tests/qemu-iotests/151 - third_party/qemu - Git at Google

 #!/usr/bin/env python3
 # group: rw
 #
 # Tests for active mirroring
 #
 # Copyright (C) 2018 Red Hat, Inc.
 #
 # 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 math
 import os
 import subprocess
 import time
 from typing import List, Optional
 import iotests
 from iotests import qemu_img

 source_img = os.path.join(iotests.test_dir, 'source.' + iotests.imgfmt)
 target_img = os.path.join(iotests.test_dir, 'target.' + iotests.imgfmt)

 class TestActiveMirror(iotests.QMPTestCase):
     image_len = 128 * 1024 * 1024 # MB
     potential_writes_in_flight = True

     def setUp(self):
         qemu_img('create', '-f', iotests.imgfmt, source_img, '128M')
         qemu_img('create', '-f', iotests.imgfmt, target_img, '128M')

         blk_source = {'id': 'source',
                       'if': 'none',
                       'node-name': 'source-node',
                       'driver': iotests.imgfmt,
                       'file': {'driver': 'blkdebug',
                                'image': {'driver': 'file',
                                          'filename': source_img}}}

         blk_target = {'node-name': 'target-node',
                       'driver': iotests.imgfmt,
                       'file': {'driver': 'file',
                                'filename': target_img}}

         self.vm = iotests.VM()
         self.vm.add_drive_raw(self.vm.qmp_to_opts(blk_source))
         self.vm.add_blockdev(self.vm.qmp_to_opts(blk_target))
         self.vm.add_device('virtio-blk,id=vblk,drive=source')
         self.vm.launch()

     def tearDown(self):
         self.vm.shutdown()

         if not self.potential_writes_in_flight:
             self.assertTrue(iotests.compare_images(source_img, target_img),
                             'mirror target does not match source')

         os.remove(source_img)
         os.remove(target_img)

     def doActiveIO(self, sync_source_and_target):
         # Fill the source image
         self.vm.hmp_qemu_io('source',
                             'write -P 1 0 %i' % self.image_len);

         # Start some background requests
         for offset in range(1 * self.image_len // 8, 3 * self.image_len // 8, 1024 * 1024):
             self.vm.hmp_qemu_io('source', 'aio_write -P 2 %i 1M' % offset)
         for offset in range(2 * self.image_len // 8, 3 * self.image_len // 8, 1024 * 1024):
             self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)

         # Start the block job
         self.vm.cmd('blockdev-mirror',
                     job_id='mirror',
                     filter_node_name='mirror-node',
                     device='source-node',
                     target='target-node',
                     sync='full',
                     copy_mode='write-blocking')

         # Start some more requests
         for offset in range(3 * self.image_len // 8, 5 * self.image_len // 8, 1024 * 1024):
             self.vm.hmp_qemu_io('source', 'aio_write -P 3 %i 1M' % offset)
         for offset in range(4 * self.image_len // 8, 5 * self.image_len // 8, 1024 * 1024):
             self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)

         # Wait for the READY event
         self.wait_ready(drive='mirror')

         # Now start some final requests; all of these (which land on
         # the source) should be settled using the active mechanism.
         # The mirror code itself asserts that the source BDS's dirty
         # bitmap will stay clean between READY and COMPLETED.
         for offset in range(5 * self.image_len // 8, 7 * self.image_len // 8, 1024 * 1024):
             self.vm.hmp_qemu_io('source', 'aio_write -P 3 %i 1M' % offset)
         for offset in range(6 * self.image_len // 8, 7 * self.image_len // 8, 1024 * 1024):
             self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)

         if sync_source_and_target:
             # If source and target should be in sync after the mirror,
             # we have to flush before completion
             self.vm.hmp_qemu_io('source', 'aio_flush')
             self.potential_writes_in_flight = False

         self.complete_and_wait(drive='mirror', wait_ready=False)

     def testActiveIO(self):
         self.doActiveIO(False)

     def testActiveIOFlushed(self):
         self.doActiveIO(True)

     def testUnalignedActiveIO(self):
         # Fill the source image
         result = self.vm.hmp_qemu_io('source', 'write -P 1 0 2M')

