def prepare_guest_for_test(vm_name, session, test, oversize, memory_to_eat):
"""
Setup guest
:param vm_name: name of the VM to be executed on
:param session: current session to execute commands on
:param test: test object
:param oversize: memory to be taken
:param memory_to_eat: The memory guest will use
"""
result = virsh.setmem(vm_name, oversize, debug=True)
if result.exit_status:
test.fail("Something went wrong during the 'virsh setmem {}' "
"command.".format(oversize))
def _check_mem(memory_to_eat):
dommemstat_output = virsh.dommemstat(vm_name).stdout_text.strip()
actual_mem = re.search("actual (\d*)", dommemstat_output).groups()[0]
logging.debug("actual_mem is {}".format(actual_mem))
return int(actual_mem) > int(memory_to_eat)
if not utils_misc.wait_for(lambda: _check_mem(memory_to_eat), 300,
first=5):
test.error("Failed to increase specific guest memory in time")
# Turn off a swap on guest
session.cmd_status('swapoff -a', timeout=10)
# Install the numactl package on the guest for a memhog program
if not utils_package.package_install('numactl', session):
test.fail("Failed to install package numactl on guest.")
def prepare_guest_for_test(vm_name, session, test, oversize, nodeset_string):
"""
Setup guest
:param vm_name: name of the VM to be executed on
:param session: current session to execute commands on
:param test: test object
:param oversize: memory to be taken
:param nodeset_string: nodeset string with nodes to be spread on
"""
result = virsh.numatune(vm_name, debug=True)
if result.exit_status:
test.fail("Something went wrong during the virsh numatune command.")
result = virsh.numatune(vm_name,
mode='0',
nodeset=nodeset_string,
debug=True)
if result.exit_status:
test.fail("Something went wrong during the 'virsh numatune 0 {}' "
"command.".format(nodeset_string))
result = virsh.setmem(vm_name, oversize, debug=True)
if result.exit_status:
test.fail("Something went wrong during the 'virsh setmem {}' "
"command.".format(oversize))
# Turn off a swap on guest
session.cmd_status('swapoff -a', timeout=10)
# Install the numactl package on the guest for a memhog program
if not utils_package.package_install('numactl', session):
test.fail("Failed to install package numactl on guest.")
def trigger_events(events_list=[]):
"""
Trigger various events in events_list
"""
expected_events_list = []
tmpdir = data_dir.get_tmp_dir()
save_path = os.path.join(tmpdir, "vm_event.save")
new_disk = os.path.join(tmpdir, "new_disk.img")
try:
for event in events_list:
if event in ["start", "restore"]:
if vm.is_alive():
vm.destroy()
else:
if not vm.is_alive():
vm.start()
vm.wait_for_login().close()
if event == "start":
virsh.start(vm_name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:" " Started Booted")
vm.wait_for_login().close()
elif event == "save":
virsh.save(vm_name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:" " Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:" " Started Restored")
elif event == "destroy":
virsh.destroy(vm_name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:" " Stopped Destroyed")
elif event == "reset":
virsh.reset(vm_name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(vm_name, "0", "0", **virsh_dargs)
expected_events_list.append("'tunable' for %s:" "\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(vm_name, "0", **virsh_dargs)
expected_events_list.append("'tunable' for %s:" "\n\tcputune.emulatorpin: 0")
elif event == "setmem":
virsh.setmem(vm_name, 1048576, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "detach-disk":
if not os.path.exists(new_disk):
open(new_disk, "a").close()
# Attach disk firstly, this event will not be catched
virsh.attach_disk(vm_name, new_disk, "vdb", **virsh_dargs)
virsh.detach_disk(vm_name, "vdb", **virsh_dargs)
expected_events_list.append("'device-removed' for %s:" " virtio-disk1")
else:
raise error.TestError("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
return expected_events_list
def run(test, params, env):
"""
Test command: virsh setmem.
1) Prepare vm environment.
2) Handle params
3) Prepare libvirtd status.
4) Run test command and wait for current memory's stable.
5) Recover environment.
4) Check result.
"""
def vm_proc_meminfo(session):
"""
Get guest total memory
"""
proc_meminfo = session.cmd_output("cat /proc/meminfo")
# verify format and units are expected
return int(
re.search(r'MemTotal:\s+(\d+)\s+[kK]B', proc_meminfo).group(1))
def make_domref(domarg, vm_ref, domid, vm_name, domuuid):
"""
Create domain options of command
"""
# Specify domain as argument or parameter
if domarg == "yes":
dom_darg_key = "domainarg"
else:
dom_darg_key = "domain"
# How to reference domain
if vm_ref == "domid":
dom_darg_value = domid
elif vm_ref == "domname":
dom_darg_value = vm_name
elif vm_ref == "domuuid":
dom_darg_value = domuuid
elif vm_ref == "none":
dom_darg_value = None
elif vm_ref == "emptystring":
dom_darg_value = '""'
else: # stick in value directly
dom_darg_value = vm_ref
return {dom_darg_key: dom_darg_value}
def make_sizeref(sizearg, mem_ref, original_mem):
"""
Create size options of command
"""
if sizearg == "yes":
size_darg_key = "sizearg"
else:
size_darg_key = "size"
if mem_ref == "halfless":
size_darg_value = "%d" % (original_mem / 2)
elif mem_ref == "halfmore":
size_darg_value = "%d" % int(original_mem * 1.5) # no fraction
elif mem_ref == "same":
size_darg_value = "%d" % original_mem
elif mem_ref == "emptystring":
size_darg_value = '""'
elif mem_ref == "zero":
size_darg_value = "0"
elif mem_ref == "toosmall":
size_darg_value = "1024"
elif mem_ref == "toobig":
size_darg_value = "1099511627776" # (KiB) One Petabyte
elif mem_ref == "none":
size_darg_value = None
else: # stick in value directly
size_darg_value = mem_ref
return {size_darg_key: size_darg_value}
def cal_deviation(actual, expected):
"""
Calculate deviation of actual result and expected result
"""
numerator = float(actual)
denominator = float(expected)
if numerator > denominator:
numerator = denominator
denominator = float(actual)
return 100 - (100 * (numerator / denominator))
def is_old_libvirt():
"""
Check if libvirt is old version
"""
regex = r'\s+\[--size\]\s+'
return bool(not virsh.has_command_help_match('setmem', regex))
def print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem, expected_mem,
delta_percentage):
"""
Print debug message for test
"""
# Calculate deviation
inside_deviation = cal_deviation(test_inside_mem, expected_mem)
outside_deviation = cal_deviation(test_outside_mem, expected_mem)
dbgmsg = ("Original inside mem : %d KiB\n"
"Expected inside mem : %d KiB\n"
"Actual inside mem : %d KiB\n"
"Inside mem deviation : %0.2f%%\n"
"Original outside mem : %d KiB\n"
"Expected outside mem : %d KiB\n"
"Actual outside mem : %d KiB\n"
"Outside mem deviation: %0.2f%%\n"
"Acceptable deviation %0.2f%%" %
(original_inside_mem, expected_mem, test_inside_mem,
inside_deviation, original_outside_mem, expected_mem,
test_outside_mem, outside_deviation, delta_percentage))
for dbgline in dbgmsg.splitlines():
logging.debug(dbgline)
# MAIN TEST CODE ###
# Process cartesian parameters
vm_ref = params.get("setmem_vm_ref", "")
mem_ref = params.get("setmem_mem_ref", "")
flags = params.get("setmem_flags", "")
status_error = "yes" == params.get("status_error", "no")
old_libvirt_fail = "yes" == params.get("setmem_old_libvirt_fail", "no")
quiesce_delay = int(params.get("setmem_quiesce_delay", "1"))
domarg = params.get("setmem_domarg", "no")
sizearg = params.get("setmem_sizearg", "no")
libvirt = params.get("libvirt", "on")
delta_percentage = float(params.get("setmem_delta_per", "10"))
start_vm = "yes" == params.get("start_vm", "yes")
vm_name = params.get("main_vm", "virt-tests-vm1")
paused_after_start_vm = "yes" == params.get("paused_after_start_vm", "no")
manipulate_dom_before_setmem = "yes" == params.get(
"manipulate_dom_before_setmem", "no")
manipulate_dom_after_setmem = "yes" == params.get(
"manipulate_dom_after_setmem", "no")
manipulate_action = params.get("manipulate_action", "")
vm = env.get_vm(vm_name)
# Back up domain XML
vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
backup_xml = vmxml.copy()
vmosxml = vmxml.os
need_mkswap = False
if manipulate_action in ['s3', 's4']:
vm.destroy()
BIOS_BIN = "/usr/share/seabios/bios.bin"
if os.path.isfile(BIOS_BIN):
vmosxml.loader = BIOS_BIN
vmxml.os = vmosxml
vmxml.sync()
else:
logging.error("Not find %s on host", BIOS_BIN)
vmxml.set_pm_suspend(vm_name, "yes", "yes")
vm.prepare_guest_agent()
if manipulate_action == "s4":
need_mkswap = not vm.has_swap()
if need_mkswap:
logging.debug("Creating swap partition")
vm.create_swap_partition()
memballoon_model = params.get("memballoon_model", "")
if memballoon_model:
vm.destroy()
vmxml.del_device('memballoon', by_tag=True)
memballoon_xml = vmxml.get_device_class('memballoon')()
memballoon_xml.model = memballoon_model
vmxml.add_device(memballoon_xml)
logging.info(memballoon_xml)
vmxml.sync()
vm.start()
remove_balloon_driver = "yes" == params.get("remove_balloon_driver", "no")
if remove_balloon_driver:
if not vm.is_alive():
logging.error("Can't remove module as guest not running")
else:
session = vm.wait_for_login()
cmd = "rmmod virtio_balloon"
s_rmmod, o_rmmod = session.cmd_status_output(cmd)
if s_rmmod != 0:
logging.error(
"Fail to remove module virtio_balloon in guest:\n%s",
o_rmmod)
session.close()
if start_vm:
if not vm.is_alive():
vm.start()
if paused_after_start_vm:
vm.resume()
session = vm.wait_for_login()
original_inside_mem = vm_proc_meminfo(session)
session.close()
if paused_after_start_vm:
vm.pause()
original_outside_mem = vm.get_used_mem()
else:
if vm.is_alive():
vm.destroy()
# Retrieve known mem value, convert into kilobytes
original_inside_mem = int(params.get("mem", "1024")) * 1024
original_outside_mem = original_inside_mem
domid = vm.get_id()
domuuid = vm.get_uuid()
uri = vm.connect_uri
old_libvirt = is_old_libvirt()
if old_libvirt:
logging.info("Running test on older libvirt")
use_kilobytes = True
else:
logging.info("Running test on newer libvirt")
use_kilobytes = False
# Argument pattern is complex, build with dargs
dargs = {
'flagstr': flags,
'use_kilobytes': use_kilobytes,
'uri': uri,
'ignore_status': True,
"debug": True
}
dargs.update(make_domref(domarg, vm_ref, domid, vm_name, domuuid))
dargs.update(make_sizeref(sizearg, mem_ref, original_outside_mem))
# Prepare libvirtd status
libvirtd = utils_libvirtd.Libvirtd()
if libvirt == "off":
libvirtd.stop()
else:
if not libvirtd.is_running():
libvirtd.start()
if status_error or (old_libvirt_fail & old_libvirt):
logging.info("Error Test: Expecting an error to occur!")
