tests/avocado/s390_topology.py - third_party/qemu - Git at Google

 # Functional test that boots a Linux kernel and checks the console
 #
 # Copyright IBM Corp. 2023
 #
 # Author:
 #  Pierre Morel <pmorel@linux.ibm.com>
 #
 # This work is licensed under the terms of the GNU GPL, version 2 or
 # later.  See the COPYING file in the top-level directory.

 import os
 import shutil
 import time

 from avocado_qemu import QemuSystemTest
 from avocado_qemu import exec_command
 from avocado_qemu import exec_command_and_wait_for_pattern
 from avocado_qemu import interrupt_interactive_console_until_pattern
 from avocado_qemu import wait_for_console_pattern
 from avocado.utils import process
 from avocado.utils import archive


 class S390CPUTopology(QemuSystemTest):
     """
     S390x CPU topology consists of 4 topology layers, from bottom to top,
     the cores, sockets, books and drawers and 2 modifiers attributes,
     the entitlement and the dedication.
     See: docs/system/s390x/cpu-topology.rst.

     S390x CPU topology is setup in different ways:
     - implicitly from the '-smp' argument by completing each topology
       level one after the other beginning with drawer 0, book 0 and
       socket 0.
     - explicitly from the '-device' argument on the QEMU command line
     - explicitly by hotplug of a new CPU using QMP or HMP
     - it is modified by using QMP 'set-cpu-topology'

     The S390x modifier attribute entitlement depends on the machine
     polarization, which can be horizontal or vertical.
     The polarization is changed on a request from the guest.
     """
     timeout = 90
     event_timeout = 10

     KERNEL_COMMON_COMMAND_LINE = ('printk.time=0 '
                                   'root=/dev/ram '
                                   'selinux=0 '
                                   'rdinit=/bin/sh')

     def wait_until_booted(self):
         wait_for_console_pattern(self, 'no job control',
                                  failure_message='Kernel panic - not syncing',
                                  vm=None)

     def check_topology(self, c, s, b, d, e, t):
         res = self.vm.qmp('query-cpus-fast')
         cpus =  res['return']
         for cpu in cpus:
             core = cpu['props']['core-id']
             socket = cpu['props']['socket-id']
             book = cpu['props']['book-id']
             drawer = cpu['props']['drawer-id']
             entitlement = cpu.get('entitlement')
             dedicated = cpu.get('dedicated')
             if core == c:
                 self.assertEqual(drawer, d)
                 self.assertEqual(book, b)
                 self.assertEqual(socket, s)
                 self.assertEqual(entitlement, e)
                 self.assertEqual(dedicated, t)

     def kernel_init(self):
         """
         We need a VM that supports CPU topology,
         currently this only the case when using KVM, not TCG.
         We need a kernel supporting the CPU topology.
         We need a minimal root filesystem with a shell.
         """
         self.require_accelerator("kvm")
         kernel_url = ('https://archives.fedoraproject.org/pub/archive'
                       '/fedora-secondary/releases/35/Server/s390x/os'
                       '/images/kernel.img')
         kernel_hash = '0d1aaaf303f07cf0160c8c48e56fe638'
         kernel_path = self.fetch_asset(kernel_url, algorithm='md5',
                                        asset_hash=kernel_hash)

         initrd_url = ('https://archives.fedoraproject.org/pub/archive'
                       '/fedora-secondary/releases/35/Server/s390x/os'
                       '/images/initrd.img')
         initrd_hash = 'a122057d95725ac030e2ec51df46e172'
         initrd_path_xz = self.fetch_asset(initrd_url, algorithm='md5',
                                           asset_hash=initrd_hash)
         initrd_path = os.path.join(self.workdir, 'initrd-raw.img')
         archive.lzma_uncompress(initrd_path_xz, initrd_path)

         self.vm.set_console()
         kernel_command_line = self.KERNEL_COMMON_COMMAND_LINE
         self.vm.add_args('-nographic',
                          '-enable-kvm',
                          '-cpu', 'max,ctop=on',
                          '-m', '512',
                          '-kernel', kernel_path,
                          '-initrd', initrd_path,
                          '-append', kernel_command_line)

