# # Storage lookup/creation helpers # # Copyright 2013 Red Hat, Inc. # # 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 os import re import stat import statvfs import libvirt from .storage import StoragePool, StorageVolume def _lookup_pool_by_dirname(conn, path): """ Try to find the parent pool for the passed path. If found, and the pool isn't running, attempt to start it up. return pool, or None if not found """ pool = StoragePool.lookup_pool_by_path(conn, os.path.dirname(path)) if not pool: return None # Ensure pool is running if pool.info()[0] != libvirt.VIR_STORAGE_POOL_RUNNING: pool.create(0) return pool def _lookup_vol_by_path(conn, path): """ Try to find a volume matching the full passed path. Call info() on it to ensure the volume wasn't removed behind libvirt's back """ try: vol = conn.storageVolLookupByPath(path) vol.info() return vol, None except libvirt.libvirtError, e: if (hasattr(libvirt, "VIR_ERR_NO_STORAGE_VOL") and e.get_error_code() != libvirt.VIR_ERR_NO_STORAGE_VOL): raise return None, e def _lookup_vol_by_basename(pool, path): """ Try to lookup a volume for 'path' in parent 'pool' by it's filename. This sometimes works in cases where full volume path lookup doesn't, since not all libvirt storage backends implement path lookup. """ name = os.path.basename(path) if name in pool.listVolumes(): return pool.storageVolLookupByName(name) def _stat_disk(path): """ Returns the tuple (isreg, size) """ if not os.path.exists(path): return True, 0 mode = os.stat(path)[stat.ST_MODE] # os.path.getsize('/dev/..') can be zero on some platforms if stat.S_ISBLK(mode): try: fd = os.open(path, os.O_RDONLY) # os.SEEK_END is not present on all systems size = os.lseek(fd, 0, 2) os.close(fd) except: size = 0 return False, size elif stat.S_ISREG(mode): return True, os.path.getsize(path) return True, 0 def check_if_path_managed(conn, path): """ Try to lookup storage objects for the passed path. Returns (volume, parent pool). Only one is returned at a time. """ vol, ignore = _lookup_vol_by_path(conn, path) if vol: return vol, vol.storagePoolLookupByVolume() pool = _lookup_pool_by_dirname(conn, path) if not pool: return None, None # We have the parent pool, but didn't find a volume on first lookup # attempt. Refresh the pool and try again, incase we were just out # of date. try: pool.refresh(0) vol, verr = _lookup_vol_by_path(conn, path) if verr: try: vol = _lookup_vol_by_basename(pool, path) except: pass except Exception, e: vol = None pool = None verr = str(e) if not vol and not pool and verr: raise ValueError(_("Cannot use storage %(path)s: %(err)s") % {'path' : path, 'err' : verr}) return vol, pool def _can_auto_manage(path): path = path or "" skip_prefixes = ["/dev", "/sys", "/proc"] if path_is_url(path): return False for prefix in skip_prefixes: if path.startswith(prefix + "/") or path == prefix: return False return True def manage_path(conn, path): """ If path is not managed, try to create a storage pool to probe the path """ if not conn.check_support(conn.SUPPORT_CONN_STORAGE): return None, None if not path: return None, None if not path_is_url(path): path = os.path.abspath(path) vol, pool = check_if_path_managed(conn, path) if vol or pool or not _can_auto_manage(path): return vol, pool dirname = os.path.dirname(path) poolname = os.path.basename(dirname).replace(" ", "_") if not poolname: poolname = "dirpool" poolname = StoragePool.find_free_name(conn, poolname) logging.debug("Attempting to build pool=%s target=%s", poolname, dirname) poolxml = StoragePool(conn) poolxml.name = poolname poolxml.type = poolxml.TYPE_DIR poolxml.target_path = dirname pool = poolxml.install(build=False, create=True, autostart=True) conn.clear_cache(pools=True) vol = _lookup_vol_by_basename(pool, path) return vol, pool def path_is_url(path): """ Detect if path is a URL """ if not path: return False return bool(re.match("[a-zA-Z]+(\+[a-zA-Z]+)?://.*", path)) def _get_dev_type(path, vol_xml, vol_object, pool_xml, remote): """ Try to get device type for volume. """ if vol_xml: if vol_xml.type: return vol_xml.type # If vol_xml.type is None the vol_xml.file_type can return only # these types: block, network or file if vol_xml.file_type == libvirt.VIR_STORAGE_VOL_BLOCK: return "block" elif vol_xml.file_type == libvirt.VIR_STORAGE_VOL_NETWORK: return "network" if vol_object: t = vol_object.info()[0] if t == StorageVolume.TYPE_FILE: return "file" elif t == StorageVolume.TYPE_BLOCK: return "block" elif t == StorageVolume.TYPE_NETWORK: return "network" if pool_xml: t = pool_xml.get_disk_type() if t == StorageVolume.TYPE_BLOCK: return "block" elif t == StorageVolume.TYPE_NETWORK: return "network" if path: if path_is_url(path): return "network" if not remote: if os.path.isdir(path): return "dir" elif _stat_disk(path)[0]: return "file" else: return "block" return "file" ############################################## # Classes for tracking storage media details # ############################################## class _StorageBase(object): """ Storage base class, defining the API used by VirtualDisk """ def __init__(self, conn): self._conn = conn self._parent_pool_xml = None def get_size(self): raise NotImplementedError() def get_dev_type(self): raise NotImplementedError() def get_driver_type(self): raise NotImplementedError() def get_vol_install(self): raise NotImplementedError() def get_vol_object(self): raise NotImplementedError() def get_parent_pool(self): raise NotImplementedError() def get_parent_pool_xml(self): if not self._parent_pool_xml and self.get_parent_pool(): self._parent_pool_xml = StoragePool(self._conn, parsexml=self.get_parent_pool().XMLDesc(0)) return self._parent_pool_xml def validate(self, disk): raise NotImplementedError() def get_path(self): raise NotImplementedError() # Storage creation routines def is_size_conflict(self): raise NotImplementedError() def create(self, progresscb): raise NotImplementedError() def will_create_storage(self): raise NotImplementedError() class _StorageCreator(_StorageBase): """ Base object for classes that will actually create storage on disk """ def __init__(self, conn): _StorageBase.__init__(self, conn) self._pool = None self._vol_install = None self._path = None self._size = None self._dev_type = None ############## # Public API # ############## def create(self, progresscb): raise NotImplementedError() def get_path(self): if self._vol_install and not self._path: xmlobj = StoragePool(self._conn, parsexml=self._vol_install.pool.XMLDesc(0)) if self.get_dev_type() == "network": self._path = self._vol_install.name else: sep = "/" if xmlobj.target_path == "" or xmlobj.target_path[-1] == '/': sep = "" self._path = (xmlobj.target_path + sep + self._vol_install.name) return self._path def get_vol_install(self): return self._vol_install def get_vol_xml(self): return self._vol_install def get_size(self): if self._size is None: self._size = (float(self._vol_install.capacity) / 1024.0 / 1024.0 / 1024.0) return self._size def get_dev_type(self): if not self._dev_type: self._dev_type = _get_dev_type(self._path, self._vol_install, None, self.get_parent_pool_xml(), self._conn.is_remote()) return self._dev_type def get_driver_type(self): if self._vol_install: if self._vol_install.supports_property("format"): return self._vol_install.format return "raw" def validate(self, disk): if disk.device in ["floppy", "cdrom"]: raise ValueError(_("Cannot create storage for %s device.") % disk.device) if self._vol_install: self._vol_install.validate() return if self._size is None: raise ValueError(_("size is required for non-existent disk " "'%s'" % self.get_path())) err, msg = self.is_size_conflict() if err: raise ValueError(msg) if msg: logging.warn(msg) def will_create_storage(self): return True def get_vol_object(self): return None def get_parent_pool(self): if self._vol_install: return self._vol_install.pool return None def exists(self): return False class CloneStorageCreator(_StorageCreator): """ Handles manually copying local files for Cloner Many clone scenarios will use libvirt storage APIs, which will use the ManagedStorageCreator """ def __init__(self, conn, output_path, input_path, size, sparse): _StorageCreator.__init__(self, conn) self._path = output_path self._output_path = output_path self._input_path = input_path self._size = size self._sparse = sparse def is_size_conflict(self): ret = False msg = None vfs = os.statvfs(os.path.dirname(self._path)) avail = vfs[statvfs.F_FRSIZE] * vfs[statvfs.F_BAVAIL] need = long(self._size * 1024L * 1024L * 1024L) if need > avail: if self._sparse: msg = _("The filesystem will not have enough free space" " to fully allocate the sparse file when the guest" " is running.") else: ret = True msg = _("There is not enough free space to create the disk.") if msg: msg += (_(" %d M requested > %d M available") % ((need / (1024 * 1024)), (avail / (1024 * 1024)))) return (ret, msg) def create(self, progresscb): text = (_("Cloning %(srcfile)s") % {'srcfile' : os.path.basename(self._input_path)}) size_bytes = long(self.get_size() * 1024L * 1024L * 1024L) progresscb.start(filename=self._output_path, size=long(size_bytes), text=text) # Plain file clone self._clone_local(progresscb, size_bytes) def _clone_local(self, meter, size_bytes): if self._input_path == "/dev/null": # Not really sure