         # Start the block job (very slowly)
         self.vm.cmd('blockdev-mirror',
                     job_id='mirror',
                     filter_node_name='mirror-node',
                     device='source-node',
                     target='target-node',
                     sync='full',
                     copy_mode='write-blocking',
                     buf_size=(1048576 // 4),
                     speed=1)

         # Start an unaligned request to a dirty area
         result = self.vm.hmp_qemu_io('source', 'write -P 2 %i 1' % (1048576 + 42))

         # Let the job finish
         self.vm.cmd('block-job-set-speed', device='mirror', speed=0)
         self.complete_and_wait(drive='mirror')

         self.potential_writes_in_flight = False

     def testIntersectingActiveIO(self):
         # Fill the source image
         result = self.vm.hmp_qemu_io('source', 'write -P 1 0 2M')

         # Start the block job (very slowly)
         self.vm.cmd('blockdev-mirror',
                     job_id='mirror',
                     filter_node_name='mirror-node',
                     device='source-node',
                     target='target-node',
                     sync='full',
                     copy_mode='write-blocking',
                     speed=1)

         self.vm.hmp_qemu_io('source', 'break write_aio A')
         self.vm.hmp_qemu_io('source', 'aio_write 0 1M')  # 1
         self.vm.hmp_qemu_io('source', 'wait_break A')
         self.vm.hmp_qemu_io('source', 'aio_write 0 2M')  # 2
         self.vm.hmp_qemu_io('source', 'aio_write 0 2M')  # 3

         # Now 2 and 3 are in mirror_wait_on_conflicts, waiting for 1

         self.vm.hmp_qemu_io('source', 'break write_aio B')
         self.vm.hmp_qemu_io('source', 'aio_write 1M 2M')  # 4
         self.vm.hmp_qemu_io('source', 'wait_break B')

         # 4 doesn't wait for 2 and 3, because they didn't yet set
         # in_flight_bitmap. So, nothing prevents 4 to go except for our
         # break-point B.

         self.vm.hmp_qemu_io('source', 'resume A')

         # Now we resumed 1, so 2 and 3 goes to the next iteration of while loop
         # in mirror_wait_on_conflicts(). They don't exit, as bitmap is dirty
         # due to request 4.
         # In the past at that point 2 and 3 would wait for each other producing
         # a dead-lock. Now this is fixed and they will wait for request 4.

         self.vm.hmp_qemu_io('source', 'resume B')

         # After resuming 4, one of 2 and 3 goes first and set in_flight_bitmap,
         # so the other will wait for it.

         self.vm.cmd('block-job-set-speed', device='mirror', speed=0)
         self.complete_and_wait(drive='mirror')

         self.potential_writes_in_flight = False


 class TestThrottledWithNbdExportBase(iotests.QMPTestCase):
     image_len = 128 * 1024 * 1024  # MB
     iops: Optional[int] = None
     background_processes: List['subprocess.Popen[str]'] = []

     def setUp(self):
         # Must be set by subclasses
         self.assertIsNotNone(self.iops)

         qemu_img('create', '-f', iotests.imgfmt, source_img, '128M')
         qemu_img('create', '-f', iotests.imgfmt, target_img, '128M')

         self.vm = iotests.VM()
         self.vm.launch()

         self.vm.cmd('object-add', **{
             'qom-type': 'throttle-group',
             'id': 'thrgr',
             'limits': {
                 'iops-total': self.iops,
                 'iops-total-max': self.iops
             }
         })

         self.vm.cmd('blockdev-add', **{
             'node-name': 'source-node',
             'driver': 'throttle',
             'throttle-group': 'thrgr',
             'file': {
                 'driver': iotests.imgfmt,
                 'file': {
                     'driver': 'file',
                     'filename': source_img
                 }
             }
         })

         self.vm.cmd('blockdev-add', **{
             'node-name': 'target-node',
             'driver': iotests.imgfmt,
             'file': {
                 'driver': 'file',
                 'filename': target_img
             }
         })

