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# Copyright (C) 2020 Red Hat, Inc. <http://www.redhat.com>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
from glusto.core import Glusto as g
from glustolibs.gluster.gluster_base_class import (GlusterBaseClass, runs_on)
from glustolibs.gluster.exceptions import ExecutionError
from glustolibs.gluster.volume_libs import (
verify_all_process_of_volume_are_online,
wait_for_volume_process_to_be_online)
from glustolibs.gluster.brick_libs import (
select_volume_bricks_to_bring_offline,
bring_bricks_offline,
bring_bricks_online,
are_bricks_offline)
from glustolibs.gluster.heal_libs import (monitor_heal_completion,
is_volume_in_split_brain)
from glustolibs.io.utils import (collect_mounts_arequal)
from glustolibs.gluster.glusterdir import mkdir
from glustolibs.gluster.glusterfile import get_file_stat
@runs_on([['arbiter', 'distributed-arbiter'], ['glusterfs']])
class TestSelfHealDaemon(GlusterBaseClass):
"""
Description:
Arbiter Test cases related to self heal
of data and hardlink
"""
def setUp(self):
# Calling GlusterBaseClass
self.get_super_method(self, 'setUp')()
# Setup Volume and Mount Volume
ret = self.setup_volume_and_mount_volume(mounts=self.mounts)
if not ret:
raise ExecutionError("Failed to Setup_Volume and Mount_Volume")
g.log.info("Successful in Setup Volume and Mount Volume")
def tearDown(self):
"""
Cleanup and umount volume
"""
# Cleanup and umount volume
ret = self.unmount_volume_and_cleanup_volume(mounts=self.mounts)
if not ret:
raise ExecutionError("Failed to umount the vol & cleanup Volume")
g.log.info("Successful in umounting the volume and Cleanup")
# Calling GlusterBaseClass teardown
self.get_super_method(self, 'tearDown')()
def test_self_heal_daemon(self):
"""
Test Data-Self-Heal(heal command)
Description:
- Create directory test_hardlink_self_heal
- Create directory test_data_self_heal
- Creating files for hardlinks and data files
- Get arequal before getting bricks offline
- Select bricks to bring offline
- Bring brick offline
- Create hardlinks and append data to data files
- Bring brick online
- Wait for volume processes to be online
- Verify volume's all process are online
- Monitor heal completion
- Check for split-brain
- Get arequal after getting bricks online
- Select bricks to bring offline
- Bring brick offline
- Truncate data to data files and verify hardlinks
- Bring brick online
- Wait for volume processes to be online
- Verify volume's all process are online
- Monitor heal completion
- Check for split-brain
- Get arequal again
"""
# pylint: disable=too-many-branches,too-many-statements,too-many-locals
# Creating directory test_hardlink_self_heal
ret = mkdir(self.mounts[0].client_system, "{}/test_hardlink_self_heal"
.format(self.mounts[0].mountpoint))
self.assertTrue(ret, "Failed to create directory")
g.log.info("Directory 'test_hardlink_self_heal' on %s created "
"successfully", self.mounts[0])
# Creating directory test_data_self_heal
ret = mkdir(self.mounts[0].client_system, "{}/test_data_self_heal"
.format(self.mounts[0].mountpoint))
self.assertTrue(ret, "Failed to create directory")
g.log.info("Directory test_hardlink_self_heal on %s created "
"successfully", self.mounts[0])
# Creating files for hardlinks and data files
cmd = ('cd %s/test_hardlink_self_heal;for i in `seq 1 5`;'
'do mkdir dir.$i ; for j in `seq 1 10` ; do dd if='
'/dev/urandom of=dir.$i/file.$j bs=1k count=$j;done; done;'
'cd ..' % self.mounts[0].mountpoint)
ret, _, _ = g.run(self.mounts[0].client_system, cmd)
self.assertEqual(ret, 0, "Failed to create file on mountpoint")
g.log.info("Successfully created files on mountpoint")
cmd = ('cd %s/test_data_self_heal;for i in `seq 1 100`;'
'do dd if=/dev/urandom of=file.$i bs=128K count=$i;done;'
'cd ..' % self.mounts[0].mountpoint)
ret, _, _ = g.run(self.mounts[0].client_system, cmd)
self.assertEqual(ret, 0, "Failed to create file on mountpoint")
g.log.info("Successfully created files on mountpoint")
# Get arequal before getting bricks offline
ret, result_before_online = collect_mounts_arequal(self.mounts)
self.assertTrue(ret, 'Failed to get arequal')
g.log.info('Arequal before getting bricks online-%s',
result_before_online)
# Select bricks to bring offline
bricks_to_bring_offline = select_volume_bricks_to_bring_offline(
self.mnode, self.volname)
self.assertIsNotNone(bricks_to_bring_offline, "List is empty")
# Bring brick offline
ret = bring_bricks_offline(self.volname, bricks_to_bring_offline)
self.assertTrue(ret, 'Failed to bring bricks {} offline'.
format(bricks_to_bring_offline))
ret = are_bricks_offline(self.mnode, self.volname,
bricks_to_bring_offline)
self.assertTrue(ret, 'Bricks {} are not offline'.
