openstack
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neutron
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neutron/quantum/plugins/nicira/nvplib.py

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Python
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# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2012 Nicira Networks, Inc.
# All Rights Reserved
#
# 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.
#
# @author: Brad Hall, Nicira Networks, Inc.
# @author: Dave Lapsley, Nicira Networks, Inc.
# @author: Aaron Rosen, Nicira Networks, Inc.
from copy import copy
import hashlib
import inspect
import json
import logging
from oslo.config import cfg
#FIXME(danwent): I'd like this file to get to the point where it has
# no quantum-specific logic in it
from quantum.common import constants
from quantum.common import exceptions as exception
from quantum.plugins.nicira.common import (
exceptions as nvp_exc)
from quantum.plugins.nicira import NvpApiClient
# HTTP METHODS CONSTANTS
HTTP_GET = "GET"
HTTP_POST = "POST"
HTTP_DELETE = "DELETE"
HTTP_PUT = "PUT"
# Prefix to be used for all NVP API calls
URI_PREFIX = "/ws.v1"
# Resources exposed by NVP API
LSWITCH_RESOURCE = "lswitch"
LSWITCHPORT_RESOURCE = "lport/%s" % LSWITCH_RESOURCE
LROUTER_RESOURCE = "lrouter"
# Current quantum version
LROUTERPORT_RESOURCE = "lport/%s" % LROUTER_RESOURCE
LROUTERNAT_RESOURCE = "nat/lrouter"
LQUEUE_RESOURCE = "lqueue"
GWSERVICE_RESOURCE = "gateway-service"
QUANTUM_VERSION = "2013.1"
# Other constants for NVP resource
MAX_DISPLAY_NAME_LEN = 40
# Constants for NAT rules
MATCH_KEYS = ["destination_ip_addresses", "destination_port_max",
"destination_port_min", "source_ip_addresses",
"source_port_max", "source_port_min", "protocol"]
SNAT_KEYS = ["to_src_port_min", "to_src_port_max", "to_src_ip_min",
"to_src_ip_max"]
DNAT_KEYS = ["to_dst_port", "to_dst_ip_min", "to_dst_ip_max"]
LOCAL_LOGGING = False
if LOCAL_LOGGING:
from logging.handlers import SysLogHandler
FORMAT = ("|%(levelname)s|%(filename)s|%(funcName)s|%(lineno)s"
"|%(message)s")
LOG = logging.getLogger(__name__)
formatter = logging.Formatter(FORMAT)
syslog = SysLogHandler(address="/dev/log")
syslog.setFormatter(formatter)
LOG.addHandler(syslog)
LOG.setLevel(logging.DEBUG)
else:
LOG = logging.getLogger(__name__)
LOG.setLevel(logging.DEBUG)
# TODO(bgh): it would be more efficient to use a bitmap
taken_context_ids = []
_net_type_cache = {} # cache of {net_id: network_type}
# XXX Only cache default for now
_lqueue_cache = {}
def version_dependent(func):
func_name = func.__name__
def dispatch_version_dependent_function(cluster, *args, **kwargs):
nvp_ver = cluster.api_client.get_nvp_version()
if nvp_ver:
ver_major = int(nvp_ver.split('.')[0])
real_func = NVPLIB_FUNC_DICT[func_name][ver_major]
func_kwargs = kwargs
arg_spec = inspect.getargspec(real_func)
if not arg_spec.keywords and not arg_spec.varargs:
# drop args unknown to function from func_args
arg_set = set(func_kwargs.keys())
for arg in arg_set - set(arg_spec.args):
del func_kwargs[arg]
# NOTE(salvatore-orlando): shall we fail here if a required
# argument is not passed, or let the called function raise?
real_func(cluster, *args, **func_kwargs)
return dispatch_version_dependent_function
def _build_uri_path(resource,
resource_id=None,
parent_resource_id=None,
fields=None,
relations=None,
filters=None,
types=None,
is_attachment=False):
resources = resource.split('/')
res_path = resources[0] + (resource_id and "/%s" % resource_id or '')
if len(resources) > 1:
# There is also a parent resource to account for in the uri
res_path = "%s/%s/%s" % (resources[1],
parent_resource_id,
res_path)
if is_attachment:
res_path = "%s/attachment" % res_path
params = []
params.append(fields and "fields=%s" % fields)
params.append(relations and "relations=%s" % relations)
params.append(types and "types=%s" % types)
if filters:
params.extend(['%s=%s' % (k, v) for (k, v) in filters.iteritems()])
uri_path = "%s/%s" % (URI_PREFIX, res_path)
non_empty_params = [x for x in params if x is not None]
if non_empty_params:
query_string = '&'.join(non_empty_params)
if query_string:
uri_path += "?%s" % query_string
return uri_path
def _check_and_truncate_name(display_name):
if display_name and len(display_name) > MAX_DISPLAY_NAME_LEN:
LOG.debug(_("Specified name:'%s' exceeds maximum length. "
"It will be truncated on NVP"), display_name)
return display_name[:MAX_DISPLAY_NAME_LEN]
return display_name
def get_cluster_version(cluster):
"""Return major/minor version #."""
# Get control-cluster nodes
uri = "/ws.v1/control-cluster/node?_page_length=1&fields=uuid"
try:
res = do_single_request(HTTP_GET, uri, cluster=cluster)
res = json.loads(res)
except NvpApiClient.NvpApiException:
raise exception.QuantumException()
if res["result_count"] == 0:
return None
node_uuid = res["results"][0]["uuid"]
# Get control-cluster node status. It's unsupported to have controllers
# running different version so we just need the first node version.
uri = "/ws.v1/control-cluster/node/%s/status" % node_uuid
try:
res = do_single_request(HTTP_GET, uri, cluster=cluster)
res = json.loads(res)
except NvpApiClient.NvpApiException:
raise exception.QuantumException()
version_parts = res["version"].split(".")
version = "%s.%s" % tuple(version_parts[:2])
LOG.info(_("NVP controller cluster version: %s"), version)
return version
def get_all_query_pages(path, c):
need_more_results = True
result_list = []
page_cursor = None
query_marker = "&" if (path.find("?") != -1) else "?"
while need_more_results:
page_cursor_str = (
"_page_cursor=%s" % page_cursor if page_cursor else "")
res = do_single_request(HTTP_GET, "%s%s%s" %
(path, query_marker, page_cursor_str),
cluster=c)
body = json.loads(res)
page_cursor = body.get('page_cursor')
if not page_cursor:
need_more_results = False
result_list.extend(body['results'])
return result_list
def do_single_request(*args, **kwargs):
"""Issue a request to a specified cluster if specified via kwargs
(cluster=<cluster>).
