def _lsn_port_configure_action(cluster, lsn_id, lsn_port_id, action,
is_enabled, obj):
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODE_RESOURCE,
resource_id=lsn_id,
extra_action=action),
jsonutils.dumps({"enabled": is_enabled}),
cluster=cluster)
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODEPORT_RESOURCE,
parent_resource_id=lsn_id,
resource_id=lsn_port_id,
extra_action=action),
jsonutils.dumps(obj),
cluster=cluster)
def _lsn_port_configure_action(
cluster, lsn_id, lsn_port_id, action, is_enabled, obj):
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODE_RESOURCE,
resource_id=lsn_id,
extra_action=action),
jsonutils.dumps({"enabled": is_enabled}),
cluster=cluster)
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODEPORT_RESOURCE,
parent_resource_id=lsn_id,
resource_id=lsn_port_id,
extra_action=action),
jsonutils.dumps(obj),
cluster=cluster)
def test_cluster_method_not_implemented(self):
self.assertRaises(api_exc.NsxApiException,
nsxlib.do_request,
nsxlib.HTTP_GET,
nsxlib._build_uri_path('MY_FAKE_RESOURCE',
resource_id='foo'),
cluster=self.fake_cluster)
def get_lrouter(cluster, lrouter_id):
return nsxlib.do_request(HTTP_GET,
nsxlib._build_uri_path(
LROUTER_RESOURCE,
resource_id=lrouter_id,
relations='LogicalRouterStatus'),
cluster=cluster)
def update_lrouter_port_ips(cluster, lrouter_id, lport_id, ips_to_add,
ips_to_remove):
uri = nsxlib._build_uri_path(LROUTERPORT_RESOURCE, lport_id, lrouter_id)
try:
port = nsxlib.do_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)
nsxlib.do_request(HTTP_PUT,
uri,
jsonutils.dumps(port),
cluster=cluster)
except exception.NotFound:
# FIXME(salv-orlando):avoid raising different exception
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 nsx_exc.NsxPluginException(err_msg=msg)
except api_exc.NsxApiException as e:
msg = _("An exception occurred while updating IP addresses on a "
"router logical port:%s") % e
LOG.exception(msg)
raise nsx_exc.NsxPluginException(err_msg=msg)
def create_lport(cluster, lswitch_uuid, tenant_id, neutron_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,
mac_learning_enabled=None, allowed_address_pairs=None):
"""Creates a logical port on the assigned logical switch."""
display_name = utils.check_and_truncate(display_name)
lport_obj = dict(
admin_status_enabled=admin_status_enabled,
display_name=display_name,
tags=utils.get_tags(os_tid=tenant_id,
q_port_id=neutron_port_id,
vm_id=utils.device_id_to_vm_id(device_id))
)
_configure_extensions(lport_obj, mac_address, fixed_ips,
port_security_enabled, security_profiles,
queue_id, mac_learning_enabled,
allowed_address_pairs)
path = nsxlib._build_uri_path(LSWITCHPORT_RESOURCE,
parent_resource_id=lswitch_uuid)
result = nsxlib.do_request(HTTP_POST, path, jsonutils.dumps(lport_obj),
cluster=cluster)
LOG.debug("Created logical port %(result)s on logical switch %(uuid)s",
{'result': result['uuid'], 'uuid': lswitch_uuid})
return result
def query_lrouters(cluster, fields=None, filters=None):
return nsxlib.get_all_query_pages(
nsxlib._build_uri_path(LROUTER_RESOURCE,
fields=fields,
relations='LogicalRouterStatus',
filters=filters),
cluster)
def create_router_lport(cluster,
lrouter_uuid,
tenant_id,
neutron_port_id,
display_name,
admin_status_enabled,
ip_addresses,
mac_address=None):
"""Creates a logical port on the assigned logical router."""
