client/cros/tendo/peerd_dbus_helper.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright 2014 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import collections
 import dbus
 import dbus.mainloop.glib
 import logging
 import time

 from autotest_lib.client.common_lib import error
 from autotest_lib.client.common_lib import utils
 from autotest_lib.client.cros import dbus_util

 Service = collections.namedtuple('Service',
                                  ['service_id', 'service_info', 'service_ips'])
 Peer = collections.namedtuple('Peer', ['uuid', 'last_seen', 'services'])

 # DBus constants for use with peerd.
 SERVICE_NAME = 'org.chromium.peerd'
 DBUS_INTERFACE_MANAGER = 'org.chromium.peerd.Manager'
 DBUS_INTERFACE_PEER = 'org.chromium.peerd.Peer'
 DBUS_INTERFACE_SERVICE = 'org.chromium.peerd.Service'
 DBUS_INTERFACE_OBJECT_MANAGER = 'org.freedesktop.DBus.ObjectManager'
 DBUS_PATH_MANAGER = '/org/chromium/peerd/Manager'
 DBUS_PATH_OBJECT_MANAGER = '/org/chromium/peerd'
 DBUS_PATH_SELF = '/org/chromium/peerd/Self'
 PEER_PATH_PREFIX = '/org/chromium/peerd/peers/'
 PEER_PROPERTY_ID = 'UUID'
 PEER_PROPERTY_LAST_SEEN = 'LastSeen'
 SERVICE_PROPERTY_ID = 'ServiceId'
 SERVICE_PROPERTY_INFO = 'ServiceInfo'
 SERVICE_PROPERTY_IPS = 'IpInfos'
 SERVICE_PROPERTY_PEER_ID = 'PeerId'

 # Possible technologies for use with PeerdDBusHelper.start_monitoring().
 TECHNOLOGY_ALL = 'all'
 TECHNOLOGY_MDNS = 'mDNS'

 # We can give some options to ExposeService.
 EXPOSE_SERVICE_SECTION_MDNS = 'mdns'
 EXPOSE_SERVICE_MDNS_PORT = 'port'

 def make_helper(peerd_config, bus=None, timeout_seconds=10):
     """Wait for peerd to come up, then return a PeerdDBusHelper for it.

     @param peerd_config: a PeerdConfig object.
     @param bus: DBus bus to use, or specify None to create one internally.
     @param timeout_seconds: number of seconds to wait for peerd to come up.
     @return PeerdDBusHelper instance if peerd comes up, None otherwise.

     """
     start_time = time.time()
     peerd_config.restart_with_config(timeout_seconds=timeout_seconds)
     if bus is None:
         dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)
         bus = dbus.SystemBus()
     while time.time() - start_time < timeout_seconds:
         if not bus.name_has_owner(SERVICE_NAME):
             time.sleep(0.2)
         return PeerdDBusHelper(bus)
     raise error.TestFail('peerd did not start in a timely manner.')


 class PeerdDBusHelper(object):
     """Container for convenience methods related to peerd."""

     def __init__(self, bus):
         """Construct a PeerdDBusHelper.

         @param bus: DBus bus to use, or specify None and this object will
                     create a mainloop and bus.

         """
         self._bus = bus
         self._manager = dbus.Interface(
                 self._bus.get_object(SERVICE_NAME, DBUS_PATH_MANAGER),
                 DBUS_INTERFACE_MANAGER)


     def _get_peers(self):
         object_manager = dbus.Interface(
                 self._bus.get_object(SERVICE_NAME, DBUS_PATH_OBJECT_MANAGER),
                 DBUS_INTERFACE_OBJECT_MANAGER)
         # |dbus_objects| is a map<object path,
         #                         map<interface name,
         #                             map<property name, value>>>
         dbus_objects = object_manager.GetManagedObjects()
         objects = dbus_util.dbus2primitive(dbus_objects)
         peer_objects = [(path, interfaces)
                         for path, interfaces in objects.iteritems()
                         if (path.startswith(PEER_PATH_PREFIX) and
                             DBUS_INTERFACE_PEER in interfaces)]
         peers = []
         for peer_path, interfaces in peer_objects:
             service_property_sets = [
                     interfaces[DBUS_INTERFACE_SERVICE]
                     for path, interfaces in objects.iteritems()
                     if (path.startswith(peer_path + '/services/') and
                         DBUS_INTERFACE_SERVICE in interfaces)]
             services = []
             for service_properties in service_property_sets:
                 logging.debug('Found service with properties: %r',
                               service_properties)
                 ip_addrs = [('.'.join(map(str, ip)), port) for ip, port
                             in service_properties[SERVICE_PROPERTY_IPS]]
                 services.append(Service(
                         service_id=service_properties[SERVICE_PROPERTY_ID],
                         service_info=service_properties[SERVICE_PROPERTY_INFO],
                         service_ips=ip_addrs))
             peer_properties = interfaces[DBUS_INTERFACE_PEER]
             peer = Peer(uuid=peer_properties[PEER_PROPERTY_ID],
                         last_seen=peer_properties[PEER_PROPERTY_LAST_SEEN],
                         services=services)
             peers.append(peer)
         return peers


     def close(self):
         """Clean up peerd state related to this helper."""
         utils.run('stop peerd')
         utils.run('start peerd')


     def start_monitoring(self, technologies):
         """Monitor the specified technologies.

