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Edit File: cc_growpart.py

# Copyright (C) 2011 Canonical Ltd. # Copyright (C) 2013 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. """Growpart: Grow partitions""" import base64 import copy import json import logging import os import os.path import re import stat from abc import ABC, abstractmethod from contextlib import suppress from pathlib import Path from typing import Optional, Tuple from cloudinit import lifecycle, subp, temp_utils, util from cloudinit.cloud import Cloud from cloudinit.config import Config from cloudinit.config.schema import MetaSchema from cloudinit.distros import ALL_DISTROS, Distro from cloudinit.settings import PER_ALWAYS MODULE_DESCRIPTION = """\ """ frequency = PER_ALWAYS meta: MetaSchema = { "id": "cc_growpart", "distros": [ALL_DISTROS], "frequency": frequency, "activate_by_schema_keys": [], } # type: ignore DEFAULT_CONFIG = { "mode": "auto", "devices": ["/"], "ignore_growroot_disabled": False, } KEYDATA_PATH = Path("/cc_growpart_keydata") class RESIZE: SKIPPED = "SKIPPED" CHANGED = "CHANGED" NOCHANGE = "NOCHANGE" FAILED = "FAILED" LOG = logging.getLogger(__name__) class ResizeFailedException(Exception): pass class Resizer(ABC): def __init__(self, distro: Distro): self._distro = distro @abstractmethod def available(self, devices: list) -> bool: ... @abstractmethod def resize(self, diskdev, partnum, partdev, fs): ... class ResizeGrowPart(Resizer): def available(self, devices: list): try: out = subp.subp( ["growpart", "--help"], update_env={"LANG": "C"} ).stdout if re.search(r"--update\s+", out): return True except subp.ProcessExecutionError: pass return False def resize(self, diskdev, partnum, partdev, fs): before = get_size(partdev, fs) # growpart uses tmp dir to store intermediate states # and may conflict with systemd-tmpfiles-clean tmp_dir = self._distro.get_tmp_exec_path() with temp_utils.tempdir(dir=tmp_dir, needs_exe=True) as tmpd: growpart_tmp = os.path.join(tmpd, "growpart") my_env = {"LANG": "C", "TMPDIR": growpart_tmp} if not os.path.exists(growpart_tmp): os.mkdir(growpart_tmp, 0o700) try: subp.subp( ["growpart", "--dry-run", diskdev, partnum], update_env=my_env, ) except subp.ProcessExecutionError as e: if e.exit_code != 1: util.logexc( LOG, "Failed growpart --dry-run for (%s, %s)", diskdev, partnum, ) raise ResizeFailedException(e) from e return (before, before) try: subp.subp(["growpart", diskdev, partnum], update_env=my_env) except subp.ProcessExecutionError as e: util.logexc(LOG, "Failed: growpart %s %s", diskdev, partnum) raise ResizeFailedException(e) from e return (before, get_size(partdev, fs)) class ResizeGrowFS(Resizer): """ Use FreeBSD ``growfs`` service to grow root partition to fill available space, optionally adding a swap partition at the end. Note that the service file warns us that it uses ``awk(1)``, and as such requires ``/usr`` to be present. However, cloud-init is installed into ``/usr/local``, so we should be fine. We invoke the ``growfs`` with ``service growfs onestart``, so it doesn't need to be enabled in ``rc.conf``. """ def available(self, devices: list): """growfs only works on the root partition""" return os.path.isfile("/etc/rc.d/growfs") and devices == ["/"] def resize(self, diskdev, partnum, partdev, fs): before = get_size(partdev, fs) try: self._distro.manage_service(action="onestart", service="growfs") except subp.ProcessExecutionError as e: util.logexc(LOG, "Failed: service growfs onestart") raise ResizeFailedException(e) from e return (before, get_size(partdev, fs)) class ResizeGpart(Resizer): def available(self, devices: list): try: err = subp.subp( ["gpart", "help"], update_env={"LANG": "C"}, rcs=[0, 1] ).stderr if re.search(r"gpart recover ", err): return True except subp.ProcessExecutionError: pass return False def resize(self, diskdev, partnum, partdev, fs): """ GPT disks store metadata at the beginning (primary) and at the end (secondary) of the disk. When launching an image with a larger disk compared to the original image, the secondary copy is lost. Thus, the metadata will be marked CORRUPT, and need to be recovered. """ try: subp.subp(["gpart", "recover", diskdev]) except subp.ProcessExecutionError as e: if e.exit_code != 0: util.logexc(LOG, "Failed: gpart recover %s", diskdev) raise ResizeFailedException(e) from e before = get_size(partdev, fs) try: subp.subp(["gpart", "resize", "-i", partnum, diskdev]) except subp.ProcessExecutionError as e: util.logexc(LOG, "Failed: gpart resize -i %s %s", partnum, diskdev) raise ResizeFailedException(e) from e return (before, get_size(partdev, fs)) def resizer_factory(mode: str, distro: Distro, devices: list) -> Resizer: resize_class = None if mode == "auto": for _name, resizer in RESIZERS: cur = resizer(distro) if cur.available(devices=devices): resize_class = cur break if not resize_class: raise ValueError("No resizers available") else: mmap = {} for k, v in RESIZERS: mmap[k] = v if mode not in mmap: raise TypeError("unknown resize mode %s" % mode) mclass = mmap[mode](distro) if mclass.available(devices=devices): resize_class = mclass if not resize_class: raise ValueError("mode %s not available" % mode) return resize_class def get_size(filename, fs) -> Optional[int]: fd = None try: fd = os.open(filename, os.O_RDONLY) return os.lseek(fd, 0, os.SEEK_END) except FileNotFoundError: if fs == "zfs": return get_zfs_size(filename) return None finally: if fd: os.close(fd) def get_zfs_size(dataset) -> Optional[int]: zpool = dataset.split("/")[0] try: size, _ = subp.subp(["zpool", "get", "-Hpovalue", "size", zpool]) except subp.ProcessExecutionError as e: LOG.debug("Failed: zpool get size %s: %s", zpool, e) return None return int(size.strip()) def devent2dev(devent): if devent.startswith("/dev/"): return devent, None result = util.get_mount_info(devent) if not result: raise ValueError("Could not determine device of '%s' % dev_ent") dev = result[0] fs = result[1] container = util.is_container() # Ensure the path is a block device. if dev == "/dev/root" and not container: dev = util.rootdev_from_cmdline(util.get_cmdline()) if dev is None: if os.path.exists(dev): # if /dev/root exists, but we failed to convert # that to a "real" /dev/ path device, then return it. return dev, None raise ValueError("Unable to find device '/dev/root'") return dev, fs def is_encrypted(blockdev, partition) -> bool: """ Check if a device is an encrypted device. blockdev should have a /dev/dm-* path whereas partition is something like /dev/sda1. """ if not subp.which("cryptsetup"): LOG.debug("cryptsetup not found. Assuming no encrypted partitions") return False try: subp.subp(["cryptsetup", "status", blockdev]) except subp.ProcessExecutionError as e: if e.exit_code == 4: LOG.debug("Determined that %s is not encrypted", blockdev) else: LOG.warning( "Received unexpected exit code %s from " "cryptsetup status. Assuming no encrypted partitions.", e.exit_code, ) return False with suppress(subp.ProcessExecutionError): subp.subp(["cryptsetup", "isLuks", partition]) LOG.debug("Determined that %s is encrypted", blockdev) return True return False def get_underlying_partition(blockdev): command = ["dmsetup", "deps", "--options=devname", blockdev] dep: str = subp.subp(command)[0] # pyright: ignore # Returned result should look something like: # 1 dependencies : (vdb1) if not dep.startswith("1 depend"): raise RuntimeError( f"Expecting '1 dependencies' from 'dmsetup'. Received: {dep}" ) try: return f'/dev/{dep.split(": (")[1].split(")")[0]}' except IndexError as e: raise RuntimeError( f"Ran `{command}`, but received unexpected stdout: `{dep}`" ) from e def resize_encrypted(blockdev, partition) -> Tuple[str, str]: """Use 'cryptsetup resize' to resize LUKS volume. The loaded keyfile is json formatted with 'key' and 'slot' keys. key is base64 encoded. Example: {"key":"XFmCwX2FHIQp0LBWaLEMiHIyfxt1SGm16VvUAVledlY=","slot":5} """ if not KEYDATA_PATH.exists(): return (RESIZE.SKIPPED, "No encryption keyfile found") try: with KEYDATA_PATH.open() as f: keydata = json.load(f) key = keydata["key"] decoded_key = base64.b64decode(key) slot = keydata["slot"] except Exception as e: raise RuntimeError( "Could not load encryption key. This is expected if " "the volume has been previously resized." ) from e try: subp.subp( ["cryptsetup", "--key-file", "-", "resize", blockdev], data=decoded_key, ) finally: try: subp.subp( [ "cryptsetup", "luksKillSlot", "--batch-mode", partition, str(slot), ] ) except subp.ProcessExecutionError as e: LOG.warning( "Failed to kill luks slot after resizing encrypted volume: %s", e, ) try: KEYDATA_PATH.unlink() except Exception: util.logexc( LOG, "Failed to remove keyfile after resizing encrypted volume" ) return ( RESIZE.CHANGED, f"Successfully resized encrypted volume '{blockdev}'", ) def _call_resizer(resizer, devent, disk, ptnum, blockdev, fs): info = [] try: old, new = resizer.resize(disk, ptnum, blockdev, fs) if old == new: info.append( ( devent, RESIZE.NOCHANGE, "no change necessary (%s, %s)" % (disk, ptnum), ) ) elif new is None or old is None: msg = "" if disk is not None and ptnum is None: msg = "changed (%s, %s) size, new size is