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disks.py
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disks.py
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#
# Project Kimchi
#
# Copyright IBM Corp, 2015-2016
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
import os.path
import re
from parted import Device as PDevice
from parted import Disk as PDisk
from wok.exception import OperationFailed
from wok.utils import run_command, wok_log
def _get_dev_node_path(maj_min):
""" Returns device node path given the device number 'major:min' """
dm_name = "/sys/dev/block/%s/dm/name" % maj_min
if os.path.exists(dm_name):
with open(dm_name) as dm_f:
content = dm_f.read().rstrip('\n')
return "/dev/mapper/" + content
uevent = "/sys/dev/block/%s/uevent" % maj_min
with open(uevent) as ueventf:
content = ueventf.read()
data = dict(re.findall(r'(\S+)=(".*?"|\S+)', content.replace("\n", " ")))
return "/dev/%s" % data["DEVNAME"]
def _get_lsblk_devs(keys, devs=[]):
out, err, rc = run_command(["lsblk", "-Pbo"] + [','.join(keys)] + devs)
if rc != 0:
raise OperationFailed("KCHDISKS0001E", {'err': err})
return _parse_lsblk_output(out, keys)
def _get_dev_major_min(name):
maj_min = None
keys = ["NAME", "MAJ:MIN"]
dev_list = _get_lsblk_devs(keys)
for dev in dev_list:
if dev['name'].split()[0] == name:
maj_min = dev['maj:min']
break
else:
raise OperationFailed("KCHDISKS0002E", {'device': name})
return maj_min
def _is_dev_leaf(devNodePath):
try:
# By default, lsblk prints a device information followed by children
# device information
childrenCount = len(
_get_lsblk_devs(["NAME"], [devNodePath])) - 1
except OperationFailed as e:
# lsblk is known to fail on multipath devices
# Assume these devices contain children
wok_log.error(
"Error getting device info for %s: %s", devNodePath, e)
return False
return childrenCount == 0
def _is_dev_extended_partition(devType, devNodePath):
if devType != 'part':
return False
diskPath = devNodePath.rstrip('0123456789')
device = PDevice(diskPath)
try:
extended_part = PDisk(device).getExtendedPartition()
except NotImplementedError as e:
wok_log.warning(
"Error getting extended partition info for dev %s type %s: %s",
devNodePath, devType, e.message)
# Treate disk with unsupported partiton table as if it does not
# contain extended partitions.
return False
if extended_part and extended_part.path == devNodePath:
return True
return False
def _parse_lsblk_output(output, keys):
# output is on format key="value",
# where key can be NAME, TYPE, FSTYPE, SIZE, MOUNTPOINT, etc
lines = output.rstrip("\n").split("\n")
r = []
for line in lines:
d = {}
for key in keys:
expression = r"%s=\".*?\"" % key
match = re.search(expression, line)
field = match.group()
k, v = field.split('=', 1)
d[k.lower()] = v[1:-1]
r.append(d)
return r
def _get_vgname(devNodePath):
""" Return volume group name of a physical volume. If the device node path
is not a physical volume, return empty string. """
out, err, rc = run_command(["pvs", "--unbuffered", "--nameprefixes",
"--noheadings", "-o", "vg_name", devNodePath])
if rc != 0:
return ""
return re.findall(r"LVM2_VG_NAME='([^\']*)'", out)[0]
def _is_available(name, devtype, fstype, mountpoint, majmin):
devNodePath = _get_dev_node_path(majmin)
