#!/usr/bin/env python from __future__ import print_function import sys import gi from gi.repository import GLib try: gi.require_version('NM', '1.0') from gi.repository import NM except Exception as e: print("Cannot load gi.NM: %s" % (str(e))) sys.exit(77) import os import dbus import dbus.service import dbus.mainloop.glib import random import uuid import hashlib import socket import collections ############################################################################### _DEFAULT_ARG = object() ############################################################################### class Global: pass gl = None ############################################################################### class TestError(AssertionError): def __init__(self, message = 'Unspecified error', errors = None): AssertionError.__init__(self, message) self.errors = errors ############################################################################### class Util: PY3 = (sys.version_info[0] == 3) @staticmethod def g_source_remove(source_id): if source_id is not None: GLib.source_remove(source_id) @staticmethod def addr_family_check(family, allow_af_unspec = False): if family == socket.AF_INET: return if family == socket.AF_INET6: return if allow_af_unspec and family == socket.AF_UNSPEC: return raise TestError('invalid address family %s' % (family)) @staticmethod def ip_addr_pton(addr, family=None): if addr is None: return (None, None) if family is not None and family is not socket.AF_UNSPEC: Util.addr_family_check(family) a = socket.inet_pton(family, addr) else: a = None family = None try: a = socket.inet_pton(socket.AF_INET, addr) family = socket.AF_INET except: a = socket.inet_pton(socket.AF_INET6, addr) family = socket.AF_INET6 if Util.PY3: a = tuple([int(c) for c in a]) else: a = tuple([ord(c) for c in a]) return (a, family) @staticmethod def ip_addr_ntop(addr, family = None): if Util.PY3: a = bytes(addr) else: a = ''.join([chr(c) for c in addr]) if len(a) == 4: f = socket.AF_INET elif len(a) == 16: f = socket.AF_INET6 else: raise TestError("Invalid binary IP address '%s'" % (repr(addr))) if family is not None and f != family: raise TestError("Unexpected address family. Expected %s but ip address was %s" % (family, repr(addr))) return socket.inet_ntop(f, a) @staticmethod def ip_addr_norm(addr, family = None): a, family = Util.ip_addr_pton(addr, family) return (Util.ip_addr_ntop(a, family), family) @staticmethod def ip4_addr_be32(addr): # return the IPv4 address as 32 bit integer in network byte order # (big endian). a, family = Util.ip_addr_pton(addr, socket.AF_INET) n = 0 for i in range(4): n = (n << 8) + a[i] return socket.htonl(n) @staticmethod def ip6_addr_ay(addr): return Util.ip_addr_pton(addr, socket.AF_INET6)[0] @staticmethod def ip_net_parse(net, family = None): parts = net.split('/') if len(parts) != 2: raise TestError("Invalid IP network '%s' has not '/' for the prefix length" % (net)) prefix = int(parts[1]) addr, family = Util.ip_addr_norm(parts[0], family) if family == socket.AF_INET: if prefix < 0 or prefix > 32: raise TestError("Invalid prefix length for IPv4 address '%s'" % (net)) else: if prefix < 0 or prefix > 128: raise TestError("Invalid prefix length for IPv4 address '%s'" % (net)) return (addr, prefix, family) class RandomSeed(): def __init__(self, seed): self.cnt = 0 self.seed = str(seed) def _next(self): c = self.cnt self.cnt += 1 return self.seed + '-' + str(c) @staticmethod def wrap(seed): if seed is None: return None if isinstance(seed, Util.RandomSeed): return seed return Util.RandomSeed(seed) @staticmethod def get(seed, extra_seed = None): if seed is None: return None if isinstance(seed, Util.RandomSeed): seed = seed._next() else: seed = str(seed) if extra_seed is None: try: extra_seed = Util.RandomSeed._extra_seed except: extra_seed = os.environ.get('NM_TEST_NETWORKMANAGER_SERVICE_SEED', '') Util.RandomSeed._extra_seed = extra_seed return extra_seed + seed @staticmethod def random_stream(seed, length = None): seed = Util.RandomSeed.wrap(seed) # generates a stream of integers, in the range [0..255] if seed is None: # without a seed, we generate new random numbers. while length is None or length > 0: yield random.randint(0, 255) if length is not None: length -= 1 return v = None while length is None or length > 0: if not v: s = Util.RandomSeed.get(seed) s = s.encode('utf8') v = hashlib.sha256(s).hexdigest() yield int(v[0:2], 16) v = v[2:] if length is not None: length -= 1 @staticmethod def random_int(seed, v_start = _DEFAULT_ARG, v_end = _DEFAULT_ARG): # - if neither start not end is give, return a number in the range # u32 range [0, 0xFFFFFFFF] # - if only start is given (the first argument), interpret it as # the range of the interval. That is, return random number in # range [0, start-1] # - if end and start is given, return a random number with this # range (inclusive!): [start, end] if v_end is _DEFAULT_ARG: # if only one edge is provided (no v_end), then the range # is [0, v_start[. That is, random_int(seed, 5), returns # values from 0 to 4. if v_start is _DEFAULT_ARG: # by default, return a 32u integer. v_end = 0x100000000 else: v_end = v_start v_start = 0 else: if v_start is _DEFAULT_ARG: raise TestError("Cannot specify end without start") # if a full range is provided, v_end is included. # random_int(seed, 0, 4) returns values from 0 to 4. v_end += 1 n = 0 span = v_end - v_start assert span > 0 for r in Util.random_stream(seed): n = n * 256 + r if n > span: break return v_start + (n % span) @staticmethod def random_bool(seed): return Util.random_int(seed, 0, 1) == 1 @staticmethod def random_subset(seed, all_set): all_set = list(all_set) result = [] seed = Util.RandomSeed.wrap(seed) for i in list(range(Util.random_int(Util.RandomSeed.get(seed), len(all_set) + 1))): idx = Util.random_int(Util.RandomSeed.get(seed), len(all_set)) result.append(all_set[idx]) del all_set[idx] return result @staticmethod def random_mac(seed): return '%02X:%02X:%02X:%02X:%02X:%02X' % tuple(Util.random_stream(seed, 6)) @staticmethod def random_ip(seed, net = None, family = None): if net is not None: mask, prefix, family = Util.ip_net_parse(net, family) a_mask, unused = Util.ip_addr_pton(mask, family) else: prefix = None Util.addr_family_check(family) if family == socket.AF_INET: l = 4 else: l = 16 a = tuple(Util.random_stream(seed, l)) if prefix is not None: a2 = [] for i in range(l): if prefix == 0: c = a[i] elif prefix >= 8: c = a_mask[i] prefix -= 8 else: c = 0xFF & (0xFF << (8 - prefix)) c = (a[i] & ~c) | (a_mask[i] & c) prefix = 0 a2.append(c) a = tuple(a2) return (Util.ip_addr_ntop(a, family), family) @staticmethod def eprint(*args, **kwargs): print(*args, file=sys.stderr, **kwargs) @staticmethod def variant_from_dbus(val): if isinstance(val, (dbus.String, str)): return GLib.Variant('s', str(val)) if isinstance(val, dbus.UInt32): return GLib.Variant('u', int(val)) if isinstance(val, dbus.UInt64): return GLib.Variant('t', int(val)) if isinstance(val, dbus.Boolean): return GLib.Variant('b', bool(val)) if isinstance(val, dbus.Byte): return GLib.Variant('y', int(val)) if isinstance(val, dbus.Array): try: if val.signature == 's': return GLib.Variant('as', [Util.variant_from_dbus(x) for x in val]) if val.signature == 'b': return GLib.Variant('ab', [Util.variant_from_dbus(x) for x in val]) if val.signature == 'y': return GLib.Variant('ay', [int(x) for x in val]) if val.signature == 'u': return GLib.Variant('au', [int(x) for x in val]) if val.signature == 'ay': return GLib.Variant('aay', [Util.variant_from_dbus(x) for x in val]) if val.signature == 'au': return GLib.Variant('aau', [Util.variant_from_dbus(x) for x in val]) if val.signature == 'a{sv}': return GLib.Variant('aa{sv}', [collections.OrderedDict([(str(k), Util.variant_from_dbus(v)) for k, v in addr.items()]) for addr in val]) if val.signature == '(ayuay)': return GLib.Variant('a(ayuay)', [Util.variant_from_dbus(x) for x in val]) if val.signature == '(ayuayu)': return GLib.Variant('a(ayuayu)', [Util.variant_from_dbus(x) for x in val]) except Exception as e: raise Exception("Cannot convert array element to type '%s': %s" % (val.signature, e.message)) if isinstance(val, dbus.Dictionary): if val.signature == 'ss': return GLib.Variant('a{ss}', collections.OrderedDict([(str(k), str(v)) for k, v in val.items()])) if val.signature == 'sv': return GLib.Variant('a{sv}', collections.OrderedDict([(str(k), Util.variant_from_dbus(v)) for k, v in val.items()])) if val.signature == 'sa{sv}': c = collections.OrderedDict([ (str(key1), collections.OrderedDict([(str(key2), Util.variant_from_dbus(arr2)) for key2, arr2 in arr1.items()]) ) for key1, arr1 in val.items() ]) return GLib.Variant('a{sa{sv}}', c) raise Exception("Unsupported type for value '%s'" % (repr(val))) ############################################################################### IFACE_DBUS = 'org.freedesktop.DBus' IFACE_OBJECT_MANAGER = 'org.freedesktop.DBus.ObjectManager' IFACE_CONNECTION = 'org.freedesktop.NetworkManager.Settings.Connection' IFACE_DEVICE = 'org.freedesktop.NetworkManager.Device' IFACE_WIFI = 'org.freedesktop.NetworkManager.Device.Wireless' IFACE_WIMAX = 'org.freedesktop.NetworkManager.Device.WiMax' IFACE_TEST = 'org.freedesktop.NetworkManager.LibnmGlibTest' IFACE_NM = 'org.freedesktop.NetworkManager' IFACE_SETTINGS = 'org.freedesktop.NetworkManager.Settings' IFACE_AGENT_MANAGER = 'org.freedesktop.NetworkManager.AgentManager' IFACE_AGENT = 'org.freedesktop.NetworkManager.SecretAgent' IFACE_WIRED = 'org.freedesktop.NetworkManager.Device.Wired' IFACE_VLAN = 'org.freedesktop.NetworkManager.Device.Vlan' IFACE_WIFI_AP = 'org.freedesktop.NetworkManager.AccessPoint' IFACE_WIMAX_NSP = 'org.freedesktop.NetworkManager.WiMax.Nsp' IFACE_ACTIVE_CONNECTION = 'org.freedesktop.NetworkManager.Connection.Active' IFACE_VPN_CONNECTION = 'org.freedesktop.NetworkManager.VPN.Connection' IFACE_DNS_MANAGER = 'org.freedesktop.NetworkManager.DnsManager' IFACE_IP4_CONFIG = 'org.freedesktop.NetworkManager.IP4Config' IFACE_IP6_CONFIG = 'org.freedesktop.NetworkManager.IP6Config' IFACE_DHCP4_CONFIG = 'org.freedesktop.NetworkManager.DHCP4Config' IFACE_DHCP6_CONFIG = 'org.freedesktop.NetworkManager.DHCP6Config' ############################################################################### class BusErr: class UnknownInterfaceException(dbus.DBusException): _dbus_error_name = IFACE_DBUS + '.UnknownInterface' class UnknownPropertyException(dbus.DBusException): _dbus_error_name = IFACE_DBUS + '.UnknownProperty' class InvalidPropertyException(dbus.DBusException): _dbus_error_name = IFACE_CONNECTION + '.InvalidProperty' class MissingPropertyException(dbus.DBusException): _dbus_error_name = IFACE_CONNECTION + '.MissingProperty' class InvalidSettingException(dbus.DBusException): _dbus_error_name = IFACE_CONNECTION + '.InvalidSetting' class MissingSettingException(dbus.DBusException): _dbus_error_name = IFACE_CONNECTION + '.MissingSetting' class NotSoftwareException(dbus.DBusException): _dbus_error_name = IFACE_DEVICE + '.NotSoftware' class ApNotFoundException(dbus.DBusException): _dbus_error_name = IFACE_WIFI + '.AccessPointNotFound' class NspNotFoundException(dbus.DBusException): _dbus_error_name = IFACE_WIMAX + '.NspNotFound' class PermissionDeniedException(dbus.DBusException): _dbus_error_name = IFACE_NM + '.PermissionDenied' class UnknownDeviceException(dbus.DBusException): _dbus_error_name = IFACE_NM + '.UnknownDevice' class UnknownConnectionException(dbus.DBusException): _dbus_error_name = IFACE_NM + '.UnknownConnection' class InvalidHostnameException(dbus.DBusException): _dbus_error_name = IFACE_SETTINGS + '.InvalidHostname' class NoSecretsException(dbus.DBusException): _dbus_error_name = IFACE_AGENT_MANAGER + '.NoSecrets' class UserCanceledException(dbus.DBusException): _dbus_error_name = IFACE_AGENT_MANAGER + '.UserCanceled' @staticmethod def from_nmerror(e): try: domain, code = (e.domain, e.code) except: return None if domain == GLib.quark_to_string(NM.ConnectionError.quark()): if code == NM.ConnectionError.MISSINGSETTING: return BusErr.MissingSettingException(e.message) if code == NM.ConnectionError.INVALIDPROPERTY: return BusErr.InvalidPropertyException(e.message) return None @staticmethod def raise_nmerror(e): e2 = BusErr.from_nmerror(e) if e2 is not None: raise e2 raise e ############################################################################### class NmUtil: @staticmethod def con_hash_to_connection(con_hash, do_verify = False, do_normalize = False): x_con = [] for v_setting_name, v_setting in list(con_hash.items()): if isinstance(v_setting_name, (dbus.String, str)): v_setting_name = str(v_setting_name) else: raise Exception("Expected string dict, but got '%s' key" % (v_setting_name)) x_setting = [] for v_property_name, v_value in list(v_setting.items()): if isinstance(v_property_name, (dbus.String, str)): v_property_name = str(v_property_name) else: raise Exception("Expected string dict, but got '%s' subkey under %s (%s)" % (v_property_name, v_setting_name, repr(con_hash))) try: v = Util.variant_from_dbus(v_value) except Exception as e: raise Exception("Unsupported value %s.%s = %s (%s)" % (v_setting_name, v_property_name, v_value, str(e))) x_setting.append((v_property_name, v)) x_con.append((v_setting_name, collections.OrderedDict(x_setting))) x_con = GLib.Variant('a{sa{sv}}', collections.OrderedDict(x_con)) assert GLib.Variant.equal(x_con, Util.variant_from_dbus(con_hash)) try: con = NM.SimpleConnection.new_from_dbus(x_con) except: if do_verify: raise return None if do_normalize: try: con.normalize() except: if do_verify: raise if do_verify: con.verify() return con @staticmethod def con_hash_verify(con_hash, do_verify_strict = True): if NM.SETTING_CONNECTION_SETTING_NAME not in con_hash: raise BusErr.MissingSettingException('connection: setting is required') s_con = con_hash[NM.SETTING_CONNECTION_SETTING_NAME] if NM.SETTING_CONNECTION_TYPE not in s_con: raise BusErr.MissingPropertyException('connection.type: property is required') if NM.SETTING_CONNECTION_UUID not in s_con: raise BusErr.MissingPropertyException('connection.uuid: property is required') if NM.SETTING_CONNECTION_ID not in s_con: raise BusErr.MissingPropertyException('connection.id: property is required') if not do_verify_strict: return; t = s_con[NM.SETTING_CONNECTION_TYPE] if t not in [ NM.SETTING_GSM_SETTING_NAME, NM.SETTING_VLAN_SETTING_NAME, NM.SETTING_VPN_SETTING_NAME, NM.SETTING_WIMAX_SETTING_NAME, NM.SETTING_WIRED_SETTING_NAME, NM.SETTING_WIRELESS_SETTING_NAME ]: raise BusErr.InvalidPropertyException('connection.type: unsupported connection type "%s"' % (t)) try: con_nm = NmUtil.con_hash_to_connection(con_hash, do_verify = True, do_normalize = True) except Exception as e: BusErr.raise_nmerror(e) @staticmethod def con_hash_get_id(con_hash): if NM.SETTING_CONNECTION_SETTING_NAME in con_hash: s_con = con_hash[NM.SETTING_CONNECTION_SETTING_NAME] if NM.SETTING_CONNECTION_ID in s_con: return s_con[NM.SETTING_CONNECTION_ID] return None @staticmethod def con_hash_get_uuid(con_hash): if NM.SETTING_CONNECTION_SETTING_NAME in con_hash: s_con = con_hash[NM.SETTING_CONNECTION_SETTING_NAME] if NM.SETTING_CONNECTION_UUID in s_con: return s_con[NM.SETTING_CONNECTION_UUID] return None @staticmethod def con_hash_get_type(con_hash): if NM.SETTING_CONNECTION_SETTING_NAME in con_hash: s_con = con_hash[NM.SETTING_CONNECTION_SETTING_NAME] if NM.SETTING_CONNECTION_TYPE in s_con: return s_con[NM.SETTING_CONNECTION_TYPE] return None ############################################################################### class ExportedObj(dbus.service.Object): DBusInterface = collections.namedtuple('DBusInterface', ['dbus_iface', 'props', 'legacy_prop_changed_func']) @staticmethod def create_path(klass, path_prefix = None): if path_prefix is None: path_prefix = klass.path_prefix path = path_prefix + str(klass.path_counter_next) klass.path_counter_next += 1 return path @staticmethod def to_path_array(src): return dbus.Array([ExportedObj.to_path(o) for o in src] if src else [], signature=dbus.Signature('o')) @staticmethod def to_path(src): if src: return dbus.ObjectPath(src.path) return dbus.ObjectPath("/") def __init__(self, object_path, ident = None): dbus.service.Object.__init__(self) self._dbus_ifaces = {} self.path = object_path # ident is an optional (unique) identifier for the instance. # The test driver may set it to reference to the object by # this identifier. For NetworkManager, the real ID of an # object on D-Bus is the object_path. But that is generated # by the stub server only after the test user created the # object. The ident parameter may be specified by the user # and thus can be hard-coded in the test. if ident is None: ident = object_path self.ident = ident def export(self): self.add_to_connection(gl.bus, self.path) gl.object_manager.add_object(self) def unexport(self): gl.object_manager.remove_object(self) self.remove_from_connection() def dbus_interface_add(self, dbus_iface, props, legacy_prop_changed_func = None): self._dbus_ifaces[dbus_iface] = ExportedObj.DBusInterface(dbus_iface, props, legacy_prop_changed_func) def _dbus_interface_get(self, dbus_iface): if dbus_iface not in self._dbus_ifaces: raise BusErr.UnknownInterfaceException() return self._dbus_ifaces[dbus_iface] def _dbus_interface_get_property(self, dbus_interface, propname = None): props = dbus_interface.props if propname is None: return props if propname not in props: raise BusErr.UnknownPropertyException() return props[propname] def _dbus_property_get(self, dbus_iface, propname = None): return self._dbus_interface_get_property(self._dbus_interface_get(dbus_iface), propname) def _dbus_property_set(self, dbus_iface, propname, value, allow_detect_dbus_iface = False, dry_run = False, force_update = False): if allow_detect_dbus_iface and not dbus_iface: props = None for p, dbus_interface in self._dbus_ifaces.items(): if propname in dbus_interface.props: if props is not None: raise TestError("Cannot uniquely find the property '%s' on object '%s'" % (propname, self.path)) props = dbus_interface.props dbus_iface = p if props is None: raise TestError("Cannot find the property '%s' on object '%s'" % (propname, self.path)) else: try: dbus_interface = self._dbus_interface_get(dbus_iface) props = self._dbus_interface_get_property(dbus_interface) except: if dry_run: raise TestError("No interface '%s' on '%s'" % (dbus_iface, self.path)) raise if dry_run: if propname not in props: raise TestError("No property '%s' on '%s' on '%s'" % (propname, dbus_iface, self.path)) permission_granted = False if isinstance(self, ActiveConnection): if dbus_iface == IFACE_ACTIVE_CONNECTION: if propname == PRP_ACTIVE_CONNECTION_STATE: permission_granted = True elif dbus_iface == IFACE_VPN_CONNECTION: if propname == PRP_VPN_CONNECTION_VPN_STATE: permission_granted = True if not permission_granted: raise TestError("Cannot set property '%s' on '%s' on '%s' via D-Bus" % (propname, dbus_iface, self.path)) return assert propname in props if not force_update: if props[propname] == value: return props[propname] = value self._dbus_property_notify(dbus_iface, propname) def _dbus_property_notify(self, dbus_iface, propname): dbus_interface = self._dbus_interface_get(dbus_iface) prop = self._dbus_interface_get_property(dbus_interface, propname) if propname is not None: prop = { propname: prop } ExportedObj.PropertiesChanged(self, dbus_iface, prop, []) # the legacy_prop_changed_func signal is a legacy signal that got obsoleted by the standard # PropertiesChanged signal. NetworkManager (and this stub) still emit it for backward # compatibility reasons. Note that this stub server implementation gets this wrong, # for example, it emits PropertiesChanged signal on org.freedesktop.NetworkManager.Device, # which NetworkManager never did. # See https://gitlab.freedesktop.org/NetworkManager/NetworkManager/blob/db80d5f62a1edf39c5970887ef7b9ec62dd4163f/src/nm-dbus-manager.c#L1274 if dbus_interface.legacy_prop_changed_func is not None: dbus_interface.legacy_prop_changed_func(self, prop) @dbus.service.signal(dbus.PROPERTIES_IFACE, signature='sa{sv}as') def PropertiesChanged(self, iface, changed, invalidated): pass @dbus.service.method(dbus_interface=dbus.PROPERTIES_IFACE, in_signature='s', out_signature='a{sv}') def GetAll(self, dbus_iface): return self._dbus_property_get(dbus_iface) @dbus.service.method(dbus_interface=dbus.PROPERTIES_IFACE, in_signature='ss', out_signature='v') def Get(self, dbus_iface, name): return self._dbus_property_get(dbus_iface, name) def get_managed_ifaces(self): my_ifaces = {} for iface in self._dbus_ifaces: my_ifaces[iface] = self._dbus_ifaces[iface].props return my_ifaces ############################################################################### PRP_DEVICE_UDI = "Udi" PRP_DEVICE_IFACE = "Interface" PRP_DEVICE_DRIVER = "Driver" PRP_DEVICE_STATE = "State" PRP_DEVICE_ACTIVE_CONNECTION = "ActiveConnection" PRP_DEVICE_IP4_CONFIG = "Ip4Config" PRP_DEVICE_IP6_CONFIG = "Ip6Config" PRP_DEVICE_DHCP4_CONFIG = "Dhcp4Config" PRP_DEVICE_DHCP6_CONFIG = "Dhcp6Config" PRP_DEVICE_MANAGED = "Managed" PRP_DEVICE_AUTOCONNECT = "Autoconnect" PRP_DEVICE_DEVICE_TYPE = "DeviceType" PRP_DEVICE_AVAILABLE_CONNECTIONS = "AvailableConnections" PRP_DEVICE_LLDP_NEIGHBORS = "LldpNeighbors" class Device(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/Devices/" def __init__(self, iface, devtype, ident = None): if ident is None: ident = iface ExportedObj.__init__(self, ExportedObj.create_path(Device), ident) self.ip4_config = None self.ip6_config = None self.dhcp4_config = None self.dhcp6_config = None props = { PRP_DEVICE_UDI: "/sys/devices/virtual/%s" % (iface), PRP_DEVICE_IFACE: iface, PRP_DEVICE_DRIVER: "virtual", PRP_DEVICE_STATE: dbus.UInt32(NM.DeviceState.UNAVAILABLE), PRP_DEVICE_ACTIVE_CONNECTION: ExportedObj.to_path(None), PRP_DEVICE_IP4_CONFIG: ExportedObj.to_path(self.ip4_config), PRP_DEVICE_IP6_CONFIG: ExportedObj.to_path(self.ip6_config), PRP_DEVICE_DHCP4_CONFIG: ExportedObj.to_path(self.dhcp4_config), PRP_DEVICE_DHCP6_CONFIG: ExportedObj.to_path(self.dhcp6_config), PRP_DEVICE_MANAGED: True, PRP_DEVICE_AUTOCONNECT: True, PRP_DEVICE_DEVICE_TYPE: dbus.UInt32(devtype), PRP_DEVICE_AVAILABLE_CONNECTIONS: ExportedObj.to_path_array([]), PRP_DEVICE_LLDP_NEIGHBORS: dbus.Array([ dbus.Dictionary({ 'chassis-id-type': dbus.UInt32(6), 'chassis-id': dbus.String('00:11:22:33:44:00'), 'port-id-type': dbus.UInt32(7), 'port-id': dbus.String('Uplink port'), 'port-description': dbus.String('GigabitEthernet #1'), 'system-name': dbus.String('test1.example.com'), 'system-description': dbus.String('Test system #1'), 'system-capabilities': dbus.UInt32(20), 'destination': dbus.String('nearest-bridge'), }), dbus.Dictionary({ 'chassis-id-type': dbus.UInt32(2), 'chassis-id': dbus.String('chassis1'), 'port-id-type': dbus.UInt32(3), 'port-id': dbus.String('44:44:44:44:44:44'), 'port-description': dbus.String('GigabitEthernet #2'), 'system-name': dbus.String('test2.example.com'), 'system-description': dbus.String('Test system #2'), 'system-capabilities': dbus.UInt32(2047), 'destination': dbus.String('nearest-non-tpmr-bridge'), 'ieee-802-1-vlans': dbus.Array([ dbus.Dictionary({ 'vid': dbus.UInt32(80), 'name': dbus.String('vlan80'), }, signature = 'sv'), dbus.Dictionary({ 'vid': dbus.UInt32(4000), 'name': dbus.String('My VLAN'), }, signature = 'sv'), ]), 'ieee-802-1-ppvids': dbus.Array([ dbus.Dictionary({ 'ppvid': dbus.UInt32(4), 'flags': dbus.UInt32(0x12), }, signature = 'sv'), dbus.Dictionary({ 'ppvid': dbus.UInt32(10), 'flags': dbus.UInt32(0x31), }, signature = 'sv'), ]), }), dbus.Dictionary({ 'chassis-id-type': dbus.UInt32(6), 'chassis-id': dbus.String('00:11:22:33:44:22'), 'port-id-type': dbus.UInt32(1), 'port-id': dbus.String('port1'), 'port-description': dbus.String('GigabitEthernet #3'), 'system-name': dbus.String('test3.example.com'), 'system-description': dbus.String('Test system #3'), 'system-capabilities': dbus.UInt32(40), 'destination': dbus.String('nearest-customer-bridge'), 'management-addresses': dbus.Array([ dbus.Dictionary({ 'address-subtype': dbus.UInt32(1), 'address': dbus.ByteArray(b'\xc0\xa8\x01\x01'), 'interface-number': dbus.UInt32(4), 'interface-number-subtype': dbus.UInt32(3), 'object-id': dbus.ByteArray(b'\x01\x02\x03\x04') }, signature = 'sv'), dbus.Dictionary({ 'address-subtype': dbus.UInt32(2), 'address': dbus.ByteArray(b'\xfd\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x12\x34\x56\x78'), 'interface-number': dbus.UInt32(1), 'interface-number-subtype': dbus.UInt32(2), }, signature = 'sv'), ]), 'ieee-802-3-mac-phy-conf': dbus.Dictionary({ 'autoneg': dbus.UInt32(3), 'pmd-autoneg-cap': dbus.UInt32(0xfe), 'operational-mau-type': dbus.UInt32(5), }, signature = 'sv'), 'ieee-802-3-power-via-mdi': dbus.Dictionary({ 'mdi-power-support': dbus.UInt32(7), 'pse-power-pair': dbus.UInt32(6), 'power-class': dbus.UInt32(1), }, signature = 'sv'), }) ], 'a{sv}') } self.dbus_interface_add(IFACE_DEVICE, props, Device.PropertiesChanged) def start(self): self.ip4_config = IP4Config() self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_IP4_CONFIG, ExportedObj.to_path(self.ip4_config)) self.ip6_config = IP6Config() self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_IP6_CONFIG, ExportedObj.to_path(self.ip6_config)) self.dhcp4_config = Dhcp4Config() self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_DHCP4_CONFIG, ExportedObj.to_path(self.dhcp4_config)) self.dhcp6_config = Dhcp6Config() self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_DHCP6_CONFIG, ExportedObj.to_path(self.dhcp6_config)) def stop(self): self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_IP4_CONFIG, ExportedObj.to_path(None)) if self.ip4_config is not None: self.ip4_config.unexport() self.ip4_config = None self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_IP6_CONFIG, ExportedObj.to_path(None)) if self.ip6_config is not None: self.ip6_config.unexport() self.ip6_config = None self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_DHCP4_CONFIG, ExportedObj.to_path(None)) if self.dhcp4_config is not None: self.dhcp4_config.unexport() self.dhcp4_config = None self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_DHCP6_CONFIG, ExportedObj.to_path(None)) if self.dhcp6_config is not None: self.dhcp6_config.unexport() self.dhcp6_config = None @dbus.service.method(dbus_interface=IFACE_DEVICE, in_signature='', out_signature='') def Disconnect(self): pass @dbus.service.method(dbus_interface=IFACE_DEVICE, in_signature='', out_signature='') def Delete(self): # We don't currently support any software device types, so... raise BusErr.NotSoftwareException() pass @dbus.service.signal(IFACE_DEVICE, signature='a{sv}') def PropertiesChanged(self, changed): pass def set_active_connection(self, ac): self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_ACTIVE_CONNECTION, ac) def connection_is_available(self, con_inst): if con_inst.is_vpn(): return False if isinstance(self, WiredDevice): if con_inst.get_type() == NM.SETTING_WIRED_SETTING_NAME: return True elif isinstance(self, WifiDevice): if con_inst.get_type() == NM.SETTING_WIRELESS_SETTING_NAME: return True return False def available_connections_get(self): return [c for c in gl.settings.get_connections() if self.connection_is_available(c)] def available_connections_update(self): self._dbus_property_set(IFACE_DEVICE, PRP_DEVICE_AVAILABLE_CONNECTIONS, ExportedObj.to_path_array(self.available_connections_get())) ############################################################################### PRP_WIRED_HW_ADDRESS = "HwAddress" PRP_WIRED_PERM_HW_ADDRESS = "PermHwAddress" PRP_WIRED_SPEED = "Speed" PRP_WIRED_CARRIER = "Carrier" PRP_WIRED_S390_SUBCHANNELS = "S390Subchannels" class WiredDevice(Device): def __init__(self, iface, mac = None, subchannels = None, ident = None): Device.