# # Copyright 2008, 2013 Red Hat, Inc. # Cole Robinson # # 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 os import threading import time import logging import libvirt import urlgrabber from virtinst.xmlbuilder import XMLBuilder, XMLChildProperty, XMLProperty from virtinst import util DEFAULT_DEV_TARGET = "/dev" DEFAULT_LVM_TARGET_BASE = "/dev/" DEFAULT_DIR_TARGET_BASE = "/var/lib/libvirt/images/" DEFAULT_SCSI_TARGET = "/dev/disk/by-path" DEFAULT_MPATH_TARGET = "/dev/mapper" class _StoragePermissions(XMLBuilder): _XML_ROOT_NAME = "permissions" _XML_PROP_ORDER = ["mode", "owner", "group", "label"] mode = XMLProperty("./mode") owner = XMLProperty("./owner") group = XMLProperty("./group") label = XMLProperty("./label") class _StorageObject(XMLBuilder): """ Base class for building any libvirt storage object. Meaningless to directly instantiate. """ ###################### # Validation helpers # ###################### def _check_name_collision(self, name): raise NotImplementedError() def _validate_name(self, name): if name == self.name: return util.validate_name(_("Storage object"), name) self._check_name_collision(name) return name ############## # Properties # ############## name = XMLProperty("./name", validate_cb=_validate_name, doc=_("Name for the storage object.")) permissions = XMLChildProperty(_StoragePermissions, relative_xpath="./target", is_single=True) def _get_default_pool_path(conn): path = "/var/lib/libvirt/images" if conn.is_session_uri(): path = os.path.expanduser("~/VirtualMachines") return path class StoragePool(_StorageObject): """ Base class for building and installing libvirt storage pool xml """ # @group Types: TYPE_* TYPE_DIR = "dir" TYPE_FS = "fs" TYPE_NETFS = "netfs" TYPE_LOGICAL = "logical" TYPE_DISK = "disk" TYPE_ISCSI = "iscsi" TYPE_SCSI = "scsi" TYPE_MPATH = "mpath" TYPE_GLUSTER = "gluster" # Pool type descriptions for use in higher level programs _descs = {} _descs[TYPE_DIR] = _("Filesystem Directory") _descs[TYPE_FS] = _("Pre-Formatted Block Device") _descs[TYPE_NETFS] = _("Network Exported Directory") _descs[TYPE_LOGICAL] = _("LVM Volume Group") _descs[TYPE_DISK] = _("Physical Disk Device") _descs[TYPE_ISCSI] = _("iSCSI Target") _descs[TYPE_SCSI] = _("SCSI Host Adapter") _descs[TYPE_MPATH] = _("Multipath Device Enumerator") _descs[TYPE_GLUSTER] = _("Gluster Filesystem") @staticmethod def get_pool_types(): """ Return list of appropriate pool types """ return StoragePool._descs.keys() @staticmethod def get_pool_type_desc(pool_type): """ Return human readable description for passed pool type """ return StoragePool._descs.get(pool_type, "%s pool" % pool_type) @staticmethod def pool_list_from_sources(conn, pool_type, host=None): """ Return a list of StoragePool instances built from libvirt's pool source enumeration (if supported). @param conn: Libvirt connection @param name: Name for the new pool @param pool_type: Pool type string from I{Types} @param host: Option host string to poll for sources """ if not conn.check_support(conn.SUPPORT_CONN_FINDPOOLSOURCES): return [] if host: source_xml = "" % host else: source_xml = "" try: xml = conn.findStoragePoolSources(pool_type, source_xml, 0) except libvirt.libvirtError, e: if util.is_error_nosupport(e): return [] raise def source_parser(node): ret = [] child = node.children while child: if child.name == "source": xml = "\n%s\n" % ( util.xml_indent(child.serialize(format=1), 2)) parseobj = StoragePool(conn, parsexml=xml) parseobj.type = pool_type obj = StoragePool(conn) obj.type = pool_type obj.source_path = parseobj.source_path obj.host = parseobj.host obj.source_name = parseobj.source_name obj.format = parseobj.format ret.append(obj) child = child.next return ret return util.parse_node_helper(xml, "sources", source_parser) @staticmethod def build_default_pool(conn): """ Helper to build the 'default' storage pool """ if not conn.check_support(conn.SUPPORT_CONN_STORAGE): return pool = None name = "default" path = _get_default_pool_path(conn) try: pool = conn.storagePoolLookupByName(name) except libvirt.libvirtError: pass if pool: return try: logging.debug("Attempting to build default pool with target '%s'", path) defpool = StoragePool(conn) defpool.type = defpool.TYPE_DIR defpool.name = name defpool.target_path = path defpool.install(build=True, create=True, autostart=True) conn.clear_cache(pools=True) return defpool except Exception, e: raise RuntimeError( _("Couldn't create default storage pool '%s': %s") % (path, str(e))) @staticmethod def get_default_path(conn): """ Return the default storage path. If there's a 'default' pool, report that. If there's no default pool, return the path we would use for the default. """ path = _get_default_pool_path(conn) if not conn.check_support(conn.SUPPORT_CONN_STORAGE): os.makedirs(path) return path try: poolobj = conn.storagePoolLookupByName("default") return StoragePool(conn, parsexml=poolobj.XMLDesc(0)).target_path except: pass return StoragePool.build_default_pool(conn).target_path @staticmethod def lookup_pool_by_path(conn, path): """ Return the first pool with matching matching target path. return the first we find, active or inactive. This iterates over all pools and dumps their xml, so it is NOT quick. Favor running pools over inactive pools. @returns: virStoragePool object if found, None otherwise """ if not conn.check_support(conn.SUPPORT_CONN_STORAGE): return None def check_pool(pool, path): xml_path = pool.target_path if xml_path is not None and os.path.abspath(xml_path) == path: return True for pool in conn.fetch_all_pools(): if check_pool(pool, path): return conn.storagePoolLookupByName(pool.name) return None @staticmethod def find_free_name(conn, basename, **kwargs): """ Finds a name similar (or equal) to passed 'basename' that is not in use by another pool. Extra params are passed to generate_name """ return util.generate_name(basename, conn.storagePoolLookupByName, **kwargs) def __init__(self, *args, **kwargs): _StorageObject.__init__(self, *args, **kwargs) self._random_uuid = None ###################### # Validation helpers # ###################### def _check_name_collision(self, name): pool = None try: pool = self.conn.storagePoolLookupByName(name) except libvirt.libvirtError: pass if pool: raise ValueError(_("Name '%s' already in use by another pool." % name)) def _get_default_target_path(self): if not self.supports_property("target_path"): return None if (self.type == self.TYPE_DIR or self.type == self.TYPE_NETFS or self.type == self.TYPE_FS): return (DEFAULT_DIR_TARGET_BASE + self.name) if self.type == self.TYPE_LOGICAL: name = self.name if self.source_name: name = self.source_name return DEFAULT_LVM_TARGET_BASE + name if self.type == self.TYPE_DISK: return DEFAULT_DEV_TARGET if self.type == self.TYPE_ISCSI or self.type == self.TYPE_SCSI: return DEFAULT_SCSI_TARGET if self.type == self.TYPE_MPATH: return DEFAULT_MPATH_TARGET raise RuntimeError("No default target_path for type=%s" % self.type) def _get_default_uuid(self): if self._random_uuid is None: self._random_uuid = util.generate_uuid(self.conn) return self._random_uuid def _make_source_xpath(self): if self.type == self.TYPE_NETFS: return "./source/dir/@path" if self.type == self.TYPE_SCSI: return "./source/adapter/@name" return "./source/device/@path" def _default_source_name(self): if not self.supports_property("source_name"): return None # If a source name isn't explictly set, try to determine it from # existing parameters srcname = self.name if ("target_path" in self._propstore and self.target_path and self.target_path.startswith(DEFAULT_LVM_TARGET_BASE)): # If there is a target path, parse it for an expected VG # location, and pull the name from there vg = self.target_path[len(DEFAULT_LVM_TARGET_BASE):] srcname = vg.split("/", 1)[0] return srcname def _default_format_cb(self): if not self.supports_property("format"): return None return "auto" ############## # Properties # ############## _XML_ROOT_NAME = "pool" _XML_PROP_ORDER = ["name", "type", "uuid", "capacity", "allocation", "available", "format", "host", "source_path", "source_name", "target_path", "source_dir", "permissions"] type = XMLProperty("./@type", doc=_("Storage device type the pool will represent.")) uuid = XMLProperty("./uuid", validate_cb=lambda s, v: util.validate_uuid(v), default_cb=_get_default_uuid) capacity = XMLProperty("./capacity", is_int=True) allocation = XMLProperty("./allocation", is_int=True) available = XMLProperty("./available", is_int=True) format = XMLProperty("./source/format/@type", default_cb=_default_format_cb) host = XMLProperty("./source/host/@name") iqn = XMLProperty("./source/initiator/iqn/@name", doc=_("iSCSI initiator qualified name")) source_path = XMLProperty(name="source path", make_xpath_cb=_make_source_xpath) source_name = XMLProperty("./source/name", default_cb=_default_source_name, doc=_("Name of the Volume Group")) target_path = XMLProperty("./target/path", default_cb=_get_default_target_path) source_dir = XMLProperty("./source/dir/@path") ###################### # Public API helpers # ###################### def supports_property(self, propname): users = { "source_path": [self.TYPE_FS, self.TYPE_NETFS, self.TYPE_LOGICAL, self.TYPE_DISK, self.TYPE_ISCSI, self.TYPE_SCSI], "source_name": [self.TYPE_LOGICAL, self.TYPE_GLUSTER], "source_dir" : [self.TYPE_GLUSTER, self.TYPE_NETFS], "host": [self.TYPE_NETFS, self.TYPE_ISCSI, self.TYPE_GLUSTER], "format": [self.TYPE_FS, self.TYPE_NETFS, self.TYPE_DISK], "iqn": [self.TYPE_ISCSI], "target_path" : [self.TYPE_DIR, self.TYPE_FS, self.TYPE_NETFS, self.TYPE_LOGICAL, self.TYPE_DISK, self.TYPE_ISCSI, self.TYPE_SCSI, self.TYPE_MPATH] } if users.get(propname): return self.type in users[propname] return hasattr(self, propname) def list_formats(self): if self.type == self.TYPE_FS: return ["auto", "ext2", "ext3", "ext4", "ufs", "iso9660", "udf", "gfs", "gfs2", "vfat", "hfs+", "xfs"] if self.type == self.TYPE_NETFS: return ["auto", "nfs", "glusterfs"] if self.type == self.TYPE_DISK: return ["auto", "bsd", "dos", "dvh", "gpt", "mac", "pc98", "sun"] return [] def supports_volume_creation(self): return self.type in [ StoragePool.TYPE_DIR, StoragePool.TYPE_FS, StoragePool.TYPE_NETFS, StoragePool.TYPE_LOGICAL, StoragePool.TYPE_DISK, StoragePool.TYPE_GLUSTER] def get_vm_disk_type(self): """ Return the /disk/@type value if the pool source is used as VirtualDisk path """ xpath = self._make_source_xpath() if "/dir/" in xpath: return "dir" return "block" ################## # Build routines # ################## def validate(self): if self.supports_property("host") and not self.host: raise RuntimeError(_("Hostname is required")) if (self.supports_property("source_path") and not self.type == self.TYPE_LOGICAL and not self.source_path): raise RuntimeError(_("Source path is required")) if (self.type == self.TYPE_DISK and self.format == "auto"): # There is no explicit "auto" type for disk pools, but leaving out # the format type seems to do the job for existing formatted disks self.format = None def install(self, meter=None, create=False, build=False, autostart=False): """ Install storage pool xml. """ if (self.type == self.TYPE_LOGICAL and build and not self.source_path): raise ValueError(_("Must explicitly specify source path if " "building pool")) if (self.type == self.TYPE_DISK and build and self.format == "auto"): raise ValueError(_("Must explicitly specify disk format if " "formatting disk device.")) xml = self.get_xml_config() logging.debug("Creating storage pool '%s' with xml:\n%s", self.name, xml) if not meter: meter = urlgrabber.progress.BaseMeter() try: pool = self.conn.storagePoolDefineXML(xml, 0) except Exception, e: raise RuntimeError(_("Could not define storage pool: %s" % str(e))) errmsg = None if build: try: pool.build(libvirt.VIR_STORAGE_POOL_BUILD_NEW) except Exception, e: errmsg = _("Could not build storage pool: %s" % str(e)) if create and not errmsg: try: pool.create(0) except Exception, e: errmsg = _("Could not start storage pool: %s" % str(e)) if autostart and