try:
memory_change = True
if manipulate_dom_before_setmem:
manipulate_domain(vm_name, manipulate_action)
if manipulate_action in ['save', 'managedsave', 's4']:
memory_change = False
result = virsh.setmem(**dargs)
status = result.exit_status
if status is 0:
logging.info("Waiting %d seconds for VM memory to settle",
quiesce_delay)
# It takes time for kernel to settle on new memory
# and current clean pages is not predictable. Therefor,
# extremely difficult to determine quiescence, so
# sleep one second per error percent is reasonable option.
time.sleep(quiesce_delay)
if manipulate_dom_before_setmem:
manipulate_domain(vm_name, manipulate_action, True)
if manipulate_dom_after_setmem:
manipulate_domain(vm_name, manipulate_action)
manipulate_domain(vm_name, manipulate_action, True)
# Recover libvirtd status
if libvirt == "off":
libvirtd.start()
# Gather stats if not running error test
if not status_error and not old_libvirt_fail:
if not memory_change:
test_inside_mem = original_inside_mem
test_outside_mem = original_outside_mem
else:
if vm.state() == "shut off":
vm.start()
# Make sure it's never paused
vm.resume()
session = vm.wait_for_login()
# Actual results
test_inside_mem = vm_proc_meminfo(session)
session.close()
test_outside_mem = vm.get_used_mem()
# Expected results for both inside and outside
if remove_balloon_driver:
expected_mem = original_outside_mem
else:
if not memory_change:
expected_mem = original_inside_mem
elif sizearg == "yes":
expected_mem = int(dargs["sizearg"])
else:
expected_mem = int(dargs["size"])
print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem, expected_mem,
delta_percentage)
# Don't care about memory comparison on error test
outside_pass = cal_deviation(test_outside_mem,
expected_mem) <= delta_percentage
inside_pass = cal_deviation(test_inside_mem,
expected_mem) <= delta_percentage
if status is not 0 or not outside_pass or not inside_pass:
msg = "test conditions not met: "
if status is not 0:
msg += "Non-zero virsh setmem exit code. "
if not outside_pass:
msg += "Outside memory deviated. "
if not inside_pass:
msg += "Inside memory deviated. "
raise error.TestFail(msg)
return # Normal test passed
elif not status_error and old_libvirt_fail:
if status is 0:
if old_libvirt:
raise error.TestFail(
"Error test did not result in an error")
else:
if not old_libvirt:
raise error.TestFail(
"Newer libvirt failed when it should not")
else: # Verify an error test resulted in error
if status is 0:
raise error.TestFail("Error test did not result in an error")
finally:
if need_mkswap:
vm.cleanup_swap()
vm.destroy()
backup_xml.sync()
def run_virsh_setmem(test, params, env):
"""
Test command: virsh setmem.
1) Prepare vm environment.
2) Handle params
3) Prepare libvirtd status.
4) Run test command and wait for current memory's stable.
5) Recover environment.
4) Check result.
TODO: support new libvirt with more options.
"""
def vm_proc_meminfo(session):
proc_meminfo = session.cmd_output("cat /proc/meminfo")
# verify format and units are expected
return int(re.search(r"MemTotal:\s+(\d+)\s+kB", proc_meminfo).group(1))
def make_domref(domarg, vm_ref, domid, vm_name, domuuid):
# Specify domain as argument or parameter
if domarg == "yes":
dom_darg_key = "domainarg"
else:
dom_darg_key = "domain"
# How to reference domain
if vm_ref == "domid":
dom_darg_value = domid
elif vm_ref == "domname":
dom_darg_value = vm_name
elif vm_ref == "domuuid":
dom_darg_value = domuuid
elif vm_ref == "none":
dom_darg_value = None
elif vm_ref == "emptystring":
dom_darg_value = '""'
else: # stick in value directly
dom_darg_value = vm_ref
return {dom_darg_key: dom_darg_value}
def make_sizeref(sizearg, mem_ref, original_mem):
if sizearg == "yes":
size_darg_key = "sizearg"
else:
size_darg_key = "size"
if mem_ref == "halfless":
size_darg_value = "%d" % (original_mem / 2)
elif mem_ref == "halfmore":
size_darg_value = "%d" % int(original_mem * 1.5) # no fraction
elif mem_ref == "same":
size_darg_value = "%d" % original_mem
elif mem_ref == "emptystring":
size_darg_value = '""'
elif mem_ref == "zero":
size_darg_value = "0"
elif mem_ref == "toosmall":
size_darg_value = "1024"
elif mem_ref == "toobig":
size_darg_value = "1099511627776" # (KiB) One Petabyte
elif mem_ref == "none":
size_darg_value = None
else: # stick in value directly
size_darg_value = mem_ref
return {size_darg_key: size_darg_value}
def is_in_range(actual, expected, error_percent):
deviation = 100 - (100 * (float(actual) / float(expected)))
logging.debug("Deviation: %0.2f%%" % float(deviation))
return float(deviation) <= float(error_percent)
def is_old_libvirt():
regex = r"\s+\[--size\]\s+"
return bool(not virsh.has_command_help_match("setmem", regex))
def print_debug_stats(
original_inside_mem, original_outside_mem, test_inside_mem, test_outside_mem, expected_mem, delta_percentage
):
dbgmsg = (
"Original inside mem : %d KiB\n"
"Expected inside mem : %d KiB\n"
"Actual inside mem : %d KiB\n"
"Inside mem deviation : %0.2f%%\n"
"Original outside mem : %d KiB\n"
"Expected outside mem : %d KiB\n"
"Actual outside mem : %d KiB\n"
"Outside mem deviation: %0.2f%%\n"
"Acceptable deviation %0.2f%%"
% (
original_inside_mem,
expected_mem,
test_inside_mem,
100 - (100 * (float(test_inside_mem) / float(expected_mem))),
original_outside_mem,
expected_mem,
test_outside_mem,
100 - (100 * (float(test_outside_mem) / float(expected_mem))),
float(delta_percentage),
)
)
for dbgline in dbgmsg.splitlines():
logging.debug(dbgline)
# MAIN TEST CODE ###
# Process cartesian parameters
vm_ref = params.get("setmem_vm_ref", "")
mem_ref = params.get("setmem_mem_ref", "")
flags = params.get("setmem_flags", "")
status_error = params.get("status_error", "no")
old_libvirt_fail = params.get("setmem_old_libvirt_fail", "no")
quiesce_delay = int(params.get("setmem_quiesce_delay", "1"))
domarg = params.get("setmem_domarg", "no")
sizearg = params.get("setmem_sizearg", "no")
libvirt = params.get("libvirt", "on")
delta_percentage = float(params.get("setmem_delta_per", "10"))
start_vm = params.get("start_vm", "yes")
vm_name = params.get("main_vm")
paused_after_start_vm = "yes" == params.get("paused_after_start_vm", "no")
# Gather environment parameters
vm = env.get_vm(params["main_vm"])
if start_vm == "yes":
if paused_after_start_vm:
vm.resume()
session = vm.wait_for_login()
original_inside_mem = vm_proc_meminfo(session)
session.close()
if paused_after_start_vm:
vm.pause()
else:
session = None
# Retrieve known mem value, convert into kilobytes
original_inside_mem = int(params.get("mem", "1024")) * 1024
original_outside_mem = vm.get_used_mem()
domid = vm.get_id()
domuuid = vm.get_uuid()
uri = vm.connect_uri
old_libvirt = is_old_libvirt()
if old_libvirt:
logging.info("Running test on older libvirt")
use_kilobytes = True
else:
logging.info("Running test on newer libvirt")
use_kilobytes = False
# Argument pattern is complex, build with dargs
dargs = {"flagstr": flags, "use_kilobytes": use_kilobytes, "uri": uri, "ignore_status": True, "debug": True}
dargs.update(make_domref(domarg, vm_ref, domid, vm_name, domuuid))
dargs.update(make_sizeref(sizearg, mem_ref, original_outside_mem))
# Prepare libvirtd status
if libvirt == "off":
utils_libvirtd.libvirtd_stop()
else: # make sure it's running
utils_libvirtd.libvirtd_restart()
if status_error == "yes" or old_libvirt_fail == "yes":
logging.info("Error Test: Expecting an error to occur!")
result = virsh.setmem(**dargs)
status = result.exit_status
# Recover libvirtd status
if libvirt == "off":
utils_libvirtd.libvirtd_start()
if status is 0:
logging.info("Waiting %d seconds for VM memory to settle", quiesce_delay)
# It takes time for kernel to settle on new memory
# and current clean pages is not predictable. Therefor,
# extremely difficult to determine quiescence, so
# sleep one second per error percent is reasonable option.
time.sleep(quiesce_delay)
# Gather stats if not running error test
if status_error == "no" and old_libvirt_fail == "no":
if vm.state() == "shut off":
vm.start()
# Make sure it's never paused
vm.resume()
session = vm.wait_for_login()
# Actual results
test_inside_mem = vm_proc_meminfo(session)
session.close()
test_outside_mem = vm.get_used_mem()
# Expected results for both inside and outside
if sizearg == "yes":
expected_mem = int(dargs["sizearg"])
else:
expected_mem = int(dargs["size"])
print_debug_stats(
original_inside_mem, original_outside_mem, test_inside_mem, test_outside_mem, expected_mem, delta_percentage
)
if status is 0: # Restore original memory
restore_status = virsh.setmem(domainarg=vm_name, sizearg=original_outside_mem, ignore_status=True).exit_status
if restore_status is not 0:
logging.warning("Failed to restore VM's original memory to %s KiB" % original_outside_mem)
else:
# virsh setmem failed, no need to restore
pass
# Don't care about memory comparison on error test
if status_error == "no" and old_libvirt_fail == "no":
outside_in_range = is_in_range(test_outside_mem, expected_mem, delta_percentage)
inside_in_range = is_in_range(test_inside_mem, expected_mem, delta_percentage)
if status is not 0 or not outside_in_range or not inside_in_range:
msg = "test conditions not met: "
if status is not 0:
msg += "Non-zero virsh setmem exit code. " # maybe multiple
if not outside_in_range: # errors
msg += "Outside memory deviated. "
if not inside_in_range:
msg += "Inside memory deviated. "
raise error.TestFail(msg)
return # Normal test passed
elif status_error == "no" and old_libvirt_fail == "yes":
if status is 0:
if old_libvirt:
raise error.TestFail("Error test did not result in an error")
else:
if not old_libvirt:
raise error.TestFail("Newer libvirt failed when it should not")
else: # Verify an error test resulted in error
if status is 0:
raise error.TestFail("Error test did not result in an error")
def run(test, params, env):
"""
Test command: virsh setmem.
1) Prepare vm environment.
2) Handle params
3) Prepare libvirtd status.
4) Run test command and wait for current memory's stable.
5) Recover environment.
4) Check result.