     def system_init(self):
         self.log.info("System init")
         exec_command_and_wait_for_pattern(self,
                 """ mount proc -t proc /proc;
                     mount sys -t sysfs /sys;
                     cat /sys/devices/system/cpu/dispatching """,
                     '0')

     def test_single(self):
         """
         This test checks the simplest topology with a single CPU.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.launch()
         self.wait_until_booted()
         self.check_topology(0, 0, 0, 0, 'medium', False)

     def test_default(self):
         """
         This test checks the implicit topology.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.add_args('-smp',
                          '13,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
         self.vm.launch()
         self.wait_until_booted()
         self.check_topology(0, 0, 0, 0, 'medium', False)
         self.check_topology(1, 0, 0, 0, 'medium', False)
         self.check_topology(2, 1, 0, 0, 'medium', False)
         self.check_topology(3, 1, 0, 0, 'medium', False)
         self.check_topology(4, 2, 0, 0, 'medium', False)
         self.check_topology(5, 2, 0, 0, 'medium', False)
         self.check_topology(6, 0, 1, 0, 'medium', False)
         self.check_topology(7, 0, 1, 0, 'medium', False)
         self.check_topology(8, 1, 1, 0, 'medium', False)
         self.check_topology(9, 1, 1, 0, 'medium', False)
         self.check_topology(10, 2, 1, 0, 'medium', False)
         self.check_topology(11, 2, 1, 0, 'medium', False)
         self.check_topology(12, 0, 0, 1, 'medium', False)

     def test_move(self):
         """
         This test checks the topology modification by moving a CPU
         to another socket: CPU 0 is moved from socket 0 to socket 2.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.add_args('-smp',
                          '1,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
         self.vm.launch()
         self.wait_until_booted()

         self.check_topology(0, 0, 0, 0, 'medium', False)
         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'socket-id': 2, 'entitlement': 'low'})
         self.assertEqual(res['return'], {})
         self.check_topology(0, 2, 0, 0, 'low', False)

     def test_dash_device(self):
         """
         This test verifies that a CPU defined with the '-device'
         command line option finds its right place inside the topology.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.add_args('-smp',
                          '1,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
         self.vm.add_args('-device', 'max-s390x-cpu,core-id=10')
         self.vm.add_args('-device',
                          'max-s390x-cpu,'
                          'core-id=1,socket-id=0,book-id=1,drawer-id=1,entitlement=low')
         self.vm.add_args('-device',
                          'max-s390x-cpu,'
                          'core-id=2,socket-id=0,book-id=1,drawer-id=1,entitlement=medium')
         self.vm.add_args('-device',
                          'max-s390x-cpu,'
                          'core-id=3,socket-id=1,book-id=1,drawer-id=1,entitlement=high')
         self.vm.add_args('-device',
                          'max-s390x-cpu,'
                          'core-id=4,socket-id=1,book-id=1,drawer-id=1')
         self.vm.add_args('-device',
                          'max-s390x-cpu,'
                          'core-id=5,socket-id=2,book-id=1,drawer-id=1,dedicated=true')

         self.vm.launch()
         self.wait_until_booted()

         self.check_topology(10, 2, 1, 0, 'medium', False)
         self.check_topology(1, 0, 1, 1, 'low', False)
         self.check_topology(2, 0, 1, 1, 'medium', False)
         self.check_topology(3, 1, 1, 1, 'high', False)
         self.check_topology(4, 1, 1, 1, 'medium', False)
         self.check_topology(5, 2, 1, 1, 'high', True)


     def guest_set_dispatching(self, dispatching):
         exec_command(self,
                 f'echo {dispatching} > /sys/devices/system/cpu/dispatching')
         self.vm.event_wait('CPU_POLARIZATION_CHANGE', self.event_timeout)
         exec_command_and_wait_for_pattern(self,
                 'cat /sys/devices/system/cpu/dispatching', dispatching)


