# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2012 United States Government as represented by the
# Administrator of the National Aeronautics and Space Administration.
# All Rights Reserved.
#
# Copyright 2012 Cisco Systems, Inc.
# Copyright 2012 NEC Corporation
#
# 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.
from __future__ import absolute_import
import logging
from quantumclient.v2_0 import client as quantum_client
from django.utils.datastructures import SortedDict
from horizon.conf import HORIZON_CONFIG
from openstack_dashboard.api.base import APIDictWrapper, url_for
from openstack_dashboard.api import network
from openstack_dashboard.api import nova
LOG = logging.getLogger(__name__)
IP_VERSION_DICT = {4: 'IPv4', 6: 'IPv6'}
class QuantumAPIDictWrapper(APIDictWrapper):
def set_id_as_name_if_empty(self, length=8):
try:
if not self._apidict['name']:
id = self._apidict['id']
if length:
id = id[:length]
self._apidict['name'] = '(%s)' % id
except KeyError:
pass
def items(self):
return self._apidict.items()
class Network(QuantumAPIDictWrapper):
"""Wrapper for quantum Networks"""
def __init__(self, apiresource):
apiresource['admin_state'] = \
'UP' if apiresource['admin_state_up'] else 'DOWN'
# Django cannot handle a key name with a colon, so remap another key
for key in apiresource.keys():
if key.find(':'):
apiresource['__'.join(key.split(':'))] = apiresource[key]
super(Network, self).__init__(apiresource)
class Subnet(QuantumAPIDictWrapper):
"""Wrapper for quantum subnets"""
def __init__(self, apiresource):
apiresource['ipver_str'] = get_ipver_str(apiresource['ip_version'])
super(Subnet, self).__init__(apiresource)
class Port(QuantumAPIDictWrapper):
"""Wrapper for quantum ports"""
def __init__(self, apiresource):
apiresource['admin_state'] = \
'UP' if apiresource['admin_state_up'] else 'DOWN'
super(Port, self).__init__(apiresource)
class Router(QuantumAPIDictWrapper):
"""Wrapper for quantum routers"""
def __init__(self, apiresource):
#apiresource['admin_state'] = \
# 'UP' if apiresource['admin_state_up'] else 'DOWN'
super(Router, self).__init__(apiresource)
class FloatingIp(APIDictWrapper):
_attrs = ['id', 'ip', 'fixed_ip', 'port_id', 'instance_id', 'pool']
def __init__(self, fip):
fip['ip'] = fip['floating_ip_address']
fip['fixed_ip'] = fip['fixed_ip_address']
fip['pool'] = fip['floating_network_id']
super(FloatingIp, self).__init__(fip)
class FloatingIpPool(APIDictWrapper):
pass
class FloatingIpTarget(APIDictWrapper):
pass
class FloatingIpManager(network.FloatingIpManager):
def __init__(self, request):
self.request = request
self.client = quantumclient(request)
def list_pools(self):
search_opts = {'router:external': True}
return [FloatingIpPool(pool) for pool
in self.client.list_networks(**search_opts).get('networks')]
def list(self):
fips = self.client.list_floatingips().get('floatingips')
# Get port list to add instance_id to floating IP list
# instance_id is stored in device_id attribute
ports = port_list(self.request)
device_id_dict = SortedDict([(p['id'], p['device_id']) for p in ports])
for fip in fips:
if fip['port_id']:
fip['instance_id'] = device_id_dict[fip['port_id']]
else:
fip['instance_id'] = None
return [FloatingIp(fip) for fip in fips]
def get(self, floating_ip_id):
fip = self.client.show_floatingip(floating_ip_id).get('floatingip')
if fip['port_id']:
fip['instance_id'] = port_get(self.request,
fip['port_id']).device_id
else:
fip['instance_id'] = None
return FloatingIp(fip)
def allocate(self, pool):
body = {'floatingip': {'floating_network_id': pool}}
fip = self.client.create_floatingip(body).get('floatingip')
fip['instance_id'] = None
return FloatingIp(fip)
def release(self, floating_ip_id):
self.client.delete_floatingip(floating_ip_id)
def associate(self, floating_ip_id, port_id):
