# # Common code for all guests # # Copyright 2006-2009, 2013 Red Hat, Inc. # # This work is licensed under the GNU GPLv2 or later. # See the COPYING file in the top-level directory. import os from . import cloudinit from . import unattended from . import volumeupload from .installertreemedia import InstallerTreeMedia from .installerinject import perform_cdrom_injections from ..domain import DomainOs from ..devices import DeviceDisk from ..guest import Guest from ..osdict import OSDB from ..logger import log from .. import progress from .. import xmlutil def _make_testsuite_path(path): return os.path.join("/VIRTINST-TESTSUITE", os.path.basename(path).split("-", 2)[-1]) class Installer(object): """ Class for kicking off VM installs. The VM is set up separately in a Guest instance. This class tracks the install media/bootdev choice, alters the Guest XML, boots it for the install, then saves the post install XML config. The Guest is passed in via start_install, only install media selection is done at __init__ time :param cdrom: Path to a cdrom device or iso. Maps to virt-install --cdrom :param location: An install tree URI, local directory, or ISO/CDROM path. Largely handled by installtreemedia helper class. Maps to virt-install --location :param location_kernel: URL pointing to a kernel to fetch, or a relative path to indicate where the kernel is stored in location :param location_initrd: location_kernel, but pointing to an initrd :param install_kernel: Kernel to install off of :param install_initrd: Initrd to install off of :param install_kernel_args: Kernel args to use. This overwrites whatever the installer might request, unlike extra_args which will append arguments. :param no_install: If True, this installer specifically does not have an install phase. We are just using it to create the initial XML. """ def __init__(self, conn, cdrom=None, location=None, install_bootdev=None, location_kernel=None, location_initrd=None, install_kernel=None, install_initrd=None, install_kernel_args=None, no_install=None, is_reinstall=False): self.conn = conn # Entry point for virt-manager 'Customize' wizard to change autostart self.autostart = False self._install_cdrom_device_added = False self._unattended_install_cdrom_device = None self._tmpfiles = [] self._tmpvols = [] self._defaults_are_set = False self._unattended_data = None self._cloudinit_data = None self._install_bootdev = install_bootdev self._no_install = no_install self._is_reinstall = is_reinstall self._pre_reinstall_xml = None self._treemedia = None self._treemedia_bootconfig = None self._cdrom = None if cdrom: cdrom = InstallerTreeMedia.validate_path(self.conn, cdrom) self._cdrom = cdrom self._install_bootdev = "cdrom" elif (location or location_kernel or location_initrd or install_kernel or install_initrd): self._treemedia = InstallerTreeMedia(self.conn, location, location_kernel, location_initrd, install_kernel, install_initrd, install_kernel_args) ################## # Static helpers # ################## @staticmethod def cleanup_created_disks(guest, meter): """ Remove any disks we created as part of the install. Only ever called by clients. """ clean_disks = [d for d in guest.devices.disk if d.storage_was_created] for disk in clean_disks: path = disk.get_source_path() log.debug("Removing created disk path=%s vol_object=%s", path, disk.get_vol_object()) name = os.path.basename(path) try: meter.start(_("Removing disk '%s'") % name, None) if disk.get_vol_object(): disk.get_vol_object().delete() else: # pragma: no cover # This case technically shouldn't happen here, but # it's here in case future assumptions change os.unlink(path) meter.end() except Exception as e: # pragma: no cover log.debug("Failed to remove disk '%s'", name, exc_info=True) log.error("Failed to remove disk '%s': %s", name, e) ################### # Private helpers # ################### def _make_cdrom_device(self, path): dev = DeviceDisk(self.conn) dev.device = dev.DEVICE_CDROM dev.set_source_path(path) dev.sync_path_props() dev.validate() return dev def _cdrom_path(self): if self._treemedia: return self._treemedia.cdrom_path() return self._cdrom def _add_install_cdrom_device(self, guest): if self._install_cdrom_device_added: return # pragma: no cover if not bool(self._cdrom_path()): return self._install_cdrom_device_added = True if self._is_reinstall: cdroms = [d for d in guest.devices.disk if d.is_cdrom()] if cdroms: dev = cdroms[0] dev.set_source_path(self._cdrom_path()) return dev = self._make_cdrom_device(self._cdrom_path()) if self._is_reinstall: dev.set_defaults(guest) # Insert the CDROM before any other CDROM, so boot=cdrom picks # it as the priority for idx, disk in enumerate(guest.devices.disk): if disk.is_cdrom(): guest.devices.add_child(dev, idx=idx) return guest.add_device(dev) def _remove_install_cdrom_media(self, guest): if not self._install_cdrom_device_added: return if guest.osinfo.is_windows(): # Keep media attached for windows which has a multi stage install return for disk in guest.devices.disk: if (disk.is_cdrom() and disk.get_source_path() == self._cdrom_path()): disk.set_source_path(None) disk.sync_path_props() break def _add_unattended_install_cdrom_device(self, guest, location): if self._unattended_install_cdrom_device: return # pragma: no cover dev = self._make_cdrom_device(location) dev.set_defaults(guest) self._unattended_install_cdrom_device = dev.target guest.add_device(dev) # The CDROM we just added might be a SCSI one. If that's the case, # libvirt will automatically add the necessary controller for us, but # depending on the architecture its choice of model might not be # usable by the guest OS. Try to add a virtio-scsi controller, if # supported, for the best chance of the CDROM actually being picked up guest.add_virtioscsi_controller() if self.conn.in_testsuite(): # Hack to set just the XML path differently for the test suite. # Setting this via regular 'path' will error that it doesn't exist dev.source.file = _make_testsuite_path(location) def _remove_unattended_install_cdrom_device(self, guest): if not self._unattended_install_cdrom_device: return disk = [d for d in guest.devices.disk if d.target == self._unattended_install_cdrom_device][0] disk.set_source_path(None) disk.sync_path_props() def _build_boot_order(self, guest, bootdev): bootorder = [bootdev] # If guest has an attached disk, always have 'hd' in the boot # list, so disks are marked as bootable/installable (needed for # windows virtio installs, and booting local disk from PXE) for disk in guest.devices.disk: if disk.device == disk.DEVICE_DISK: bootdev = "hd" if bootdev not in bootorder: bootorder.append(bootdev) break return bootorder def _can_set_guest_bootorder(self, guest): return (not guest.os.is_container() and not guest.os.kernel and not any([d.boot.order for d in guest.devices.get_all()])) def _alter_treemedia_bootconfig(self, guest): if not self._treemedia: return kernel, initrd, kernel_args = self._treemedia_bootconfig if kernel: guest.os.kernel = (self.conn.in_testsuite() and _make_testsuite_path(kernel) or kernel) if initrd: guest.os.initrd = (self.conn.in_testsuite() and _make_testsuite_path(initrd) or initrd) if kernel_args: guest.os.kernel_args = kernel_args def _alter_bootconfig(self, guest): """ Generate the portion of the guest xml that determines boot devices and parameters. (typically the block) :param guest: Guest instance we are installing """ guest.on_reboot = "destroy" self._alter_treemedia_bootconfig(guest) bootdev = self._install_bootdev if bootdev and self._can_set_guest_bootorder(guest): guest.os.bootorder = self._build_boot_order(guest, bootdev) else: guest.os.bootorder = [] def _alter_install_resources(self, guest, meter): """ Sets the appropriate amount of ram needed when performing a "network" based installation :param guest: Guest instance we are installing """ if not self._treemedia: return if not self._treemedia.requires_internet(guest, meter): return ram = guest.osinfo.get_network_install_required_ram(guest) ram = (ram or 0) // 1024 if ram > guest.currentMemory: msg = (_("Overriding memory to %(number)s MiB needed for " "%(osname)s network install.") % {"number": ram // 1024, "osname": guest.osinfo.name}) log.warning(msg) guest.currentMemory = ram ################ # Internal API # ################ def _should_upload_media(self, guest): """ Return True if we should upload media to the connection scratchdir. This doesn't consider if there is any media