# # Common code for all guests # # Copyright 2006-2009, 2013, 2014, 2015 Red Hat, Inc. # Jeremy Katz # # 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. import logging import urlgrabber.progress as progress import libvirt from virtcli import CLIConfig from . import util from . import support from .osdict import OSDB from .clock import Clock from .cpu import CPU from .device import VirtualDevice from .deviceaudio import VirtualAudio from .devicechar import VirtualChannelDevice, VirtualConsoleDevice from .devicecontroller import VirtualController from .devicegraphics import VirtualGraphics from .deviceinput import VirtualInputDevice from .deviceredirdev import VirtualRedirDevice from .devicevideo import VirtualVideoDevice from .distroinstaller import DistroInstaller from .domainblkiotune import DomainBlkiotune from .domainfeatures import DomainFeatures from .domainmemorybacking import DomainMemorybacking from .domainmemorytune import DomainMemorytune from .domainnumatune import DomainNumatune from .domainresource import DomainResource from .domcapabilities import DomainCapabilities from .idmap import IdMap from .osxml import OSXML from .pm import PM from .seclabel import Seclabel from .xmlbuilder import XMLBuilder, XMLProperty, XMLChildProperty class Guest(XMLBuilder): @staticmethod def check_vm_collision(conn, name, do_remove): """ Remove the existing VM with the same name if requested, or error if there is a collision. """ vm = None try: vm = conn.lookupByName(name) except libvirt.libvirtError: pass if vm is None: return if not do_remove: raise RuntimeError(_("Domain named %s already exists!") % name) try: logging.debug("Explicitly replacing guest '%s'", name) if vm.ID() != -1: logging.info("Destroying guest '%s'", name) vm.destroy() logging.info("Undefining guest '%s'", name) vm.undefine() except libvirt.libvirtError, e: raise RuntimeError(_("Could not remove old vm '%s': %s") % (str(e))) @staticmethod def validate_name(conn, name, check_collision, validate=True): if validate: util.validate_name(_("Guest"), name) if not check_collision: return try: conn.lookupByName(name) except: return raise ValueError(_("Guest name '%s' is already in use.") % name) _XML_ROOT_NAME = "domain" _XML_PROP_ORDER = ["type", "name", "uuid", "title", "description", "maxmemory", "memory", "blkiotune", "memtune", "memoryBacking", "vcpus", "curvcpus", "numatune", "bootloader", "os", "idmap", "features", "cpu", "clock", "on_poweroff", "on_reboot", "on_crash", "resource", "pm", "emulator", "_devices", "seclabel"] def __init__(self, *args, **kwargs): XMLBuilder.__init__(self, *args, **kwargs) self.autostart = False self.replace = False # Allow virt-manager to override the default graphics type self.default_graphics_type = CLIConfig.default_graphics self.skip_default_console = False self.skip_default_channel = False self.skip_default_sound = False self.skip_default_usbredir = False self.skip_default_graphics = False self.x86_cpu_default = self.cpu.SPECIAL_MODE_HOST_MODEL_ONLY self.__os_object = None self._random_uuid = None self._install_devices = [] self._defaults_are_set = False # The libvirt virDomain object we 'Create' self.domain = None self.installer = DistroInstaller(self.conn) ###################### # Property accessors # ###################### def _validate_name(self, val): if val == self.name: return self.validate_name(self.conn, val, check_collision=not self.replace) name = XMLProperty("./name", validate_cb=_validate_name) def _set_memory(self, val): if val is None: return None if self.maxmemory is None or self.maxmemory < val: self.maxmemory = val return val memory = XMLProperty("./currentMemory", is_int=True, default_cb=lambda s: 1, set_converter=_set_memory) maxmemory = XMLProperty("./memory", is_int=True) def _set_vcpus(self, val): if val is None: return None # Don't force set curvcpus unless already specified if self.curvcpus is not None and self.curvcpus > val: self.curvcpus = val return val vcpus = XMLProperty("./vcpu", is_int=True, set_converter=_set_vcpus, default_cb=lambda s: 1) curvcpus = XMLProperty("./vcpu/@current", is_int=True) def _validate_cpuset(self, val): DomainNumatune.validate_cpuset(self.conn, val) cpuset = XMLProperty("./vcpu/@cpuset", validate_cb=_validate_cpuset) def _get_default_uuid(self): if self._random_uuid is None: self._random_uuid = util.generate_uuid(self.conn) return self._random_uuid uuid = XMLProperty("./uuid", validate_cb=lambda s, v: util.validate_uuid(v), default_cb=_get_default_uuid) id = XMLProperty("./@id", is_int=True) type = XMLProperty("./@type", default_cb=lambda s: "xen") bootloader = XMLProperty("./bootloader") description = XMLProperty("./description") title = XMLProperty("./title") emulator = XMLProperty("./devices/emulator") on_poweroff = XMLProperty("./on_poweroff", default_cb=lambda s: "destroy") on_reboot = XMLProperty("./on_reboot", default_cb=lambda s: "restart") on_crash = XMLProperty("./on_crash", default_cb=lambda s: "restart") os = XMLChildProperty(OSXML, is_single=True) features = XMLChildProperty(DomainFeatures, is_single=True) clock = XMLChildProperty(Clock, is_single=True) seclabel = XMLChildProperty(Seclabel, is_single=True) cpu = XMLChildProperty(CPU, is_single=True) numatune = XMLChildProperty(DomainNumatune, is_single=True) pm = XMLChildProperty(PM, is_single=True) blkiotune = XMLChildProperty(DomainBlkiotune, is_single=True) memtune = XMLChildProperty(DomainMemorytune, is_single=True) memoryBacking = XMLChildProperty(DomainMemorybacking, is_single=True) idmap = XMLChildProperty(IdMap, is_single=True) resource = XMLChildProperty(DomainResource, is_single=True) ############################### # Distro detection properties # ############################### def _set_os_object(self, variant): obj = OSDB.lookup_os(variant) if not obj: obj = OSDB.lookup_os("generic") self.__os_object = obj def _get_os_object(self): if not self.__os_object: self._set_os_object(None) return self.__os_object _os_object = property(_get_os_object) def _get_os_variant(self): return self._os_object.name def _set_os_variant(self, val): if val: val = val.lower() if OSDB.lookup_os(val) is None: raise ValueError( _("Distro '%s' does not exist in our dictionary") % val) logging.debug("Setting Guest.os_variant to '%s'", val) self._set_os_object(val) os_variant = property(_get_os_variant, _set_os_variant) ######################################## # Device Add/Remove Public API methods # ######################################## def add_device(self, dev): """ Add the passed device to the guest's device list. @param dev: VirtualDevice instance to attach to guest """ self._add_child(dev) def remove_device(self, dev): """ Remove the passed device from the guest's device list @param dev: VirtualDevice instance """ self._remove_child(dev) def get_devices(self, devtype): """ Return a list of devices of type 'devtype' that will installed on the guest. @param devtype: Device type to search for (one of VirtualDevice.virtual_device_types) """ newlist = [] for i in self._devices: if devtype == "all" or i.virtual_device_type == devtype: newlist.append(i) return newlist _devices = XMLChildProperty( [VirtualDevice.virtual_device_classes[_n] for _n in VirtualDevice.virtual_device_types], relative_xpath="./devices") def get_all_devices(self): """ Return a list of all devices being installed with the guest """ retlist = [] for devtype in VirtualDevice.virtual_device_types: retlist.extend(self.get_devices(devtype)) return retlist ############################ # Install Helper functions # ############################ def _prepare_install(self, meter, dry=False): for dev in self._install_devices: self.remove_device(dev) self._install_devices = [] ignore = dry # Fetch install media, prepare installer devices self.installer.prepare(self, meter) # Initialize install device list for dev in self.installer.install_devices: self.add_device(dev) self._install_devices.append(dev) def _prepare_get_xml(self): # We do a shallow copy of the OS block here, so that we can # set the install time properties but not permanently overwrite # any config the user explicitly requested. data = (self.os, self.on_crash, self.on_reboot) try: self._propstore["os"] = self.os.copy() except: self._finish_get_xml(data) raise return data def _finish_get_xml(self, data): (self._propstore["os"], self.on_crash, self.on_reboot) = data def _get_install_xml(self, *args, **kwargs): data = self._prepare_get_xml() try: return self._do_get_install_xml(*args, **kwargs) finally: self._finish_get_xml(data) def _do_get_install_xml(self, install=True, disk_boot=False): """ Return the full Guest xml configuration. @param install: Whether we want the 'OS install' configuration or the 'post-install' configuration. (Some installs, like an import or livecd may not have an 'install' config.) @type install: C{bool} @param disk_boot: Whether we should boot off the harddisk, regardless of our position in the install process (this is used for 2 stage installs, where the second stage boots off the disk. You probably don't need to touch this.) @type disk_boot: C{bool} """ osblob_install = install and not disk_boot if osblob_install and not self.installer.has_install_phase(): return None self.installer.alter_bootconfig(self, osblob_install) if not install: self._remove_cdrom_install_media() if install: self.on_reboot = "destroy" self.on_crash = "destroy" self._set_osxml_defaults() # Only set defaults on any install devices for dev in self._install_devices: dev.set_defaults(self) self._set_disk_defaults(disks=self._install_devices) self.bootloader = None if (not install and self.os.is_xenpv() and not self.os.kernel): self.bootloader = "/usr/bin/pygrub" self.os.clear() return self.get_xml_config() ############## # Public API # ############## def get_continue_inst(self): """ Return True if this guest requires a call to 'continue_install', which means the OS requires a 2 stage install (windows) """ # If we are doing an 'import' or 'liveCD' install, there is # no true install process, so continue install has no meaning if not self.installer.has_install_phase(): return False return self._os_object.is_windows() def start_install(self, meter=None, dry=False, return_xml=False, noboot=False): """ Begin the guest install (stage1). @param return_xml: Don't create the guest, just return generated XML """ if self.domain is not None: raise RuntimeError(_("Domain has already been started!")) is_initial = True self.set_install_defaults() self._prepare_install(meter, dry) try: # Create devices if required (disk images, etc.) if not dry: for dev in self.get_all_devices(): dev.setup(meter) start_xml, final_xml = self._build_xml(is_initial) if return_xml: return (start_xml, final_xml) if dry: return # Remove existing VM if requested self.check_vm_collision(self.conn, self.name, do_remove=self.replace) self.domain = self._create_guest(meter, start_xml, final_xml, is_initial, noboot) # Set domain autostart flag if requested self._flag_autostart() return self.domain finally: self.installer.cleanup() def continue_install(self, meter=None, dry=False, return_xml=False): """ Continue with stage 2 of a guest install. Only required for guests which have the 'continue' flag set (accessed via get_continue_inst) """ is_initial = False start_xml, final_xml = self._build_xml(is_initial) if return_xml: return (start_xml, final_xml) if dry: return return self._create_guest(meter, start_xml, final_xml, is_initial, False) def _build_meter(self, meter, is_initial): if is_initial: meter_label = _("Creating domain...") else: meter_label = _("Starting domain...") if meter is None: meter = progress.BaseMeter() meter.start(size=None, text=meter_label) return meter def _build_xml(self, is_initial): log_label = is_initial and "install" or "continue" disk_boot = not is_initial start_xml = self._get_install_xml(install=True, disk_boot=disk_boot) final_xml = self._get_install_xml(install=False) logging.debug("Generated %s XML: %s", log_label, (start_xml and ("\n" + start_xml) or "None required")) logging.debug("Generated boot XML: \n%s", final_xml) return start_xml, final_xml def _create_guest(self, meter, start_xml, final_xml, is_initial, noboot): """ Actually do the XML logging, guest defining/creating @param is_initial: If running initial guest creation, else we are continuing the install @param noboot: Don't boot guest if no install phase """ meter = self._build_meter(meter, is_initial) doboot = not noboot or self.installer.has_install_phase() if is_initial and doboot: dom = self.conn.createLinux(start_xml or final_xml, 0) else: dom = self.conn.defineXML(start_xml or final_xml) if doboot: dom.create() self.domain = dom meter.end(0) self.domain = self.conn.defineXML(final_xml) if is_initial: try: logging.debug("XML fetched from libvirt object:\n%s", dom.XMLDesc(0)) except Exception, e: logging.debug("Error fetching XML from libvirt object: %s", e) return self.domain def _flag_autostart(self): """ Set the autostart flag for self.domain if the user requested it """ if not self.autostart: return try: self.domain.setAutostart(True) except libvirt.libvirtError, e: if util.is_error_nosupport(e): logging.warn("Could not set autostart flag: libvirt " "connection does not support autostart.") else: raise e ########################### # XML convenience helpers # ########################### def set_uefi_default(self): """ Configure UEFI for the VM, but only if libvirt is advertising a known UEFI binary path. """ domcaps = DomainCapabilities.build_from_guest(self) if not domcaps.supports_uefi_xml(): raise RuntimeError(_("Libvirt version does not support UEFI.")) if not domcaps.arch_can_uefi(): raise RuntimeError( _("Don't know how to setup UEFI for arch '%s'") % self.os.arch) path = domcaps.find_uefi_path_for_arch() if not path: raise RuntimeError(_("Did not find any UEFI binary path for " "arch '%s'") % self.os.arch) self.os.loader_ro = True self.os.loader_type = "pflash" self.os.loader = path ################### # Device defaults # ################### def set_install_defaults(self): """ Allow API users to set defaults ahead of time if they want it. Used by vmmDomainVirtinst so the 'Customize before install' dialog shows accurate values. If the user doesn't explicitly call this, it will be called by start_install() """ if self._defaults_are_set: return self._set_defaults() self._defaults_are_set = True def stable_defaults(self, *args, **kwargs): return self.conn.stable_defaults(self.emulator, *args, **kwargs) def add_default_input_device(self): if self.os.is_container(): return if not self.os.is_x86(): return if self.get_devices("input"): return self.add_device(VirtualInputDevice(self.conn)) def add_default_sound_device(self): if not self.os.is_hvm(): return if not self.os.is_x86(): return self.add_device(VirtualAudio(self.conn)) def add_default_console_device(self): if self.skip_default_console: return if self.os.is_xenpv(): return if self.get_devices("console") or self.get_devices("serial"): return dev = VirtualConsoleDevice(self.conn) dev.type = dev.TYPE_PTY if (self.os.is_x86() and self._os_object.supports_virtioconsole() and self.conn.check_support( self.conn.SUPPORT_CONN_VIRTIO_CONSOLE)): dev.target_type = "virtio" self.add_device(dev) def add_default_video_device(self): if self.os.is_container(): return if self.get_devices("video"): return if not self.get_devices("graphics"): return self.add_device(VirtualVideoDevice(self.conn)) def add_default_usb_controller(self): if self.os.is_container(): return if not self.os.is_x86(): return if any([d.type == "usb" for d in self.get_devices("controller")]): return if not self.conn.check_support( self.conn.SUPPORT_CONN_DEFAULT_USB2): return for dev in VirtualController.get_usb2_controllers(self.conn): self.add_device(dev) def add_default_channels(self): if self.skip_default_channel: return if self.get_devices("channel"): return # Skip qemu-ga on ARM where virtio slots are currently limited if (self.conn.is_qemu() and not self.os.is_arm() and self._os_object.supports_qemu_ga() and self.conn.check_support(self.conn.SUPPORT_CONN_AUTOSOCKET)): dev = VirtualChannelDevice(self.conn) dev.type = "unix" dev.target_type = "virtio" dev.target_name = dev.CHANNEL_NAME_QEMUGA self.add_device(dev) def add_default_graphics(self): if self.skip_default_graphics: return if self.get_devices("graphics"): return if self.os.is_container(): return if self.os.arch not in ["x86_64", "i686", "ppc64", "ppc64le", "ia64"]: return self.add_device(VirtualGraphics(self.conn)) def add_default_devices(self): self.add_default_graphics() self.add_default_video_device() self.add_default_input_device() self.add_default_console_device() self.add_default_usb_controller() self.add_default_channels() def _remove_cdrom_install_media(self): for dev in self.get_devices("disk"): # Keep the install cdrom device around, but with no media attached. # But only if we are a distro that doesn't have a multi # stage install (aka not Windows) if (dev.is_cdrom() and getattr(dev, "installer_media", False) and not self.get_continue_inst()): dev.path = None def _set_defaults(self): # some options check for has_spice() which is resolved after this: self._set_graphics_defaults() self._set_clock_defaults() self._set_emulator_defaults() self._set_cpu_defaults() self._set_feature_defaults() self._set_pm_defaults() for dev in self.get_all_devices(): dev.set_defaults(self) self._check_address_multi() self._set_disk_defaults() self._add_implied_controllers() self._set_net_defaults() self._set_input_defaults() self._set_video_defaults() self._set_sound_defaults() def _is_full_os_container(self): if not self.os.is_container(): return False for fs in self.get_devices("filesystem"): if fs.target == "/": return True return False def _set_osxml_defaults(self): if self.os.is_container() and not self.os.init: if self._is_full_os_container(): self.os.init = "/sbin/init" self.os.init = self.os.init or "/bin/sh" if not self.os.loader and self.os.is_hvm() and self.type == "xen": self.os.loader = "/usr/lib/xen/boot/hvmloader" if self.os.os_type == "xen" and self.type == "xen": # Use older libvirt 'linux' value for back compat self.os.os_type = "linux" if self.os.kernel or self.os.init: self.os.bootorder = [] def _set_clock_defaults(self): if not self.os.is_hvm(): return if self.clock.offset is None: self.clock.offset = self._os_object.get_clock() if self.clock.timers: return if not self.os.is_x86(): return if not self.conn.check_support( self.conn.SUPPORT_CONN_ADVANCED_CLOCK): return # Set clock policy that maps to qemu options: # -no-hpet -no-kvm-pit-reinjection -rtc driftfix=slew # # hpet: Is unneeded and has a performance penalty # pit: While it has no effect on windows, it doesn't hurt and # is beneficial for linux # # If libvirt/qemu supports it and using a windows VM, also # specify hypervclock. # # This is what has been recommended by the RH qemu guys :) rtc = self.clock.add_timer() rtc.name = "rtc" rtc.tickpolicy = "catchup" pit = self.clock.add_timer() pit.name = "pit" pit.tickpolicy = "delay" hpet = self.clock.add_timer() hpet.name = "hpet" hpet.present = False if (self._os_object.is_windows() and self.conn.check_support(self.conn.SUPPORT_CONN_HYPERV_CLOCK) and self._hv_supported()): hyperv = self.clock.add_timer() hyperv.name = "hypervclock" hyperv.present = True def _set_emulator_defaults(self): if self.os.is_xenpv(): self.emulator = None return if self.emulator: return if self.os.is_hvm() and self.type == "xen": if self.conn.caps.host.cpu.arch == "x86_64": self.emulator = "/usr/lib64/xen/bin/qemu-dm" else: self.emulator = "/usr/lib/xen/bin/qemu-dm" def _set_cpu_defaults(self): self.cpu.set_topology_defaults(self.vcpus) if not self.conn.is_test() and not self.conn.is_qemu(): return if (self.cpu.get_xml_config().strip() or self.cpu.special_mode_was_set): # User already configured CPU return if self.os.is_arm_machvirt() and self.type == "kvm": self.cpu.mode = self.cpu.SPECIAL_MODE_HOST_PASSTHROUGH elif self.os.is_arm64() and self.os.is_arm_machvirt(): # -M virt defaults to a 32bit CPU, even if using aarch64 self.cpu.model = "cortex-a57" elif self.os.is_x86() and self.type == "kvm": if self.os.arch != self.conn.caps.host.cpu.arch: return self.cpu.set_special_mode(self.x86_cpu_default) def _hv_supported(self): if (self.os.loader_type == "pflash" and self.os_variant in ("win2k8r2", "win7")): return False return True def check_defaults(self): # This is used only by virt-manager to reset any defaults that may have # changed through manual intervention via the customize wizard. if not