__init__(self, iface, NM.DeviceType.ETHERNET, ident) if mac is None: mac = Util.random_mac(self.ident) if subchannels is None: subchannels = dbus.Array(signature = 's') props = { PRP_WIRED_HW_ADDRESS: mac, PRP_WIRED_PERM_HW_ADDRESS: mac, PRP_WIRED_SPEED: dbus.UInt32(100), PRP_WIRED_CARRIER: False, PRP_WIRED_S390_SUBCHANNELS: subchannels, } self.dbus_interface_add(IFACE_WIRED, props, WiredDevice.PropertiesChanged) @dbus.service.signal(IFACE_WIRED, signature='a{sv}') def PropertiesChanged(self, changed): pass ############################################################################### PRP_VLAN_HW_ADDRESS = "HwAddress" PRP_VLAN_CARRIER = "Carrier" PRP_VLAN_VLAN_ID = "VlanId" class VlanDevice(Device): def __init__(self, iface, ident = None): Device.__init__(self, iface, NM.DeviceType.VLAN, ident) props = { PRP_VLAN_HW_ADDRESS: Util.random_mac(self.ident), PRP_VLAN_CARRIER: False, PRP_VLAN_VLAN_ID: dbus.UInt32(1), } self.dbus_interface_add(IFACE_VLAN, props, VlanDevice.PropertiesChanged) @dbus.service.signal(IFACE_VLAN, signature='a{sv}') def PropertiesChanged(self, changed): pass ############################################################################### PRP_WIFI_AP_FLAGS = "Flags" PRP_WIFI_AP_WPA_FLAGS = "WpaFlags" PRP_WIFI_AP_RSN_FLAGS = "RsnFlags" PRP_WIFI_AP_SSID = "Ssid" PRP_WIFI_AP_FREQUENCY = "Frequency" PRP_WIFI_AP_HW_ADDRESS = "HwAddress" PRP_WIFI_AP_MODE = "Mode" PRP_WIFI_AP_MAX_BITRATE = "MaxBitrate" PRP_WIFI_AP_STRENGTH = "Strength" PRP_WIFI_AP_LAST_SEEN = "LastSeen" class WifiAp(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/AccessPoint/" def __init__(self, ssid, bssid = None, flags = None, wpaf = None, rsnf = None, freq = None, strength = None, ident = None): ExportedObj.__init__(self, ExportedObj.create_path(WifiAp), ident) NM_AP_FLAGS = getattr(NM, '80211ApSecurityFlags') if flags is None: flags = 0x1 if wpaf is None: wpaf = 0x0 wpaf = wpaf | NM_AP_FLAGS.PAIR_TKIP wpaf = wpaf | NM_AP_FLAGS.PAIR_CCMP wpaf = wpaf | NM_AP_FLAGS.GROUP_TKIP wpaf = wpaf | NM_AP_FLAGS.GROUP_CCMP wpaf = wpaf | NM_AP_FLAGS.KEY_MGMT_PSK if rsnf is None: rsnf = 0x0 rsnf = rsnf | NM_AP_FLAGS.PAIR_TKIP rsnf = rsnf | NM_AP_FLAGS.PAIR_CCMP rsnf = rsnf | NM_AP_FLAGS.GROUP_TKIP rsnf = rsnf | NM_AP_FLAGS.GROUP_CCMP rsnf = rsnf | NM_AP_FLAGS.KEY_MGMT_PSK if freq is None: freq = 2412 if bssid is None: bssid = Util.random_mac(self.path) if strength is None: strength = Util.random_int(self.path, 100) self.ssid = ssid props = { PRP_WIFI_AP_FLAGS: dbus.UInt32(flags), PRP_WIFI_AP_WPA_FLAGS: dbus.UInt32(wpaf), PRP_WIFI_AP_RSN_FLAGS: dbus.UInt32(rsnf), PRP_WIFI_AP_SSID: dbus.ByteArray(self.ssid.encode('utf-8')), PRP_WIFI_AP_FREQUENCY: dbus.UInt32(freq), PRP_WIFI_AP_HW_ADDRESS: bssid, PRP_WIFI_AP_MODE: dbus.UInt32(getattr(NM,'80211Mode').INFRA), PRP_WIFI_AP_MAX_BITRATE: dbus.UInt32(54000), PRP_WIFI_AP_STRENGTH: dbus.Byte(strength), PRP_WIFI_AP_LAST_SEEN: dbus.Int32(NM.utils_get_timestamp_msec() / 1000), } self.dbus_interface_add(IFACE_WIFI_AP, props, WifiAp.PropertiesChanged) @dbus.service.signal(IFACE_WIFI_AP, signature='a{sv}') def PropertiesChanged(self, changed): pass ############################################################################### PRP_WIFI_HW_ADDRESS = "HwAddress" PRP_WIFI_PERM_HW_ADDRESS = "PermHwAddress" PRP_WIFI_MODE = "Mode" PRP_WIFI_BITRATE = "Bitrate" PRP_WIFI_ACCESS_POINTS = "AccessPoints" PRP_WIFI_ACTIVE_ACCESS_POINT = "ActiveAccessPoint" PRP_WIFI_WIRELESS_CAPABILITIES = "WirelessCapabilities" PRP_WIFI_LAST_SCAN = "LastScan" class WifiDevice(Device): def __init__(self, iface, mac = None, ident = None): Device.__init__(self, iface, NM.DeviceType.WIFI, ident) if mac is None: mac = Util.random_mac(self.ident) self.aps = [] self.scan_cb_id = None # Use a randomly older timestamp to trigger RequestScan() from the client ts = max(0, NM.utils_get_timestamp_msec() - Util.random_int(self.path, 20000, 40000)) props = { PRP_WIFI_HW_ADDRESS: mac, PRP_WIFI_PERM_HW_ADDRESS: mac, PRP_WIFI_MODE: dbus.UInt32(getattr(NM,'80211Mode').INFRA), PRP_WIFI_BITRATE: dbus.UInt32(21000), PRP_WIFI_WIRELESS_CAPABILITIES: dbus.UInt32(0xFF), PRP_WIFI_ACCESS_POINTS: ExportedObj.to_path_array(self.aps), PRP_WIFI_ACTIVE_ACCESS_POINT: ExportedObj.to_path(None), PRP_WIFI_LAST_SCAN: dbus.Int64(ts), } self.dbus_interface_add(IFACE_WIFI, props, WifiDevice.PropertiesChanged) @dbus.service.method(dbus_interface=IFACE_WIFI, in_signature='', out_signature='ao') def GetAccessPoints(self): # only include non-hidden APs return ExportedObj.to_path_array([a for a in self.aps if a.ssid]) @dbus.service.method(dbus_interface=IFACE_WIFI, in_signature='', out_signature='ao') def GetAllAccessPoints(self): # include all APs including hidden ones return ExportedObj.to_path_array(self.aps) @dbus.service.method(dbus_interface=IFACE_WIFI, in_signature='a{sv}', out_signature='') def RequestScan(self, props): self.scan_cb_id = Util.g_source_remove(self.scan_cb_id) def cb(): ts = NM.utils_get_timestamp_msec() for ap in self.aps: ap._dbus_property_set(IFACE_WIFI_AP, PRP_WIFI_AP_LAST_SEEN, dbus.Int32(ts / 1000)) self._dbus_property_set(IFACE_WIFI, PRP_WIFI_LAST_SCAN, dbus.Int64(ts)) self.scan_cb_id = None return False self.scan_cb_id = GLib.idle_add(cb) pass @dbus.service.signal(IFACE_WIFI, signature='o') def AccessPointAdded(self, ap_path): pass def add_ap(self, ap): ap.export() self.aps.append(ap) self._dbus_property_set(IFACE_WIFI, PRP_WIFI_ACCESS_POINTS, ExportedObj.to_path_array(self.aps)) self.AccessPointAdded(ExportedObj.to_path(ap)) return ap def remove_ap(self, ap): self.aps.remove(ap) self._dbus_property_set(IFACE_WIFI, PRP_WIFI_ACCESS_POINTS, ExportedObj.to_path_array(self.aps)) self.AccessPointRemoved(ExportedObj.to_path(ap)) ap.unexport() def stop(self): self.scan_cb_id = Util.g_source_remove(self.scan_cb_id) super(WifiDevice, self).stop() @dbus.service.signal(IFACE_WIFI, signature='o') def AccessPointRemoved(self, ap_path): pass @dbus.service.signal(IFACE_WIFI, signature='a{sv}') def PropertiesChanged(self, changed): pass def remove_ap_by_path(self, path): for ap in self.aps: if ap.path == path: self.remove_ap(ap) return raise BusErr.ApNotFoundException("AP %s not found" % path) ############################################################################### PRP_WIMAX_NSP_NAME = "Name" PRP_WIMAX_NSP_SIGNAL_QUALITY = "SignalQuality" PRP_WIMAX_NSP_NETWORK_TYPE = "NetworkType" class WimaxNsp(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/Nsp/" def __init__(self, name): ExportedObj.__init__(self, ExportedObj.create_path(WimaxNsp)) strength = Util.random_int(self.path, 100) props = { PRP_WIMAX_NSP_NAME: name, PRP_WIMAX_NSP_SIGNAL_QUALITY: dbus.UInt32(strength), PRP_WIMAX_NSP_NETWORK_TYPE: dbus.UInt32(NM.WimaxNspNetworkType.HOME), } self.dbus_interface_add(IFACE_WIMAX_NSP, props, WimaxNsp.PropertiesChanged) @dbus.service.signal(IFACE_WIMAX_NSP, signature='a{sv}') def PropertiesChanged(self, changed): pass ############################################################################### PRP_WIMAX_NSPS = "Nsps" PRP_WIMAX_HW_ADDRESS = "HwAddress" PRP_WIMAX_CENTER_FREQUENCY = "CenterFrequency" PRP_WIMAX_RSSI = "Rssi" PRP_WIMAX_CINR = "Cinr" PRP_WIMAX_TX_POWER = "TxPower" PRP_WIMAX_BSID = "Bsid" PRP_WIMAX_ACTIVE_NSP = "ActiveNsp" class WimaxDevice(Device): def __init__(self, iface, ident = None): Device.__init__(self, iface, NM.DeviceType.WIMAX, ident) mac = Util.random_mac(self.ident) bsid = Util.random_mac(self.ident + '.bsid') self.nsps = [] props = { PRP_WIMAX_HW_ADDRESS: mac, PRP_WIMAX_CENTER_FREQUENCY: dbus.UInt32(2525), PRP_WIMAX_RSSI: dbus.Int32(-48), PRP_WIMAX_CINR: dbus.Int32(24), PRP_WIMAX_TX_POWER: dbus.Int32(9), PRP_WIMAX_BSID: bsid, PRP_WIMAX_NSPS: ExportedObj.to_path_array(self.nsps), PRP_WIMAX_ACTIVE_NSP: ExportedObj.to_path(None), } self.dbus_interface_add(IFACE_WIMAX, props, WimaxDevice.PropertiesChanged) @dbus.service.method(dbus_interface=IFACE_WIMAX, in_signature='', out_signature='ao') def GetNspList(self): return ExportedObj.to_path_array(self.nsps) @dbus.service.signal(IFACE_WIMAX, signature='o') def NspAdded(self, nsp_path): pass def add_nsp(self, nsp): nsp.export() self.nsps.append(nsp) self._dbus_property_set(IFACE_WIMAX, PRP_WIMAX_NSPS, ExportedObj.to_path_array(self.nsps)) self.NspAdded(ExportedObj.to_path(nsp)) def remove_nsp(self, nsp): self.nsps.remove(nsp) self._dbus_property_set(IFACE_WIMAX, PRP_WIMAX_NSPS, ExportedObj.to_path_array(self.nsps)) self.NspRemoved(ExportedObj.to_path(nsp)) nsp.unexport() @dbus.service.signal(IFACE_WIMAX, signature='o') def NspRemoved(self, nsp_path): pass @dbus.service.signal(IFACE_WIMAX, signature='a{sv}') def PropertiesChanged(self, changed): pass def add_test_nsp(self, name): nsp = WimaxNsp(name) self.add_nsp(nsp) return nsp def remove_nsp_by_path(self, path): for nsp in self.nsps: if nsp.path == path: self.remove_nsp(nsp) return raise BusErr.NspNotFoundException("NSP %s not found" % path) ############################################################################### PRP_ACTIVE_CONNECTION_CONNECTION = "Connection" PRP_ACTIVE_CONNECTION_SPECIFIC_OBJECT = "SpecificObject" PRP_ACTIVE_CONNECTION_ID = "Id" PRP_ACTIVE_CONNECTION_UUID = "Uuid" PRP_ACTIVE_CONNECTION_TYPE = "Type" PRP_ACTIVE_CONNECTION_DEVICES = "Devices" PRP_ACTIVE_CONNECTION_STATE = "State" PRP_ACTIVE_CONNECTION_DEFAULT = "Default" PRP_ACTIVE_CONNECTION_IP4CONFIG = "Ip4Config" PRP_ACTIVE_CONNECTION_DHCP4CONFIG = "Dhcp4Config" PRP_ACTIVE_CONNECTION_DEFAULT6 = "Default6" PRP_ACTIVE_CONNECTION_IP6CONFIG = "Ip6Config" PRP_ACTIVE_CONNECTION_DHCP6CONFIG = "Dhcp6Config" PRP_ACTIVE_CONNECTION_VPN = "Vpn" PRP_ACTIVE_CONNECTION_MASTER = "Master" PRP_VPN_CONNECTION_VPN_STATE = 'VpnState' PRP_VPN_CONNECTION_BANNER = 'Banner' class ActiveConnection(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/ActiveConnection/" def __init__(self, device, con_inst, specific_object): ExportedObj.