openstack
/
charm-nova-compute
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charm-nova-compute/hooks/nova_compute_context.py

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# Copyright 2016 Canonical Ltd
#
# 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.
import uuid
import os
import platform
from charmhelpers.core.unitdata import kv
from charmhelpers.contrib.openstack import context
from charmhelpers.core.host import (
lsb_release,
CompareHostReleases,
)
from charmhelpers.core.strutils import (
bool_from_string,
)
from charmhelpers.fetch import apt_install, filter_installed_packages
from charmhelpers.core.hookenv import (
config,
log,
relation_get,
relation_ids,
related_units,
service_name,
ERROR,
INFO,
)
from charmhelpers.contrib.openstack.utils import (
get_os_version_package,
get_os_version_codename,
os_release,
CompareOpenStackReleases,
)
from charmhelpers.contrib.openstack.ip import (
INTERNAL,
resolve_address,
)
from charmhelpers.contrib.network.ip import (
get_relation_ip,
)
# This is just a label and it must be consistent across
# nova-compute nodes to support live migration.
CEPH_SECRET_UUID = '514c9fca-8cbe-11e2-9c52-3bc8c7819472'
OVS_BRIDGE = 'br-int'
CEPH_CONF = '/etc/ceph/ceph.conf'
CHARM_CEPH_CONF = '/var/lib/charm/{}/ceph.conf'
NOVA_API_AA_PROFILE = 'usr.bin.nova-api'
NOVA_COMPUTE_AA_PROFILE = 'usr.bin.nova-compute'
NOVA_NETWORK_AA_PROFILE = 'usr.bin.nova-network'
def ceph_config_file():
return CHARM_CEPH_CONF.format(service_name())
def _save_flag_file(path, data):
'''
Saves local state about plugin or manager to specified file.
'''
# Wonder if we can move away from this now?
if data is None:
return
with open(path, 'wb') as out:
out.write(data)
# compatability functions to help with quantum -> neutron transition
def _network_manager():
from nova_compute_utils import network_manager as manager
return manager()
def _neutron_security_groups():
'''
Inspects current cloud-compute relation and determine if nova-c-c has
instructed us to use neutron security groups.
'''
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
groups = [
relation_get('neutron_security_groups',
rid=rid, unit=unit),
relation_get('quantum_security_groups',
rid=rid, unit=unit)
]
if ('yes' in groups or 'Yes' in groups):
return True
return False
def _neutron_plugin():
from nova_compute_utils import neutron_plugin
return neutron_plugin()
def _neutron_url(rid, unit):
# supports legacy relation settings.
return (relation_get('neutron_url', rid=rid, unit=unit) or
relation_get('quantum_url', rid=rid, unit=unit))
def nova_metadata_requirement():
enable = False
secret = None
for rid in relation_ids('neutron-plugin'):
for unit in related_units(rid):
rdata = relation_get(rid=rid, unit=unit)
if 'metadata-shared-secret' in rdata:
secret = rdata['metadata-shared-secret']
enable = True
if bool_from_string(rdata.get('enable-metadata', 'False')):
enable = True
return enable, secret
class LxdContext(context.OSContextGenerator):
def __call__(self):
lxd_context = {
'storage_pool': None
}
for rid in relation_ids('lxd'):
for unit in related_units(rid):
rel = {'rid': rid, 'unit': unit}
lxd_context = {
'storage_pool': relation_get(
'pool', **rel)
}
return lxd_context
class NovaComputeLibvirtContext(context.OSContextGenerator):
'''
Determines various libvirt and nova options depending on live migration
configuration.