         Note that peerd will watch bus connections and stop monitoring a
         technology if this bus connection goes away.A

         @param technologies: iterable container of TECHNOLOGY_* defined above.
         @return string monitoring_token for use with stop_monitoring().

         """
         return self._manager.StartMonitoring(technologies,
                                              dbus.Dictionary(signature='sv'))


     def has_peer(self, uuid):
         """
         Return a Peer instance if peerd has found a matching peer.

         Optional parameters are also matched if not None.

         @param uuid: string unique identifier of peer.
         @return Peer tuple if a matching peer exists, None otherwise.

         """
         peers = self._get_peers()
         logging.debug('Found peers: %r.', peers)
         for peer in peers:
             if peer.uuid != uuid:
                 continue
             return peer
         logging.debug('No peer had a matching ID.')
         return None


     def expose_service(self, service_id, service_info, mdns_options=None):
         """Expose a service via peerd.

         Note that peerd should watch DBus connections and remove this service
         if our bus connection ever goes down.

         @param service_id: string id of service.  See peerd documentation
                            for limitations on this string.
         @param service_info: dict of string, string entries.  See peerd
                              documentation for relevant restrictions.
         @param mdns_options: dict of string, <variant type>.
         @return string service token for use with remove_service().

         """
         options = dbus.Dictionary(signature='sv')
         if mdns_options is not None:
             options[EXPOSE_SERVICE_SECTION_MDNS] = dbus.Dictionary(
                     signature='sv')
             # We're going to do a little work here to make calling us easier.
             for k,v in mdns_options.iteritems():
                 if k == EXPOSE_SERVICE_MDNS_PORT:
                     v = dbus.UInt16(v)
                 options[EXPOSE_SERVICE_SECTION_MDNS][k] = v
         self._manager.ExposeService(service_id, service_info, options)


     def remove_service(self, service_id):
         """Remove a service previously added via expose_service().

         @param service_id: string service ID of service to remove.

         """
         self._manager.RemoveExposedService(service_id)
	# Copyright 2014 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import collections
	import dbus
	import dbus.mainloop.glib
	import logging
	import time

	from autotest_lib.client.common_lib import error
	from autotest_lib.client.common_lib import utils
	from autotest_lib.client.cros import dbus_util

	Service = collections.namedtuple('Service',
	['service_id', 'service_info', 'service_ips'])
	Peer = collections.namedtuple('Peer', ['uuid', 'last_seen', 'services'])

	# DBus constants for use with peerd.
	SERVICE_NAME = 'org.chromium.peerd'
	DBUS_INTERFACE_MANAGER = 'org.chromium.peerd.Manager'
	DBUS_INTERFACE_PEER = 'org.chromium.peerd.Peer'
	DBUS_INTERFACE_SERVICE = 'org.chromium.peerd.Service'
	DBUS_INTERFACE_OBJECT_MANAGER = 'org.freedesktop.DBus.ObjectManager'
	DBUS_PATH_MANAGER = '/org/chromium/peerd/Manager'
	DBUS_PATH_OBJECT_MANAGER = '/org/chromium/peerd'
	DBUS_PATH_SELF = '/org/chromium/peerd/Self'
	PEER_PATH_PREFIX = '/org/chromium/peerd/peers/'
	PEER_PROPERTY_ID = 'UUID'
	PEER_PROPERTY_LAST_SEEN = 'LastSeen'
	SERVICE_PROPERTY_ID = 'ServiceId'
	SERVICE_PROPERTY_INFO = 'ServiceInfo'
	SERVICE_PROPERTY_IPS = 'IpInfos'
	SERVICE_PROPERTY_PEER_ID = 'PeerId'

	# Possible technologies for use with PeerdDBusHelper.start_monitoring().
	TECHNOLOGY_ALL = 'all'
	TECHNOLOGY_MDNS = 'mDNS'

	# We can give some options to ExposeService.
	EXPOSE_SERVICE_SECTION_MDNS = 'mdns'
	EXPOSE_SERVICE_MDNS_PORT = 'port'

	def make_helper(peerd_config, bus=None, timeout_seconds=10):
	"""Wait for peerd to come up, then return a PeerdDBusHelper for it.

	@param peerd_config: a PeerdConfig object.
	@param bus: DBus bus to use, or specify None to create one internally.
	@param timeout_seconds: number of seconds to wait for peerd to come up.
	@return PeerdDBusHelper instance if peerd comes up, None otherwise.

