3
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mirror of https://git.kernel.org/pub/scm/network/wireless/iwd.git synced 2024-12-29 13:12:50 +01:00
iwd/autotests/util/iwd.py

1195 lines
40 KiB
Python
Executable File

#!/usr/bin/python3
from gi.repository import GLib
import dbus
import dbus.service
import dbus.mainloop.glib
import sys
import os
import threading
import time
import collections
import datetime
import weakref
from abc import ABCMeta, abstractmethod
from enum import Enum
from config import ctx
IWD_STORAGE_DIR = '/tmp/iwd'
IWD_CONFIG_DIR = '/tmp'
DBUS_OBJECT_MANAGER = 'org.freedesktop.DBus.ObjectManager'
DBUS_PROPERTIES = 'org.freedesktop.DBus.Properties'
IWD_SERVICE = 'net.connman.iwd'
IWD_WIPHY_INTERFACE = 'net.connman.iwd.Adapter'
IWD_AGENT_INTERFACE = 'net.connman.iwd.Agent'
IWD_AGENT_MANAGER_INTERFACE = 'net.connman.iwd.AgentManager'
IWD_DEVICE_INTERFACE = 'net.connman.iwd.Device'
IWD_KNOWN_NETWORK_INTERFACE = 'net.connman.iwd.KnownNetwork'
IWD_NETWORK_INTERFACE = 'net.connman.iwd.Network'
IWD_WSC_INTERFACE = 'net.connman.iwd.SimpleConfiguration'
IWD_SIGNAL_AGENT_INTERFACE = 'net.connman.iwd.SignalLevelAgent'
IWD_AP_INTERFACE = 'net.connman.iwd.AccessPoint'
IWD_ADHOC_INTERFACE = 'net.connman.iwd.AdHoc'
IWD_STATION_INTERFACE = 'net.connman.iwd.Station'
IWD_P2P_INTERFACE = 'net.connman.iwd.p2p.Device'
IWD_P2P_PEER_INTERFACE = 'net.connman.iwd.p2p.Peer'
IWD_P2P_SERVICE_MANAGER_INTERFACE = 'net.connman.iwd.p2p.ServiceManager'
IWD_P2P_WFD_INTERFACE = 'net.connman.iwd.p2p.Display'
IWD_AGENT_MANAGER_PATH = '/net/connman/iwd'
IWD_TOP_LEVEL_PATH = '/'
class UnknownDBusEx(Exception): pass
class InProgressEx(dbus.DBusException): pass
class FailedEx(dbus.DBusException): pass
class AbortedEx(dbus.DBusException): pass
class NotAvailableEx(dbus.DBusException): pass
class InvalidArgumentsEx(dbus.DBusException): pass
class InvalidFormatEx(dbus.DBusException): pass
class AlreadyExistsEx(dbus.DBusException): pass
class NotFoundEx(dbus.DBusException): pass
class NotSupportedEx(dbus.DBusException): pass
class NoAgentEx(dbus.DBusException): pass
class NotConnectedEx(dbus.DBusException): pass
class NotConfiguredEx(dbus.DBusException): pass
class NotImplementedEx(dbus.DBusException): pass
class ServiceSetOverlapEx(dbus.DBusException): pass
class AlreadyProvisionedEx(dbus.DBusException): pass
class NotHiddenEx(dbus.DBusException): pass
class CanceledEx(dbus.DBusException):
_dbus_error_name = 'net.connman.iwd.Error.Canceled'
_dbus_ex_to_py = {
'Canceled' : CanceledEx,
'InProgress' : InProgressEx,
'Failed' : FailedEx,
'Aborted' : AbortedEx,
'NotAvailable' : NotAvailableEx,
'InvalidArguments' : InvalidArgumentsEx,
'InvalidFormat' : InvalidFormatEx,
'AlreadyExists' : AlreadyExistsEx,
'NotFound' : NotFoundEx,
'NotSupported' : NotSupportedEx,
'NoAgent' : NoAgentEx,
'NotConnected' : NotConnectedEx,
'NotConfigured' : NotConfiguredEx,
'NotImplemented' : NotImplementedEx,
'ServiceSetOverlap' : ServiceSetOverlapEx,
'AlreadyProvisioned' : AlreadyProvisionedEx,
'NotHidden' : NotHiddenEx,
}
def _convert_dbus_ex(dbus_ex):
ex_name = dbus_ex.get_dbus_name()
ex_short_name = ex_name[ex_name.rfind(".") + 1:]
if ex_short_name in _dbus_ex_to_py:
return _dbus_ex_to_py[ex_short_name](dbus_ex)
else:
return UnknownDBusEx(ex_name + ': ' + dbus_ex.get_dbus_message())
class AsyncOpAbstract(object):
__metaclass__ = ABCMeta
_is_completed = False
_exception = None
def _success(self):
self._is_completed = True
def _failure(self, ex):
self._is_completed = True
self._exception = _convert_dbus_ex(ex)
def _wait_for_async_op(self):
context = ctx.mainloop.get_context()
while not self._is_completed:
context.iteration(may_block=True)
self._is_completed = False
