#!/usr/bin/python2 -O
# vim: fileencoding=utf-8
#
# The Qubes OS Project, https://www.qubes-os.org/
#
# Copyright (C) 2013-2015 Joanna Rutkowska <joanna@invisiblethingslab.com>
# Copyright (C) 2013-2015 Marek Marczykowski-Górecki
# <marmarek@invisiblethingslab.com>
# Copyright (C) 2015 Wojtek Porczyk <woju@invisiblethingslab.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 __future__ import absolute_import
import ConfigParser
import importlib
import os
import os.path
import re
import shutil
import subprocess
import sys
import qubes
import qubes.exc
import qubes.utils
BLKSIZE = 512
CONFIG_FILE = '/etc/qubes/storage.conf'
class StoragePoolException(qubes.exc.QubesException):
pass
class Storage(object):
'''Class for handling VM virtual disks.
This is base class for all other implementations, mostly with Xen on Linux
in mind.
'''
root_img = None
private_img = None
volatile_img = None
modules_dev = None
def __init__(self, vm, private_img_size=None, root_img_size=None):
#: Domain for which we manage storage
self.vm = vm
#: Size of the private image
self.private_img_size = private_img_size \
if private_img_size is not None \
else qubes.config.defaults['private_img_size']
#: Size of the root image
self.root_img_size = root_img_size \
if root_img_size is not None \
else qubes.config.defaults['root_img_size']
#: Additional drive (currently used only by HVM)
self.drive = None
def get_config_params(self):
args = {}
args['rootdev'] = self.root_dev_config()
args['privatedev'] = self.private_dev_config()
args['volatiledev'] = self.volatile_dev_config()
args['otherdevs'] = self.other_dev_config()
args['kerneldir'] = self.kernels_dir
return args
def root_dev_config(self):
raise NotImplementedError()
def private_dev_config(self):
raise NotImplementedError()
def volatile_dev_config(self):
raise NotImplementedError()
def other_dev_config(self):
if self.modules_img is not None:
return self.format_disk_dev(self.modules_img, self.modules_dev,
rw=self.modules_img_rw)
elif self.drive is not None:
(drive_type, drive_domain, drive_path) = self.drive.split(":")
if drive_type == 'hd':
drive_type = 'disk'
rw = (drive_type == 'disk')
if drive_domain.lower() == "dom0":
drive_domain = None
return self.format_disk_dev(drive_path,
self.modules_dev,
rw=rw,
devtype=drive_type,
domain=drive_domain)
else:
return ''
def format_disk_dev(self, path, vdev, script=None, rw=True, devtype='disk',
domain=None):
raise NotImplementedError()
@property
def kernels_dir(self):
'''Directory where kernel resides.
If :py:attr:`self.vm.kernel` is :py:obj:`None`, the this points inside
:py:attr:`self.vm.dir_path`
'''
return os.path.join(qubes.config.system_path['qubes_base_dir'],
qubes.config.system_path['qubes_kernels_base_dir'], self.vm.kernel)\
if self.vm.kernel is not None \
else os.path.join(self.vm.dir_path,
qubes.config.vm_files['kernels_subdir'])
@property
def modules_img(self):
'''Path to image with modules.
Depending on domain, this may be global or inside domain's dir.
'''
modules_path = os.path.join(self.kernels_dir, 'modules.img')
if os.path.exists(modules_path):
return modules_path
else:
return None
@property
def modules_img_rw(self):
''':py:obj:`True` if module image should be mounted RW, :py:obj:`False`
otherwise.'''
return self.vm.kernel is None
def abspath(self, path, rel=None):
'''Make absolute path.
If given path is relative, it is interpreted as relative to
:py:attr:`self.vm.dir_path` or given *rel*.
'''
return path if os.path.isabs(path) \
else os.path.join(rel or self.vm.dir_path, path)
@staticmethod
def _copy_file(source, destination):
'''Effective file copy, preserving sparse files etc.
