handle_data_in(self, sock, *args):
newdata = sock.recv(4096)
if len(newdata) == 0:
raise Exception('Wpa_s control socket error')
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._rx_data.append(decoded)
event = self._event_parse(decoded)
if event['event'] == 'P2P-DEVICE-FOUND':
event.pop('event')
event.pop('arg1')
self.p2p_peers[event['p2p_dev_addr']] = event
elif event['event'] == 'P2P-DEVICE-LOST':
del self.p2p_peers[event['p2p_dev_addr']]
elif event['event'] == 'P2P-GO-NEG-REQUEST':
event.pop('event')
event['p2p_dev_addr'] = event.pop('arg1')
self.p2p_go_neg_requests[event['p2p_dev_addr']] = event
elif event['event'] == 'P2P-GO-NEG-SUCCESS':
event.pop('event')
addr = event.pop('peer_dev')
event['success'] = True
event['p2p_dev_addr'] = addr
if addr in self.p2p_go_neg_requests:
self.p2p_go_neg_requests[addr].update(event)
else:
self.p2p_go_neg_requests[addr] = event
elif event['event'] == 'AP-STA-CONNECTED':
event.pop('event')
addr = event.pop('arg1')
self.p2p_clients[addr] = event
elif event['event'] == 'AP-STA-DISCONNECTED':
addr = event.pop('arg1')
del self.p2p_clients[addr]
elif event['event'] == 'P2P-GROUP-STARTED':
event.pop('event')
event['ifname'] = event.pop('arg1')
event['role'] = event.pop('arg2')
self.p2p_group = event
elif event['event'] == 'P2P-GROUP-REMOVED':
self.p2p_group = None
return True
def _ctrl_request(self, command, ifname=None):
if type(command) is str:
command = str.encode(command)
self._get_socket(ifname).send(bytes(command))
def _get_socket(self, ifname=None):
global ctrl_count
if ifname is None:
ifname = self.ifname
if ifname in self.sockets:
return self.sockets[ifname]
local_path = '/tmp/wpas_' + str(os.getpid()) + '_' + str(ctrl_count)
ctrl_count = ctrl_count + 1
remote_path = self.socket_path + '/' + ifname
self.wpa_supplicant.wait_for_socket(remote_path, 2)
sock = socket.socket(socket.AF_UNIX, socket.SOCK_DGRAM)
sock.bind(local_path)
self.cleanup_paths.append(local_path)
sock.connect(remote_path)
self.cleanup_paths.append(remote_path)
self.sockets[ifname] = sock
return sock
# Normal find phase with listen and active scan states
def p2p_find(self):
self._rx_data = []
self._ctrl_request('P2P_SET disc_int 2 3 300')
self.wait_for_event('OK')
self._rx_data = []
self._ctrl_request('P2P_FIND type=social')
self.wait_for_event('OK')
# Like p2p_find but uses only listen states
def p2p_listen(self):
self._rx_data = []
self._ctrl_request('P2P_LISTEN')
self.wait_for_event('OK')
# Stop a p2p_find or p2p_listen
def p2p_stop_find_listen(self):
self._rx_data = []
self._ctrl_request('P2P_STOP_FIND')
self.wait_for_event('OK')
def p2p_connect(self, peer, pin=None, go_intent=None):
self._rx_data = []
self._ctrl_request('P2P_CONNECT ' + peer['p2p_dev_addr'] + ' ' + ('pbc' if pin is None else pin) +
('' if go_intent is None else ' go_intent=' + str(go_intent)))
self.wait_for_event('OK')
def p2p_accept_go_neg_request(self, request, pin=None, go_intent=None):
self._rx_data = []
self._ctrl_request('P2P_CONNECT ' + request['p2p_dev_addr'] + ' ' + ('pbc' if pin is None else pin) +
('' if go_intent is None else ' go_intent=' + str(go_intent)))
self.wait_for_event('OK')
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# Pre-accept the next GO Negotiation Request from this peer to avoid the extra Response + Request frames
def p2p_authorize(self, peer, pin=None, go_intent=None):
self._rx_data = []
self._ctrl_request('P2P_CONNECT ' + peer['p2p_dev_addr'] + ' ' + ('pbc' if pin is None else pin) +
('' if go_intent is None else ' go_intent=' + str(go_intent)) + ' auth')
self.wait_for_event('OK')
def p2p_set(self, key, value, **kwargs):
self._ctrl_request('P2P_SET ' + key + ' ' + value, **kwargs)
def set(self, key, value, **kwargs):
self._ctrl_request('SET ' + key + ' ' + value, **kwargs)
def dpp_enrollee_start(self, uri=None, oper_and_channel=None):