if self._exception is not None:
tmp = self._exception
self._exception = None
raise tmp
class IWDDBusAbstract(AsyncOpAbstract):
__metaclass__ = ABCMeta
def __init__(self, object_path = None, properties = None, service=IWD_SERVICE, namespace=ctx):
self._bus = namespace.get_bus()
self._namespace = namespace
self._object_path = object_path
proxy = self._bus.get_object(service, self._object_path)
self._iface = dbus.Interface(proxy, self._iface_name)
self._prop_proxy = dbus.Interface(proxy, 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,
DBUS_PROPERTIES,
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
class DeviceState(Enum):
'''Conection state of a device'''
connected = 'connected'
disconnected = 'disconnected'
connecting = 'connecting'
disconnecting = 'disconnecting'
roaming = 'roaming'
def __str__(self):
return self.value
@classmethod
def from_str(cls, string):
return getattr(cls, string, None)
class NetworkType(Enum):
'''Network security type'''
open = 'open'
psk = 'psk'
eap = '8021x'
hotspot = 'hotspot'
def __str__(self):
return str(self.value)
@classmethod
def from_string(cls, string):
type = None
for attr in dir(cls):
if (str(getattr(cls, attr)) == string):
type = getattr(cls, attr)
break
return type
class SignalAgent(dbus.service.Object):
def __init__(self, passphrase = None):
self._path = '/test/agent/' + str(int(round(time.time() * 1000)))
dbus.service.Object.__init__(self, ctx.get_bus(), self._path)
@property
def path(self):
return self._path
@dbus.service.method(IWD_SIGNAL_AGENT_INTERFACE,
in_signature='', out_signature='')
def Release(self):
print("SignalAgent released")
@dbus.service.method(IWD_SIGNAL_AGENT_INTERFACE,
in_signature='oy', out_signature='')
def Changed(self, path, level):
self.handle_new_level(str(path), int(level))
@abstractmethod
def handle_new_level(self, path, level):
pass
class AdHocDevice(IWDDBusAbstract):
'''
Class represents an AdHoc device object: net.connman.iwd.AdHoc
'''
_iface_name = IWD_ADHOC_INTERFACE
@property
def started(self):
return self._properties['Started']
@property
def connected_peers(self):
return self._properties['ConnectedPeers']
class Device(IWDDBusAbstract):
'''
Class represents a network device object: net.connman.iwd.Device
with its properties and methods
'''
_iface_name = IWD_DEVICE_INTERFACE
def __init__(self, *args, **kwargs):
self._wps_manager_if = None
self._station_if = None
self._station_props = None
IWDDBusAbstract.__init__(self, *args, **kwargs)
@property
def _wps_manager(self):
if self._wps_manager_if is None:
_wps_manager_if =\
dbus.Interface(self._bus.get_object(IWD_SERVICE,
self.device_path),
IWD_WSC_INTERFACE)
return _wps_manager_if
@property
def _station(self):
if self._station_if is None:
self._station_if = dbus.Interface(self._bus.get_object(IWD_SERVICE,
self.device_path),
IWD_STATION_INTERFACE)
return self._station_if
def _station_properties(self):
if self._station_props is not None:
return self._station_props
if self._properties['Mode'] != 'station':
self._prop_proxy.Set(IWD_DEVICE_INTERFACE, 'Mode', 'station')
self._station_prop_if = \
dbus.Interface(self._bus.get_object(IWD_SERVICE,
self.device_path),
DBUS_PROPERTIES)
self._station_props = self._station_prop_if.GetAll(IWD_STATION_INTERFACE)
self._station_prop_if.connect_to_signal("PropertiesChanged",
self.__station_property_changed_handler,
DBUS_PROPERTIES, path_keyword="path")
return self._station_props
def __station_property_changed_handler(self, interface, changed,
invalidated, path):
if interface == IWD_STATION_INTERFACE and path == self._object_path:
for name, value in changed.items():
self._station_props[name] = value
@property
def device_path(self):
'''
Device's dbus path.
