virt-manager/virtManager/connection.py

#
# Copyright (C) 2006, 2013, 2014 Red Hat, Inc.
# Copyright (C) 2006 Daniel P. Berrange <berrange@redhat.com>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301 USA.
#

from gi.repository import GObject

import logging
import os
import re
import socket
import time
import traceback

import libvirt
import virtinst
from virtinst import pollhelpers
from virtinst import util

from . import connectauth
from .baseclass import vmmGObject
from .domain import vmmDomain
from .interface import vmmInterface
from .mediadev import vmmMediaDevice
from .network import vmmNetwork
from .nodedev import vmmNodeDevice
from .storagepool import vmmStoragePool


# debugging helper to turn off events
_disable_libvirt_events = False


class vmmConnection(vmmGObject):
    __gsignals__ = {
        "vm-added": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "vm-removed": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "net-added": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "net-removed": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "net-started": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "net-stopped": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "pool-added": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "pool-removed": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "pool-started": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "pool-stopped": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "interface-added": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "interface-removed": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "interface-started": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "interface-stopped": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "nodedev-added": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "nodedev-removed": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "mediadev-added": (GObject.SignalFlags.RUN_FIRST, None, [object]),
        "mediadev-removed": (GObject.SignalFlags.RUN_FIRST, None, [str]),
        "resources-sampled": (GObject.SignalFlags.RUN_FIRST, None, []),
        "state-changed": (GObject.SignalFlags.RUN_FIRST, None, []),
        "connect-error": (GObject.SignalFlags.RUN_FIRST, None,
                          [str, str, bool]),
        "priority-tick": (GObject.SignalFlags.RUN_FIRST, None, [object]),
    }

    (_STATE_DISCONNECTED,
     _STATE_CONNECTING,
     _STATE_ACTIVE) = range(1, 4)

    def __init__(self, uri):
        vmmGObject.__init__(self)

        self._uri = uri
        if self._uri is None or self._uri.lower() == "xen":
            self._uri = "xen:///"

        self._state = self._STATE_DISCONNECTED
        self._backend = virtinst.VirtualConnection(self._uri)
        self._closing = False

        self._caps = None
        self._caps_xml = None

        self._network_capable = None
        self._storage_capable = None
        self._interface_capable = None
        self._nodedev_capable = None

        self.using_domain_events = False
        self._domain_cb_ids = []
        self.using_network_events = False
        self._network_cb_ids = []

        self._xml_flags = {}

        # Physical network interfaces: name -> virtinst.NodeDevice
        self._nodedevs = {}
        # Physical media devices: vmmMediaDevice.key -> vmmMediaDevice
        self._mediadevs = {}
        # Connection Storage pools: name -> vmmInterface
        self._interfaces = {}
        # Connection Storage pools: name -> vmmStoragePool
        self._pools = {}
        # Virtual networks: name -> vmmNetwork object
        self._nets = {}
        # Virtual machines: name -> vmmDomain object
        self._vms = {}
        # Resource utilization statistics
        self.record = []
        self.hostinfo = None

        self.mediadev_initialized = False
        self.mediadev_error = ""
        self.mediadev_use_libvirt = False

        self._init_virtconn()


    @staticmethod
    def pretty_hv(gtype, domtype):
        """
        Convert XML <domain type='foo'> and <os><type>bar</type>
        into a more human relevant string.
        """

        gtype = gtype.lower()
        domtype = domtype.lower()

        label = domtype
        if domtype == "kvm":
            if gtype == "xen":
                label = "xenner"
        elif domtype == "xen":
            if gtype == "xen":
                label = "xen (paravirt)"
            elif gtype == "hvm":
                label = "xen (fullvirt)"
        elif domtype == "test":
            if gtype == "xen":
                label = "test (xen)"
            elif gtype == "hvm":
                label = "test (hvm)"

        return label

    #################
    # Init routines #
    #################

    def _init_virtconn(self):
        self._backend.cb_fetch_all_guests = (
            lambda: [obj.get_xmlobj(refresh_if_nec=False)
                     for obj in self._vms.values()])
        self._backend.cb_fetch_all_pools = (
            lambda: [obj.get_xmlobj(refresh_if_nec=False)
                     for obj in self._pools.values()])
        self._backend.cb_fetch_all_nodedevs = (
            lambda: [obj.get_xmlobj(refresh_if_nec=False)
                     for obj in self._nodedevs.values()])

        def fetch_all_vols():
            ret = []
            for pool in self._pools.values():
                for vol in pool.get_volumes().values():
                    try:
                        ret.append(vol.get_xmlobj(refresh_if_nec=False))
                    except Exception, e:
                        logging.debug("Fetching volume XML failed: %s", e)
            return ret
        self._backend.cb_fetch_all_vols = fetch_all_vols

        def clear_cache(pools=False):
            if not pools:
                return

            # We need to do this synchronously
            self.tick(False, pollpool=True)

        self._backend.cb_clear_cache = clear_cache

    def _init_mediadev(self):
        if self.is_nodedev_capable():
            try:
                self.connect("nodedev-added", self._nodedev_mediadev_added)
                self.connect("nodedev-removed", self._nodedev_mediadev_removed)
                self.mediadev_use_libvirt = True
            except Exception, e:
                self.mediadev_error = _("Could not build media "
                                        "list via libvirt: %s") % str(e)
        else:
            self.mediadev_error = _("Libvirt version does not support "
                                    "media listing.")