format(bricks_to_bring_offline))
g.log.info('Bringing bricks %s offline is successful',
bricks_to_bring_offline)
# Append data to data files and create hardlinks
cmd = ('cd %s/test_data_self_heal;for i in `seq 1 100`;'
'do dd if=/dev/urandom of=file.$i bs=512K count=$i ; done ;'
'cd .. ' % self.mounts[0].mountpoint)
ret, _, _ = g.run(self.mounts[0].client_system, cmd)
self.assertEqual(ret, 0, "Failed to modify data files.")
g.log.info("Successfully modified data files")
cmd = ('cd %s/test_hardlink_self_heal;for i in `seq 1 5` ;do '
'for j in `seq 1 10`;do ln dir.$i/file.$j dir.$i/link_file.$j;'
'done ; done ; cd .. ' % self.mounts[0].mountpoint)
ret, _, _ = g.run(self.mounts[0].client_system, cmd)
self.assertEqual(ret, 0, "Hardlinks creation failed")
g.log.info("Successfully created hardlinks of files")
# Bring bricks online
ret = bring_bricks_online(self.mnode, self.volname,
bricks_to_bring_offline)
self.assertTrue(ret, 'Failed to bring bricks {} online'.format
(bricks_to_bring_offline))
g.log.info('Bringing bricks %s online is successful',
bricks_to_bring_offline)
# Wait for volume processes to be online
ret = wait_for_volume_process_to_be_online(self.mnode, self.volname)
self.assertTrue(ret, ("Failed to wait for volume {} processes to "
"be online".format(self.volname)))
g.log.info("Successful in waiting for volume %s processes to be "
"online", self.volname)
# Verify volume's all process are online
ret = verify_all_process_of_volume_are_online(self.mnode, self.volname)
self.assertTrue(ret, ("Volume {} : All process are not online".format
(self.volname)))
g.log.info("Volume %s : All process are online", self.volname)
# Monitor heal completion
ret = monitor_heal_completion(self.mnode, self.volname)
self.assertTrue(ret, 'Heal has not yet completed')
# Check for split-brain
ret = is_volume_in_split_brain(self.mnode, self.volname)
self.assertFalse(ret, 'Volume is in split-brain state')
g.log.info('Volume is not in split-brain state')
# Get arequal after getting bricks online
ret, result_after_online = collect_mounts_arequal(self.mounts)
self.assertTrue(ret, 'Failed to get arequal')
g.log.info('Arequal after getting bricks online '
'is %s', result_after_online)
# Select bricks to bring offline
bricks_to_bring_offline = select_volume_bricks_to_bring_offline(
self.mnode, self.volname)
self.assertIsNotNone(bricks_to_bring_offline, "List is empty")
# Bring brick offline
ret = bring_bricks_offline(self.volname, bricks_to_bring_offline)
self.assertTrue(ret, 'Failed to bring bricks {} offline'.format
(bricks_to_bring_offline))
ret = are_bricks_offline(self.mnode, self.volname,
bricks_to_bring_offline)
self.assertTrue(ret, 'Bricks {} are not offline'.format
(bricks_to_bring_offline))
g.log.info('Bringing bricks %s offline is successful',
bricks_to_bring_offline)
# Truncate data to data files and verify hardlinks
cmd = ('cd %s/test_data_self_heal ; for i in `seq 1 100` ;'
'do truncate -s $(( $i * 128)) file.$i ; done ; cd ..'
% self.mounts[0].mountpoint)
ret, _, _ = g.run(self.mounts[0].client_system, cmd)
self.assertEqual(ret, 0, "Failed to truncate files")
g.log.info("Successfully truncated files on mountpoint")
file_path = ('%s/test_hardlink_self_heal/dir{1..5}/file{1..10}'
% (self.mounts[0].mountpoint))
link_path = ('%s/test_hardlink_self_heal/dir{1..5}/link_file{1..10}'
% (self.mounts[0].mountpoint))
file_stat = get_file_stat(self.mounts[0], file_path)
link_stat = get_file_stat(self.mounts[0], link_path)
self.assertEqual(file_stat, link_stat, "Verification of hardlinks "
"failed")
g.log.info("Successfully verified hardlinks")
# Bring brick online
ret = bring_bricks_online(self.mnode, self.volname,
bricks_to_bring_offline)
self.assertTrue(ret, 'Failed to bring bricks {} online'.format
(bricks_to_bring_offline))
g.log.info('Bringing bricks %s online is successful',
bricks_to_bring_offline)
# Wait for volume processes to be online
ret = wait_for_volume_process_to_be_online(self.mnode, self.volname)
self.assertTrue(ret, ("Failed to wait for volume {} processes to "
"be online".format(self.volname)))
g.log.info("Successful in waiting for volume %s processes to be "
"online", self.volname)
# Verify volume's all process are online
ret = verify_all_process_of_volume_are_online(self.mnode, self.volname)
self.assertTrue(ret, ("Volume {} : All process are not online".format
(self.volname)))
g.log.info("Volume %s : All process are online", self.volname)
# Monitor heal completion
ret = monitor_heal_completion(self.mnode, self.volname)
self.assertTrue(ret, 'Heal has not yet completed')
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