@rtype: string
'''
return self._object_path
@property
def name(self):
'''
Device's interface name.
@rtype: string
'''
return self._properties['Name']
@property
def address(self):
'''
Interface's hardware address in the XX:XX:XX:XX:XX:XX format.
@rtype: string
'''
return self._properties['Address']
@property
def state(self):
'''
Reflects the general network connection state.
@rtype: object (State)
'''
props = self._station_properties()
return DeviceState.from_str(props['State'])
@property
def connected_network(self):
'''
net.connman.iwd.Network object representing the
network the device is currently connected to or to
which a connection is in progress.
@rtype: object (Network)
'''
props = self._station_properties()
return props.get('ConnectedNetwork')
@property
def powered(self):
'''
True if the interface is UP. If false, the device's radio is
powered down and no other actions can be performed on the device.
@rtype: boolean
'''
return bool(self._properties['Powered'])
@property
def scanning(self):
'''
Reflects whether the device is currently scanning
for networks. net.connman.iwd.Network objects are
updated when this property goes from true to false.
@rtype: boolean
'''
props = self._station_properties()
return bool(props['Scanning'])
def scan(self):
'''Schedule a network scan.
Possible exception: BusyEx
FailedEx
'''
self._iface.Scan(dbus_interface=IWD_STATION_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def disconnect(self):
'''Disconnect from the network
Possible exception: BusyEx
FailedEx
NotConnectedEx
'''
self._iface.Disconnect(dbus_interface=IWD_STATION_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def get_ordered_networks(self, scan_if_needed = False):
'''Return the list of networks found in the most recent
scan, sorted by their user interface importance
score as calculated by iwd. If the device is
currently connected to a network, that network is
always first on the list, followed by any known
networks that have been used at least once before,
followed by any other known networks and any other
detected networks as the last group. Within these
groups the maximum relative signal-strength is the
main sorting factor.
'''
ordered_networks = []
for bus_obj in self._station.GetOrderedNetworks():
ordered_network = OrderedNetwork(bus_obj, self._bus, self._namespace)
ordered_networks.append(ordered_network)
if len(ordered_networks) > 0:
return ordered_networks
elif not scan_if_needed:
return None
self.scan()
condition = 'obj.scanning'
IWD._wait_for_object_condition(self, condition)
condition = 'not obj.scanning'
IWD._wait_for_object_condition(self, condition)
for bus_obj in self._station.GetOrderedNetworks():
ordered_network = OrderedNetwork(bus_obj, self._bus, self._namespace)
ordered_networks.append(ordered_network)
if len(ordered_networks) > 0:
return ordered_networks
return None
def get_ordered_network(self, network, scan_if_needed = False):
'''Returns a single network from ordered network call, or None if the
network wasn't found. If the network is not found an exception is
raised, this removes the need to extra asserts in autotests.
