def test_multipath_false(self):
uspec = {
'DEVLINKS': ['/dev/disk/by-id/fakeid1',
'/dev/disk/by-id/dm-name-fakeid1'],
'DEVNAME': '/dev/dm-0',
'DEVPATH': '/devices/fakepath',
'DEVTYPE': 'disk',
'MAJOR': '11',
'MINOR': '0',
'ID_BUS': 'fakebus',
'ID_MODEL': 'fakemodel',
'ID_SERIAL_SHORT': 'fakeserial',
'ID_WWN': 'fakewwn',
'ID_CDROM': '1'
}
self.assertEqual(False, hu.is_multipath_device('/dev/sda', uspec))
def test_multipath_no_uspec(self, mock_udev):
mock_udev.return_value = {
'DEVLINKS': ['/dev/disk/by-id/fakeid1',
'/dev/disk/by-id/dm-uuid-mpath-231'],
'DEVNAME': '/dev/dm-0',
'DEVPATH': '/devices/fakepath',
'DEVTYPE': 'disk',
'MAJOR': '11',
'MINOR': '0',
'ID_BUS': 'fakebus',
'ID_MODEL': 'fakemodel',
'ID_SERIAL_SHORT': 'fakeserial',
'ID_WWN': 'fakewwn',
'ID_CDROM': '1',
'DM_UUID': 'mpath-3600144f0534f392c000056e972830002'
}
self.assertEqual(True, hu.is_multipath_device('/dev/mapper/231'))
def _override_lvm_config(self, chroot):
# NOTE(sslypushenko) Due to possible races between LVM and multipath,
# we need to adjust LVM devices filter.
# This code is required only for Ubuntu 14.04, because in trusty,
# LVM filters, does not recognize partions on multipath devices
# out of the box. It is fixed in latest LVM versions
multipath_devs = [parted.name
for parted in self.driver.partition_scheme.parteds
if hw.is_multipath_device(parted.name)]
# If there are no multipath devices on the node, we should not do
# anything to prevent regression.
if multipath_devs:
# We need to explicitly whitelist each non-mutlipath device
lvm_filter = []
for parted in self.driver.partition_scheme.parteds:
device = parted.name
if device in multipath_devs:
continue
# We use devlinks from /dev/disk/by-id instead of /dev/sd*,
# because the first one are persistent.
devlinks_by_id = [
link for link in hw.udevreport(device).get('DEVLINKS', [])
if link.startswith('/dev/disk/by-id/')]
for link in devlinks_by_id:
lvm_filter.append(
'a|^{}(p)?(-part)?[0-9]*|'.format(link))
# Multipath devices should be whitelisted. All other devlinks
# should be blacklisted, to prevent LVM from grubbing underlying
# multipath devices.
lvm_filter.extend(CONF.lvm_filter_for_mpath)
# Setting devices/preferred_names also helps LVM to find devices by
# the proper devlinks
bu.override_lvm_config(
chroot,
{'devices': {
'scan': CONF.mpath_lvm_scan_dirs,
'global_filter': lvm_filter,
'preferred_names': CONF.mpath_lvm_preferred_names}},
lvm_conf_path=CONF.lvm_conf_path,
update_initramfs=True)
def _do_partitioning(self):
LOG.debug('--- Partitioning disks (do_partitioning) ---')
# If disks are not wiped out at all, it is likely they contain lvm
# and md metadata which will prevent re-creating a partition table
# with 'device is busy' error.
mu.mdclean_all(skip_containers=CONF.skip_md_containers)
lu.lvremove_all()
lu.vgremove_all()
lu.pvremove_all()
for parted in self.driver.partition_scheme.parteds:
for prt in parted.partitions:
# We wipe out the beginning of every new partition
# right after creating it. It allows us to avoid possible
# interactive dialog if some data (metadata or file system)
# present on this new partition and it also allows udev not
# hanging trying to parse this data.
utils.execute('dd', 'if=/dev/zero', 'bs=1M',
'seek=%s' % max(prt.begin - 3, 0), 'count=5',
'of=%s' % prt.device, check_exit_code=[0])
# Also wipe out the ending of every new partition.
# Different versions of md stores metadata in different places.
# Adding exit code 1 to be accepted as for handling situation
# when 'no space left on device' occurs.
utils.execute('dd', 'if=/dev/zero', 'bs=1M',
'seek=%s' % max(prt.end - 3, 0), 'count=5',
'of=%s' % prt.device, check_exit_code=[0, 1])
parteds = []
parteds_with_rules = []
for parted in self.driver.partition_scheme.parteds:
if hu.is_multipath_device(parted.name):
parteds_with_rules.append(parted)
else:
parteds.append(parted)
utils.blacklist_udev_rules(udev_rules_dir=CONF.udev_rules_dir,
udev_rules_lib_dir=CONF.udev_rules_lib_dir,
udev_rename_substr=CONF.udev_rename_substr,
udev_empty_rule=CONF.udev_empty_rule)
self._make_partitions(parteds)
utils.unblacklist_udev_rules(
udev_rules_dir=CONF.udev_rules_dir,
udev_rename_substr=CONF.udev_rename_substr)
self._make_partitions(parteds_with_rules)
# If one creates partitions with the same boundaries as last time,
# there might be md and lvm metadata on those partitions. To prevent
# failing of creating md and lvm devices we need to make sure
# unused metadata are wiped out.
mu.mdclean_all(skip_containers=CONF.skip_md_containers)
lu.lvremove_all()
lu.vgremove_all()
lu.pvremove_all()
if parteds_with_rules:
utils.refresh_multipath()
# creating meta disks
for md in self.driver.partition_scheme.mds:
mu.mdcreate(md.name, md.level, md.devices, md.metadata)
# creating physical volumes
for pv in self.driver.partition_scheme.pvs:
lu.pvcreate(pv.name, metadatasize=pv.metadatasize,
metadatacopies=pv.metadatacopies)
# creating volume groups
for vg in self.driver.partition_scheme.vgs:
lu.vgcreate(vg.name, *vg.pvnames)
# creating logical volumes
for lv in self.driver.partition_scheme.lvs:
lu.lvcreate(lv.vgname, lv.name, lv.size)
# making file systems
for fs in self.driver.partition_scheme.fss:
found_images = [img for img in self.driver.image_scheme.images
if img.target_device == fs.device]
if not found_images:
fu.make_fs(fs.type, fs.options, fs.label, fs.device)