'''
interfaces = []
def __call__(self):
# distro defaults
ctxt = {
# /etc/libvirt/libvirtd.conf (
'listen_tls': 0
}
cmp_distro_codename = CompareHostReleases(
lsb_release()['DISTRIB_CODENAME'].lower())
cmp_os_release = CompareOpenStackReleases(os_release('nova-common'))
# NOTE(jamespage): deal with switch to systemd
if cmp_distro_codename < "wily":
ctxt['libvirtd_opts'] = '-d'
else:
ctxt['libvirtd_opts'] = ''
# NOTE(jamespage): deal with alignment with Debian in
# Ubuntu yakkety and beyond.
if cmp_distro_codename >= 'yakkety' or cmp_os_release >= 'ocata':
ctxt['libvirt_user'] = 'libvirt'
else:
ctxt['libvirt_user'] = 'libvirtd'
# get the processor architecture to use in the nova.conf template
ctxt['arch'] = platform.machine()
# enable tcp listening if configured for live migration.
if config('enable-live-migration'):
ctxt['libvirtd_opts'] += ' -l'
if config('migration-auth-type') in ['none', 'None', 'ssh']:
ctxt['listen_tls'] = 0
if config('migration-auth-type') == 'ssh':
# nova.conf
ctxt['live_migration_uri'] = 'qemu+ssh://%s/system'
if config('instances-path') is not None:
ctxt['instances_path'] = config('instances-path')
if config('disk-cachemodes'):
ctxt['disk_cachemodes'] = config('disk-cachemodes')
if config('cpu-mode'):
ctxt['cpu_mode'] = config('cpu-mode')
elif ctxt['arch'] in ('ppc64el', 'ppc64le', 'aarch64'):
ctxt['cpu_mode'] = 'host-passthrough'
elif ctxt['arch'] == 's390x':
ctxt['cpu_mode'] = 'none'
if config('cpu-model'):
ctxt['cpu_model'] = config('cpu-model')
if config('hugepages'):
ctxt['hugepages'] = True
ctxt['kvm_hugepages'] = 1
else:
ctxt['kvm_hugepages'] = 0
if config('ksm') in ("1", "0",):
ctxt['ksm'] = config('ksm')
else:
if cmp_os_release < 'kilo':
log("KSM set to 1 by default on openstack releases < kilo",
level=INFO)
ctxt['ksm'] = "1"
else:
ctxt['ksm'] = "AUTO"
if config('pci-passthrough-whitelist'):
ctxt['pci_passthrough_whitelist'] = \
config('pci-passthrough-whitelist')
if config('vcpu-pin-set'):
ctxt['vcpu_pin_set'] = config('vcpu-pin-set')
ctxt['reserved_host_memory'] = config('reserved-host-memory')
db = kv()
if db.get('host_uuid'):
ctxt['host_uuid'] = db.get('host_uuid')
else:
host_uuid = str(uuid.uuid4())
db.set('host_uuid', host_uuid)
db.flush()
ctxt['host_uuid'] = host_uuid
if config('libvirt-image-backend'):
ctxt['libvirt_images_type'] = config('libvirt-image-backend')
return ctxt
class NovaComputeLibvirtOverrideContext(context.OSContextGenerator):
"""Provides overrides to the libvirt-bin service"""
interfaces = []
def __call__(self):
ctxt = {}
ctxt['overrides'] = "limit nofile 65535 65535"
return ctxt
class NovaComputeVirtContext(context.OSContextGenerator):
interfaces = []
def __call__(self):
ctxt = {}
_release = lsb_release()['DISTRIB_CODENAME'].lower()
if CompareHostReleases(_release) >= "yakkety":
ctxt['virt_type'] = config('virt-type')
ctxt['enable_live_migration'] = config('enable-live-migration')
ctxt['resume_guests_state_on_host_boot'] =\
config('resume-guests-state-on-host-boot')
return ctxt
def assert_libvirt_rbd_imagebackend_allowed():
os_rel = "Juno"
os_ver = get_os_version_package('nova-common')
if float(os_ver) < float(get_os_version_codename(os_rel.lower())):
msg = ("Libvirt RBD imagebackend only supported for openstack >= %s" %
os_rel)
raise Exception(msg)
return True
class NovaComputeCephContext(context.CephContext):
def __call__(self):
