/usr/lib/python2.7/dist-packages/shade/meta.py is in python-shade 1.5.1-0ubuntu1.
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#
# 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 munch
import ipaddress
import six
from shade import exc
from shade import _log
NON_CALLABLES = (six.string_types, bool, dict, int, float, list, type(None))
log = _log.setup_logging(__name__)
def find_nova_addresses(addresses, ext_tag=None, key_name=None, version=4):
ret = []
for (k, v) in iter(addresses.items()):
if key_name is not None and k != key_name:
# key_name is specified and it doesn't match the current network.
# Continue with the next one
continue
for interface_spec in v:
if ext_tag is not None:
if 'OS-EXT-IPS:type' not in interface_spec:
# ext_tag is specified, but this interface has no tag
# We could actually return right away as this means that
# this cloud doesn't support OS-EXT-IPS. Nevertheless,
# it would be better to perform an explicit check. e.g.:
# cloud._has_nova_extension('OS-EXT-IPS')
# But this needs cloud to be passed to this function.
continue
elif interface_spec['OS-EXT-IPS:type'] != ext_tag:
# Type doesn't match, continue with next one
continue
if interface_spec['version'] == version:
ret.append(interface_spec['addr'])
return ret
def get_server_ip(server, **kwargs):
addrs = find_nova_addresses(server['addresses'], **kwargs)
if not addrs:
return None
return addrs[0]
def get_server_private_ip(server, cloud=None):
"""Find the private IP address
If Neutron is available, search for a port on a network where
`router:external` is False and `shared` is False. This combination
indicates a private network with private IP addresses. This port should
have the private IP.
If Neutron is not available, or something goes wrong communicating with it,
as a fallback, try the list of addresses associated with the server dict,
looking for an IP type tagged as 'fixed' in the network named 'private'.
Last resort, ignore the IP type and just look for an IP on the 'private'
network (e.g., Rackspace).
"""
if cloud and not cloud.use_internal_network():
return None
# Short circuit the ports/networks search below with a heavily cached
# and possibly pre-configured network name
if cloud:
int_nets = cloud.get_internal_networks()
for int_net in int_nets:
int_ip = get_server_ip(server, key_name=int_net['name'])
if int_ip is not None:
return int_ip
ip = get_server_ip(server, ext_tag='fixed', key_name='private')
if ip:
return ip
# Last resort, and Rackspace
return get_server_ip(server, key_name='private')
def get_server_external_ipv4(cloud, server):
"""Find an externally routable IP for the server.
There are 5 different scenarios we have to account for:
* Cloud has externally routable IP from neutron but neutron APIs don't
work (only info available is in nova server record) (rackspace)
* Cloud has externally routable IP from neutron (runabove, ovh)
* Cloud has externally routable IP from neutron AND supports optional
private tenant networks (vexxhost, unitedstack)
* Cloud only has private tenant network provided by neutron and requires
floating-ip for external routing (dreamhost, hp)
* Cloud only has private tenant network provided by nova-network and
requires floating-ip for external routing (auro)
:param cloud: the cloud we're working with
:param server: the server dict from which we want to get an IPv4 address
:return: a string containing the IPv4 address or None
"""
if not cloud.use_external_network():
return None
if server['accessIPv4']:
return server['accessIPv4']
# Short circuit the ports/networks search below with a heavily cached
# and possibly pre-configured network name
ext_nets = cloud.get_external_networks()
for ext_net in ext_nets:
ext_ip = get_server_ip(server, key_name=ext_net['name'])
if ext_ip is not None:
return ext_ip
# Try to get a floating IP address
# Much as I might find floating IPs annoying, if it has one, that's
# almost certainly the one that wants to be used
ext_ip = get_server_ip(server, ext_tag='floating')
if ext_ip is not None:
return ext_ip
# The cloud doesn't support Neutron or Neutron can't be contacted. The
# server might have fixed addresses that are reachable from outside the
# cloud (e.g. Rax) or have plain ol' floating IPs
# Try to get an address from a network named 'public'
ext_ip = get_server_ip(server, key_name='public')
if ext_ip is not None:
return ext_ip
# Nothing else works, try to find a globally routable IP address
for interfaces in server['addresses'].values():
for interface in interfaces:
try:
ip = ipaddress.ip_address(interface['addr'])
except Exception:
# Skip any error, we're looking for a working ip - if the
# cloud returns garbage, it wouldn't be the first weird thing
# but it still doesn't meet the requirement of "be a working
# ip address"
continue
if ip.version == 4 and not ip.is_private:
return str(ip)
return None
def get_server_external_ipv6(server):
""" Get an IPv6 address reachable from outside the cloud.
This function assumes that if a server has an IPv6 address, that address
is reachable from outside the cloud.
:param server: the server from which we want to get an IPv6 address
:return: a string containing the IPv6 address or None
"""
if server['accessIPv6']:
return server['accessIPv6']
addresses = find_nova_addresses(addresses=server['addresses'], version=6)
if addresses:
return addresses[0]
return None
def get_groups_from_server(cloud, server, server_vars):
groups = []
region = cloud.region_name
cloud_name = cloud.name
# Create a group for the cloud
groups.append(cloud_name)
# Create a group on region
groups.append(region)
# And one by cloud_region
groups.append("%s_%s" % (cloud_name, region))
# Check if group metadata key in servers' metadata
group = server['metadata'].get('group')
if group:
groups.append(group)
for extra_group in server['metadata'].get('groups', '').split(','):
if extra_group:
groups.append(extra_group)
groups.append('instance-%s' % server['id'])
for key in ('flavor', 'image'):
if 'name' in server_vars[key]:
groups.append('%s-%s' % (key, server_vars[key]['name']))
for key, value in iter(server['metadata'].items()):
groups.append('meta-%s_%s' % (key, value))
az = server_vars.get('az', None)
if az:
# Make groups for az, region_az and cloud_region_az
groups.append(az)
groups.append('%s_%s' % (region, az))
groups.append('%s_%s_%s' % (cloud.name, region, az))
return groups
def expand_server_vars(cloud, server):
"""Backwards compatibility function."""
return add_server_interfaces(cloud, server)
def add_server_interfaces(cloud, server):
"""Add network interface information to server.