"""
cluster = kwargs["cluster"]
try:
req = cluster.api_client.request(*args)
except NvpApiClient.ResourceNotFound:
raise exception.NotFound()
return req
def do_multi_request(*args, **kwargs):
"""Issue a request to all clusters."""
results = []
clusters = kwargs["clusters"]
for x in clusters:
LOG.debug(_("Issuing request to cluster: %s"), x.name)
rv = x.api_client.request(*args)
results.append(rv)
return results
# -------------------------------------------------------------------
# Network functions
# -------------------------------------------------------------------
def find_port_and_cluster(clusters, port_id):
"""Find port and cluster.
Returns (url, cluster_id) of port or (None, None) if port does not exist.
"""
for c in clusters:
query = "/ws.v1/lswitch/*/lport?uuid=%s&fields=*" % port_id
LOG.debug(_("Looking for lswitch with port id "
"'%(port_id)s' on: %(c)s"),
{'port_id': port_id, 'c': c})
try:
res = do_single_request(HTTP_GET, query, cluster=c)
except Exception as e:
LOG.error(_("get_port_cluster_and_url, exception: %s"), str(e))
continue
res = json.loads(res)
if len(res["results"]) == 1:
return (res["results"][0], c)
return (None, None)
def find_lswitch_by_portid(clusters, port_id):
port, cluster = find_port_and_cluster(clusters, port_id)
if port and cluster:
href = port["_href"].split('/')
return (href[3], cluster)
return (None, None)
def get_lswitches(cluster, quantum_net_id):
lswitch_uri_path = _build_uri_path(LSWITCH_RESOURCE, quantum_net_id,
relations="LogicalSwitchStatus")
results = []
try:
resp_obj = do_single_request(HTTP_GET,
lswitch_uri_path,
cluster=cluster)
ls = json.loads(resp_obj)
results.append(ls)
for tag in ls['tags']:
if (tag['scope'] == "multi_lswitch" and
tag['tag'] == "True"):
# Fetch extra logical switches
extra_lswitch_uri_path = _build_uri_path(
LSWITCH_RESOURCE,
fields="uuid,display_name,tags,lport_count",
relations="LogicalSwitchStatus",
filters={'tag': quantum_net_id,
'tag_scope': 'quantum_net_id'})
extra_switches = get_all_query_pages(extra_lswitch_uri_path,
cluster)
results.extend(extra_switches)
return results
except NvpApiClient.ResourceNotFound:
raise exception.NetworkNotFound(net_id=quantum_net_id)
except NvpApiClient.NvpApiException:
# TODO(salvatore-olrando): Do a better exception handling
# and re-raising
LOG.exception(_("An error occured while fetching logical switches "
"for Quantum network %s"), quantum_net_id)
raise exception.QuantumException()
def create_lswitch(cluster, tenant_id, display_name,
transport_type=None,
transport_zone_uuid=None,
vlan_id=None,
quantum_net_id=None,
shared=None,
**kwargs):
nvp_binding_type = transport_type
if transport_type in ('flat', 'vlan'):
nvp_binding_type = 'bridge'
transport_zone_config = (
{"zone_uuid": (transport_zone_uuid or
cluster.default_tz_uuid),
"transport_type": (nvp_binding_type or
cfg.CONF.NVP.default_transport_type)})
lswitch_obj = {"display_name": _check_and_truncate_name(display_name),
"transport_zones": [transport_zone_config],
"tags": [{"tag": tenant_id, "scope": "os_tid"},
{"tag": QUANTUM_VERSION, "scope": "quantum"}]}
if nvp_binding_type == 'bridge' and vlan_id:
transport_zone_config["binding_config"] = {"vlan_translation":
[{"transport": vlan_id}]}
if quantum_net_id:
lswitch_obj["tags"].append({"tag": quantum_net_id,
"scope": "quantum_net_id"})
if shared:
lswitch_obj["tags"].append({"tag": "true",
"scope": "shared"})
if "tags" in kwargs:
lswitch_obj["tags"].extend(kwargs["tags"])
uri = _build_uri_path(LSWITCH_RESOURCE)
try:
lswitch_res = do_single_request(HTTP_POST, uri,
json.dumps(lswitch_obj),
cluster=cluster)
except NvpApiClient.NvpApiException:
raise exception.QuantumException()
lswitch = json.loads(lswitch_res)
LOG.debug(_("Created logical switch: %s"), lswitch['uuid'])
return lswitch
def update_lswitch(cluster, lswitch_id, display_name,
tenant_id=None, **kwargs):
uri = _build_uri_path(LSWITCH_RESOURCE, resource_id=lswitch_id)
lswitch_obj = {"display_name": _check_and_truncate_name(display_name),
"tags": [{"tag": tenant_id, "scope": "os_tid"},
{"tag": QUANTUM_VERSION, "scope": "quantum"}]}
if "tags" in kwargs:
lswitch_obj["tags"].extend(kwargs["tags"])
try:
resp_obj = do_single_request(HTTP_PUT, uri, json.dumps(lswitch_obj),
cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Network not found, Error: %s"), str(e))
raise exception.NetworkNotFound(net_id=lswitch_id)
except NvpApiClient.NvpApiException as e:
raise exception.QuantumException()
obj = json.loads(resp_obj)
return obj
def create_l2_gw_service(cluster, tenant_id, display_name, devices):
"""Create a NVP Layer-2 Network Gateway Service.
:param cluster: The target NVP cluster
:param tenant_id: Identifier of the Openstack tenant for which
the gateway service.
:param display_name: Descriptive name of this gateway service
:param devices: List of transport node uuids (and network
interfaces on them) to use for the network gateway service
:raise NvpApiException: if there is a problem while communicating
with the NVP controller
"""
tags = [{"tag": tenant_id, "scope": "os_tid"},
{"tag": QUANTUM_VERSION, "scope": "quantum"}]
# NOTE(salvatore-orlando): This is a little confusing, but device_id in
# NVP is actually the identifier a physical interface on the gateway
# device, which in the Quantum API is referred as interface_name
gateways = [{"transport_node_uuid": device['id'],
"device_id": device['interface_name'],
"type": "L2Gateway"} for device in devices]
gwservice_obj = {
"display_name": _check_and_truncate_name(display_name),
"tags": tags,
"gateways": gateways,
"type": "L2GatewayServiceConfig"
}
try:
return json.loads(do_single_request(
"POST", _build_uri_path(GWSERVICE_RESOURCE),
json.dumps(gwservice_obj), cluster=cluster))
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def create_lrouter(cluster, tenant_id, display_name, nexthop):
"""Create a NVP logical router on the specified cluster.
