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# Copyright (C) 2011 Canonical Ltd.
# Copyright (C) 2012 Hewlett-Packard Development Company, L.P.
#
# Author: Scott Moser <scott.moser@canonical.com>
# Author: Juerg Haefliger <juerg.haefliger@hp.com>
#
# This file is part of cloud-init. See LICENSE file for license information.
"""Resizefs: cloud-config module which resizes the filesystem"""
import errno
import os
import stat
from logging import Logger
from textwrap import dedent
from cloudinit import subp, util
from cloudinit.cloud import Cloud
from cloudinit.config import Config
from cloudinit.config.schema import MetaSchema, get_meta_doc
from cloudinit.distros import ALL_DISTROS
from cloudinit.settings import PER_ALWAYS
NOBLOCK = "noblock"
meta: MetaSchema = {
"id": "cc_resizefs",
"name": "Resizefs",
"title": "Resize filesystem",
"description": dedent(
"""\
Resize a filesystem to use all avaliable space on partition. This
module is useful along with ``cc_growpart`` and will ensure that if the
root partition has been resized the root filesystem will be resized
along with it. By default, ``cc_resizefs`` will resize the root
partition and will block the boot process while the resize command is
running. Optionally, the resize operation can be performed in the
background while cloud-init continues running modules. This can be
enabled by setting ``resize_rootfs`` to ``noblock``. This module can be
disabled altogether by setting ``resize_rootfs`` to ``false``."""
),
"distros": [ALL_DISTROS],
"examples": [
"resize_rootfs: false # disable root filesystem resize operation",
"resize_rootfs: noblock # runs resize operation in the background",
],
"frequency": PER_ALWAYS,
"activate_by_schema_keys": [],
}
__doc__ = get_meta_doc(meta)
def _resize_btrfs(mount_point, devpth):
# If "/" is ro resize will fail. However it should be allowed since resize
# makes everything bigger and subvolumes that are not ro will benefit.
# Use a subvolume that is not ro to trick the resize operation to do the
# "right" thing. The use of ".snapshot" is specific to "snapper" a generic
# solution would be walk the subvolumes and find a rw mounted subvolume.
if not util.mount_is_read_write(mount_point) and os.path.isdir(
"%s/.snapshots" % mount_point
):
cmd = [
"btrfs",
"filesystem",
"resize",
"max",
"%s/.snapshots" % mount_point,
]
else:
cmd = ["btrfs", "filesystem", "resize", "max", mount_point]
# btrfs has exclusive operations and resize may fail if btrfs is busy
# doing one of the operations that prevents resize. As of btrfs 5.10
# the resize operation can be queued
btrfs_with_queue = util.Version.from_str("5.10")
system_btrfs_ver = util.Version.from_str(
subp.subp(["btrfs", "--version"])[0].split("v")[-1].strip()
)
if system_btrfs_ver >= btrfs_with_queue:
idx = cmd.index("resize")
cmd.insert(idx + 1, "--enqueue")
return tuple(cmd)
def _resize_ext(mount_point, devpth):
return ("resize2fs", devpth)
def _resize_xfs(mount_point, devpth):
return ("xfs_growfs", mount_point)
def _resize_ufs(mount_point, devpth):
return ("growfs", "-y", mount_point)
def _resize_zfs(mount_point, devpth):
return ("zpool", "online", "-e", mount_point, devpth)
def _resize_hammer2(mount_point, devpth):
return ("hammer2", "growfs", mount_point)
def _can_skip_resize_ufs(mount_point, devpth):
# possible errors cases on the code-path to growfs -N following:
# https://github.com/freebsd/freebsd/blob/HEAD/sbin/growfs/growfs.c
# This is the "good" error:
skip_start = "growfs: requested size"
skip_contain = "is not larger than the current filesystem size"
# growfs exits with 1 for almost all cases up to this one.
# This means we can't just use rcs=[0, 1] as subp parameter:
try:
subp.subp(["growfs", "-N", devpth])
except subp.ProcessExecutionError as e:
if e.stderr.startswith(skip_start) and skip_contain in e.stderr:
# This FS is already at the desired size
return True
else:
raise e
return False
# Do not use a dictionary as these commands should be able to be used
# for multiple filesystem types if possible, e.g. one command for
# ext2, ext3 and ext4.
RESIZE_FS_PREFIXES_CMDS = [
("btrfs", _resize_btrfs),
("ext", _resize_ext),
("xfs", _resize_xfs),
("ufs", _resize_ufs),
("zfs", _resize_zfs),
("hammer2", _resize_hammer2),
]
RESIZE_FS_PRECHECK_CMDS = {"ufs": _can_skip_resize_ufs}
def can_skip_resize(fs_type, resize_what, devpth):
fstype_lc = fs_type.lower()
for i, func in RESIZE_FS_PRECHECK_CMDS.items():
if fstype_lc.startswith(i):
return func(resize_what, devpth)
return False
def maybe_get_writable_device_path(devpath, info, log):
"""Return updated devpath if the devpath is a writable block device.