lport_obj = dict(admin_status_enabled=admin_status_enabled,
display_name=display_name,
tags=utils.get_tags(os_tid=tenant_id,
q_port_id=neutron_port_id),
ip_addresses=ip_addresses,
type="LogicalRouterPortConfig")
# Only add the mac_address to lport_obj if present. This is because
# when creating the fake_ext_gw there is no mac_address present.
if mac_address:
lport_obj['mac_address'] = mac_address
path = nsxlib._build_uri_path(LROUTERPORT_RESOURCE,
parent_resource_id=lrouter_uuid)
result = nsxlib.do_request(HTTP_POST,
path,
jsonutils.dumps(lport_obj),
cluster=cluster)
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_lrouter_port_ips(cluster, lrouter_id, lport_id,
ips_to_add, ips_to_remove):
uri = nsxlib._build_uri_path(LROUTERPORT_RESOURCE, lport_id, lrouter_id)
try:
port = nsxlib.do_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)
nsxlib.do_request(HTTP_PUT, uri, jsonutils.dumps(port),
cluster=cluster)
except exception.NotFound:
# FIXME(salv-orlando):avoid raising different exception
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 nsx_exc.NsxPluginException(err_msg=msg)
except api_exc.NsxApiException as e:
msg = _("An exception occurred while updating IP addresses on a "
"router logical port:%s") % e
LOG.exception(msg)
raise nsx_exc.NsxPluginException(err_msg=msg)
def get_port_by_neutron_tag(cluster, lswitch_uuid, neutron_port_id):
"""Get port by neutron tag.
Returns the NSX UUID of the logical port with tag q_port_id equal to
neutron_port_id or None if the port is not Found.
"""
uri = nsxlib._build_uri_path(LSWITCHPORT_RESOURCE,
parent_resource_id=lswitch_uuid,
fields='uuid',
filters={
'tag': neutron_port_id,
'tag_scope': 'q_port_id'
})
LOG.debug(
"Looking for port with q_port_id tag '%(neutron_port_id)s' "
"on: '%(lswitch_uuid)s'", {
'neutron_port_id': neutron_port_id,
'lswitch_uuid': lswitch_uuid
})
res = nsxlib.do_request(HTTP_GET, uri, cluster=cluster)
num_results = len(res["results"])
if num_results >= 1:
if num_results > 1:
LOG.warning(
"Found '%(num_ports)d' ports with "
"q_port_id tag: '%(neutron_port_id)s'. "
"Only 1 was expected.", {
'num_ports': num_results,
'neutron_port_id': neutron_port_id
})
return res["results"][0]
def create_lswitch(cluster,
neutron_net_id,
tenant_id,
display_name,
transport_zones_config,
shared=None,
**kwargs):
# The tag scope adopts a slightly different naming convention for
# historical reasons
lswitch_obj = {
"display_name": utils.check_and_truncate(display_name),
"transport_zones": transport_zones_config,
"replication_mode": cfg.CONF.NSX.replication_mode,
"tags": utils.get_tags(os_tid=tenant_id, quantum_net_id=neutron_net_id)
}
# TODO(salv-orlando): Now that we have async status synchronization
# this tag is perhaps not needed anymore
if shared:
lswitch_obj["tags"].append({"tag": "true", "scope": "shared"})
if "tags" in kwargs:
lswitch_obj["tags"].extend(kwargs["tags"])
uri = nsxlib._build_uri_path(LSWITCH_RESOURCE)
lswitch = nsxlib.do_request(HTTP_POST,
uri,
jsonutils.dumps(lswitch_obj),
cluster=cluster)
LOG.debug("Created logical switch: %s", lswitch['uuid'])
return lswitch
def test_update_security_profile_rules_summarize_subset(self):
sec_prof = secgrouplib.create_security_profile(
self.fake_cluster, _uuid(), 'pippo', {'name': 'test'})
ingress_rule = [{'ethertype': 'IPv4'}]
egress_rules = [
{'ethertype': 'IPv4', 'protocol': constants.PROTO_NUM_UDP,
'port_range_min': 1, 'port_range_max': 1,