:param cluster: The target NVP cluster
:param tenant_id: Identifier of the Openstack tenant for which
the logical router is being created
:param display_name: Descriptive name of this logical router
:param nexthop: External gateway IP address for the logical router
:raise NvpApiException: if there is a problem while communicating
with the NVP controller
"""
display_name = _check_and_truncate_name(display_name)
tags = [{"tag": tenant_id, "scope": "os_tid"},
{"tag": QUANTUM_VERSION, "scope": "quantum"}]
lrouter_obj = {
"display_name": display_name,
"tags": tags,
"routing_config": {
"default_route_next_hop": {
"gateway_ip_address": nexthop,
"type": "RouterNextHop"
},
"type": "SingleDefaultRouteImplicitRoutingConfig"
},
"type": "LogicalRouterConfig"
}
try:
return json.loads(do_single_request(HTTP_POST,
_build_uri_path(LROUTER_RESOURCE),
json.dumps(lrouter_obj),
cluster=cluster))
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def delete_lrouter(cluster, lrouter_id):
try:
do_single_request(HTTP_DELETE,
_build_uri_path(LROUTER_RESOURCE,
resource_id=lrouter_id),
cluster=cluster)
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def delete_l2_gw_service(cluster, gateway_id):
try:
do_single_request("DELETE",
_build_uri_path(GWSERVICE_RESOURCE,
resource_id=gateway_id),
cluster=cluster)
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def get_lrouter(cluster, lrouter_id):
try:
return json.loads(do_single_request(HTTP_GET,
_build_uri_path(LROUTER_RESOURCE,
resource_id=lrouter_id,
relations='LogicalRouterStatus'),
cluster=cluster))
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def get_l2_gw_service(cluster, gateway_id):
try:
return json.loads(do_single_request("GET",
_build_uri_path(GWSERVICE_RESOURCE,
resource_id=gateway_id),
cluster=cluster))
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def get_lrouters(cluster, tenant_id, fields=None, filters=None):
actual_filters = {}
if filters:
actual_filters.update(filters)
if tenant_id:
actual_filters['tag'] = tenant_id
actual_filters['tag_scope'] = 'os_tid'
lrouter_fields = "uuid,display_name,fabric_status,tags"
return get_all_query_pages(
_build_uri_path(LROUTER_RESOURCE,
fields=lrouter_fields,
relations='LogicalRouterStatus',
filters=actual_filters),
cluster)
def get_l2_gw_services(cluster, tenant_id=None,
fields=None, filters=None):
actual_filters = dict(filters or {})
if tenant_id:
actual_filters['tag'] = tenant_id
actual_filters['tag_scope'] = 'os_tid'
return get_all_query_pages(
_build_uri_path(GWSERVICE_RESOURCE,
filters=actual_filters),
cluster)
def update_l2_gw_service(cluster, gateway_id, display_name):
# TODO(salvatore-orlando): Allow updates for gateways too
gwservice_obj = get_l2_gw_service(cluster, gateway_id)
if not display_name:
# Nothing to update
return gwservice_obj
gwservice_obj["display_name"] = _check_and_truncate_name(display_name)
try:
return json.loads(do_single_request("PUT",
_build_uri_path(GWSERVICE_RESOURCE,
resource_id=gateway_id),
json.dumps(gwservice_obj),
cluster=cluster))
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def update_lrouter(cluster, lrouter_id, display_name, nexthop):
lrouter_obj = get_lrouter(cluster, lrouter_id)
if not display_name and not nexthop:
# Nothing to update
return lrouter_obj
# It seems that this is faster than the doing an if on display_name
lrouter_obj["display_name"] = (_check_and_truncate_name(display_name) or
lrouter_obj["display_name"])
if nexthop:
nh_element = lrouter_obj["routing_config"].get(
"default_route_next_hop")
if nh_element:
nh_element["gateway_ip_address"] = nexthop
try:
return json.loads(do_single_request(HTTP_PUT,
_build_uri_path(LROUTER_RESOURCE,
resource_id=lrouter_id),
json.dumps(lrouter_obj),
cluster=cluster))
except NvpApiClient.NvpApiException:
# just log and re-raise - let the caller handle it
LOG.exception(_("An exception occured while communicating with "
"the NVP controller for cluster:%s"), cluster.name)
raise
def get_all_networks(cluster, tenant_id, networks):
"""Get all networks.
Append the quantum network uuids we can find in the given cluster
to "networks".