        self.mediadev_initialized = True
        if self.mediadev_error:
            logging.debug(self.mediadev_error)
        else:
            if self.mediadev_use_libvirt:
                logging.debug("Using libvirt API for mediadev enumeration")
            else:
                logging.debug("Using HAL for mediadev enumeration")


    ########################
    # General data getters #
    ########################

    def get_uri(self):
        return self._uri
    def get_backend(self):
        return self._backend

    def invalidate_caps(self):
        return self._backend.invalidate_caps()
    caps = property(lambda self: getattr(self, "_backend").caps)

    def get_host_info(self):
        return self.hostinfo

    def pretty_host_memory_size(self):
        if not self._backend.is_open():
            return ""
        return util.pretty_mem(self.host_memory_size())

    def host_memory_size(self):
        if not self._backend.is_open():
            return 0
        return self.hostinfo[1] * 1024

    def host_architecture(self):
        if not self._backend.is_open():
            return ""
        return self.hostinfo[0]

    def host_active_processor_count(self):
        if not self._backend.is_open():
            return 0
        return self.hostinfo[2]

    def host_maximum_processor_count(self):
        if not self._backend.is_open():
            return 0
        return (self.hostinfo[4] * self.hostinfo[5] *
                self.hostinfo[6] * self.hostinfo[7])

    def connect(self, name, callback, *args):
        handle_id = vmmGObject.connect(self, name, callback, *args)

        if name == "vm-added":
            for connkey in self._vms.keys():
                self.emit("vm-added", connkey)
        elif name == "mediadev-added":
            for dev in self._mediadevs.values():
                self.emit("mediadev-added", dev)
        elif name == "nodedev-added":
            for connkey in self._nodedevs.keys():
                self.emit("nodedev-added", connkey)

        return handle_id

    ##########################
    # URI + hostname helpers #
    ##########################

    def get_qualified_hostname(self):
        if self.check_support(self._backend.SUPPORT_CONN_GETHOSTNAME):
            return self._backend.getHostname()

        uri_hostname = self.get_uri_hostname()
        if self.is_remote() and uri_hostname.lower() != "localhost":
            return uri_hostname

        # This can throw an exception, so beware when calling!
        return socket.gethostbyaddr(socket.gethostname())[0]

    def get_short_hostname(self):
        hostname = self.get_hostname()
        offset = hostname.find(".")
        if offset > 0 and not hostname[0].isdigit():
            return hostname[0:offset]
        return hostname

    def get_hostname(self):
        try:
            return self.get_qualified_hostname()
        except:
            return self.get_uri_hostname()

    get_uri_hostname = property(lambda s:
                                getattr(s, "_backend").get_uri_hostname)
    get_transport = property(lambda s:
                             getattr(s, "_backend").get_uri_transport)
    get_driver = property(lambda s: getattr(s, "_backend").get_uri_driver)
    is_container = property(lambda s: getattr(s, "_backend").is_container)
    is_lxc = property(lambda s: getattr(s, "_backend").is_lxc)
    is_openvz = property(lambda s: getattr(s, "_backend").is_openvz)
    is_xen = property(lambda s: getattr(s, "_backend").is_xen)
    is_remote = property(lambda s: getattr(s, "_backend").is_remote)
    is_qemu = property(lambda s: getattr(s, "_backend").is_qemu)
    is_qemu_system = property(lambda s: getattr(s, "_backend").is_qemu_system)
    is_qemu_session = property(lambda s:
                               getattr(s, "_backend").is_qemu_session)
    is_test_conn = property(lambda s: getattr(s, "_backend").is_test)
    is_session_uri = property(lambda s: getattr(s, "_backend").is_session_uri)


    # Connection capabilities debug helpers
    def stable_defaults(self, emulator=None):
        if not self.is_qemu_system():
            return False
        if emulator:
            if not str(emulator).startswith("/usr/libexec"):
                return False
        else:
            for guest in self.caps.guests:
                for dom in guest.domains:
                    if dom.emulator.startswith("/usr/libexec"):
                        return self.config.stable_defaults
        return self.config.stable_defaults

    def get_cache_dir(self):
        uri = self.get_uri().replace("/", "_")
        ret = os.path.join(util.get_cache_dir(), uri)
        if not os.path.exists(ret):
            os.makedirs(ret, 0755)
        return ret

    def get_default_storage_format(self):
        raw = self.config.get_default_storage_format(raw=True)
        if raw != "default":
            return raw

        fmt = self.config.get_default_storage_format()
        if fmt != "qcow2":
            return fmt

        if self.check_support(self._backend.SUPPORT_CONN_DEFAULT_QCOW2):
            return fmt
        return None


    ####################################
    # Connection pretty print routines #
    ####################################

    def get_pretty_desc(self, shorthost=True, show_transport=False,
        show_user=False, show_kvm=False):
        """
        @show_kvm: Show hv as QEMU/KVM. Only works if connection is
            active though
        """
        def match_whole_string(orig, reg):
            match = re.match(reg, orig)
            if not match:
                return False

            return ((match.end() - match.start()) == len(orig))

        def is_ip_addr(orig):
            return match_whole_string(orig, "[0-9.]+")

