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iwd/autotests/util/hwsim.py

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#!/usr/bin/python3
import dbus
import sys
from collections.abc import Mapping
from weakref import WeakValueDictionary
from abc import ABCMeta, abstractmethod
from enum import Enum
from scapy.all import *
from scapy.contrib.wpa_eapol import WPA_key
import iwd
from config import ctx
HWSIM_SERVICE = 'net.connman.hwsim'
HWSIM_RULE_MANAGER_INTERFACE = 'net.connman.hwsim.RuleManager'
HWSIM_RULE_INTERFACE = 'net.connman.hwsim.Rule'
HWSIM_RADIO_MANAGER_INTERFACE = 'net.connman.hwsim.RadioManager'
HWSIM_RADIO_INTERFACE = 'net.connman.hwsim.Radio'
HWSIM_INTERFACE_INTERFACE = 'net.connman.hwsim.Interface'
HWSIM_AGENT_MANAGER_PATH = '/'
class HwsimDBusAbstract(iwd.AsyncOpAbstract):
__metaclass__ = ABCMeta
def __init__(self, object_path, properties = None, namespace=ctx):
self._bus = namespace.get_bus()
self._object_path = object_path
proxy = self._bus.get_object(HWSIM_SERVICE, self._object_path)
self._iface = dbus.Interface(proxy, self._iface_name)
self._prop_proxy = dbus.Interface(proxy, iwd.DBUS_PROPERTIES)
if properties is None:
self._properties = self._prop_proxy.GetAll(self._iface_name)
else:
self._properties = properties
self._prop_proxy.connect_to_signal("PropertiesChanged",
self._property_changed_handler, path_keyword="path")
def _property_changed_handler(self, interface, changed, invalidated, path):
if interface == self._iface_name and path == self._object_path:
for name, value in changed.items():
self._properties[name] = value
@abstractmethod
def __str__(self):
pass
@property
def path(self):
return self._object_path
class Rule(HwsimDBusAbstract):
_iface_name = HWSIM_RULE_INTERFACE
@property
def source(self):
return self._properties['Source']
@source.setter
def source(self, value):
self._prop_proxy.Set(self._iface_name, 'Source', value, reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
@property
def destination(self):
return self._properties['Destination']
@destination.setter
def destination(self, value):
self._prop_proxy.Set(self._iface_name, 'Destination', value, reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
@property
def bidirectional(self):
return bool(self._properties['Bidirectional'])
@bidirectional.setter
def bidirectional(self, value):
self._prop_proxy.Set(self._iface_name, 'Bidirectional',
dbus.Boolean(value), reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
@property
def frequency(self):
return int(self._properties['Frequency'])
@frequency.setter
def frequency(self, value):
self._prop_proxy.Set(self._iface_name, 'Frequency',
dbus.UInt32(value), reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
@property
def priority(self):
return int(self._properties['Priority'])
@priority.setter
def priority(self, value):
self._prop_proxy.Set(self._iface_name, 'Priority',
dbus.Int16(value), reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
@property
def signal(self):
return int(self._properties['SignalStrength'])
@signal.setter
def signal(self, value):
self._prop_proxy.Set(self._iface_name, 'SignalStrength',
dbus.Int16(value), reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
@property
def drop(self):
return bool(self._properties['Drop'])
@drop.setter
def drop(self, value):
self._prop_proxy.Set(self._iface_name, 'Drop', dbus.Boolean(value),
reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
@property
def delay(self):
return int(self._properties['Delay'])
@delay.setter
def delay(self, value):
self._prop_proxy.Set(self._iface_name, 'Delay', dbus.UInt32(value),
reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
@property
def prefix(self):
return self._properties['Prefix']
@prefix.setter
def prefix(self, value):
self._prop_proxy.Set(self._iface_name, 'Prefix', dbus.ByteArray.fromhex(value),
reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
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@property
def enabled(self):
return self._properties['Enabled']
@enabled.setter
def enabled(self, value):
self._prop_proxy.Set(self._iface_name, 'Enabled', value,
reply_handler=self._success, error_handler=self._failure)