     def test_polarization(self):
         """
         This test verifies that QEMU modifies the entitlement change after
         several guest polarization change requests.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.launch()
         self.wait_until_booted()

         self.system_init()
         res = self.vm.qmp('query-s390x-cpu-polarization')
         self.assertEqual(res['return']['polarization'], 'horizontal')
         self.check_topology(0, 0, 0, 0, 'medium', False)

         self.guest_set_dispatching('1');
         res = self.vm.qmp('query-s390x-cpu-polarization')
         self.assertEqual(res['return']['polarization'], 'vertical')
         self.check_topology(0, 0, 0, 0, 'medium', False)

         self.guest_set_dispatching('0');
         res = self.vm.qmp('query-s390x-cpu-polarization')
         self.assertEqual(res['return']['polarization'], 'horizontal')
         self.check_topology(0, 0, 0, 0, 'medium', False)


     def check_polarization(self, polarization):
         #We need to wait for the change to have been propagated to the kernel
         exec_command_and_wait_for_pattern(self,
             "\n".join([
                 "timeout 1 sh -c 'while true",
                 'do',
                 '    syspath="/sys/devices/system/cpu/cpu0/polarization"',
                 '    polarization="$(cat "$syspath")" || exit',
                f'    if [ "$polarization" = "{polarization}" ]; then',
                 '        exit 0',
                 '    fi',
                 '    sleep 0.01',
                 #searched for strings mustn't show up in command, '' to obfuscate
                 "done' && echo succ''ess || echo fail''ure",
             ]),
             "success", "failure")


     def test_entitlement(self):
         """
         This test verifies that QEMU modifies the entitlement
         after a guest request and that the guest sees the change.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.launch()
         self.wait_until_booted()

         self.system_init()

         self.check_polarization('horizontal')
         self.check_topology(0, 0, 0, 0, 'medium', False)

         self.guest_set_dispatching('1')
         self.check_polarization('vertical:medium')
         self.check_topology(0, 0, 0, 0, 'medium', False)

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'low'})
         self.assertEqual(res['return'], {})
         self.check_polarization('vertical:low')
         self.check_topology(0, 0, 0, 0, 'low', False)

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'medium'})
         self.assertEqual(res['return'], {})
         self.check_polarization('vertical:medium')
         self.check_topology(0, 0, 0, 0, 'medium', False)

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'high'})
         self.assertEqual(res['return'], {})
         self.check_polarization('vertical:high')
         self.check_topology(0, 0, 0, 0, 'high', False)

         self.guest_set_dispatching('0');
         self.check_polarization("horizontal")
         self.check_topology(0, 0, 0, 0, 'high', False)


     def test_dedicated(self):
         """
         This test verifies that QEMU adjusts the entitlement correctly when a
         CPU is made dedicated.
         QEMU retains the entitlement value when horizontal polarization is in effect.
         For the guest, the field shows the effective value of the entitlement.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.launch()
         self.wait_until_booted()

         self.system_init()

         self.check_polarization("horizontal")

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'dedicated': True})
         self.assertEqual(res['return'], {})
         self.check_topology(0, 0, 0, 0, 'high', True)
         self.check_polarization("horizontal")

         self.guest_set_dispatching('1');
         self.check_topology(0, 0, 0, 0, 'high', True)
         self.check_polarization("vertical:high")

         self.guest_set_dispatching('0');
         self.check_topology(0, 0, 0, 0, 'high', True)
         self.check_polarization("horizontal")


     def test_socket_full(self):
         """
         This test verifies that QEMU does not accept to overload a socket.
         The socket-id 0 on book-id 0 already contains CPUs 0 and 1 and can
         not accept any new CPU while socket-id 0 on book-id 1 is free.