"""
uri = "/ws.v1/lswitch?fields=*&tag=%s&tag_scope=os_tid" % tenant_id
try:
resp_obj = do_single_request(HTTP_GET, uri, cluster=cluster)
except NvpApiClient.NvpApiException:
raise exception.QuantumException()
if not resp_obj:
return []
networks_result = copy(networks)
return networks_result
def query_networks(cluster, tenant_id, fields="*", tags=None):
uri = "/ws.v1/lswitch?fields=%s" % fields
if tags:
for t in tags:
uri += "&tag=%s&tag_scope=%s" % (t[0], t[1])
try:
resp_obj = do_single_request(HTTP_GET, uri, cluster=cluster)
except NvpApiClient.NvpApiException:
raise exception.QuantumException()
if not resp_obj:
return []
lswitches = json.loads(resp_obj)["results"]
nets = [{'net-id': lswitch["uuid"], 'net-name': lswitch["display_name"]}
for lswitch in lswitches]
return nets
def delete_network(cluster, net_id, lswitch_id):
delete_networks(cluster, net_id, [lswitch_id])
def delete_networks(cluster, net_id, lswitch_ids):
if net_id in _net_type_cache:
del _net_type_cache[net_id]
for ls_id in lswitch_ids:
path = "/ws.v1/lswitch/%s" % ls_id
try:
do_single_request(HTTP_DELETE, path, cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Network not found, Error: %s"), str(e))
raise exception.NetworkNotFound(net_id=ls_id)
except NvpApiClient.NvpApiException as e:
raise exception.QuantumException()
def query_lswitch_lports(cluster, ls_uuid, fields="*",
filters=None, relations=None):
# Fix filter for attachments
if filters and "attachment" in filters:
filters['attachment_vif_uuid'] = filters["attachment"]
del filters['attachment']
uri = _build_uri_path(LSWITCHPORT_RESOURCE, parent_resource_id=ls_uuid,
fields=fields, filters=filters, relations=relations)
try:
resp_obj = do_single_request(HTTP_GET, uri, cluster=cluster)
except NvpApiClient.ResourceNotFound:
LOG.exception(_("Logical switch: %s not found"), ls_uuid)
raise
except NvpApiClient.NvpApiException:
LOG.exception(_("An error occurred while querying logical ports on "
"the NVP platform"))
raise
return json.loads(resp_obj)["results"]
def query_lrouter_lports(cluster, lr_uuid, fields="*",
filters=None, relations=None):
uri = _build_uri_path(LROUTERPORT_RESOURCE, parent_resource_id=lr_uuid,
fields=fields, filters=filters, relations=relations)
try:
resp_obj = do_single_request(HTTP_GET, uri, cluster=cluster)
except NvpApiClient.ResourceNotFound:
LOG.exception(_("Logical router: %s not found"), lr_uuid)
raise
except NvpApiClient.NvpApiException:
LOG.exception(_("An error occured while querying logical router "
"ports on the NVP platfom"))
raise
return json.loads(resp_obj)["results"]
def delete_port(cluster, switch, port):
uri = "/ws.v1/lswitch/" + switch + "/lport/" + port
try:
do_single_request(HTTP_DELETE, uri, cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Port or Network not found, Error: %s"), str(e))
raise exception.PortNotFound(port_id=port['uuid'])
except NvpApiClient.NvpApiException as e:
raise exception.QuantumException()
def get_logical_port_status(cluster, switch, port):
query = ("/ws.v1/lswitch/" + switch + "/lport/"
+ port + "?relations=LogicalPortStatus")
try:
res_obj = do_single_request(HTTP_GET, query, cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Port or Network not found, Error: %s"), str(e))
raise exception.PortNotFound(port_id=port, net_id=switch)
except NvpApiClient.NvpApiException as e:
raise exception.QuantumException()
res = json.loads(res_obj)
# copy over admin_status_enabled
res["_relations"]["LogicalPortStatus"]["admin_status_enabled"] = (
res["admin_status_enabled"])
return res["_relations"]["LogicalPortStatus"]
def get_port_by_display_name(clusters, lswitch, display_name):
"""Return (url, cluster_id) of port or raises PortNotFound."""
query = ("/ws.v1/lswitch/%s/lport?display_name=%s&fields=*" %
(lswitch, display_name))
LOG.debug(_("Looking for port with display_name "
"'%(display_name)s' on: %(lswitch)s"),
{'display_name': display_name, 'lswitch': lswitch})
for c in clusters:
try:
res_obj = do_single_request(HTTP_GET, query, cluster=c)
except Exception as e:
continue
res = json.loads(res_obj)
if len(res["results"]) == 1:
return (res["results"][0], c)
LOG.error(_("Port or Network not found, Error: %s"), str(e))
raise exception.PortNotFound(port_id=display_name, net_id=lswitch)
def get_port_by_quantum_tag(cluster, lswitch_uuid, quantum_port_id):
"""Get port by quantum tag.
Returns the NVP UUID of the logical port with tag q_port_id equal to
quantum_port_id or None if the port is not Found.
"""
uri = _build_uri_path(LSWITCHPORT_RESOURCE,
parent_resource_id=lswitch_uuid,
fields='uuid',
filters={'tag': quantum_port_id,
'tag_scope': 'q_port_id'})
LOG.debug(_("Looking for port with q_port_id tag '%(quantum_port_id)s' "
"on: '%(lswitch_uuid)s'") %
{'quantum_port_id': quantum_port_id,
'lswitch_uuid': lswitch_uuid})
try:
res_obj = do_single_request(HTTP_GET, uri, cluster=cluster)
except Exception:
LOG.exception(_("An exception occurred while querying NVP ports"))
raise
res = json.loads(res_obj)
num_results = len(res["results"])
if num_results >= 1:
if num_results > 1:
LOG.warn(_("Found '%(num_ports)d' ports with "
"q_port_id tag: '%(quantum_port_id)s'. "
"Only 1 was expected.") %
{'num_ports': num_results,
'quantum_port_id': quantum_port_id})
return res["results"][0]
def get_port(cluster, network, port, relations=None):
LOG.info(_("get_port() %(network)s %(port)s"),
{'network': network, 'port': port})
uri = "/ws.v1/lswitch/" + network + "/lport/" + port + "?"
if relations:
uri += "relations=%s" % relations
try:
resp_obj = do_single_request(HTTP_GET, uri, cluster=cluster)
port = json.loads(resp_obj)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Port or Network not found, Error: %s"), str(e))
raise exception.PortNotFound(port_id=port, net_id=network)
except NvpApiClient.NvpApiException as e:
raise exception.QuantumException()
return port
def _configure_extensions(lport_obj, mac_address, fixed_ips,
port_security_enabled, security_profiles, queue_id):
lport_obj['allowed_address_pairs'] = []
if port_security_enabled:
for fixed_ip in fixed_ips:
ip_address = fixed_ip.get('ip_address')
if ip_address:
lport_obj['allowed_address_pairs'].append(
{'mac_address': mac_address, 'ip_address': ip_address})
# add address pair allowing src_ip 0.0.0.0 to leave
# this is required for outgoing dhcp request
lport_obj["allowed_address_pairs"].append(
{"mac_address": mac_address,
"ip_address": "0.0.0.0"})
lport_obj['security_profiles'] = list(security_profiles or [])
lport_obj['queue_uuid'] = queue_id
def update_port(cluster, lswitch_uuid, lport_uuid, quantum_port_id, tenant_id,
display_name, device_id, admin_status_enabled,
mac_address=None, fixed_ips=None, port_security_enabled=None,
security_profiles=None, queue_id=None):
# device_id can be longer than 40 so we rehash it
hashed_device_id = hashlib.sha1(device_id).hexdigest()
lport_obj = dict(
admin_status_enabled=admin_status_enabled,
display_name=_check_and_truncate_name(display_name),
tags=[dict(scope='os_tid', tag=tenant_id),
dict(scope='q_port_id', tag=quantum_port_id),
dict(scope='vm_id', tag=hashed_device_id),
dict(scope='quantum', tag=QUANTUM_VERSION)])
_configure_extensions(lport_obj, mac_address, fixed_ips,
port_security_enabled, security_profiles,
queue_id)
path = "/ws.v1/lswitch/" + lswitch_uuid + "/lport/" + lport_uuid
try:
resp_obj = do_single_request(HTTP_PUT, path, json.dumps(lport_obj),
cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Port or Network not found, Error: %s"), str(e))
raise exception.PortNotFound(port_id=lport_uuid, net_id=lswitch_uuid)
except NvpApiClient.NvpApiException as e:
raise exception.QuantumException()
result = json.loads(resp_obj)
LOG.debug(_("Updated logical port %(result)s on logical swtich %(uuid)s"),
{'result': result['uuid'], 'uuid': lswitch_uuid})
return result
def create_lport(cluster, lswitch_uuid, tenant_id, quantum_port_id,
display_name, device_id, admin_status_enabled,
mac_address=None, fixed_ips=None, port_security_enabled=None,
security_profiles=None, queue_id=None):
"""Creates a logical port on the assigned logical switch."""
