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"""
Module for managing partitions on POSIX-like systems.
:depends: - parted, partprobe, lsblk (usually parted and util-linux packages)
Some functions may not be available, depending on your version of parted.
Check the manpage for ``parted(8)`` for more information, or the online docs
at:
http://www.gnu.org/software/parted/manual/html_chapter/parted_2.html
In light of parted not directly supporting partition IDs, some of this module
has been written to utilize sfdisk instead. For further information, please
reference the man page for ``sfdisk(8)``.
"""
import logging
import os
import re
import stat
import string
import salt.utils.path
import salt.utils.platform
from salt.exceptions import CommandExecutionError
log = logging.getLogger(__name__)
# Define the module's virtual name
__virtualname__ = "partition"
# Define a function alias in order not to shadow built-in's
__func_alias__ = {
"set_": "set",
"list_": "list",
}
VALID_UNITS = {
"s",
"B",
"kB",
"MB",
"MiB",
"GB",
"GiB",
"TB",
"TiB",
"%",
"cyl",
"chs",
"compact",
}
VALID_DISK_FLAGS = {"cylinder_alignment", "pmbr_boot", "implicit_partition_table"}
VALID_PARTITION_FLAGS = {
"boot",
"root",
"swap",
"hidden",
"raid",
"lvm",
"lba",
"hp-service",
"palo",
"prep",
"msftres",
"bios_grub",
"atvrecv",
"diag",
"legacy_boot",
"msftdata",
"irst",
"esp",
"type",
}
def __virtual__():
"""
Only work on POSIX-like systems, which have parted and lsblk installed.
These are usually provided by the ``parted`` and ``util-linux`` packages.
"""
if salt.utils.platform.is_windows():
return (
False,
"The parted execution module failed to load "
"Windows systems are not supported.",
)
if not salt.utils.path.which("parted"):
return (
False,
"The parted execution module failed to load "
"parted binary is not in the path.",
)
if not salt.utils.path.which("lsblk"):
return (
False,
"The parted execution module failed to load "
"lsblk binary is not in the path.",
)
if not salt.utils.path.which("partprobe"):
return (
False,
"The parted execution module failed to load "
"partprobe binary is not in the path.",
)
return __virtualname__
# TODO: all the other inputs to the functions in this module are repetitively
# validated within each function; collect them into validation functions here,
# similar to _validate_device and _validate_partition_boundary
def _validate_device(device):
"""
Ensure the device name supplied is valid in a manner similar to the
`exists` function, but raise errors on invalid input rather than return
False.
This function only validates a block device, it does not check if the block
device is a drive or a partition or a filesystem, etc.
"""
if os.path.exists(device):
dev = os.stat(device).st_mode
if stat.S_ISBLK(dev):
return
raise CommandExecutionError("Invalid device passed to partition module.")
def _validate_partition_boundary(boundary):
"""
Ensure valid partition boundaries are supplied.
"""
boundary = str(boundary)
match = re.search(r"^([\d.]+)(\D*)$", boundary)
if match:
unit = match.group(2)
if not unit or unit in VALID_UNITS:
return
raise CommandExecutionError(f'Invalid partition boundary passed: "{boundary}"')
def probe(*devices):
"""
Ask the kernel to update its local partition data. When no args are
specified all block devices are tried.
Caution: Generally only works on devices with no mounted partitions and
may take a long time to return if specified devices are in use.
CLI Examples:
.. code-block:: bash
salt '*' partition.probe
salt '*' partition.probe /dev/sda
salt '*' partition.probe /dev/sda /dev/sdb
"""
for device in devices:
_validate_device(device)
cmd = "partprobe -- {}".format(" ".join(devices))
out = __salt__["cmd.run"](cmd).splitlines()
return out
def list_(device, unit=None):
"""
Prints partition information of given <device>
CLI Examples:
.. code-block:: bash
salt '*' partition.list /dev/sda
salt '*' partition.list /dev/sda unit=s
salt '*' partition.list /dev/sda unit=kB
"""
_validate_device(device)
if unit:
if unit not in VALID_UNITS:
raise CommandExecutionError("Invalid unit passed to partition.part_list")
cmd = f"parted -m -s {device} unit {unit} print"
else:
cmd = f"parted -m -s {device} print"
out = __salt__["cmd.run_stdout"](cmd).splitlines()
ret = {"info": {}, "partitions": {}}
mode = "info"
for line in out:
if line in ("BYT;", "CHS;", "CYL;"):
continue
cols = line.rstrip(";").split(":")
if mode == "info":
if 7 <= len(cols) <= 8:
ret["info"] = {
"disk": cols[0],
"size": cols[1],
"interface": cols[2],
"logical sector": cols[3],
"physical sector": cols[4],
"partition table": cols[5],
"model": cols[6],
}
if len(cols) == 8:
ret["info"]["disk flags"] = cols[7]