self._wait_for_async_op()
@property
def match_times(self):
return self._properties['MatchTimes']
@match_times.setter
def match_times(self, value):
self._prop_proxy.Set(self._iface_name, 'MatchTimes', dbus.UInt16(value))
@property
def drop_ack(self):
return self._properties(['DropAck'])
@drop_ack.setter
def drop_ack(self, value):
self._prop_proxy.Set(self._iface_name, 'DropAck', value)
@property
def match(self):
return self._properties['MatchBytes']
@match.setter
def match(self, value):
self._prop_proxy.Set(self._iface_name, 'MatchBytes', dbus.ByteArray.fromhex(value))
@property
def match_offset(self):
return self._properties(['MatchBytesOffset'])
@match_offset.setter
def match_offset(self, value):
self._prop_proxy.Set(self._iface_name, 'MatchBytesOffset', dbus.UInt16(value))
def remove(self):
self._iface.Remove(reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def __del__(self):
self.remove()
def __str__(self, prefix = ''):
return prefix + 'Rule: ' + self.path + '\n' + \
prefix + '\tSource:\t\t' + self.source + '\n' + \
prefix + '\tDestination:\t' + self.destination + '\n' + \
prefix + '\tBidirectional:\t' + \
str(self.bidirectional) + '\n' + \
prefix + '\tPriority:\t' + str(self.priority) + '\n' +\
prefix + '\tFrequency:\t' + str(self.frequency) + '\n' + \
prefix + '\tApply rssi:\t' + str(self.signal) + '\n' + \
prefix + '\tApply drop:\t' + str(self.drop) + '\n' + \
prefix + '\tPrefix:\t' + str([hex(b) for b in self.prefix]) + '\n' + \
prefix + '\tDelay:\t' + str(self.delay) + '\n' + \
prefix + '\tEnabled:\t' + str(self.enabled) + '\n'
class RuleSet(Mapping):
def __init__(self, hwsim, objects):
self._dict = {}
self._rule_manager = hwsim.rule_manager
hwsim.object_manager.connect_to_signal("InterfacesAdded",
self._interfaces_added_handler, HWSIM_RULE_INTERFACE)
hwsim.object_manager.connect_to_signal("InterfacesRemoved",
self._interfaces_removed_handler, HWSIM_RULE_INTERFACE)
for path in objects:
for interface in objects[path]:
if interface == HWSIM_RULE_INTERFACE:
self._dict[path] = Rule(path, objects[path][interface])
def __getitem__(self, key):
return self._dict.__getitem__(key)
def __iter__(self):
return self._dict.__iter__()
def __len__(self):
return self._dict.__len__()
def __delitem__(self, key):
self._dict.pop(key).remove()
def _interfaces_added_handler(self, path, interfaces):
self._dict[path] = Rule(interfaces[HWSIM_RULE_INTERFACE])
def _interfaces_removed_handler(self, path, interfaces):
del _dict[path]
def create(self):
path = self._rule_manager.AddRule()
obj = Rule(path)
self._dict[path] = obj
return obj
def remove_all(self):
for rule in self._dict.values():
rule.remove()
class Radio(HwsimDBusAbstract):
_iface_name = HWSIM_RADIO_INTERFACE
@property
def name(self):
return self._properties['Name']
@property
def addresses(self):
return [str(addr) for addr in self._properties['Addresses']]
def remove(self):
self._iface.Destroy(reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def __str__(self, prefix = ''):
return prefix + 'Radio: ' + self.path + '\n' + \
prefix + '\tName:\t\t' + self.name + '\n' + \
prefix + '\tAddresses:\t' + repr(self.destination) + '\n'
class RadioList(Mapping):
def __init__(self, hwsim, objects):
self._dict = {}
self._radio_manager = hwsim.radio_manager
hwsim.object_manager.connect_to_signal("InterfacesAdded",
self._interfaces_added_handler, HWSIM_RADIO_INTERFACE)
hwsim.object_manager.connect_to_signal("InterfacesRemoved",
self._interfaces_removed_handler, HWSIM_RADIO_INTERFACE)
for path in objects:
for interface in objects[path]:
if interface == HWSIM_RADIO_INTERFACE:
self._dict[path] = Radio(path, objects[path][interface])
def __getitem__(self, key):
return self._dict.__getitem__(key)
def __iter__(self):
return self._dict.__iter__()
def __len__(self):
return self._dict.__len__()
def __delitem__(self, key):
self._dict.pop(key).remove()
def values(self):
return self._dict.values()
def _interfaces_added_handler(self, path, interfaces):
self._dict[path] = Radio(interfaces[HWSIM_RADIO_INTERFACE])
def _interfaces_removed_handler(self, path, interfaces):
del _dict[path]
def create(self, name, p2p_device=False, iftype_disable=None,