__init__(self, ExportedObj.create_path(ActiveConnection)) self.device = device self.con_inst = con_inst self.is_vpn = con_inst.is_vpn() self._activation_id = None s_con = con_inst.con_hash[NM.SETTING_CONNECTION_SETTING_NAME] props = { PRP_ACTIVE_CONNECTION_CONNECTION: ExportedObj.to_path(con_inst), PRP_ACTIVE_CONNECTION_SPECIFIC_OBJECT: ExportedObj.to_path(specific_object), PRP_ACTIVE_CONNECTION_ID: s_con[NM.SETTING_CONNECTION_ID], PRP_ACTIVE_CONNECTION_UUID: s_con[NM.SETTING_CONNECTION_UUID], PRP_ACTIVE_CONNECTION_TYPE: s_con[NM.SETTING_CONNECTION_TYPE], PRP_ACTIVE_CONNECTION_DEVICES: ExportedObj.to_path_array([self.device]), PRP_ACTIVE_CONNECTION_STATE: dbus.UInt32(NM.ActiveConnectionState.UNKNOWN), PRP_ACTIVE_CONNECTION_DEFAULT: False, PRP_ACTIVE_CONNECTION_IP4CONFIG: ExportedObj.to_path(None), PRP_ACTIVE_CONNECTION_DHCP4CONFIG: ExportedObj.to_path(None), PRP_ACTIVE_CONNECTION_DEFAULT6: False, PRP_ACTIVE_CONNECTION_IP6CONFIG: ExportedObj.to_path(None), PRP_ACTIVE_CONNECTION_DHCP6CONFIG: ExportedObj.to_path(None), PRP_ACTIVE_CONNECTION_VPN: self.is_vpn, PRP_ACTIVE_CONNECTION_MASTER: ExportedObj.to_path(None), } self.dbus_interface_add(IFACE_ACTIVE_CONNECTION, props, ActiveConnection.PropertiesChanged) if self.is_vpn: props = { PRP_VPN_CONNECTION_VPN_STATE: dbus.UInt32(NM.VpnConnectionState.UNKNOWN), PRP_VPN_CONNECTION_BANNER: '*** VPN connection %s ***' % (con_inst.get_id()), } self.dbus_interface_add(IFACE_VPN_CONNECTION, props, ActiveConnection.VpnPropertiesChanged) def _set_state(self, state, reason): state = dbus.UInt32(state) self._dbus_property_set(IFACE_ACTIVE_CONNECTION, PRP_ACTIVE_CONNECTION_STATE, state) self.StateChanged(state, dbus.UInt32(reason)) def activation_cancel(self): self._activation_id = Util.g_source_remove(self._activation_id) def _activation_step2(self): assert self._activation_id is not None self._activation_id = None self._set_state(NM.ActiveConnectionState.ACTIVATED, NM.ActiveConnectionStateReason.UNKNOWN) return False def _activation_step1(self): assert self._activation_id is not None self._activation_id = GLib.timeout_add(50, self._activation_step2) self.device.set_active_connection(self) self._set_state(NM.ActiveConnectionState.ACTIVATING, NM.ActiveConnectionStateReason.UNKNOWN) return False def start_activation(self): assert self._activation_id is None self._activation_id = GLib.timeout_add(50, self._activation_step1) @dbus.service.signal(IFACE_VPN_CONNECTION, signature='a{sv}') def PropertiesChanged(self, changed): pass VpnPropertiesChanged = PropertiesChanged @dbus.service.signal(IFACE_ACTIVE_CONNECTION, signature='a{sv}') def PropertiesChanged(self, changed): pass @dbus.service.signal(IFACE_ACTIVE_CONNECTION, signature='uu') def StateChanged(self, state, reason): pass @dbus.service.signal(IFACE_VPN_CONNECTION, signature='uu') def VpnStateChanged(self, state, reason): pass ############################################################################### PRP_NM_DEVICES = 'Devices' PRP_NM_ALL_DEVICES = 'AllDevices' PRP_NM_NETWORKING_ENABLED = 'NetworkingEnabled' PRP_NM_WWAN_ENABLED = 'WwanEnabled' PRP_NM_WWAN_HARDWARE_ENABLED = 'WwanHardwareEnabled' PRP_NM_WIRELESS_ENABLED = 'WirelessEnabled' PRP_NM_WIRELESS_HARDWARE_ENABLED = 'WirelessHardwareEnabled' PRP_NM_WIMAX_ENABLED = 'WimaxEnabled' PRP_NM_WIMAX_HARDWARE_ENABLED = 'WimaxHardwareEnabled' PRP_NM_ACTIVE_CONNECTIONS = 'ActiveConnections' PRP_NM_PRIMARY_CONNECTION = 'PrimaryConnection' PRP_NM_ACTIVATING_CONNECTION = 'ActivatingConnection' PRP_NM_STARTUP = 'Startup' PRP_NM_STATE = 'State' PRP_NM_VERSION = 'Version' PRP_NM_CONNECTIVITY = 'Connectivity' class NetworkManager(ExportedObj): def __init__(self): ExportedObj.__init__(self, "/org/freedesktop/NetworkManager") self.devices = [] self.active_connections = [] props = { PRP_NM_DEVICES: ExportedObj.to_path_array(self.devices), PRP_NM_ALL_DEVICES: ExportedObj.to_path_array(self.devices), PRP_NM_NETWORKING_ENABLED: True, PRP_NM_WWAN_ENABLED: True, PRP_NM_WWAN_HARDWARE_ENABLED: True, PRP_NM_WIRELESS_ENABLED: True, PRP_NM_WIRELESS_HARDWARE_ENABLED: True, PRP_NM_WIMAX_ENABLED: True, PRP_NM_WIMAX_HARDWARE_ENABLED: True, PRP_NM_ACTIVE_CONNECTIONS: ExportedObj.to_path_array(self.active_connections), PRP_NM_PRIMARY_CONNECTION: ExportedObj.to_path(None), PRP_NM_ACTIVATING_CONNECTION: ExportedObj.to_path(None), PRP_NM_STARTUP: False, PRP_NM_STATE: dbus.UInt32(NM.State.DISCONNECTED), PRP_NM_VERSION: "0.9.9.0", PRP_NM_CONNECTIVITY: dbus.UInt32(NM.ConnectivityState.NONE), } self.dbus_interface_add(IFACE_NM, props, NetworkManager.PropertiesChanged) self.export() @dbus.service.signal(IFACE_NM, signature='u') def StateChanged(self, new_state): pass def set_state(self, new_state): self._dbus_property_set(IFACE_NM, PRP_NM_STATE, state) self.StateChanged(dbus.UInt32(self.state)) @dbus.service.method(dbus_interface=IFACE_NM, in_signature='', out_signature='ao') def GetDevices(self): return ExportedObj.to_path_array(self.devices) @dbus.service.method(dbus_interface=IFACE_NM, in_signature='', out_signature='ao') def GetAllDevices(self): return ExportedObj.to_path_array(self.devices) @dbus.service.method(dbus_interface=IFACE_NM, in_signature='s', out_signature='o') def GetDeviceByIpIface(self, ip_iface): d = self.find_device_first(ip_iface = ip_iface, require = BusErr.UnknownDeviceException) return ExportedObj.to_path(d) @dbus.service.method(dbus_interface=IFACE_NM, in_signature='ooo', out_signature='o') def ActivateConnection(self, conpath, devpath, specific_object): try: con_inst = gl.settings.get_connection(conpath) except Exception as e: raise BusErr.UnknownConnectionException("Connection not found") con_hash = con_inst.con_hash con_type = NmUtil.con_hash_get_type(con_hash) device = self.find_device_first(path = devpath) if not device: if con_type == NM.SETTING_WIRED_SETTING_NAME: device = self.find_device_first(dev_type = WiredDevice) elif con_type == NM.SETTING_WIRELESS_SETTING_NAME: device = self.find_device_first(dev_type = WifiDevice) elif con_type == NM.SETTING_VLAN_SETTING_NAME: ifname = con_hash[NM.SETTING_CONNECTION_SETTING_NAME]['interface-name'] device = VlanDevice(ifname) self.add_device(device) elif con_type == NM.SETTING_VPN_SETTING_NAME: for ac in self.active_connections: if ac.is_vpn: continue if ac.device: device = ac.device break if not device: raise BusErr.UnknownDeviceException("No device found for the requested iface.") # See if we need secrets. For the moment, we only support WPA if '802-11-wireless-security' in con_hash: s_wsec = con_hash['802-11-wireless-security'] if (s_wsec['key-mgmt'] == 'wpa-psk' and 'psk' not in s_wsec): secrets = gl.agent_manager.get_secrets(con_hash, conpath, '802-11-wireless-security') if secrets is None: raise BusErr.NoSecretsException("No secret agent available") if '802-11-wireless-security' not in secrets: raise BusErr.NoSecretsException("No secrets provided") s_wsec = secrets['802-11-wireless-security'] if 'psk' not in s_wsec: raise BusErr.NoSecretsException("No secrets provided") ac = ActiveConnection(device, con_inst, None) self.active_connection_add(ac) if NmUtil.con_hash_get_id(con_hash) == 'object-creation-failed-test': # FIXME: this is not the right test, to delete the active-connection # before returning it. It's the wrong order of what NetworkManager # would do. self.active_connection_remove(ac) return ExportedObj.to_path(ac) return ExportedObj.to_path(ac) def active_connection_add(self, ac): ac.export() self.active_connections.append(ac) self._dbus_property_set(IFACE_NM, PRP_NM_ACTIVE_CONNECTIONS, ExportedObj.to_path_array(self.active_connections)) ac.start_activation() def active_connection_remove(self, ac): ac.activation_cancel() self.active_connections.remove(ac) self._dbus_property_set(IFACE_NM, PRP_NM_ACTIVE_CONNECTIONS, ExportedObj.to_path_array(self.active_connections)) ac.unexport() @dbus.service.method(dbus_interface=IFACE_NM, in_signature='a{sa{sv}}oo', out_signature='oo') def AddAndActivateConnection(self, con_hash, devpath, specific_object): conpath, acpath, result = self.AddAndActivateConnection2(con_hash, devpath, specific_object, dict()) return (conpath, acpath) @dbus.service.method(dbus_interface=IFACE_NM, in_signature='a{sa{sv}}ooa{sv}', out_signature='ooa{sv}') def AddAndActivateConnection2(self, con_hash, devpath, specific_object, options): device = self.find_device_first(path = devpath, require = BusErr.UnknownDeviceException) conpath = gl.settings.AddConnection(con_hash) return (conpath, self.ActivateConnection(conpath, devpath, specific_object), []) @dbus.service.method(dbus_interface=IFACE_NM, in_signature='o', out_signature='') def DeactivateConnection(self, active_connection): pass @dbus.service.method(dbus_interface=IFACE_NM, in_signature='b', out_signature='') def Sleep(self, do_sleep): if do_sleep: state = NM.State.ASLEEP else: state = NM.State.DISCONNECTED self.set_state(state) @dbus.service.method(dbus_interface=IFACE_NM, in_signature='b', out_signature='') def Enable(self, do_enable): pass @dbus.service.method(dbus_interface=IFACE_NM, in_signature='', out_signature='a{ss}') def GetPermissions(self): return { "org.freedesktop.NetworkManager.enable-disable-network": "yes", "org.freedesktop.NetworkManager.sleep-wake": "no", "org.freedesktop.NetworkManager.enable-disable-wifi": "yes", "org.freedesktop.NetworkManager.enable-disable-wwan": "yes", "org.freedesktop.NetworkManager.enable-disable-wimax": "yes", "org.freedesktop.NetworkManager.network-control": "yes", "org.freedesktop.NetworkManager.wifi.share.protected": "yes", "org.freedesktop.NetworkManager.wifi.share.open": "yes", "org.freedesktop.NetworkManager.settings.modify.own": "yes", "org.freedesktop.NetworkManager.settings.modify.system": "yes", "org.freedesktop.NetworkManager.settings.modify.hostname": "yes", "org.freedesktop.NetworkManager.settings.modify.global-dns": "no", "org.freedesktop.NetworkManager.reload": "no", } @dbus.service.method(dbus_interface=IFACE_NM, in_signature='ss', out_signature='') def SetLogging(self, level, domains): pass @dbus.service.method(dbus_interface=IFACE_NM, in_signature='', out_signature='ss') def GetLogging(self): return ("info", "HW,RFKILL,CORE,DEVICE,WIFI,ETHER") @dbus.service.method(dbus_interface=IFACE_NM, in_signature='', out_signature='u') def CheckConnectivity(self): raise BusErr.PermissionDeniedException("You fail") @dbus.service.signal(IFACE_NM, signature='o') def DeviceAdded(self, devpath): pass def find_devices(self, ident = _DEFAULT_ARG, path = _DEFAULT_ARG, iface = _DEFAULT_ARG, ip_iface = _DEFAULT_ARG, dev_type = _DEFAULT_ARG): r = None for d in self.devices: if ident is not _DEFAULT_ARG: if d.ident != ident: continue if path is not _DEFAULT_ARG: if d.path != path: continue if iface is not _DEFAULT_ARG: if d.iface != iface: continue if ip_iface is not _DEFAULT_ARG: # ignore iface/ip_iface distinction for now if d.iface != ip_iface: continue if dev_type is not _DEFAULT_ARG: if not isinstance(d, dev_type): continue yield d def find_device_first(self, ident = _DEFAULT_ARG, path = _DEFAULT_ARG, iface = _DEFAULT_ARG, ip_iface = _DEFAULT_ARG, dev_type = _DEFAULT_ARG, require = None): r = None for d in self.find_devices(ident = ident, path = path, iface = iface, ip_iface = ip_iface, dev_type = dev_type): r = d break if r is None and require: if require is TestError: raise TestError('Device not found') raise BusErr.UnknownDeviceException('Device not found') return r def add_device(self, device): if self.find_device_first(ident = device.ident, path = device.path) is not None: raise TestError("Duplicate device ident=%s / path=%s" % (device.ident, device.path)) device.export() self.devices.append(device) self._dbus_property_set(IFACE_NM, PRP_NM_DEVICES, ExportedObj.to_path_array(self.devices)) self._dbus_property_set(IFACE_NM, PRP_NM_ALL_DEVICES, ExportedObj.to_path_array(self.devices)) self.DeviceAdded(ExportedObj.to_path(device)) device.start() return device def remove_device(self, device): device.stop() self.devices.remove(device) self._dbus_property_set(IFACE_NM, PRP_NM_DEVICES, ExportedObj.to_path_array(self.devices)) self._dbus_property_set(IFACE_NM, PRP_NM_ALL_DEVICES, ExportedObj.to_path_array(self.devices)) self.DeviceRemoved(ExportedObj.to_path(device)) device.unexport() def devices_available_connections_update(self): for d in self.devices: d.available_connections_update() @dbus.service.signal(IFACE_NM, signature='o') def DeviceRemoved(self, devpath): pass @dbus.service.signal(IFACE_NM, signature='a{sv}') def PropertiesChanged(self, changed): pass @dbus.service.method(IFACE_TEST, in_signature='', out_signature='') def Quit(self): gl.mainloop.quit() @dbus.service.method(IFACE_TEST, in_signature='a{ss}', out_signature='a(sss)') def FindConnections(self, selector_args): return [(c.path, c.get_uuid(), c.get_id()) for c in gl.settings.find_connections(**selector_args)] @dbus.service.method(IFACE_TEST, in_signature='a(oa(sa(sv)))', out_signature='') def SetProperties(self, all_args): for i in [0, 1]: for path, iface_args in all_args: o = gl.object_manager.find_object(path) if o is None: raise TestError("Object %s does not exist" % (path)) for iface_name, args in iface_args: for propname, value in args: o._dbus_property_set(iface_name, propname, value, allow_detect_dbus_iface = True, dry_run = (i == 0)) @dbus.service.method(IFACE_TEST, in_signature='sa{sv}', out_signature='o') def AddObj(self, class_name, args): if class_name in ['WiredDevice', 'WifiDevice']: py_class = globals()[class_name] d = py_class(**args) return ExportedObj.to_path(self.add_device(d)) elif class_name in ['WifiAp']: if 'device' not in args: raise TestError('missing "device" paramter') d = self.find_device_first(ident = args['device'], require = TestError) del args['device'] if 'ssid' not in args: args['ssid'] = d.ident + '-ap-' + str(WifiAp.path_counter_next) ap = WifiAp(**args) return ExportedObj.to_path(d.add_ap(ap)) raise TestError("Invalid python type \"%s\"" % (class_name)) @dbus.service.method(IFACE_TEST, in_signature='ssas', out_signature='o') def AddWiredDevice(self, ifname, mac, subchannels): dev = WiredDevice(ifname, mac, subchannels) return ExportedObj.to_path(self.add_device(dev)) @dbus.service.method(IFACE_TEST, in_signature='s', out_signature='o') def AddWifiDevice(self, ifname): dev = WifiDevice(ifname) return ExportedObj.to_path(self.add_device(dev)) @dbus.service.method(IFACE_TEST, in_signature='s', out_signature='o') def AddWimaxDevice(self, ifname): dev = WimaxDevice(ifname) return ExportedObj.to_path(self.add_device(dev)) @dbus.service.method(IFACE_TEST, in_signature='o', out_signature='') def RemoveDevice(self, path): d = self.find_device_first(path = path, require = TestError) self.remove_device(d) @dbus.service.method(IFACE_TEST, in_signature='sss', out_signature='o') def AddWifiAp(self, ident, ssid, bssid): d = self.find_device_first(ident = ident, require = TestError) ap = WifiAp(ssid, bssid) return ExportedObj.to_path(d.add_ap(ap)) @dbus.service.method(IFACE_TEST, in_signature='so', out_signature='') def RemoveWifiAp(self, ident, ap_path): d = self.find_device_first(ident = ident, require = TestError) d.remove_ap_by_path(ap_path) @dbus.service.method(IFACE_TEST, in_signature='ss', out_signature='o') def AddWimaxNsp(self, ident, name): d = self.find_device_first(ident = ident, require = TestError) return ExportedObj.to_path(d.add_test_nsp(name)) @dbus.service.method(IFACE_TEST, in_signature='so', out_signature='') def RemoveWimaxNsp(self, ident, nsp_path): d = self.find_device_first(ident = ident, require = TestError) d.remove_nsp_by_path(nsp_path) @dbus.service.method(IFACE_TEST, in_signature='', out_signature='') def AutoRemoveNextConnection(self): gl.settings.auto_remove_next_connection() @dbus.service.method(dbus_interface=IFACE_TEST, in_signature='a{sa{sv}}b', out_signature='o') def AddConnection(self, con_hash, do_verify_strict): return gl.settings.add_connection(con_hash, do_verify_strict) @dbus.service.method(dbus_interface=IFACE_TEST, in_signature='sa{sa{sv}}b', out_signature='') def UpdateConnection(self, path, con_hash, do_verify_strict): return gl.settings.update_connection(con_hash, path, do_verify_strict) @dbus.service.method(dbus_interface=IFACE_TEST, in_signature='ba{ss}', out_signature='') def ConnectionSetVisible(self, vis, selector_args): cons = list(gl.settings.find_connections(**selector_args)) assert(len(cons) == 1) cons[0].SetVisible(vis) @dbus.service.method(dbus_interface=IFACE_TEST, in_signature='', out_signature='') def Restart(self): gl.bus.release_name("org.freedesktop.NetworkManager") gl.bus.request_name("org.freedesktop.NetworkManager") ############################################################################### PRP_CONNECTION_UNSAVED = 'Unsaved' PRP_CONNECTION_FILENAME = 'Filename' class Connection(ExportedObj): def __init__(self, path_counter, con_hash, do_verify_strict=True): path = "/org/freedesktop/NetworkManager/Settings/Connection/%s" % (path_counter) ExportedObj.__init__(self, path) s_con = con_hash.get(NM.SETTING_CONNECTION_SETTING_NAME) if s_con is None: s_con = {} con_hash[NM.SETTING_CONNECTION_SETTING_NAME] = s_con if NmUtil.con_hash_get_id(con_hash) is None: s_con[NM.SETTING_CONNECTION_ID] = 'connection-%s' % (path_counter) if NmUtil.con_hash_get_uuid(con_hash) is None: s_con[NM.SETTING_CONNECTION_UUID] = str(uuid.uuid3(uuid.NAMESPACE_URL, path)) NmUtil.con_hash_verify(con_hash, do_verify_strict=do_verify_strict) self.path = path self.con_hash = con_hash self.visible = True props = { PRP_CONNECTION_UNSAVED: False, PRP_CONNECTION_FILENAME: "/etc/NetworkManager/system-connections/" + self.get_id(), } self.dbus_interface_add(IFACE_CONNECTION, props) def get_id(self): return NmUtil.con_hash_get_id(self.con_hash) def get_uuid(self): return NmUtil.con_hash_get_uuid(self.con_hash) def get_type(self): return NmUtil.con_hash_get_type(self.con_hash) def is_vpn(self): return self.get_type() == NM.SETTING_VPN_SETTING_NAME def update_connection(self, con_hash, do_verify_strict): NmUtil.con_hash_verify(con_hash, do_verify_strict = do_verify_strict) old_uuid = self.get_uuid() new_uuid = NmUtil.con_hash_get_uuid(con_hash) if old_uuid != new_uuid: raise BusErr.InvalidPropertyException('connection.uuid: cannot change the uuid from %s to %s' % (old_uuid, new_uuid)) self.con_hash = con_hash; self.Updated() @dbus.service.method(dbus_interface=IFACE_CONNECTION, in_signature='', out_signature='a{sa{sv}}') def GetSettings(self): if not self.visible: raise BusErr.PermissionDeniedException() return self.con_hash @dbus.service.method(dbus_interface=IFACE_CONNECTION, in_signature='b', out_signature='') def SetVisible(self, vis): self.visible = vis self.Updated() @dbus.service.method(dbus_interface=IFACE_CONNECTION, in_signature='', out_signature='') def Delete(self): gl.settings.delete_connection(self) @dbus.service.method(dbus_interface=IFACE_CONNECTION, in_signature='a{sa{sv}}', out_signature='') def Update(self, con_hash): self.update_connection(con_hash, True) @dbus.service.method(dbus_interface=IFACE_CONNECTION, in_signature='a{sa{sv}}ua{sv}', out_signature='a{sv}') def Update2(self, con_hash, flags, args): self.update_connection(con_hash, True) return [] @dbus.service.signal(IFACE_CONNECTION, signature='') def Removed(self): pass @dbus.service.signal(IFACE_CONNECTION, signature='') def Updated(self): pass ############################################################################### PRP_SETTINGS_HOSTNAME = 'Hostname' PRP_SETTINGS_CAN_MODIFY = 'CanModify' PRP_SETTINGS_CONNECTIONS = 'Connections' class Settings(ExportedObj): def __init__(self): ExportedObj.