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.add_args('-smp',
                          '3,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
         self.vm.launch()
         self.wait_until_booted()

         self.system_init()

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 2, 'socket-id': 0, 'book-id': 0})
         self.assertEqual(res['error']['class'], 'GenericError')

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 2, 'socket-id': 0, 'book-id': 1})
         self.assertEqual(res['return'], {})

     def test_dedicated_error(self):
         """
         This test verifies that QEMU refuses to lower the entitlement
         of a dedicated CPU

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.launch()
         self.wait_until_booted()

         self.system_init()

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'dedicated': True})
         self.assertEqual(res['return'], {})

         self.check_topology(0, 0, 0, 0, 'high', True)

         self.guest_set_dispatching('1');

         self.check_topology(0, 0, 0, 0, 'high', True)

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'low', 'dedicated': True})
         self.assertEqual(res['error']['class'], 'GenericError')

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'low'})
         self.assertEqual(res['error']['class'], 'GenericError')

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'medium', 'dedicated': True})
         self.assertEqual(res['error']['class'], 'GenericError')

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'medium'})
         self.assertEqual(res['error']['class'], 'GenericError')

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'low', 'dedicated': False})
         self.assertEqual(res['return'], {})

         res = self.vm.qmp('set-cpu-topology',
                           {'core-id': 0, 'entitlement': 'medium', 'dedicated': False})
         self.assertEqual(res['return'], {})

     def test_move_error(self):
         """
         This test verifies that QEMU refuses to move a CPU to an
         nonexistent location

         :avocado: tags=arch:s390x
         :avocado: tags=machine:s390-ccw-virtio
         """
         self.kernel_init()
         self.vm.launch()
         self.wait_until_booted()

         self.system_init()

         res = self.vm.qmp('set-cpu-topology', {'core-id': 0, 'drawer-id': 1})
         self.assertEqual(res['error']['class'], 'GenericError')

         res = self.vm.qmp('set-cpu-topology', {'core-id': 0, 'book-id': 1})
         self.assertEqual(res['error']['class'], 'GenericError')

         res = self.vm.qmp('set-cpu-topology', {'core-id': 0, 'socket-id': 1})
         self.assertEqual(res['error']['class'], 'GenericError')

         self.check_topology(0, 0, 0, 0, 'medium', False)
	# Functional test that boots a Linux kernel and checks the console
	#
	# Copyright IBM Corp. 2023
	#
	# Author:
	# Pierre Morel <pmorel@linux.ibm.com>
	#
	# This work is licensed under the terms of the GNU GPL, version 2 or
	# later. See the COPYING file in the top-level directory.

	import os
	import shutil
	import time

	from avocado_qemu import QemuSystemTest
	from avocado_qemu import exec_command
	from avocado_qemu import exec_command_and_wait_for_pattern
	from avocado_qemu import interrupt_interactive_console_until_pattern
	from avocado_qemu import wait_for_console_pattern
	from avocado.utils import process
	from avocado.utils import archive


	class S390CPUTopology(QemuSystemTest):
	"""
	S390x CPU topology consists of 4 topology layers, from bottom to top,
	the cores, sockets, books and drawers and 2 modifiers attributes,
	the entitlement and the dedication.
	See: docs/system/s390x/cpu-topology.rst.

	S390x CPU topology is setup in different ways:
	- implicitly from the '-smp' argument by completing each topology
	level one after the other beginning with drawer 0, book 0 and
	socket 0.
	- explicitly from the '-device' argument on the QEMU command line
	- explicitly by hotplug of a new CPU using QMP or HMP
	- it is modified by using QMP 'set-cpu-topology'

	The S390x modifier attribute entitlement depends on the machine
	polarization, which can be horizontal or vertical.
	The polarization is changed on a request from the guest.
	"""
	timeout = 90
	event_timeout = 10

