nova/nova/virt/fake.py

# Copyright 2010 United States Government as represented by the
# Administrator of the National Aeronautics and Space Administration.
# All Rights Reserved.
# Copyright (c) 2010 Citrix Systems, Inc.
#
#    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.

"""
A fake (in-memory) hypervisor+api.

Allows nova testing w/o a hypervisor.  This module also documents the
semantics of real hypervisor connections.

"""

import contextlib

from oslo.config import cfg
from oslo.serialization import jsonutils

from nova.compute import arch
from nova.compute import hvtype
from nova.compute import power_state
from nova.compute import task_states
from nova.compute import vm_mode
from nova.console import type as ctype
from nova import db
from nova import exception
from nova.i18n import _
from nova.openstack.common import log as logging
from nova import utils
from nova.virt import diagnostics
from nova.virt import driver
from nova.virt import virtapi

CONF = cfg.CONF
CONF.import_opt('host', 'nova.netconf')

LOG = logging.getLogger(__name__)


_FAKE_NODES = None


def set_nodes(nodes):
    """Sets FakeDriver's node.list.

    It has effect on the following methods:
        get_available_nodes()
        get_available_resource

    To restore the change, call restore_nodes()
    """
    global _FAKE_NODES
    _FAKE_NODES = nodes


def restore_nodes():
    """Resets FakeDriver's node list modified by set_nodes().

    Usually called from tearDown().
    """
    global _FAKE_NODES
    _FAKE_NODES = [CONF.host]


class FakeInstance(object):

    def __init__(self, name, state, uuid):
        self.name = name
        self.state = state
        self.uuid = uuid

    def __getitem__(self, key):
        return getattr(self, key)


class FakeDriver(driver.ComputeDriver):
    capabilities = {
        "has_imagecache": True,
        "supports_recreate": True,
        }

    # Since we don't have a real hypervisor, pretend we have lots of
    # disk and ram so this driver can be used to test large instances.
    vcpus = 1000
    memory_mb = 800000
    local_gb = 600000

    """Fake hypervisor driver."""

    def __init__(self, virtapi, read_only=False):
        super(FakeDriver, self).__init__(virtapi)
        self.instances = {}
        self.host_status_base = {
          'vcpus': self.vcpus,
          'memory_mb': self.memory_mb,
          'local_gb': self.local_gb,
          'vcpus_used': 0,
          'memory_mb_used': 0,
          'local_gb_used': 100000000000,
          'hypervisor_type': 'fake',
          'hypervisor_version': utils.convert_version_to_int('1.0'),
          'hypervisor_hostname': CONF.host,
          'cpu_info': {},
          'disk_available_least': 0,
          'supported_instances': jsonutils.dumps([(arch.X86_64,
                                                   hvtype.FAKE,
                                                   vm_mode.HVM)]),
          'numa_topology': None,
          }
        self._mounts = {}
        self._interfaces = {}
        if not _FAKE_NODES:
            set_nodes([CONF.host])

    def init_host(self, host):
        return

    def list_instances(self):
        return self.instances.keys()

    def list_instance_uuids(self):
        return [self.instances[name].uuid for name in self.instances.keys()]

    def plug_vifs(self, instance, network_info):
        """Plug VIFs into networks."""
        pass

    def unplug_vifs(self, instance, network_info):
        """Unplug VIFs from networks."""
        pass

    def spawn(self, context, instance, image_meta, injected_files,
              admin_password, network_info=None, block_device_info=None):
        name = instance['name']
        state = power_state.RUNNING
        fake_instance = FakeInstance(name, state, instance['uuid'])
        self.instances[name] = fake_instance

    def snapshot(self, context, instance, name, update_task_state):
        if instance['name'] not in self.instances:
            raise exception.InstanceNotRunning(instance_id=instance['uuid'])
        update_task_state(task_state=task_states.IMAGE_UPLOADING)

    def reboot(self, context, instance, network_info, reboot_type,
               block_device_info=None, bad_volumes_callback=None):
        pass

    @staticmethod
    def get_host_ip_addr():
        return '192.168.0.1'

    def set_admin_password(self, instance, new_pass):
        pass

    def inject_file(self, instance, b64_path, b64_contents):
        pass

    def resume_state_on_host_boot(self, context, instance, network_info,
                                  block_device_info=None):
        pass

    def rescue(self, context, instance, network_info, image_meta,
               rescue_password):
        pass

    def unrescue(self, instance, network_info):
        pass

    def poll_rebooting_instances(self, timeout, instances):
        pass

    def migrate_disk_and_power_off(self, context, instance, dest,
                                   flavor, network_info,
                                   block_device_info=None,
                                   timeout=0, retry_interval=0):
        pass