self._hv_supported(): self.features.hyperv_relaxed = None self.features.hyperv_vapic = None self.features.hyperv_spinlocks = None self.features.hyperv_spinlocks_retries = None for i in self.clock.timers: if i.name == "hypervclock": self.clock.remove_timer(i) def _set_feature_defaults(self): if self.os.is_container(): self.features.acpi = None self.features.apic = None self.features.pae = None if self._is_full_os_container(): self.features.privnet = True return if not self.os.is_hvm(): return default = True if (self._os_object.need_old_xen_disable_acpi() and not self.conn.check_support(support.SUPPORT_CONN_CAN_ACPI)): default = False if self.features.acpi == "default": self.features.acpi = self._os_object.supports_acpi(default) if self.features.apic == "default": self.features.apic = self._os_object.supports_apic(default) if self.features.pae == "default": self.features.pae = self.conn.caps.supports_pae() if (self.features.vmport == "default" and self.has_spice() and self.conn.check_support(self.conn.SUPPORT_CONN_VMPORT)): self.features.vmport = False if (self._os_object.is_windows() and self._hv_supported() and self.conn.check_support(self.conn.SUPPORT_CONN_HYPERV_VAPIC)): if self.features.hyperv_relaxed is None: self.features.hyperv_relaxed = True if self.features.hyperv_vapic is None: self.features.hyperv_vapic = True if self.features.hyperv_spinlocks is None: self.features.hyperv_spinlocks = True if self.features.hyperv_spinlocks_retries is None: self.features.hyperv_spinlocks_retries = 8191 def _set_pm_defaults(self): # When the suspend feature is exposed to VMs, an ACPI shutdown # event triggers a suspend in the guest, which causes a lot of # user confusion (especially compounded with the face that suspend # is often buggy so VMs can get hung, etc). # # We've been disabling this in virt-manager for a while, but lets # do it here too for consistency. if (self.os.is_x86() and self.conn.check_support(self.conn.SUPPORT_CONN_PM_DISABLE)): if self.pm.suspend_to_mem is None: self.pm.suspend_to_mem = False if self.pm.suspend_to_disk is None: self.pm.suspend_to_disk = False def _add_implied_controllers(self): has_spapr_scsi = False has_virtio_scsi = False has_any_scsi = False for dev in self.get_devices("controller"): if dev.type == "scsi": has_any_scsi = True if dev.address.type == "spapr-vio": has_spapr_scsi = True if dev.model == "virtio": has_virtio_scsi = True # Add spapr-vio controller if needed if not has_spapr_scsi: for dev in self.get_devices("disk"): if dev.address.type == "spapr-vio": ctrl = VirtualController(self.conn) ctrl.type = "scsi" ctrl.address.set_addrstr("spapr-vio") self.add_device(ctrl) break # Add virtio-scsi controller if needed if (self.os.is_arm_machvirt() and not has_any_scsi and not has_virtio_scsi): for dev in self.get_devices("disk"): if dev.bus == "scsi": ctrl = VirtualController(self.conn) ctrl.type = "scsi" ctrl.model = "virtio-scsi" self.add_device(ctrl) break def _check_address_multi(self): addresses = {} for d in self.get_all_devices(): if d.address.type != d.address.ADDRESS_TYPE_PCI: continue addr = d.address addrstr = "%d%d%d" % (d.address.domain, d.address.bus, d.address.slot) if addrstr not in addresses: addresses[addrstr] = {} if addr.function in addresses[addrstr]: raise ValueError(_("Duplicate address for devices %s and %s") % (str(d), str(addresses[addrstr][addr.function]))) addresses[addrstr][addr.function] = d for devs in addresses.values(): if len(devs) > 1 and 0 in devs: devs[0].address.multifunction = True def _hv_only_supports_virtio(self): # Only supports virtio so we need to force it return self.conn.is_qemu() and self.os.is_arm_machvirt() def _hv_supports_virtio(self): if not self.conn.is_qemu(): return False if self._hv_only_supports_virtio(): return True if self.os.is_x86(): return True if (self.os.is_arm_vexpress() and self.os.dtb and self._os_object.supports_virtiommio() and self.conn.check_support(support.SUPPORT_CONN_VIRTIO_MMIO)): return True return False def _set_disk_defaults(self, disks=None): alldisks = self.get_devices("disk") if disks is None: disks = alldisks def set_disk_bus(d): if