to upload, just whether we _should_ upload if there _is_ media. """ scratchdir = InstallerTreeMedia.make_scratchdir(guest) system_scratchdir = InstallerTreeMedia.get_system_scratchdir(guest) if self.conn.is_remote(): return True if self.conn.is_unprivileged(): return False if scratchdir == system_scratchdir: return False # pragma: no cover return True def _upload_media(self, guest, meter, paths): system_scratchdir = InstallerTreeMedia.get_system_scratchdir(guest) if (not self._should_upload_media(guest) and not xmlutil.in_testsuite()): # We have access to system scratchdir, don't jump through hoops log.debug("Have access to preferred scratchdir so" " nothing to upload") # pragma: no cover return paths # pragma: no cover if not guest.conn.support_remote_url_install(): # Needed for the test_urls suite log.debug("Media upload not supported") # pragma: no cover return paths # pragma: no cover newpaths, tmpvols = volumeupload.upload_paths( guest.conn, system_scratchdir, meter, paths) self._tmpvols += tmpvols return newpaths def _prepare_unattended_data(self, guest, meter, scripts): scratchdir = InstallerTreeMedia.make_scratchdir(guest) injections = [] for script in scripts: expected_filename = script.get_expected_filename() unattended_cmdline = script.generate_cmdline() log.debug("Generated unattended cmdline: %s", unattended_cmdline) scriptpath = script.write() self._tmpfiles.append(scriptpath) injections.append((scriptpath, expected_filename)) drivers_location = guest.osinfo.get_pre_installable_drivers_location( guest.os.arch) drivers = unattended.download_drivers( drivers_location, scratchdir, meter) injections.extend(drivers) self._tmpfiles.extend([driverpair[0] for driverpair in drivers]) iso = perform_cdrom_injections(injections, scratchdir) self._tmpfiles.append(iso) iso = self._upload_media(guest, meter, [iso])[0] self._add_unattended_install_cdrom_device(guest, iso) def _prepare_unattended_scripts(self, guest, meter): url = None os_tree = None if self._treemedia: if self._treemedia.is_network_url(): url = self.location os_media = self._treemedia.get_os_media(guest, meter) os_tree = self._treemedia.get_os_tree(guest, meter) injection_method = "initrd" else: if not guest.osinfo.is_windows(): log.warning("Attempting unattended method=cdrom injection " "for a non-windows OS. If this doesn't work, try " "passing install media to --location") osguess = OSDB.guess_os_by_iso(self.cdrom) os_media = osguess[1] if osguess else None injection_method = "cdrom" return unattended.prepare_install_scripts( guest, self._unattended_data, url, os_media, os_tree, injection_method) def _prepare_treemedia(self, guest, meter, unattended_scripts): kernel, initrd, kernel_args = self._treemedia.prepare(guest, meter, unattended_scripts) paths = [kernel, initrd] kernel, initrd = self._upload_media(guest, meter, paths) self._treemedia_bootconfig = (kernel, initrd, kernel_args) def _prepare_cloudinit(self, guest, meter): scratchdir = InstallerTreeMedia.make_scratchdir(guest) filepairs = cloudinit.create_files(scratchdir, self._cloudinit_data) for filepair in filepairs: self._tmpfiles.append(filepair[0]) iso = perform_cdrom_injections(filepairs, scratchdir, cloudinit=True) self._tmpfiles.append(iso) iso = self._upload_media(guest, meter, [iso])[0] self._add_unattended_install_cdrom_device(guest, iso) def _prepare(self, guest, meter): if self._is_reinstall: self._pre_reinstall_xml = guest.get_xml() unattended_scripts = None if self._unattended_data: unattended_scripts = self._prepare_unattended_scripts(guest, meter) if self._treemedia: self._prepare_treemedia(guest, meter, unattended_scripts) elif unattended_scripts: self._prepare_unattended_data(guest, meter, unattended_scripts) if self._cloudinit_data: self._prepare_cloudinit(guest, meter) def _cleanup(self, guest): if self._treemedia: self._treemedia.cleanup(guest) for vol in self._tmpvols: log.debug("Removing volume '%s'", vol.name()) vol.delete(0) self._tmpvols = [] for f in self._tmpfiles: log.debug("Removing %s", str(f)) os.unlink(f) self._tmpfiles = [] def _get_postinstall_bootdev(self, guest): if self.cdrom and self._no_install: return DomainOs.BOOT_DEVICE_CDROM if self._install_bootdev: if any([d for d in guest.devices.disk