# NOTE: In Quantum Horizon floating IP support, port_id is
# "<port_id>_<ip_address>" format to identify multiple ports.
pid, ip_address = port_id.split('_', 1)
update_dict = {'port_id': pid,
'fixed_ip_address': ip_address}
self.client.update_floatingip(floating_ip_id,
{'floatingip': update_dict})
def disassociate(self, floating_ip_id, port_id):
update_dict = {'port_id': None}
self.client.update_floatingip(floating_ip_id,
{'floatingip': update_dict})
def list_targets(self):
ports = port_list(self.request)
servers = nova.server_list(self.request)
server_dict = SortedDict([(s.id, s.name) for s in servers])
targets = []
for p in ports:
# Remove network ports from Floating IP targets
if p.device_owner.startswith('network:'):
continue
port_id = p.id
server_name = server_dict.get(p.device_id)
for ip in p.fixed_ips:
target = {'name': '%s: %s' % (server_name, ip['ip_address']),
'id': '%s_%s' % (port_id, ip['ip_address'])}
targets.append(FloatingIpTarget(target))
return targets
def get_target_id_by_instance(self, instance_id):
# In Quantum one port can have multiple ip addresses, so this method
# picks up the first one and generate target id.
if not instance_id:
return None
search_opts = {'device_id': instance_id}
ports = port_list(self.request, **search_opts)
if not ports:
return None
return '%s_%s' % (ports[0].id, ports[0].fixed_ips[0]['ip_address'])
def is_simple_associate_supported(self):
# NOTE: There are two reason that simple association support
# needs more considerations. (1) Quantum does not support the
# default floating IP pool at the moment. It can be avoided
# in case where only one floating IP pool exists.
# (2) Quantum floating IP is associated with each VIF and
# we need to check whether such VIF is only one for an instance
# to enable simple association support.
return False
def get_ipver_str(ip_version):
"""Convert an ip version number to a human-friendly string"""
return IP_VERSION_DICT.get(ip_version, '')
def quantumclient(request):
LOG.debug('quantumclient connection created using token "%s" and url "%s"'
% (request.user.token.id, url_for(request, 'network')))
LOG.debug('user_id=%(user)s, tenant_id=%(tenant)s' %
{'user': request.user.id, 'tenant': request.user.tenant_id})
c = quantum_client.Client(token=request.user.token.id,
endpoint_url=url_for(request, 'network'))
return c
def network_list(request, **params):
LOG.debug("network_list(): params=%s" % (params))
networks = quantumclient(request).list_networks(**params).get('networks')
# Get subnet list to expand subnet info in network list.
subnets = subnet_list(request)
subnet_dict = SortedDict([(s['id'], s) for s in subnets])
# Expand subnet list from subnet_id to values.
for n in networks:
n['subnets'] = [subnet_dict.get(s) for s in n.get('subnets', [])]
return [Network(n) for n in networks]
def network_list_for_tenant(request, tenant_id, **params):
"""Return a network list available for the tenant.
The list contains networks owned by the tenant and public networks.
If requested_networks specified, it searches requested_networks only.
"""
LOG.debug("network_list_for_tenant(): tenant_id=%s, params=%s"
% (tenant_id, params))
# If a user has admin role, network list returned by Quantum API
# contains networks that do not belong to that tenant.
# So we need to specify tenant_id when calling network_list().
networks = network_list(request, tenant_id=tenant_id,
shared=False, **params)
# In the current Quantum API, there is no way to retrieve
# both owner networks and public networks in a single API call.
networks += network_list(request, shared=True, **params)
return networks
def network_get(request, network_id, expand_subnet=True, **params):
LOG.debug("network_get(): netid=%s, params=%s" % (network_id, params))
network = quantumclient(request).show_network(network_id,
**params).get('network')
# Since the number of subnets per network must be small,
# call subnet_get() for each subnet instead of calling
# subnet_list() once.
if expand_subnet:
network['subnets'] = [subnet_get(request, sid)
for sid in network['subnets']]
return Network(network)
def network_create(request, **kwargs):
"""
Create a subnet on a specified network.
:param request: request context
:param tenant_id: (optional) tenant id of the network created
:param name: (optional) name of the network created
:returns: Subnet object
"""
LOG.debug("network_create(): kwargs = %s" % kwargs)
body = {'network': kwargs}
network = quantumclient(request).create_network(body=body).get('network')
return Network(network)
def network_modify(request, network_id, **kwargs):
LOG.debug("network_modify(): netid=%s, params=%s" % (network_id, kwargs))
body = {'network': kwargs}
network = quantumclient(request).update_network(network_id,
body=body).get('network')
return Network(network)
def network_delete(request, network_id):
LOG.debug("network_delete(): netid=%s" % network_id)
quantumclient(request).delete_network(network_id)
def subnet_list(request, **params):
LOG.debug("subnet_list(): params=%s" % (params))
subnets = quantumclient(request).list_subnets(**params).get('subnets')
return [Subnet(s) for s in subnets]
def subnet_get(request, subnet_id, **params):
LOG.debug("subnet_get(): subnetid=%s, params=%s" % (subnet_id, params))
subnet = quantumclient(request).show_subnet(subnet_id,
**params).get('subnet')
return Subnet(subnet)
def subnet_create(request, network_id, cidr, ip_version, **kwargs):
"""
Create a subnet on a specified network.