__init__(self, "/org/freedesktop/NetworkManager/Settings") self.connections = {} self.c_counter = 0 self.remove_next_connection = False props = { PRP_SETTINGS_HOSTNAME: "foobar.baz", PRP_SETTINGS_CAN_MODIFY: True, PRP_SETTINGS_CONNECTIONS: dbus.Array([], 'o'), } self.dbus_interface_add(IFACE_SETTINGS, props, Settings.PropertiesChanged) self.export() def auto_remove_next_connection(self): self.remove_next_connection = True; def get_connection(self, path): return self.connections[path] def get_connections(self, stable_order = True): cons = list(self.connections.values()) if stable_order: cons.sort(key = lambda c: (Util.random_int(c.get_id()), Util.random_int(c.path))) return cons def get_connection_paths(self, stable_order = True): return [c.path for c in self.get_connections(stable_order = stable_order)] def find_connections(self, path = None, con_id = None, con_uuid = None): for c in self.get_connections(): if path is not None: if c.path != path: continue if con_id is not None: if c.get_id() != con_id: continue if con_uuid is not None: if c.get_uuid() != con_uuid: continue yield c @dbus.service.method(dbus_interface=IFACE_SETTINGS, in_signature='', out_signature='ao') def ListConnections(self): return self.get_connection_paths() @dbus.service.method(dbus_interface=IFACE_SETTINGS, in_signature='a{sa{sv}}', out_signature='o') def AddConnection(self, con_hash): return self.add_connection(con_hash) def add_connection(self, con_hash, do_verify_strict=True): self.c_counter += 1 con_inst = Connection(self.c_counter, con_hash, do_verify_strict) uuid = con_inst.get_uuid() if uuid in [c.get_uuid() for c in self.get_connections(stable_order = False)]: raise BusErr.InvalidSettingException('cannot add duplicate connection with uuid %s' % (uuid)) con_inst.export() self.connections[con_inst.path] = con_inst self.NewConnection(con_inst.path) self._dbus_property_set(IFACE_SETTINGS, PRP_SETTINGS_CONNECTIONS, dbus.Array(self.get_connection_paths(), 'o')) if self.remove_next_connection: self.remove_next_connection = False self.delete_connection(con_inst) gl.manager.devices_available_connections_update() return con_inst.path def update_connection(self, con_hash, path=None, do_verify_strict=True): if path not in self.connections: raise BusErr.UnknownConnectionException('Connection not found') self.connections[path].update_connection(con_hash, do_verify_strict) def delete_connection(self, con_inst): del self.connections[con_inst.path] self._dbus_property_set(IFACE_SETTINGS, PRP_SETTINGS_CONNECTIONS, dbus.Array(self.get_connection_paths(), 'o')) con_inst.Removed() con_inst.unexport() gl.manager.devices_available_connections_update() @dbus.service.method(dbus_interface=IFACE_SETTINGS, in_signature='s', out_signature='') def SaveHostname(self, hostname): # Arbitrary requirement to test error handling if hostname.find('.') == -1: raise BusErr.InvalidHostnameException() self._dbus_property_set(IFACE_SETTINGS, PRP_SETTINGS_HOSTNAME, hostname) @dbus.service.signal(IFACE_SETTINGS, signature='o') def NewConnection(self, path): pass @dbus.service.signal(IFACE_SETTINGS, signature='a{sv}') def PropertiesChanged(self, path): pass @dbus.service.method(IFACE_SETTINGS, in_signature='', out_signature='') def Quit(self): gl.mainloop.quit() ############################################################################### PRP_IP4_CONFIG_ADDRESSES = 'Addresses' PRP_IP4_CONFIG_ADDRESSDATA = 'AddressData' PRP_IP4_CONFIG_GATEWAY = 'Gateway' PRP_IP4_CONFIG_ROUTES = 'Routes' PRP_IP4_CONFIG_ROUTEDATA = 'RouteData' PRP_IP4_CONFIG_NAMESERVERS = 'Nameservers' PRP_IP4_CONFIG_DOMAINS = 'Domains' PRP_IP4_CONFIG_SEARCHES = 'Searches' PRP_IP4_CONFIG_DNSOPTIONS = 'DnsOptions' PRP_IP4_CONFIG_DNSPRIORITY = 'DnsPriority' PRP_IP4_CONFIG_WINSSERVERS = 'WinsServers' class IP4Config(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/IP4Config/" def __init__(self, generate_seed = _DEFAULT_ARG): ExportedObj.__init__(self, ExportedObj.create_path(IP4Config)) if generate_seed == _DEFAULT_ARG: generate_seed = self.path props = self._props_generate(generate_seed) self.dbus_interface_add(IFACE_IP4_CONFIG, props, IP4Config.PropertiesChanged) self.export() def _props_generate(self, generate_seed): seed = Util.RandomSeed.wrap(generate_seed) gateway = None if seed: if Util.random_bool(seed): gateway = Util.random_ip(seed, net = '192.168.0.0/16')[0] addrs = [] if seed: for n in range(0, Util.random_int(seed, 4)): a = { 'addr': Util.random_ip(seed, net = '192.168.0.0/16')[0], 'prefix': Util.random_int(seed, 17, 32), 'gateway': gateway if n == 0 else None, } addrs.append(a) routes = [] if seed: for n in range(0, Util.random_int(seed, 4)): a = { 'dest': Util.random_ip(seed, net = '192.168.0.0/16')[0], 'prefix': Util.random_int(seed, 17, 32), 'next-hop': None if (Util.random_int(seed) % 3 == 0) else Util.random_ip(seed, net = '192.168.0.0/16')[0], 'metric': -1 if (Util.random_int(seed) % 3 == 0) else Util.random_int(seed, 0, 0xFFFFFFFF), } routes.append(a) nameservers = [] if seed: nameservers = list([Util.random_ip(seed, net = '192.168.0.0/16')[0] for x in range(Util.random_int(seed, 4))]) names_selection = ['foo1.bar', 'foo2.bar', 'foo3.bar', 'foo4.bar', 'fo.o.bar', 'fo.x.y']; domains = [] if seed: domains = Util.random_subset(seed, ['dom4.' + s for s in names_selection]) searches = [] if seed: domains = Util.random_subset(seed, ['sear4.' + s for s in names_selection]) dnsoptions = [] if seed: dnsoptions = Util.random_subset(seed, ['dns4-opt1', 'dns4-opt2', 'dns4-opt3', 'dns4-opt4']) dnspriority = 0 if seed: dnspriority = Util.random_int(seed, -10000, 10000) winsservers = [] if seed: winsservers = list([Util.random_ip(seed, net = '192.168.0.0/16')[0] for x in range(Util.random_int(seed, 4))]) return { PRP_IP4_CONFIG_ADDRESSES: dbus.Array([ [ Util.ip4_addr_be32(a['addr']), a['prefix'], Util.ip4_addr_be32(a['gateway']) if a['gateway'] else 0 ] for a in addrs ], 'au'), PRP_IP4_CONFIG_ADDRESSDATA: dbus.Array([ dbus.Dictionary(collections.OrderedDict( [ ('address', dbus.String(a['addr'])), ('prefix', dbus.UInt32(a['prefix']))] + \ ([ ('gateway', dbus.String(a['gateway'])) ] if a['gateway'] else [])), 'sv') for a in addrs ], 'a{sv}'), PRP_IP4_CONFIG_GATEWAY: dbus.String(gateway) if gateway else "", PRP_IP4_CONFIG_ROUTES: dbus.Array([ [ Util.ip4_addr_be32(a['dest']), a['prefix'], Util.ip4_addr_be32(a['next-hop'] or '0.0.0.0'), max(a['metric'], 0) ] for a in routes ], 'au'), PRP_IP4_CONFIG_ROUTEDATA: dbus.Array([ dbus.Dictionary(collections.OrderedDict( [ ('dest', dbus.String(a['dest'])), ('prefix', dbus.UInt32(a['prefix']))] + \ ([ ('next-hop', dbus.String(a['next-hop'])) ] if a['next-hop'] else []) + \ ([ ('metric', dbus.UInt32(a['metric'])) ] if a['metric'] != -1 else [])), 'sv') for a in routes ], 'a{sv}'), PRP_IP4_CONFIG_NAMESERVERS: dbus.Array([dbus.UInt32(Util.ip4_addr_be32(n)) for n in nameservers], 'u'), PRP_IP4_CONFIG_DOMAINS: dbus.Array(domains, 's'), PRP_IP4_CONFIG_SEARCHES: dbus.Array(searches, 's'), PRP_IP4_CONFIG_DNSOPTIONS: dbus.Array(dnsoptions, 's'), PRP_IP4_CONFIG_DNSPRIORITY: dbus.Int32(dnspriority), PRP_IP4_CONFIG_WINSSERVERS: dbus.Array([dbus.UInt32(Util.ip4_addr_be32(n)) for n in winsservers], 'u'), } def props_regenerate(self, generate_seed): props = self.generate_props(generate_seed) for k,v in props.items(): self._dbus_property_set(IFACE_IP4_CONFIG, k, v) @dbus.service.signal(IFACE_IP4_CONFIG, signature='a{sv}') def PropertiesChanged(self, path): pass ############################################################################### PRP_IP6_CONFIG_ADDRESSES = "Addresses" PRP_IP6_CONFIG_ADDRESSDATA = "AddressData" PRP_IP6_CONFIG_GATEWAY = "Gateway" PRP_IP6_CONFIG_ROUTES = "Routes" PRP_IP6_CONFIG_ROUTEDATA = "RouteData" PRP_IP6_CONFIG_NAMESERVERS = "Nameservers" PRP_IP6_CONFIG_DOMAINS = "Domains" PRP_IP6_CONFIG_SEARCHES = "Searches" PRP_IP6_CONFIG_DNSOPTIONS = "DnsOptions" PRP_IP6_CONFIG_DNSPRIORITY = "DnsPriority" class IP6Config(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/IP6Config/" def __init__(self, generate_seed = _DEFAULT_ARG): ExportedObj.