         self.nbd_sock = iotests.file_path('nbd.sock',
                                           base_dir=iotests.sock_dir)
         self.nbd_url = f'nbd+unix:///source-node?socket={self.nbd_sock}'

         self.vm.cmd('nbd-server-start', addr={
             'type': 'unix',
             'data': {
                 'path': self.nbd_sock
             }
         })

         self.vm.cmd('block-export-add', id='exp0', type='nbd',
                     node_name='source-node', writable=True)

     def tearDown(self):
         # Wait for background requests to settle
         try:
             while True:
                 p = self.background_processes.pop()
                 while True:
                     try:
                         p.wait(timeout=0.0)
                         break
                     except subprocess.TimeoutExpired:
                         self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
         except IndexError:
             pass

         # Cancel ongoing block jobs
         for job in self.vm.qmp('query-jobs')['return']:
             self.vm.qmp('block-job-cancel', device=job['id'], force=True)

         while True:
             self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
             if len(self.vm.qmp('query-jobs')['return']) == 0:
                 break

         self.vm.shutdown()
         os.remove(source_img)
         os.remove(target_img)


 class TestLowThrottledWithNbdExport(TestThrottledWithNbdExportBase):
     iops = 16

     def testUnderLoad(self):
         '''
         Throttle the source node, then issue a whole bunch of external requests
         while the mirror job (in write-blocking mode) is running.  We want to
         see background requests being issued even while the source is under
         full load by active writes, so that progress can be made towards READY.
         '''

         # Fill the first half of the source image; do not fill the second half,
         # that is where we will have active requests occur.  This ensures that
         # active mirroring itself will not directly contribute to the job's
         # progress (because when the job was started, those areas were not
         # intended to be copied, so active mirroring will only lead to not
         # losing progress, but also not making any).
         self.vm.hmp_qemu_io('source-node',
                             f'aio_write -P 1 0 {self.image_len // 2}')
         self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')

         # Launch the mirror job
         mirror_buf_size = 65536
         self.vm.cmd('blockdev-mirror',
                     job_id='mirror',
                     filter_node_name='mirror-node',
                     device='source-node',
                     target='target-node',
                     sync='full',
                     copy_mode='write-blocking',
                     buf_size=mirror_buf_size)

         # We create the external requests via qemu-io processes on the NBD
         # server.  Have their offset start in the middle of the image so they
         # do not overlap with the background requests (which start from the
         # beginning).
         active_request_offset = self.image_len // 2
         active_request_len = 4096

         # Create enough requests to saturate the node for 5 seconds
         for _ in range(0, 5 * self.iops):
             req = f'write -P 42 {active_request_offset} {active_request_len}'
             active_request_offset += active_request_len
             p = iotests.qemu_io_popen('-f', 'nbd', self.nbd_url, '-c', req)
             self.background_processes += [p]

         # Now advance the clock one I/O operation at a time by the 4 seconds
         # (i.e. one less than 5).  We expect the mirror job to issue background
         # operations here, even though active requests are still in flight.
         # The active requests will take precedence, however, because they have
         # been issued earlier than mirror's background requests.
         # Once the active requests we have started above are done (i.e. after 5
         # virtual seconds), we expect those background requests to be worked
         # on.  We only advance 4 seconds here to avoid race conditions.
         for _ in range(0, 4 * self.iops):
             step = math.ceil(1 * 1000 * 1000 * 1000 / self.iops)
             self.vm.qtest(f'clock_step {step}')

         # Note how much remains to be done until the mirror job is finished
         job_status = self.vm.qmp('query-jobs')['return'][0]
         start_remaining = job_status['total-progress'] - \
             job_status['current-progress']

         # Create a whole bunch of more active requests
         for _ in range(0, 10 * self.iops):
             req = f'write -P 42 {active_request_offset} {active_request_len}'
             active_request_offset += active_request_len
             p = iotests.qemu_io_popen('-f', 'nbd', self.nbd_url, '-c', req)
             self.background_processes += [p]