# Older parted (2.x) doesn't show disk flags in the 'print'
# output, and will return a 7-column output for the info
# line. In these cases we just leave this field out of the
# return dict.
mode = "partitions"
else:
raise CommandExecutionError(
"Problem encountered while parsing output from parted"
)
else:
# Parted (v3.1) have a variable field list in machine
# readable output:
#
# number:start:end:[size:]([file system:name:flags;]|[free;])
#
# * If units are in CHS 'size' is not printed.
# * If is a logical partition with PED_PARTITION_FREESPACE
# set, the last three fields are replaced with the
# 'free' text.
#
fields = ["number", "start", "end"]
if unit != "chs":
fields.append("size")
if cols[-1] == "free":
# Drop the last element from the list
cols.pop()
else:
fields.extend(["file system", "name", "flags"])
if len(fields) == len(cols):
ret["partitions"][cols[0]] = dict(zip(fields, cols))
else:
raise CommandExecutionError(
"Problem encountered while parsing output from parted"
)
return ret
def align_check(device, part_type, partition):
"""
Check if partition satisfies the alignment constraint of part_type.
Type must be "minimal" or "optimal".
CLI Example:
.. code-block:: bash
salt '*' partition.align_check /dev/sda minimal 1
"""
_validate_device(device)
if part_type not in {"minimal", "optimal"}:
raise CommandExecutionError("Invalid part_type passed to partition.align_check")
try:
int(partition)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid partition passed to partition.align_check")
cmd = f"parted -m {device} align-check {part_type} {partition}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def check(device, minor):
"""
Checks if the file system on partition <minor> has any errors.
CLI Example:
.. code-block:: bash
salt '*' partition.check 1
"""
_validate_device(device)
try:
int(minor)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid minor number passed to partition.check")
cmd = f"parted -m -s {device} check {minor}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def cp(device, from_minor, to_minor): # pylint: disable=C0103
"""
Copies the file system on the partition <from-minor> to partition
<to-minor>, deleting the original contents of the destination
partition.
CLI Example:
.. code-block:: bash
salt '*' partition.cp /dev/sda 2 3
"""
_validate_device(device)
try:
int(from_minor)
int(to_minor)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid minor number passed to partition.cp")
cmd = f"parted -m -s {device} cp {from_minor} {to_minor}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def get_id(device, minor):
"""
Prints the system ID for the partition. Some typical values are::
b: FAT32 (vfat)
7: HPFS/NTFS
82: Linux Swap
83: Linux
8e: Linux LVM
fd: Linux RAID Auto
CLI Example:
.. code-block:: bash
salt '*' partition.get_id /dev/sda 1
"""
_validate_device(device)
try:
int(minor)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid minor number passed to partition.get_id")
cmd = f"sfdisk --print-id {device} {minor}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def set_id(device, minor, system_id):
"""
Sets the system ID for the partition. Some typical values are::
b: FAT32 (vfat)
7: HPFS/NTFS
82: Linux Swap
83: Linux
8e: Linux LVM
fd: Linux RAID Auto
CLI Example:
.. code-block:: bash
salt '*' partition.set_id /dev/sda 1 83
"""
_validate_device(device)
try:
int(minor)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid minor number passed to partition.set_id")
if system_id not in system_types():
raise CommandExecutionError("Invalid system_id passed to partition.set_id")
cmd = f"sfdisk --change-id {device} {minor} {system_id}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def system_types():
"""
List the system types that are supported by the installed version of sfdisk
CLI Example:
.. code-block:: bash
salt '*' partition.system_types
"""
ret = {}
for line in __salt__["cmd.run"]("sfdisk -T").splitlines():
if not line:
continue
if line.startswith("Id"):
continue
comps = line.strip().split()
ret[comps[0]] = comps[1]
return ret
def _is_fstype(fs_type):
"""
Check if file system type is supported in module
:param fs_type: file system type
:return: True if fs_type is supported in this module, False otherwise
"""
return fs_type in (
"btrfs",
"ext2",
"ext3",
"ext4",
"fat",
"fat32",
"fat16",
"linux-swap",
"reiserfs",
"hfs",
"hfs+",
"hfsx",
"NTFS",
"ntfs",
"ufs",
"xfs",
)
def mkfs(device, fs_type):
"""
Makes a file system <fs_type> on partition <device>, destroying all data
that resides on that partition. <fs_type> must be one of "ext2", "fat32",
"fat16", "linux-swap" or "reiserfs" (if libreiserfs is installed)
CLI Example:
.. code-block:: bash
salt '*' partition.mkfs /dev/sda2 fat32
"""
_validate_device(device)
if not _is_fstype(fs_type):
raise CommandExecutionError("Invalid fs_type passed to partition.mkfs")
if fs_type == "NTFS":
fs_type = "ntfs"
if fs_type == "linux-swap":
mkfs_cmd = "mkswap"
else:
mkfs_cmd = f"mkfs.{fs_type}"
if not salt.utils.path.which(mkfs_cmd):
return f"Error: {mkfs_cmd} is unavailable."