if d.device == d.DEVICE_DISK]): return DomainOs.BOOT_DEVICE_HARDDISK return self._install_bootdev device = guest.devices.disk and guest.devices.disk[0].device or None if device == DeviceDisk.DEVICE_DISK: return DomainOs.BOOT_DEVICE_HARDDISK elif device == DeviceDisk.DEVICE_CDROM: return DomainOs.BOOT_DEVICE_CDROM elif device == DeviceDisk.DEVICE_FLOPPY: return DomainOs.BOOT_DEVICE_FLOPPY return DomainOs.BOOT_DEVICE_HARDDISK ############## # Public API # ############## @property def location(self): if self._treemedia: return self._treemedia.location @property def cdrom(self): return self._cdrom def set_initrd_injections(self, initrd_injections): if not self._treemedia: raise RuntimeError("Install method does not support " "initrd injections.") self._treemedia.set_initrd_injections(initrd_injections) def set_extra_args(self, extra_args): if not self._treemedia: raise RuntimeError("Kernel arguments are only supported with " "location or kernel installs.") self._treemedia.set_extra_args(extra_args) def set_install_defaults(self, guest): """ 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 if self._is_reinstall: self._pre_reinstall_xml = guest.get_xml() self._add_install_cdrom_device(guest) if not guest.os.bootorder and self._can_set_guest_bootorder(guest): bootdev = self._get_postinstall_bootdev(guest) guest.os.bootorder = self._build_boot_order(guest, bootdev) if not self._is_reinstall: guest.set_defaults(None) self._defaults_are_set = True def get_search_paths(self, guest): """ Return a list of paths that the hypervisor will need search access for to perform this install. """ search_paths = [] if ((self._treemedia or self._cloudinit_data or self._unattended_data) and not self._should_upload_media(guest)): search_paths.append(InstallerTreeMedia.make_scratchdir(guest)) if self._cdrom_path(): search_paths.append(self._cdrom_path()) return search_paths def requires_postboot_xml_changes(self): """ Return True if the install operation has 2 XML phases, and requires a hard VM poweroff to ensure the second stage is used for subsequent boots. """ if self.has_cloudinit() or self.has_unattended(): return True if self._no_install: return False return bool(self._cdrom or self._install_bootdev or self._treemedia) def options_specified(self): """ Return True if some explicit install option was actually passed in """ if self._no_install: return True return self.requires_postboot_xml_changes() def detect_distro(self, guest): """ Attempt to detect the distro for the Installer's 'location'. If an error is encountered in the detection process (or if detection is not relevant for the Installer type), None is returned. :returns: distro variant string, or None """ ret = None if self._treemedia: ret = self._treemedia.detect_distro(guest) elif self.cdrom: if guest.conn.is_remote(): log.debug("Can't detect distro for cdrom " "remote connection.") else: osguess = OSDB.guess_os_by_iso(self.cdrom) if osguess: ret = osguess[0] else: log.debug("No media for distro detection.") log.debug("installer.detect_distro returned=%s", ret) return ret def set_unattended_data(self, unattended_data): self._unattended_data = unattended_data def set_cloudinit_data(self, cloudinit_data): self._cloudinit_data = cloudinit_data def has_cloudinit(self): return bool(self._cloudinit_data) def has_unattended(self): return bool(self._unattended_data) def get_generated_password(self): if self._cloudinit_data: return self._cloudinit_data.get_password_if_generated() ########################## # guest install handling # ########################## def _build_postboot_xml(self, guest_ro, final_xml, meter): initial_guest = Guest(self.conn, parsexml=final_xml) self._alter_bootconfig(initial_guest) self._alter_install_resources(initial_guest, meter) if self.has_cloudinit(): initial_guest.set_smbios_serial_cloudinit() # When shim in the guest sees unpopulated EFI NVRAM, like when # we create a new UEFI VM, it invokes fallback.efi to populate # initial NVRAM boot entries. When the guest also has a TPM device, # shim will do a one time VM reset. This reset throws off the # reboot detection that is central to virt-install's install # process. # # The main install case that this will usually be relevant is # the