tests/qemu-iotests/124 - qemu - Git at Google

 #!/usr/bin/env python3
 # group: rw backing
 #
 # Tests for incremental drive-backup
 #
 # Copyright (C) 2015 John Snow for Red Hat, Inc.
 #
 # Based on 056.
 #
 # 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
 # (at your option) 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, see <http://www.gnu.org/licenses/>.
 #

 import os
 import iotests
 from iotests import try_remove
 from qemu.qmp.qmp_client import ExecuteError


 def io_write_patterns(img, patterns):
     for pattern in patterns:
         iotests.qemu_io('-c', 'write -P%s %s %s' % pattern, img)


 def transaction_action(action, **kwargs):
     return {
         'type': action,
         'data': dict((k.replace('_', '-'), v) for k, v in kwargs.items())
     }


 def transaction_bitmap_clear(node, name, **kwargs):
     return transaction_action('block-dirty-bitmap-clear',
                               node=node, name=name, **kwargs)


 def transaction_drive_backup(device, target, **kwargs):
     return transaction_action('drive-backup', job_id=device, device=device,
                               target=target, **kwargs)


 class Bitmap:
     def __init__(self, name, drive):
         self.name = name
         self.drive = drive
         self.num = 0
         self.backups = list()

     def base_target(self):
         return (self.drive['backup'], None)

     def new_target(self, num=None):
         if num is None:
             num = self.num
         self.num = num + 1
         base = os.path.join(iotests.test_dir,
                             "%s.%s." % (self.drive['id'], self.name))
         suff = "%i.%s" % (num, self.drive['fmt'])
         target = base + "inc" + suff
         reference = base + "ref" + suff
         self.backups.append((target, reference))
         return (target, reference)

     def last_target(self):
         if self.backups:
             return self.backups[-1]
         return self.base_target()

     def del_target(self):
         for image in self.backups.pop():
             try_remove(image)
         self.num -= 1

     def cleanup(self):
         for backup in self.backups:
             for image in backup:
                 try_remove(image)


 class TestIncrementalBackupBase(iotests.QMPTestCase):
     def __init__(self, *args):
         super(TestIncrementalBackupBase, self).__init__(*args)
         self.bitmaps = list()
         self.files = list()
         self.drives = list()
         self.vm = iotests.VM()
         self.err_img = os.path.join(iotests.test_dir, 'err.%s' % iotests.imgfmt)


     def setUp(self):
         # Create a base image with a distinctive patterning
         drive0 = self.add_node('drive0')
         self.img_create(drive0['file'], drive0['fmt'])
         self.vm.add_drive(drive0['file'], opts='node-name=node0')
         self.write_default_pattern(drive0['file'])
         self.vm.launch()


     def write_default_pattern(self, target):
         io_write_patterns(target, (('0x41', 0, 512),
                                    ('0xd5', '1M', '32k'),
                                    ('0xdc', '32M', '124k')))


     def add_node(self, node_id, fmt=iotests.imgfmt, path=None, backup=None):
         if path is None:
             path = os.path.join(iotests.test_dir, '%s.%s' % (node_id, fmt))
         if backup is None:
             backup = os.path.join(iotests.test_dir,
                                   '%s.full.backup.%s' % (node_id, fmt))

         self.drives.append({
             'id': node_id,
             'file': path,
             'backup': backup,
             'fmt': fmt })
         return self.drives[-1]


     def img_create(self, img, fmt=iotests.imgfmt, size='64M',
                    parent=None, parentFormat=None, **kwargs):
         optargs = []
         for k,v in kwargs.items():
             optargs = optargs + ['-o', '%s=%s' % (k,v)]
         args = ['create', '-f', fmt] + optargs + [img, size]
         if parent:
             if parentFormat is None:
                 parentFormat = fmt
             args = args + ['-b', parent, '-F', parentFormat]
         iotests.qemu_img(*args)
         self.files.append(img)


     def do_qmp_backup(self, error='Input/output error', **kwargs):
         self.vm.cmd('drive-backup', **kwargs)
         return self.wait_qmp_backup(kwargs['device'], error)


     def ignore_job_status_change_events(self):
         while True:
             e = self.vm.event_wait(name="JOB_STATUS_CHANGE")
             if e['data']['status'] == 'null':
                 break

     def wait_qmp_backup(self, device, error='Input/output error'):
         event = self.vm.event_wait(name="BLOCK_JOB_COMPLETED",
                                    match={'data': {'device': device}})
         self.assertNotEqual(event, None)
         self.ignore_job_status_change_events()

         try:
             failure = self.dictpath(event, 'data/error')
         except AssertionError:
             # Backup succeeded.
             self.assert_qmp(event, 'data/offset', event['data']['len'])
             return True
         else:
             # Backup failed.
             self.assert_qmp(event, 'data/error', error)
             return False


     def wait_qmp_backup_cancelled(self, device):
         event = self.vm.event_wait(name='BLOCK_JOB_CANCELLED',
                                    match={'data': {'device': device}})
         self.assertNotEqual(event, None)
         self.ignore_job_status_change_events()


     def create_anchor_backup(self, drive=None):
         if drive is None:
             drive = self.drives[-1]
         res = self.do_qmp_backup(job_id=drive['id'],
                                  device=drive['id'], sync='full',
                                  format=drive['fmt'], target=drive['backup'])
         self.assertTrue(res)
         self.files.append(drive['backup'])
         return drive['backup']


     def make_reference_backup(self, bitmap=None):
         if bitmap is None:
             bitmap = self.bitmaps[-1]
         _, reference = bitmap.last_target()
         res = self.do_qmp_backup(job_id=bitmap.drive['id'],
                                  device=bitmap.drive['id'], sync='full',
                                  format=bitmap.drive['fmt'], target=reference)
         self.assertTrue(res)


     def add_bitmap(self, name, drive, **kwargs):
         bitmap = Bitmap(name, drive)
         self.bitmaps.append(bitmap)
         self.vm.cmd('block-dirty-bitmap-add', node=drive['id'],
                     name=bitmap.name, **kwargs)
         return bitmap