        (scheme, username, hostname,
         path, ignore, ignore) = util.uri_split(self.get_uri())
        hostname, port = self.get_backend().get_uri_host_port()
        port = port or ""

        hv = ""
        rest = ""
        transport = ""
        port = ""
        if scheme.count("+"):
            transport = scheme.split("+")[1]
            scheme = scheme.split("+")[0]

        if hostname:
            if show_user and username:
                hostname = username + "@" + hostname
            if port:
                hostname += ":" + port

            if shorthost and not is_ip_addr(hostname):
                rest = hostname.split(".")[0]
            else:
                rest = hostname
        else:
            rest = "localhost"

        pretty_map = {
            "esx"       : "ESX",
            "gsx"       : "GSX",
            "libxl"     : "libxl",
            "lxc"       : "LXC",
            "openvz"    : "OpenVZ",
            "phyp"      : "phyp",
            "qemu"      : "QEMU",
            "test"      : "test",
            "uml"       : "UML",
            "vbox"      : "VBox",
            "vmware"    : "VMWare",
            "xen"       : "xen",
            "xenapi"    : "XenAPI",
        }

        hv = scheme
        if scheme in pretty_map:
            hv = pretty_map[scheme]

        if hv == "QEMU" and show_kvm and self.caps.is_kvm_available():
            hv += "/KVM"

        if show_transport and transport:
            hv += "+" + transport

        if path and path != "/system" and path != "/":
            if path == "/session":
                hv += " Usermode"
            else:
                hv += " %s" % os.path.basename(path)

        if self._backend.fake_name():
            hv = self._backend.fake_name()

        return "%s (%s)" % (rest, hv)


    #######################
    # API support helpers #
    #######################

    for _supportname in [_supportname for _supportname in
                         dir(virtinst.VirtualConnection) if
                         _supportname.startswith("SUPPORT_")]:
        locals()[_supportname] = getattr(virtinst.VirtualConnection,
                                         _supportname)
    def check_support(self, *args):
        return self._backend.check_support(*args)

    def is_storage_capable(self):
        if self._storage_capable is None:
            self._storage_capable = self.check_support(
                                        self._backend.SUPPORT_CONN_STORAGE)
            if self._storage_capable is False:
                logging.debug("Connection doesn't seem to support storage "
                              "APIs. Skipping all storage polling.")
            else:
                # Try to create the default storage pool
                try:
                    virtinst.StoragePool.build_default_pool(self.get_backend())
                except Exception, e:
                    logging.debug("Building default pool failed: %s", str(e))

        return self._storage_capable

    def is_network_capable(self):
        if self._network_capable is None:
            self._network_capable = self.check_support(
                                       self._backend.SUPPORT_CONN_NETWORK)
            if self._network_capable is False:
                logging.debug("Connection doesn't seem to support network "
                              "APIs. Skipping all network polling.")

        return self._network_capable

    def is_interface_capable(self):
        if self._interface_capable is None:
            self._interface_capable = self.check_support(
                                       self._backend.SUPPORT_CONN_INTERFACE)
            if self._interface_capable is False:
                logging.debug("Connection doesn't seem to support interface "
                              "APIs. Skipping all interface polling.")

        return self._interface_capable

    def is_nodedev_capable(self):
        if self._nodedev_capable is None:
            self._nodedev_capable = self.check_support(
                                            self._backend.SUPPORT_CONN_NODEDEV)
        return self._nodedev_capable

    def _get_flags_helper(self, obj, key, check_func):
        ignore = obj
        flags_dict = self._xml_flags.get(key)

        if flags_dict is None:
            # Flags already set
            inact, act = check_func()
            flags_dict = {}
            flags_dict["active"] = act
            flags_dict["inactive"] = inact

            self._xml_flags[key] = flags_dict

        active_flags   = flags_dict["active"]
        inactive_flags = flags_dict["inactive"]

        return (inactive_flags, active_flags)

    def get_dom_flags(self, vm):
        key = "domain"

        def check_func():
            act   = 0
            inact = 0

            if self.check_support(
                self._backend.SUPPORT_DOMAIN_XML_INACTIVE, vm):
                inact = libvirt.VIR_DOMAIN_XML_INACTIVE
            else:
                logging.debug("Domain XML inactive flag not supported.")

            if self.check_support(
                self._backend.SUPPORT_DOMAIN_XML_SECURE, vm):
                inact |= libvirt.VIR_DOMAIN_XML_SECURE
                act = libvirt.VIR_DOMAIN_XML_SECURE
            else:
                logging.debug("Domain XML secure flag not supported.")

            return inact, act

        return self._get_flags_helper(vm, key, check_func)

    def get_interface_flags(self, iface):
        key = "interface"

        def check_func():
            act   = 0
            inact = 0

            if self.check_support(
                self._backend.SUPPORT_INTERFACE_XML_INACTIVE, iface):
                inact = libvirt.VIR_INTERFACE_XML_INACTIVE
            else:
                logging.debug("Interface XML inactive flag not supported.")

            return (inact, act)

        return self._get_flags_helper(iface, key, check_func)

    def get_default_pool(self):
        for p in self._pools.values():
            if p.get_name() == "default":
                return p
        return None

    def get_vol_by_path(self, path):
        # path_exists will handle stuff like refreshing a busted pool
        if not virtinst.VirtualDisk.path_definitely_exists(self.get_backend(),
                                                           path):
            return None

        for pool in self._pools.values():
            for vol in pool.get_volumes().values():
                if vol.get_target_path() == path:
                    return vol
        return None


