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community.general/plugins/modules/filesystem.py
Felix Fontein 2ed82e0318
Use semantic markup (modules d-g) (#6672)
* Use semantic markup.

* 'ignore:' is no longer needed.

* E() now works better.
2023-06-15 15:46:44 +02:00

606 lines
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Python

#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright (c) 2021, quidame <quidame@poivron.org>
# Copyright (c) 2013, Alexander Bulimov <lazywolf0@gmail.com>
# GNU General Public License v3.0+ (see LICENSES/GPL-3.0-or-later.txt or https://www.gnu.org/licenses/gpl-3.0.txt)
# SPDX-License-Identifier: GPL-3.0-or-later
from __future__ import absolute_import, division, print_function
__metaclass__ = type
DOCUMENTATION = '''
---
author:
- Alexander Bulimov (@abulimov)
- quidame (@quidame)
module: filesystem
short_description: Makes a filesystem
description:
- This module creates a filesystem.
extends_documentation_fragment:
- community.general.attributes
attributes:
check_mode:
support: full
diff_mode:
support: none
options:
state:
description:
- If O(state=present), the filesystem is created if it doesn't already
exist, that is the default behaviour if O(state) is omitted.
- If O(state=absent), filesystem signatures on O(dev) are wiped if it
contains a filesystem (as known by C(blkid)).
- When O(state=absent), all other options but O(dev) are ignored, and the
module does not fail if the device O(dev) doesn't actually exist.
type: str
choices: [ present, absent ]
default: present
version_added: 1.3.0
fstype:
choices: [ btrfs, ext2, ext3, ext4, ext4dev, f2fs, lvm, ocfs2, reiserfs, xfs, vfat, swap, ufs ]
description:
- Filesystem type to be created. This option is required with
O(state=present) (or if O(state) is omitted).
- ufs support has been added in community.general 3.4.0.
type: str
aliases: [type]
dev:
description:
- Target path to block device (Linux) or character device (FreeBSD) or
regular file (both).
- When setting Linux-specific filesystem types on FreeBSD, this module
only works when applying to regular files, aka disk images.
- Currently V(lvm) (Linux-only) and V(ufs) (FreeBSD-only) do not support
a regular file as their target O(dev).
- Support for character devices on FreeBSD has been added in community.general 3.4.0.
type: path
required: true
aliases: [device]
force:
description:
- If V(true), allows to create new filesystem on devices that already has filesystem.
type: bool
default: false
resizefs:
description:
- If V(true), if the block device and filesystem size differ, grow the filesystem into the space.
- Supported for C(btrfs), C(ext2), C(ext3), C(ext4), C(ext4dev), C(f2fs), C(lvm), C(xfs), C(ufs) and C(vfat) filesystems.
Attempts to resize other filesystem types will fail.
- XFS Will only grow if mounted. Currently, the module is based on commands
from C(util-linux) package to perform operations, so resizing of XFS is
not supported on FreeBSD systems.
- vFAT will likely fail if C(fatresize < 1.04).
type: bool
default: false
opts:
description:
- List of options to be passed to C(mkfs) command.
type: str
requirements:
- Uses specific tools related to the O(fstype) for creating or resizing a
filesystem (from packages e2fsprogs, xfsprogs, dosfstools, and so on).
- Uses generic tools mostly related to the Operating System (Linux or
FreeBSD) or available on both, as C(blkid).
- On FreeBSD, either C(util-linux) or C(e2fsprogs) package is required.
notes:
- Potential filesystems on O(dev) are checked using C(blkid). In case C(blkid)
is unable to detect a filesystem (and in case C(fstyp) on FreeBSD is also
unable to detect a filesystem), this filesystem is overwritten even if
O(force) is V(false).