# device_id can be longer than 40 so we rehash it
hashed_device_id = hashlib.sha1(device_id).hexdigest()
display_name = _check_and_truncate_name(display_name)
lport_obj = dict(
admin_status_enabled=admin_status_enabled,
display_name=display_name,
tags=[dict(scope='os_tid', tag=tenant_id),
dict(scope='q_port_id', tag=quantum_port_id),
dict(scope='vm_id', tag=hashed_device_id),
dict(scope='quantum', tag=QUANTUM_VERSION)],
)
_configure_extensions(lport_obj, mac_address, fixed_ips,
port_security_enabled, security_profiles,
queue_id)
path = _build_uri_path(LSWITCHPORT_RESOURCE,
parent_resource_id=lswitch_uuid)
try:
resp_obj = do_single_request(HTTP_POST, path,
json.dumps(lport_obj),
cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Logical switch not found, Error: %s"), str(e))
raise
result = json.loads(resp_obj)
LOG.debug(_("Created logical port %(result)s on logical swtich %(uuid)s"),
{'result': result['uuid'], 'uuid': lswitch_uuid})
return result
def create_router_lport(cluster, lrouter_uuid, tenant_id, quantum_port_id,
display_name, admin_status_enabled, ip_addresses):
"""Creates a logical port on the assigned logical router."""
tags = [dict(scope='os_tid', tag=tenant_id),
dict(scope='q_port_id', tag=quantum_port_id),
dict(scope='quantum', tag=QUANTUM_VERSION)]
lport_obj = dict(
admin_status_enabled=admin_status_enabled,
display_name=display_name,
tags=tags,
ip_addresses=ip_addresses,
type="LogicalRouterPortConfig"
)
path = _build_uri_path(LROUTERPORT_RESOURCE,
parent_resource_id=lrouter_uuid)
try:
resp_obj = do_single_request(HTTP_POST, path,
json.dumps(lport_obj),
cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Logical router not found, Error: %s"), str(e))
raise
result = json.loads(resp_obj)
LOG.debug(_("Created logical port %(lport_uuid)s on "
"logical router %(lrouter_uuid)s"),
{'lport_uuid': result['uuid'],
'lrouter_uuid': lrouter_uuid})
return result
def update_router_lport(cluster, lrouter_uuid, lrouter_port_uuid,
tenant_id, quantum_port_id, display_name,
admin_status_enabled, ip_addresses):
"""Updates a logical port on the assigned logical router."""
lport_obj = dict(
admin_status_enabled=admin_status_enabled,
display_name=display_name,
tags=[dict(scope='os_tid', tag=tenant_id),
dict(scope='q_port_id', tag=quantum_port_id),
dict(scope='quantum', tag=QUANTUM_VERSION)],
ip_addresses=ip_addresses,
type="LogicalRouterPortConfig"
)
# Do not pass null items to NVP
for key in lport_obj.keys():
if lport_obj[key] is None:
del lport_obj[key]
path = _build_uri_path(LROUTERPORT_RESOURCE,
lrouter_port_uuid,
parent_resource_id=lrouter_uuid)
try:
resp_obj = do_single_request(HTTP_PUT, path,
json.dumps(lport_obj),
cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Logical router or router port not found, "
"Error: %s"), str(e))
raise
result = json.loads(resp_obj)
LOG.debug(_("Updated logical port %(lport_uuid)s on "
"logical router %(lrouter_uuid)s"),
{'lport_uuid': lrouter_port_uuid, 'lrouter_uuid': lrouter_uuid})
return result
def delete_router_lport(cluster, lrouter_uuid, lport_uuid):
"""Creates a logical port on the assigned logical router."""
path = _build_uri_path(LROUTERPORT_RESOURCE, lport_uuid, lrouter_uuid)
try:
do_single_request(HTTP_DELETE, path, cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Logical router not found, Error: %s"), str(e))
raise
LOG.debug(_("Delete logical router port %(lport_uuid)s on "
"logical router %(lrouter_uuid)s"),
{'lport_uuid': lport_uuid,
'lrouter_uuid': lrouter_uuid})
def delete_peer_router_lport(cluster, lr_uuid, ls_uuid, lp_uuid):
nvp_port = get_port(cluster, ls_uuid, lp_uuid,
relations="LogicalPortAttachment")
try:
relations = nvp_port.get('_relations')
if relations:
att_data = relations.get('LogicalPortAttachment')
if att_data:
lrp_uuid = att_data.get('peer_port_uuid')
if lrp_uuid:
delete_router_lport(cluster, lr_uuid, lrp_uuid)
except (NvpApiClient.NvpApiException, NvpApiClient.ResourceNotFound):
LOG.exception(_("Unable to fetch and delete peer logical "
"router port for logical switch port:%s"),
lp_uuid)
raise
def find_router_gw_port(context, cluster, router_id):
"""Retrieves the external gateway port for a NVP logical router."""