    ###################################
    # Connection state getter/setters #
    ###################################

    def _change_state(self, newstate):
        if self._state != newstate:
            self._state = newstate
            logging.debug("conn=%s changed to state=%s",
                self.get_uri(), self.get_state_text())
            self.emit("state-changed")

    def is_active(self):
        return self._state == self._STATE_ACTIVE
    def is_disconnected(self):
        return self._state == self._STATE_DISCONNECTED
    def is_connecting(self):
        return self._state == self._STATE_CONNECTING

    def get_state_text(self):
        if self.is_disconnected():
            return _("Disconnected")
        elif self.is_connecting():
            return _("Connecting")
        elif self.is_active():
            return _("Active")
        else:
            return _("Unknown")


    #################################
    # Libvirt object lookup methods #
    #################################

    def get_vm(self, connkey):
        return self._vms[connkey]
    def list_vms(self):
        return self._vms.values()

    def get_net(self, connkey):
        return self._nets[connkey]
    def list_nets(self):
        return self._nets.values()

    def get_pool(self, connkey):
        return self._pools[connkey]
    def list_pools(self):
        return self._pools.values()

    def get_interface(self, connkey):
        return self._interfaces[connkey]
    def list_interfaces(self):
        return self._interfaces.values()

    def get_nodedev(self, connkey):
        return self._nodedevs[connkey]
    def get_nodedevs(self, devtype=None, devcap=None):
        retdevs = []
        for dev in self._nodedevs.values():
            xmlobj = dev.get_xmlobj()
            if devtype and xmlobj.device_type != devtype:
                continue

            if devcap:
                if (not hasattr(xmlobj, "capability_type") or
                    xmlobj.capability_type != devcap):
                    continue

            if (devtype == "usb_device" and
                (("Linux Foundation" in str(xmlobj.vendor_name) or
                 ("Linux" in str(xmlobj.vendor_name) and
                  xmlobj.vendor_id == "0x1d6b")) and
                 ("root hub" in str(xmlobj.product_name) or
                  ("host controller" in str(xmlobj.product_name).lower() and
                   str(xmlobj.product_id).startswith("0x000"))))):
                continue

            retdevs.append(xmlobj)

        return retdevs

    def get_nodedevs_number(self, devtype, vendor, product):
        count = 0
        devs = self.get_nodedevs(devtype)

        for dev in devs:
            if (vendor == dev.vendor_id and
                product == dev.product_id):
                count += 1

        logging.debug("There are %d node devices with "
                      "vendorId: %s, productId: %s",
                       count, vendor, product)

        return count


    ###################################
    # Libvirt object creation methods #
    ###################################

    def restore(self, frm):
        self._backend.restore(frm)
        try:
            os.remove(frm)
        except:
            logging.debug("Couldn't remove save file '%s' for restore", frm)

    def define_domain(self, xml):
        return self._backend.defineXML(xml)
    def define_network(self, xml):
        return self._backend.networkDefineXML(xml)
    def define_pool(self, xml):
        return self._backend.storagePoolDefineXML(xml, 0)
    def define_interface(self, xml):
        return self._backend.interfaceDefineXML(xml, 0)

    def rename_object(self, obj, origxml, newxml, oldname, newname):
        if str(obj.__class__).endswith("vmmDomain'>"):
            objlabel = "domain"
            define_cb = self.define_domain
            objlist = self._vms
        elif str(obj.__class__).endswith("vmmStoragePool'>"):
            objlabel = "storagepool"
            define_cb = self.define_pool
            objlist = self._pools
        elif str(obj.__class__).endswith("vmmNetwork'>"):
            objlabel = "network"
            define_cb = self.define_network
            objlist = self._nets
        else:
            raise RuntimeError("programming error: rename_object "
                "helper doesn't support object class %s" % obj.__class__)

        # Undefine the original object
        obj.delete(force=False)

        newobj = None
        success = False
        try:
            # Redefine new domain
            newobj = define_cb(newxml)
            success = True
        except Exception, renameerr:
            try:
                logging.debug("Error defining new name %s XML", objlabel,
                    exc_info=True)
                newobj = define_cb(origxml)
            except Exception, fixerr:
                logging.debug("Failed to redefine original %s!", objlabel,
                    exc_info=True)
                raise RuntimeError(
                    _("%s rename failed. Attempting to recover also "
                      "failed.\n\n"
                      "Original error: %s\n\n"
                      "Recover error: %s" %
                      (objlabel, str(renameerr), str(fixerr))))
            raise
        finally:
            if newobj:
                # Reinsert handle into new obj
                obj.change_name_backend(newobj)

        if success:
            objlist.pop(oldname)
            objlist[newname] = obj


    #########################
    # Domain event handling #
    #########################

    # Our strategy here isn't the most efficient: since we need to keep the
    # poll helpers around for compat with old libvirt, switching to a fully
    # event driven setup is hard, so we end up doing more polling than
    # necessary on most events.