     def prepare_backup(self, bitmap=None, parent=None, **kwargs):
         if bitmap is None:
             bitmap = self.bitmaps[-1]
         if parent is None:
             parent, _ = bitmap.last_target()

         target, _ = bitmap.new_target()
         self.img_create(target, bitmap.drive['fmt'], parent=parent,
                         **kwargs)
         return target


     def create_incremental(self, bitmap=None, parent=None,
                            parentFormat=None, validate=True,
                            target=None):
         if bitmap is None:
             bitmap = self.bitmaps[-1]
         if parent is None:
             parent, _ = bitmap.last_target()

         if target is None:
             target = self.prepare_backup(bitmap, parent)
         res = self.do_qmp_backup(job_id=bitmap.drive['id'],
                                  device=bitmap.drive['id'],
                                  sync='incremental', bitmap=bitmap.name,
                                  format=bitmap.drive['fmt'], target=target,
                                  mode='existing')
         if not res:
             bitmap.del_target();
             self.assertFalse(validate)
         else:
             self.make_reference_backup(bitmap)
         return res


     def check_backups(self):
         for bitmap in self.bitmaps:
             for incremental, reference in bitmap.backups:
                 self.assertTrue(iotests.compare_images(incremental, reference))
             last = bitmap.last_target()[0]
             self.assertTrue(iotests.compare_images(last, bitmap.drive['file']))


     def hmp_io_writes(self, drive, patterns):
         for pattern in patterns:
             self.vm.hmp_qemu_io(drive, 'write -P%s %s %s' % pattern)
         self.vm.hmp_qemu_io(drive, 'flush')


     def do_incremental_simple(self, **kwargs):
         self.create_anchor_backup()
         self.add_bitmap('bitmap0', self.drives[0], **kwargs)

         # Sanity: Create a "hollow" incremental backup
         self.create_incremental()
         # Three writes: One complete overwrite, one new segment,
         # and one partial overlap.
         self.hmp_io_writes(self.drives[0]['id'], (('0xab', 0, 512),
                                                   ('0xfe', '16M', '256k'),
                                                   ('0x64', '32736k', '64k')))
         self.create_incremental()
         # Three more writes, one of each kind, like above
         self.hmp_io_writes(self.drives[0]['id'], (('0x9a', 0, 512),
                                                   ('0x55', '8M', '352k'),
                                                   ('0x78', '15872k', '1M')))
         self.create_incremental()
         self.vm.shutdown()
         self.check_backups()


     def tearDown(self):
         self.vm.shutdown()
         for bitmap in self.bitmaps:
             bitmap.cleanup()
         for filename in self.files:
             try_remove(filename)


 class TestIncrementalBackup(TestIncrementalBackupBase):
     def test_incremental_simple(self):
         '''
         Test: Create and verify three incremental backups.

         Create a bitmap and a full backup before VM execution begins,
         then create a series of three incremental backups "during execution,"
         i.e.; after IO requests begin modifying the drive.
         '''
         return self.do_incremental_simple()


     def test_small_granularity(self):
         '''
         Test: Create and verify backups made with a small granularity bitmap.

         Perform the same test as test_incremental_simple, but with a granularity
         of only 32KiB instead of the present default of 64KiB.
         '''
         return self.do_incremental_simple(granularity=32768)


     def test_large_granularity(self):
         '''
         Test: Create and verify backups made with a large granularity bitmap.

         Perform the same test as test_incremental_simple, but with a granularity
         of 128KiB instead of the present default of 64KiB.
         '''
         return self.do_incremental_simple(granularity=131072)


     def test_larger_cluster_target(self):
         '''
         Test: Create and verify backups made to a larger cluster size target.

         With a default granularity of 64KiB, verify that backups made to a
         larger cluster size target of 128KiB without a backing file works.
         '''
         drive0 = self.drives[0]

         # Create a cluster_size=128k full backup / "anchor" backup
         self.img_create(drive0['backup'], cluster_size='128k')
         self.assertTrue(self.do_qmp_backup(device=drive0['id'], sync='full',
                                            format=drive0['fmt'],
                                            target=drive0['backup'],
                                            mode='existing'))

         # Create bitmap and dirty it with some new writes.
         # overwrite [32736, 32799] which will dirty bitmap clusters at
         # 32M-64K and 32M. 32M+64K will be left undirtied.
         bitmap0 = self.add_bitmap('bitmap0', drive0)
         self.hmp_io_writes(drive0['id'],
                            (('0xab', 0, 512),
                             ('0xfe', '16M', '256k'),
                             ('0x64', '32736k', '64k')))
         # Check the dirty bitmap stats
         self.assertTrue(self.vm.check_bitmap_status(
             'node0', bitmap0.name, {
                 'name': 'bitmap0',
                 'count': 458752,
                 'granularity': 65536,
                 'persistent': False
             }))

         # Prepare a cluster_size=128k backup target without a backing file.
         (target, _) = bitmap0.new_target()
         self.img_create(target, bitmap0.drive['fmt'], cluster_size='128k')

         # Perform Incremental Backup
         self.assertTrue(self.do_qmp_backup(device=bitmap0.drive['id'],
                                            sync='incremental',
                                            bitmap=bitmap0.name,
                                            format=bitmap0.drive['fmt'],
                                            target=target,
                                            mode='existing'))
         self.make_reference_backup(bitmap0)

         # Add the backing file, then compare and exit.
         iotests.qemu_img('rebase', '-f', drive0['fmt'], '-u', '-b',
                          drive0['backup'], '-F', drive0['fmt'], target)
         self.vm.shutdown()
         self.check_backups()


     def test_incremental_transaction(self):
         '''Test: Verify backups made from transactionally created bitmaps.

