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423 lines
17 KiB
Python
423 lines
17 KiB
Python
#!/usr/bin/env python3
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# group: rw
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#
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# Tests for active mirroring
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#
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# Copyright (C) 2018 Red Hat, Inc.
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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#
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import math
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import os
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import subprocess
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import time
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from typing import List, Optional
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import iotests
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from iotests import qemu_img
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source_img = os.path.join(iotests.test_dir, 'source.' + iotests.imgfmt)
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target_img = os.path.join(iotests.test_dir, 'target.' + iotests.imgfmt)
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class TestActiveMirror(iotests.QMPTestCase):
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image_len = 128 * 1024 * 1024 # MB
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potential_writes_in_flight = True
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def setUp(self):
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qemu_img('create', '-f', iotests.imgfmt, source_img, '128M')
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qemu_img('create', '-f', iotests.imgfmt, target_img, '128M')
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blk_source = {'id': 'source',
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'if': 'none',
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'node-name': 'source-node',
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'driver': iotests.imgfmt,
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'file': {'driver': 'blkdebug',
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'image': {'driver': 'file',
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'filename': source_img}}}
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blk_target = {'node-name': 'target-node',
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'driver': iotests.imgfmt,
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'file': {'driver': 'file',
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'filename': target_img}}
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self.vm = iotests.VM()
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self.vm.add_drive_raw(self.vm.qmp_to_opts(blk_source))
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self.vm.add_blockdev(self.vm.qmp_to_opts(blk_target))
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self.vm.add_device('virtio-blk,id=vblk,drive=source')
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self.vm.launch()
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def tearDown(self):
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self.vm.shutdown()
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if not self.potential_writes_in_flight:
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self.assertTrue(iotests.compare_images(source_img, target_img),
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'mirror target does not match source')
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os.remove(source_img)
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os.remove(target_img)
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def doActiveIO(self, sync_source_and_target):
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# Fill the source image
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self.vm.hmp_qemu_io('source',
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'write -P 1 0 %i' % self.image_len);
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# Start some background requests
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for offset in range(1 * self.image_len // 8, 3 * self.image_len // 8, 1024 * 1024):
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self.vm.hmp_qemu_io('source', 'aio_write -P 2 %i 1M' % offset)
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for offset in range(2 * self.image_len // 8, 3 * self.image_len // 8, 1024 * 1024):
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self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)
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# Start the block job
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result = self.vm.qmp('blockdev-mirror',
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job_id='mirror',
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filter_node_name='mirror-node',
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device='source-node',
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target='target-node',
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sync='full',
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copy_mode='write-blocking')
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self.assert_qmp(result, 'return', {})
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# Start some more requests
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for offset in range(3 * self.image_len // 8, 5 * self.image_len // 8, 1024 * 1024):
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self.vm.hmp_qemu_io('source', 'aio_write -P 3 %i 1M' % offset)
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for offset in range(4 * self.image_len // 8, 5 * self.image_len // 8, 1024 * 1024):
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self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)
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# Wait for the READY event
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self.wait_ready(drive='mirror')
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# Now start some final requests; all of these (which land on
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# the source) should be settled using the active mechanism.
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# The mirror code itself asserts that the source BDS's dirty
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# bitmap will stay clean between READY and COMPLETED.
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for offset in range(5 * self.image_len // 8, 7 * self.image_len // 8, 1024 * 1024):
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self.vm.hmp_qemu_io('source', 'aio_write -P 3 %i 1M' % offset)
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for offset in range(6 * self.image_len // 8, 7 * self.image_len // 8, 1024 * 1024):
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self.vm.hmp_qemu_io('source', 'aio_write -z %i 1M' % offset)
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if sync_source_and_target:
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# If source and target should be in sync after the mirror,
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# we have to flush before completion
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self.vm.hmp_qemu_io('source', 'aio_flush')
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self.potential_writes_in_flight = False
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self.complete_and_wait(drive='mirror', wait_ready=False)
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def testActiveIO(self):
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self.doActiveIO(False)
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def testActiveIOFlushed(self):
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self.doActiveIO(True)
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def testUnalignedActiveIO(self):
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# Fill the source image
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result = self.vm.hmp_qemu_io('source', 'write -P 1 0 2M')
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# Start the block job (very slowly)
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result = self.vm.qmp('blockdev-mirror',
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job_id='mirror',
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filter_node_name='mirror-node',
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device='source-node',
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target='target-node',
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sync='full',
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copy_mode='write-blocking',
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buf_size=(1048576 // 4),
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speed=1)
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self.assert_qmp(result, 'return', {})
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# Start an unaligned request to a dirty area
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result = self.vm.hmp_qemu_io('source', 'write -P 2 %i 1' % (1048576 + 42))
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# Let the job finish
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result = self.vm.qmp('block-job-set-speed', device='mirror', speed=0)
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self.assert_qmp(result, 'return', {})
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self.complete_and_wait(drive='mirror')
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self.potential_writes_in_flight = False
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def testIntersectingActiveIO(self):
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# Fill the source image
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result = self.vm.hmp_qemu_io('source', 'write -P 1 0 2M')
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# Start the block job (very slowly)
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result = self.vm.qmp('blockdev-mirror',
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job_id='mirror',
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filter_node_name='mirror-node',
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device='source-node',
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target='target-node',
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sync='full',
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copy_mode='write-blocking',
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speed=1)
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self.vm.hmp_qemu_io('source', 'break write_aio A')
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self.vm.hmp_qemu_io('source', 'aio_write 0 1M') # 1
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self.vm.hmp_qemu_io('source', 'wait_break A')
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self.vm.hmp_qemu_io('source', 'aio_write 0 2M') # 2
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self.vm.hmp_qemu_io('source', 'aio_write 0 2M') # 3
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# Now 2 and 3 are in mirror_wait_on_conflicts, waiting for 1
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self.vm.hmp_qemu_io('source', 'break write_aio B')
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self.vm.hmp_qemu_io('source', 'aio_write 1M 2M') # 4
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self.vm.hmp_qemu_io('source', 'wait_break B')
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# 4 doesn't wait for 2 and 3, because they didn't yet set
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# in_flight_bitmap. So, nothing prevents 4 to go except for our
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# break-point B.
