diskimage-builder/diskimage_builder/block_device/tests/test_lvm.py
Andreas Florath bb6cf52d85 Remove dd from LVM element
This patch removes the unneeded dd calls in the lvm block device
plugin.

After removing the underlying block device, there is the need to call
'pvscan --cache'.  This is done by a dedicated LVM cleanup node which
is cleaned up after the the underlying block device.

Change-Id: Id8eaede77fbdc107d2ba1035cd6b8eb5c10160c3
Signed-off-by: Andreas Florath <andreas@florath.net>
2017-10-08 17:21:21 +00:00

427 lines
17 KiB
Python

# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import copy
import logging
import mock
import diskimage_builder.block_device.tests.test_config as tc
from diskimage_builder.block_device.blockdevice import BlockDeviceState
from diskimage_builder.block_device.config import config_tree_to_graph
from diskimage_builder.block_device.config import create_graph
from diskimage_builder.block_device.exception import \
BlockDeviceSetupException
from diskimage_builder.block_device.level1.lvm import LVMCleanupNode
from diskimage_builder.block_device.level1.lvm import LVMNode
from diskimage_builder.block_device.level1.lvm import LVMPlugin
from diskimage_builder.block_device.level1.lvm import LvsNode
from diskimage_builder.block_device.level1.lvm import PvsNode
from diskimage_builder.block_device.level1.lvm import VgsNode
logger = logging.getLogger(__name__)
class TestLVM(tc.TestGraphGeneration):
def test_lvm_tree_to_graph(self):
# equivalence of tree-based to graph-based config
tree = self.load_config_file('lvm_tree.yaml')
graph = self.load_config_file('lvm_graph.yaml')
parsed_graph = config_tree_to_graph(tree)
self.assertItemsEqual(parsed_graph, graph)
def test_lvm_invalid_config(self):
# test some invalid config paths
config = self.load_config_file('lvm_graph.yaml')
lvm_config = config[2]['lvm']
bad_config = copy.deepcopy(lvm_config)
bad_config['vgs'][0]['base'] = ['invalid_pv']
self.assertRaisesRegex(BlockDeviceSetupException,
"base:invalid_pv in vgs does not match "
"a valid pvs",
LVMPlugin, bad_config, {}, {})
bad_config = copy.deepcopy(lvm_config)
bad_config['lvs'][0]['base'] = ['invalid_vg']
self.assertRaisesRegex(BlockDeviceSetupException,
"base:\['invalid_vg'\] in lvs does not match "
"a valid vg",
LVMPlugin, bad_config, {}, {})
bad_config = copy.deepcopy(lvm_config)
del(bad_config['lvs'][0]['size'])
self.assertRaisesRegex(BlockDeviceSetupException,
"Missing 'size' or 'extents' in lvs config",
LVMPlugin, bad_config, {}, {})
@mock.patch('diskimage_builder.block_device.level1.lvm.exec_sudo')
def test_lvm_multi_pv(self, mock_exec_sudo):
# Test the command-sequence for a more complicated LVM setup
tree = self.load_config_file('lvm_tree_multiple_pv.yaml')
config = config_tree_to_graph(tree)
state = BlockDeviceState()
graph, call_order = create_graph(config, self.fake_default_config,
state)
# XXX: todo; test call_order. Make sure PV's come before, VG;
# VG before LV, and that mounts/etc happen afterwards.
# Fake state for the two PV's specified by this config
state['blockdev'] = {}
state['blockdev']['root'] = {}
state['blockdev']['root']['device'] = '/dev/fake/root'
state['blockdev']['data'] = {}
state['blockdev']['data']['device'] = '/dev/fake/data'
for node in call_order:
# XXX: This has not mocked out the "lower" layers of
# creating the devices, which we're assuming works OK, nor
# the upper layers.
if isinstance(node, (LVMNode, LVMCleanupNode, PvsNode,
VgsNode, LvsNode)):