         Create a bitmap "before" VM execution begins, then create a second
         bitmap AFTER writes have already occurred. Use transactions to create
         a full backup and synchronize both bitmaps to this backup.
         Create an incremental backup through both bitmaps and verify that
         both backups match the current drive0 image.
         '''

         drive0 = self.drives[0]
         bitmap0 = self.add_bitmap('bitmap0', drive0)
         self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
                                           ('0xfe', '16M', '256k'),
                                           ('0x64', '32736k', '64k')))
         bitmap1 = self.add_bitmap('bitmap1', drive0)

         self.vm.cmd('transaction', actions=[
             transaction_bitmap_clear(bitmap0.drive['id'], bitmap0.name),
             transaction_bitmap_clear(bitmap1.drive['id'], bitmap1.name),
             transaction_drive_backup(drive0['id'], drive0['backup'],
                                      sync='full', format=drive0['fmt'])
         ])
         self.wait_until_completed(drive0['id'])
         self.files.append(drive0['backup'])

         self.hmp_io_writes(drive0['id'], (('0x9a', 0, 512),
                                           ('0x55', '8M', '352k'),
                                           ('0x78', '15872k', '1M')))
         # Both bitmaps should be correctly in sync.
         self.create_incremental(bitmap0)
         self.create_incremental(bitmap1)
         self.vm.shutdown()
         self.check_backups()


     def do_transaction_failure_test(self, race=False):
         # Create a second drive, with pattern:
         drive1 = self.add_node('drive1')
         self.img_create(drive1['file'], drive1['fmt'])
         io_write_patterns(drive1['file'], (('0x14', 0, 512),
                                            ('0x5d', '1M', '32k'),
                                            ('0xcd', '32M', '124k')))

         # Create a blkdebug interface to this img as 'drive1'
         self.vm.cmd('blockdev-add',
             node_name=drive1['id'],
             driver=drive1['fmt'],
             file={
                 'driver': 'blkdebug',
                 'image': {
                     'driver': 'file',
                     'filename': drive1['file']
                 },
                 'set-state': [{
                     'event': 'flush_to_disk',
                     'state': 1,
                     'new_state': 2
                 }],
                 'inject-error': [{
                     'event': 'read_aio',
                     'errno': 5,
                     'state': 2,
                     'immediately': False,
                     'once': True
                 }],
             }
         )

         # Create bitmaps and full backups for both drives
         drive0 = self.drives[0]
         dr0bm0 = self.add_bitmap('bitmap0', drive0)
         dr1bm0 = self.add_bitmap('bitmap0', drive1)
         self.create_anchor_backup(drive0)
         self.create_anchor_backup(drive1)
         self.assert_no_active_block_jobs()
         self.assertFalse(self.vm.get_qmp_events(wait=False))

         # Emulate some writes
         if not race:
             self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
                                               ('0xfe', '16M', '256k'),
                                               ('0x64', '32736k', '64k')))
         self.hmp_io_writes(drive1['id'], (('0xba', 0, 512),
                                           ('0xef', '16M', '256k'),
                                           ('0x46', '32736k', '64k')))

         # Create incremental backup targets
         target0 = self.prepare_backup(dr0bm0)
         target1 = self.prepare_backup(dr1bm0)

         # Ask for a new incremental backup per-each drive,
         # expecting drive1's backup to fail. In the 'race' test,
         # we expect drive1 to attempt to cancel the empty drive0 job.
         transaction = [
             transaction_drive_backup(drive0['id'], target0, sync='incremental',
                                      format=drive0['fmt'], mode='existing',
                                      bitmap=dr0bm0.name),
             transaction_drive_backup(drive1['id'], target1, sync='incremental',
                                      format=drive1['fmt'], mode='existing',
                                      bitmap=dr1bm0.name)
         ]
         self.vm.cmd('transaction', actions=transaction,
                     properties={'completion-mode': 'grouped'} )

         # Observe that drive0's backup is cancelled and drive1 completes with
         # an error.
         self.wait_qmp_backup_cancelled(drive0['id'])
         self.assertFalse(self.wait_qmp_backup(drive1['id']))
         error = self.vm.event_wait('BLOCK_JOB_ERROR')
         self.assert_qmp(error, 'data', {'device': drive1['id'],
                                         'action': 'report',
                                         'operation': 'read'})
         self.assertFalse(self.vm.get_qmp_events(wait=False))
         self.assert_no_active_block_jobs()

         # Delete drive0's successful target and eliminate our record of the
         # unsuccessful drive1 target.
         dr0bm0.del_target()
         dr1bm0.del_target()
         if race:
             # Don't re-run the transaction, we only wanted to test the race.
             self.vm.shutdown()
             return

         # Re-run the same transaction:
         target0 = self.prepare_backup(dr0bm0)
         target1 = self.prepare_backup(dr1bm0)

         # Re-run the exact same transaction.
         self.vm.cmd('transaction', actions=transaction,
                     properties={'completion-mode':'grouped'})

         # Both should complete successfully this time.
         self.assertTrue(self.wait_qmp_backup(drive0['id']))
         self.assertTrue(self.wait_qmp_backup(drive1['id']))
         self.make_reference_backup(dr0bm0)
         self.make_reference_backup(dr1bm0)
         self.assertFalse(self.vm.get_qmp_events(wait=False))
         self.assert_no_active_block_jobs()

         # And the images should of course validate.
         self.vm.shutdown()
         self.check_backups()

     def test_transaction_failure(self):
         '''Test: Verify backups made from a transaction that partially fails.

         Add a second drive with its own unique pattern, and add a bitmap to each
         drive. Use blkdebug to interfere with the backup on just one drive and
         attempt to create a coherent incremental backup across both drives.

         verify a failure in one but not both, then delete the failed stubs and
         re-run the same transaction.

         verify that both incrementals are created successfully.
         '''
         self.do_transaction_failure_test()

     def test_transaction_failure_race(self):
         '''Test: Verify that transactions with jobs that have no data to
         transfer do not cause race conditions in the cancellation of the entire
         transaction job group.
         '''
         self.do_transaction_failure_test(race=True)


     def test_sync_dirty_bitmap_missing(self):
         self.assert_no_active_block_jobs()
         self.files.append(self.err_img)
         result = self.vm.qmp('drive-backup', device=self.drives[0]['id'],
                              sync='incremental', format=self.drives[0]['fmt'],
                              target=self.err_img)
         self.assert_qmp(result, 'error/class', 'GenericError')


     def test_sync_dirty_bitmap_not_found(self):
         self.assert_no_active_block_jobs()
         self.files.append(self.err_img)
         result = self.vm.qmp('drive-backup', device=self.drives[0]['id'],
                              sync='incremental', bitmap='unknown',
                              format=self.drives[0]['fmt'], target=self.err_img)
         self.assert_qmp(result, 'error/class', 'GenericError')


     def test_sync_dirty_bitmap_bad_granularity(self):
         '''
         Test: Test what happens if we provide an improper granularity.