d.is_floppy(): d.bus = "fdc" return if self.os.is_xenpv(): d.bus = "xen" return if not self.os.is_hvm(): # This likely isn't correct, but it's kind of a catch all # for virt types we don't know how to handle. d.bus = "ide" return if self.os.is_arm_machvirt(): # We prefer virtio-scsi for machvirt, gets us hotplug d.bus = "scsi" elif (d.is_disk() and (self._hv_only_supports_virtio() or (self._hv_supports_virtio() and self._os_object.supports_virtiodisk()))): d.bus = "virtio" elif self.os.is_pseries(): d.bus = "scsi" elif self.os.is_arm(): d.bus = "sd" elif self.os.is_q35(): d.bus = "sata" else: d.bus = "ide" # Generate disk targets used_targets = [] for disk in disks: if not disk.bus: set_disk_bus(disk) for disk in alldisks: if disk.target and not getattr(disk, "cli_generated_target", False): used_targets.append(disk.target) elif disk in disks: disk.cli_generated_target = False used_targets.append(disk.generate_target(used_targets)) def _set_net_defaults(self): net_model = None if not self.os.is_hvm(): net_model = None elif (self._hv_only_supports_virtio() or (self._hv_supports_virtio() and self._os_object.supports_virtionet())): net_model = "virtio" else: net_model = self._os_object.default_netmodel() if net_model: for net in self.get_devices("interface"): if not net.model: net.model = net_model def _set_input_defaults(self): input_type = self._os_object.default_inputtype() input_bus = self._os_object.default_inputbus() if self.os.is_xenpv(): input_type = VirtualInputDevice.TYPE_MOUSE input_bus = VirtualInputDevice.BUS_XEN for inp in self.get_devices("input"): if (inp.type == inp.TYPE_DEFAULT and inp.bus == inp.BUS_DEFAULT): inp.type = input_type inp.bus = input_bus def _set_sound_defaults(self): if self.conn.check_support( support.SUPPORT_CONN_SOUND_ICH6): default = "ich6" elif self.conn.check_support( support.SUPPORT_CONN_SOUND_AC97): default = "ac97" else: default = "es1370" for sound in self.get_devices("sound"): if sound.model == sound.MODEL_DEFAULT: sound.model = default def _set_graphics_defaults(self): def _set_type(gfx): gtype = self.default_graphics_type logging.debug("Using default_graphics=%s", gtype) if (gtype == "spice" and not self.conn.check_support( self.conn.SUPPORT_CONN_GRAPHICS_SPICE)): logging.debug("spice requested but HV doesn't support it. " "Using vnc.") gtype = "vnc" gfx.type = gtype for dev in self.get_devices("graphics"): if dev.type == "default": _set_type(dev) if (dev.type == "spice" and not self.conn.is_remote() and self.conn.check_support( self.conn.SUPPORT_CONN_SPICE_COMPRESSION)): logging.debug("Local connection, disabling spice image " "compression.") if dev.image_compression is None: dev.image_compression = "off" def _add_spice_channels(self): if self.skip_default_channel: return for chn in self.get_devices("channel"): if chn.type == chn.TYPE_SPICEVMC: return if self.conn.check_support(self.conn.SUPPORT_CONN_CHAR_SPICEVMC): agentdev = VirtualChannelDevice(self.conn) agentdev.type = agentdev.TYPE_SPICEVMC self.add_device(agentdev) def _add_spice_sound(self): if self.skip_default_sound: return if self.get_devices("sound"): return self.add_default_sound_device() def _add_spice_usbredir(self): if self.skip_default_usbredir: return if self.get_devices("redirdev"): return if not self.conn.check_support(self.conn.SUPPORT_CONN_USBREDIR): return # If we use 4 devices here, we fill up all the emulated USB2 slots, # and directly assigned devices are forced to fall back to USB1 # https://bugzilla.redhat.com/show_bug.cgi?id=1135488 for ignore in range(2): dev = VirtualRedirDevice(self.conn) dev.bus = "usb" dev.type = "spicevmc" self.add_device(dev) def has_spice(self): for gfx in self.get_devices("graphics"): if gfx.type == gfx.TYPE_SPICE: return True def _set_video_defaults(self): if self.has_spice(): self._add_spice_channels() self._add_spice_sound() self._add_spice_usbredir() video_model = self._os_object.default_videomodel(self) if video_model == 'vmvga' and self.stable_defaults(force=True): video_model = 'vga' for video in self.get_devices("video"): if video.model == video.MODEL_DEFAULT: video.model = video_model