# only the LVMNode actually does anything here...
node.create()
# ensure the sequence of calls correctly setup the devices
cmd_sequence = [
# create the pv's on the faked out block devices
mock.call(['pvcreate', '/dev/fake/root', '--force']),
mock.call(['pvcreate', '/dev/fake/data', '--force']),
# create a volume called "vg" out of these two pv's
mock.call(['vgcreate', 'vg',
'/dev/fake/root', '/dev/fake/data', '--force']),
# create a bunch of lv's on vg
mock.call(['lvcreate', '--name', 'lv_root', '-L', '1800M', 'vg']),
mock.call(['lvcreate', '--name', 'lv_tmp', '-L', '100M', 'vg']),
mock.call(['lvcreate', '--name', 'lv_var', '-L', '500M', 'vg']),
mock.call(['lvcreate', '--name', 'lv_log', '-L', '100M', 'vg']),
mock.call(['lvcreate', '--name', 'lv_audit', '-L', '100M', 'vg']),
mock.call(['lvcreate', '--name', 'lv_home', '-L', '200M', 'vg'])]
self.assertEqual(mock_exec_sudo.call_count, len(cmd_sequence))
mock_exec_sudo.assert_has_calls(cmd_sequence)
# Ensure the correct LVM state was preserved
blockdev_state = {
'data': {'device': '/dev/fake/data'},
'root': {'device': '/dev/fake/root'},
'lv_audit': {
'device': '/dev/mapper/vg-lv_audit',
'extents': None,
'opts': None,
'size': '100M',
'vgs': 'vg'
},
'lv_home': {
'device': '/dev/mapper/vg-lv_home',
'extents': None,
'opts': None,
'size': '200M',
'vgs': 'vg'
},
'lv_log': {
'device': '/dev/mapper/vg-lv_log',
'extents': None,
'opts': None,
'size': '100M',
'vgs': 'vg'
},
'lv_root': {
'device': '/dev/mapper/vg-lv_root',
'extents': None,
'opts': None,
'size': '1800M',
'vgs': 'vg'
},
'lv_tmp': {
'device': '/dev/mapper/vg-lv_tmp',
'extents': None,
'opts': None,
'size': '100M',
'vgs': 'vg'
},
'lv_var': {
'device': '/dev/mapper/vg-lv_var',
'extents': None,
'opts': None,
'size': '500M',
'vgs': 'vg'
},
}
# state.debug_dump()
self.assertDictEqual(state['blockdev'], blockdev_state)
# XXX: mount ordering? fs creation?
def test_lvm_multi_pv_vg(self):
# Test the command-sequence for a more complicated LVM setup
tree = self.load_config_file('lvm_tree_multiple_pv_vg.yaml')
config = config_tree_to_graph(tree)
state = BlockDeviceState()
graph, call_order = create_graph(config, self.fake_default_config,
state)
# XXX: todo; test call_order. Make sure PV's come before, VG;
# VG before LV, and that mounts/etc happen afterwards.
# Fake state for the two PV's specified by this config
state['blockdev'] = {}
state['blockdev']['root'] = {}
state['blockdev']['root']['device'] = '/dev/fake/root'
state['blockdev']['data'] = {}
state['blockdev']['data']['device'] = '/dev/fake/data'
# We mock patch this ... it's just a little long!
exec_sudo = 'diskimage_builder.block_device.level1.lvm.exec_sudo'
#
# Creation test
#
with mock.patch(exec_sudo) as mock_exec_sudo:
for node in call_order:
# XXX: This has not mocked out the "lower" layers of
# creating the devices, which we're assuming works OK, nor
# the upper layers.
if isinstance(node, (LVMNode, LVMCleanupNode, PvsNode,
VgsNode, LvsNode)):
# only the PvsNode actually does anything here...
node.create()
# ensure the sequence of calls correctly setup the devices
cmd_sequence = [
# create the pv's on the faked out block devices
mock.call(['pvcreate', '/dev/fake/root', '--force']),
mock.call(['pvcreate', '/dev/fake/data', '--force']),
# create a volume called "vg" out of these two pv's
mock.call(['vgcreate', 'vg1',
'/dev/fake/root', '--force']),
mock.call(['vgcreate', 'vg2',
'/dev/fake/data', '--force']),
# create a bunch of lv's on vg
mock.call(['lvcreate', '--name', 'lv_root',
'-L', '1800M', 'vg1']),
mock.call(['lvcreate', '--name', 'lv_tmp',
'-L', '100M', 'vg1']),
mock.call(['lvcreate', '--name', 'lv_var',
'-L', '500M', 'vg2']),
mock.call(['lvcreate', '--name', 'lv_log',
'-L', '100M', 'vg2']),
mock.call(['lvcreate', '--name', 'lv_audit',
'-L', '100M', 'vg2']),
mock.call(['lvcreate', '--name', 'lv_home',
'-L', '200M', 'vg2'])]
self.assertListEqual(mock_exec_sudo.call_args_list,
cmd_sequence)
# Ensure the correct LVM state was preserved
blockdev_state = {
'data': {'device': '/dev/fake/data'},
'root': {'device': '/dev/fake/root'},
'lv_audit': {
'device': '/dev/mapper/vg2-lv_audit',
'extents': None,
'opts': None,
'size': '100M',
'vgs': 'vg2'
},
'lv_home': {
'device': '/dev/mapper/vg2-lv_home',
'extents': None,
'opts': None,
'size': '200M',
'vgs': 'vg2'
},
'lv_log': {
'device': '/dev/mapper/vg2-lv_log',
'extents': None,
'opts': None,
'size': '100M',
'vgs': 'vg2'
},
'lv_root': {
'device': '/dev/mapper/vg1-lv_root',
'extents': None,
'opts': None,
'size': '1800M',
'vgs': 'vg1'
},
'lv_tmp': {
'device': '/dev/mapper/vg1-lv_tmp',
'extents': None,
'opts': None,
'size': '100M',
'vgs': 'vg1'
},
'lv_var': {
'device': '/dev/mapper/vg2-lv_var',
'extents': None,
'opts': None,
'size': '500M',
'vgs': 'vg2'
},
}
# state.debug_dump()
self.assertDictEqual(state['blockdev'], blockdev_state)
#
# Cleanup test
#
with mock.patch(exec_sudo) as mock_exec_sudo, \
mock.patch('tempfile.NamedTemporaryFile') as mock_temp, \
mock.patch('os.unlink'):
# each call to tempfile.NamedTemporaryFile will return a
# new mock with a unique filename, which we store in
# tempfiles
tempfiles = []
def new_tempfile(*args, **kwargs):
n = '/tmp/files%s' % len(tempfiles)