'''
# TODO: Windows support
# We prefer to use Linux's cp, because it nicely handles sparse files
try:
subprocess.check_call(['cp', '--reflink=auto', source, destination])
except subprocess.CalledProcessError:
raise IOError('Error while copying {!r} to {!r}'.format(
source, destination))
def get_disk_utilization(self):
return get_disk_usage(self.vm.dir_path)
def get_disk_utilization_private_img(self):
# pylint: disable=invalid-name
return get_disk_usage(self.private_img)
def get_private_img_sz(self):
if not os.path.exists(self.private_img):
return 0
return os.path.getsize(self.private_img)
def resize_private_img(self, size):
raise NotImplementedError()
def create_on_disk_private_img(self, source_template=None):
raise NotImplementedError()
def create_on_disk_root_img(self, source_template=None):
raise NotImplementedError()
def create_on_disk(self, source_template=None):
if source_template is None and hasattr(self.vm, 'template'):
source_template = self.vm.template
old_umask = os.umask(002)
self.vm.log.info('Creating directory: {0}'.format(self.vm.dir_path))
os.mkdir(self.vm.dir_path)
self.create_on_disk_private_img(source_template)
self.create_on_disk_root_img(source_template)
self.reset_volatile_storage()
os.umask(old_umask)
def clone_disk_files(self, src_vm):
self.vm.log.info('Creating directory: {0}'.format(self.vm.dir_path))
os.mkdir(self.vm.dir_path)
if hasattr(src_vm, 'private_img'):
self.vm.log.info('Copying the private image: {} -> {}'.format(
src_vm.private_img, self.vm.private_img))
self._copy_file(src_vm.private_img, self.vm.private_img)
if src_vm.updateable and hasattr(src_vm, 'root_img'):
self.vm.log.info('Copying the root image: {} -> {}'.format(
src_vm.root_img, self.root_img))
self._copy_file(src_vm.root_img, self.root_img)
# TODO: modules?
# XXX which modules? -woju
@staticmethod
def rename(newpath, oldpath):
'''Move storage directory, most likely during domain's rename.
.. note::
The arguments are in different order than in :program:`cp` utility.
.. versionchange:: 4.0
This is now dummy method that just passes everything to
:py:func:`os.rename`.
:param str newpath: New path
:param str oldpath: Old path
'''
os.rename(oldpath, newpath)
def verify_files(self):
if not os.path.exists(self.vm.dir_path):
raise qubes.exc.QubesVMError(self.vm,
'VM directory does not exist: {}'.format(self.vm.dir_path))
if hasattr(self.vm, 'root_img') and not os.path.exists(self.root_img):
raise qubes.exc.QubesVMError(self.vm,
'VM root image file does not exist: {}'.format(self.root_img))
if hasattr(self.vm, 'private_img') \
and not os.path.exists(self.private_img):
raise qubes.exc.QubesVMError(self.vm,
'VM private image file does not exist: {}'.format(
self.private_img))
if self.modules_img is not None \
and not os.path.exists(self.modules_img):
raise qubes.exc.QubesVMError(self.vm,
'VM kernel modules image does not exists: {}'.format(
self.modules_img))
def remove_from_disk(self):
shutil.rmtree(self.vm.dir_path)
def reset_volatile_storage(self):
# Re-create only for template based VMs
try:
if self.vm.template is not None and self.volatile_img:
if os.path.exists(self.volatile_img):
os.remove(self.volatile_img)
except AttributeError: # self.vm.template
pass
# For StandaloneVM create it only if not already exists
# (eg after backup-restore)
if hasattr(self, 'volatile_img') \
and not os.path.exists(self.volatile_img):
self.vm.log.info(
'Creating volatile image: {0}'.format(self.volatile_img))
subprocess.check_call(
[qubes.config.system_path["prepare_volatile_img_cmd"],
self.volatile_img,
str(self.root_img_size / 1024 / 1024)])
def prepare_for_vm_startup(self):
self.reset_volatile_storage()
if hasattr(self.vm, 'private_img') \
and not os.path.exists(self.private_img):
self.vm.log.info('Creating empty VM private image file: {0}'.format(
self.private_img))
self.create_on_disk_private_img()
def get_disk_usage_one(st):
'''Extract disk usage of one inode from its stat_result struct.
If known, get real disk usage, as written to device by filesystem, not
logical file size. Those values may be different for sparse files.
:param os.stat_result st: stat result
:returns: disk usage
'''
try:
return st.st_blocks * BLKSIZE
except AttributeError:
return st.st_size
def get_disk_usage(path):
'''Get real disk usage of given path (file or directory).
When *path* points to directory, then it is evaluated recursively.
This function tries estiate real disk usage. See documentation of
:py:func:`get_disk_usage_one`.