"""
def vm_proc_meminfo(session):
"""
Get guest total memory
"""
proc_meminfo = session.cmd_output("cat /proc/meminfo")
# verify format and units are expected
return int(re.search(r'MemTotal:\s+(\d+)\s+kB', proc_meminfo).group(1))
def make_domref(domarg, vm_ref, domid, vm_name, domuuid):
"""
Create domain options of command
"""
# Specify domain as argument or parameter
if domarg == "yes":
dom_darg_key = "domainarg"
else:
dom_darg_key = "domain"
# How to reference domain
if vm_ref == "domid":
dom_darg_value = domid
elif vm_ref == "domname":
dom_darg_value = vm_name
elif vm_ref == "domuuid":
dom_darg_value = domuuid
elif vm_ref == "none":
dom_darg_value = None
elif vm_ref == "emptystring":
dom_darg_value = '""'
else: # stick in value directly
dom_darg_value = vm_ref
return {dom_darg_key: dom_darg_value}
def make_sizeref(sizearg, mem_ref, original_mem):
"""
Create size options of command
"""
if sizearg == "yes":
size_darg_key = "sizearg"
else:
size_darg_key = "size"
if mem_ref == "halfless":
size_darg_value = "%d" % (original_mem / 2)
elif mem_ref == "halfmore":
size_darg_value = "%d" % int(original_mem * 1.5) # no fraction
elif mem_ref == "same":
size_darg_value = "%d" % original_mem
elif mem_ref == "emptystring":
size_darg_value = '""'
elif mem_ref == "zero":
size_darg_value = "0"
elif mem_ref == "toosmall":
size_darg_value = "1024"
elif mem_ref == "toobig":
size_darg_value = "1099511627776" # (KiB) One Petabyte
elif mem_ref == "none":
size_darg_value = None
else: # stick in value directly
size_darg_value = mem_ref
return {size_darg_key: size_darg_value}
def is_in_range(actual, expected, error_percent):
"""
Check if value in reasonable range
"""
deviation = 100 - (100 * (float(actual) / float(expected)))
logging.debug("Deviation: %0.2f%%" % float(deviation))
return float(deviation) <= float(error_percent)
def is_old_libvirt():
"""
Check if libvirt is old version
"""
regex = r'\s+\[--size\]\s+'
return bool(not virsh.has_command_help_match('setmem', regex))
def print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem, expected_mem,
delta_percentage):
"""
Print debug message for test
"""
dbgmsg = ("Original inside mem : %d KiB\n"
"Expected inside mem : %d KiB\n"
"Actual inside mem : %d KiB\n"
"Inside mem deviation : %0.2f%%\n"
"Original outside mem : %d KiB\n"
"Expected outside mem : %d KiB\n"
"Actual outside mem : %d KiB\n"
"Outside mem deviation: %0.2f%%\n"
"Acceptable deviation %0.2f%%" %
(original_inside_mem, expected_mem, test_inside_mem, 100 -
(100 * (float(test_inside_mem) / float(expected_mem))),
original_outside_mem, expected_mem, test_outside_mem, 100 -
(100 * (float(test_outside_mem) / float(expected_mem))),
float(delta_percentage)))
for dbgline in dbgmsg.splitlines():
logging.debug(dbgline)
# MAIN TEST CODE ###
# Process cartesian parameters
vm_ref = params.get("setmem_vm_ref", "")
mem_ref = params.get("setmem_mem_ref", "")
flags = params.get("setmem_flags", "")
status_error = params.get("status_error", "no")
old_libvirt_fail = params.get("setmem_old_libvirt_fail", "no")
quiesce_delay = int(params.get("setmem_quiesce_delay", "1"))
domarg = params.get("setmem_domarg", "no")
sizearg = params.get("setmem_sizearg", "no")
libvirt = params.get("libvirt", "on")
delta_percentage = float(params.get("setmem_delta_per", "10"))
start_vm = params.get("start_vm", "yes")
vm_name = params.get("main_vm", "virt-tests-vm1")
paused_after_start_vm = "yes" == params.get("paused_after_start_vm", "no")
# Gather environment parameters
vm = env.get_vm(vm_name)
if start_vm == "yes":
if paused_after_start_vm:
vm.resume()
session = vm.wait_for_login()
original_inside_mem = vm_proc_meminfo(session)
session.close()
if paused_after_start_vm:
vm.pause()
else:
# Retrieve known mem value, convert into kilobytes
original_inside_mem = int(params.get("mem", "1024")) * 1024
original_outside_mem = vm.get_used_mem()
domid = vm.get_id()
domuuid = vm.get_uuid()
uri = vm.connect_uri
old_libvirt = is_old_libvirt()
if old_libvirt:
logging.info("Running test on older libvirt")
use_kilobytes = True
else:
logging.info("Running test on newer libvirt")
use_kilobytes = False
# Argument pattern is complex, build with dargs
dargs = {
'flagstr': flags,
'use_kilobytes': use_kilobytes,
'uri': uri,
'ignore_status': True,
"debug": True
}
dargs.update(make_domref(domarg, vm_ref, domid, vm_name, domuuid))
dargs.update(make_sizeref(sizearg, mem_ref, original_outside_mem))
# Prepare libvirtd status
if libvirt == "off":
utils_libvirtd.libvirtd_stop()
else:
if not utils_libvirtd.libvirtd_is_running() and \
not utils_libvirtd.libvirtd_start():
raise error.TestFail("Cannot start libvirtd")
if status_error == "yes" or old_libvirt_fail == "yes":
logging.info("Error Test: Expecting an error to occur!")
result = virsh.setmem(**dargs)
status = result.exit_status
# Recover libvirtd status
if libvirt == "off":
utils_libvirtd.libvirtd_start()
if status is 0:
logging.info("Waiting %d seconds for VM memory to settle",
quiesce_delay)
# It takes time for kernel to settle on new memory
# and current clean pages is not predictable. Therefor,
# extremely difficult to determine quiescence, so
# sleep one second per error percent is reasonable option.
time.sleep(quiesce_delay)
# Gather stats if not running error test
if status_error == "no" and old_libvirt_fail == "no":
if start_vm == "yes":
if vm.state() == "shut off":
vm.start()
# Make sure it's never paused
vm.resume()
session = vm.wait_for_login()
# Actual results
test_inside_mem = vm_proc_meminfo(session)
session.close()
else:
test_inside_mem = original_inside_mem
test_outside_mem = vm.get_used_mem()
# Expected results for both inside and outside
if sizearg == "yes":
expected_mem = int(dargs["sizearg"])
else:
expected_mem = int(dargs["size"])
print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem, expected_mem,
delta_percentage)
if status is 0: # Restore original memory
restore_status = virsh.setmem(domainarg=vm_name,
sizearg=original_outside_mem,
ignore_status=True,
flagstr=flags).exit_status
if restore_status != 0:
logging.warning(
"Failed to restore VM's original memory to %s KiB" %
original_outside_mem)
else:
# virsh setmem failed, no need to restore
pass
# Don't care about memory comparison on error test
if status_error == "no" and old_libvirt_fail == "no":
outside_in_range = is_in_range(test_outside_mem, expected_mem,
delta_percentage)
inside_in_range = is_in_range(test_inside_mem, expected_mem,
delta_percentage)
if status is not 0 or not outside_in_range or not inside_in_range:
msg = "test conditions not met: "
if status is not 0:
msg += "Non-zero virsh setmem exit code. " # maybe multiple
if not outside_in_range: # errors
msg += "Outside memory deviated. "
if not inside_in_range:
msg += "Inside memory deviated. "
raise error.TestFail(msg)
return # Normal test passed
elif status_error == "no" and old_libvirt_fail == "yes":
if status is 0:
if old_libvirt:
raise error.TestFail("Error test did not result in an error")
else:
if not old_libvirt:
raise error.TestFail("Newer libvirt failed when it should not")
else: # Verify an error test resulted in error
if status is 0:
raise error.TestFail("Error test did not result in an error")
def run(test, params, env):
"""
Test command: virsh setmem.
1) Prepare vm environment.
2) Handle params
3) Prepare libvirtd status.
4) Run test command and wait for current memory's stable.
5) Recover environment.
4) Check result.
"""
def vm_usable_mem(session):
"""
Get total usable RAM from /proc/meminfo
"""
cmd = "cat /proc/meminfo"
proc_mem = session.cmd_output(cmd)
total_usable_mem = re.search(r'MemTotal:\s+(\d+)\s+[kK]B',
proc_mem).group(1)
return int(total_usable_mem)
def vm_unusable_mem(session):
"""
Get the unusable RAM of the VM.
"""
# Get total physical memory from dmidecode
cmd = "dmidecode -t 17"
dmi_mem = session.cmd_output(cmd)
total_physical_mem = reduce(lambda x, y: int(x) + int(y),
re.findall(r'Size:\s(\d+)\sMB', dmi_mem))
return int(total_physical_mem) * 1024 - vm_usable_mem(session)
def make_domref(domarg, vm_ref, domid, vm_name, domuuid):
"""
Create domain options of command
"""
# Specify domain as argument or parameter
if domarg == "yes":
dom_darg_key = "domainarg"
else:
dom_darg_key = "domain"
# How to reference domain
if vm_ref == "domid":
dom_darg_value = domid
elif vm_ref == "domname":
dom_darg_value = vm_name
elif vm_ref == "domuuid":
dom_darg_value = domuuid
elif vm_ref == "none":
dom_darg_value = None
elif vm_ref == "emptystring":
dom_darg_value = '""'
else: # stick in value directly
dom_darg_value = vm_ref
return {dom_darg_key: dom_darg_value}
def make_sizeref(sizearg, mem_ref, original_mem):
"""
Create size options of command
"""
if sizearg == "yes":
size_darg_key = "sizearg"
else:
size_darg_key = "size"
if mem_ref == "halfless":
size_darg_value = "%d" % (original_mem / 2)
elif mem_ref == "halfmore":
size_darg_value = "%d" % int(original_mem * 1.5) # no fraction
elif mem_ref == "same":
size_darg_value = "%d" % original_mem
elif mem_ref == "emptystring":
size_darg_value = '""'
elif mem_ref == "zero":
size_darg_value = "0"
elif mem_ref == "toosmall":
size_darg_value = "1024"
elif mem_ref == "toobig":
size_darg_value = "1099511627776" # (KiB) One Petabyte
elif mem_ref == "none":
size_darg_value = None
else: # stick in value directly
size_darg_value = mem_ref
return {size_darg_key: size_darg_value}
def cal_deviation(actual, expected):
"""
Calculate deviation of actual result and expected result
"""
numerator = float(actual)
denominator = float(expected)
if numerator > denominator:
numerator = denominator
denominator = float(actual)
return 100 - (100 * (numerator / denominator))
def is_old_libvirt():
"""
Check if libvirt is old version
"""
regex = r'\s+\[--size\]\s+'
return bool(not virsh.has_command_help_match('setmem', regex))
def print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem,
expected_outside_mem, expected_inside_mem,
delta_percentage, unusable_mem):
"""
Print debug message for test
"""
# Calculate deviation
inside_deviation = cal_deviation(test_inside_mem, expected_inside_mem)
outside_deviation = cal_deviation(test_outside_mem, expected_outside_mem)
dbgmsg = ("Unusable memory of VM : %d KiB\n"
"Original inside memory : %d KiB\n"
"Expected inside memory : %d KiB\n"
"Actual inside memory : %d KiB\n"
"Inside memory deviation : %0.2f%%\n"
"Original outside memory : %d KiB\n"
"Expected outside memory : %d KiB\n"
"Actual outside memory : %d KiB\n"
"Outside memory deviation: %0.2f%%\n"
"Acceptable deviation : %0.2f%%" % (
unusable_mem,
original_inside_mem,
expected_inside_mem,
test_inside_mem,
inside_deviation,
original_outside_mem,
expected_outside_mem,
test_outside_mem,
outside_deviation,
delta_percentage))
for dbgline in dbgmsg.splitlines():
logging.debug(dbgline)
# MAIN TEST CODE ###
# Process cartesian parameters
vm_ref = params.get("setmem_vm_ref", "")
mem_ref = params.get("setmem_mem_ref", "")
flags = params.get("setmem_flags", "")
status_error = "yes" == params.get("status_error", "no")
old_libvirt_fail = "yes" == params.get("setmem_old_libvirt_fail", "no")
quiesce_delay = int(params.get("setmem_quiesce_delay", "1"))
domarg = params.get("setmem_domarg", "no")
sizearg = params.get("setmem_sizearg", "no")
libvirt = params.get("libvirt", "on")
delta_percentage = float(params.get("setmem_delta_per", "10"))
start_vm = "yes" == params.get("start_vm", "yes")
vm_name = params.get("main_vm", "avocado-vt-vm1")
paused_after_start_vm = "yes" == params.get("paused_after_start_vm", "no")
manipulate_dom_before_setmem = "yes" == params.get(
"manipulate_dom_before_setmem", "no")
manipulate_dom_after_setmem = "yes" == params.get(
"manipulate_dom_after_setmem", "no")
manipulate_action = params.get("manipulate_action", "")
vm = env.get_vm(vm_name)
# Back up domain XML
vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
backup_xml = vmxml.copy()
vmosxml = vmxml.os
need_mkswap = False
if manipulate_action in ['s3', 's4']:
vm.destroy()
BIOS_BIN = "/usr/share/seabios/bios.bin"
if os.path.isfile(BIOS_BIN):
vmosxml.loader = BIOS_BIN
vmxml.os = vmosxml
vmxml.sync()
else:
logging.error("Not find %s on host", BIOS_BIN)
vmxml.set_pm_suspend(vm_name, "yes", "yes")
vm.prepare_guest_agent()
if manipulate_action == "s4":
need_mkswap = not vm.has_swap()
if need_mkswap:
logging.debug("Creating swap partition")
vm.create_swap_partition()
memballoon_model = params.get("memballoon_model", "")
if memballoon_model:
vm.destroy()
vmxml.del_device('memballoon', by_tag=True)
memballoon_xml = vmxml.get_device_class('memballoon')()
memballoon_xml.model = memballoon_model
vmxml.add_device(memballoon_xml)
logging.info(memballoon_xml)
vmxml.sync()
vm.start()
remove_balloon_driver = "yes" == params.get("remove_balloon_driver", "no")
if remove_balloon_driver:
if not vm.is_alive():
logging.error("Can't remove module as guest not running")
else:
session = vm.wait_for_login()
cmd = "rmmod virtio_balloon"
s_rmmod, o_rmmod = session.cmd_status_output(cmd)
if s_rmmod != 0:
logging.error("Fail to remove module virtio_balloon in guest:\n%s",
o_rmmod)
session.close()
# Get original data
domid = vm.get_id()
domuuid = vm.get_uuid()
uri = vm.connect_uri
if not vm.is_alive():
vm.start()
session = vm.wait_for_login()
unusable_mem = vm_unusable_mem(session)
original_outside_mem = vm.get_used_mem()
original_inside_mem = vm_usable_mem(session)
session.close()
# Prepare VM state
if not start_vm:
vm.destroy()
else:
if paused_after_start_vm:
vm.pause()
old_libvirt = is_old_libvirt()
if old_libvirt:
logging.info("Running test on older libvirt")
use_kilobytes = True
else:
logging.info("Running test on newer libvirt")
use_kilobytes = False
# Argument pattern is complex, build with dargs
dargs = {'flagstr': flags,
'use_kilobytes': use_kilobytes,
'uri': uri, 'ignore_status': True, "debug": True}
dargs.update(make_domref(domarg, vm_ref, domid, vm_name, domuuid))
dargs.update(make_sizeref(sizearg, mem_ref, original_outside_mem))
# Prepare libvirtd status
libvirtd = utils_libvirtd.Libvirtd()
if libvirt == "off":
libvirtd.stop()
else:
if not libvirtd.is_running():
libvirtd.start()
if status_error or (old_libvirt_fail & old_libvirt):
logging.info("Error Test: Expecting an error to occur!")