    def finish_revert_migration(self, context, instance, network_info,
                                block_device_info=None, power_on=True):
        pass

    def post_live_migration_at_destination(self, context, instance,
                                           network_info,
                                           block_migration=False,
                                           block_device_info=None):
        pass

    def power_off(self, instance, shutdown_timeout=0, shutdown_attempts=0):
        pass

    def power_on(self, context, instance, network_info, block_device_info):
        pass

    def soft_delete(self, instance):
        pass

    def restore(self, instance):
        pass

    def pause(self, instance):
        pass

    def unpause(self, instance):
        pass

    def suspend(self, instance):
        pass

    def resume(self, context, instance, network_info, block_device_info=None):
        pass

    def destroy(self, context, instance, network_info, block_device_info=None,
                destroy_disks=True, migrate_data=None):
        key = instance['name']
        if key in self.instances:
            del self.instances[key]
        else:
            LOG.warning(_("Key '%(key)s' not in instances '%(inst)s'") %
                        {'key': key,
                         'inst': self.instances}, instance=instance)

    def cleanup(self, context, instance, network_info, block_device_info=None,
                destroy_disks=True, migrate_data=None, destroy_vifs=True):
        pass

    def attach_volume(self, context, connection_info, instance, mountpoint,
                      disk_bus=None, device_type=None, encryption=None):
        """Attach the disk to the instance at mountpoint using info."""
        instance_name = instance['name']
        if instance_name not in self._mounts:
            self._mounts[instance_name] = {}
        self._mounts[instance_name][mountpoint] = connection_info

    def detach_volume(self, connection_info, instance, mountpoint,
                      encryption=None):
        """Detach the disk attached to the instance."""
        try:
            del self._mounts[instance['name']][mountpoint]
        except KeyError:
            pass

    def swap_volume(self, old_connection_info, new_connection_info,
                    instance, mountpoint, resize_to):
        """Replace the disk attached to the instance."""
        instance_name = instance['name']
        if instance_name not in self._mounts:
            self._mounts[instance_name] = {}
        self._mounts[instance_name][mountpoint] = new_connection_info

    def attach_interface(self, instance, image_meta, vif):
        if vif['id'] in self._interfaces:
            raise exception.InterfaceAttachFailed(
                    instance_uuid=instance['uuid'])
        self._interfaces[vif['id']] = vif

    def detach_interface(self, instance, vif):
        try:
            del self._interfaces[vif['id']]
        except KeyError:
            raise exception.InterfaceDetachFailed(
                    instance_uuid=instance['uuid'])

    def get_info(self, instance):
        if instance['name'] not in self.instances:
            raise exception.InstanceNotFound(instance_id=instance['name'])
        i = self.instances[instance['name']]
        return {'state': i.state,
                'max_mem': 0,
                'mem': 0,
                'num_cpu': 2,
                'cpu_time': 0}

    def get_diagnostics(self, instance_name):
        return {'cpu0_time': 17300000000,
                'memory': 524288,
                'vda_errors': -1,
                'vda_read': 262144,
                'vda_read_req': 112,
                'vda_write': 5778432,
                'vda_write_req': 488,
                'vnet1_rx': 2070139,
                'vnet1_rx_drop': 0,
                'vnet1_rx_errors': 0,
                'vnet1_rx_packets': 26701,
                'vnet1_tx': 140208,
                'vnet1_tx_drop': 0,
                'vnet1_tx_errors': 0,
                'vnet1_tx_packets': 662,
        }

    def get_instance_diagnostics(self, instance_name):
        diags = diagnostics.Diagnostics(state='running', driver='fake',
                hypervisor_os='fake-os', uptime=46664, config_drive=True)
        diags.add_cpu(time=17300000000)
        diags.add_nic(mac_address='01:23:45:67:89:ab',
                      rx_packets=26701,
                      rx_octets=2070139,
                      tx_octets=140208,
                      tx_packets = 662)
        diags.add_disk(id='fake-disk-id',
                       read_bytes=262144,
                       read_requests=112,
                       write_bytes=5778432,
                       write_requests=488)
        diags.memory_details.maximum = 524288
        return diags

    def get_all_bw_counters(self, instances):
        """Return bandwidth usage counters for each interface on each
           running VM.
        """
        bw = []
        return bw

    def get_all_volume_usage(self, context, compute_host_bdms):
        """Return usage info for volumes attached to vms on
           a given host.
        """
        volusage = []
        return volusage

    def get_host_cpu_stats(self):
        stats = {'kernel': 5664160000000L,
                'idle': 1592705190000000L,
                'user': 26728850000000L,
                'iowait': 6121490000000L}
        stats['frequency'] = 800
        return stats

    def block_stats(self, instance_name, disk_id):
        return [0L, 0L, 0L, 0L, None]