    def _domain_xml_misc_event(self, conn, domain, *args):
        # Just trigger a domain XML refresh for hotplug type events
        ignore = conn
        ignore = args

        obj = self._vms.get(domain.name(), None)
        if not obj:
            return
        self.idle_add(obj.refresh_xml, True)

    def _domain_lifecycle_event(self, conn, domain, event, reason, userdata):
        ignore = conn
        ignore = reason
        ignore = userdata
        obj = self._vms.get(domain.name(), None)

        if obj:
            # If the domain disappeared, this will catch it and trigger
            # a domain list refresh
            self.idle_add(obj.force_update_status, True)

            if event == libvirt.VIR_DOMAIN_EVENT_DEFINED:
                self.idle_add(obj.refresh_xml, True)
        else:
            self.schedule_priority_tick(pollvm=True, force=True)

    def _network_lifecycle_event(self, conn, network, event, reason, userdata):
        ignore = conn
        ignore = reason
        ignore = userdata
        obj = self._nets.get(network.name(), None)

        if obj:
            self.idle_add(obj.force_update_status, True)

            if event == getattr(libvirt, "VIR_NETWORK_EVENT_DEFINED", 0):
                self.idle_add(obj.refresh_xml, True)
        else:
            self.schedule_priority_tick(pollnet=True, force=True)

    def _add_conn_events(self):
        try:
            if _disable_libvirt_events:
                raise RuntimeError("_disable_libvirt_events = True")

            self._domain_cb_ids.append(
                self.get_backend().domainEventRegisterAny(
                None, libvirt.VIR_DOMAIN_EVENT_ID_LIFECYCLE,
                self._domain_lifecycle_event, None))
            self.using_domain_events = True
            logging.debug("Using domain events")
        except Exception, e:
            self.using_domain_events = False
            logging.debug("Error registering domain events: %s", e)

        def _add_domain_xml_event(eventid, typestr):
            if not self.using_domain_events:
                return
            try:
                self._domain_cb_ids.append(
                    self.get_backend().domainEventRegisterAny(
                    None, eventid, self._domain_xml_misc_event, None))
            except Exception, e:
                logging.debug("Error registering domain %s event: %s",
                    typestr, e)

        _add_domain_xml_event(
            getattr(libvirt, "VIR_DOMAIN_EVENT_ID_BALLOON_CHANGE", 13),
            "balloon")
        _add_domain_xml_event(
            getattr(libvirt, "VIR_DOMAIN_EVENT_ID_TRAY_CHANGE", 10), "tray")
        _add_domain_xml_event(
            getattr(libvirt, "VIR_DOMAIN_EVENT_ID_DEVICE_REMOVED", 15),
            "device removed")

        try:
            if _disable_libvirt_events:
                raise RuntimeError("_disable_libvirt_events = True")

            eventid = getattr(libvirt, "VIR_NETWORK_EVENT_ID_LIFECYCLE", 0)
            self._network_cb_ids.append(
                self.get_backend().networkEventRegisterAny(
                None, eventid, self._network_lifecycle_event, None))
            self.using_network_events = True
            logging.debug("Using network events")
        except Exception, e:
            self.using_network_events = False
            logging.debug("Error registering network events: %s", e)


    ####################
    # Update listeners #
    ####################

    def _nodedev_mediadev_added(self, ignore1, name):
        def _add_thread():
            if name in self._mediadevs:
                return

            vobj = self.get_nodedev(name)
            mediadev = vmmMediaDevice.mediadev_from_nodedev(vobj)
            if not mediadev:
                return

            def _add_idle():
                self._mediadevs[name] = mediadev
                logging.debug("mediadev=%s added", name)
                self.emit("mediadev-added", mediadev)
            self.idle_add(_add_idle)

        self._start_thread(_add_thread, "nodedev=%s AddMediadev" % name)

    def _nodedev_mediadev_removed(self, ignore1, name):
        if name not in self._mediadevs:
            return

        self._mediadevs[name].cleanup()
        del(self._mediadevs[name])
        logging.debug("mediadev=%s removed", name)
        self.emit("mediadev-removed", name)


    ######################################
    # Connection closing/opening methods #
    ######################################

    def get_autoconnect(self):
        return self.config.get_conn_autoconnect(self.get_uri())
    def set_autoconnect(self, val):
        self.config.set_conn_autoconnect(self.get_uri(), val)

    def _schedule_close(self):
        self._closing = True
        self.idle_add(self.close)

    def close(self):
        if not self.is_disconnected():
            logging.debug("conn.close() uri=%s", self.get_uri())
        self._closing = True

        def cleanup(devs):
            for dev in devs.values():
                try:
                    dev.cleanup()
                except:
                    logging.debug("Failed to cleanup %s", exc_info=True)

        try:
            if not self._backend.is_closed():
                for eid in self._domain_cb_ids:
                    self._backend.domainEventDeregisterAny(eid)
                for eid in self._network_cb_ids:
                    self._backend.networkEventDeregisterAny(eid)
        except:
            logging.debug("Failed to deregister events in conn cleanup",
                exc_info=True)
        finally:
            self._domain_cb_ids = []
            self._network_cb_ids = []

        self._backend.close()
        self.record = []

        cleanup(self._nodedevs)
        self._nodedevs = {}

        cleanup(self._mediadevs)
        self._mediadevs = {}

        cleanup(self._interfaces)
        self._interfaces = {}

        cleanup(self._pools)
        self._pools = {}

        cleanup(self._nets)
        self._nets = {}

        cleanup(self._vms)
        self._vms = {}

        self._change_state(self._STATE_DISCONNECTED)
        self._closing = False

    def _cleanup(self):
        self.close()

    def open(self, sync=False):
        if not self.is_disconnected():
            return

        self._change_state(self._STATE_CONNECTING)