'''
ordered_networks = self.get_ordered_networks(scan_if_needed)
if not ordered_networks:
raise Exception('Network %s not found' % network)
for n in ordered_networks:
if n.name == network:
return n
raise Exception('Network %s not found' % network)
def wps_push_button(self):
self._wps_manager.PushButton(dbus_interface=IWD_WSC_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def wps_generate_pin(self):
return self._wps_manager.GeneratePin()
def wps_start_pin(self, pin):
self._wps_manager.StartPin(pin, reply_handler=self._success,
error_handler=self._failure)
def wps_cancel(self):
self._wps_manager.Cancel(dbus_interface=IWD_WSC_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def register_signal_agent(self, signal_agent, levels):
self._station.RegisterSignalLevelAgent(signal_agent.path,
dbus.Array(levels, 'n'),
dbus_interface=IWD_STATION_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def unregister_signal_agent(self, signal_agent):
self._station.UnregisterSignalLevelAgent(signal_agent.path,
dbus_interface=IWD_STATION_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def start_ap(self, ssid, psk=None):
try:
self._prop_proxy.Set(IWD_DEVICE_INTERFACE, 'Mode', 'ap')
except Exception as e:
raise _convert_dbus_ex(e)
self._ap_iface = dbus.Interface(self._bus.get_object(IWD_SERVICE,
self.device_path),
IWD_AP_INTERFACE)
if psk:
self._ap_iface.Start(ssid, psk, reply_handler=self._success,
error_handler=self._failure)
else:
self._ap_iface.StartProfile(ssid, reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def stop_ap(self):
self._prop_proxy.Set(IWD_DEVICE_INTERFACE, 'Mode', 'station')
def connect_hidden_network(self, name):
'''Connect to a hidden network
Possible exception: BusyEx
FailedEx
InvalidArgumentsEx
NotConfiguredEx
NotConnectedEx
NotFoundEx
ServiceSetOverlapEx
'''
self._iface.ConnectHiddenNetwork(name,
dbus_interface=IWD_STATION_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
def connect_hidden_network_async(self, name, reply_handler, error_handler):
'''Connect to a hidden network
Possible exception: BusyEx
FailedEx
InvalidArgumentsEx
NotConfiguredEx
NotConnectedEx
NotFoundEx
ServiceSetOverlapEx
'''
self._iface.ConnectHiddenNetwork(name,
dbus_interface=IWD_STATION_INTERFACE,
reply_handler=reply_handler,
error_handler=error_handler)
def start_adhoc(self, ssid, psk=None):
self._prop_proxy.Set(IWD_DEVICE_INTERFACE, 'Mode', 'ad-hoc')
self._adhoc_iface = dbus.Interface(self._bus.get_object(IWD_SERVICE,
self.device_path),
IWD_ADHOC_INTERFACE)
if not psk:
self._adhoc_iface.StartOpen(ssid, reply_handler=self._success,
error_handler=self._failure)
else:
self._adhoc_iface.Start(ssid, psk, reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
return AdHocDevice(self.device_path)
def stop_adhoc(self):
self._prop_proxy.Set(IWD_DEVICE_INTERFACE, 'Mode', 'station')
def __str__(self, prefix = ''):
return prefix + 'Device: ' + self.device_path + '\n'\
+ prefix + '\tName:\t\t' + self.name + '\n'\
+ prefix + '\tAddress:\t' + self.address + '\n'\
+ prefix + '\tState:\t\t' + str(self.state) + '\n'\
+ prefix + '\tPowered:\t' + str(self.powered) + '\n'\
+ prefix + '\tConnected net:\t' + str(self.connected_network) +\
'\n'
class Network(IWDDBusAbstract):
'''Class represents a network object: net.connman.iwd.Network'''
_iface_name = IWD_NETWORK_INTERFACE
@property
def name(self):
'''
Network SSID.
@rtype: string
'''
return self._properties['Name']
@property
def connected(self):
'''
Reflects whether the device is connected to this network.
@rtype: boolean
'''
return bool(self._properties['Connected'])
def connect(self, wait=True):
'''
Connect to the network. Request the device implied by the object
path to connect to specified network.