    def interface_stats(self, instance_name, iface_id):
        return [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L]

    def get_console_output(self, context, instance):
        return 'FAKE CONSOLE OUTPUT\nANOTHER\nLAST LINE'

    def get_vnc_console(self, context, instance):
        return ctype.ConsoleVNC(internal_access_path='FAKE',
                                host='fakevncconsole.com',
                                port=6969)

    def get_spice_console(self, context, instance):
        return ctype.ConsoleSpice(internal_access_path='FAKE',
                                  host='fakespiceconsole.com',
                                  port=6969,
                                  tlsPort=6970)

    def get_rdp_console(self, context, instance):
        return ctype.ConsoleRDP(internal_access_path='FAKE',
                                host='fakerdpconsole.com',
                                port=6969)

    def get_serial_console(self, context, instance):
        return ctype.ConsoleSerial(internal_access_path='FAKE',
                                   host='fakerdpconsole.com',
                                   port=6969)

    def get_console_pool_info(self, console_type):
        return {'address': '127.0.0.1',
                'username': 'fakeuser',
                'password': 'fakepassword'}

    def refresh_security_group_rules(self, security_group_id):
        return True

    def refresh_security_group_members(self, security_group_id):
        return True

    def refresh_instance_security_rules(self, instance):
        return True

    def refresh_provider_fw_rules(self):
        pass

    def get_available_resource(self, nodename):
        """Updates compute manager resource info on ComputeNode table.

           Since we don't have a real hypervisor, pretend we have lots of
           disk and ram.
        """
        if nodename not in _FAKE_NODES:
            return {}

        host_status = self.host_status_base.copy()
        host_status['hypervisor_hostname'] = nodename
        host_status['host_hostname'] = nodename
        host_status['host_name_label'] = nodename
        host_status['cpu_info'] = '?'
        return host_status

    def ensure_filtering_rules_for_instance(self, instance_ref, network_info):
        return

    def get_instance_disk_info(self, instance_name, block_device_info=None):
        return

    def live_migration(self, context, instance_ref, dest,
                       post_method, recover_method, block_migration=False,
                       migrate_data=None):
        post_method(context, instance_ref, dest, block_migration,
                            migrate_data)
        return

    def check_can_live_migrate_destination_cleanup(self, ctxt,
                                                   dest_check_data):
        return

    def check_can_live_migrate_destination(self, ctxt, instance_ref,
                                           src_compute_info, dst_compute_info,
                                           block_migration=False,
                                           disk_over_commit=False):
        return {}

    def check_can_live_migrate_source(self, ctxt, instance_ref,
                                      dest_check_data, block_device_info=None):
        return

    def finish_migration(self, context, migration, instance, disk_info,
                         network_info, image_meta, resize_instance,
                         block_device_info=None, power_on=True):
        return

    def confirm_migration(self, migration, instance, network_info):
        return

    def pre_live_migration(self, context, instance_ref, block_device_info,
                           network_info, disk, migrate_data=None):
        return

    def unfilter_instance(self, instance_ref, network_info):
        return

    def test_remove_vm(self, instance_name):
        """Removes the named VM, as if it crashed. For testing."""
        self.instances.pop(instance_name)

    def host_power_action(self, host, action):
        """Reboots, shuts down or powers up the host."""
        return action

    def host_maintenance_mode(self, host, mode):
        """Start/Stop host maintenance window. On start, it triggers
        guest VMs evacuation.
        """
        if not mode:
            return 'off_maintenance'
        return 'on_maintenance'

    def set_host_enabled(self, host, enabled):
        """Sets the specified host's ability to accept new instances."""
        if enabled:
            return 'enabled'
        return 'disabled'

    def get_volume_connector(self, instance):
        return {'ip': '127.0.0.1', 'initiator': 'fake', 'host': 'fakehost'}

    def get_available_nodes(self, refresh=False):
        return _FAKE_NODES

    def instance_on_disk(self, instance):
        return False


class FakeVirtAPI(virtapi.VirtAPI):
    def provider_fw_rule_get_all(self, context):
        return db.provider_fw_rule_get_all(context)

    @contextlib.contextmanager
    def wait_for_instance_event(self, instance, event_names, deadline=300,
                                error_callback=None):
        # NOTE(danms): Don't actually wait for any events, just
        # fall through
        yield


class SmallFakeDriver(FakeDriver):
    # The api samples expect specific cpu memory and disk sizes. In order to
    # allow the FakeVirt driver to be used outside of the unit tests, provide
    # a separate class that has the values expected by the api samples. So
    # instead of requiring new samples every time those
    # values are adjusted allow them to be overwritten here.

    vcpus = 1
    memory_mb = 8192
    local_gb = 1028