	KERNEL_COMMON_COMMAND_LINE = ('printk.time=0 '
	'root=/dev/ram '
	'selinux=0 '
	'rdinit=/bin/sh')

	def wait_until_booted(self):
	wait_for_console_pattern(self, 'no job control',
	failure_message='Kernel panic - not syncing',
	vm=None)

	def check_topology(self, c, s, b, d, e, t):
	res = self.vm.qmp('query-cpus-fast')
	cpus = res['return']
	for cpu in cpus:
	core = cpu['props']['core-id']
	socket = cpu['props']['socket-id']
	book = cpu['props']['book-id']
	drawer = cpu['props']['drawer-id']
	entitlement = cpu.get('entitlement')
	dedicated = cpu.get('dedicated')
	if core == c:
	self.assertEqual(drawer, d)
	self.assertEqual(book, b)
	self.assertEqual(socket, s)
	self.assertEqual(entitlement, e)
	self.assertEqual(dedicated, t)

	def kernel_init(self):
	"""
	We need a VM that supports CPU topology,
	currently this only the case when using KVM, not TCG.
	We need a kernel supporting the CPU topology.
	We need a minimal root filesystem with a shell.
	"""
	self.require_accelerator("kvm")
	kernel_url = ('https://archives.fedoraproject.org/pub/archive'
	'/fedora-secondary/releases/35/Server/s390x/os'
	'/images/kernel.img')
	kernel_hash = '0d1aaaf303f07cf0160c8c48e56fe638'
	kernel_path = self.fetch_asset(kernel_url, algorithm='md5',
	asset_hash=kernel_hash)

	initrd_url = ('https://archives.fedoraproject.org/pub/archive'
	'/fedora-secondary/releases/35/Server/s390x/os'
	'/images/initrd.img')
	initrd_hash = 'a122057d95725ac030e2ec51df46e172'
	initrd_path_xz = self.fetch_asset(initrd_url, algorithm='md5',
	asset_hash=initrd_hash)
	initrd_path = os.path.join(self.workdir, 'initrd-raw.img')
	archive.lzma_uncompress(initrd_path_xz, initrd_path)

	self.vm.set_console()
	kernel_command_line = self.KERNEL_COMMON_COMMAND_LINE
	self.vm.add_args('-nographic',
	'-enable-kvm',
	'-cpu', 'max,ctop=on',
	'-m', '512',
	'-kernel', kernel_path,
	'-initrd', initrd_path,
	'-append', kernel_command_line)

	def system_init(self):
	self.log.info("System init")
	exec_command_and_wait_for_pattern(self,
	""" mount proc -t proc /proc;
	mount sys -t sysfs /sys;
	cat /sys/devices/system/cpu/dispatching """,
	'0')

	def test_single(self):
	"""
	This test checks the simplest topology with a single CPU.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.launch()
	self.wait_until_booted()
	self.check_topology(0, 0, 0, 0, 'medium', False)

	def test_default(self):
	"""
	This test checks the implicit topology.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.add_args('-smp',
	'13,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
	self.vm.launch()
	self.wait_until_booted()
	self.check_topology(0, 0, 0, 0, 'medium', False)
	self.check_topology(1, 0, 0, 0, 'medium', False)
	self.check_topology(2, 1, 0, 0, 'medium', False)
	self.check_topology(3, 1, 0, 0, 'medium', False)
	self.check_topology(4, 2, 0, 0, 'medium', False)
	self.check_topology(5, 2, 0, 0, 'medium', False)
	self.check_topology(6, 0, 1, 0, 'medium', False)
	self.check_topology(7, 0, 1, 0, 'medium', False)
	self.check_topology(8, 1, 1, 0, 'medium', False)
	self.check_topology(9, 1, 1, 0, 'medium', False)
	self.check_topology(10, 2, 1, 0, 'medium', False)
	self.check_topology(11, 2, 1, 0, 'medium', False)
	self.check_topology(12, 0, 0, 1, 'medium', False)

	def test_move(self):
	"""
	This test checks the topology modification by moving a CPU
	to another socket: CPU 0 is moved from socket 0 to socket 2.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.add_args('-smp',
	'1,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
	self.vm.launch()
	self.wait_until_booted()

	self.check_topology(0, 0, 0, 0, 'medium', False)
	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'socket-id': 2, 'entitlement': 'low'})
	self.assertEqual(res['return'], {})
	self.check_topology(0, 2, 0, 0, 'low', False)