- On FreeBSD systems, both C(e2fsprogs) and C(util-linux) packages provide
a C(blkid) command that is compatible with this module. However, these
packages conflict with each other, and only the C(util-linux) package
provides the command required to not fail when O(state=absent).
seealso:
- module: community.general.filesize
- module: ansible.posix.mount
'''
EXAMPLES = '''
- name: Create a ext2 filesystem on /dev/sdb1
community.general.filesystem:
fstype: ext2
dev: /dev/sdb1
- name: Create a ext4 filesystem on /dev/sdb1 and check disk blocks
community.general.filesystem:
fstype: ext4
dev: /dev/sdb1
opts: -cc
- name: Blank filesystem signature on /dev/sdb1
community.general.filesystem:
dev: /dev/sdb1
state: absent
- name: Create a filesystem on top of a regular file
community.general.filesystem:
dev: /path/to/disk.img
fstype: vfat
'''
import os
import platform
import re
import stat
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.common.text.converters import to_native
from ansible_collections.community.general.plugins.module_utils.version import LooseVersion
class Device(object):
def __init__(self, module, path):
self.module = module
self.path = path
def size(self):
""" Return size in bytes of device. Returns int """
statinfo = os.stat(self.path)
if stat.S_ISBLK(statinfo.st_mode):
blockdev_cmd = self.module.get_bin_path("blockdev", required=True)
dummy, out, dummy = self.module.run_command([blockdev_cmd, "--getsize64", self.path], check_rc=True)
devsize_in_bytes = int(out)
elif stat.S_ISCHR(statinfo.st_mode) and platform.system() == 'FreeBSD':
diskinfo_cmd = self.module.get_bin_path("diskinfo", required=True)
dummy, out, dummy = self.module.run_command([diskinfo_cmd, self.path], check_rc=True)
devsize_in_bytes = int(out.split()[2])
elif os.path.isfile(self.path):
devsize_in_bytes = os.path.getsize(self.path)
else:
self.module.fail_json(changed=False, msg="Target device not supported: %s" % self)
return devsize_in_bytes
def get_mountpoint(self):
"""Return (first) mountpoint of device. Returns None when not mounted."""
cmd_findmnt = self.module.get_bin_path("findmnt", required=True)
# find mountpoint
rc, mountpoint, dummy = self.module.run_command([cmd_findmnt, "--mtab", "--noheadings", "--output",
"TARGET", "--source", self.path], check_rc=False)
if rc != 0:
mountpoint = None
else:
mountpoint = mountpoint.split('\n')[0]
return mountpoint
def __str__(self):
return self.path
class Filesystem(object):
MKFS = None
MKFS_FORCE_FLAGS = []
INFO = None
GROW = None
GROW_MAX_SPACE_FLAGS = []
GROW_MOUNTPOINT_ONLY = False
LANG_ENV = {'LANG': 'C', 'LC_ALL': 'C', 'LC_MESSAGES': 'C'}
def __init__(self, module):
self.module = module
@property
def fstype(self):
return type(self).__name__
def get_fs_size(self, dev):
"""Return size in bytes of filesystem on device (integer).
Should query the info with a per-fstype command that can access the
device whenever it is mounted or not, and parse the command output.
Parser must ensure to return an integer, or raise a ValueError.
"""
raise NotImplementedError()
def create(self, opts, dev):
if self.module.check_mode:
return
mkfs = self.module.get_bin_path(self.MKFS, required=True)
cmd = [mkfs] + self.MKFS_FORCE_FLAGS + opts + [str(dev)]
self.module.run_command(cmd, check_rc=True)
def wipefs(self, dev):
if self.module.check_mode:
return
# wipefs comes with util-linux package (as 'blockdev' & 'findmnt' above)
# that is ported to FreeBSD. The use of dd as a portable fallback is
# not doable here if it needs get_mountpoint() (to prevent corruption of
# a mounted filesystem), since 'findmnt' is not available on FreeBSD,
# even in util-linux port for this OS.
wipefs = self.module.get_bin_path('wipefs', required=True)
cmd = [wipefs, "--all", str(dev)]
self.module.run_command(cmd, check_rc=True)
def grow_cmd(self, target):
"""Build and return the resizefs commandline as list."""
cmdline = [self.module.get_bin_path(self.GROW, required=True)]
cmdline += self.GROW_MAX_SPACE_FLAGS + [target]
return cmdline
def grow(self, dev):
"""Get dev and fs size and compare. Returns stdout of used command."""