unknown" % ( disk, ptnum, ) else: msg = "changed (%s) size, new size is unknown" % blockdev info.append((devent, RESIZE.CHANGED, msg)) else: msg = "" if disk is not None and ptnum is None: msg = "changed (%s, %s) from %s to %s" % ( disk, ptnum, old, new, ) else: msg = "changed (%s) from %s to %s" % (blockdev, old, new) info.append((devent, RESIZE.CHANGED, msg)) except ResizeFailedException as e: info.append( ( devent, RESIZE.FAILED, "failed to resize: disk=%s, ptnum=%s: %s" % (disk, ptnum, e), ) ) return info def resize_devices(resizer: Resizer, devices, distro: Distro): # returns a tuple of tuples containing (entry-in-devices, action, message) devices = copy.copy(devices) info = [] while devices: devent = devices.pop(0) disk = None ptnum = None try: blockdev, fs = devent2dev(devent) except ValueError as e: info.append( ( devent, RESIZE.SKIPPED, "unable to convert to device: %s" % e, ) ) continue LOG.debug("growpart found fs=%s", fs) # TODO: This seems to be the wrong place for this. On Linux, we the # `os.stat(blockdev)` call below will fail on a ZFS filesystem. # We then delay resizing the FS until calling cc_resizefs. Yet # the code here is to accommodate the FreeBSD `growfs` service. # Ideally we would grow the FS for both OSes in the same module. if fs == "zfs" and isinstance(resizer, ResizeGrowFS): info += _call_resizer(resizer, devent, disk, ptnum, blockdev, fs) continue try: statret = os.stat(blockdev) except OSError as e: info.append( ( devent, RESIZE.SKIPPED, "stat of '%s' failed: %s" % (blockdev, e), ) ) continue if not stat.S_ISBLK(statret.st_mode) and not stat.S_ISCHR( statret.st_mode ): info.append( ( devent, RESIZE.SKIPPED, "device '%s' not a block device" % blockdev, ) ) continue underlying_blockdev = distro.get_mapped_device(blockdev) if underlying_blockdev: try: # We need to resize the underlying partition first partition = get_underlying_partition(blockdev) if is_encrypted(underlying_blockdev, partition): if partition not in [x[0] for x in info]: # We shouldn't attempt to resize this mapped partition # until the underlying partition is resized, so re-add # our device to the beginning of the list we're # iterating over, then add our underlying partition # so it can get processed first devices.insert(0, devent) devices.insert(0, partition) continue status, message = resize_encrypted(blockdev, partition) info.append( ( devent, status, message, ) ) else: info.append( ( devent, RESIZE.SKIPPED, f"Resizing mapped device ({blockdev}) skipped " "as it is not encrypted.", ) ) except Exception as e: info.append( ( devent, RESIZE.FAILED, f"Resizing encrypted device ({blockdev}) failed: {e}", ) ) # At this point, we WON'T resize a non-encrypted mapped device # though we should probably grow the ability to continue try: disk, ptnum = distro.device_part_info(blockdev) except (TypeError, ValueError) as e: info.append( ( devent, RESIZE.SKIPPED, "device_part_info(%s) failed: %s" % (blockdev, e), ) ) continue info += _call_resizer(resizer, devent, disk, ptnum, blockdev, fs) return info def handle(name: str, cfg: Config, cloud: Cloud, args: list) -> None: if "growpart" not in cfg: LOG.debug( "No 'growpart' entry in cfg. Using default: %s", DEFAULT_CONFIG ) cfg["growpart"] = DEFAULT_CONFIG mycfg = cfg.get("growpart") if not isinstance(mycfg, dict): LOG.warning("'growpart' in config was not a dict") return mode = mycfg.get("mode", "auto") if util.is_false(mode): if mode != "off": lifecycle.deprecate( deprecated=f"Growpart's 'mode' key with value '{mode}'", deprecated_version="22.2", extra_message="Use 'off' instead.", ) LOG.debug("growpart disabled: mode=%s", mode) return if util.is_false(mycfg.get("ignore_growroot_disabled", False)): if os.path.isfile("/etc/growroot-disabled"): LOG.debug("growpart disabled: /etc/growroot-disabled exists") LOG.debug("use ignore_growroot_disabled to ignore") return devices = util.get_cfg_option_list(mycfg, "devices", ["/"]) if not len(devices): LOG.debug("growpart: empty device list") return try: resizer = resizer_factory(mode, distro=cloud.distro, devices=devices) except (ValueError, TypeError) as e: LOG.debug("growpart unable to find resizer for '%s': %s", mode, e) if mode != "auto": raise e return resized = util.log_time( logfunc=LOG.debug, msg="resize_devices", func=resize_devices, args=(resizer, devices, cloud.distro), ) for entry, action, msg in resized: if action == RESIZE.CHANGED: LOG.info("'%s' resized: %s", entry, msg) else: LOG.debug("'%s' %s: %s", entry, action, msg) RESIZERS = ( ("growpart", ResizeGrowPart), ("growfs", ResizeGrowFS), ("gpart", ResizeGpart), )