	def test_dash_device(self):
	"""
	This test verifies that a CPU defined with the '-device'
	command line option finds its right place inside the topology.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.add_args('-smp',
	'1,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
	self.vm.add_args('-device', 'max-s390x-cpu,core-id=10')
	self.vm.add_args('-device',
	'max-s390x-cpu,'
	'core-id=1,socket-id=0,book-id=1,drawer-id=1,entitlement=low')
	self.vm.add_args('-device',
	'max-s390x-cpu,'
	'core-id=2,socket-id=0,book-id=1,drawer-id=1,entitlement=medium')
	self.vm.add_args('-device',
	'max-s390x-cpu,'
	'core-id=3,socket-id=1,book-id=1,drawer-id=1,entitlement=high')
	self.vm.add_args('-device',
	'max-s390x-cpu,'
	'core-id=4,socket-id=1,book-id=1,drawer-id=1')
	self.vm.add_args('-device',
	'max-s390x-cpu,'
	'core-id=5,socket-id=2,book-id=1,drawer-id=1,dedicated=true')

	self.vm.launch()
	self.wait_until_booted()

	self.check_topology(10, 2, 1, 0, 'medium', False)
	self.check_topology(1, 0, 1, 1, 'low', False)
	self.check_topology(2, 0, 1, 1, 'medium', False)
	self.check_topology(3, 1, 1, 1, 'high', False)
	self.check_topology(4, 1, 1, 1, 'medium', False)
	self.check_topology(5, 2, 1, 1, 'high', True)


	def guest_set_dispatching(self, dispatching):
	exec_command(self,
	f'echo {dispatching} > /sys/devices/system/cpu/dispatching')
	self.vm.event_wait('CPU_POLARIZATION_CHANGE', self.event_timeout)
	exec_command_and_wait_for_pattern(self,
	'cat /sys/devices/system/cpu/dispatching', dispatching)


	def test_polarization(self):
	"""
	This test verifies that QEMU modifies the entitlement change after
	several guest polarization change requests.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.launch()
	self.wait_until_booted()

	self.system_init()
	res = self.vm.qmp('query-s390x-cpu-polarization')
	self.assertEqual(res['return']['polarization'], 'horizontal')
	self.check_topology(0, 0, 0, 0, 'medium', False)

	self.guest_set_dispatching('1');
	res = self.vm.qmp('query-s390x-cpu-polarization')
	self.assertEqual(res['return']['polarization'], 'vertical')
	self.check_topology(0, 0, 0, 0, 'medium', False)

	self.guest_set_dispatching('0');
	res = self.vm.qmp('query-s390x-cpu-polarization')
	self.assertEqual(res['return']['polarization'], 'horizontal')
	self.check_topology(0, 0, 0, 0, 'medium', False)


	def check_polarization(self, polarization):
	#We need to wait for the change to have been propagated to the kernel
	exec_command_and_wait_for_pattern(self,
	"\n".join([
	"timeout 1 sh -c 'while true",
	'do',
	' syspath="/sys/devices/system/cpu/cpu0/polarization"',
	' polarization="$(cat "$syspath")" \|\| exit',
	f' if [ "$polarization" = "{polarization}" ]; then',
	' exit 0',
	' fi',
	' sleep 0.01',
	#searched for strings mustn't show up in command, '' to obfuscate
	"done' && echo succ''ess \|\| echo fail''ure",
	]),
	"success", "failure")


	def test_entitlement(self):
	"""
	This test verifies that QEMU modifies the entitlement
	after a guest request and that the guest sees the change.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.launch()
	self.wait_until_booted()

	self.system_init()

	self.check_polarization('horizontal')
	self.check_topology(0, 0, 0, 0, 'medium', False)

	self.guest_set_dispatching('1')
	self.check_polarization('vertical:medium')
	self.check_topology(0, 0, 0, 0, 'medium', False)