cmd = f"{mkfs_cmd} {device}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def mklabel(device, label_type):
"""
Create a new disklabel (partition table) of label_type.
Type should be one of "aix", "amiga", "bsd", "dvh", "gpt", "loop", "mac",
"msdos", "pc98", or "sun".
CLI Example:
.. code-block:: bash
salt '*' partition.mklabel /dev/sda msdos
"""
if label_type not in {
"aix",
"amiga",
"bsd",
"dvh",
"gpt",
"loop",
"mac",
"msdos",
"pc98",
"sun",
}:
raise CommandExecutionError("Invalid label_type passed to partition.mklabel")
cmd = ("parted", "-m", "-s", device, "mklabel", label_type)
out = __salt__["cmd.run"](cmd, python_shell=False).splitlines()
return out
def mkpart(device, part_type, fs_type=None, start=None, end=None):
"""
Make a part_type partition for filesystem fs_type, beginning at start and
ending at end (by default in megabytes). part_type should be one of
"primary", "logical", or "extended".
CLI Examples:
.. code-block:: bash
salt '*' partition.mkpart /dev/sda primary fs_type=fat32 start=0 end=639
salt '*' partition.mkpart /dev/sda primary start=0 end=639
"""
_validate_device(device)
if part_type not in {"primary", "logical", "extended"}:
raise CommandExecutionError("Invalid part_type passed to partition.mkpart")
if fs_type and not _is_fstype(fs_type):
raise CommandExecutionError("Invalid fs_type passed to partition.mkpart")
if start is not None and end is not None:
_validate_partition_boundary(start)
_validate_partition_boundary(end)
if start is None:
start = ""
if end is None:
end = ""
if fs_type:
cmd = (
"parted",
"-m",
"-s",
"--",
device,
"mkpart",
part_type,
fs_type,
start,
end,
)
else:
cmd = ("parted", "-m", "-s", "--", device, "mkpart", part_type, start, end)
out = __salt__["cmd.run"](cmd, python_shell=False).splitlines()
return out
def mkpartfs(device, part_type, fs_type=None, start=None, end=None):
"""
The mkpartfs actually is an alias to mkpart and is kept for compatibility.
To know the valid options and usage syntax read mkpart documentation.
CLI Examples:
.. code-block:: bash
salt '*' partition.mkpartfs /dev/sda primary fs_type=fat32 start=0 end=639
salt '*' partition.mkpartfs /dev/sda primary start=0 end=639
"""
out = mkpart(device, part_type, fs_type, start, end)
return out
def name(device, partition, name):
"""
Set the name of partition to name. This option works only on Mac, PC98, and
GPT disklabels. The name can be placed in quotes, if necessary.
CLI Example:
.. code-block:: bash
salt '*' partition.name /dev/sda 1 'My Documents'
"""
_validate_device(device)
try:
int(partition)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid partition passed to partition.name")
valid = string.ascii_letters + string.digits + " _-"
for letter in name:
if letter not in valid:
raise CommandExecutionError("Invalid characters passed to partition.name")
cmd = f'''parted -m -s {device} name {partition} "'{name}'"'''
out = __salt__["cmd.run"](cmd).splitlines()
return out
def rescue(device, start, end):
"""
Rescue a lost partition that was located somewhere between start and end.
If a partition is found, parted will ask if you want to create an
entry for it in the partition table.
CLI Example:
.. code-block:: bash
salt '*' partition.rescue /dev/sda 0 8056
"""
_validate_device(device)
_validate_partition_boundary(start)
_validate_partition_boundary(end)
cmd = f"parted -m -s {device} rescue {start} {end}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def resize(device, minor, start, end):
"""
Resizes the partition with number <minor>.
The partition will start <start> from the beginning of the disk, and end
<end> from the beginning of the disk. resize never changes the minor number.