         # Let the clock advance more.  After 1 second, as noted above, we
         # expect the background requests to be worked on.  Give them a couple
         # of seconds (specifically 4) to see their impact.
         for _ in range(0, 5 * self.iops):
             step = math.ceil(1 * 1000 * 1000 * 1000 / self.iops)
             self.vm.qtest(f'clock_step {step}')

         # Note how much remains to be done now.  We expect this number to be
         # reduced thanks to those background requests.
         job_status = self.vm.qmp('query-jobs')['return'][0]
         end_remaining = job_status['total-progress'] - \
             job_status['current-progress']

         # See that indeed progress was being made on the job, even while the
         # node was saturated with active requests
         self.assertGreater(start_remaining - end_remaining, 0)


 class TestHighThrottledWithNbdExport(TestThrottledWithNbdExportBase):
     iops = 1024

     def testActiveOnCreation(self):
         '''
         Issue requests on the mirror source node right as the mirror is
         instated.  It's possible that requests occur before the actual job is
         created, but after the node has been put into the graph.  Write
         requests across the node must in that case be forwarded to the source
         node without attempting to mirror them (there is no job object yet, so
         attempting to access it would cause a segfault).
         We do this with a lightly throttled node (i.e. quite high IOPS limit).
         Using throttling seems to increase reproductivity, but if the limit is
         too low, all requests allowed per second will be submitted before
         mirror_start_job() gets to the problematic point.
         '''

         # Let qemu-img bench create write requests (enough for two seconds on
         # the virtual clock)
         bench_args = ['bench', '-w', '-d', '1024', '-f', 'nbd',
                       '-c', str(self.iops * 2), self.nbd_url]
         p = iotests.qemu_tool_popen(iotests.qemu_img_args + bench_args)
         self.background_processes += [p]

         # Give qemu-img bench time to start up and issue requests
         time.sleep(1.0)
         # Flush the request queue, so new requests can come in right as we
         # start blockdev-mirror
         self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')

         self.vm.cmd('blockdev-mirror',
                     job_id='mirror',
                     device='source-node',
                     target='target-node',
                     sync='full',
                     copy_mode='write-blocking')


 if __name__ == '__main__':
     iotests.main(supported_fmts=['qcow2', 'raw'],
                  supported_protocols=['file'])
	#!/usr/bin/env python3
	# group: rw
	#
	# Tests for active mirroring
	#
	# Copyright (C) 2018 Red Hat, Inc.
	#
	# 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 math
	import os
	import subprocess
	import time
	from typing import List, Optional
	import iotests
	from iotests import qemu_img

	source_img = os.path.join(iotests.test_dir, 'source.' + iotests.imgfmt)
	target_img = os.path.join(iotests.test_dir, 'target.' + iotests.imgfmt)

	class TestActiveMirror(iotests.QMPTestCase):
	image_len = 128 * 1024 * 1024 # MB
	potential_writes_in_flight = True

	def setUp(self):
	qemu_img('create', '-f', iotests.imgfmt, source_img, '128M')
	qemu_img('create', '-f', iotests.imgfmt, target_img, '128M')

	blk_source = {'id': 'source',
	'if': 'none',
	'node-name': 'source-node',
	'driver': iotests.imgfmt,
	'file': {'driver': 'blkdebug',
	'image': {'driver': 'file',
	'filename': source_img}}}

	blk_target = {'node-name': 'target-node',
	'driver': iotests.imgfmt,
	'file': {'driver': 'file',
	'filename': target_img}}

	self.vm = iotests.VM()
	self.vm.add_drive_raw(self.vm.qmp_to_opts(blk_source))
	self.vm.add_blockdev(self.vm.qmp_to_opts(blk_target))
	self.vm.add_device('virtio-blk,id=vblk,drive=source')
	self.vm.launch()

	def tearDown(self):
	self.vm.shutdown()

	if not self.potential_writes_in_flight:
	self.assertTrue(iotests.compare_images(source_img, target_img),
	'mirror target does not match source')

	os.remove(source_img)
	os.remove(target_img)

	def doActiveIO(self, sync_source_and_target):
	# Fill the source image
	self.vm.hmp_qemu_io('source',
	'write -P 1 0 %i' % self.image_len);