# Find the uuid of nvp ext gw logical router port
# TODO(salvatore-orlando): Consider storing it in Quantum DB
results = query_lrouter_lports(
cluster, router_id,
relations="LogicalPortAttachment")
for lport in results:
if '_relations' in lport:
attachment = lport['_relations'].get('LogicalPortAttachment')
if attachment and attachment.get('type') == 'L3GatewayAttachment':
return lport
def plug_router_port_attachment(cluster, router_id, port_id,
attachment_uuid, nvp_attachment_type,
attachment_vlan=None):
"""Attach a router port to the given attachment.
Current attachment types:
- PatchAttachment [-> logical switch port uuid]
- L3GatewayAttachment [-> L3GatewayService uuid]
For the latter attachment type a VLAN ID can be specified as well.
"""
uri = _build_uri_path(LROUTERPORT_RESOURCE, port_id, router_id,
is_attachment=True)
attach_obj = {}
attach_obj["type"] = nvp_attachment_type
if nvp_attachment_type == "PatchAttachment":
attach_obj["peer_port_uuid"] = attachment_uuid
elif nvp_attachment_type == "L3GatewayAttachment":
attach_obj["l3_gateway_service_uuid"] = attachment_uuid
if attachment_vlan:
attach_obj['vlan_id'] = attachment_vlan
else:
raise Exception(_("Invalid NVP attachment type '%s'"),
nvp_attachment_type)
try:
resp_obj = do_single_request(
HTTP_PUT, uri, json.dumps(attach_obj), cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
LOG.exception(_("Router Port not found, Error: %s"), str(e))
raise
except NvpApiClient.Conflict as e:
LOG.exception(_("Conflict while setting router port attachment"))
raise
except NvpApiClient.NvpApiException as e:
LOG.exception(_("Unable to plug attachment into logical router port"))
raise
result = json.loads(resp_obj)
return result
def get_port_status(cluster, lswitch_id, port_id):
"""Retrieve the operational status of the port."""
try:
r = do_single_request(HTTP_GET,
"/ws.v1/lswitch/%s/lport/%s/status" %
(lswitch_id, port_id), cluster=cluster)
r = json.loads(r)
except NvpApiClient.ResourceNotFound as e:
LOG.error(_("Port not found, Error: %s"), str(e))
raise exception.PortNotFound(port_id=port_id, net_id=lswitch_id)
except NvpApiClient.NvpApiException as e:
raise exception.QuantumException()
if r['link_status_up'] is True:
return constants.PORT_STATUS_ACTIVE
else:
return constants.PORT_STATUS_DOWN
def _plug_interface(cluster, lswitch_id, lport_id, att_obj):
uri = _build_uri_path(LSWITCHPORT_RESOURCE, lport_id, lswitch_id,
is_attachment=True)
try:
resp_obj = do_single_request(HTTP_PUT, uri, json.dumps(att_obj),
cluster=cluster)
except NvpApiClient.NvpApiException:
LOG.exception(_("Exception while plugging an attachment:%(att)s "
"into NVP port:%(port)s for NVP logical switch "
"%(net)s"), {'net': lswitch_id,
'port': lport_id,
'att': att_obj})
raise
result = json.dumps(resp_obj)
return result
def plug_l2_gw_service(cluster, lswitch_id, lport_id,
gateway_id, vlan_id=None):
"""Plug a Layer-2 Gateway Attachment object in a logical port."""
att_obj = {'type': 'L2GatewayAttachment',
'l2_gateway_service_uuid': gateway_id}
if vlan_id:
att_obj['vlan_id'] = vlan_id
return _plug_interface(cluster, lswitch_id, lport_id, att_obj)
def plug_interface(cluster, lswitch_id, port, type, attachment=None):
"""Plug a VIF Attachment object in a logical port."""
lport_obj = {}
if attachment:
lport_obj["vif_uuid"] = attachment
lport_obj["type"] = type
return _plug_interface(cluster, lswitch_id, port, lport_obj)
#------------------------------------------------------------------------------
# Security Profile convenience functions.
#------------------------------------------------------------------------------
EXT_SECURITY_PROFILE_ID_SCOPE = 'nova_spid'
TENANT_ID_SCOPE = 'os_tid'
def format_exception(etype, e, execption_locals, request=None):
"""Consistent formatting for exceptions.
:param etype: a string describing the exception type.
:param e: the exception.
:param request: the request object.
:param execption_locals: calling context local variable dict.
:returns: a formatted string.
"""
msg = ["Error. %s exception: %s." % (etype, e)]
if request:
msg.append("request=[%s]" % request)
if request.body:
msg.append("request.body=[%s]" % str(request.body))
l = dict((k, v) for k, v in execption_locals if k != 'request')
msg.append("locals=[%s]" % str(l))
return ' '.join(msg)
def do_request(*args, **kwargs):
"""Convenience function wraps do_single_request.
:param args: a list of positional arguments.
:param kwargs: a list of keyworkds arguments.
:returns: the result of do_single_request loaded into a python object
or None.
"""
res = do_single_request(*args, **kwargs)
if res:
return json.loads(res)
return res
def mk_body(**kwargs):
"""Convenience function creates and dumps dictionary to string.
:param kwargs: the key/value pirs to be dumped into a json string.
:returns: a json string.