         The granularity must always be a power of 2.
         '''
         self.assert_no_active_block_jobs()
         self.assertRaises(ExecuteError, self.add_bitmap,
                           'bitmap0', self.drives[0],
                           granularity=64000)

     def test_growing_before_backup(self):
         '''
         Test: Add a bitmap, truncate the image, write past the old
               end, do a backup.

         Incremental backup should not ignore dirty bits past the old
         image end.
         '''
         self.assert_no_active_block_jobs()

         self.create_anchor_backup()

         self.add_bitmap('bitmap0', self.drives[0])

         self.vm.cmd('block_resize', device=self.drives[0]['id'],
                     size=(65 * 1048576))

         # Dirty the image past the old end
         self.vm.hmp_qemu_io(self.drives[0]['id'], 'write 64M 64k')

         target = self.prepare_backup(size='65M')
         self.create_incremental(target=target)

         self.vm.shutdown()
         self.check_backups()


 class TestIncrementalBackupBlkdebug(TestIncrementalBackupBase):
     '''Incremental backup tests that utilize a BlkDebug filter on drive0.'''

     def setUp(self):
         drive0 = self.add_node('drive0')
         self.img_create(drive0['file'], drive0['fmt'])
         self.write_default_pattern(drive0['file'])
         self.vm.launch()

     def test_incremental_failure(self):
         '''Test: Verify backups made after a failure are correct.

         Simulate a failure during an incremental backup block job,
         emulate additional writes, then create another incremental backup
         afterwards and verify that the backup created is correct.
         '''

         drive0 = self.drives[0]
         self.vm.cmd('blockdev-add',
             node_name=drive0['id'],
             driver=drive0['fmt'],
             file={
                 'driver': 'blkdebug',
                 'image': {
                     'driver': 'file',
                     'filename': drive0['file']
                 },
                 'set-state': [{
                     'event': 'flush_to_disk',
                     'state': 1,
                     'new_state': 2
                 }],
                 'inject-error': [{
                     'event': 'read_aio',
                     'errno': 5,
                     'state': 2,
                     'immediately': False,
                     'once': True
                 }],
             }
         )

         self.create_anchor_backup(drive0)
         self.add_bitmap('bitmap0', drive0)
         # Note: at this point, during a normal execution,
         # Assume that the VM resumes and begins issuing IO requests here.

         self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
                                           ('0xfe', '16M', '256k'),
                                           ('0x64', '32736k', '64k')))

         result = self.create_incremental(validate=False)
         self.assertFalse(result)
         self.hmp_io_writes(drive0['id'], (('0x9a', 0, 512),
                                           ('0x55', '8M', '352k'),
                                           ('0x78', '15872k', '1M')))
         self.create_incremental()
         self.vm.shutdown()
         self.check_backups()

     def test_incremental_pause(self):
         """
         Test an incremental backup that errors into a pause and is resumed.
         """

         drive0 = self.drives[0]
         # NB: The blkdebug script here looks for a "flush, read" pattern.
         # The flush occurs in hmp_io_writes, and the read during the block job.
         self.vm.cmd('blockdev-add',
                     node_name=drive0['id'],
                     driver=drive0['fmt'],
                     file={
                         'driver': 'blkdebug',
                         'image': {
                             'driver': 'file',
                             'filename': drive0['file']
                         },
                         'set-state': [{
                             'event': 'flush_to_disk',
                             'state': 1,
                             'new_state': 2
                         }],
                         'inject-error': [{
                             'event': 'read_aio',
                             'errno': 5,
                             'state': 2,
                             'immediately': False,
                             'once': True
                         }],
                     })
         self.create_anchor_backup(drive0)
         bitmap = self.add_bitmap('bitmap0', drive0)

         # Emulate guest activity
         self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
                                           ('0xfe', '16M', '256k'),
                                           ('0x64', '32736k', '64k')))

         # Bitmap Status Check
         self.assertTrue(self.vm.check_bitmap_status(
             drive0['id'], bitmap.name, {
                 'count': 458752,
                 'granularity': 65536,
                 'busy': False,
                 'recording': True
             }))

         # Start backup
         parent, _ = bitmap.last_target()
         target = self.prepare_backup(bitmap, parent)
         self.vm.cmd('drive-backup',
                     job_id=bitmap.drive['id'],
                     device=bitmap.drive['id'],
                     sync='incremental',
                     bitmap=bitmap.name,
                     format=bitmap.drive['fmt'],
                     target=target,
                     mode='existing',
                     on_source_error='stop')

         # Wait for the error
         event = self.vm.event_wait(name="BLOCK_JOB_ERROR",
                                    match={"data":{"device":bitmap.drive['id']}})
         self.assert_qmp(event, 'data', {'device': bitmap.drive['id'],
                                         'action': 'stop',
                                         'operation': 'read'})

         # Bitmap Status Check
         self.assertTrue(self.vm.check_bitmap_status(
             drive0['id'], bitmap.name, {
                 'count': 458752,
                 'granularity': 65536,
                 'busy': True,
                 'recording': True
             }))

         # Resume and check incremental backup for consistency
         self.vm.cmd('block-job-resume', device=bitmap.drive['id'])
         self.wait_qmp_backup(bitmap.drive['id'])

         # Bitmap Status Check
         self.assertTrue(self.vm.check_bitmap_status(
             drive0['id'], bitmap.name, {
                 'count': 0,
                 'granularity': 65536,
                 'busy': False,
                 'recording': True
             }))