# Only list unmounted and unformated and leaf and (partition or disk)
# leaf means a partition, a disk has no partition, or a disk not held
# by any multipath device. Physical volume belongs to no volume group
# is also listed. Extended partitions should not be listed.
if (devtype in ['part', 'disk', 'mpath'] and
fstype in ['', 'LVM2_member'] and
mountpoint == "" and
_get_vgname(devNodePath) == "" and
_is_dev_leaf(devNodePath) and
not _is_dev_extended_partition(devtype, devNodePath)):
return True
return False
def get_partitions_names(check=False):
names = set()
keys = ["NAME", "TYPE", "FSTYPE", "MOUNTPOINT", "MAJ:MIN"]
# output is on format key="value",
# where key can be NAME, TYPE, FSTYPE, MOUNTPOINT
for dev in _get_lsblk_devs(keys):
# split()[0] to avoid the second part of the name, after the
# whiteline
name = dev['name'].split()[0]
if check and not _is_available(name, dev['type'], dev['fstype'],
dev['mountpoint'], dev['maj:min']):
continue
names.add(name)
return list(names)
def get_partition_details(name):
majmin = _get_dev_major_min(name)
dev_path = _get_dev_node_path(majmin)
keys = ["TYPE", "FSTYPE", "SIZE", "MOUNTPOINT"]
try:
dev = _get_lsblk_devs(keys, [dev_path])[0]
except OperationFailed as e:
wok_log.error(
"Error getting partition info for %s: %s", name, e)
return {}
dev['available'] = _is_available(name, dev['type'], dev['fstype'],
dev['mountpoint'], majmin)
if dev['mountpoint']:
# Sometimes the mountpoint comes with [SWAP] or other
# info which is not an actual mount point. Filtering it
regexp = re.compile(r"\[.*\]")
if regexp.search(dev['mountpoint']) is not None:
dev['mountpoint'] = ''
dev['path'] = dev_path
dev['name'] = name
return dev
def vgs():
"""
lists all volume groups in the system. All size units are in bytes.
[{'vgname': 'vgtest', 'size': 999653638144L, 'free': 0}]
"""
cmd = ['vgs',
'--units',
'b',
'--nosuffix',
'--noheading',
'--unbuffered',
'--options',
'vg_name,vg_size,vg_free']
out, err, rc = run_command(cmd)
if rc != 0:
raise OperationFailed("KCHLVM0001E", {'err': err})
if not out:
return []
# remove blank spaces and create a list of VGs
vgs = map(lambda v: v.strip(), out.strip('\n').split('\n'))
# create a dict based on data retrieved from vgs
return map(lambda l: {'vgname': l[0],
'size': long(l[1]),
'free': long(l[2])},
[fields.split() for fields in vgs])
def lvs(vgname=None):
"""
lists all logical volumes found in the system. It can be filtered by
the volume group. All size units are in bytes.
[{'lvname': 'lva', 'path': '/dev/vgtest/lva', 'size': 12345L},
{'lvname': 'lvb', 'path': '/dev/vgtest/lvb', 'size': 12345L}]
"""
cmd = ['lvs',
'--units',
'b',
'--nosuffix',
'--noheading',
'--unbuffered',
'--options',
'lv_name,lv_path,lv_size,vg_name']
out, err, rc = run_command(cmd)
if rc != 0:
raise OperationFailed("KCHLVM0001E", {'err': err})
if not out:
return []
# remove blank spaces and create a list of LVs filtered by vgname, if
# provided
lvs = filter(lambda f: vgname is None or vgname in f,
map(lambda v: v.strip(), out.strip('\n').split('\n')))
# create a dict based on data retrieved from lvs
return map(lambda l: {'lvname': l[0],
'path': l[1],
'size': long(l[2])},
[fields.split() for fields in lvs])
def pvs(vgname=None):
"""
lists all physical volumes in the system. It can be filtered by the
volume group. All size units are in bytes.
[{'pvname': '/dev/sda3',
'size': 469502001152L,
'uuid': 'kkon5B-vnFI-eKHn-I5cG-Hj0C-uGx0-xqZrXI'},
{'pvname': '/dev/sda2',
'size': 21470642176L,
'uuid': 'CyBzhK-cQFl-gWqr-fyWC-A50Y-LMxu-iHiJq4'}]
"""
cmd = ['pvs',
'--units',
'b',
'--nosuffix',
'--noheading',
'--unbuffered',
'--options',
'pv_name,pv_size,pv_uuid,vg_name']
out, err, rc = run_command(cmd)
if rc != 0:
raise OperationFailed("KCHLVM0001E", {'err': err})
if not out:
return []
# remove blank spaces and create a list of PVs filtered by vgname, if
# provided
pvs = filter(lambda f: vgname is None or vgname in f,
map(lambda v: v.strip(), out.strip('\n').split('\n')))
# create a dict based on data retrieved from pvs
return map(lambda l: {'pvname': l[0],
'size': long(l[1]),
'uuid': l[2]},
[fields.split() for fields in pvs])