Possible exception: AbortedEx
BusyEx
FailedEx
NoAgentEx
NotSupportedEx
TimeoutEx
@rtype: void
'''
self._iface.Connect(dbus_interface=self._iface_name,
reply_handler=self._success,
error_handler=self._failure)
if wait:
self._wait_for_async_op()
def __str__(self, prefix = ''):
return prefix + 'Network:\n' \
+ prefix + '\tName:\t' + self.name + '\n' \
+ prefix + '\tConnected:\t' + str(self.connected)
class KnownNetwork(IWDDBusAbstract):
'''Class represents a known network object: net.connman.iwd.KnownNetwork'''
_iface_name = IWD_KNOWN_NETWORK_INTERFACE
def forget(self):
'''
Removes information saved by IWD about this network
causing it to be treated as if IWD had never connected
to it before.
'''
self._iface.Forget(dbus_interface=self._iface_name,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
@property
def name(self):
'''Contains the Name (SSID) of the network.'''
return str(self._properties['Name'])
@property
def type(self):
'''Contains the type of the network.'''
return NetworkType(self._properties['Type'])
@property
def last_connected_time(self):
'''
Contains the last time this network has been connected to.
If the network is known, but has never been successfully
connected to, this attribute is set to None.
@rtype: datetime
'''
if 'LastConnectedTime' not in self._properties:
return None
val = self._properties['LastConnectedTime']
return datetime.datetime.strptime(val, "%Y-%m-%dT%H:%M:%SZ")
def __str__(self, prefix = ''):
return prefix + 'Known Network:\n' \
+ prefix + '\tName:\t' + self.name + '\n' \
+ prefix + '\tType:\t' + str(self.type) + '\n' \
+ prefix + '\tLast connected:\t' + str(self.last_connected_time)
class OrderedNetwork(object):
'''Represents a network found in the scan'''
def __init__(self, o_n_tuple, bus, namespace=ctx):
self._bus = bus
self._network_object = Network(o_n_tuple[0], namespace=namespace)
self._network_proxy = dbus.Interface(self._bus.get_object(IWD_SERVICE,
o_n_tuple[0]),
DBUS_PROPERTIES)
self._properties = self._network_proxy.GetAll(IWD_NETWORK_INTERFACE)
self._name = self._properties['Name']
self._signal_strength = o_n_tuple[1]
self._type = NetworkType.from_string(str(self._properties['Type']))
@property
def network_object(self):
'''
net.connman.iwd.Network object representing the network.
@rtype: Network
'''
return self._network_object
@property
def name(self):
'''
Device's interface name.
@rtype: string
'''
return self._name
@property
def signal_strength(self):
'''
Network's maximum signal strength expressed in 100 * dBm.
The value is the range of 0 (strongest signal) to
-10000 (weakest signal)
@rtype: number
'''
return self._signal_strength
@property
def type(self):
'''
Contains the type of the network.
@rtype: NetworkType
'''
return self._type
def __str__(self):
return 'Ordered Network:\n'\
'\tName:\t\t' + self._name + '\n'\
'\tNetwork Type:\t' + str(self._type) + '\n'\
'\tSignal Strength:'\
+ ('None' if self.signal_strength is None else\
str(self.signal_strength)) + '\n'\
'\tObject: \n' + self.network_object.__str__('\t\t')
agent_count = 0
class PSKAgent(dbus.service.Object):
def __init__(self, passphrases=[], users=[], namespace=ctx):
global agent_count
if type(passphrases) != list:
passphrases = [passphrases]
self.passphrases = passphrases
if type(users) != list:
users = [users]
self.users = users
self._path = '/test/agent/%s' % agent_count
agent_count += 1
dbus.service.Object.__init__(self, namespace.get_bus(), self._path)
@property
def path(self):
return self._path
@dbus.service.method(IWD_AGENT_INTERFACE, in_signature='', out_signature='')
def Release(self):
print("Agent released")
@dbus.service.method(IWD_AGENT_INTERFACE, in_signature='s',
out_signature='')
def Cancel(self, reason):
print("Cancel: " + reason)