         # Finalize / Cleanup
         self.make_reference_backup(bitmap)
         self.vm.shutdown()
         self.check_backups()


 if __name__ == '__main__':
     iotests.main(supported_fmts=['qcow2'],
                  supported_protocols=['file'])
	#!/usr/bin/env python3
	# group: rw backing
	#
	# Tests for incremental drive-backup
	#
	# Copyright (C) 2015 John Snow for Red Hat, Inc.
	#
	# Based on 056.
	#
	# 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
	# (at your option) 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, see <http://www.gnu.org/licenses/>.
	#

	import os
	import iotests
	from iotests import try_remove
	from qemu.qmp.qmp_client import ExecuteError


	def io_write_patterns(img, patterns):
	for pattern in patterns:
	iotests.qemu_io('-c', 'write -P%s %s %s' % pattern, img)


	def transaction_action(action, **kwargs):
	return {
	'type': action,
	'data': dict((k.replace('_', '-'), v) for k, v in kwargs.items())
	}


	def transaction_bitmap_clear(node, name, **kwargs):
	return transaction_action('block-dirty-bitmap-clear',
	node=node, name=name, **kwargs)


	def transaction_drive_backup(device, target, **kwargs):
	return transaction_action('drive-backup', job_id=device, device=device,
	target=target, **kwargs)


	class Bitmap:
	def __init__(self, name, drive):
	self.name = name
	self.drive = drive
	self.num = 0
	self.backups = list()

	def base_target(self):
	return (self.drive['backup'], None)

	def new_target(self, num=None):
	if num is None:
	num = self.num
	self.num = num + 1
	base = os.path.join(iotests.test_dir,
	"%s.%s." % (self.drive['id'], self.name))
	suff = "%i.%s" % (num, self.drive['fmt'])
	target = base + "inc" + suff
	reference = base + "ref" + suff
	self.backups.append((target, reference))
	return (target, reference)

	def last_target(self):
	if self.backups:
	return self.backups[-1]
	return self.base_target()

	def del_target(self):
	for image in self.backups.pop():
	try_remove(image)
	self.num -= 1

	def cleanup(self):
	for backup in self.backups:
	for image in backup:
	try_remove(image)


	class TestIncrementalBackupBase(iotests.QMPTestCase):
	def __init__(self, *args):
	super(TestIncrementalBackupBase, self).__init__(*args)
	self.bitmaps = list()
	self.files = list()
	self.drives = list()
	self.vm = iotests.VM()
	self.err_img = os.path.join(iotests.test_dir, 'err.%s' % iotests.imgfmt)


	def setUp(self):
	# Create a base image with a distinctive patterning
	drive0 = self.add_node('drive0')
	self.img_create(drive0['file'], drive0['fmt'])
	self.vm.add_drive(drive0['file'], opts='node-name=node0')
	self.write_default_pattern(drive0['file'])
	self.vm.launch()


	def write_default_pattern(self, target):
	io_write_patterns(target, (('0x41', 0, 512),
	('0xd5', '1M', '32k'),
	('0xdc', '32M', '124k')))


	def add_node(self, node_id, fmt=iotests.imgfmt, path=None, backup=None):
	if path is None:
	path = os.path.join(iotests.test_dir, '%s.%s' % (node_id, fmt))
	if backup is None:
	backup = os.path.join(iotests.test_dir,
	'%s.full.backup.%s' % (node_id, fmt))

	self.drives.append({
	'id': node_id,
	'file': path,
	'backup': backup,
	'fmt': fmt })
	return self.drives[-1]


	def img_create(self, img, fmt=iotests.imgfmt, size='64M',
	parent=None, parentFormat=None, **kwargs):
	optargs = []
	for k,v in kwargs.items():
	optargs = optargs + ['-o', '%s=%s' % (k,v)]
	args = ['create', '-f', fmt] + optargs + [img, size]
	if parent:
	if parentFormat is None:
	parentFormat = fmt
	args = args + ['-b', parent, '-F', parentFormat]
	iotests.qemu_img(*args)
	self.files.append(img)


	def do_qmp_backup(self, error='Input/output error', **kwargs):
	self.vm.cmd('drive-backup', **kwargs)
	return self.wait_qmp_backup(kwargs['device'], error)


	def ignore_job_status_change_events(self):
	while True:
	e = self.vm.event_wait(name="JOB_STATUS_CHANGE")
	if e['data']['status'] == 'null':
	break

	def wait_qmp_backup(self, device, error='Input/output error'):
	event = self.vm.event_wait(name="BLOCK_JOB_COMPLETED",
	match={'data': {'device': device}})
	self.assertNotEqual(event, None)
	self.ignore_job_status_change_events()

	try:
	failure = self.dictpath(event, 'data/error')
	except AssertionError:
	# Backup succeeded.
	self.assert_qmp(event, 'data/offset', event['data']['len'])
	return True
	else:
	# Backup failed.
	self.assert_qmp(event, 'data/error', error)
	return False


	def wait_qmp_backup_cancelled(self, device):
	event = self.vm.event_wait(name='BLOCK_JOB_CANCELLED',
	match={'data': {'device': device}})
	self.assertNotEqual(event, None)
	self.ignore_job_status_change_events()


	def create_anchor_backup(self, drive=None):
	if drive is None:
	drive = self.drives[-1]
	res = self.do_qmp_backup(job_id=drive['id'],
	device=drive['id'], sync='full',
	format=drive['fmt'], target=drive['backup'])
	self.assertTrue(res)
	self.files.append(drive['backup'])
	return drive['backup']


	def make_reference_backup(self, bitmap=None):
	if bitmap is None:
	bitmap = self.bitmaps[-1]
	_, reference = bitmap.last_target()
	res = self.do_qmp_backup(job_id=bitmap.drive['id'],
	device=bitmap.drive['id'], sync='full',
	format=bitmap.drive['fmt'], target=reference)
	self.assertTrue(res)