"""
return json.dumps(kwargs, ensure_ascii=False)
# -----------------------------------------------------------------------------
# Security Group API Calls
# -----------------------------------------------------------------------------
def create_security_profile(cluster, tenant_id, security_profile):
path = "/ws.v1/security-profile"
# Allow all dhcp responses and all ingress traffic
hidden_rules = {'logical_port_egress_rules':
[{'ethertype': 'IPv4',
'protocol': constants.UDP_PROTOCOL,
'port_range_min': constants.DHCP_RESPONSE_PORT,
'port_range_max': constants.DHCP_RESPONSE_PORT,
'ip_prefix': '0.0.0.0/0'}],
'logical_port_ingress_rules':
[{'ethertype': 'IPv4'},
{'ethertype': 'IPv6'}]}
tags = [dict(scope='os_tid', tag=tenant_id),
dict(scope='quantum', tag=QUANTUM_VERSION)]
try:
display_name = _check_and_truncate_name(security_profile.get('name'))
body = mk_body(
tags=tags, display_name=display_name,
logical_port_ingress_rules=(
hidden_rules['logical_port_ingress_rules']),
logical_port_egress_rules=hidden_rules['logical_port_egress_rules']
)
rsp = do_request(HTTP_POST, path, body, cluster=cluster)
except NvpApiClient.NvpApiException as e:
LOG.error(format_exception("Unknown", e, locals()))
raise exception.QuantumException()
if security_profile.get('name') == 'default':
# If security group is default allow ip traffic between
# members of the same security profile is allowed and ingress traffic
# from the switch
rules = {'logical_port_egress_rules': [{'ethertype': 'IPv4',
'profile_uuid': rsp['uuid']},
{'ethertype': 'IPv6',
'profile_uuid': rsp['uuid']}],
'logical_port_ingress_rules': [{'ethertype': 'IPv4'},
{'ethertype': 'IPv6'}]}
update_security_group_rules(cluster, rsp['uuid'], rules)
LOG.debug(_("Created Security Profile: %s"), rsp)
return rsp
def update_security_group_rules(cluster, spid, rules):
path = "/ws.v1/security-profile/%s" % spid
# Allow all dhcp responses in
rules['logical_port_egress_rules'].append(
{'ethertype': 'IPv4', 'protocol': constants.UDP_PROTOCOL,
'port_range_min': constants.DHCP_RESPONSE_PORT,
'port_range_max': constants.DHCP_RESPONSE_PORT,
'ip_prefix': '0.0.0.0/0'})
# If there are no ingress rules add bunk rule to drop all ingress traffic
if not rules['logical_port_ingress_rules']:
rules['logical_port_ingress_rules'].append(
{'ethertype': 'IPv4', 'ip_prefix': '127.0.0.1/32'})
try:
body = mk_body(
logical_port_ingress_rules=rules['logical_port_ingress_rules'],
logical_port_egress_rules=rules['logical_port_egress_rules'])
rsp = do_request(HTTP_PUT, path, body, cluster=cluster)
except NvpApiClient.NvpApiException as e:
LOG.error(format_exception("Unknown", e, locals()))
raise exception.QuantumException()
LOG.debug(_("Updated Security Profile: %s"), rsp)
return rsp
def delete_security_profile(cluster, spid):
path = "/ws.v1/security-profile/%s" % spid
try:
do_request(HTTP_DELETE, path, cluster=cluster)
except NvpApiClient.NvpApiException as e:
LOG.error(format_exception("Unknown", e, locals()))
raise exception.QuantumException()
def _create_nat_match_obj(**kwargs):
nat_match_obj = {'ethertype': 'IPv4'}
delta = set(kwargs.keys()) - set(MATCH_KEYS)
if delta:
raise Exception(_("Invalid keys for NAT match: %s"), delta)
nat_match_obj.update(kwargs)
return nat_match_obj
def _create_lrouter_nat_rule(cluster, router_id, nat_rule_obj):
LOG.debug(_("Creating NAT rule: %s"), nat_rule_obj)
uri = _build_uri_path(LROUTERNAT_RESOURCE, parent_resource_id=router_id)
try:
resp = do_single_request(HTTP_POST, uri, json.dumps(nat_rule_obj),
cluster=cluster)
except NvpApiClient.ResourceNotFound:
LOG.exception(_("NVP Logical Router %s not found"), router_id)
raise
except NvpApiClient.NvpApiException:
LOG.exception(_("An error occurred while creating the NAT rule "
"on the NVP platform"))
raise
rule = json.loads(resp)
return rule
def _build_snat_rule_obj(min_src_ip, max_src_ip, nat_match_obj):
return {"to_source_ip_address_min": min_src_ip,
"to_source_ip_address_max": max_src_ip,
"type": "SourceNatRule",
"match": nat_match_obj}
def create_lrouter_nosnat_rule_v2(cluster, _router_id, _match_criteria=None):
LOG.info(_("No SNAT rules cannot be applied as they are not available in "
"this version of the NVP platform"))
def create_lrouter_snat_rule_v2(cluster, router_id,
min_src_ip, max_src_ip, match_criteria=None):
nat_match_obj = _create_nat_match_obj(**match_criteria)
nat_rule_obj = _build_snat_rule_obj(min_src_ip, max_src_ip, nat_match_obj)
return _create_lrouter_nat_rule(cluster, router_id, nat_rule_obj)
def create_lrouter_dnat_rule_v2(cluster, router_id, dst_ip,
to_dst_port=None, match_criteria=None):
nat_match_obj = _create_nat_match_obj(**match_criteria)
nat_rule_obj = {
"to_destination_ip_address_min": dst_ip,
"to_destination_ip_address_max": dst_ip,
"type": "DestinationNatRule",
"match": nat_match_obj
}
if to_dst_port:
nat_rule_obj['to_destination_port'] = to_dst_port
return _create_lrouter_nat_rule(cluster, router_id, nat_rule_obj)
def create_lrouter_nosnat_rule_v3(cluster, router_id, order=None,
match_criteria=None):
nat_match_obj = _create_nat_match_obj(**match_criteria)
nat_rule_obj = {
"type": "NoSourceNatRule",
"match": nat_match_obj
}
if order:
nat_rule_obj['order'] = order
return _create_lrouter_nat_rule(cluster, router_id, nat_rule_obj)
def create_lrouter_snat_rule_v3(cluster, router_id, min_src_ip, max_src_ip,
order=None, match_criteria=None):
nat_match_obj = _create_nat_match_obj(**match_criteria)
nat_rule_obj = _build_snat_rule_obj(min_src_ip, max_src_ip, nat_match_obj)
if order:
nat_rule_obj['order'] = order
return _create_lrouter_nat_rule(cluster, router_id, nat_rule_obj)
def create_lrouter_dnat_rule_v3(cluster, router_id, dst_ip, to_dst_port=None,
order=None, match_criteria=None):
nat_match_obj = _create_nat_match_obj(**match_criteria)
nat_rule_obj = {
"to_destination_ip_address": dst_ip,
"type": "DestinationNatRule",
"match": nat_match_obj
}
if to_dst_port:
nat_rule_obj['to_destination_port'] = to_dst_port