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self.vm.hmp_qemu_io('source', 'resume A')
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# Now we resumed 1, so 2 and 3 goes to the next iteration of while loop
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# in mirror_wait_on_conflicts(). They don't exit, as bitmap is dirty
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# due to request 4.
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# In the past at that point 2 and 3 would wait for each other producing
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# a dead-lock. Now this is fixed and they will wait for request 4.
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self.vm.hmp_qemu_io('source', 'resume B')
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# After resuming 4, one of 2 and 3 goes first and set in_flight_bitmap,
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# so the other will wait for it.
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result = self.vm.qmp('block-job-set-speed', device='mirror', speed=0)
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self.assert_qmp(result, 'return', {})
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self.complete_and_wait(drive='mirror')
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self.potential_writes_in_flight = False
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class TestThrottledWithNbdExportBase(iotests.QMPTestCase):
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image_len = 128 * 1024 * 1024 # MB
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iops: Optional[int] = None
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background_processes: List['subprocess.Popen[str]'] = []
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def setUp(self):
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# Must be set by subclasses
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self.assertIsNotNone(self.iops)
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qemu_img('create', '-f', iotests.imgfmt, source_img, '128M')
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qemu_img('create', '-f', iotests.imgfmt, target_img, '128M')
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self.vm = iotests.VM()
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self.vm.launch()
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result = self.vm.qmp('object-add', **{
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'qom-type': 'throttle-group',
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'id': 'thrgr',
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'limits': {
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'iops-total': self.iops,
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'iops-total-max': self.iops
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}
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})
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self.assert_qmp(result, 'return', {})
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result = self.vm.qmp('blockdev-add', **{
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'node-name': 'source-node',
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'driver': 'throttle',
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'throttle-group': 'thrgr',
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'file': {
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'driver': iotests.imgfmt,
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'file': {
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'driver': 'file',
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'filename': source_img
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}
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}
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})
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self.assert_qmp(result, 'return', {})
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result = self.vm.qmp('blockdev-add', **{
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'node-name': 'target-node',
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'driver': iotests.imgfmt,
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'file': {
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'driver': 'file',
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'filename': target_img
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}
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})
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self.assert_qmp(result, 'return', {})
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self.nbd_sock = iotests.file_path('nbd.sock',
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base_dir=iotests.sock_dir)
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self.nbd_url = f'nbd+unix:///source-node?socket={self.nbd_sock}'
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result = self.vm.qmp('nbd-server-start', addr={
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'type': 'unix',
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'data': {
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'path': self.nbd_sock
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}
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})
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self.assert_qmp(result, 'return', {})
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result = self.vm.qmp('block-export-add', id='exp0', type='nbd',
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node_name='source-node', writable=True)
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self.assert_qmp(result, 'return', {})
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def tearDown(self):
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# Wait for background requests to settle
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try:
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while True:
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p = self.background_processes.pop()
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while True:
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try:
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p.wait(timeout=0.0)
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break
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except subprocess.TimeoutExpired:
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self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
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except IndexError:
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pass
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# Cancel ongoing block jobs
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for job in self.vm.qmp('query-jobs')['return']:
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self.vm.qmp('block-job-cancel', device=job['id'], force=True)
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while True:
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self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
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if len(self.vm.qmp('query-jobs')['return']) == 0:
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break
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self.vm.shutdown()
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os.remove(source_img)
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os.remove(target_img)
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class TestLowThrottledWithNbdExport(TestThrottledWithNbdExportBase):
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iops = 16
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def testUnderLoad(self):
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'''
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Throttle the source node, then issue a whole bunch of external requests
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while the mirror job (in write-blocking mode) is running. We want to
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see background requests being issued even while the source is under
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full load by active writes, so that progress can be made towards READY.