	def add_bitmap(self, name, drive, **kwargs):
	bitmap = Bitmap(name, drive)
	self.bitmaps.append(bitmap)
	self.vm.cmd('block-dirty-bitmap-add', node=drive['id'],
	name=bitmap.name, **kwargs)
	return bitmap


	def prepare_backup(self, bitmap=None, parent=None, **kwargs):
	if bitmap is None:
	bitmap = self.bitmaps[-1]
	if parent is None:
	parent, _ = bitmap.last_target()

	target, _ = bitmap.new_target()
	self.img_create(target, bitmap.drive['fmt'], parent=parent,
	**kwargs)
	return target


	def create_incremental(self, bitmap=None, parent=None,
	parentFormat=None, validate=True,
	target=None):
	if bitmap is None:
	bitmap = self.bitmaps[-1]
	if parent is None:
	parent, _ = bitmap.last_target()

	if target is None:
	target = self.prepare_backup(bitmap, parent)
	res = self.do_qmp_backup(job_id=bitmap.drive['id'],
	device=bitmap.drive['id'],
	sync='incremental', bitmap=bitmap.name,
	format=bitmap.drive['fmt'], target=target,
	mode='existing')
	if not res:
	bitmap.del_target();
	self.assertFalse(validate)
	else:
	self.make_reference_backup(bitmap)
	return res


	def check_backups(self):
	for bitmap in self.bitmaps:
	for incremental, reference in bitmap.backups:
	self.assertTrue(iotests.compare_images(incremental, reference))
	last = bitmap.last_target()[0]
	self.assertTrue(iotests.compare_images(last, bitmap.drive['file']))


	def hmp_io_writes(self, drive, patterns):
	for pattern in patterns:
	self.vm.hmp_qemu_io(drive, 'write -P%s %s %s' % pattern)
	self.vm.hmp_qemu_io(drive, 'flush')


	def do_incremental_simple(self, **kwargs):
	self.create_anchor_backup()
	self.add_bitmap('bitmap0', self.drives[0], **kwargs)

	# Sanity: Create a "hollow" incremental backup
	self.create_incremental()
	# Three writes: One complete overwrite, one new segment,
	# and one partial overlap.
	self.hmp_io_writes(self.drives[0]['id'], (('0xab', 0, 512),
	('0xfe', '16M', '256k'),
	('0x64', '32736k', '64k')))
	self.create_incremental()
	# Three more writes, one of each kind, like above
	self.hmp_io_writes(self.drives[0]['id'], (('0x9a', 0, 512),
	('0x55', '8M', '352k'),
	('0x78', '15872k', '1M')))
	self.create_incremental()
	self.vm.shutdown()
	self.check_backups()


	def tearDown(self):
	self.vm.shutdown()
	for bitmap in self.bitmaps:
	bitmap.cleanup()
	for filename in self.files:
	try_remove(filename)



	class TestIncrementalBackup(TestIncrementalBackupBase):
	def test_incremental_simple(self):
	'''
	Test: Create and verify three incremental backups.

	Create a bitmap and a full backup before VM execution begins,
	then create a series of three incremental backups "during execution,"
	i.e.; after IO requests begin modifying the drive.
	'''
	return self.do_incremental_simple()


	def test_small_granularity(self):
	'''
	Test: Create and verify backups made with a small granularity bitmap.

	Perform the same test as test_incremental_simple, but with a granularity
	of only 32KiB instead of the present default of 64KiB.
	'''
	return self.do_incremental_simple(granularity=32768)


	def test_large_granularity(self):
	'''
	Test: Create and verify backups made with a large granularity bitmap.

	Perform the same test as test_incremental_simple, but with a granularity
	of 128KiB instead of the present default of 64KiB.
	'''
	return self.do_incremental_simple(granularity=131072)


	def test_larger_cluster_target(self):
	'''
	Test: Create and verify backups made to a larger cluster size target.

	With a default granularity of 64KiB, verify that backups made to a
	larger cluster size target of 128KiB without a backing file works.
	'''
	drive0 = self.drives[0]

	# Create a cluster_size=128k full backup / "anchor" backup
	self.img_create(drive0['backup'], cluster_size='128k')
	self.assertTrue(self.do_qmp_backup(device=drive0['id'], sync='full',
	format=drive0['fmt'],
	target=drive0['backup'],
	mode='existing'))

	# Create bitmap and dirty it with some new writes.
	# overwrite [32736, 32799] which will dirty bitmap clusters at
	# 32M-64K and 32M. 32M+64K will be left undirtied.
	bitmap0 = self.add_bitmap('bitmap0', drive0)
	self.hmp_io_writes(drive0['id'],
	(('0xab', 0, 512),
	('0xfe', '16M', '256k'),
	('0x64', '32736k', '64k')))
	# Check the dirty bitmap stats
	self.assertTrue(self.vm.check_bitmap_status(
	'node0', bitmap0.name, {
	'name': 'bitmap0',
	'count': 458752,
	'granularity': 65536,
	'persistent': False
	}))

	# Prepare a cluster_size=128k backup target without a backing file.
	(target, _) = bitmap0.new_target()
	self.img_create(target, bitmap0.drive['fmt'], cluster_size='128k')

	# Perform Incremental Backup
	self.assertTrue(self.do_qmp_backup(device=bitmap0.drive['id'],
	sync='incremental',
	bitmap=bitmap0.name,
	format=bitmap0.drive['fmt'],
	target=target,
	mode='existing'))
	self.make_reference_backup(bitmap0)

	# Add the backing file, then compare and exit.
	iotests.qemu_img('rebase', '-f', drive0['fmt'], '-u', '-b',
	drive0['backup'], '-F', drive0['fmt'], target)
	self.vm.shutdown()
	self.check_backups()


	def test_incremental_transaction(self):
	'''Test: Verify backups made from transactionally created bitmaps.