# trap! note mock.Mock(name = n) doesn't work like you
# think it would, since mock has a name attribute.
# That's why we override it with the configure_mock
# (this is mentioned in mock documentation if you read
# it :)
r = mock.Mock()
r.configure_mock(name=n)
tempfiles.append(n)
return r
mock_temp.side_effect = new_tempfile
reverse_order = reversed(call_order)
for node in reverse_order:
if isinstance(node, (LVMNode, LVMCleanupNode, PvsNode,
VgsNode, LvsNode)):
node.cleanup()
cmd_sequence = [
# delete the lv's
mock.call(['lvchange', '-an', '/dev/vg1/lv_root']),
mock.call(['lvchange', '-an', '/dev/vg1/lv_tmp']),
mock.call(['lvchange', '-an', '/dev/vg2/lv_var']),
mock.call(['lvchange', '-an', '/dev/vg2/lv_log']),
mock.call(['lvchange', '-an', '/dev/vg2/lv_audit']),
mock.call(['lvchange', '-an', '/dev/vg2/lv_home']),
# delete the vg's
mock.call(['vgchange', '-an', 'vg1']),
mock.call(['vgchange', '-an', 'vg2']),
mock.call(['udevadm', 'settle']),
mock.call(['pvscan', '--cache']),
]
self.assertListEqual(mock_exec_sudo.call_args_list, cmd_sequence)
def test_lvm_spanned_vg(self):
# Test when a volume group spans some partitions
tree = self.load_config_file('lvm_tree_spanned_vg.yaml')
config = config_tree_to_graph(tree)
state = BlockDeviceState()
graph, call_order = create_graph(config, self.fake_default_config,
state)
# XXX: todo; test call_order. Make sure PV's come before, VG;
# VG before LV, and that mounts/etc happen afterwards.
# Fake state for the two PV's specified by this config
state['blockdev'] = {}
state['blockdev']['root'] = {}
state['blockdev']['root']['device'] = '/dev/fake/root'
state['blockdev']['data1'] = {}
state['blockdev']['data1']['device'] = '/dev/fake/data1'
state['blockdev']['data2'] = {}
state['blockdev']['data2']['device'] = '/dev/fake/data2'
# We mock patch this ... it's just a little long!
exec_sudo = 'diskimage_builder.block_device.level1.lvm.exec_sudo'
#
# Creation test
#
with mock.patch(exec_sudo) as mock_exec_sudo:
for node in call_order:
# XXX: This has not mocked out the "lower" layers of
# creating the devices, which we're assuming works OK, nor
# the upper layers.
if isinstance(node, (LVMNode, LVMCleanupNode,
PvsNode, VgsNode, LvsNode)):
# only the LVMNode actually does anything here...
node.create()
# ensure the sequence of calls correctly setup the devices
cmd_sequence = [
# create the pv's on the faked out block devices
mock.call(['pvcreate', '/dev/fake/root', '--force']),
mock.call(['pvcreate', '/dev/fake/data1', '--force']),
mock.call(['pvcreate', '/dev/fake/data2', '--force']),
# create a root and a data volume, with the data volume
# spanning data1 & data2
mock.call(['vgcreate', 'vg_root',
'/dev/fake/root', '--force']),
mock.call(['vgcreate', 'vg_data',
'/dev/fake/data1', '/dev/fake/data2', '--force']),
# create root and data volume
mock.call(['lvcreate', '--name', 'lv_root',
'-L', '1800M', 'vg_root']),
mock.call(['lvcreate', '--name', 'lv_data',
'-L', '2G', 'vg_data'])
]
self.assertListEqual(mock_exec_sudo.call_args_list,
cmd_sequence)
with mock.patch(exec_sudo) as mock_exec_sudo, \
mock.patch('tempfile.NamedTemporaryFile') as mock_temp, \
mock.patch('os.unlink'):
# see above ...
tempfiles = []
def new_tempfile(*args, **kwargs):
n = '/tmp/files%s' % len(tempfiles)
r = mock.Mock()
r.configure_mock(name=n)
tempfiles.append(n)
return r
mock_temp.side_effect = new_tempfile
reverse_order = reversed(call_order)
for node in reverse_order:
if isinstance(node, (LVMNode, PvsNode, VgsNode, LvsNode)):
node.cleanup()
cmd_sequence = [
# deactivate lv's
mock.call(['lvchange', '-an', '/dev/vg_root/lv_root']),
mock.call(['lvchange', '-an', '/dev/vg_data/lv_data']),
# deactivate vg's
mock.call(['vgchange', '-an', 'vg_root']),
mock.call(['vgchange', '-an', 'vg_data']),
mock.call(['udevadm', 'settle']),
]
self.assertListEqual(mock_exec_sudo.call_args_list, cmd_sequence)