	"""
	start_time = time.time()
	peerd_config.restart_with_config(timeout_seconds=timeout_seconds)
	if bus is None:
	dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)
	bus = dbus.SystemBus()
	while time.time() - start_time < timeout_seconds:
	if not bus.name_has_owner(SERVICE_NAME):
	time.sleep(0.2)
	return PeerdDBusHelper(bus)
	raise error.TestFail('peerd did not start in a timely manner.')


	class PeerdDBusHelper(object):
	"""Container for convenience methods related to peerd."""

	def __init__(self, bus):
	"""Construct a PeerdDBusHelper.

	@param bus: DBus bus to use, or specify None and this object will
	create a mainloop and bus.

	"""
	self._bus = bus
	self._manager = dbus.Interface(
	self._bus.get_object(SERVICE_NAME, DBUS_PATH_MANAGER),
	DBUS_INTERFACE_MANAGER)


	def _get_peers(self):
	object_manager = dbus.Interface(
	self._bus.get_object(SERVICE_NAME, DBUS_PATH_OBJECT_MANAGER),
	DBUS_INTERFACE_OBJECT_MANAGER)
	# \|dbus_objects\| is a map<object path,
	# map<interface name,
	# map<property name, value>>>
	dbus_objects = object_manager.GetManagedObjects()
	objects = dbus_util.dbus2primitive(dbus_objects)
	peer_objects = [(path, interfaces)
	for path, interfaces in objects.iteritems()
	if (path.startswith(PEER_PATH_PREFIX) and
	DBUS_INTERFACE_PEER in interfaces)]
	peers = []
	for peer_path, interfaces in peer_objects:
	service_property_sets = [
	interfaces[DBUS_INTERFACE_SERVICE]
	for path, interfaces in objects.iteritems()
	if (path.startswith(peer_path + '/services/') and
	DBUS_INTERFACE_SERVICE in interfaces)]
	services = []
	for service_properties in service_property_sets:
	logging.debug('Found service with properties: %r',
	service_properties)
	ip_addrs = [('.'.join(map(str, ip)), port) for ip, port
	in service_properties[SERVICE_PROPERTY_IPS]]
	services.append(Service(
	service_id=service_properties[SERVICE_PROPERTY_ID],
	service_info=service_properties[SERVICE_PROPERTY_INFO],
	service_ips=ip_addrs))
	peer_properties = interfaces[DBUS_INTERFACE_PEER]
	peer = Peer(uuid=peer_properties[PEER_PROPERTY_ID],
	last_seen=peer_properties[PEER_PROPERTY_LAST_SEEN],
	services=services)
	peers.append(peer)
	return peers


	def close(self):
	"""Clean up peerd state related to this helper."""
	utils.run('stop peerd')
	utils.run('start peerd')


	def start_monitoring(self, technologies):
	"""Monitor the specified technologies.

	Note that peerd will watch bus connections and stop monitoring a
	technology if this bus connection goes away.A

	@param technologies: iterable container of TECHNOLOGY_* defined above.
	@return string monitoring_token for use with stop_monitoring().

	"""
	return self._manager.StartMonitoring(technologies,
	dbus.Dictionary(signature='sv'))


	def has_peer(self, uuid):
	"""
	Return a Peer instance if peerd has found a matching peer.

	Optional parameters are also matched if not None.

	@param uuid: string unique identifier of peer.
	@return Peer tuple if a matching peer exists, None otherwise.

	"""
	peers = self._get_peers()
	logging.debug('Found peers: %r.', peers)
	for peer in peers:
	if peer.uuid != uuid:
	continue
	return peer
	logging.debug('No peer had a matching ID.')
	return None


	def expose_service(self, service_id, service_info, mdns_options=None):
	"""Expose a service via peerd.

	Note that peerd should watch DBus connections and remove this service
	if our bus connection ever goes down.

	@param service_id: string id of service. See peerd documentation
	for limitations on this string.
	@param service_info: dict of string, string entries. See peerd
	documentation for relevant restrictions.
	@param mdns_options: dict of string, <variant type>.
	@return string service token for use with remove_service().

	"""
	options = dbus.Dictionary(signature='sv')
	if mdns_options is not None:
	options[EXPOSE_SERVICE_SECTION_MDNS] = dbus.Dictionary(
	signature='sv')
	# We're going to do a little work here to make calling us easier.
	for k,v in mdns_options.iteritems():
	if k == EXPOSE_SERVICE_MDNS_PORT:
	v = dbus.UInt16(v)
	options[EXPOSE_SERVICE_SECTION_MDNS][k] = v
	self._manager.ExposeService(service_id, service_info, options)


	def remove_service(self, service_id):
	"""Remove a service previously added via expose_service().

	@param service_id: string service ID of service to remove.

	"""
	self._manager.RemoveExposedService(service_id)