	Create a bitmap "before" VM execution begins, then create a second
	bitmap AFTER writes have already occurred. Use transactions to create
	a full backup and synchronize both bitmaps to this backup.
	Create an incremental backup through both bitmaps and verify that
	both backups match the current drive0 image.
	'''

	drive0 = self.drives[0]
	bitmap0 = self.add_bitmap('bitmap0', drive0)
	self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
	('0xfe', '16M', '256k'),
	('0x64', '32736k', '64k')))
	bitmap1 = self.add_bitmap('bitmap1', drive0)

	self.vm.cmd('transaction', actions=[
	transaction_bitmap_clear(bitmap0.drive['id'], bitmap0.name),
	transaction_bitmap_clear(bitmap1.drive['id'], bitmap1.name),
	transaction_drive_backup(drive0['id'], drive0['backup'],
	sync='full', format=drive0['fmt'])
	])
	self.wait_until_completed(drive0['id'])
	self.files.append(drive0['backup'])

	self.hmp_io_writes(drive0['id'], (('0x9a', 0, 512),
	('0x55', '8M', '352k'),
	('0x78', '15872k', '1M')))
	# Both bitmaps should be correctly in sync.
	self.create_incremental(bitmap0)
	self.create_incremental(bitmap1)
	self.vm.shutdown()
	self.check_backups()


	def do_transaction_failure_test(self, race=False):
	# Create a second drive, with pattern:
	drive1 = self.add_node('drive1')
	self.img_create(drive1['file'], drive1['fmt'])
	io_write_patterns(drive1['file'], (('0x14', 0, 512),
	('0x5d', '1M', '32k'),
	('0xcd', '32M', '124k')))

	# Create a blkdebug interface to this img as 'drive1'
	self.vm.cmd('blockdev-add',
	node_name=drive1['id'],
	driver=drive1['fmt'],
	file={
	'driver': 'blkdebug',
	'image': {
	'driver': 'file',
	'filename': drive1['file']
	},
	'set-state': [{
	'event': 'flush_to_disk',
	'state': 1,
	'new_state': 2
	}],
	'inject-error': [{
	'event': 'read_aio',
	'errno': 5,
	'state': 2,
	'immediately': False,
	'once': True
	}],
	}
	)

	# Create bitmaps and full backups for both drives
	drive0 = self.drives[0]
	dr0bm0 = self.add_bitmap('bitmap0', drive0)
	dr1bm0 = self.add_bitmap('bitmap0', drive1)
	self.create_anchor_backup(drive0)
	self.create_anchor_backup(drive1)
	self.assert_no_active_block_jobs()
	self.assertFalse(self.vm.get_qmp_events(wait=False))

	# Emulate some writes
	if not race:
	self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
	('0xfe', '16M', '256k'),
	('0x64', '32736k', '64k')))
	self.hmp_io_writes(drive1['id'], (('0xba', 0, 512),
	('0xef', '16M', '256k'),
	('0x46', '32736k', '64k')))

	# Create incremental backup targets
	target0 = self.prepare_backup(dr0bm0)
	target1 = self.prepare_backup(dr1bm0)

	# Ask for a new incremental backup per-each drive,
	# expecting drive1's backup to fail. In the 'race' test,
	# we expect drive1 to attempt to cancel the empty drive0 job.
	transaction = [
	transaction_drive_backup(drive0['id'], target0, sync='incremental',
	format=drive0['fmt'], mode='existing',
	bitmap=dr0bm0.name),
	transaction_drive_backup(drive1['id'], target1, sync='incremental',
	format=drive1['fmt'], mode='existing',
	bitmap=dr1bm0.name)
	]
	self.vm.cmd('transaction', actions=transaction,
	properties={'completion-mode': 'grouped'} )

	# Observe that drive0's backup is cancelled and drive1 completes with
	# an error.
	self.wait_qmp_backup_cancelled(drive0['id'])
	self.assertFalse(self.wait_qmp_backup(drive1['id']))
	error = self.vm.event_wait('BLOCK_JOB_ERROR')
	self.assert_qmp(error, 'data', {'device': drive1['id'],
	'action': 'report',
	'operation': 'read'})
	self.assertFalse(self.vm.get_qmp_events(wait=False))
	self.assert_no_active_block_jobs()

	# Delete drive0's successful target and eliminate our record of the
	# unsuccessful drive1 target.
	dr0bm0.del_target()
	dr1bm0.del_target()
	if race:
	# Don't re-run the transaction, we only wanted to test the race.
	self.vm.shutdown()
	return

	# Re-run the same transaction:
	target0 = self.prepare_backup(dr0bm0)
	target1 = self.prepare_backup(dr1bm0)

	# Re-run the exact same transaction.
	self.vm.cmd('transaction', actions=transaction,
	properties={'completion-mode':'grouped'})

	# Both should complete successfully this time.
	self.assertTrue(self.wait_qmp_backup(drive0['id']))
	self.assertTrue(self.wait_qmp_backup(drive1['id']))
	self.make_reference_backup(dr0bm0)
	self.make_reference_backup(dr1bm0)
	self.assertFalse(self.vm.get_qmp_events(wait=False))
	self.assert_no_active_block_jobs()

	# And the images should of course validate.
	self.vm.shutdown()
	self.check_backups()

	def test_transaction_failure(self):
	'''Test: Verify backups made from a transaction that partially fails.

	Add a second drive with its own unique pattern, and add a bitmap to each
	drive. Use blkdebug to interfere with the backup on just one drive and
	attempt to create a coherent incremental backup across both drives.

	verify a failure in one but not both, then delete the failed stubs and
	re-run the same transaction.

	verify that both incrementals are created successfully.
	'''
	self.do_transaction_failure_test()

	def test_transaction_failure_race(self):
	'''Test: Verify that transactions with jobs that have no data to
	transfer do not cause race conditions in the cancellation of the entire
	transaction job group.
	'''
	self.do_transaction_failure_test(race=True)


	def test_sync_dirty_bitmap_missing(self):
	self.assert_no_active_block_jobs()
	self.files.append(self.err_img)
	result = self.vm.qmp('drive-backup', device=self.drives[0]['id'],
	sync='incremental', format=self.drives[0]['fmt'],
	target=self.err_img)
	self.assert_qmp(result, 'error/class', 'GenericError')


	def test_sync_dirty_bitmap_not_found(self):
	self.assert_no_active_block_jobs()
	self.files.append(self.err_img)
	result = self.vm.qmp('drive-backup', device=self.drives[0]['id'],
	sync='incremental', bitmap='unknown',
	format=self.drives[0]['fmt'], target=self.err_img)
	self.assert_qmp(result, 'error/class', 'GenericError')


	def test_sync_dirty_bitmap_bad_granularity(self):
	'''
	Test: Test what happens if we provide an improper granularity.