        if sync:
            logging.debug("Opening connection synchronously: %s",
                          self.get_uri())
            self._open_thread()
        else:
            logging.debug("Scheduling background open thread for " +
                         self.get_uri())
            self._start_thread(self._open_thread,
                "Connect %s" % self.get_uri())

    def _do_creds_password(self, creds):
        try:
            return connectauth.creds_dialog(creds)
        except:
            logging.debug("Launching creds dialog failed", exc_info=True)
            return -1

    def _do_open(self, retry_for_tgt=True):
        warnconsole = False
        libvirt_error_code = None
        libvirt_error_message = None

        try:
            self._backend.open(self._do_creds_password)
            return True, None
        except Exception, exc:
            tb = "".join(traceback.format_exc())
            if type(exc) is libvirt.libvirtError:
                libvirt_error_code = exc.get_error_code()
                libvirt_error_message = exc.get_error_message()

        if (libvirt_error_code ==
            getattr(libvirt, "VIR_ERR_AUTH_CANCELLED", None)):
            logging.debug("User cancelled auth, not raising any error.")
            return False, None

        if (libvirt_error_code == libvirt.VIR_ERR_AUTH_FAILED and
            "not authorized" in libvirt_error_message.lower()):
            logging.debug("Looks like we might have failed policykit "
                          "auth. Checking to see if we have a valid "
                          "console session")
            if (not self.is_remote() and
                not connectauth.do_we_have_session()):
                warnconsole = True

        if (libvirt_error_code == libvirt.VIR_ERR_AUTH_FAILED and
            "GSSAPI Error" in libvirt_error_message and
            "No credentials cache found" in libvirt_error_message):
            if retry_for_tgt and connectauth.acquire_tgt():
                self._do_open(retry_for_tgt=False)

        connectError = (str(exc), tb, warnconsole)
        return False, connectError

    def _populate_initial_state(self):
        logging.debug("libvirt version=%s",
                      self._backend.local_libvirt_version())
        logging.debug("daemon version=%s",
                      self._backend.daemon_version())
        logging.debug("conn version=%s", self._backend.conn_version())
        logging.debug("%s capabilities:\n%s",
                      self.get_uri(), self.caps.xml)
        self._add_conn_events()

        # Prime CPU cache
        self.caps.get_cpu_values(self.get_backend(), "x86_64")

        try:
            self._backend.setKeepAlive(20, 1)
        except Exception, e:
            if (type(e) is not AttributeError and
                not util.is_error_nosupport(e)):
                raise
            logging.debug("Connection doesn't support KeepAlive, "
                "skipping")

    def _open_thread(self):
        try:
            is_active, connectError = self._do_open()
            if is_active:
                self._populate_initial_state()
            else:
                self.idle_add(self._change_state, self._STATE_DISCONNECTED)

            if is_active:
                self.schedule_priority_tick(stats_update=True,
                                            pollvm=True, pollnet=True,
                                            pollpool=True, polliface=True,
                                            pollnodedev=True, pollmedia=True,
                                            force=True)
        except Exception, e:
            is_active = False
            self._schedule_close()
            connectError = (str(e), "".join(traceback.format_exc()), False)

        if not is_active:
            if connectError:
                self.idle_emit("connect-error", *connectError)


    #######################
    # Tick/Update methods #
    #######################

    def _update_nets(self, dopoll):
        if not dopoll or not self.is_network_capable():
            return {}, {}, self._nets
        return pollhelpers.fetch_nets(self._backend, self._nets.copy(),
                    (lambda obj, key: vmmNetwork(self, obj, key)))

    def _update_pools(self, dopoll):
        if not dopoll or not self.is_storage_capable():
            return {}, {}, self._pools
        return pollhelpers.fetch_pools(self._backend, self._pools.copy(),
                    (lambda obj, key: vmmStoragePool(self, obj, key)))

    def _update_interfaces(self, dopoll):
        if not dopoll or not self.is_interface_capable():
            return {}, {}, self._interfaces
        return pollhelpers.fetch_interfaces(self._backend,
                    self._interfaces.copy(),
                    (lambda obj, key: vmmInterface(self, obj, key)))

    def _update_nodedevs(self, dopoll):
        if not dopoll or not self.is_nodedev_capable():
            return {}, {}, self._nodedevs
        return pollhelpers.fetch_nodedevs(self._backend, self._nodedevs.copy(),
                    (lambda obj, key: vmmNodeDevice(self, obj, key)))

    def _update_vms(self, dopoll):
        if not dopoll:
            return {}, {}, self._vms
        return pollhelpers.fetch_vms(self._backend, self._vms.copy(),
                    (lambda obj, key: vmmDomain(self, obj, key)))

    def _obj_signal_proxy(self, obj, signal):
        self.emit(signal, obj.get_connkey())

    def schedule_priority_tick(self, **kwargs):
        # args/kwargs are what is passed to def tick()
        if "stats_update" not in kwargs:
            kwargs["stats_update"] = False
        self.idle_emit("priority-tick", kwargs)

    def tick(self, *args, **kwargs):
        e = None
        try:
            self._tick(*args, **kwargs)
        except KeyboardInterrupt:
            raise
        except Exception, e:
            pass

        if e is None:
            return

        from_remote = getattr(libvirt, "VIR_FROM_REMOTE", None)
        from_rpc = getattr(libvirt, "VIR_FROM_RPC", None)
        sys_error = getattr(libvirt, "VIR_ERR_SYSTEM_ERROR", None)

        dom = -1
        code = -1
        if isinstance(e, libvirt.libvirtError):
            dom = e.get_error_domain()
            code = e.get_error_code()

        logging.debug("Error polling connection %s",
            self.get_uri(), exc_info=True)

        if (dom in [from_remote, from_rpc] and
            code in [sys_error]):
            e = None
            logging.debug("Not showing user error since libvirtd "
                "appears to have stopped.")