try:
memory_change = True
if manipulate_dom_before_setmem:
manipulate_domain(vm_name, manipulate_action)
if manipulate_action in ['save', 'managedsave', 's4']:
memory_change = False
result = virsh.setmem(**dargs)
status = result.exit_status
if status is 0:
logging.info(
"Waiting %d seconds for VM memory to settle", quiesce_delay)
# It takes time for kernel to settle on new memory
# and current clean pages is not predictable. Therefor,
# extremely difficult to determine quiescence, so
# sleep one second per error percent is reasonable option.
time.sleep(quiesce_delay)
if manipulate_dom_before_setmem:
manipulate_domain(vm_name, manipulate_action, True)
if manipulate_dom_after_setmem:
manipulate_domain(vm_name, manipulate_action)
manipulate_domain(vm_name, manipulate_action, True)
# Recover libvirtd status
if libvirt == "off":
libvirtd.start()
# Gather stats if not running error test
if not status_error and not old_libvirt_fail:
if not memory_change:
test_inside_mem = original_inside_mem
test_outside_mem = original_outside_mem
else:
if vm.state() == "shut off":
vm.start()
# Make sure it's never paused
vm.resume()
session = vm.wait_for_login()
# Actual results
test_inside_mem = vm_usable_mem(session)
session.close()
test_outside_mem = vm.get_used_mem()
# Expected results for both inside and outside
if remove_balloon_driver:
expected_mem = original_outside_mem
else:
if not memory_change:
expected_mem = original_inside_mem
elif sizearg == "yes":
expected_mem = int(dargs["sizearg"])
else:
expected_mem = int(dargs["size"])
if memory_change:
# Should minus unusable memory for inside memory check
expected_inside_mem = expected_mem - unusable_mem
expected_outside_mem = expected_mem
else:
expected_inside_mem = expected_mem
expected_outside_mem = original_outside_mem
print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem,
expected_outside_mem, expected_inside_mem,
delta_percentage, unusable_mem)
# Don't care about memory comparison on error test
outside_pass = cal_deviation(test_outside_mem,
expected_outside_mem) <= delta_percentage
inside_pass = cal_deviation(test_inside_mem,
expected_inside_mem) <= delta_percentage
if status is not 0 or not outside_pass or not inside_pass:
msg = "test conditions not met: "
if status is not 0:
msg += "Non-zero virsh setmem exit code. "
if not outside_pass:
msg += "Outside memory deviated. "
if not inside_pass:
msg += "Inside memory deviated. "
raise error.TestFail(msg)
return # Normal test passed
elif not status_error and old_libvirt_fail:
if status is 0:
if old_libvirt:
raise error.TestFail("Error test did not result in an error")
else:
if not old_libvirt:
raise error.TestFail("Newer libvirt failed when it should not")
else: # Verify an error test resulted in error
if status is 0:
raise error.TestFail("Error test did not result in an error")
finally:
if need_mkswap:
vm.cleanup_swap()
vm.destroy()
backup_xml.sync()
def trigger_events(dom, events_list=[]):
"""
Trigger various events in events_list
:param dom: the vm objects corresponding to the domain
:return: the expected output that virsh event command prints out
"""
expected_events_list = []
save_path = os.path.join(tmpdir, "%s_event.save" % dom.name)
print(dom.name)
xmlfile = dom.backup_xml()
new_disk = os.path.join(tmpdir, "%s_new_disk.img" % dom.name)
dest_path = os.path.join(data_dir.get_data_dir(), "copy")
try:
for event in events_list:
logging.debug("Current event is: %s", event)
if event in ['start', 'restore', 'create', 'edit', 'define',
'undefine', 'crash', 'device-removal-failed',
'watchdog', 'io-error']:
if dom.is_alive():
dom.destroy()
if event in ['create', 'define']:
dom.undefine()
else:
if not dom.is_alive():
dom.start()
dom.wait_for_login().close()
if event == "resume":
dom.pause()
if event == "undefine":
virsh.undefine(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Undefined Removed")
elif event == "create":
virsh.create(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
elif event == "destroy":
virsh.destroy(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Destroyed")
elif event == "define":
virsh.define(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Defined Added")
elif event == "start":
virsh.start(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
dom.wait_for_login().close()
elif event == "suspend":
virsh.suspend(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
if not libvirt_version.version_compare(5, 3, 0):
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
elif event == "resume":
virsh.resume(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
elif event == "save":
virsh.save(dom.name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
expected_events_list.append("'lifecycle' for %s:"
" Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Restored")
expected_events_list.append("'lifecycle' for %s:"
" Resumed Snapshot")
elif event == "edit":
#Check whether 'description' element exists.
domxml = virsh.dumpxml(dom.name).stdout.strip()
find_desc = parseString(domxml).getElementsByTagName("description")
if find_desc == []:
#If not exists, add one for it.
logging.info("Adding <description> to guest")
virsh.desc(dom.name, "--config", "Added desc for testvm", **virsh_dargs)
#The edit operation is to delete 'description' element.
edit_cmd = [r":g/<description.*<\/description>/d"]
utlv.exec_virsh_edit(dom.name, edit_cmd)
expected_events_list.append("'lifecycle' for %s:"
" Defined Updated")
elif event == "shutdown":
if signal_name is None:
virsh.shutdown(dom.name, **virsh_dargs)
# Wait a few seconds for shutdown finish
time.sleep(3)
if utils_misc.compare_qemu_version(2, 9, 0):
#Shutdown reason distinguished from qemu_2.9.0-9
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished after guest request")
else:
os.kill(dom.get_pid(), getattr(signal, signal_name))
if utils_misc.compare_qemu_version(2, 9, 0):
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished after host request")
if not utils_misc.compare_qemu_version(2, 9, 0):
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished")
wait_for_shutoff(dom)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Shutdown")
elif event == "crash":
if not vmxml.xmltreefile.find('devices').findall('panic'):
# Set panic device
panic_dev = Panic()
panic_dev.model = panic_model
panic_dev.addr_type = addr_type
panic_dev.addr_iobase = addr_iobase
vmxml.add_device(panic_dev)
vmxml.on_crash = "coredump-restart"
vmxml.sync()
logging.info("Guest xml now is: %s", vmxml)
dom.start()
session = dom.wait_for_login()
# Stop kdump in the guest
session.cmd("systemctl stop kdump", ignore_all_errors=True)
# Enable sysRq
session.cmd("echo 1 > /proc/sys/kernel/sysrq")
try:
# Crash the guest
session.cmd("echo c > /proc/sysrq-trigger", timeout=90)
except (ShellTimeoutError, ShellProcessTerminatedError) as details:
logging.info(details)
session.close()
expected_events_list.append("'lifecycle' for %s:"
" Crashed Panicked")
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
elif event == "reset":
virsh.reset(dom.name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(dom.name, '0', '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(dom.name, '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.emulatorpin: 0")
elif event == "setmem":
mem_size = int(params.get("mem_size", 512000))
virsh.setmem(dom.name, mem_size, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "device-added-removed":
add_disk(dom.name, new_disk, 'vdb', '')
expected_events_list.append("'device-added' for %s:"
" virtio-disk1")
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" virtio-disk1")
iface_xml_obj = create_iface_xml()
iface_xml_obj.xmltreefile.write()
virsh.detach_device(dom.name, iface_xml_obj.xml, **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" net0")
time.sleep(2)
virsh.attach_device(dom.name, iface_xml_obj.xml, **virsh_dargs)
expected_events_list.append("'device-added' for %s:"
" net0")
elif event == "block-threshold":
add_disk(dom.name, new_disk, 'vdb', '', format=disk_format)
logging.debug(process.run('qemu-img info %s -U' % new_disk))
virsh.domblkthreshold(vm_name, 'vdb', '100M')
session = dom.wait_for_login()
session.cmd("mkfs.ext4 /dev/vdb && mount /dev/vdb /mnt && ls /mnt && "
"dd if=/dev/urandom of=/mnt/bigfile bs=1M count=300 && sync")
time.sleep(5)
session.close()
expected_events_list.append("'block-threshold' for %s:"
" dev: vdb(%s) 104857600 29368320")
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
elif event == "change-media":
target_device = "hdc"
device_target_bus = params.get("device_target_bus", "ide")
disk_blk = vm_xml.VMXML.get_disk_blk(dom.name)
logging.info("disk_blk %s", disk_blk)
if target_device not in disk_blk:
logging.info("Adding cdrom to guest")
if dom.is_alive():
dom.destroy()
add_disk(dom.name, new_disk, target_device,
("--type cdrom --sourcetype file --driver qemu " +
"--config --targetbus %s" % device_target_bus))
dom.start()
all_options = new_disk + " --insert"
virsh.change_media(dom.name, target_device,
all_options, **virsh_dargs)
expected_events_list.append("'tray-change' for %s disk" + " .*%s.*:" % device_target_bus +
" opened")
expected_events_list.append("'tray-change' for %s disk" + " .*%s.*:" % device_target_bus +
" closed")
all_options = new_disk + " --eject"
virsh.change_media(dom.name, target_device,
all_options, **virsh_dargs)
expected_events_list.append("'tray-change' for %s disk" + " .*%s.*:" % device_target_bus +
" opened")
elif event == "hwclock":
session = dom.wait_for_login()
try:
session.cmd("hwclock --systohc", timeout=60)
except (ShellTimeoutError, ShellProcessTerminatedError) as details:
logging.info(details)
session.close()
expected_events_list.append("'rtc-change' for %s:")
elif event == "metadata_set":
metadata_uri = params.get("metadata_uri")
metadata_key = params.get("metadata_key")
metadata_value = params.get("metadata_value")
virsh.metadata(dom.name,
metadata_uri,
options="",
key=metadata_key,
new_metadata=metadata_value,
**virsh_dargs)
expected_events_list.append("'metadata-change' for %s: "
"element http://app.org/")
elif event == "metadata_edit":
metadata_uri = "http://herp.derp/"
metadata_key = "herp"
metadata_value = "<derp xmlns:foobar='http://foo.bar/'>foo<bar></bar></derp>"
virsh_cmd = r"virsh metadata %s --uri %s --key %s %s"
virsh_cmd = virsh_cmd % (dom.name, metadata_uri,
metadata_key, "--edit")
session = aexpect.ShellSession("sudo -s")
logging.info("Running command: %s", virsh_cmd)
try:
session.sendline(virsh_cmd)
session.sendline(r":insert")
session.sendline(metadata_value)
session.sendline(".")