devsize_in_bytes = dev.size()
try:
fssize_in_bytes = self.get_fs_size(dev)
except NotImplementedError:
self.module.fail_json(msg="module does not support resizing %s filesystem yet" % self.fstype)
except ValueError as err:
self.module.warn("unable to process %s output '%s'" % (self.INFO, to_native(err)))
self.module.fail_json(msg="unable to process %s output for %s" % (self.INFO, dev))
if not fssize_in_bytes < devsize_in_bytes:
self.module.exit_json(changed=False, msg="%s filesystem is using the whole device %s" % (self.fstype, dev))
elif self.module.check_mode:
self.module.exit_json(changed=True, msg="resizing filesystem %s on device %s" % (self.fstype, dev))
if self.GROW_MOUNTPOINT_ONLY:
mountpoint = dev.get_mountpoint()
if not mountpoint:
self.module.fail_json(msg="%s needs to be mounted for %s operations" % (dev, self.fstype))
grow_target = mountpoint
else:
grow_target = str(dev)
dummy, out, dummy = self.module.run_command(self.grow_cmd(grow_target), check_rc=True)
return out
class Ext(Filesystem):
MKFS_FORCE_FLAGS = ['-F']
INFO = 'tune2fs'
GROW = 'resize2fs'
def get_fs_size(self, dev):
"""Get Block count and Block size and return their product."""
cmd = self.module.get_bin_path(self.INFO, required=True)
dummy, out, dummy = self.module.run_command([cmd, '-l', str(dev)], check_rc=True, environ_update=self.LANG_ENV)
block_count = block_size = None
for line in out.splitlines():
if 'Block count:' in line:
block_count = int(line.split(':')[1].strip())
elif 'Block size:' in line:
block_size = int(line.split(':')[1].strip())
if None not in (block_size, block_count):
break
else:
raise ValueError(repr(out))
return block_size * block_count
class Ext2(Ext):
MKFS = 'mkfs.ext2'
class Ext3(Ext):
MKFS = 'mkfs.ext3'
class Ext4(Ext):
MKFS = 'mkfs.ext4'
class XFS(Filesystem):
MKFS = 'mkfs.xfs'
MKFS_FORCE_FLAGS = ['-f']
INFO = 'xfs_info'
GROW = 'xfs_growfs'
GROW_MOUNTPOINT_ONLY = True
def get_fs_size(self, dev):
"""Get bsize and blocks and return their product."""
cmdline = [self.module.get_bin_path(self.INFO, required=True)]
# Depending on the versions, xfs_info is able to get info from the
# device, whenever it is mounted or not, or only if unmounted, or
# only if mounted, or not at all. For any version until now, it is
# able to query info from the mountpoint. So try it first, and use
# device as the last resort: it may or may not work.
mountpoint = dev.get_mountpoint()
if mountpoint:
cmdline += [mountpoint]
else:
cmdline += [str(dev)]
dummy, out, dummy = self.module.run_command(cmdline, check_rc=True, environ_update=self.LANG_ENV)
block_size = block_count = None
for line in out.splitlines():
col = line.split('=')
if col[0].strip() == 'data':
if col[1].strip() == 'bsize':
block_size = int(col[2].split()[0])
if col[2].split()[1] == 'blocks':
block_count = int(col[3].split(',')[0])
if None not in (block_size, block_count):
break
else:
raise ValueError(repr(out))
return block_size * block_count
class Reiserfs(Filesystem):
MKFS = 'mkfs.reiserfs'
MKFS_FORCE_FLAGS = ['-q']
class Btrfs(Filesystem):
MKFS = 'mkfs.btrfs'
INFO = 'btrfs'
GROW = 'btrfs'
GROW_MAX_SPACE_FLAGS = ['filesystem', 'resize', 'max']
GROW_MOUNTPOINT_ONLY = True
def __init__(self, module):
super(Btrfs, self).__init__(module)
mkfs = self.module.get_bin_path(self.MKFS, required=True)
dummy, stdout, stderr = self.module.run_command([mkfs, '--version'], check_rc=True)
match = re.search(r" v([0-9.]+)", stdout)
if not match:
# v0.20-rc1 use stderr
match = re.search(r" v([0-9.]+)", stderr)
if match:
# v0.20-rc1 doesn't have --force parameter added in following version v3.12
if LooseVersion(match.group(1)) >= LooseVersion('3.12'):
self.MKFS_FORCE_FLAGS = ['-f']
else:
# assume version is greater or equal to 3.12
self.MKFS_FORCE_FLAGS = ['-f']
self.module.warn('Unable to identify mkfs.btrfs version (%r, %r)' % (stdout, stderr))
def get_fs_size(self, dev):
"""Return size in bytes of filesystem on device (integer)."""