ctxt = super(NovaComputeCephContext, self).__call__()
if not ctxt:
return {}
svc = service_name()
# secret.xml
ctxt['ceph_secret_uuid'] = CEPH_SECRET_UUID
# nova.conf
ctxt['service_name'] = svc
ctxt['rbd_user'] = svc
ctxt['rbd_secret_uuid'] = CEPH_SECRET_UUID
ctxt['rbd_pool'] = config('rbd-pool')
if (config('libvirt-image-backend') == 'rbd' and
assert_libvirt_rbd_imagebackend_allowed()):
ctxt['libvirt_rbd_images_ceph_conf'] = ceph_config_file()
rbd_cache = config('rbd-client-cache') or ""
if rbd_cache.lower() == "enabled":
# We use write-though only to be safe for migration
ctxt['rbd_client_cache_settings'] = \
{'rbd cache': 'true',
'rbd cache size': '64 MiB',
'rbd cache max dirty': '0 MiB',
'rbd cache writethrough until flush': 'true',
'admin socket': '/var/run/ceph/rbd-client-$pid.asok'}
asok_path = '/var/run/ceph/'
if not os.path.isdir(asok_path):
os.mkdir(asok_path)
elif rbd_cache.lower() == "disabled":
ctxt['rbd_client_cache_settings'] = {'rbd cache': 'false'}
return ctxt
class SerialConsoleContext(context.OSContextGenerator):
@property
def enable_serial_console(self):
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
_enable_sc = relation_get('enable_serial_console', rid=rid,
unit=unit)
if _enable_sc and bool_from_string(_enable_sc):
return 'true'
return 'false'
@property
def serial_console_base_url(self):
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
base_url = relation_get('serial_console_base_url',
rid=rid, unit=unit)
if base_url is not None:
return base_url
return 'ws://127.0.0.1:6083/'
def __call__(self):
return {
'enable_serial_console': self.enable_serial_console,
'serial_console_base_url': self.serial_console_base_url,
}
class CloudComputeContext(context.OSContextGenerator):
'''
Generates main context for writing nova.conf and quantum.conf templates
from a cloud-compute relation changed hook. Mainly used for determinig
correct network and volume service configuration on the compute node,
as advertised by the cloud-controller.
Note: individual quantum plugin contexts are handled elsewhere.
'''
interfaces = ['cloud-compute']
def _ensure_packages(self, packages):
'''Install but do not upgrade required packages'''
required = filter_installed_packages(packages)
if required:
apt_install(required, fatal=True)
@property
def network_manager(self):
return _network_manager()
@property
def volume_service(self):
volume_service = None
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
volume_service = relation_get('volume_service',
rid=rid, unit=unit)
return volume_service
@property
def region(self):
region = None
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
region = relation_get('region', rid=rid, unit=unit)
return region
def flat_dhcp_context(self):
ec2_host = None
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
ec2_host = relation_get('ec2_host', rid=rid, unit=unit)
if not ec2_host:
return {}
if config('multi-host').lower() == 'yes':
self._ensure_packages(['nova-api', 'nova-network'])
return {
'flat_interface': config('flat-interface'),
'ec2_dmz_host': ec2_host,
}
def neutron_context(self):
# generate config context for neutron or quantum. these get converted
# directly into flags in nova.conf
# NOTE: Its up to release templates to set correct driver
neutron_ctxt = {'neutron_url': None}
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
rel = {'rid': rid, 'unit': unit}
url = _neutron_url(**rel)
if not url:
# only bother with units that have a neutron url set.
continue
neutron_ctxt = {
'auth_protocol': relation_get(
'auth_protocol', **rel) or 'http',
'service_protocol': relation_get(
'service_protocol', **rel) or 'http',
'service_port': relation_get(
'service_port', **rel) or '5000',
'neutron_auth_strategy': 'keystone',
'keystone_host': relation_get(
'auth_host', **rel),
'auth_port': relation_get(
'auth_port', **rel),
'neutron_admin_tenant_name': relation_get(
'service_tenant_name', **rel),
'neutron_admin_username': relation_get(
'service_username', **rel),
'neutron_admin_password': relation_get(
'service_password', **rel),
'api_version': relation_get(
'api_version', **rel) or '2.0',
'neutron_plugin': _neutron_plugin(),
'neutron_url': url,
}
missing = [k for k, v in neutron_ctxt.iteritems() if v in ['', None]]
if missing:
log('Missing required relation settings for Quantum: ' +
' '.join(missing))
return {}
neutron_ctxt['neutron_security_groups'] = _neutron_security_groups()
ks_url = '%s://%s:%s/v%s' % (neutron_ctxt['auth_protocol'],
neutron_ctxt['keystone_host'],
neutron_ctxt['auth_port'],
neutron_ctxt['api_version'])
neutron_ctxt['neutron_admin_auth_url'] = ks_url
return neutron_ctxt
def volume_context(self):
# provide basic validation that the volume manager is supported on the
# given openstack release (nova-volume is only supported for E and F)
# it is up to release templates to set the correct volume driver.
if not self.volume_service:
return {}
# ensure volume service is supported on specific openstack release.
if self.volume_service == 'cinder':
return 'cinder'
else:
e = ('Invalid volume service received via cloud-compute: %s' %
self.volume_service)
log(e, level=ERROR)
raise context.OSContextError(e)
def network_manager_context(self):
ctxt = {}
if self.network_manager == 'flatdhcpmanager':
ctxt = self.flat_dhcp_context()
elif self.network_manager == 'neutron':
ctxt = self.neutron_context()
_save_flag_file(path='/etc/nova/nm.conf', data=self.network_manager)
log('Generated config context for %s network manager.' %
self.network_manager)
return ctxt
def restart_trigger(self):
rt = None
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
rt = relation_get('restart_trigger', rid=rid, unit=unit)
if rt:
return rt
def __call__(self):
rids = relation_ids('cloud-compute')
if not rids:
return {}
ctxt = {}
net_manager = self.network_manager_context()
if net_manager:
ctxt['network_manager'] = self.network_manager
ctxt['network_manager_config'] = net_manager
# This is duplicating information in the context to enable
# common keystone fragment to be used in template
ctxt['service_protocol'] = net_manager.get('service_protocol')
ctxt['service_host'] = net_manager.get('keystone_host')
ctxt['service_port'] = net_manager.get('service_port')
ctxt['admin_tenant_name'] = net_manager.get(
'neutron_admin_tenant_name')
ctxt['admin_user'] = net_manager.get('neutron_admin_username')
ctxt['admin_password'] = net_manager.get('neutron_admin_password')
ctxt['auth_protocol'] = net_manager.get('auth_protocol')
ctxt['auth_host'] = net_manager.get('keystone_host')
ctxt['auth_port'] = net_manager.get('auth_port')
ctxt['api_version'] = net_manager.get('api_version')
net_dev_mtu = config('network-device-mtu')
if net_dev_mtu:
ctxt['network_device_mtu'] = net_dev_mtu
vol_service = self.volume_context()
if vol_service:
ctxt['volume_service'] = vol_service
if self.restart_trigger():
ctxt['restart_trigger'] = self.restart_trigger()
region = self.region
if region:
ctxt['region'] = region
return ctxt
class InstanceConsoleContext(context.OSContextGenerator):
interfaces = []
def get_console_info(self, proto, **kwargs):
console_settings = {
proto + '_proxy_address':
relation_get('console_proxy_%s_address' % (proto), **kwargs),
proto + '_proxy_host':
relation_get('console_proxy_%s_host' % (proto), **kwargs),
proto + '_proxy_port':
relation_get('console_proxy_%s_port' % (proto), **kwargs),
}
return console_settings
def __call__(self):
ctxt = {}
for rid in relation_ids('cloud-compute'):
for unit in related_units(rid):
rel = {'rid': rid, 'unit': unit}
proto = relation_get('console_access_protocol', **rel)
if not proto:
# only bother with units that have a proto set.
continue
ctxt['console_keymap'] = relation_get('console_keymap', **rel)
ctxt['console_access_protocol'] = proto
ctxt['console_vnc_type'] = True if 'vnc' in proto else False
if proto == 'vnc':
ctxt = dict(ctxt, **self.get_console_info('xvpvnc', **rel))
ctxt = dict(ctxt, **self.get_console_info('novnc', **rel))
else:
ctxt = dict(ctxt, **self.get_console_info(proto, **rel))
break
ctxt['console_listen_addr'] = resolve_address(endpoint_type=INTERNAL)
return ctxt
class MetadataServiceContext(context.OSContextGenerator):
def __call__(self):
ctxt = {}
_, secret = nova_metadata_requirement()
if secret:
ctxt['metadata_shared_secret'] = secret
return ctxt
class DesignateContext(context.OSContextGenerator):
def __call__(self):
ctxt = {}
ctxt['enable_designate'] = False
for rid in relation_ids('nova-designate'):
if related_units(rid):
ctxt['enable_designate'] = True
if ctxt['enable_designate']:
ctxt['notification_driver'] = 'messaging'
ctxt['notification_topics'] = 'notifications_designate'
ctxt['notify_on_state_change'] = 'vm_and_task_state'
return ctxt
class NeutronComputeContext(context.OSContextGenerator):
interfaces = []
@property
def plugin(self):
return _neutron_plugin()
@property
def network_manager(self):
return _network_manager()
@property
def neutron_security_groups(self):
return _neutron_security_groups()
def __call__(self):
if self.plugin:
return {
'network_manager': self.network_manager,
'neutron_plugin': self.plugin,
'neutron_security_groups': self.neutron_security_groups
}
return {}
class HostIPContext(context.OSContextGenerator):
def __call__(self):
ctxt = {}
# Use the address used in the cloud-compute relation in templates for
# this host
host_ip = get_relation_ip('cloud-compute')
if host_ip:
# NOTE: do not format this even for ipv6 (see bug 1499656)
ctxt['host_ip'] = host_ip
return ctxt
class NovaAPIAppArmorContext(context.AppArmorContext):
def __init__(self):
super(NovaAPIAppArmorContext, self).__init__()
self.aa_profile = NOVA_API_AA_PROFILE
def __call__(self):
super(NovaAPIAppArmorContext, self).__call__()
if not self.ctxt:
return self.ctxt
self._ctxt.update({'aa_profile': self.aa_profile})
return self.ctxt
class NovaComputeAppArmorContext(context.AppArmorContext):
def __init__(self):
super(NovaComputeAppArmorContext, self).__init__()
self.aa_profile = NOVA_COMPUTE_AA_PROFILE
def __call__(self):
super(NovaComputeAppArmorContext, self).__call__()
if not self.ctxt:
return self.ctxt
self._ctxt.update({'virt_type': config('virt-type')})
self._ctxt.update({'aa_profile': self.aa_profile})
return self.ctxt
class NovaNetworkAppArmorContext(context.AppArmorContext):
def __init__(self):
super(NovaNetworkAppArmorContext, self).__init__()
self.aa_profile = NOVA_NETWORK_AA_PROFILE
def __call__(self):
super(NovaNetworkAppArmorContext, self).__call__()
if not self.ctxt:
return self.ctxt
self._ctxt.update({'aa_profile': self.aa_profile})
return self.ctxt
class NovaComputeAvailabilityZoneContext(context.OSContextGenerator):
def __call__(self):
ctxt = {}
if config('default-availability-zone'):
ctxt['default_availability_zone'] = config(
'default-availability-zone')
return ctxt
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