session.send('ZZ')
remote.handle_prompts(session, None, None, r"[\#\$]\s*$",
debug=True, timeout=60)
except Exception as e:
test.error("Error occured: %s" % e)
session.close()
# Check metadata after edit
virsh.metadata(dom.name,
metadata_uri,
options="",
key=metadata_key,
**virsh_dargs)
expected_events_list.append("'metadata-change' for %s: "
"element http://app.org/")
elif event == "metadata_remove":
virsh.metadata(dom.name,
metadata_uri,
options="--remove",
key=metadata_key,
**virsh_dargs)
expected_events_list.append("'metadata-change' for %s: "
"element http://app.org/")
elif event == "blockcommit":
disk_path = dom.get_blk_devices()['vda']['source']
virsh.snapshot_create_as(dom.name, "s1 --disk-only --no-metadata", **virsh_dargs)
snapshot_path = dom.get_blk_devices()['vda']['source']
virsh.blockcommit(dom.name, "vda", "--active --pivot", **virsh_dargs)
expected_events_list.append("'block-job' for %s: "
"Active Block Commit for " + "%s" % snapshot_path + " ready")
expected_events_list.append("'block-job-2' for %s: "
"Active Block Commit for vda ready")
expected_events_list.append("'block-job' for %s: "
"Active Block Commit for " + "%s" % disk_path + " completed")
expected_events_list.append("'block-job-2' for %s: "
"Active Block Commit for vda completed")
os.unlink(snapshot_path)
elif event == "blockcopy":
disk_path = dom.get_blk_devices()['vda']['source']
dom.undefine()
virsh.blockcopy(dom.name, "vda", dest_path, "--pivot", **virsh_dargs)
expected_events_list.append("'block-job' for %s: "
"Block Copy for " + "%s" % disk_path + " ready")
expected_events_list.append("'block-job-2' for %s: "
"Block Copy for vda ready")
expected_events_list.append("'block-job' for %s: "
"Block Copy for " + "%s" % dest_path + " completed")
expected_events_list.append("'block-job-2' for %s: "
"Block Copy for vda completed")
elif event == "detach-dimm":
prepare_vmxml_mem(vmxml)
tg_size = params.get("dimm_size")
tg_sizeunit = params.get("dimm_unit")
dimm_xml = utils_hotplug.create_mem_xml(tg_size, None, None, tg_sizeunit)
virsh.attach_device(dom.name, dimm_xml.xml,
flagstr="--config", **virsh_dargs)
vmxml_dimm = vm_xml.VMXML.new_from_dumpxml(dom.name)
logging.debug("Current vmxml with plugged dimm dev is %s\n" % vmxml_dimm)
virsh.start(dom.name, **virsh_dargs)
dom.wait_for_login().close()
result = virsh.detach_device(dom.name, dimm_xml.xml, debug=True, ignore_status=True)
expected_fails = params.get("expected_fails")
utlv.check_result(result, expected_fails)
vmxml_live = vm_xml.VMXML.new_from_dumpxml(dom.name)
logging.debug("Current vmxml after hot-unplug dimm is %s\n" % vmxml_live)
expected_events_list.append("'device-removal-failed' for %s: dimm0")
elif event == "watchdog":
vmxml.remove_all_device_by_type('watchdog')
watchdog_dev = Watchdog()
watchdog_dev.model_type = params.get("watchdog_model")
action = params.get("action")
watchdog_dev.action = action
vmxml.add_device(watchdog_dev)
vmxml.sync()
logging.debug("Current vmxml with watchdog dev is %s\n" % vmxml)
virsh.start(dom.name, **virsh_dargs)
session = dom.wait_for_login()
try:
session.cmd("echo 0 > /dev/watchdog")
except (ShellTimeoutError, ShellProcessTerminatedError) as details:
test.fail("Failed to trigger watchdog: %s" % details)
session.close()
# watchdog acts slowly, waiting for it.
time.sleep(30)
expected_events_list.append("'watchdog' for %s: " + "%s" % action)
if action == 'pause':
expected_events_list.append("'lifecycle' for %s: Suspended Watchdog")
virsh.resume(dom.name, **virsh_dargs)
else:
# action == 'reset'
expected_events_list.append("'reboot' for %s")
elif event == "io-error":
part_size = params.get("part_size")
resume_event = params.get("resume_event")
suspend_event = params.get("suspend_event")
process.run("truncate -s %s %s" % (part_size, small_part), shell=True)
utlv.mkfs(small_part, part_format)
utils_misc.mount(small_part, mount_point, None)
add_disk(dom.name, new_disk, 'vdb', '--subdriver qcow2 --config', 'qcow2')
dom.start()
session = dom.wait_for_login()
session.cmd("mkfs.ext4 /dev/vdb && mount /dev/vdb /mnt && ls /mnt && "
"dd if=/dev/zero of=/mnt/test.img bs=1M count=50", ignore_all_errors=True)
time.sleep(5)
session.close()
expected_events_list.append("'io-error' for %s: " + "%s" % new_disk + r" \(virtio-disk1\) pause")
expected_events_list.append("'io-error-reason' for %s: " + "%s" % new_disk + r" \(virtio-disk1\) pause due to enospc")
expected_events_list.append(suspend_event)
process.run("df -hT")
virsh.resume(dom.name, **virsh_dargs)
time.sleep(5)
expected_events_list.append(resume_event)
expected_events_list.append("'io-error' for %s: " + "%s" % new_disk + r" \(virtio-disk1\) pause")
expected_events_list.append("'io-error-reason' for %s: " + "%s" % new_disk + r" \(virtio-disk1\) pause due to enospc")
expected_events_list.append(suspend_event)
ret = virsh.domstate(dom.name, "--reason", **virsh_dargs)
if ret.stdout.strip() != "paused (I/O error)":
test.fail("Domain state should still be paused due to I/O error!")
else:
test.error("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
if os.path.exists(dest_path):
os.unlink(dest_path)
return [(dom.name, event) for event in expected_events_list]
def trigger_events(dom, events_list=[]):
"""
Trigger various events in events_list
:param dom: the vm objects corresponding to the domain
:return: the expected output that virsh event command prints out
"""
expected_events_list = []
save_path = os.path.join(tmpdir, "%s_event.save" % dom.name)
print(dom.name)
xmlfile = dom.backup_xml()
try:
for event in events_list:
logging.debug("Current event is: %s", event)
if event in ['start', 'restore', 'create', 'edit', 'define', 'undefine', 'crash']:
if dom.is_alive():
dom.destroy()
if event in ['create', 'define']:
dom.undefine()
else:
if not dom.is_alive():
dom.start()
dom.wait_for_login().close()
if event == "resume":
dom.pause()
if event == "undefine":
virsh.undefine(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Undefined Removed")
elif event == "create":
virsh.create(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
elif event == "destroy":
virsh.destroy(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Destroyed")
elif event == "define":
virsh.define(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Defined Added")
elif event == "start":
virsh.start(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
dom.wait_for_login().close()
elif event == "suspend":
virsh.suspend(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
if not libvirt_version.version_compare(5, 3, 0):
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
elif event == "resume":
virsh.resume(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
elif event == "save":
virsh.save(dom.name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
expected_events_list.append("'lifecycle' for %s:"
" Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Restored")
expected_events_list.append("'lifecycle' for %s:"
" Resumed Snapshot")
elif event == "edit":
#Check whether 'description' element exists.
domxml = virsh.dumpxml(dom.name).stdout.strip()
find_desc = parseString(domxml).getElementsByTagName("description")
if find_desc == []:
#If not exists, add one for it.
logging.info("Adding <description> to guest")
virsh.desc(dom.name, "--config", "Added desc for testvm", **virsh_dargs)
#The edit operation is to delete 'description' element.