	# Start some background requests
	for offset in range(1 * self.image_len // 8, 3 * self.image_len // 8, 1024 * 1024):
	self.vm.hmp_qemu_io('source', 'aio_write -P 2 %i 1M' % offset)
	for offset in range(2 * self.image_len // 8, 3 * self.image_len // 8, 1024 * 1024):
	self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)

	# Start the block job
	self.vm.cmd('blockdev-mirror',
	job_id='mirror',
	filter_node_name='mirror-node',
	device='source-node',
	target='target-node',
	sync='full',
	copy_mode='write-blocking')

	# Start some more requests
	for offset in range(3 * self.image_len // 8, 5 * self.image_len // 8, 1024 * 1024):
	self.vm.hmp_qemu_io('source', 'aio_write -P 3 %i 1M' % offset)
	for offset in range(4 * self.image_len // 8, 5 * self.image_len // 8, 1024 * 1024):
	self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)

	# Wait for the READY event
	self.wait_ready(drive='mirror')

	# Now start some final requests; all of these (which land on
	# the source) should be settled using the active mechanism.
	# The mirror code itself asserts that the source BDS's dirty
	# bitmap will stay clean between READY and COMPLETED.
	for offset in range(5 * self.image_len // 8, 7 * self.image_len // 8, 1024 * 1024):
	self.vm.hmp_qemu_io('source', 'aio_write -P 3 %i 1M' % offset)
	for offset in range(6 * self.image_len // 8, 7 * self.image_len // 8, 1024 * 1024):
	self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)

	if sync_source_and_target:
	# If source and target should be in sync after the mirror,
	# we have to flush before completion
	self.vm.hmp_qemu_io('source', 'aio_flush')
	self.potential_writes_in_flight = False

	self.complete_and_wait(drive='mirror', wait_ready=False)

	def testActiveIO(self):
	self.doActiveIO(False)

	def testActiveIOFlushed(self):
	self.doActiveIO(True)

	def testUnalignedActiveIO(self):
	# Fill the source image
	result = self.vm.hmp_qemu_io('source', 'write -P 1 0 2M')

	# Start the block job (very slowly)
	self.vm.cmd('blockdev-mirror',
	job_id='mirror',
	filter_node_name='mirror-node',
	device='source-node',
	target='target-node',
	sync='full',
	copy_mode='write-blocking',
	buf_size=(1048576 // 4),
	speed=1)

	# Start an unaligned request to a dirty area
	result = self.vm.hmp_qemu_io('source', 'write -P 2 %i 1' % (1048576 + 42))

	# Let the job finish
	self.vm.cmd('block-job-set-speed', device='mirror', speed=0)
	self.complete_and_wait(drive='mirror')

	self.potential_writes_in_flight = False

	def testIntersectingActiveIO(self):
	# Fill the source image
	result = self.vm.hmp_qemu_io('source', 'write -P 1 0 2M')

	# Start the block job (very slowly)
	self.vm.cmd('blockdev-mirror',
	job_id='mirror',
	filter_node_name='mirror-node',
	device='source-node',
	target='target-node',
	sync='full',
	copy_mode='write-blocking',
	speed=1)

	self.vm.hmp_qemu_io('source', 'break write_aio A')
	self.vm.hmp_qemu_io('source', 'aio_write 0 1M') # 1
	self.vm.hmp_qemu_io('source', 'wait_break A')
	self.vm.hmp_qemu_io('source', 'aio_write 0 2M') # 2
	self.vm.hmp_qemu_io('source', 'aio_write 0 2M') # 3

	# Now 2 and 3 are in mirror_wait_on_conflicts, waiting for 1

	self.vm.hmp_qemu_io('source', 'break write_aio B')
	self.vm.hmp_qemu_io('source', 'aio_write 1M 2M') # 4
	self.vm.hmp_qemu_io('source', 'wait_break B')