'remote_ip_prefix': '1.1.1.1/20'},
{'ethertype': 'IPv4', 'protocol': constants.PROTO_NUM_UDP,
'port_range_min': 2, 'port_range_max': 2,
'profile_uuid': 'xyz'},
{'ethertype': 'IPv4', 'protocol': constants.PROTO_NUM_UDP}]
new_rules = {'logical_port_egress_rules': egress_rules,
'logical_port_ingress_rules': [ingress_rule]}
egress_rules_summarized = [
{'ethertype': 'IPv4', 'protocol': constants.PROTO_NUM_UDP}]
secgrouplib.update_security_group_rules(
self.fake_cluster, sec_prof['uuid'], new_rules)
sec_prof_res = nsxlib.do_request(
nsxlib.HTTP_GET,
nsxlib._build_uri_path('security-profile',
resource_id=sec_prof['uuid']),
cluster=self.fake_cluster)
self.assertEqual(sec_prof['uuid'], sec_prof_res['uuid'])
# Check for builtin rules
self.assertEqual(len(sec_prof_res['logical_port_ingress_rules']), 1)
self.assertEqual(sec_prof_res['logical_port_egress_rules'],
egress_rules_summarized)
self.assertIn(ingress_rule,
sec_prof_res['logical_port_ingress_rules'])
def update_router_lport(cluster, lrouter_uuid, lrouter_port_uuid, tenant_id,
neutron_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=utils.get_tags(os_tid=tenant_id,
q_port_id=neutron_port_id),
ip_addresses=ip_addresses,
type="LogicalRouterPortConfig")
# Do not pass null items to NSX
for key in lport_obj.keys():
if lport_obj[key] is None:
del lport_obj[key]
path = nsxlib._build_uri_path(LROUTERPORT_RESOURCE,
lrouter_port_uuid,
parent_resource_id=lrouter_uuid)
result = nsxlib.do_request(HTTP_PUT,
path,
jsonutils.dumps(lport_obj),
cluster=cluster)
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 get_lswitches(cluster, neutron_net_id):
def lookup_switches_by_tag():
# Fetch extra logical switches
lswitch_query_path = nsxlib._build_uri_path(
LSWITCH_RESOURCE,
fields="uuid,display_name,tags,lport_count",
relations="LogicalSwitchStatus",
filters={
'tag': neutron_net_id,
'tag_scope': 'quantum_net_id'
})
return nsxlib.get_all_query_pages(lswitch_query_path, cluster)
lswitch_uri_path = nsxlib._build_uri_path(LSWITCH_RESOURCE,
neutron_net_id,
relations="LogicalSwitchStatus")
results = []
try:
ls = nsxlib.do_request(HTTP_GET, lswitch_uri_path, cluster=cluster)
results.append(ls)
for tag in ls['tags']:
if (tag['scope'] == "multi_lswitch" and tag['tag'] == "True"):
results.extend(lookup_switches_by_tag())
except exception.NotFound:
# This is legit if the neutron network was created using
# a post-Havana version of the plugin
results.extend(lookup_switches_by_tag())
if results:
return results
else:
raise exception.NetworkNotFound(net_id=neutron_net_id)
def get_lrouter(cluster, lrouter_id):
return nsxlib.do_request(HTTP_GET,
nsxlib._build_uri_path(
LROUTER_RESOURCE,
resource_id=lrouter_id,
relations='LogicalRouterStatus'),
cluster=cluster)
def test_build_uri_path_with_filters(self):
filters = {"tag": 'foo', "tag_scope": "scope_foo"}
result = nsxlib._build_uri_path('RESOURCE', filters=filters)
expected = (
"%s/%s?tag=foo&tag_scope=scope_foo" %
(nsxlib.URI_PREFIX, 'RESOURCE'))
self.assertEqual(expected, result)
def query_lrouter_lports(cluster, lr_uuid, fields="*",
filters=None, relations=None):
uri = nsxlib._build_uri_path(LROUTERPORT_RESOURCE,
parent_resource_id=lr_uuid,
fields=fields, filters=filters,
relations=relations)
return nsxlib.do_request(HTTP_GET, uri, cluster=cluster)['results']
def create_l2_gw_service(cluster, tenant_id, display_name, devices):
"""Create a NSX Layer-2 Network Gateway Service.