edit_cmd = [r":g/<description.*<\/description>/d"]
utlv.exec_virsh_edit(dom.name, edit_cmd)
expected_events_list.append("'lifecycle' for %s:"
" Defined Updated")
elif event == "shutdown":
if signal_name is None:
virsh.shutdown(dom.name, **virsh_dargs)
# Wait a few seconds for shutdown finish
time.sleep(3)
if utils_misc.compare_qemu_version(2, 9, 0):
#Shutdown reason distinguished from qemu_2.9.0-9
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished after guest request")
else:
os.kill(dom.get_pid(), getattr(signal, signal_name))
if utils_misc.compare_qemu_version(2, 9, 0):
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished after host request")
if not utils_misc.compare_qemu_version(2, 9, 0):
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished")
wait_for_shutoff(dom)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Shutdown")
elif event == "crash":
if not vmxml.xmltreefile.find('devices').findall('panic'):
# Set panic device
panic_dev = Panic()
panic_dev.model = panic_model
panic_dev.addr_type = addr_type
panic_dev.addr_iobase = addr_iobase
vmxml.add_device(panic_dev)
vmxml.on_crash = "coredump-restart"
vmxml.sync()
logging.info("Guest xml now is: %s", vmxml)
dom.start()
session = dom.wait_for_login()
# Stop kdump in the guest
session.cmd("systemctl stop kdump", ignore_all_errors=True)
# Enable sysRq
session.cmd("echo 1 > /proc/sys/kernel/sysrq")
try:
# Crash the guest
session.cmd("echo c > /proc/sysrq-trigger", timeout=60)
except (ShellTimeoutError, ShellProcessTerminatedError) as details:
logging.info(details)
session.close()
expected_events_list.append("'lifecycle' for %s:"
" Crashed Panicked")
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
elif event == "reset":
virsh.reset(dom.name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(dom.name, '0', '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(dom.name, '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.emulatorpin: 0")
elif event == "setmem":
mem_size = int(params.get("mem_size", 512000))
virsh.setmem(dom.name, mem_size, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "device-added-removed":
add_disk(dom.name, new_disk, 'vdb', '')
expected_events_list.append("'device-added' for %s:"
" virtio-disk1")
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" virtio-disk1")
iface_xml_obj = create_iface_xml()
iface_xml_obj.xmltreefile.write()
virsh.detach_device(dom.name, iface_xml_obj.xml, **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" net0")
time.sleep(2)
virsh.attach_device(dom.name, iface_xml_obj.xml, **virsh_dargs)
expected_events_list.append("'device-added' for %s:"
" net0")
elif event == "block-threshold":
add_disk(dom.name, new_disk, 'vdb', '', format=disk_format)
logging.debug(process.run('qemu-img info %s -U' % new_disk))
virsh.domblkthreshold(vm_name, 'vdb', '100M')
session = dom.wait_for_login()
session.cmd("mkfs.ext4 /dev/vdb && mount /dev/vdb /mnt && ls /mnt && "
"dd if=/dev/urandom of=/mnt/bigfile bs=1M count=300 && sync")
time.sleep(5)
session.close()
expected_events_list.append("'block-threshold' for %s:"
" dev: vdb(%s) 104857600 29368320")
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
elif event == "change-media":
target_device = "hdc"
device_target_bus = params.get("device_target_bus", "ide")
disk_blk = vm_xml.VMXML.get_disk_blk(dom.name)
logging.info("disk_blk %s", disk_blk)
if target_device not in disk_blk:
logging.info("Adding cdrom to guest")
if dom.is_alive():
dom.destroy()
add_disk(dom.name, "''", target_device,
("--type cdrom --sourcetype file --driver qemu " +
"--config --targetbus %s" % device_target_bus))
dom.start()
all_options = new_disk + " --insert"
virsh.change_media(dom.name, target_device,
all_options, **virsh_dargs)
expected_events_list.append("'tray-change' for %s disk" + " .*%s.*:" % device_target_bus +
" opened")
expected_events_list.append("'tray-change' for %s disk" + " .*%s.*:" % device_target_bus +
" closed")
all_options = new_disk + " --eject"
virsh.change_media(dom.name, target_device,
all_options, **virsh_dargs)
expected_events_list.append("'tray-change' for %s disk" + " .*%s.*:" % device_target_bus +
" opened")
elif event == "hwclock":
session = dom.wait_for_login()
try:
session.cmd("hwclock --systohc", timeout=60)
except (ShellTimeoutError, ShellProcessTerminatedError) as details:
logging.info(details)
session.close()
expected_events_list.append("'rtc-change' for %s:")
elif event == "metadata_set":
metadata_uri = params.get("metadata_uri")
metadata_key = params.get("metadata_key")
metadata_value = params.get("metadata_value")
virsh.metadata(dom.name,
metadata_uri,
options="",
key=metadata_key,
new_metadata=metadata_value,
**virsh_dargs)
expected_events_list.append("'metadata-change' for %s: "
"element http://app.org/")
elif event == "metadata_edit":
metadata_uri = "http://herp.derp/"
metadata_key = "herp"
metadata_value = "<derp xmlns:foobar='http://foo.bar/'>foo<bar></bar></derp>"
virsh_cmd = r"virsh metadata %s --uri %s --key %s %s"
virsh_cmd = virsh_cmd % (dom.name, metadata_uri,
metadata_key, "--edit")
session = aexpect.ShellSession("sudo -s")
logging.info("Running command: %s", virsh_cmd)
try:
session.sendline(virsh_cmd)
session.sendline(r":insert")
session.sendline(metadata_value)
session.sendline(".")
session.send('ZZ')
remote.handle_prompts(session, None, None, r"[\#\$]\s*$",
debug=True, timeout=60)
except Exception as e:
test.error("Error occured: %s" % e)
session.close()
# Check metadata after edit
virsh.metadata(dom.name,
metadata_uri,
options="",
key=metadata_key,
**virsh_dargs)
expected_events_list.append("'metadata-change' for %s: "
"element http://app.org/")
elif event == "metadata_remove":
virsh.metadata(dom.name,
metadata_uri,
options="--remove",
key=metadata_key,
**virsh_dargs)
expected_events_list.append("'metadata-change' for %s: "
"element http://app.org/")
else:
test.error("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
return [(dom.name, event) for event in expected_events_list]
def trigger_events(dom, events_list=[]):
"""
Trigger various events in events_list
:param dom: the vm objects corresponding to the domain
:return: the expected output that virsh event command prints out
"""
expected_events_list = []
tmpdir = data_dir.get_tmp_dir()
save_path = os.path.join(tmpdir, "%s_event.save" % dom.name)
new_disk = os.path.join(tmpdir, "%s_new_disk.img" % dom.name)
print(dom.name)
try:
for event in events_list:
if event in ['start', 'restore']:
if dom.is_alive():
dom.destroy()
else:
if not dom.is_alive():
dom.start()
dom.wait_for_login().close()
if event == "start":
virsh.start(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
dom.wait_for_login().close()
elif event == "save":
virsh.save(dom.name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Restored")
elif event == "destroy":
virsh.destroy(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Destroyed")
elif event == "reset":
virsh.reset(dom.name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(dom.name, '0', '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(dom.name, '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.emulatorpin: 0")
elif event == "setmem":
mem_size = int(params.get("mem_size", 512000))
virsh.setmem(dom.name, mem_size, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "detach-disk":
if not os.path.exists(new_disk):
open(new_disk, 'a').close()
# Attach disk firstly, this event will not be catched
virsh.attach_disk(dom.name, new_disk, 'vdb', **virsh_dargs)
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" virtio-disk1")
else:
test.error("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
return [(dom.name, event) for event in expected_events_list]
def run(test, params, env):
"""
Test command: virsh setmem.
1) Prepare vm environment.
2) Handle params
3) Prepare libvirtd status.
4) Run test command and wait for current memory's stable.
5) Recover environment.
4) Check result.
"""
def get_vm_usable_mem(session):
"""
Get total usable RAM from /proc/meminfo
"""
cmd = "cat /proc/meminfo"
proc_mem = session.cmd_output(cmd)
total_usable_mem = re.search(r'MemTotal:\s+(\d+)\s+[kK]B',
proc_mem).group(1)
return int(total_usable_mem)
def vm_unusable_mem(session):
"""
Get the unusable RAM of the VM.
"""
# Get total physical memory from dmidecode
cmd = "dmidecode -t 17"
dmi_mem = session.cmd_output(cmd)
dmi_mem_size = re.findall(r'Size:\s(\d+\s+[K|M|G]B)', dmi_mem)
if not dmi_mem_size:
test.fail("Cannot get memory size info inside VM.")
total_physical_mem = 0
for size_info in dmi_mem_size:
mem_size = int(size_info.split()[0].strip())
mem_unit = size_info.split()[1].strip()
if mem_unit.lower() == 'kb':
total_physical_mem += mem_size
elif mem_unit.lower() == 'mb':
total_physical_mem += mem_size * 1024
elif mem_unit.lower() == 'gb':
total_physical_mem += mem_size * 1048576
return total_physical_mem - get_vm_usable_mem(session)
def make_domref(domarg, vm_ref, domid, vm_name, domuuid):
"""
Create domain options of command
"""
# Specify domain as argument or parameter
if domarg == "yes":
dom_darg_key = "domainarg"
else:
dom_darg_key = "domain"
# How to reference domain
if vm_ref == "domid":
dom_darg_value = domid
elif vm_ref == "domname":
dom_darg_value = vm_name
elif vm_ref == "domuuid":
dom_darg_value = domuuid
elif vm_ref == "none":
dom_darg_value = None
elif vm_ref == "emptystring":
dom_darg_value = '""'
else: # stick in value directly
dom_darg_value = vm_ref
return {dom_darg_key: dom_darg_value}
def make_sizeref(sizearg, mem_ref, original_mem):
"""
Create size options of command
"""
if sizearg == "yes":
size_darg_key = "sizearg"
else:
size_darg_key = "size"
if mem_ref == "halfless":
size_darg_value = "%d" % (original_mem // 2)
elif mem_ref == "halfmore":
size_darg_value = "%d" % int(original_mem * 1.5) # no fraction
elif mem_ref == "same":
size_darg_value = "%d" % original_mem
elif mem_ref == "emptystring":
size_darg_value = '""'
elif mem_ref == "zero":
size_darg_value = "0"
elif mem_ref == "toosmall":
size_darg_value = "1024"
elif mem_ref == "toobig":
size_darg_value = "1099511627776" # (KiB) One Petabyte
elif mem_ref == "none":
size_darg_value = None
else: # stick in value directly
size_darg_value = mem_ref
return {size_darg_key: size_darg_value}
def cal_deviation(actual, expected):
"""
Calculate deviation of actual result and expected result
"""
numerator = float(actual)
denominator = float(expected)
if numerator > denominator:
numerator = denominator
denominator = float(actual)
return 100 - (100 * (numerator / denominator))
def is_old_libvirt():
"""
Check if libvirt is old version
"""
regex = r'\s+\[--size\]\s+'
return bool(not virsh.has_command_help_match('setmem', regex))
def print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem,
expected_outside_mem, expected_inside_mem,
delta_percentage, unusable_mem):
"""
Print debug message for test
"""
# Calculate deviation
inside_deviation = cal_deviation(test_inside_mem, expected_inside_mem)
outside_deviation = cal_deviation(test_outside_mem,
expected_outside_mem)
dbgmsg = ("Unusable memory of VM : %d KiB\n"
"Original inside memory : %d KiB\n"
"Expected inside memory : %d KiB\n"
"Actual inside memory : %d KiB\n"
"Inside memory deviation : %0.2f%%\n"
"Original outside memory : %d KiB\n"
"Expected outside memory : %d KiB\n"
"Actual outside memory : %d KiB\n"
"Outside memory deviation: %0.2f%%\n"
"Acceptable deviation : %0.2f%%" %
(unusable_mem, original_inside_mem, expected_inside_mem,
test_inside_mem, inside_deviation, original_outside_mem,
expected_outside_mem, test_outside_mem, outside_deviation,
delta_percentage))
for dbgline in dbgmsg.splitlines():
logging.debug(dbgline)
# MAIN TEST CODE ###
# Process cartesian parameters
vm_ref = params.get("setmem_vm_ref", "")
mem_ref = params.get("setmem_mem_ref", "")
flags = params.get("setmem_flags", "")
status_error = "yes" == params.get("status_error", "no")
old_libvirt_fail = "yes" == params.get("setmem_old_libvirt_fail", "no")
quiesce_delay = int(params.get("setmem_quiesce_delay", "1"))
domarg = params.get("setmem_domarg", "no")
sizearg = params.get("setmem_sizearg", "no")
libvirt_status = params.get("libvirt", "on")
delta_percentage = float(params.get("setmem_delta_per", "10"))
start_vm = "yes" == params.get("start_vm", "yes")
vm_name = params.get("main_vm", "avocado-vt-vm1")
paused_after_start_vm = "yes" == params.get("paused_after_start_vm", "no")
manipulate_dom_before_setmem = "yes" == params.get(
"manipulate_dom_before_setmem", "no")
manipulate_dom_after_setmem = "yes" == params.get(
"manipulate_dom_after_setmem", "no")
manipulate_action = params.get("manipulate_action", "")
readonly = "yes" == params.get("setmem_readonly", "no")
expect_msg = params.get("setmem_err_msg")
driver_packed = params.get("driver_packed", "on")
with_packed = "yes" == params.get("with_packed", "no")
expect_xml_line = params.get("expect_xml_line")
expect_qemu_line = params.get("expect_qemu_line")
vm = env.get_vm(vm_name)
# Back up domain XML
vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
backup_xml = vmxml.copy()
if with_packed and not libvirt_version.version_compare(6, 3, 0):
test.cancel("The virtio packed attribute is not supported in"
" current libvirt version.")