:param request: request context
:param network_id: network id a subnet is created on
:param cidr: subnet IP address range
:param ip_version: IP version (4 or 6)
:param gateway_ip: (optional) IP address of gateway
:param tenant_id: (optional) tenant id of the subnet created
:param name: (optional) name of the subnet created
:returns: Subnet object
"""
LOG.debug("subnet_create(): netid=%s, cidr=%s, ipver=%d, kwargs=%s"
% (network_id, cidr, ip_version, kwargs))
body = {'subnet':
{'network_id': network_id,
'ip_version': ip_version,
'cidr': cidr}}
body['subnet'].update(kwargs)
subnet = quantumclient(request).create_subnet(body=body).get('subnet')
return Subnet(subnet)
def subnet_modify(request, subnet_id, **kwargs):
LOG.debug("subnet_modify(): subnetid=%s, kwargs=%s" % (subnet_id, kwargs))
body = {'subnet': kwargs}
subnet = quantumclient(request).update_subnet(subnet_id,
body=body).get('subnet')
return Subnet(subnet)
def subnet_delete(request, subnet_id):
LOG.debug("subnet_delete(): subnetid=%s" % subnet_id)
quantumclient(request).delete_subnet(subnet_id)
def port_list(request, **params):
LOG.debug("port_list(): params=%s" % (params))
ports = quantumclient(request).list_ports(**params).get('ports')
return [Port(p) for p in ports]
def port_get(request, port_id, **params):
LOG.debug("port_get(): portid=%s, params=%s" % (port_id, params))
port = quantumclient(request).show_port(port_id, **params).get('port')
return Port(port)
def port_create(request, network_id, **kwargs):
"""
Create a port on a specified network.
:param request: request context
:param network_id: network id a subnet is created on
:param device_id: (optional) device id attached to the port
:param tenant_id: (optional) tenant id of the port created
:param name: (optional) name of the port created
:returns: Port object
"""
LOG.debug("port_create(): netid=%s, kwargs=%s" % (network_id, kwargs))
body = {'port': {'network_id': network_id}}
body['port'].update(kwargs)
port = quantumclient(request).create_port(body=body).get('port')
return Port(port)
def port_delete(request, port_id):
LOG.debug("port_delete(): portid=%s" % port_id)
quantumclient(request).delete_port(port_id)
def port_modify(request, port_id, **kwargs):
LOG.debug("port_modify(): portid=%s, kwargs=%s" % (port_id, kwargs))
body = {'port': kwargs}
port = quantumclient(request).update_port(port_id, body=body).get('port')
return Port(port)
def router_create(request, **kwargs):
LOG.debug("router_create():, kwargs=%s" % kwargs)
body = {'router': {}}
body['router'].update(kwargs)
router = quantumclient(request).create_router(body=body).get('router')
return Router(router)
def router_get(request, router_id, **params):
router = quantumclient(request).show_router(router_id,
**params).get('router')
return Router(router)
def router_list(request, **params):
routers = quantumclient(request).list_routers(**params).get('routers')
return [Router(r) for r in routers]
def router_delete(request, router_id):
quantumclient(request).delete_router(router_id)
def router_add_interface(request, router_id, subnet_id=None, port_id=None):
body = {}
if subnet_id:
body['subnet_id'] = subnet_id
if port_id:
body['port_id'] = port_id
client = quantumclient(request)
return client.add_interface_router(router_id, body)
def router_remove_interface(request, router_id, subnet_id=None, port_id=None):
body = {}
if subnet_id:
body['subnet_id'] = subnet_id
if port_id:
body['port_id'] = port_id
quantumclient(request).remove_interface_router(router_id, body)
def router_add_gateway(request, router_id, network_id):
body = {'network_id': network_id}
quantumclient(request).add_gateway_router(router_id, body)
def router_remove_gateway(request, router_id):
quantumclient(request).remove_gateway_router(router_id)