why this check is here, # but keeping for compat logging.debug("Source dev was /dev/null. Skipping") return if self._input_path == self._output_path: logging.debug("Source and destination are the same. Skipping.") return # If a destination file exists and sparse flag is True, # this priority takes an existing file. if (not os.path.exists(self._output_path) and self._sparse): clone_block_size = 4096 sparse = True fd = None try: fd = os.open(self._output_path, os.O_WRONLY | os.O_CREAT, 0640) os.ftruncate(fd, size_bytes) finally: if fd: os.close(fd) else: clone_block_size = 1024 * 1024 * 10 sparse = False logging.debug("Local Cloning %s to %s, sparse=%s, block_size=%s", self._input_path, self._output_path, sparse, clone_block_size) zeros = '\0' * 4096 src_fd, dst_fd = None, None try: try: src_fd = os.open(self._input_path, os.O_RDONLY) dst_fd = os.open(self._output_path, os.O_WRONLY | os.O_CREAT, 0640) i = 0 while 1: l = os.read(src_fd, clone_block_size) s = len(l) if s == 0: meter.end(size_bytes) break # check sequence of zeros if sparse and zeros == l: os.lseek(dst_fd, s, 1) else: b = os.write(dst_fd, l) if s != b: meter.end(i) break i += s if i < size_bytes: meter.update(i) except OSError, e: raise RuntimeError(_("Error cloning diskimage %s to %s: %s") % (self._input_path, self._output_path, str(e))) finally: if src_fd is not None: os.close(src_fd) if dst_fd is not None: os.close(dst_fd) class ManagedStorageCreator(_StorageCreator): """ Handles storage creation via libvirt APIs. All the actual creation logic lives in StorageVolume, this is mostly about pulling out bits from that class and mapping them to VirtualDisk elements """ def __init__(self, conn, vol_install): _StorageCreator.__init__(self, conn) self._pool = vol_install.pool self._vol_install = vol_install def create(self, progresscb): return self._vol_install.install(meter=progresscb) def is_size_conflict(self): return self._vol_install.is_size_conflict() class StorageBackend(_StorageBase): """ Class that carries all the info about any existing storage that the disk references """ def __init__(self, conn, path, vol_object, parent_pool): _StorageBase.__init__(self, conn) self._vol_object = vol_object self._parent_pool = parent_pool self._path = path if self._vol_object is not None: self._path = None if self._vol_object and not self._parent_pool: raise RuntimeError( "programming error: parent_pool must be specified") # Cached bits self._vol_xml = None self._parent_pool_xml = None self._exists = None self._size = None self._dev_type = None ############## # Public API # ############## def get_path(self): if self._vol_object: return self.get_vol_xml().target_path return self._path def get_vol_object(self): return self._vol_object def get_vol_xml(self): if self._vol_xml is None: self._vol_xml = StorageVolume(self._conn, parsexml=self._vol_object.XMLDesc(0)) return self._vol_xml def get_parent_pool(self): return self._parent_pool def get_size(self): """ Return size of existing storage """ if self._size is None: ret = 0 if self._vol_object: ret = self.get_vol_xml().capacity elif self._path: ret = _stat_disk(self._path)[1] self._size = (float(ret) / 1024.0 / 1024.0 / 1024.0) return self._size def exists(self): if self._exists is None: if self._path is None: self._exists = True elif self._vol_object: self._exists = True elif (not self.get_dev_type() == "network" and not self._conn.is_remote() and os.path.exists(self._path)): self._exists = True elif self._parent_pool: self._exists = False elif self.get_dev_type() == "network": self._exists = True elif (self._conn.is_remote() and not _can_auto_manage(self._path)): # This allows users to pass /dev/sdX and we don't try to # validate it exists on the remote connection, since # autopooling /dev is perilous. Libvirt will error if # the device doesn't exist. self._exists = True else: self._exists = False return self._exists def get_dev_type(self): """ Return disk 'type' value per storage settings """ if self._dev_type is None: vol_xml = None if self._vol_object: vol_xml = self.get_vol_xml() self._dev_type = _get_dev_type(self._path, vol_xml, self._vol_object, self.get_parent_pool_xml(), self._conn.is_remote()) return self._dev_type def get_driver_type(self): if self._vol_object: ret = self.get_vol_xml().format if ret != "unknown": return ret return None def validate(self, disk): ignore = disk return def get_vol_install(self): return None def is_size_conflict(self): return (False, None) def will_create_storage(self): return False def create(self, progresscb): ignore = progresscb raise RuntimeError("programming error: %s can't create storage" % self.__class__.__name__)