@dbus.service.method(IWD_AGENT_INTERFACE, in_signature='o',
out_signature='s')
def RequestPassphrase(self, path):
print('Requested PSK for ' + path)
if not self.passphrases:
raise CanceledEx("canceled")
return self.passphrases.pop(0)
@dbus.service.method(IWD_AGENT_INTERFACE, in_signature='o',
out_signature='s')
def RequestPrivateKeyPassphrase(self, path):
print('Requested private-key passphrase for ' + path)
if not self.passphrases:
raise CanceledEx("canceled")
return self.passphrases.pop(0)
@dbus.service.method(IWD_AGENT_INTERFACE, in_signature='o',
out_signature='ss')
def RequestUserNameAndPassword(self, path):
print('Requested the user name and password for ' + path)
if not self.users:
raise CanceledEx("canceled")
return self.users.pop(0)
@dbus.service.method(IWD_AGENT_INTERFACE, in_signature='os',
out_signature='s')
def RequestUserPassword(self, path, req_user):
print('Requested the password for ' + path + ' for user ' + req_user)
if not self.users:
raise CanceledEx("canceled")
user, passwd = self.users.pop(0)
if user != req_user:
raise CanceledEx("canceled")
return passwd
class P2PDevice(IWDDBusAbstract):
_iface_name = IWD_P2P_INTERFACE
def __init__(self, *args, **kwargs):
self._discovery_request = False
self._peer_dict = {}
IWDDBusAbstract.__init__(self, *args, **kwargs)
@property
def name(self):
return str(self._properties['Name'])
@name.setter
def name(self, name):
self._prop_proxy.Set(self._iface_name, 'Name', name)
@property
def enabled(self):
return bool(self._properties['Enabled'])
@enabled.setter
def enabled(self, enabled):
self._prop_proxy.Set(self._iface_name, 'Enabled', enabled)
@property
def discovery_request(self):
return self._discovery_request
@discovery_request.setter
def discovery_request(self, req):
if self._discovery_request == bool(req):
return
if bool(req):
self._iface.RequestDiscovery()
else:
self._iface.ReleaseDiscovery()
self._discovery_request = bool(req)
def get_peers(self):
old_dict = self._peer_dict
self._peer_dict = {}
for path, rssi in self._iface.GetPeers():
self._peer_dict[path] = old_dict[path] if path in old_dict else P2PPeer(path, namespace=self._namespace)
self._peer_dict[path].rssi = rssi
return self._peer_dict
class P2PPeer(IWDDBusAbstract):
_iface_name = IWD_P2P_PEER_INTERFACE
@property
def name(self):
return str(self._properties['Name'])
@property
def category(self):
return str(self._properties['DeviceCategory'])
@property
def subcategory(self):
return str(self._properties['DeviceSubcategory'])
@property
def connected(self):
return bool(self._properties['Connected'])
@property
def connected_interface(self):
return str(self._properties['ConnectedInterface'])
@property
def connected_ip(self):
return str(self._properties['ConnectedIP'])
def connect(self, wait=True, pin=None):
if pin is None:
self._iface.PushButton(dbus_interface=IWD_WSC_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
else:
self._iface.StartPin(pin,
dbus_interface=IWD_WSC_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
if wait:
self._wait_for_async_op()
return (self.connected_interface, self.connected_ip)
def disconnect(self):
self._iface.Disconnect()
class DeviceList(collections.Mapping):
def __init__(self, iwd):
self._dict = {}
self._p2p_dict = {}
self._namespace = iwd.namespace
iwd._object_manager.connect_to_signal("InterfacesAdded",
self._interfaces_added_handler)
iwd._object_manager.connect_to_signal("InterfacesRemoved",
self._interfaces_removed_handler)
objects = iwd._object_manager.GetManagedObjects()
for path in objects:
for interface in objects[path]:
if interface == IWD_DEVICE_INTERFACE:
self._dict[path] = Device(path, objects[path][interface],
namespace=self._namespace)
elif interface == IWD_P2P_INTERFACE:
self._p2p_dict[path] = P2PDevice(path, objects[path][interface],