	# 4 doesn't wait for 2 and 3, because they didn't yet set
	# in_flight_bitmap. So, nothing prevents 4 to go except for our
	# break-point B.

	self.vm.hmp_qemu_io('source', 'resume A')

	# Now we resumed 1, so 2 and 3 goes to the next iteration of while loop
	# in mirror_wait_on_conflicts(). They don't exit, as bitmap is dirty
	# due to request 4.
	# In the past at that point 2 and 3 would wait for each other producing
	# a dead-lock. Now this is fixed and they will wait for request 4.

	self.vm.hmp_qemu_io('source', 'resume B')

	# After resuming 4, one of 2 and 3 goes first and set in_flight_bitmap,
	# so the other will wait for it.

	self.vm.cmd('block-job-set-speed', device='mirror', speed=0)
	self.complete_and_wait(drive='mirror')

	self.potential_writes_in_flight = False


	class TestThrottledWithNbdExportBase(iotests.QMPTestCase):
	image_len = 128 * 1024 * 1024 # MB
	iops: Optional[int] = None
	background_processes: List['subprocess.Popen[str]'] = []

	def setUp(self):
	# Must be set by subclasses
	self.assertIsNotNone(self.iops)

	qemu_img('create', '-f', iotests.imgfmt, source_img, '128M')
	qemu_img('create', '-f', iotests.imgfmt, target_img, '128M')

	self.vm = iotests.VM()
	self.vm.launch()

	self.vm.cmd('object-add', **{
	'qom-type': 'throttle-group',
	'id': 'thrgr',
	'limits': {
	'iops-total': self.iops,
	'iops-total-max': self.iops
	}
	})

	self.vm.cmd('blockdev-add', **{
	'node-name': 'source-node',
	'driver': 'throttle',
	'throttle-group': 'thrgr',
	'file': {
	'driver': iotests.imgfmt,
	'file': {
	'driver': 'file',
	'filename': source_img
	}
	}
	})

	self.vm.cmd('blockdev-add', **{
	'node-name': 'target-node',
	'driver': iotests.imgfmt,
	'file': {
	'driver': 'file',
	'filename': target_img
	}
	})

	self.nbd_sock = iotests.file_path('nbd.sock',
	base_dir=iotests.sock_dir)
	self.nbd_url = f'nbd+unix:///source-node?socket={self.nbd_sock}'

	self.vm.cmd('nbd-server-start', addr={
	'type': 'unix',
	'data': {
	'path': self.nbd_sock
	}
	})

	self.vm.cmd('block-export-add', id='exp0', type='nbd',
	node_name='source-node', writable=True)

	def tearDown(self):
	# Wait for background requests to settle
	try:
	while True:
	p = self.background_processes.pop()
	while True:
	try:
	p.wait(timeout=0.0)
	break
	except subprocess.TimeoutExpired:
	self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
	except IndexError:
	pass

	# Cancel ongoing block jobs
	for job in self.vm.qmp('query-jobs')['return']:
	self.vm.qmp('block-job-cancel', device=job['id'], force=True)

	while True:
	self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
	if len(self.vm.qmp('query-jobs')['return']) == 0:
	break

	self.vm.shutdown()
	os.remove(source_img)
	os.remove(target_img)


	class TestLowThrottledWithNbdExport(TestThrottledWithNbdExportBase):
	iops = 16

	def testUnderLoad(self):
	'''
	Throttle the source node, then issue a whole bunch of external requests
	while the mirror job (in write-blocking mode) is running. We want to
	see background requests being issued even while the source is under
	full load by active writes, so that progress can be made towards READY.
	'''

	# Fill the first half of the source image; do not fill the second half,
	# that is where we will have active requests occur. This ensures that
	# active mirroring itself will not directly contribute to the job's
	# progress (because when the job was started, those areas were not
	# intended to be copied, so active mirroring will only lead to not
	# losing progress, but also not making any).
	self.vm.hmp_qemu_io('source-node',
	f'aio_write -P 1 0 {self.image_len // 2}')
	self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')