__init__(self, ExportedObj.create_path(IP6Config)) if generate_seed == _DEFAULT_ARG: generate_seed = self.path props = self._props_generate(generate_seed) self.dbus_interface_add(IFACE_IP6_CONFIG, props, IP6Config.PropertiesChanged) self.export() def _props_generate(self, generate_seed): seed = Util.RandomSeed.wrap(generate_seed) gateway = None if seed: if Util.random_bool(seed): gateway = Util.random_ip(seed, net = '2001:a::/64')[0] addrs = [] if seed: for n in range(0, Util.random_int(seed, 4)): a = { 'addr': Util.random_ip(seed, net = '2001:a::/64')[0], 'prefix': Util.random_int(seed, 65, 128), 'gateway': gateway if n == 0 else None, } addrs.append(a) routes = [] if seed: for n in range(0, Util.random_int(seed, 4)): a = { 'dest': Util.random_ip(seed, net = '2001:a::/64')[0], 'prefix': Util.random_int(seed, 65, 128), 'next-hop': None if (Util.random_int(seed) % 3 == 0) else Util.random_ip(seed, net = '2001:a::/64')[0], 'metric': -1 if (Util.random_int(seed) % 3 == 0) else Util.random_int(seed, 0, 0xFFFFFFFF), } routes.append(a) nameservers = [] if seed: nameservers = list([Util.random_ip(seed, net = '2001:a::/64')[0] for x in range(Util.random_int(seed, 4))]) names_selection = ['foo1.bar', 'foo2.bar', 'foo3.bar', 'foo4.bar', 'fo.o.bar', 'fo.x.y']; domains = [] if seed: domains = Util.random_subset(seed, ['dom6.' + s for s in names_selection]) searches = [] if seed: domains = Util.random_subset(seed, ['sear6.' + s for s in names_selection]) dnsoptions = [] if seed: dnsoptions = Util.random_subset(seed, ['dns6-opt1', 'dns6-opt2', 'dns6-opt3', 'dns6-opt4']) dnspriority = 0 if seed: dnspriority = Util.random_int(seed, -10000, 10000) return { PRP_IP6_CONFIG_ADDRESSES: dbus.Array([ [ Util.ip6_addr_ay(a['addr']), a['prefix'], Util.ip6_addr_ay(a['gateway'] or '::') ] for a in addrs ], '(ayuay)'), PRP_IP6_CONFIG_ADDRESSDATA: dbus.Array([ dbus.Dictionary(collections.OrderedDict( [ ('address', dbus.String(a['addr'])), ('prefix', dbus.UInt32(a['prefix']))] + \ ([ ('gateway', dbus.String(a['gateway'])) ] if a['gateway'] else [])), 'sv') for a in addrs ], 'a{sv}'), PRP_IP6_CONFIG_GATEWAY: dbus.String(gateway) if gateway else "", PRP_IP6_CONFIG_ROUTES: dbus.Array([ [ Util.ip6_addr_ay(a['dest']), a['prefix'], Util.ip6_addr_ay(a['next-hop'] or '::'), max(a['metric'], 0) ] for a in routes ], '(ayuayu)'), PRP_IP6_CONFIG_ROUTEDATA: dbus.Array([ dbus.Dictionary(collections.OrderedDict( [ ('dest', dbus.String(a['dest'])), ('prefix', dbus.UInt32(a['prefix']))] + \ ([ ('next-hop', dbus.String(a['next-hop'])) ] if a['next-hop'] else []) + \ ([ ('metric', dbus.UInt32(a['metric'])) ] if a['metric'] != -1 else [])), 'sv') for a in routes ], 'a{sv}'), PRP_IP6_CONFIG_NAMESERVERS: dbus.Array([Util.ip6_addr_ay(n) for n in nameservers], 'ay'), PRP_IP6_CONFIG_DOMAINS: dbus.Array(domains, 's'), PRP_IP6_CONFIG_SEARCHES: dbus.Array(searches, 's'), PRP_IP6_CONFIG_DNSOPTIONS: dbus.Array(dnsoptions, 's'), PRP_IP6_CONFIG_DNSPRIORITY: dbus.Int32(dnspriority), } def props_regenerate(self, generate_seed): props = self.generate_props(generate_seed) for k,v in props.items(): self._dbus_property_set(IFACE_IP6_CONFIG, k, v) @dbus.service.signal(IFACE_IP6_CONFIG, signature='a{sv}') def PropertiesChanged(self, path): pass ############################################################################### PRP_DHCP4_CONFIG_OPTIONS = 'Options' class Dhcp4Config(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/DHCP4Config/" def __init__(self, generate_seed = _DEFAULT_ARG): ExportedObj.__init__(self, ExportedObj.create_path(Dhcp4Config)) if generate_seed == _DEFAULT_ARG: generate_seed = self.path props = self._props_generate(generate_seed) self.dbus_interface_add(IFACE_DHCP4_CONFIG, props, Dhcp4Config.PropertiesChanged) self.export() def _props_generate(self, generate_seed): seed = Util.RandomSeed.wrap(generate_seed) options = [] if seed: options = Util.random_subset(seed, [('dhcp-4-opt-' + str(i), 'val-' + str(i)) for i in range(10)]) return { PRP_DHCP4_CONFIG_OPTIONS: dbus.Dictionary(collections.OrderedDict(options), 'sv') } def props_regenerate(self, generate_seed): props = self.generate_props(generate_seed) for k,v in props.items(): self._dbus_property_set(IFACE_DHCP4_CONFIG, k, v) @dbus.service.signal(IFACE_DHCP4_CONFIG, signature='a{sv}') def PropertiesChanged(self, path): pass ############################################################################### PRP_DHCP6_CONFIG_OPTIONS = 'Options' class Dhcp6Config(ExportedObj): path_counter_next = 1 path_prefix = "/org/freedesktop/NetworkManager/DHCP6Config/" def __init__(self, generate_seed = _DEFAULT_ARG): ExportedObj.__init__(self, ExportedObj.create_path(Dhcp6Config)) if generate_seed == _DEFAULT_ARG: generate_seed = self.path props = self._props_generate(generate_seed) self.dbus_interface_add(IFACE_DHCP6_CONFIG, props, Dhcp6Config.PropertiesChanged) self.export() def _props_generate(self, generate_seed): seed = Util.RandomSeed.wrap(generate_seed) options = [] if seed: options = Util.random_subset(seed, [('dhcp-6-opt-' + str(i), 'val-' + str(i)) for i in range(10)]) return { PRP_DHCP4_CONFIG_OPTIONS: dbus.Dictionary(collections.OrderedDict(options), 'sv') } def props_regenerate(self, generate_seed): props = self.generate_props(generate_seed) for k,v in props.items(): self._dbus_property_set(IFACE_DHCP6_CONFIG, k, v) @dbus.service.signal(IFACE_DHCP6_CONFIG, signature='a{sv}') def PropertiesChanged(self, path): pass ############################################################################### PRP_DNS_MANAGER_MODE = 'Mode' PRP_DNS_MANAGER_RC_MANAGER = 'RcManager' PRP_DNS_MANAGER_CONFIGURATION = 'Configuration' class DnsManager(ExportedObj): def __init__(self): ExportedObj.__init__(self, "/org/freedesktop/NetworkManager/DnsManager") props = { PRP_DNS_MANAGER_MODE: "dnsmasq", PRP_DNS_MANAGER_RC_MANAGER: "symlink", PRP_DNS_MANAGER_CONFIGURATION: dbus.Array( [ dbus.Dictionary( { 'nameservers' : dbus.Array(['1.2.3.4', '5.6.7.8'], 's'), 'priority' : dbus.Int32(100), }, 'sv') ], 'a{sv}'), } self.dbus_interface_add(IFACE_DNS_MANAGER, props) self.export() ############################################################################### PATH_SECRET_AGENT = '/org/freedesktop/NetworkManager/SecretAgent' FLAG_ALLOW_INTERACTION = 0x1 FLAG_REQUEST_NEW = 0x2 FLAG_USER_REQUESTED = 0x4 class AgentManager(dbus.service.Object): def __init__(self): dbus.service.Object.__init__(self, gl.bus, "/org/freedesktop/NetworkManager/AgentManager") self.agents = {} @dbus.service.method(dbus_interface=IFACE_AGENT_MANAGER, in_signature='s', out_signature='', sender_keyword='sender') def Register(self, name, sender=None): self.RegisterWithCapabilities(name, 0, sender) @dbus.service.method(dbus_interface=IFACE_AGENT_MANAGER, in_signature='su', out_signature='', sender_keyword='sender') def RegisterWithCapabilities(self, name, caps, sender=None): self.agents[sender] = gl.bus.get_object(sender, PATH_SECRET_AGENT) @dbus.service.method(dbus_interface=IFACE_AGENT_MANAGER, in_signature='', out_signature='', sender_keyword='sender') def Unregister(self, sender=None): del self.agents[sender] def get_secrets(self, con_hash, path, setting_name): if len(self.agents) == 0: return None secrets = {} for sender in self.agents: agent = self.agents[sender] try: secrets = agent.GetSecrets(con_hash, path, setting_name, dbus.Array([], 's'), FLAG_ALLOW_INTERACTION | FLAG_USER_REQUESTED, dbus_interface=IFACE_AGENT) break except dbus.DBusException as e: if e.get_dbus_name() == IFACE_AGENT + '.UserCanceled': raise BusErr.UserCanceledException('User canceled') continue return secrets ############################################################################### class ObjectManager(dbus.service.Object): def __init__(self, object_path): dbus.service.Object.__init__(self, gl.bus, object_path) self.objs = [] def find_object(self, path): for o in self.objs: if path == o.path: return o return None def add_object(self, obj): self.objs.append(obj) self.InterfacesAdded(obj.path, obj.get_managed_ifaces()) def remove_object(self, obj): self.objs.remove(obj) self.InterfacesRemoved(obj.path, obj.get_managed_ifaces().keys()) @dbus.service.signal(IFACE_OBJECT_MANAGER, signature='oa{sa{sv}}') def InterfacesAdded(self, name, ifaces): pass @dbus.service.signal(IFACE_OBJECT_MANAGER, signature='oas') def InterfacesRemoved(self, name, ifaces): pass @dbus.service.method(dbus_interface=IFACE_OBJECT_MANAGER, in_signature='', out_signature='a{oa{sa{sv}}}', sender_keyword='sender') def GetManagedObjects(self, sender=None): managed_objects = {} for obj in self.objs: managed_objects[obj.path] = obj.get_managed_ifaces() return managed_objects ############################################################################### def main(): dbus.mainloop.glib.DBusGMainLoop(set_as_default=True) random.seed() global gl gl = Global() gl.mainloop = GLib.MainLoop() gl.bus = dbus.SessionBus() gl.object_manager = ObjectManager('/org/freedesktop') gl.manager = NetworkManager() gl.settings = Settings() gl.dns_manager = DnsManager() gl.agent_manager = AgentManager() if not gl.bus.request_name("org.freedesktop.NetworkManager"): raise AssertionError("Failure to request D-Bus name org.freedesktop.NetworkManager") # Watch stdin; if it closes, assume our parent has crashed, and exit id1 = GLib.IOChannel(0).add_watch(GLib.IOCondition.HUP, lambda io, condition: gl.mainloop.quit() or True) gl.mainloop.run() GLib.source_remove(id1) gl.agent_manager.remove_from_connection() gl.dns_manager.unexport() gl.settings.unexport() gl.manager.unexport() gl.object_manager.remove_from_connection() sys.exit(0) if __name__ == '__main__': main()