vmosxml = vmxml.os
need_mkswap = False
if manipulate_action in ['s3', 's4']:
vm.destroy()
BIOS_BIN = "/usr/share/seabios/bios.bin"
if os.path.isfile(BIOS_BIN):
vmosxml.loader = BIOS_BIN
vmxml.os = vmosxml
vmxml.sync()
else:
logging.error("Not find %s on host", BIOS_BIN)
vmxml.set_pm_suspend(vm_name, "yes", "yes")
vm.prepare_guest_agent()
if manipulate_action == "s4":
need_mkswap = not vm.has_swap()
if need_mkswap:
logging.debug("Creating swap partition")
vm.create_swap_partition()
memballoon_model = params.get("memballoon_model", "")
if memballoon_model:
vm.destroy()
vmxml.del_device('memballoon', by_tag=True)
memballoon_xml = vmxml.get_device_class('memballoon')()
memballoon_xml.model = memballoon_model
if with_packed:
memballoon_xml.driver_packed = driver_packed
vmxml.add_device(memballoon_xml)
logging.info(memballoon_xml)
vmxml.sync()
vm.start()
# Check guest dumpxml and qemu command in with_packed attribute
if with_packed:
expect_xml_line = expect_xml_line % driver_packed
if utils_misc.compare_qemu_version(6, 2, 0, is_rhev=False):
expect_qemu_line = expect_qemu_line % "true"
else:
expect_qemu_line = expect_qemu_line % driver_packed
libvirt.check_dumpxml(vm, expect_xml_line)
libvirt.check_qemu_cmd_line(expect_qemu_line)
remove_balloon_driver = "yes" == params.get("remove_balloon_driver", "no")
if remove_balloon_driver:
if not vm.is_alive():
logging.error("Can't remove module as guest not running")
else:
session = vm.wait_for_login()
cmd = "rmmod virtio_balloon"
s_rmmod, o_rmmod = session.cmd_status_output(cmd)
if s_rmmod != 0:
logging.error(
"Fail to remove module virtio_balloon in guest:\n%s",
o_rmmod)
session.close()
# Get original data
domid = vm.get_id()
domuuid = vm.get_uuid()
uri = vm.connect_uri
if not vm.is_alive():
vm.start()
session = vm.wait_for_login()
if session.cmd_status('dmidecode'):
# The physical memory size is in vm xml, use it when dmidecode not
# supported
unusable_mem = int(vmxml.max_mem) - get_vm_usable_mem(session)
else:
unusable_mem = vm_unusable_mem(session)
original_outside_mem = vm.get_used_mem()
original_inside_mem = get_vm_usable_mem(session)
session.close()
# Prepare VM state
if not start_vm:
vm.destroy()
else:
if paused_after_start_vm:
vm.pause()
old_libvirt = is_old_libvirt()
if old_libvirt:
logging.info("Running test on older libvirt")
use_kilobytes = True
else:
logging.info("Running test on newer libvirt")
use_kilobytes = False
# Argument pattern is complex, build with dargs
dargs = {
'flagstr': flags,
'use_kilobytes': use_kilobytes,
'uri': uri,
'ignore_status': True,
"debug": True,
'readonly': readonly
}
dargs.update(make_domref(domarg, vm_ref, domid, vm_name, domuuid))
dargs.update(make_sizeref(sizearg, mem_ref, original_outside_mem))
# Prepare libvirtd status
libvirtd = utils_libvirtd.Libvirtd()
if libvirt_status == "off":
libvirtd.stop()
else:
if not libvirtd.is_running():
libvirtd.start()
if status_error or (old_libvirt_fail & old_libvirt):
logging.info("Error Test: Expecting an error to occur!")
try:
memory_change = True
if manipulate_dom_before_setmem:
manipulate_domain(test, vm_name, manipulate_action)
if manipulate_action in ['save', 'managedsave', 's4']:
memory_change = False
result = virsh.setmem(**dargs)
status = result.exit_status
if status is 0:
logging.info("Waiting %d seconds for VM memory to settle",
quiesce_delay)
# It takes time for kernel to settle on new memory
# and current clean pages is not predictable. Therefore,
# extremely difficult to determine quiescence, so
# sleep one second per error percent is reasonable option.
time.sleep(quiesce_delay)
if manipulate_dom_before_setmem:
manipulate_domain(test, vm_name, manipulate_action, True)
if manipulate_dom_after_setmem:
manipulate_domain(test, vm_name, manipulate_action)
manipulate_domain(test, vm_name, manipulate_action, True)
# Recover libvirtd status
if libvirt_status == "off":
libvirtd.start()
# Gather stats if not running error test
if not status_error and not old_libvirt_fail:
# Expected results for both inside and outside
if remove_balloon_driver:
expected_mem = original_outside_mem
else:
if not memory_change:
expected_mem = original_inside_mem
elif sizearg == "yes":
expected_mem = int(dargs["sizearg"])
else:
expected_mem = int(dargs["size"])
if memory_change:
# Should minus unusable memory for inside memory check
expected_inside_mem = expected_mem - unusable_mem
expected_outside_mem = expected_mem
else:
expected_inside_mem = expected_mem
expected_outside_mem = original_outside_mem
def get_vm_mem():
"""
Test results for both inside and outside
:return: Get vm memory for both inside and outside
"""
if not memory_change:
test_inside_mem = original_inside_mem
test_outside_mem = original_outside_mem
else:
if vm.state() == "shut off":
vm.start()
elif vm.state() == "paused":
# Make sure it's never paused
vm.resume()
session = vm.wait_for_login()
# Actual results
test_inside_mem = get_vm_usable_mem(session)
session.close()
test_outside_mem = vm.get_used_mem()
return (test_inside_mem, test_outside_mem)
# Don't care about memory comparison on error test
def verify_outside_result():
_, test_outside_mem = get_vm_mem()
return (cal_deviation(test_outside_mem, expected_outside_mem)
<= delta_percentage)
def verify_inside_result():
test_inside_mem, _ = get_vm_mem()
return (cal_deviation(test_inside_mem, expected_inside_mem) <=
delta_percentage)
msg = "test conditions not met: "
error_flag = 0
if status is not 0:
error_flag = 1
msg += "Non-zero virsh setmem exit code. "
if not utils_misc.wait_for(verify_outside_result, timeout=240):
error_flag = 1
msg += "Outside memory deviated. "
if not utils_misc.wait_for(verify_inside_result, timeout=240):
error_flag = 1
msg += "Inside memory deviated. "
test_inside_mem, test_outside_mem = get_vm_mem()
print_debug_stats(original_inside_mem, original_outside_mem,
test_inside_mem, test_outside_mem,
expected_outside_mem, expected_inside_mem,
delta_percentage, unusable_mem)
if error_flag:
test.fail(msg)
elif not status_error and old_libvirt_fail:
if status is 0:
if old_libvirt:
test.fail("Error test did not result in an error")
else:
if not old_libvirt:
test.fail("Newer libvirt failed when it should not")
else: # Verify an error test resulted in error
if status is 0:
test.fail("Error test did not result in an error")
if expect_msg:
libvirt.check_result(result, expect_msg.split(';'))
finally:
if need_mkswap:
vm.cleanup_swap()
vm.destroy()
backup_xml.sync()
def run(test, params, env):
"""
Test virtio/virtio-transitional/virtio-non-transitional model of
memory balloon
:param test: Test object
:param params: Dictionary with the test parameters
:param env: Dictionary with test environment
Test steps:
1. Prepareguest domain and balloon xml use one of
virtio/virtio-non-transitional/virtio-transitional model
2. Start domain and check the device exist in guest
3. Save/Restore and check if guest works well
4. Set balloon memory and see if it works in guest
"""
vm_name = params.get("main_vm", "avocado-vt-vm1")
vm = env.get_vm(params["main_vm"])
vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
backup_xml = vmxml.copy()
guest_src_url = params.get("guest_src_url")
virtio_model = params['virtio_model']
os_variant = params.get("os_variant", "")
params["disk_model"] = virtio_model
if not libvirt_version.version_compare(5, 0, 0):
test.cancel("This libvirt version doesn't support "
"virtio-transitional model.")
# Download and replace image when guest_src_url provided
if guest_src_url:
image_name = params['image_path']
target_path = utils_misc.get_path(data_dir.get_data_dir(), image_name)
if not os.path.exists(target_path):
download.get_file(guest_src_url, target_path)
params["blk_source_name"] = target_path
try:
# Update disk and interface to correct model
if (os_variant == 'rhel6' or 'rhel6' in params.get("shortname")):
iface_params = {'model': 'virtio-transitional'}
libvirt.modify_vm_iface(vm_name, "update_iface", iface_params)
libvirt.set_vm_disk(vm, params)
# The local variable "vmxml" will not be updated since set_vm_disk
# sync with another dumped xml inside the function
vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
# Update memory balloon device to correct model
membal_dict = {
'membal_model': virtio_model,
'membal_stats_period': '10'
}
libvirt.update_memballoon_xml(vmxml, membal_dict)
if not vm.is_alive():
vm.start()
is_windows_guest = (params['os_type'] == 'Windows')
session = vm.wait_for_login()
# Check memory statistic
if libvirt_version.version_compare(6, 6, 0):
if (os_variant != 'rhel6'
or 'rhel6' not in params.get("shortname")):
rs = virsh.dommemstat(vm_name, ignore_status=True,
debug=True).stdout_text
if "available" not in rs:
test.fail("Can't get memory stats in %s model" %
virtio_model)
# Finish test for Windows guest
if is_windows_guest:
return
# Check if memory balloon device exists on guest
status = session.cmd_status_output('lspci |grep balloon')[0]
if status != 0:
test.fail("Didn't detect memory balloon device on guest.")
# Save and restore guest
sn_path = os.path.join(data_dir.get_tmp_dir(), os_variant)
session.close()
virsh.save(vm_name, sn_path)
virsh.restore(sn_path)
session = vm.wait_for_login()
# Get original memory for later balloon function check
ori_outside_mem = vm.get_max_mem()
ori_guest_mem = vm.get_current_memory_size()
# balloon half of the memory
ballooned_mem = ori_outside_mem // 2
# Set memory to test balloon function
virsh.setmem(vm_name, ballooned_mem)
# Check if memory is ballooned successfully
logging.info("Check memory status")
unusable_mem = ori_outside_mem - ori_guest_mem
gcompare_threshold = int(
params.get("guest_compare_threshold", unusable_mem))
after_mem = vm.get_current_memory_size()
act_threshold = ballooned_mem - after_mem
if (after_mem > ballooned_mem) or (abs(act_threshold) >
gcompare_threshold):
test.fail("Balloon test failed")
finally:
vm.destroy()
backup_xml.sync()
def trigger_events(dom, events_list=[]):
"""
Trigger various events in events_list
:param dom: the vm objects corresponding to the domain
:return: the expected output that virsh event command prints out
"""
expected_events_list = []
save_path = os.path.join(tmpdir, "%s_event.save" % dom.name)
print(dom.name)
xmlfile = dom.backup_xml()
try:
for event in events_list:
if event in [
'start', 'restore', 'create', 'define', 'undefine',
'crash'
]:
if dom.is_alive():
dom.destroy()
if event in ['create', 'define']:
dom.undefine()
else:
if not dom.is_alive():
dom.start()
dom.wait_for_login().close()
if event == "resume":
dom.pause()
if event == "undefine":
virsh.undefine(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Undefined Removed")
elif event == "create":
virsh.create(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
elif event == "destroy":
virsh.destroy(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Destroyed")
elif event == "define":
virsh.define(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Defined Added")
elif event == "start":
virsh.start(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
dom.wait_for_login().close()
elif event == "suspend":
virsh.suspend(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
if not libvirt_version.version_compare(5, 3, 0):
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
elif event == "resume":
virsh.resume(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
elif event == "save":
virsh.save(dom.name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
expected_events_list.append("'lifecycle' for %s:"
" Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Restored")
expected_events_list.append("'lifecycle' for %s:"
" Resumed Snapshot")
elif event == "edit":
#Check whether 'description' element exists.
domxml = virsh.dumpxml(dom.name).stdout.strip()
find_desc = parseString(domxml).getElementsByTagName(
"description")
if find_desc == []:
#If not exists, add one for it.
logging.info("Adding <description> to guest")
virsh.desc(dom.name, "--config",
"Added desc for testvm", **virsh_dargs)
#The edit operation is to delete 'description' element.