        self._schedule_close()
        if e:
            raise e  # pylint: disable=raising-bad-type

    def _refresh_new_objects(self, newlist):
        if not newlist:
            return

        def _refresh_generic():
            for obj in newlist:
                obj.refresh_xml()

        def _refresh_pool():
            for pool in newlist:
                pool.refresh()

                def _refresh_volumes(p):
                    for vol in p.get_volumes().values():
                        vol.refresh_xml()
                self._start_thread(_refresh_volumes,
                    "pool=%s refreshing xml for volumes" % pool.get_name(),
                    (pool,))

        cb = _refresh_generic
        if hasattr(newlist[0], "get_volumes"):
            cb = _refresh_pool
        self._start_thread(cb,
            "refreshing xml for new %s" % newlist[0].__class__)

    def _tick(self, stats_update,
             pollvm=False, pollnet=False,
             pollpool=False, polliface=False,
             pollnodedev=False, pollmedia=False,
             force=False):
        """
        main update function: polls for new objects, updates stats, ...
        @force: Perform the requested polling even if async events are in use
        """
        finish_connecting = False

        if self._closing:
            return
        if self.is_disconnected():
            return
        if self.is_connecting():
            # If in 'connecting' state, and force requested, this means
            # we are performing the initial poll.
            if not force:
                return
            finish_connecting = True

        if not pollvm:
            stats_update = False

        if self.using_domain_events and not force:
            pollvm = False
        if self.using_network_events and not force:
            pollnet = False

        self.hostinfo = self._backend.getInfo()

        (goneNets, newNets, nets) = self._update_nets(pollnet)
        self._refresh_new_objects(newNets.values())
        (gonePools, newPools, pools) = self._update_pools(pollpool)
        self._refresh_new_objects(newPools.values())
        (goneInterfaces,
         newInterfaces, interfaces) = self._update_interfaces(polliface)
        self._refresh_new_objects(newInterfaces.values())

        # Refreshing these is handled by the mediadev callback
        (goneNodedevs,
         newNodedevs, nodedevs) = self._update_nodedevs(pollnodedev)

        # These are refreshing in their __init__ method, because the
        # data is wanted immediately
        (goneVMs, newVMs, vms) = self._update_vms(pollvm)

        def tick_send_signals():
            """
            Responsible for signaling the UI for any updates. All possible UI
            updates need to go here to enable threading that doesn't block the
            app with long tick operations.
            """
            # Connection closed out from under us
            if not self._backend.is_open():
                return

            if pollvm:
                self._vms = vms
            if pollnet:
                self._nets = nets
            if polliface:
                self._interfaces = interfaces
            if pollpool:
                self._pools = pools
            if pollnodedev:
                self._nodedevs = nodedevs

            if not self.mediadev_initialized:
                self._init_mediadev()

            # Update VM states
            for connkey, obj in goneVMs.items():
                logging.debug("domain=%s removed", obj.get_name())
                self.emit("vm-removed", connkey)
                obj.cleanup()
            for connkey, obj in newVMs.items():
                logging.debug("domain=%s status=%s added",
                    obj.get_name(), obj.run_status())
                self.emit("vm-added", connkey)

            # Update virtual network states
            for connkey, obj in goneNets.items():
                logging.debug("network=%s removed", obj.get_name())
                self.emit("net-removed", connkey)
                obj.cleanup()
            for connkey, obj in newNets.items():
                logging.debug("network=%s added", obj.get_name())
                obj.connect("started", self._obj_signal_proxy, "net-started")
                obj.connect("stopped", self._obj_signal_proxy, "net-stopped")
                self.emit("net-added", connkey)

            # Update storage pool states
            for connkey, obj in gonePools.items():
                logging.debug("pool=%s removed", obj.get_name())
                self.emit("pool-removed", connkey)
                obj.cleanup()
            for connkey, obj in newPools.items():
                logging.debug("pool=%s added", obj.get_name())
                obj.connect("started", self._obj_signal_proxy, "pool-started")
                obj.connect("stopped", self._obj_signal_proxy, "pool-stopped")
                self.emit("pool-added", connkey)

            # Update interface states
            for name, obj in goneInterfaces.items():
                logging.debug("interface=%s removed", obj.get_name())
                self.emit("interface-removed", name)
                obj.cleanup()
            for name, obj in newInterfaces.items():
                logging.debug("interface=%s added", obj.get_name())
                obj.connect("started", self._obj_signal_proxy,
                    "interface-started")
                obj.connect("stopped", self._obj_signal_proxy,
                    "interface-stopped")
                self.emit("interface-added", name)