mountpoint = dev.get_mountpoint()
if not mountpoint:
self.module.fail_json(msg="%s needs to be mounted for %s operations" % (dev, self.fstype))
dummy, stdout, dummy = self.module.run_command([self.module.get_bin_path(self.INFO),
'filesystem', 'usage', '-b', mountpoint], check_rc=True)
for line in stdout.splitlines():
if "Device size" in line:
return int(line.split()[-1])
raise ValueError(repr(stdout))
class Ocfs2(Filesystem):
MKFS = 'mkfs.ocfs2'
MKFS_FORCE_FLAGS = ['-Fx']
class F2fs(Filesystem):
MKFS = 'mkfs.f2fs'
INFO = 'dump.f2fs'
GROW = 'resize.f2fs'
def __init__(self, module):
super(F2fs, self).__init__(module)
mkfs = self.module.get_bin_path(self.MKFS, required=True)
dummy, out, dummy = self.module.run_command([mkfs, os.devnull], check_rc=False, environ_update=self.LANG_ENV)
# Looking for " F2FS-tools: mkfs.f2fs Ver: 1.10.0 (2018-01-30)"
# mkfs.f2fs displays version since v1.2.0
match = re.search(r"F2FS-tools: mkfs.f2fs Ver: ([0-9.]+) \(", out)
if match is not None:
# Since 1.9.0, mkfs.f2fs check overwrite before make filesystem
# before that version -f switch wasn't used
if LooseVersion(match.group(1)) >= LooseVersion('1.9.0'):
self.MKFS_FORCE_FLAGS = ['-f']
def get_fs_size(self, dev):
"""Get sector size and total FS sectors and return their product."""
cmd = self.module.get_bin_path(self.INFO, required=True)
dummy, out, dummy = self.module.run_command([cmd, str(dev)], check_rc=True, environ_update=self.LANG_ENV)
sector_size = sector_count = None
for line in out.splitlines():
if 'Info: sector size = ' in line:
# expected: 'Info: sector size = 512'
sector_size = int(line.split()[4])
elif 'Info: total FS sectors = ' in line:
# expected: 'Info: total FS sectors = 102400 (50 MB)'
sector_count = int(line.split()[5])
if None not in (sector_size, sector_count):
break
else:
raise ValueError(repr(out))
return sector_size * sector_count
class VFAT(Filesystem):
INFO = 'fatresize'
GROW = 'fatresize'
GROW_MAX_SPACE_FLAGS = ['-s', 'max']
def __init__(self, module):
super(VFAT, self).__init__(module)
if platform.system() == 'FreeBSD':
self.MKFS = 'newfs_msdos'
else:
self.MKFS = 'mkfs.vfat'
def get_fs_size(self, dev):
"""Get and return size of filesystem, in bytes."""
cmd = self.module.get_bin_path(self.INFO, required=True)
dummy, out, dummy = self.module.run_command([cmd, '--info', str(dev)], check_rc=True, environ_update=self.LANG_ENV)
fssize = None
for line in out.splitlines()[1:]:
parts = line.split(':', 1)
if len(parts) < 2:
continue
param, value = parts
if param.strip() in ('Size', 'Cur size'):
fssize = int(value.strip())
break
else:
raise ValueError(repr(out))
return fssize
class LVM(Filesystem):
MKFS = 'pvcreate'
MKFS_FORCE_FLAGS = ['-f']
INFO = 'pvs'
GROW = 'pvresize'
def get_fs_size(self, dev):
"""Get and return PV size, in bytes."""