if order:
nat_rule_obj['order'] = order
return _create_lrouter_nat_rule(cluster, router_id, nat_rule_obj)
@version_dependent
def create_lrouter_dnat_rule(cluster, *args, **kwargs):
pass
@version_dependent
def create_lrouter_snat_rule(cluster, *args, **kwargs):
pass
@version_dependent
def create_lrouter_nosnat_rule(cluster, *args, **kwargs):
pass
def delete_nat_rules_by_match(cluster, router_id, rule_type,
max_num_expected,
min_num_expected=0,
**kwargs):
# remove nat rules
nat_rules = query_nat_rules(cluster, router_id)
to_delete_ids = []
for r in nat_rules:
if (r['type'] != rule_type):
continue
for key, value in kwargs.iteritems():
if not (key in r['match'] and r['match'][key] == value):
break
else:
to_delete_ids.append(r['uuid'])
if not (len(to_delete_ids) in
range(min_num_expected, max_num_expected + 1)):
raise nvp_exc.NvpNatRuleMismatch(actual_rules=len(to_delete_ids),
min_rules=min_num_expected,
max_rules=max_num_expected)
for rule_id in to_delete_ids:
delete_router_nat_rule(cluster, router_id, rule_id)
def delete_router_nat_rule(cluster, router_id, rule_id):
uri = _build_uri_path(LROUTERNAT_RESOURCE, rule_id, router_id)
try:
do_single_request(HTTP_DELETE, uri, cluster=cluster)
except NvpApiClient.NvpApiException:
LOG.exception(_("An error occurred while removing NAT rule "
"'%(nat_rule_uuid)s' for logical "
"router '%(lrouter_uuid)s'"),
{'nat_rule_uuid': rule_id, 'lrouter_uuid': router_id})
raise
def get_router_nat_rule(cluster, tenant_id, router_id, rule_id):
uri = _build_uri_path(LROUTERNAT_RESOURCE, rule_id, router_id)
try:
resp = do_single_request(HTTP_GET, uri, cluster=cluster)
except NvpApiClient.ResourceNotFound:
LOG.exception(_("NAT rule %s not found"), rule_id)
raise
except NvpApiClient.NvpApiException:
LOG.exception(_("An error occured while retrieving NAT rule '%s'"
"from NVP platform"), rule_id)
raise
res = json.loads(resp)
return res
def query_nat_rules(cluster, router_id, fields="*", filters=None):
uri = _build_uri_path(LROUTERNAT_RESOURCE, parent_resource_id=router_id,
fields=fields, filters=filters)
try:
result = get_all_query_pages(uri, cluster)
except NvpApiClient.ResourceNotFound:
LOG.exception(_("NVP Logical Router '%s' not found"), router_id)
raise
except NvpApiClient.NvpApiException:
LOG.exception(_("An error occured while retrieving NAT rules for "
"NVP logical router '%s'"), router_id)
raise
return result
# NOTE(salvatore-orlando): The following FIXME applies in general to
# each operation on list attributes.
# FIXME(salvatore-orlando): need a lock around the list of IPs on an iface
def update_lrouter_port_ips(cluster, lrouter_id, lport_id,
ips_to_add, ips_to_remove):
uri = _build_uri_path(LROUTERPORT_RESOURCE, lport_id, lrouter_id)
try:
port = json.loads(do_single_request(HTTP_GET, uri, cluster=cluster))
# TODO(salvatore-orlando): Enforce ips_to_add intersection with
# ips_to_remove is empty
ip_address_set = set(port['ip_addresses'])
ip_address_set = ip_address_set - set(ips_to_remove)
ip_address_set = ip_address_set | set(ips_to_add)
# Set is not JSON serializable - convert to list
port['ip_addresses'] = list(ip_address_set)
do_single_request(HTTP_PUT, uri, json.dumps(port), cluster=cluster)
except NvpApiClient.ResourceNotFound as e:
data = {'lport_id': lport_id, 'lrouter_id': lrouter_id}
msg = (_("Router Port %(lport_id)s not found on router "
"%(lrouter_id)s") % data)
LOG.exception(msg)
raise nvp_exc.NvpPluginException(err_msg=msg)
except NvpApiClient.NvpApiException as e:
msg = _("An exception occurred while updating IP addresses on a "
"router logical port:%s") % str(e)
LOG.exception(msg)
raise nvp_exc.NvpPluginException(err_msg=msg)
# TODO(salvatore-orlando): Also handle changes in minor versions
NVPLIB_FUNC_DICT = {
'create_lrouter_dnat_rule': {2: create_lrouter_dnat_rule_v2,
3: create_lrouter_dnat_rule_v3},
'create_lrouter_snat_rule': {2: create_lrouter_snat_rule_v2,
3: create_lrouter_snat_rule_v3},
'create_lrouter_nosnat_rule': {2: create_lrouter_nosnat_rule_v2,
3: create_lrouter_nosnat_rule_v3}
}
# -----------------------------------------------------------------------------
# QOS API Calls
# -----------------------------------------------------------------------------
def create_lqueue(cluster, lqueue):
uri = _build_uri_path(LQUEUE_RESOURCE)
lqueue['tags'] = [{'tag': QUANTUM_VERSION, 'scope': 'quantum'}]
try:
resp_obj = do_single_request(HTTP_POST, uri, json.dumps(lqueue),
cluster=cluster)
except NvpApiClient.NvpApiException:
LOG.exception(_("Failed to create logical queue"))
raise exception.QuantumException()
return json.loads(resp_obj)['uuid']
def delete_lqueue(cluster, id):
try:
do_single_request(HTTP_DELETE,
_build_uri_path(LQUEUE_RESOURCE,
resource_id=id),
cluster=cluster)
except Exception:
LOG.exception(_("Failed to delete logical queue"))
raise exception.QuantumException()
# -----------------------------------------------------------------------------
# NVP API Calls for check_nvp_config utility
# -----------------------------------------------------------------------------
def check_cluster_connectivity(cluster):
"""Make sure that we can issue a request to each of the cluster nodes."""
try:
resp = do_single_request(HTTP_GET, "/ws.v1/control-cluster",
cluster=cluster)
except Exception as e:
msg = "Failed to connect to cluster %s: %s" % (cluster, str(e))
raise Exception(msg)
return json.loads(resp)
def get_gateway_services(cluster):
try:
resp = do_single_request(HTTP_GET,
"/ws.v1/gateway-service?fields=uuid",
cluster=cluster)
except Exception as e:
msg = "Failed to connect to cluster %s: %s" % (cluster, str(e))
raise Exception(msg)
return json.loads(resp)
def get_transport_zones(cluster):
try:
resp = do_single_request(HTTP_GET,
"/ws.v1/transport-zone?fields=uuid",
cluster=cluster)
except Exception as e:
msg = "Failed to connect to cluster %s: %s" % (cluster, str(e))
raise Exception(msg)
return json.loads(resp)
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