if not oper_and_channel:
oper_and_channel = '81/1'
self._rx_data = []
self._ctrl_request('DPP_BOOTSTRAP_GEN type=qrcode chan=%s' % oper_and_channel)
self._dpp_qr_id = self.wait_for_result()
self._ctrl_request('DPP_BOOTSTRAP_GET_URI %s' % self._dpp_qr_id)
self._dpp_uri = self.wait_for_result()
print("DPP Enrollee QR: %s" % self._dpp_uri)
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if uri:
self._rx_data = []
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self._ctrl_request('DPP_QR_CODE ' + uri)
self._dpp_qr_id = self.wait_for_result()
self._rx_data = []
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self._ctrl_request('DPP_AUTH_INIT peer=%s role=enrollee' % self._dpp_qr_id)
else:
self._ctrl_request('DPP_CHIRP own=%s iter=100' % self._dpp_qr_id)
return self._dpp_uri
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def dpp_configurator_create(self, uri=None):
self._rx_data = []
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self._ctrl_request('DPP_CONFIGURATOR_ADD')
self._dpp_conf_id = self.wait_for_result()
while not self._dpp_conf_id.isnumeric():
self._dpp_conf_id = self.wait_for_result()
if not uri:
print("DPP Configurator ID: %s" % self._dpp_conf_id)
return
self._rx_data = []
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self._ctrl_request('DPP_QR_CODE ' + uri)
self._dpp_qr_id = self.wait_for_result()
while not self._dpp_conf_id.isnumeric():
self._dpp_qr_id = self.wait_for_result()
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print("DPP Configurator ID: %s. DPP QR ID: %s" % (self._dpp_conf_id, self._dpp_qr_id))
def dpp_configurator_start(self, ssid, passphrase, freq=None):
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ssid = binascii.hexlify(ssid.encode()).decode()
passphrase = binascii.hexlify(passphrase.encode()).decode()
cmd = 'DPP_AUTH_INIT peer=%s conf=sta-psk ssid=%s pass=%s ' % (self._dpp_qr_id, ssid, passphrase)
if freq:
cmd += 'neg_freq=%u ' % freq
self._rx_data = []
self._ctrl_request(cmd)
self.wait_for_event('DPP-AUTH-SUCCESS', timeout=30)
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self.wait_for_event('DPP-CONF-SENT')
def dpp_bootstrap_gen(self, type='qrcode', curve=None):
cmd = f'DPP_BOOTSTRAP_GEN type={type}'
if curve:
cmd += f' curve={curve}'
self._rx_data = []
self._ctrl_request(cmd)
self._dpp_id = self.wait_for_result()
while not self._dpp_id.isnumeric():
self._dpp_id = self.wait_for_result()
def dpp_pkex_add(self, code, identifier=None, version=None, initiator=False, role=None):
cmd = f'DPP_PKEX_ADD own={self._dpp_id}'
if identifier:
cmd += f' identifier={identifier}'
if initiator:
cmd += f' init=1'
if version:
cmd += f' ver={version}'
if role:
cmd += f' role={role}'
cmd += f' code={code}'
self._rx_data = []
self._ctrl_request(cmd)
def dpp_pkex_remove(self):
self._rx_data = []
self._ctrl_request("DPP_PKEX_REMOVE *")
def dpp_listen(self, freq):
self._rx_data = []
self._ctrl_request(f'DPP_LISTEN {freq}')
def dpp_stop_listen(self):
self._rx_data = []
self._ctrl_request("DPP_STOP_LISTEN")
def dpp_configurator_remove(self):
self._ctrl_request('DPP_CONFIGURATOR_REMOVE *')
self.wait_for_result()
self._ctrl_request('DPP_BOOTSTRAP_REMOVE *')
self.wait_for_result()
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def disconnect(self):
self._ctrl_request('DISCONNECT')
# Probably needed: remove references to self so that the GC can call __del__ automatically
def clean_up(self):
if self.io_watch is not None:
GLib.source_remove(self.io_watch)
self.io_watch = None
for ifname in self.sockets:
self.sockets[ifname].close()
self.sockets = {}
if self.wpa_supplicant is not None:
ctx.stop_process(self.wpa_supplicant)
self.wpa_supplicant = None
for path in self.cleanup_paths:
if os.path.exists(path):
os.remove(path)
self.cleanup_paths = []
def __del__(self):
self.clean_up()