nova/tools/xenserver/vm_vdi_cleaner.py
ChangBo Guo(gcb) 6b73c281bc Remove usage of config option verbose
oslo.log deprecate config option verbose since aug 1, 2015 in review:
in https://review.openstack.org/#/c/206437/

That was a long time ago so it should be possible to remove it now. This
was already merged once but had to be reverted because some projects
were still relying on it. Oslo team plan to remove it, so we need clean
up its usage before removing it.

Closes-Bug: #1663570

Change-Id: I072e1078486f50cebea92695ff46c1af879eb23d
2017-02-27 10:02:45 +08:00

317 lines
10 KiB
Python
Executable File

#!/usr/bin/env python
# Copyright 2011 OpenStack Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""vm_vdi_cleaner.py - List or clean orphaned VDIs/instances on XenServer."""
import doctest
import os
import sys
from oslo_config import cfg
from oslo_utils import timeutils
import XenAPI
possible_topdir = os.getcwd()
if os.path.exists(os.path.join(possible_topdir, "nova", "__init__.py")):
sys.path.insert(0, possible_topdir)
from nova import config
from nova import context
import nova.conf
from nova import db
from nova import exception
from nova.virt import virtapi
from nova.virt.xenapi import driver as xenapi_driver
cleaner_opts = [
cfg.IntOpt('zombie_instance_updated_at_window',
default=172800,
help='Number of seconds zombie instances are cleaned up.'),
]
cli_opt = cfg.StrOpt('command',
help='Cleaner command')
CONF = nova.conf.CONF
CONF.register_opts(cleaner_opts)
CONF.register_cli_opt(cli_opt)
ALLOWED_COMMANDS = ["list-vdis", "clean-vdis", "list-instances",
"clean-instances", "test"]
def call_xenapi(xenapi, method, *args):
"""Make a call to xapi."""
return xenapi._session.call_xenapi(method, *args)
def find_orphaned_instances(xenapi):
"""Find and return a list of orphaned instances."""
ctxt = context.get_admin_context(read_deleted="only")
orphaned_instances = []
for vm_ref, vm_rec in _get_applicable_vm_recs(xenapi):
try:
uuid = vm_rec['other_config']['nova_uuid']
instance = db.instance_get_by_uuid(ctxt, uuid)
except (KeyError, exception.InstanceNotFound):
# NOTE(jk0): Err on the side of caution here. If we don't know
# anything about the particular instance, ignore it.
print_xen_object("INFO: Ignoring VM", vm_rec, indent_level=0)
continue
# NOTE(jk0): This would be triggered if a VM was deleted but the
# actual deletion process failed somewhere along the line.
is_active_and_deleting = (instance.vm_state == "active" and
instance.task_state == "deleting")
# NOTE(jk0): A zombie VM is an instance that is not active and hasn't
# been updated in over the specified period.
is_zombie_vm = (instance.vm_state != "active"
and timeutils.is_older_than(instance.updated_at,
CONF.zombie_instance_updated_at_window))
if is_active_and_deleting or is_zombie_vm:
orphaned_instances.append((vm_ref, vm_rec, instance))
return orphaned_instances
def cleanup_instance(xenapi, instance, vm_ref, vm_rec):
"""Delete orphaned instances."""
xenapi._vmops._destroy(instance, vm_ref)
def _get_applicable_vm_recs(xenapi):
"""An 'applicable' VM is one that is not a template and not the control
domain.
"""
for vm_ref in call_xenapi(xenapi, 'VM.get_all'):
try:
vm_rec = call_xenapi(xenapi, 'VM.get_record', vm_ref)
except XenAPI.Failure, e:
if e.details[0] != 'HANDLE_INVALID':
raise
continue
if vm_rec["is_a_template"] or vm_rec["is_control_domain"]:
continue
yield vm_ref, vm_rec
def print_xen_object(obj_type, obj, indent_level=0, spaces_per_indent=4):
"""Pretty-print a Xen object.
Looks like:
VM (abcd-abcd-abcd): 'name label here'
"""
uuid = obj["uuid"]
try:
name_label = obj["name_label"]
except KeyError:
name_label = ""
msg = "%s (%s) '%s'" % (obj_type, uuid, name_label)
indent = " " * spaces_per_indent * indent_level
print("".join([indent, msg]))
def _find_vdis_connected_to_vm(xenapi, connected_vdi_uuids):
"""Find VDIs which are connected to VBDs which are connected to VMs."""
def _is_null_ref(ref):
return ref == "OpaqueRef:NULL"
def _add_vdi_and_parents_to_connected(vdi_rec, indent_level):
indent_level += 1
vdi_and_parent_uuids = []
cur_vdi_rec = vdi_rec
while True:
cur_vdi_uuid = cur_vdi_rec["uuid"]
print_xen_object("VDI", vdi_rec, indent_level=indent_level)
connected_vdi_uuids.add(cur_vdi_uuid)
vdi_and_parent_uuids.append(cur_vdi_uuid)
try:
parent_vdi_uuid = vdi_rec["sm_config"]["vhd-parent"]
except KeyError:
parent_vdi_uuid = None