cmd = self.module.get_bin_path(self.INFO, required=True)
dummy, size, dummy = self.module.run_command([cmd, '--noheadings', '-o', 'pv_size', '--units', 'b', '--nosuffix', str(dev)], check_rc=True)
pv_size = int(size)
return pv_size
class Swap(Filesystem):
MKFS = 'mkswap'
MKFS_FORCE_FLAGS = ['-f']
class UFS(Filesystem):
MKFS = 'newfs'
INFO = 'dumpfs'
GROW = 'growfs'
GROW_MAX_SPACE_FLAGS = ['-y']
def get_fs_size(self, dev):
"""Get providersize and fragment size and return their product."""
cmd = self.module.get_bin_path(self.INFO, required=True)
dummy, out, dummy = self.module.run_command([cmd, str(dev)], check_rc=True, environ_update=self.LANG_ENV)
fragmentsize = providersize = None
for line in out.splitlines():
if line.startswith('fsize'):
fragmentsize = int(line.split()[1])
elif 'providersize' in line:
providersize = int(line.split()[-1])
if None not in (fragmentsize, providersize):
break
else:
raise ValueError(repr(out))
return fragmentsize * providersize
FILESYSTEMS = {
'ext2': Ext2,
'ext3': Ext3,
'ext4': Ext4,
'ext4dev': Ext4,
'f2fs': F2fs,
'reiserfs': Reiserfs,
'xfs': XFS,
'btrfs': Btrfs,
'vfat': VFAT,
'ocfs2': Ocfs2,
'LVM2_member': LVM,
'swap': Swap,
'ufs': UFS,
}
def main():
friendly_names = {
'lvm': 'LVM2_member',
}
fstypes = set(FILESYSTEMS.keys()) - set(friendly_names.values()) | set(friendly_names.keys())
# There is no "single command" to manipulate filesystems, so we map them all out and their options
module = AnsibleModule(
argument_spec=dict(
state=dict(type='str', default='present', choices=['present', 'absent']),
fstype=dict(type='str', aliases=['type'], choices=list(fstypes)),
dev=dict(type='path', required=True, aliases=['device']),
opts=dict(type='str'),
force=dict(type='bool', default=False),
resizefs=dict(type='bool', default=False),
),
required_if=[
('state', 'present', ['fstype'])
],
supports_check_mode=True,
)
state = module.params['state']
dev = module.params['dev']
fstype = module.params['fstype']
opts = module.params['opts']
force = module.params['force']
resizefs = module.params['resizefs']
mkfs_opts = []
if opts is not None:
mkfs_opts = opts.split()
changed = False
if not os.path.exists(dev):
msg = "Device %s not found." % dev
if state == "present":
module.fail_json(msg=msg)
else:
module.exit_json(msg=msg)
dev = Device(module, dev)
# In case blkid/fstyp isn't able to identify an existing filesystem, device
# is considered as empty, then this existing filesystem would be overwritten
# even if force isn't enabled.
cmd = module.get_bin_path('blkid', required=True)
rc, raw_fs, err = module.run_command([cmd, '-c', os.devnull, '-o', 'value', '-s', 'TYPE', str(dev)])
fs = raw_fs.strip()
if not fs and platform.system() == 'FreeBSD':
cmd = module.get_bin_path('fstyp', required=True)
rc, raw_fs, err = module.run_command([cmd, str(dev)])
fs = raw_fs.strip()
if state == "present":
if fstype in friendly_names:
fstype = friendly_names[fstype]
try:
klass = FILESYSTEMS[fstype]
except KeyError:
module.fail_json(changed=False, msg="module does not support this filesystem (%s) yet." % fstype)
filesystem = klass(module)
same_fs = fs and FILESYSTEMS.get(fs) == FILESYSTEMS[fstype]
if same_fs and not resizefs and not force:
module.exit_json(changed=False)
elif same_fs and resizefs:
if not filesystem.GROW:
module.fail_json(changed=False, msg="module does not support resizing %s filesystem yet." % fstype)
out = filesystem.grow(dev)
module.exit_json(changed=True, msg=out)
elif fs and not force:
module.fail_json(msg="'%s' is already used as %s, use force=true to overwrite" % (dev, fs), rc=rc, err=err)
# create fs
filesystem.create(mkfs_opts, dev)
changed = True
elif fs:
# wipe fs signatures
filesystem = Filesystem(module)
filesystem.wipefs(dev)
changed = True
module.exit_json(changed=changed)
if __name__ == '__main__':
main()