Query the cloud as necessary to add information to the server record
about the network information needed to interface with the server.
Ensures that public_v4, public_v6, private_v4, private_v6, interface_ip,
accessIPv4 and accessIPv6 are always set.
"""
# First, add an IP address. Set it to '' rather than None if it does
# not exist to remain consistent with the pre-existing missing values
server['public_v4'] = get_server_external_ipv4(cloud, server) or ''
server['public_v6'] = get_server_external_ipv6(server) or ''
server['private_v4'] = get_server_private_ip(server, cloud) or ''
interface_ip = None
if cloud.private and server['private_v4']:
interface_ip = server['private_v4']
else:
if (server['public_v6'] and cloud._local_ipv6
and not cloud.force_ipv4):
interface_ip = server['public_v6']
else:
interface_ip = server['public_v4']
if interface_ip:
server['interface_ip'] = interface_ip
# Some clouds do not set these, but they're a regular part of the Nova
# server record. Since we know them, go ahead and set them. In the case
# where they were set previous, we use the values, so this will not break
# clouds that provide the information
if cloud.private and server['private_v4']:
server['accessIPv4'] = server['private_v4']
else:
server['accessIPv4'] = server['public_v4']
server['accessIPv6'] = server['public_v6']
return server
def expand_server_security_groups(cloud, server):
try:
groups = cloud.list_server_security_groups(server)
except exc.OpenStackCloudException:
groups = []
server['security_groups'] = groups
def get_hostvars_from_server(cloud, server, mounts=None):
"""Expand additional server information useful for ansible inventory.
Variables in this function may make additional cloud queries to flesh out
possibly interesting info, making it more expensive to call than
expand_server_vars if caching is not set up. If caching is set up,
the extra cost should be minimal.
"""
server_vars = add_server_interfaces(cloud, server)
flavor_id = server['flavor']['id']
flavor_name = cloud.get_flavor_name(flavor_id)
if flavor_name:
server_vars['flavor']['name'] = flavor_name
expand_server_security_groups(cloud, server)
# OpenStack can return image as a string when you've booted from volume
if str(server['image']) == server['image']:
image_id = server['image']
server_vars['image'] = dict(id=image_id)
else:
image_id = server['image'].get('id', None)
if image_id:
image_name = cloud.get_image_name(image_id)
if image_name:
server_vars['image']['name'] = image_name
volumes = []
if cloud.has_service('volume'):
try:
for volume in cloud.get_volumes(server):
# Make things easier to consume elsewhere
volume['device'] = volume['attachments'][0]['device']
volumes.append(volume)
except exc.OpenStackCloudException:
pass
server_vars['volumes'] = volumes
if mounts:
for mount in mounts:
for vol in server_vars['volumes']:
if vol['display_name'] == mount['display_name']:
if 'mount' in mount:
vol['mount'] = mount['mount']
return server_vars
def obj_to_dict(obj):
""" Turn an object with attributes into a dict suitable for serializing.
Some of the things that are returned in OpenStack are objects with
attributes. That's awesome - except when you want to expose them as JSON
structures. We use this as the basis of get_hostvars_from_server above so
that we can just have a plain dict of all of the values that exist in the
nova metadata for a server.
"""
if obj is None:
return None
elif isinstance(obj, munch.Munch) or hasattr(obj, 'mock_add_spec'):
# If we obj_to_dict twice, don't fail, just return the munch
# Also, don't try to modify Mock objects - that way lies madness
return obj
elif hasattr(obj, 'schema') and hasattr(obj, 'validate'):
# It's a warlock
return warlock_to_dict(obj)
elif isinstance(obj, dict):
# The new request-id tracking spec:
# https://specs.openstack.org/openstack/nova-specs/specs/juno/approved/log-request-id-mappings.html
# adds a request-ids attribute to returned objects. It does this even
# with dicts, which now become dict subclasses. So we want to convert
# the dict we get, but we also want it to fall through to object
# attribute processing so that we can also get the request_ids
# data into our resulting object.
instance = munch.Munch(obj)
else:
instance = munch.Munch()
for key in dir(obj):
value = getattr(obj, key)
if isinstance(value, NON_CALLABLES) and not key.startswith('_'):
instance[key] = value
return instance
def obj_list_to_dict(list):
"""Enumerate through lists of objects and return lists of dictonaries.
Some of the objects returned in OpenStack are actually lists of objects,
and in order to expose the data structures as JSON, we need to facilitate
the conversion to lists of dictonaries.
"""
new_list = []
for obj in list:
new_list.append(obj_to_dict(obj))
return new_list
def warlock_to_dict(obj):
# glanceclient v2 uses warlock to construct its objects. Warlock does
# deep black magic to attribute look up to support validation things that
# means we cannot use normal obj_to_dict
obj_dict = munch.Munch()
for (key, value) in obj.items():
if isinstance(value, NON_CALLABLES) and not key.startswith('_'):
obj_dict[key] = value
return obj_dict
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