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'''
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# Fill the first half of the source image; do not fill the second half,
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# that is where we will have active requests occur. This ensures that
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# active mirroring itself will not directly contribute to the job's
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# progress (because when the job was started, those areas were not
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# intended to be copied, so active mirroring will only lead to not
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# losing progress, but also not making any).
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self.vm.hmp_qemu_io('source-node',
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f'aio_write -P 1 0 {self.image_len // 2}')
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self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
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# Launch the mirror job
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mirror_buf_size = 65536
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result = self.vm.qmp('blockdev-mirror',
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job_id='mirror',
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filter_node_name='mirror-node',
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device='source-node',
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target='target-node',
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sync='full',
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copy_mode='write-blocking',
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buf_size=mirror_buf_size)
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self.assert_qmp(result, 'return', {})
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# We create the external requests via qemu-io processes on the NBD
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# server. Have their offset start in the middle of the image so they
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# do not overlap with the background requests (which start from the
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# beginning).
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active_request_offset = self.image_len // 2
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active_request_len = 4096
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# Create enough requests to saturate the node for 5 seconds
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for _ in range(0, 5 * self.iops):
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req = f'write -P 42 {active_request_offset} {active_request_len}'
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active_request_offset += active_request_len
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p = iotests.qemu_io_popen('-f', 'nbd', self.nbd_url, '-c', req)
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self.background_processes += [p]
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# Now advance the clock one I/O operation at a time by the 4 seconds
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# (i.e. one less than 5). We expect the mirror job to issue background
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# operations here, even though active requests are still in flight.
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# The active requests will take precedence, however, because they have
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# been issued earlier than mirror's background requests.
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# Once the active requests we have started above are done (i.e. after 5
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# virtual seconds), we expect those background requests to be worked
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# on. We only advance 4 seconds here to avoid race conditions.
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for _ in range(0, 4 * self.iops):
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step = math.ceil(1 * 1000 * 1000 * 1000 / self.iops)
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self.vm.qtest(f'clock_step {step}')
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# Note how much remains to be done until the mirror job is finished
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job_status = self.vm.qmp('query-jobs')['return'][0]
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start_remaining = job_status['total-progress'] - \
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job_status['current-progress']
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# Create a whole bunch of more active requests
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for _ in range(0, 10 * self.iops):
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req = f'write -P 42 {active_request_offset} {active_request_len}'
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active_request_offset += active_request_len
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p = iotests.qemu_io_popen('-f', 'nbd', self.nbd_url, '-c', req)
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self.background_processes += [p]
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# Let the clock advance more. After 1 second, as noted above, we
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# expect the background requests to be worked on. Give them a couple
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# of seconds (specifically 4) to see their impact.
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for _ in range(0, 5 * self.iops):
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step = math.ceil(1 * 1000 * 1000 * 1000 / self.iops)
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self.vm.qtest(f'clock_step {step}')
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# Note how much remains to be done now. We expect this number to be
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# reduced thanks to those background requests.
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job_status = self.vm.qmp('query-jobs')['return'][0]
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end_remaining = job_status['total-progress'] - \
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job_status['current-progress']
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# See that indeed progress was being made on the job, even while the
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# node was saturated with active requests
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self.assertGreater(start_remaining - end_remaining, 0)
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class TestHighThrottledWithNbdExport(TestThrottledWithNbdExportBase):
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iops = 1024
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def testActiveOnCreation(self):
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'''
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Issue requests on the mirror source node right as the mirror is
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instated. It's possible that requests occur before the actual job is
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created, but after the node has been put into the graph. Write
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requests across the node must in that case be forwarded to the source
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node without attempting to mirror them (there is no job object yet, so
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attempting to access it would cause a segfault).
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We do this with a lightly throttled node (i.e. quite high IOPS limit).
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Using throttling seems to increase reproductivity, but if the limit is
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too low, all requests allowed per second will be submitted before
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mirror_start_job() gets to the problematic point.
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'''
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# Let qemu-img bench create write requests (enough for two seconds on
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# the virtual clock)
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bench_args = ['bench', '-w', '-d', '1024', '-f', 'nbd',
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'-c', str(self.iops * 2), self.nbd_url]
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p = iotests.qemu_tool_popen(iotests.qemu_img_args + bench_args)
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self.background_processes += [p]
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# Give qemu-img bench time to start up and issue requests
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time.sleep(1.0)
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# Flush the request queue, so new requests can come in right as we
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# start blockdev-mirror
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self.vm.qtest(f'clock_step {1 * 1000 * 1000 * 1000}')
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result = self.vm.qmp('blockdev-mirror',
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job_id='mirror',
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device='source-node',
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target='target-node',
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sync='full',
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copy_mode='write-blocking')
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self.assert_qmp(result, 'return', {})
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if __name__ == '__main__':
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iotests.main(supported_fmts=['qcow2', 'raw'],
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supported_protocols=['file'])
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