edit_cmd = [r":g/<description.*<\/description>/d"]
utlv.exec_virsh_edit(dom.name, edit_cmd)
expected_events_list.append("'lifecycle' for %s:"
" Defined Updated")
elif event == "shutdown":
if signal_name is None:
virsh.shutdown(dom.name, **virsh_dargs)
# Wait a few seconds for shutdown finish
time.sleep(3)
if utils_misc.compare_qemu_version(2, 9, 0):
#Shutdown reason distinguished from qemu_2.9.0-9
expected_events_list.append(
"'lifecycle' for %s:"
" Shutdown Finished after guest request")
else:
os.kill(dom.get_pid(), getattr(signal, signal_name))
if utils_misc.compare_qemu_version(2, 9, 0):
expected_events_list.append(
"'lifecycle' for %s:"
" Shutdown Finished after host request")
if not utils_misc.compare_qemu_version(2, 9, 0):
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished")
expected_events_list.append("'lifecycle' for %s:"
" Stopped Shutdown")
elif event == "crash":
if not vmxml.xmltreefile.find('devices').findall('panic'):
# Set panic device
panic_dev = Panic()
panic_dev.model = panic_model
panic_dev.addr_type = addr_type
panic_dev.addr_iobase = addr_iobase
vmxml.add_device(panic_dev)
vmxml.on_crash = "coredump-restart"
vmxml.sync()
logging.info("Guest xml now is: %s", vmxml)
dom.start()
session = dom.wait_for_login()
# Stop kdump in the guest
session.cmd("systemctl stop kdump", ignore_all_errors=True)
# Enable sysRq
session.cmd("echo 1 > /proc/sys/kernel/sysrq")
try:
# Crash the guest
session.cmd("echo c > /proc/sysrq-trigger", timeout=60)
except (ShellTimeoutError,
ShellProcessTerminatedError) as details:
logging.info(details)
session.close()
expected_events_list.append("'lifecycle' for %s:"
" Crashed Panicked")
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
elif event == "reset":
virsh.reset(dom.name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(dom.name, '0', '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(dom.name, '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.emulatorpin: 0")
elif event == "setmem":
mem_size = int(params.get("mem_size", 512000))
virsh.setmem(dom.name, mem_size, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "device-added-removed":
add_disk(dom.name, new_disk, 'vdb', '')
expected_events_list.append("'device-added' for %s:"
" virtio-disk1")
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" virtio-disk1")
iface_xml_obj = create_iface_xml()
iface_xml_obj.xmltreefile.write()
virsh.detach_device(dom.name, iface_xml_obj.xml,
**virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" net0")
time.sleep(2)
virsh.attach_device(dom.name, iface_xml_obj.xml,
**virsh_dargs)
expected_events_list.append("'device-added' for %s:"
" net0")
elif event == "change-media":
target_device = "hdc"
device_target_bus = params.get("device_target_bus", "ide")
disk_blk = vm_xml.VMXML.get_disk_blk(dom.name)
logging.info("disk_blk %s", disk_blk)
if target_device not in disk_blk:
logging.info("Adding cdrom to guest")
if dom.is_alive():
dom.destroy()
add_disk(
dom.name, "''", target_device,
("--type cdrom --sourcetype file --driver qemu " +
"--config --targetbus %s" % device_target_bus))
dom.start()
all_options = new_disk + " --insert"
virsh.change_media(dom.name, target_device, all_options,
**virsh_dargs)
expected_events_list.append("'tray-change' for %s disk" +
" .*%s.*:" %
device_target_bus + " opened")
expected_events_list.append("'tray-change' for %s disk" +
" .*%s.*:" %
device_target_bus + " closed")
all_options = new_disk + " --eject"
virsh.change_media(dom.name, target_device, all_options,
**virsh_dargs)
expected_events_list.append("'tray-change' for %s disk" +
" .*%s.*:" %
device_target_bus + " opened")
else:
test.error("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
return [(dom.name, event) for event in expected_events_list]
def trigger_events(dom, events_list=[]):
"""
Trigger various events in events_list
:param dom: the vm objects corresponding to the domain
:return: the expected output that virsh event command prints out
"""
expected_events_list = []
tmpdir = data_dir.get_tmp_dir()
save_path = os.path.join(tmpdir, "%s_event.save" % dom.name)
new_disk = os.path.join(tmpdir, "%s_new_disk.img" % dom.name)
print dom.name
try:
for event in events_list:
if event in ['start', 'restore']:
if dom.is_alive():
dom.destroy()
else:
if not dom.is_alive():
dom.start()
dom.wait_for_login().close()
if event == "start":
virsh.start(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
dom.wait_for_login().close()
elif event == "save":
virsh.save(dom.name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Restored")
elif event == "destroy":
virsh.destroy(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Destroyed")
elif event == "reset":
virsh.reset(dom.name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(dom.name, '0', '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(dom.name, '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.emulatorpin: 0")
elif event == "setmem":
mem_size = int(params.get("mem_size", 512000))
virsh.setmem(dom.name, mem_size, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "detach-disk":
if not os.path.exists(new_disk):
open(new_disk, 'a').close()
# Attach disk firstly, this event will not be catched
virsh.attach_disk(dom.name, new_disk, 'vdb', **virsh_dargs)
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" virtio-disk1")
else:
raise error.TestError("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
return [(dom.name, event) for event in expected_events_list]
def trigger_events(events_list=[]):
"""
Trigger various events in events_list
"""
expected_events_list = []
tmpdir = data_dir.get_tmp_dir()
save_path = os.path.join(tmpdir, "vm_event.save")
new_disk = os.path.join(tmpdir, "new_disk.img")
try:
for event in events_list:
if event in ['start', 'restore']:
if vm.is_alive():
vm.destroy()
else:
if not vm.is_alive():
vm.start()
vm.wait_for_login().close()
if event == "start":
virsh.start(vm_name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
vm.wait_for_login().close()
elif event == "save":
virsh.save(vm_name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Restored")
elif event == "destroy":
virsh.destroy(vm_name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Destroyed")
elif event == "reset":
virsh.reset(vm_name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(vm_name, '0', '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(vm_name, '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.emulatorpin: 0")
elif event == "setmem":
virsh.setmem(vm_name, 1048576, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "detach-disk":
if not os.path.exists(new_disk):
open(new_disk, 'a').close()
# Attach disk firstly, this event will not be catched
virsh.attach_disk(vm_name, new_disk, 'vdb', **virsh_dargs)
virsh.detach_disk(vm_name, 'vdb', **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" virtio-disk1")
else:
raise error.TestError("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
return expected_events_list
def trigger_events(dom, events_list=[]):
"""
Trigger various events in events_list
:param dom: the vm objects corresponding to the domain
:return: the expected output that virsh event command prints out
"""
expected_events_list = []
save_path = os.path.join(tmpdir, "%s_event.save" % dom.name)
print(dom.name)
xmlfile = dom.backup_xml()
try:
for event in events_list:
if event in ['start', 'restore', 'create', 'define', 'undefine']:
if dom.is_alive():
dom.destroy()
if event in ['create', 'define']:
dom.undefine()
else:
if not dom.is_alive():
dom.start()
dom.wait_for_login().close()
if event == "resume":
dom.pause()
if event == "undefine":
virsh.undefine(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Undefined Removed")
elif event == "create":
virsh.create(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
elif event == "destroy":
virsh.destroy(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Stopped Destroyed")
elif event == "define":
virsh.define(xmlfile, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Defined Added")
elif event == "start":
virsh.start(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
expected_events_list.append("'lifecycle' for %s:"
" Started Booted")
dom.wait_for_login().close()
elif event == "suspend":
virsh.suspend(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
elif event == "resume":
virsh.resume(dom.name, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Resumed Unpaused")
elif event == "save":
virsh.save(dom.name, save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Suspended Paused")
expected_events_list.append("'lifecycle' for %s:"
" Stopped Saved")
elif event == "restore":
if not os.path.exists(save_path):
logging.error("%s not exist", save_path)
else:
virsh.restore(save_path, **virsh_dargs)
expected_events_list.append("'lifecycle' for %s:"
" Started Restored")
expected_events_list.append("'lifecycle' for %s:"
" Resumed Snapshot")
elif event == "edit":
#Check whether 'description' element exists.
domxml = virsh.dumpxml(dom.name).stdout.strip()
find_desc = parseString(domxml).getElementsByTagName("description")
if find_desc == []:
#If not exists, add one for it.
logging.info("Adding <description> to guest")
virsh.desc(dom.name, "--config", "Added desc for testvm", **virsh_dargs)
#The edit operation is to delete 'description' element.
edit_cmd = [r":g/<description.*<\/description>/d"]
utlv.exec_virsh_edit(dom.name, edit_cmd)
expected_events_list.append("'lifecycle' for %s:"
" Defined Updated")
elif event == "shutdown":
if signal_name is None:
virsh.shutdown(dom.name, **virsh_dargs)
# Wait a few seconds for shutdown finish
time.sleep(3)
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished after guest request")
expected_events_list.append("'lifecycle' for %s:"
" Stopped Shutdown")
else:
os.kill(dom.get_pid(), getattr(signal, signal_name))
expected_events_list.append("'lifecycle' for %s:"
" Shutdown Finished after host request")
expected_events_list.append("'lifecycle' for %s:"
" Stopped Shutdown")
elif event == "reset":
virsh.reset(dom.name, **virsh_dargs)
expected_events_list.append("'reboot' for %s")
elif event == "vcpupin":
virsh.vcpupin(dom.name, '0', '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.vcpupin0: 0")
elif event == "emulatorpin":
virsh.emulatorpin(dom.name, '0', **virsh_dargs)
expected_events_list.append("'tunable' for %s:"
"\n\tcputune.emulatorpin: 0")
elif event == "setmem":
mem_size = int(params.get("mem_size", 512000))
virsh.setmem(dom.name, mem_size, **virsh_dargs)
expected_events_list.append("'balloon-change' for %s:")
elif event == "device-added-removed":
add_disk(dom.name, new_disk, 'vdb', '')
expected_events_list.append("'device-added' for %s:"
" virtio-disk1")
virsh.detach_disk(dom.name, 'vdb', **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" virtio-disk1")
iface_xml_obj = create_iface_xml()
iface_xml_obj.xmltreefile.write()
virsh.detach_device(dom.name, iface_xml_obj.xml, **virsh_dargs)
expected_events_list.append("'device-removed' for %s:"
" net0")
time.sleep(2)
virsh.attach_device(dom.name, iface_xml_obj.xml, **virsh_dargs)
expected_events_list.append("'device-added' for %s:"
" net0")
elif event == "change-media":
target_device = "hdc"
disk_blk = vm_xml.VMXML.get_disk_blk(dom.name)
logging.info("disk_blk %s", disk_blk)
if target_device not in disk_blk:
logging.info("Adding cdrom to guest")
if dom.is_alive():
dom.destroy()
add_disk(dom.name, "''", target_device,
"--type cdrom --sourcetype file --config")
dom.start()
all_options = new_disk + " --insert"
virsh.change_media(dom.name, target_device,
all_options, ignore_status=True, debug=True)
expected_events_list.append("'tray-change' for %s disk ide0-1-0:"
" opened")
expected_events_list.append("'tray-change' for %s disk ide0-1-0:"
" closed")
all_options = new_disk + " --eject"
virsh.change_media(dom.name, target_device,
all_options, ignore_status=True, debug=True)
expected_events_list.append("'tray-change' for %s disk ide0-1-0:"
" opened")
else:
test.error("Unsupported event: %s" % event)
# Event may not received immediately
time.sleep(3)
finally:
if os.path.exists(save_path):
os.unlink(save_path)
if os.path.exists(new_disk):
os.unlink(new_disk)
return [(dom.name, event) for event in expected_events_list]