# NOTE(sirp): VDI's can have themselves as a parent?!
if parent_vdi_uuid and parent_vdi_uuid != cur_vdi_uuid:
indent_level += 1
cur_vdi_ref = call_xenapi(xenapi, 'VDI.get_by_uuid',
parent_vdi_uuid)
try:
cur_vdi_rec = call_xenapi(xenapi, 'VDI.get_record',
cur_vdi_ref)
except XenAPI.Failure, e:
if e.details[0] != 'HANDLE_INVALID':
raise
break
else:
break
for vm_ref, vm_rec in _get_applicable_vm_recs(xenapi):
indent_level = 0
print_xen_object("VM", vm_rec, indent_level=indent_level)
vbd_refs = vm_rec["VBDs"]
for vbd_ref in vbd_refs:
try:
vbd_rec = call_xenapi(xenapi, 'VBD.get_record', vbd_ref)
except XenAPI.Failure, e:
if e.details[0] != 'HANDLE_INVALID':
raise
continue
indent_level = 1
print_xen_object("VBD", vbd_rec, indent_level=indent_level)
vbd_vdi_ref = vbd_rec["VDI"]
if _is_null_ref(vbd_vdi_ref):
continue
try:
vdi_rec = call_xenapi(xenapi, 'VDI.get_record', vbd_vdi_ref)
except XenAPI.Failure, e:
if e.details[0] != 'HANDLE_INVALID':
raise
continue
_add_vdi_and_parents_to_connected(vdi_rec, indent_level)
def _find_all_vdis_and_system_vdis(xenapi, all_vdi_uuids, connected_vdi_uuids):
"""Collects all VDIs and adds system VDIs to the connected set."""
def _system_owned(vdi_rec):
vdi_name = vdi_rec["name_label"]
return (vdi_name.startswith("USB") or
vdi_name.endswith(".iso") or
vdi_rec["type"] == "system")
for vdi_ref in call_xenapi(xenapi, 'VDI.get_all'):
try:
vdi_rec = call_xenapi(xenapi, 'VDI.get_record', vdi_ref)
except XenAPI.Failure, e:
if e.details[0] != 'HANDLE_INVALID':
raise
continue
vdi_uuid = vdi_rec["uuid"]
all_vdi_uuids.add(vdi_uuid)
# System owned and non-managed VDIs should be considered 'connected'
# for our purposes.
if _system_owned(vdi_rec):
print_xen_object("SYSTEM VDI", vdi_rec, indent_level=0)
connected_vdi_uuids.add(vdi_uuid)
elif not vdi_rec["managed"]:
print_xen_object("UNMANAGED VDI", vdi_rec, indent_level=0)
connected_vdi_uuids.add(vdi_uuid)
def find_orphaned_vdi_uuids(xenapi):
"""Walk VM -> VBD -> VDI change and accumulate connected VDIs."""
connected_vdi_uuids = set()
_find_vdis_connected_to_vm(xenapi, connected_vdi_uuids)
all_vdi_uuids = set()
_find_all_vdis_and_system_vdis(xenapi, all_vdi_uuids, connected_vdi_uuids)
orphaned_vdi_uuids = all_vdi_uuids - connected_vdi_uuids
return orphaned_vdi_uuids
def list_orphaned_vdis(vdi_uuids):
"""List orphaned VDIs."""
for vdi_uuid in vdi_uuids:
print("ORPHANED VDI (%s)" % vdi_uuid)
def clean_orphaned_vdis(xenapi, vdi_uuids):
"""Clean orphaned VDIs."""
for vdi_uuid in vdi_uuids:
print("CLEANING VDI (%s)" % vdi_uuid)
vdi_ref = call_xenapi(xenapi, 'VDI.get_by_uuid', vdi_uuid)
try:
call_xenapi(xenapi, 'VDI.destroy', vdi_ref)
except XenAPI.Failure, exc:
sys.stderr.write("Skipping %s: %s" % (vdi_uuid, exc))
def list_orphaned_instances(orphaned_instances):
"""List orphaned instances."""
for vm_ref, vm_rec, orphaned_instance in orphaned_instances:
print("ORPHANED INSTANCE (%s)" % orphaned_instance.name)
def clean_orphaned_instances(xenapi, orphaned_instances):
"""Clean orphaned instances."""
for vm_ref, vm_rec, instance in orphaned_instances:
print("CLEANING INSTANCE (%s)" % instance.name)
cleanup_instance(xenapi, instance, vm_ref, vm_rec)
def main():
"""Main loop."""
config.parse_args(sys.argv)
args = CONF(args=sys.argv[1:], usage='%(prog)s [options] --command={' +
'|'.join(ALLOWED_COMMANDS) + '}')
command = CONF.command
if not command or command not in ALLOWED_COMMANDS:
CONF.print_usage()
sys.exit(1)
if CONF.zombie_instance_updated_at_window < CONF.resize_confirm_window:
raise Exception("`zombie_instance_updated_at_window` has to be longer"
" than `resize_confirm_window`.")
# NOTE(blamar) This tool does not require DB access, so passing in the
# 'abstract' VirtAPI class is acceptable
xenapi = xenapi_driver.XenAPIDriver(virtapi.VirtAPI())
if command == "list-vdis":
print("Connected VDIs:\n")
orphaned_vdi_uuids = find_orphaned_vdi_uuids(xenapi)
print("\nOrphaned VDIs:\n")
list_orphaned_vdis(orphaned_vdi_uuids)
elif command == "clean-vdis":
orphaned_vdi_uuids = find_orphaned_vdi_uuids(xenapi)
clean_orphaned_vdis(xenapi, orphaned_vdi_uuids)
elif command == "list-instances":
orphaned_instances = find_orphaned_instances(xenapi)
list_orphaned_instances(orphaned_instances)
elif command == "clean-instances":
orphaned_instances = find_orphaned_instances(xenapi)
clean_orphaned_instances(xenapi, orphaned_instances)
elif command == "test":
doctest.testmod()
else:
print("Unknown command '%s'" % command)
sys.exit(1)
if __name__ == "__main__":
main()