not errmsg: try: pool.setAutostart(True) except Exception, e: errmsg = _("Could not set pool autostart flag: %s" % str(e)) if errmsg: # Try and clean up the leftover pool try: pool.undefine() except Exception, e: logging.debug("Error cleaning up pool after failure: " + "%s" % str(e)) raise RuntimeError(errmsg) return pool class StorageVolume(_StorageObject): """ Base class for building and installing libvirt storage volume xml """ ALL_FORMATS = ["raw", "bochs", "cloop", "cow", "dmg", "iso", "qcow", "qcow2", "qed", "vmdk", "vpc", "fat", "vhd", "vdi"] @staticmethod def get_file_extension_for_format(fmt): if not fmt: return "" if fmt == "raw": return ".img" return "." + fmt @staticmethod def find_free_name(pool_object, basename, **kwargs): """ Finds a name similar (or equal) to passed 'basename' that is not in use by another volume. Extra params are passed to generate_name """ pool_object.refresh(0) return util.generate_name(basename, pool_object.storageVolLookupByName, **kwargs) TYPE_FILE = getattr(libvirt, "VIR_STORAGE_VOL_FILE", 0) TYPE_BLOCK = getattr(libvirt, "VIR_STORAGE_VOL_BLOCK", 1) def __init__(self, *args, **kwargs): _StorageObject.__init__(self, *args, **kwargs) self._input_vol = None self._pool = None self._pool_type = None # Indicate that the volume installation has finished. Used to # definitively tell the storage progress thread to stop polling. self._install_finished = True ###################### # Non XML properties # ###################### def _get_pool(self): return self._pool def _set_pool(self, newpool): if newpool.info()[0] != libvirt.VIR_STORAGE_POOL_RUNNING: raise ValueError(_("pool '%s' must be active." % newpool.name())) self._pool = newpool self._pool_type = StoragePool(self.conn, parsexml=self._pool.XMLDesc(0)).type pool = property(_get_pool, _set_pool) def _get_input_vol(self): return self._input_vol def _set_input_vol(self, vol): if vol is None: self._input_vol = None return if not isinstance(vol, libvirt.virStorageVol): raise ValueError(_("input_vol must be a virStorageVol")) if not self.conn.check_support( self.conn.SUPPORT_POOL_CREATEVOLFROM, self.pool): raise ValueError(_("Creating storage from an existing volume is" " not supported by this libvirt version.")) self._input_vol = vol input_vol = property(_get_input_vol, _set_input_vol, doc=_("virStorageVolume pointer to clone/use as " "input.")) def sync_input_vol(self): # Pull paramaters from input vol into this class parsevol = StorageVolume(self.conn, parsexml=self._input_vol.XMLDesc(0)) self.pool = self._input_vol.storagePoolLookupByVolume() self.capacity = parsevol.capacity self.allocation = parsevol.allocation self.format = parsevol.format ########################## # XML validation helpers # ########################## def _check_name_collision(self, name): vol = None try: vol = self.pool.storageVolLookupByName(name) except libvirt.libvirtError: pass if vol: raise ValueError(_("Name '%s' already in use by another volume." % name)) def _validate_allocation(self, val): ret = self.is_size_conflict(allocation=val) if ret[0]: raise ValueError(ret[1]) elif ret[1]: logging.warn(ret[1]) return val def _validate_capacity(self, val): ret = self.is_size_conflict(capacity=val) if ret[0]: raise ValueError(ret[1]) elif ret[1]: logging.warn(ret[1]) return val def _default_format(self): if self.file_type == self.TYPE_FILE: return "raw" return None def _get_vol_type(self): if (self._pool_type == StoragePool.TYPE_DISK or self._pool_type == StoragePool.TYPE_LOGICAL): return self.TYPE_BLOCK return self.TYPE_FILE file_type = property(_get_vol_type) ################## # XML properties # ################## _XML_ROOT_NAME = "volume" _XML_PROP_ORDER = ["name", "key", "capacity", "allocation", "format", "target_path", "permissions"] key = XMLProperty("./key") capacity = XMLProperty("./capacity", is_int=True, validate_cb=_validate_capacity) allocation = XMLProperty("./allocation", is_int=True, validate_cb=_validate_allocation) format = XMLProperty("./target/format/@type", default_cb=_default_format) target_path = XMLProperty("./target/path") backing_store = XMLProperty("./backingStore/path") def _lazy_refcounts_default_cb(self): if self.format != "qcow2": return False return self.conn.check_support( self.conn.SUPPORT_CONN_QCOW2_LAZY_REFCOUNTS) lazy_refcounts = XMLProperty("./target/features/lazy_refcounts", is_bool=True, default_cb=_lazy_refcounts_default_cb) ###################### # Public API helpers # ###################### def supports_property(self, propname): users = { "format": [self.TYPE_FILE], } if users.get(propname): return self.file_type in users[propname] return hasattr(self, propname) def list_formats(self): if self.file_type == self.TYPE_FILE: return self.ALL_FORMATS return [] def list_create_formats(self): if self.file_type == self.TYPE_FILE: return ["raw", "cow", "qcow", "qcow2", "qed", "vmdk", "vpc", "vdi"] return None ################## # Build routines # ################## def validate(self): if self._pool_type == StoragePool.TYPE_LOGICAL: if self.allocation != self.capacity: logging.warn(_("Sparse logical volumes are not supported, " "setting allocation equal to capacity")) self.allocation = self.capacity def install(self, meter=None): """ Build and install storage volume from xml """ xml = self.get_xml_config() logging.debug("Creating storage volume '%s' with xml:\n%s", self.name, xml) t = threading.Thread(target=self._progress_thread, name="Checking storage allocation", args=(meter,)) t.setDaemon(True) if not meter: meter = urlgrabber.progress.BaseMeter() cloneflags = 0 createflags = 0 if (self.format == "qcow2" and not self.backing_store and not self.conn.is_test() and self.conn.check_support( self.conn.SUPPORT_POOL_METADATA_PREALLOC, self.pool)): createflags |= libvirt.VIR_STORAGE_VOL_CREATE_PREALLOC_METADATA try: self._install_finished = False t.start() meter.start(size=self.capacity, text=_("Allocating '%s'") % self.name) if self.input_vol: vol = self.pool.createXMLFrom(xml, self.input_vol, cloneflags) else: logging.debug("Using vol create flags=%s", createflags) vol = self.pool.createXML(xml, createflags) self._install_finished = True t.join() meter.end(self.capacity) logging.debug("Storage volume '%s' install complete.", self.name) return vol except libvirt.libvirtError, e: if util.is_error_nosupport(e): raise RuntimeError("Libvirt version does not support " "storage cloning.") raise except Exception, e: raise RuntimeError("Couldn't create storage volume " "'%s': '%s'" % (self.name, str(e))) def _progress_thread(self, meter): lookup_attempts = 10 vol = None if not meter: return while lookup_attempts > 0: try: if not vol: vol = self.pool.storageVolLookupByName(self.name) vol.info() break except: lookup_attempts -= 1 time.sleep(.2) if self._install_finished: break else: continue break if vol is None: logging.debug("Couldn't lookup storage volume in prog thread.") return while not self._install_finished: ignore, ignore, alloc = vol.info() meter.update(alloc) time.sleep(1) def is_size_conflict(self, capacity=None, allocation=None): """ Report if requested size exceeds its pool's available amount @returns: 2 element tuple: 1. True if collision is fatal, false otherwise 2. String message if some collision was encountered. @rtype: 2 element C{tuple}: (C{bool}, C{str}) """ if capacity is None: capacity = self.capacity if allocation is None: allocation = self.allocation if not self.pool: return (False, "") # pool info is [pool state, capacity, allocation, available] avail = self.pool.info()[3] if allocation > avail: return (True, _("There is not enough free space on the storage " "pool to create the volume. " "(%d M requested allocation > %d M available)" % ((allocation / (1024 * 1024)), (avail / (1024 * 1024))))) elif capacity > avail: return (False, _("The requested volume capacity will exceed the " "available pool space when the volume is fully " "allocated. " "(%d M requested capacity > %d M available)" % ((capacity / (1024 * 1024)), (avail / (1024 * 1024))))) return (False, "")