Extended partitions can be resized, so long as the new extended partition
completely contains all logical partitions.
CLI Example:
.. code-block:: bash
salt '*' partition.resize /dev/sda 3 200 850
"""
_validate_device(device)
try:
int(minor)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid minor number passed to partition.resize")
_validate_partition_boundary(start)
_validate_partition_boundary(end)
out = __salt__["cmd.run"](f"parted -m -s -- {device} resize {minor} {start} {end}")
return out.splitlines()
def rm(device, minor): # pylint: disable=C0103
"""
Removes the partition with number <minor>.
CLI Example:
.. code-block:: bash
salt '*' partition.rm /dev/sda 5
"""
_validate_device(device)
try:
int(minor)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid minor number passed to partition.rm")
cmd = f"parted -m -s {device} rm {minor}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def set_(device, minor, flag, state):
"""
Changes a flag on the partition with number <minor>.
A flag can be either "on" or "off" (make sure to use proper quoting, see
:ref:`YAML Idiosyncrasies <yaml-idiosyncrasies>`). Some or all of these
flags will be available, depending on what disk label you are using.
Valid flags are:
* boot
* root
* swap
* hidden
* raid
* lvm
* lba
* hp-service
* palo
* prep
* msftres
* bios_grub
* atvrecv
* diag
* legacy_boot
* msftdata
* irst
* esp
* type
CLI Example:
.. code-block:: bash
salt '*' partition.set /dev/sda 1 boot '"on"'
"""
_validate_device(device)
try:
int(minor)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError("Invalid minor number passed to partition.set")
if flag not in VALID_PARTITION_FLAGS:
raise CommandExecutionError("Invalid flag passed to partition.set")
if state not in {"on", "off"}:
raise CommandExecutionError("Invalid state passed to partition.set")
cmd = f"parted -m -s {device} set {minor} {flag} {state}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def toggle(device, partition, flag):
"""
Toggle the state of <flag> on <partition>. Valid flags are the same as
the set command.
CLI Example:
.. code-block:: bash
salt '*' partition.toggle /dev/sda 1 boot
"""
_validate_device(device)
try:
int(partition)
except Exception: # pylint: disable=broad-except
raise CommandExecutionError(
"Invalid partition number passed to partition.toggle"
)
if flag not in VALID_PARTITION_FLAGS:
raise CommandExecutionError("Invalid flag passed to partition.toggle")
cmd = f"parted -m -s {device} toggle {partition} {flag}"
out = __salt__["cmd.run"](cmd).splitlines()
return out
def disk_set(device, flag, state):
"""
Changes a flag on selected device.
A flag can be either "on" or "off" (make sure to use proper
quoting, see :ref:`YAML Idiosyncrasies
<yaml-idiosyncrasies>`). Some or all of these flags will be
available, depending on what disk label you are using.
Valid flags are:
* cylinder_alignment
* pmbr_boot
* implicit_partition_table
CLI Example:
.. code-block:: bash
salt '*' partition.disk_set /dev/sda pmbr_boot '"on"'
"""
_validate_device(device)
if flag not in VALID_DISK_FLAGS:
raise CommandExecutionError("Invalid flag passed to partition.disk_set")
if state not in {"on", "off"}:
raise CommandExecutionError("Invalid state passed to partition.disk_set")
cmd = ["parted", "-m", "-s", device, "disk_set", flag, state]
out = __salt__["cmd.run"](cmd).splitlines()
return out
def disk_toggle(device, flag):
"""
Toggle the state of <flag> on <device>. Valid flags are the same
as the disk_set command.
CLI Example:
.. code-block:: bash
salt '*' partition.disk_toggle /dev/sda pmbr_boot
"""
_validate_device(device)
if flag not in VALID_DISK_FLAGS:
raise CommandExecutionError("Invalid flag passed to partition.disk_toggle")
cmd = ["parted", "-m", "-s", device, "disk_toggle", flag]
out = __salt__["cmd.run"](cmd).splitlines()
return out
def exists(device=""):
"""
Check to see if the partition exists
CLI Example:
.. code-block:: bash
salt '*' partition.exists /dev/sdb1
"""
if os.path.exists(device):
dev = os.stat(device).st_mode
if stat.S_ISBLK(dev):
return True
return False
def get_block_device():
"""
Retrieve a list of disk devices
.. versionadded:: 2014.7.0
CLI Example:
.. code-block:: bash
salt '*' partition.get_block_device
"""
cmd = "lsblk -n -io KNAME -d -e 1,7,11 -l"
devs = __salt__["cmd.run"](cmd).splitlines()
return devs