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'low'})
	self.assertEqual(res['return'], {})
	self.check_polarization('vertical:low')
	self.check_topology(0, 0, 0, 0, 'low', False)

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'medium'})
	self.assertEqual(res['return'], {})
	self.check_polarization('vertical:medium')
	self.check_topology(0, 0, 0, 0, 'medium', False)

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'high'})
	self.assertEqual(res['return'], {})
	self.check_polarization('vertical:high')
	self.check_topology(0, 0, 0, 0, 'high', False)

	self.guest_set_dispatching('0');
	self.check_polarization("horizontal")
	self.check_topology(0, 0, 0, 0, 'high', False)


	def test_dedicated(self):
	"""
	This test verifies that QEMU adjusts the entitlement correctly when a
	CPU is made dedicated.
	QEMU retains the entitlement value when horizontal polarization is in effect.
	For the guest, the field shows the effective value of the entitlement.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.launch()
	self.wait_until_booted()

	self.system_init()

	self.check_polarization("horizontal")

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'dedicated': True})
	self.assertEqual(res['return'], {})
	self.check_topology(0, 0, 0, 0, 'high', True)
	self.check_polarization("horizontal")

	self.guest_set_dispatching('1');
	self.check_topology(0, 0, 0, 0, 'high', True)
	self.check_polarization("vertical:high")

	self.guest_set_dispatching('0');
	self.check_topology(0, 0, 0, 0, 'high', True)
	self.check_polarization("horizontal")


	def test_socket_full(self):
	"""
	This test verifies that QEMU does not accept to overload a socket.
	The socket-id 0 on book-id 0 already contains CPUs 0 and 1 and can
	not accept any new CPU while socket-id 0 on book-id 1 is free.

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.add_args('-smp',
	'3,drawers=2,books=2,sockets=3,cores=2,maxcpus=24')
	self.vm.launch()
	self.wait_until_booted()

	self.system_init()

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 2, 'socket-id': 0, 'book-id': 0})
	self.assertEqual(res['error']['class'], 'GenericError')

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 2, 'socket-id': 0, 'book-id': 1})
	self.assertEqual(res['return'], {})

	def test_dedicated_error(self):
	"""
	This test verifies that QEMU refuses to lower the entitlement
	of a dedicated CPU

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.launch()
	self.wait_until_booted()

	self.system_init()

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'dedicated': True})
	self.assertEqual(res['return'], {})

	self.check_topology(0, 0, 0, 0, 'high', True)

	self.guest_set_dispatching('1');

	self.check_topology(0, 0, 0, 0, 'high', True)

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'low', 'dedicated': True})
	self.assertEqual(res['error']['class'], 'GenericError')

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'low'})
	self.assertEqual(res['error']['class'], 'GenericError')

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'medium', 'dedicated': True})
	self.assertEqual(res['error']['class'], 'GenericError')

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'medium'})
	self.assertEqual(res['error']['class'], 'GenericError')

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'low', 'dedicated': False})
	self.assertEqual(res['return'], {})

	res = self.vm.qmp('set-cpu-topology',
	{'core-id': 0, 'entitlement': 'medium', 'dedicated': False})
	self.assertEqual(res['return'], {})

	def test_move_error(self):
	"""
	This test verifies that QEMU refuses to move a CPU to an
	nonexistent location

	:avocado: tags=arch:s390x
	:avocado: tags=machine:s390-ccw-virtio
	"""
	self.kernel_init()
	self.vm.launch()
	self.wait_until_booted()

	self.system_init()

	res = self.vm.qmp('set-cpu-topology', {'core-id': 0, 'drawer-id': 1})
	self.assertEqual(res['error']['class'], 'GenericError')

	res = self.vm.qmp('set-cpu-topology', {'core-id': 0, 'book-id': 1})
	self.assertEqual(res['error']['class'], 'GenericError')

	res = self.vm.qmp('set-cpu-topology', {'core-id': 0, 'socket-id': 1})
	self.assertEqual(res['error']['class'], 'GenericError')

	self.check_topology(0, 0, 0, 0, 'medium', False)