combo of UEFI and --cloud-init. The latter usually implies # use of a distro cloud image, which will be using shim, and the # --cloud-init process requires a multi stage install compared # to just a plain import install. # # For that case, we disable the default TPM device for the first # boot. if (guest_ro.have_default_tpm and guest_ro.is_uefi() and len(initial_guest.devices.tpm)): log.debug( "combo of default TPM, UEFI, and cloudinit is " "used. assuming this VM is using a linux distro " "cloud image with shim in the boot path. disabling " "TPM for the first boot") initial_guest.remove_device(initial_guest.devices.tpm[0]) final_guest = Guest(self.conn, parsexml=final_xml) self._remove_install_cdrom_media(final_guest) self._remove_unattended_install_cdrom_device(final_guest) return initial_guest.get_xml(), final_guest.get_xml() def _build_xml(self, guest, meter): initial_xml = None final_xml = guest.get_xml() if self.requires_postboot_xml_changes(): initial_xml, final_xml = self._build_postboot_xml( guest, final_xml, meter) final_xml = self._pre_reinstall_xml or final_xml log.debug("Generated initial_xml: %s", (initial_xml and ("\n" + initial_xml) or "None required")) log.debug("Generated final_xml: \n%s", final_xml) return initial_xml, final_xml def _manual_transient_create(self, initial_xml, final_xml, needs_boot): """ For hypervisors (like vz) that don't implement createXML, we need to define+start, and undefine on start failure """ domain = self.conn.defineXML(initial_xml or final_xml) if not needs_boot: return domain # Handle undefining the VM if the initial startup fails try: domain.create() except Exception: # pragma: no cover try: domain.undefine() except Exception: pass raise if initial_xml and initial_xml != final_xml: domain = self.conn.defineXML(final_xml) return domain def _create_guest(self, guest, meter, initial_xml, final_xml, doboot, transient): """ Actually do the XML logging, guest defining/creating :param doboot: Boot guest even if it has no install phase """ meter_label = _("Creating domain...") meter = progress.ensure_meter(meter) meter.start(meter_label, None) needs_boot = doboot or bool(initial_xml) if guest.type == "vz" and not self._is_reinstall: if transient: raise RuntimeError(_("Domain type 'vz' doesn't support " "transient installs.")) domain = self._manual_transient_create( initial_xml, final_xml, needs_boot) else: if transient or needs_boot: domain = self.conn.createXML(initial_xml or final_xml, 0) if not transient: domain = self.conn.defineXML(final_xml) try: log.debug("XML fetched from libvirt object:\n%s", domain.XMLDesc(0)) except Exception as e: # pragma: no cover log.debug("Error fetching XML from libvirt object: %s", e) meter.end() return domain def _flag_autostart(self, domain): """ Set the autostart flag for domain if the user requested it """ try: domain.setAutostart(True) except Exception as e: # pragma: no cover if not self.conn.support.is_error_nosupport(e): raise log.warning("Could not set autostart flag: libvirt " "connection does not support autostart.") ###################### # Public install API # ###################### def start_install(self, user_guest, meter=None, dry=False, return_xml=False, doboot=True, transient=False): """ Begin the guest install. Will add install media to the guest config, launch it, then redefine the XML with the postinstall config. :param return_xml: Don't create the guest, just return generated XML """ if not self._is_reinstall and not return_xml: Guest.validate_name(self.conn, user_guest.name) self.set_install_defaults(user_guest) disks = user_guest.devices.disk[:] # All installer XML alterations are made on this guest instance, # so the user_guest instance is left intact guest = Guest(self.conn, parsexml=user_guest.get_xml()) guest.have_default_tpm = user_guest.have_default_tpm try: self._prepare(guest, meter) if not dry and not self._is_reinstall: for dev in disks: dev.build_storage(meter) initial_xml, final_xml = self._build_xml(guest, meter) if dry or return_xml: return (initial_xml, final_xml) domain = self._create_guest( guest, meter, initial_xml, final_xml, doboot, transient) if self.autostart: self._flag_autostart(domain) return domain finally: self._cleanup(guest)