	# Launch the mirror job
	mirror_buf_size = 65536
	self.vm.cmd('blockdev-mirror',
	job_id='mirror',
	filter_node_name='mirror-node',
	device='source-node',
	target='target-node',
	sync='full',
	copy_mode='write-blocking',
	buf_size=mirror_buf_size)

	# We create the external requests via qemu-io processes on the NBD
	# server. Have their offset start in the middle of the image so they
	# do not overlap with the background requests (which start from the
	# beginning).
	active_request_offset = self.image_len // 2
	active_request_len = 4096

	# Create enough requests to saturate the node for 5 seconds
	for _ in range(0, 5 * self.iops):
	req = f'write -P 42 {active_request_offset} {active_request_len}'
	active_request_offset += active_request_len
	p = iotests.qemu_io_popen('-f', 'nbd', self.nbd_url, '-c', req)
	self.background_processes += [p]

	# Now advance the clock one I/O operation at a time by the 4 seconds
	# (i.e. one less than 5). We expect the mirror job to issue background
	# operations here, even though active requests are still in flight.
	# The active requests will take precedence, however, because they have
	# been issued earlier than mirror's background requests.
	# Once the active requests we have started above are done (i.e. after 5
	# virtual seconds), we expect those background requests to be worked
	# on. We only advance 4 seconds here to avoid race conditions.
	for _ in range(0, 4 * self.iops):
	step = math.ceil(1 * 1000 * 1000 * 1000 / self.iops)
	self.vm.qtest(f'clock_step {step}')

	# Note how much remains to be done until the mirror job is finished
	job_status = self.vm.qmp('query-jobs')['return'][0]
	start_remaining = job_status['total-progress'] - \
	job_status['current-progress']

	# Create a whole bunch of more active requests
	for _ in range(0, 10 * self.iops):
	req = f'write -P 42 {active_request_offset} {active_request_len}'
	active_request_offset += active_request_len
	p = iotests.qemu_io_popen('-f', 'nbd', self.nbd_url, '-c', req)
	self.background_processes += [p]

	# Let the clock advance more. After 1 second, as noted above, we
	# expect the background requests to be worked on. Give them a couple
	# of seconds (specifically 4) to see their impact.
	for _ in range(0, 5 * self.iops):
	step = math.ceil(1 * 1000 * 1000 * 1000 / self.iops)
	self.vm.qtest(f'clock_step {step}')

	# Note how much remains to be done now. We expect this number to be
	# reduced thanks to those background requests.
	job_status = self.vm.qmp('query-jobs')['return'][0]
	end_remaining = job_status['total-progress'] - \
	job_status['current-progress']

	# See that indeed progress was being made on the job, even while the
	# node was saturated with active requests
	self.assertGreater(start_remaining - end_remaining, 0)


	class TestHighThrottledWithNbdExport(TestThrottledWithNbdExportBase):
	iops = 1024

	def testActiveOnCreation(self):
	'''
	Issue requests on the mirror source node right as the mirror is
	instated. It's possible that requests occur before the actual job is
	created, but after the node has been put into the graph. Write
	requests across the node must in that case be forwarded to the source
	node without attempting to mirror them (there is no job object yet, so
	attempting to access it would cause a segfault).
	We do this with a lightly throttled node (i.e. quite high IOPS limit).
	Using throttling seems to increase reproductivity, but if the limit is
	too low, all requests allowed per second will be submitted before
	mirror_start_job() gets to the problematic point.
	'''

	# Let qemu-img bench create write requests (enough for two seconds on
	# the virtual clock)
	bench_args = ['bench', '-w', '-d', '1024', '-f', 'nbd',
	'-c', str(self.iops * 2), self.nbd_url]
	p = iotests.qemu_tool_popen(iotests.qemu_img_args + bench_args)
	self.background_processes += [p]

	# Give qemu-img bench time to start up and issue requests
	time.sleep(1.0)
	# Flush the request queue, so new requests can come in right as we
	# start blockdev-mirror
	self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')

	self.vm.cmd('blockdev-mirror',
	job_id='mirror',
	device='source-node',
	target='target-node',
	sync='full',
	copy_mode='write-blocking')


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