@param devpath: Requested path to the root device we want to resize.
@param info: String representing information about the requested device.
@param log: Logger to which logs will be added upon error.
@returns devpath or updated devpath per kernel commandline if the device
path is a writable block device, returns None otherwise.
"""
container = util.is_container()
# Ensure the path is a block device.
if (
devpath == "/dev/root"
and not os.path.exists(devpath)
and not container
):
devpath = util.rootdev_from_cmdline(util.get_cmdline())
if devpath is None:
log.warning("Unable to find device '/dev/root'")
return None
log.debug("Converted /dev/root to '%s' per kernel cmdline", devpath)
if devpath == "overlayroot":
log.debug("Not attempting to resize devpath '%s': %s", devpath, info)
return None
# FreeBSD zpool can also just use gpt/<label>
# with that in mind we can not do an os.stat on "gpt/whatever"
# therefore return the devpath already here.
if devpath.startswith("gpt/"):
log.debug("We have a gpt label - just go ahead")
return devpath
# Alternatively, our device could simply be a name as returned by gpart,
# such as da0p3
if not devpath.startswith("/dev/") and not os.path.exists(devpath):
fulldevpath = "/dev/" + devpath.lstrip("/")
log.debug(
"'%s' doesn't appear to be a valid device path. Trying '%s'",
devpath,
fulldevpath,
)
devpath = fulldevpath
try:
statret = os.stat(devpath)
except OSError as exc:
if container and exc.errno == errno.ENOENT:
log.debug(
"Device '%s' did not exist in container. cannot resize: %s",
devpath,
info,
)
elif exc.errno == errno.ENOENT:
log.warning(
"Device '%s' did not exist. cannot resize: %s", devpath, info
)
else:
raise exc
return None
if not stat.S_ISBLK(statret.st_mode) and not stat.S_ISCHR(statret.st_mode):
if container:
log.debug(
"device '%s' not a block device in container."
" cannot resize: %s" % (devpath, info)
)
else:
log.warning(
"device '%s' not a block device. cannot resize: %s"
% (devpath, info)
)
return None
return devpath # The writable block devpath
def handle(
name: str, cfg: Config, cloud: Cloud, log: Logger, args: list
) -> None:
if len(args) != 0:
resize_root = args[0]
else:
resize_root = util.get_cfg_option_str(cfg, "resize_rootfs", True)
if not util.translate_bool(resize_root, addons=[NOBLOCK]):
log.debug("Skipping module named %s, resizing disabled", name)
return
# TODO(harlowja): allow what is to be resized to be configurable??
resize_what = "/"
result = util.get_mount_info(resize_what, log)
if not result:
log.warning("Could not determine filesystem type of %s", resize_what)
return
(devpth, fs_type, mount_point) = result
# if we have a zfs then our device path at this point
# is the zfs label. For example: vmzroot/ROOT/freebsd
# we will have to get the zpool name out of this
# and set the resize_what variable to the zpool
# so the _resize_zfs function gets the right attribute.
if fs_type == "zfs":
zpool = devpth.split("/")[0]
devpth = util.get_device_info_from_zpool(zpool)
if not devpth:
return # could not find device from zpool
resize_what = zpool
info = "dev=%s mnt_point=%s path=%s" % (devpth, mount_point, resize_what)
log.debug("resize_info: %s" % info)
devpth = maybe_get_writable_device_path(devpth, info, log)
if not devpth:
return # devpath was not a writable block device
resizer = None
if can_skip_resize(fs_type, resize_what, devpth):
log.debug(
"Skip resize filesystem type %s for %s", fs_type, resize_what
)
return
fstype_lc = fs_type.lower()
for (pfix, root_cmd) in RESIZE_FS_PREFIXES_CMDS:
if fstype_lc.startswith(pfix):
resizer = root_cmd
break
if not resizer:
log.warning(
"Not resizing unknown filesystem type %s for %s",
fs_type,
resize_what,
)
return
resize_cmd = resizer(resize_what, devpth)
log.debug(
"Resizing %s (%s) using %s", resize_what, fs_type, " ".join(resize_cmd)
)
if resize_root == NOBLOCK:
# Fork to a child that will run
# the resize command
util.fork_cb(
util.log_time,
logfunc=log.debug,
msg="backgrounded Resizing",
func=do_resize,
args=(resize_cmd, log),
)
else:
util.log_time(
logfunc=log.debug,
msg="Resizing",
func=do_resize,
args=(resize_cmd, log),
)
action = "Resized"
if resize_root == NOBLOCK:
action = "Resizing (via forking)"
log.debug(
"%s root filesystem (type=%s, val=%s)", action, fs_type, resize_root
)
def do_resize(resize_cmd, log):
try:
subp.subp(resize_cmd)
except subp.ProcessExecutionError:
util.logexc(log, "Failed to resize filesystem (cmd=%s)", resize_cmd)
raise
# TODO(harlowja): Should we add a fsck check after this to make
# sure we didn't corrupt anything?
# vi: ts=4 expandtab
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