namespace=self._namespace)
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):
if IWD_DEVICE_INTERFACE in interfaces:
self._dict[path] = Device(path, interfaces[IWD_DEVICE_INTERFACE],
namespace=self._namespace)
elif IWD_P2P_INTERFACE in interfaces:
self._p2p_dict[path] = P2PDevice(path, interfaces[IWD_P2P_INTERFACE],
namespace=self._namespace)
def _interfaces_removed_handler(self, path, interfaces):
if IWD_DEVICE_INTERFACE in interfaces:
del self._dict[path]
elif IWD_P2P_INTERFACE in interfaces:
del self._p2p_dict[path]
@property
def p2p_dict(self):
return self._p2p_dict
class IWD(AsyncOpAbstract):
'''
Start an IWD instance. By default IWD should already be running, but
some tests do require starting IWD using this constructor (by passing
start_iwd_daemon=True)
'''
_object_manager_if = None
_agent_manager_if = None
_iwd_proc = None
_devices = None
_default_instance = None
psk_agent = None
def __init__(self, start_iwd_daemon = False, iwd_config_dir = '/tmp',
iwd_storage_dir = '/tmp/iwd', namespace=ctx):
self.namespace = namespace
self._bus = namespace.get_bus()
if start_iwd_daemon:
if self.namespace.is_process_running('iwd'):
raise Exception("IWD requested to start but is already running")
self._iwd_proc = self.namespace.start_iwd(iwd_config_dir,
iwd_storage_dir)
tries = 0
while not self._bus.name_has_owner(IWD_SERVICE):
if not ctx.args.gdb:
if tries > 200:
if start_iwd_daemon:
self.namespace.stop_process(self._iwd_proc)
self._iwd_proc = None
raise TimeoutError('IWD has failed to start')
tries += 1
time.sleep(0.1)
self._devices = DeviceList(self)
# Weak to make sure the test's reference to @self is the only counted
# reference so that __del__ gets called when it's released. This is only
# done for the root namespace in order to allow testutil to function
# correctly in non-namespace tests.
if self.namespace.name == "root":
IWD._default_instance = weakref.ref(self)
def __del__(self):
if self.psk_agent:
self.unregister_psk_agent(self.psk_agent)
self._object_manager_if = None
self._agent_manager_if = None
self._known_networks = None
self._devices = None
if self._iwd_proc is not None:
self.namespace.stop_process(self._iwd_proc)
self._iwd_proc = None
self.namespace = None
@property
def _object_manager(self):
if self._object_manager_if is None:
self._object_manager_if = \
dbus.Interface(self._bus.get_object(IWD_SERVICE,
IWD_TOP_LEVEL_PATH),
DBUS_OBJECT_MANAGER)
return self._object_manager_if
@property
def _agent_manager(self):
if self._agent_manager_if is None:
self._agent_manager_if =\
dbus.Interface(self._bus.get_object(IWD_SERVICE,
IWD_AGENT_MANAGER_PATH),
IWD_AGENT_MANAGER_INTERFACE)
return self._agent_manager_if
@staticmethod
def _wait_for_object_condition(obj, condition_str, max_wait = 50):
class TimeoutData:
_wait_timed_out = False
data = TimeoutData()
def wait_timeout_cb(data):
data._wait_timed_out = True
return False
try:
timeout = GLib.timeout_add_seconds(max_wait, wait_timeout_cb, data)
context = ctx.mainloop.get_context()
while not eval(condition_str):
context.iteration(may_block=True)
if data._wait_timed_out and ctx.args.gdb == None:
raise TimeoutError('[' + condition_str + ']'\
' condition was not met in '\
+ str(max_wait) + ' sec')
finally:
if not data._wait_timed_out:
GLib.source_remove(timeout)
def wait_for_object_condition(self, *args, **kwargs):
self._wait_for_object_condition(*args, **kwargs)
def wait_for_object_change(self, obj, from_str, to_str, max_wait = 50):
'''
Expects condition 'from_str' to evaluate true while waiting for 'to_str'. If
at any point during the wait 'from_str' evaluates false, an exception is
raised.
This allows an object to be checked for a state transition without any
intermediate state changes.