:param str path: path to evaluate
:returns: disk usage
'''
try:
st = os.lstat(path)
except OSError:
return 0
ret = get_disk_usage_one(st)
# if path is not a directory, this is skipped
for dirpath, dirnames, filenames in os.walk(path):
for name in dirnames + filenames:
ret += get_disk_usage_one(os.lstat(os.path.join(dirpath, name)))
return ret
def load(clsname):
'''Given a dotted full module string representation of a class it loads it
Args:
string (str) i.e. 'qubes.storage.xen.QubesXenVmStorage'
Returns:
type
See also:
:func:`qubes.storage.dump`
:raises ImportError: when storage class specified in config cannot be found
:raises KeyError: when storage class specified in config cannot be found
'''
if not isinstance(clsname, basestring):
return clsname
pkg, cls = clsname.strip().rsplit('.', 1)
# this may raise ImportError or KeyError, that's okay
return importlib.import_module(pkg).__dict__[cls]
def dump(o):
""" Returns a string represention of the given object
Args:
o (object): anything that response to `__module__` and `__class__`
Given the class :class:`qubes.storage.QubesVmStorage` it returns
'qubes.storage.QubesVmStorage' as string
"""
return o.__module__ + '.' + o.__class__.__name__
def get_pool(name, vm):
""" Instantiates the storage for the specified vm """
config = _get_storage_config_parser()
klass = _get_pool_klass(name, config)
keys = [k for k in config.options(name) if k != 'driver' and k != 'class']
values = [config.get(name, o) for o in keys]
config_kwargs = dict(zip(keys, values))
if name == 'default':
kwargs = qubes.config.defaults['pool_config'].copy()
kwargs.update(keys)
else:
kwargs = config_kwargs
return klass(vm, **kwargs)
def pool_exists(name):
""" Check if the specified pool exists """
try:
_get_pool_klass(name)
return True
except StoragePoolException:
return False
def add_pool(name, **kwargs):
""" Add a storage pool to config."""
config = _get_storage_config_parser()
config.add_section(name)
for key, value in kwargs.iteritems():
config.set(name, key, value)
_write_config(config)
def remove_pool(name):
""" Remove a storage pool from config file. """
config = _get_storage_config_parser()
config.remove_section(name)
_write_config(config)
def _write_config(config):
with open(CONFIG_FILE, 'w') as configfile:
config.write(configfile)
def _get_storage_config_parser():
""" Instantiates a `ConfigParaser` for specified storage config file.
Returns:
RawConfigParser
"""
config = ConfigParser.RawConfigParser()
config.read(CONFIG_FILE)
return config
def _get_pool_klass(name, config=None):
""" Returns the storage klass for the specified pool.
Args:
name: The pool name.
config: If ``config`` is not specified
`_get_storage_config_parser()` is called.
Returns:
type: A class inheriting from `QubesVmStorage`
"""
if config is None:
config = _get_storage_config_parser()
if not config.has_section(name):
raise StoragePoolException('Uknown storage pool ' + name)
if config.has_option(name, 'class'):
klass = load(config.get(name, 'class'))
elif config.has_option(name, 'driver'):
pool_driver = config.get(name, 'driver')
klass = load(qubes.config.defaults['pool_drivers'][pool_driver])
else:
raise StoragePoolException('Uknown storage pool driver ' + name)
return klass
class Pool(object):
def __init__(self, vm, dir_path):
assert vm is not None
assert dir_path is not None
self.vm = vm
self.dir_path = dir_path
self.create_dir_if_not_exists(self.dir_path)
self.vmdir = self.vmdir_path(vm, self.dir_path)
appvms_path = os.path.join(self.dir_path, 'appvms')
self.create_dir_if_not_exists(appvms_path)
servicevms_path = os.path.join(self.dir_path, 'servicevms')
self.create_dir_if_not_exists(servicevms_path)
vm_templates_path = os.path.join(self.dir_path, 'vm-templates')
self.create_dir_if_not_exists(vm_templates_path)
# XXX there is also a class attribute on the domain classes which does
# exactly that -- which one should prevail?
def vmdir_path(self, vm, pool_dir):
""" Returns the path to vmdir depending on the type of the VM.
The default QubesOS file storage saves the vm images in three
different directories depending on the ``QubesVM`` type:
* ``appvms`` for ``QubesAppVm`` or ``QubesHvm``
* ``vm-templates`` for ``QubesTemplateVm`` or ``QubesTemplateHvm``
Args:
vm: a QubesVM
pool_dir: the root directory of the pool
Returns:
string (str) absolute path to the directory where the vm files
are stored
"""
if vm.is_template():
subdir = 'vm-templates'
elif vm.is_disposablevm():
subdir = 'appvms'
return os.path.join(pool_dir, subdir, vm.template.name + '-dvm')
else:
subdir = 'appvms'
return os.path.join(pool_dir, subdir, vm.name)
def create_dir_if_not_exists(self, path):
""" Check if a directory exists in if not create it.
This method does not create any parent directories.
"""
if not os.path.exists(path):
os.mkdir(path)