cipher_disable=None, wait=True):
args = dbus.Dictionary({
'Name': name,
'P2P': p2p_device,
'NoVirtualInterface': True,
}, signature='sv')
if iftype_disable:
args['InterfaceTypeDisable'] = iftype_disable
if cipher_disable:
args['CipherTypeDisable'] = cipher_disable
if not wait:
self._radio_manager.CreateRadio(args, reply_handler=self._success,
error_handler=self._failure)
return None
path = self._radio_manager.CreateRadio(args)
obj = Radio(path)
self._dict[path] = obj
return obj
def _success(self, bla):
pass
def _failure(self, ex):
pass
class Hwsim(iwd.AsyncOpAbstract):
_instances = WeakValueDictionary()
def __new__(cls, namespace=ctx):
key = id(namespace)
if key not in cls._instances.keys():
obj = object.__new__(cls)
obj._initialized = False
cls._instances[key] = obj
return cls._instances[key]
def __init__(self, namespace=ctx):
if self._initialized:
return
self._initialized = True
self._bus = namespace.get_bus()
self._rule_manager_if = dbus.Interface(
self._bus.get_object(HWSIM_SERVICE, '/'),
HWSIM_RULE_MANAGER_INTERFACE)
self._radio_manager_if = dbus.Interface(
self._bus.get_object(HWSIM_SERVICE, '/'),
HWSIM_RADIO_MANAGER_INTERFACE)
self._object_manager_if = dbus.Interface(
self._bus.get_object(HWSIM_SERVICE, '/'),
iwd.DBUS_OBJECT_MANAGER)
objects = self.object_manager.GetManagedObjects()
self._rules = RuleSet(self, objects)
self._radios = RadioList(self, objects)
@property
def rules(self):
return self._rules
@property
def rule_manager(self):
return self._rule_manager_if
@property
def radios(self):
return self._radios
@property
def radio_manager(self):
return self._radio_manager_if
@property
def object_manager(self):
return self._object_manager_if
def spoof_disassociate(self, radio, freq, station):
'''
Send a spoofed disassociate frame to a station
'''
frame = Dot11()/Dot11Disas(reason=7)
frame[Dot11].addr1 = station
frame[Dot11].addr2 = radio.addresses[0]
frame[Dot11].addr3 = radio.addresses[0]
self.spoof_frame(radio, freq, station, raw(frame))
def spoof_deauthenticate(self, radio, freq, station):
'''
Send a spoofed deauthenticate frame to a station
'''
frame = Dot11()/Dot11Deauth(reason=6)
frame[Dot11].addr1 = station
frame[Dot11].addr2 = radio.addresses[0]
frame[Dot11].addr3 = radio.addresses[0]
self.spoof_frame(radio, freq, station, raw(frame))
def spoof_eap_fail(self, radio, freq, station):
'''
Send a spoofed EAP-Failure frame to a station
'''
frame = Dot11(type="Data", subtype=0)
frame[Dot11].addr1 = station
frame[Dot11].addr2 = radio.addresses[0]
frame[Dot11].addr3 = radio.addresses[0]
frame /= LLC()/SNAP()/EAPOL( version="802.1X-2001" )
frame /= EAP( code="Failure" )
self.spoof_frame(radio, freq, station, raw(frame))
def spoof_invalid_ptk_1_of_4(self, radio, freq, station):
'''
Send a spoofed PTK 1/4 frame to a station
'''
frame = Dot11(type="Data", subtype=0)
frame[Dot11].addr1 = station
frame[Dot11].addr2 = radio.addresses[0]
frame[Dot11].addr3 = radio.addresses[0]
# NOTE: Expected key_info is 0x008a, with the install flag
# this becomes 0x00ca.
eapol = WPA_key( descriptor_type = 2,
key_info = 0x00ca, # Includes an invalid install flag!
replay_counter = struct.pack(">Q", 100))
frame /= LLC()/SNAP()/EAPOL(version="802.1X-2004", type="EAPOL-Key")
frame /= eapol
self.spoof_frame(radio, freq, station, raw(frame))
def spoof_frame(self, radio, freq, station, frame):
'''
Send a spoofed arbitrary frame to a station
'''
radio_path = None
objects = self.object_manager.GetManagedObjects()
for path in objects:
obj = objects[path]
for interface in obj:
if interface == HWSIM_INTERFACE_INTERFACE:
if obj[interface]['Address'] == radio.addresses[0] or \
obj[interface]['Address'] == radio.addresses[1]:
radio_path = path
break
if not radio_path:
raise Exception("Could not find radio %s" % radio.path)
iface = dbus.Interface(self._bus.get_object(HWSIM_SERVICE, radio_path),
HWSIM_INTERFACE_INTERFACE)
iface.SendFrame(dbus.ByteArray.fromhex(station.replace(':', '')),
freq, -30, frame)
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def get_radio(self, name):
for path in self.radios:
radio = self.radios[path]
if radio.name == name:
return radio
return None