            # Update nodedev list
            for name in goneNodedevs:
                self.emit("nodedev-removed", name)
                goneNodedevs[name].cleanup()
            for name in newNodedevs:
                self.emit("nodedev-added", name)

            if finish_connecting:
                self._change_state(self._STATE_ACTIVE)

        self.idle_add(tick_send_signals)

        ticklist = []
        def add_to_ticklist(l, args=()):
            ticklist.extend([(o, args) for o in l])

        updateVMs = newVMs
        if stats_update:
            updateVMs = vms

        if stats_update:
            for key in vms:
                if key in updateVMs:
                    add_to_ticklist([vms[key]], (True,))
                else:
                    add_to_ticklist([vms[key]], (stats_update,))
        if pollnet:
            add_to_ticklist(nets.values())
        if pollpool:
            add_to_ticklist(pools.values())
        if polliface:
            add_to_ticklist(interfaces.values())
        if pollnodedev:
            add_to_ticklist(nodedevs.values())
        if pollmedia:
            add_to_ticklist(self._mediadevs.values())

        for obj, args in ticklist:
            try:
                obj.tick(*args)
            except Exception, e:
                logging.exception("Tick for %s failed", obj)
                if (isinstance(e, libvirt.libvirtError) and
                    (getattr(e, "get_error_code")() ==
                     libvirt.VIR_ERR_SYSTEM_ERROR)):
                    # Try a simple getInfo call to see if conn was dropped
                    self._backend.getInfo()
                    logging.debug("vm tick raised system error but "
                                  "connection doesn't seem to have dropped. "
                                  "Ignoring.")

        if stats_update:
            self._recalculate_stats(updateVMs.values())
            self.idle_emit("resources-sampled")

        return 1

    def _recalculate_stats(self, vms):
        if not self._backend.is_open():
            return

        now = time.time()
        expected = self.config.get_stats_history_length()
        current = len(self.record)
        if current > expected:
            del self.record[expected:current]

        mem = 0
        cpuTime = 0
        rdRate = 0
        wrRate = 0
        rxRate = 0
        txRate = 0
        diskMaxRate = self.disk_io_max_rate() or 10.0
        netMaxRate = self.network_traffic_max_rate() or 10.0

        for vm in vms:
            if not vm.is_active():
                continue

            cpuTime += vm.cpu_time()
            mem += vm.stats_memory()
            rdRate += vm.disk_read_rate()
            wrRate += vm.disk_write_rate()
            rxRate += vm.network_rx_rate()
            txRate += vm.network_tx_rate()

            netMaxRate = max(netMaxRate, vm.network_traffic_max_rate())
            diskMaxRate = max(diskMaxRate, vm.disk_io_max_rate())

        pcentHostCpu = 0
        pcentMem = mem * 100.0 / self.host_memory_size()

        if len(self.record) > 0:
            prevTimestamp = self.record[0]["timestamp"]
            host_cpus = self.host_active_processor_count()

            pcentHostCpu = ((cpuTime) * 100.0 /
                            ((now - prevTimestamp) *
                             1000.0 * 1000.0 * 1000.0 * host_cpus))

        pcentHostCpu = max(0.0, min(100.0, pcentHostCpu))
        pcentMem = max(0.0, min(100.0, pcentMem))

        newStats = {
            "timestamp": now,
            "memory": mem,
            "memoryPercent": pcentMem,
            "cpuTime": cpuTime,
            "cpuHostPercent": pcentHostCpu,
            "diskRdRate" : rdRate,
            "diskWrRate" : wrRate,
            "netRxRate" : rxRate,
            "netTxRate" : txRate,
            "diskMaxRate" : diskMaxRate,
            "netMaxRate" : netMaxRate,
        }

        self.record.insert(0, newStats)


    ########################
    # Stats getter methods #
    ########################

    def _vector_helper(self, record_name):
        vector = []
        stats = self.record
        for i in range(self.config.get_stats_history_length() + 1):
            if i < len(stats):
                vector.append(stats[i][record_name] / 100.0)
            else:
                vector.append(0)
        return vector

    def stats_memory_vector(self):
        return self._vector_helper("memoryPercent")

    def host_cpu_time_vector(self):
        return self._vector_helper("cpuHostPercent")
    guest_cpu_time_vector = host_cpu_time_vector

    def host_cpu_time_vector_limit(self, limit):
        cpudata = self.host_cpu_time_vector()
        if len(cpudata) > limit:
            cpudata = cpudata[0:limit]
        return cpudata
    guest_cpu_time_vector_limit = host_cpu_time_vector_limit

    def disk_io_vector_limit(self, ignore):
        return [0.0]
    def network_traffic_vector_limit(self, ignore):
        return [0.0]

    def _get_record_helper(self, record_name):
        if len(self.record) == 0:
            return 0
        return self.record[0][record_name]

    def stats_memory(self):
        return self._get_record_helper("memory")
    def pretty_stats_memory(self):
        return util.pretty_mem(self.stats_memory())

    def host_cpu_time_percentage(self):
        return self._get_record_helper("cpuHostPercent")
    guest_cpu_time_percentage = host_cpu_time_percentage

    def network_rx_rate(self):
        return self._get_record_helper("netRxRate")
    def network_tx_rate(self):
        return self._get_record_helper("netTxRate")
    def network_traffic_rate(self):
        return self.network_tx_rate() + self.network_rx_rate()
    def network_traffic_max_rate(self):
        return self._get_record_helper("netMaxRate")

    def disk_read_rate(self):
        return self._get_record_helper("diskRdRate")
    def disk_write_rate(self):
        return self._get_record_helper("diskWrRate")
    def disk_io_rate(self):
        return self.disk_read_rate() + self.disk_write_rate()
    def disk_io_max_rate(self):
        return self._get_record_helper("diskMaxRate")