	The granularity must always be a power of 2.
	'''
	self.assert_no_active_block_jobs()
	self.assertRaises(ExecuteError, self.add_bitmap,
	'bitmap0', self.drives[0],
	granularity=64000)

	def test_growing_before_backup(self):
	'''
	Test: Add a bitmap, truncate the image, write past the old
	end, do a backup.

	Incremental backup should not ignore dirty bits past the old
	image end.
	'''
	self.assert_no_active_block_jobs()

	self.create_anchor_backup()

	self.add_bitmap('bitmap0', self.drives[0])

	self.vm.cmd('block_resize', device=self.drives[0]['id'],
	size=(65 * 1048576))

	# Dirty the image past the old end
	self.vm.hmp_qemu_io(self.drives[0]['id'], 'write 64M 64k')

	target = self.prepare_backup(size='65M')
	self.create_incremental(target=target)

	self.vm.shutdown()
	self.check_backups()


	class TestIncrementalBackupBlkdebug(TestIncrementalBackupBase):
	'''Incremental backup tests that utilize a BlkDebug filter on drive0.'''

	def setUp(self):
	drive0 = self.add_node('drive0')
	self.img_create(drive0['file'], drive0['fmt'])
	self.write_default_pattern(drive0['file'])
	self.vm.launch()

	def test_incremental_failure(self):
	'''Test: Verify backups made after a failure are correct.

	Simulate a failure during an incremental backup block job,
	emulate additional writes, then create another incremental backup
	afterwards and verify that the backup created is correct.
	'''

	drive0 = self.drives[0]
	self.vm.cmd('blockdev-add',
	node_name=drive0['id'],
	driver=drive0['fmt'],
	file={
	'driver': 'blkdebug',
	'image': {
	'driver': 'file',
	'filename': drive0['file']
	},
	'set-state': [{
	'event': 'flush_to_disk',
	'state': 1,
	'new_state': 2
	}],
	'inject-error': [{
	'event': 'read_aio',
	'errno': 5,
	'state': 2,
	'immediately': False,
	'once': True
	}],
	}
	)

	self.create_anchor_backup(drive0)
	self.add_bitmap('bitmap0', drive0)
	# Note: at this point, during a normal execution,
	# Assume that the VM resumes and begins issuing IO requests here.

	self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
	('0xfe', '16M', '256k'),
	('0x64', '32736k', '64k')))

	result = self.create_incremental(validate=False)
	self.assertFalse(result)
	self.hmp_io_writes(drive0['id'], (('0x9a', 0, 512),
	('0x55', '8M', '352k'),
	('0x78', '15872k', '1M')))
	self.create_incremental()
	self.vm.shutdown()
	self.check_backups()

	def test_incremental_pause(self):
	"""
	Test an incremental backup that errors into a pause and is resumed.
	"""

	drive0 = self.drives[0]
	# NB: The blkdebug script here looks for a "flush, read" pattern.
	# The flush occurs in hmp_io_writes, and the read during the block job.
	self.vm.cmd('blockdev-add',
	node_name=drive0['id'],
	driver=drive0['fmt'],
	file={
	'driver': 'blkdebug',
	'image': {
	'driver': 'file',
	'filename': drive0['file']
	},
	'set-state': [{
	'event': 'flush_to_disk',
	'state': 1,
	'new_state': 2
	}],
	'inject-error': [{
	'event': 'read_aio',
	'errno': 5,
	'state': 2,
	'immediately': False,
	'once': True
	}],
	})
	self.create_anchor_backup(drive0)
	bitmap = self.add_bitmap('bitmap0', drive0)

	# Emulate guest activity
	self.hmp_io_writes(drive0['id'], (('0xab', 0, 512),
	('0xfe', '16M', '256k'),
	('0x64', '32736k', '64k')))

	# Bitmap Status Check
	self.assertTrue(self.vm.check_bitmap_status(
	drive0['id'], bitmap.name, {
	'count': 458752,
	'granularity': 65536,
	'busy': False,
	'recording': True
	}))

	# Start backup
	parent, _ = bitmap.last_target()
	target = self.prepare_backup(bitmap, parent)
	self.vm.cmd('drive-backup',
	job_id=bitmap.drive['id'],
	device=bitmap.drive['id'],
	sync='incremental',
	bitmap=bitmap.name,
	format=bitmap.drive['fmt'],
	target=target,
	mode='existing',
	on_source_error='stop')

	# Wait for the error
	event = self.vm.event_wait(name="BLOCK_JOB_ERROR",
	match={"data":{"device":bitmap.drive['id']}})
	self.assert_qmp(event, 'data', {'device': bitmap.drive['id'],
	'action': 'stop',
	'operation': 'read'})

	# Bitmap Status Check
	self.assertTrue(self.vm.check_bitmap_status(
	drive0['id'], bitmap.name, {
	'count': 458752,
	'granularity': 65536,
	'busy': True,
	'recording': True
	}))

	# Resume and check incremental backup for consistency
	self.vm.cmd('block-job-resume', device=bitmap.drive['id'])
	self.wait_qmp_backup(bitmap.drive['id'])

	# Bitmap Status Check
	self.assertTrue(self.vm.check_bitmap_status(
	drive0['id'], bitmap.name, {
	'count': 0,
	'granularity': 65536,
	'busy': False,
	'recording': True
	}))

	# Finalize / Cleanup
	self.make_reference_backup(bitmap)
	self.vm.shutdown()
	self.check_backups()


	if __name__ == '__main__':
	iotests.main(supported_fmts=['qcow2'],
	supported_protocols=['file'])