'''
self._wait_timed_out = False
def wait_timeout_cb():
self._wait_timed_out = True
return False
# Does initial condition pass?
if not eval(from_str):
raise Exception("initial condition [%s] not met" % from_str)
try:
timeout = GLib.timeout_add_seconds(max_wait, wait_timeout_cb)
context = ctx.mainloop.get_context()
while True:
context.iteration(may_block=True)
# If neither the initial or expected condition evaluate the
# object must be in another unexpected state.
if not eval(from_str) and not eval(to_str):
raise Exception('unexpected condition between [%s] and [%s]' %
(from_str, to_str))
# Initial condition does not evaluate but expected does, pass
if not eval(from_str) and eval(to_str):
break
if self._wait_timed_out and ctx.args.gdb == None:
raise TimeoutError('[' + to_str + ']'\
' condition was not met in '\
+ str(max_wait) + ' sec')
finally:
if not self._wait_timed_out:
GLib.source_remove(timeout)
def wait(self, time):
self._wait_timed_out = False
def wait_timeout_cb():
self._wait_timed_out = True
return False
try:
timeout = GLib.timeout_add(int(time * 1000), wait_timeout_cb)
context = ctx.mainloop.get_context()
while not self._wait_timed_out:
context.iteration(may_block=True)
finally:
if not self._wait_timed_out:
GLib.source_remove(timeout)
@staticmethod
def clear_storage(storage_dir=IWD_STORAGE_DIR):
os.system('rm -rf ' + storage_dir + '/*')
os.system('rm -rf ' + storage_dir + '/hotspot/*')
os.system('rm -rf ' + storage_dir + '/ap/*')
@staticmethod
def create_in_storage(file_name, file_content):
fo = open(IWD_STORAGE_DIR + '/' + file_name, 'w')
fo.write(file_content)
fo.close()
@staticmethod
def copy_to_storage(source, storage_dir=IWD_STORAGE_DIR):
import shutil
assert not os.path.isabs(source)
shutil.copy(source, storage_dir)
@staticmethod
def copy_to_hotspot(source):
if not os.path.exists(IWD_STORAGE_DIR + "/hotspot"):
os.mkdir(IWD_STORAGE_DIR + "/hotspot")
IWD.copy_to_storage(source, IWD_STORAGE_DIR + "/hotspot")
@staticmethod
def copy_to_ap(source):
if not os.path.exists(IWD_STORAGE_DIR + "/ap"):
os.mkdir(IWD_STORAGE_DIR + "/ap")
IWD.copy_to_storage(source, IWD_STORAGE_DIR + '/ap/')
@staticmethod
def remove_from_storage(file_name):
os.system('rm -rf ' + IWD_STORAGE_DIR + '/\'' + file_name + '\'')
def list_devices(self, wait_to_appear = 0, max_wait = 50, p2p = False):
if not wait_to_appear:
return list(self._devices.values() if not p2p else self._devices.p2p_dict.values())
self._wait_timed_out = False
def wait_timeout_cb():
self._wait_timed_out = True
return False
try:
timeout = GLib.timeout_add_seconds(max_wait, wait_timeout_cb)
context = ctx.mainloop.get_context()
while len(self._devices) < wait_to_appear:
context.iteration(may_block=True)
if self._wait_timed_out:
raise TimeoutError('IWD has no associated devices')
finally:
if not self._wait_timed_out:
GLib.source_remove(timeout)
return list(self._devices.values() if not p2p else self._devices.p2p_dict.values())[:wait_to_appear]
def list_p2p_devices(self, *args, **kwargs):
return self.list_devices(*args, **kwargs, p2p=True)
def list_known_networks(self):
'''Returns the list of KnownNetwork objects.'''
objects = self._object_manager.GetManagedObjects()
known_network_list = []
for path in objects:
for interface in objects[path]:
if interface == IWD_KNOWN_NETWORK_INTERFACE:
known_network_list.append(
KnownNetwork(path, objects[path][interface]))
return known_network_list
def register_psk_agent(self, psk_agent):
self._agent_manager.RegisterAgent(
psk_agent.path,
dbus_interface=IWD_AGENT_MANAGER_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
self.psk_agent = psk_agent
def unregister_psk_agent(self, psk_agent):
self._agent_manager.UnregisterAgent(
psk_agent.path,
dbus_interface=IWD_AGENT_MANAGER_INTERFACE,
reply_handler=self._success,
error_handler=self._failure)
self._wait_for_async_op()
self.psk_agent = None
@staticmethod
def get_instance():
return IWD._default_instance()