:param cluster: The target NSX 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 NsxApiException: if there is a problem while communicating
with the NSX controller
"""
# NOTE(salvatore-orlando): This is a little confusing, but device_id in
# NSX is actually the identifier a physical interface on the gateway
# device, which in the Neutron 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": utils.check_and_truncate(display_name),
"tags": utils.get_tags(os_tid=tenant_id),
"gateways": gateways,
"type": "L2GatewayServiceConfig"
}
return nsxlib.do_request(
HTTP_POST, nsxlib._build_uri_path(GWSERVICE_RESOURCE),
jsonutils.dumps(gwservice_obj), cluster=cluster)
def create_lqueue(cluster, queue_data):
params = {
'name': 'display_name',
'qos_marking': 'qos_marking',
'min': 'min_bandwidth_rate',
'max': 'max_bandwidth_rate',
'dscp': 'dscp'
}
queue_obj = dict((nsx_name, queue_data.get(api_name))
for api_name, nsx_name in six.iteritems(params)
if validators.is_attr_set(queue_data.get(api_name)))
if 'display_name' in queue_obj:
queue_obj['display_name'] = utils.check_and_truncate(
queue_obj['display_name'])
queue_obj['tags'] = utils.get_tags()
try:
return nsxlib.do_request(HTTP_POST,
nsxlib._build_uri_path(LQUEUE_RESOURCE),
jsonutils.dumps(queue_obj),
cluster=cluster)['uuid']
except api_exc.NsxApiException:
# FIXME(salv-orlando): This should not raise NeutronException
with excutils.save_and_reraise_exception():
raise exception.NeutronException()
def update_router_lport(cluster, lrouter_uuid, lrouter_port_uuid,
tenant_id, neutron_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=utils.get_tags(os_tid=tenant_id, q_port_id=neutron_port_id),
ip_addresses=ip_addresses,
type="LogicalRouterPortConfig"
)
# Do not pass null items to NSX
for key in lport_obj.keys():
if lport_obj[key] is None:
del lport_obj[key]
path = nsxlib._build_uri_path(LROUTERPORT_RESOURCE,
lrouter_port_uuid,
parent_resource_id=lrouter_uuid)
result = nsxlib.do_request(HTTP_PUT, path,
jsonutils.dumps(lport_obj),
cluster=cluster)
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 test_build_uri_path_with_filters(self):
filters = {"tag": 'foo', "tag_scope": "scope_foo"}
result = nsxlib._build_uri_path('RESOURCE', filters=filters)
expected = (
"%s/%s?tag=foo&tag_scope=scope_foo" %
(nsxlib.URI_PREFIX, 'RESOURCE'))
self.assertEqual(expected, result)
def plug_router_port_attachment(cluster,
router_id,
port_id,
attachment_uuid,
nsx_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 = nsxlib._build_uri_path(LROUTERPORT_RESOURCE,
port_id,
router_id,
is_attachment=True)
attach_obj = {}
attach_obj["type"] = nsx_attachment_type
if nsx_attachment_type == "PatchAttachment":
attach_obj["peer_port_uuid"] = attachment_uuid
elif nsx_attachment_type == "L3GatewayAttachment":
attach_obj["l3_gateway_service_uuid"] = attachment_uuid
if attachment_vlan:
attach_obj['vlan_id'] = attachment_vlan
else:
raise nsx_exc.InvalidAttachmentType(
attachment_type=nsx_attachment_type)
return nsxlib.do_request(HTTP_PUT,
uri,
jsonutils.dumps(attach_obj),
cluster=cluster)
def get_lswitches(cluster, neutron_net_id):
def lookup_switches_by_tag():
# Fetch extra logical switches
lswitch_query_path = nsxlib._build_uri_path(
LSWITCH_RESOURCE,
fields="uuid,display_name,tags,lport_count",
relations="LogicalSwitchStatus",
filters={'tag': neutron_net_id,
'tag_scope': 'quantum_net_id'})
return nsxlib.get_all_query_pages(lswitch_query_path, cluster)
lswitch_uri_path = nsxlib._build_uri_path(LSWITCH_RESOURCE, neutron_net_id,
relations="LogicalSwitchStatus")
results = []
try:
ls = nsxlib.do_request(HTTP_GET, lswitch_uri_path, cluster=cluster)
results.append(ls)
for tag in ls['tags']:
if (tag['scope'] == "multi_lswitch" and
tag['tag'] == "True"):
results.extend(lookup_switches_by_tag())
except exception.NotFound:
# This is legit if the neutron network was created using
# a post-Havana version of the plugin
results.extend(lookup_switches_by_tag())
if results:
return results
else:
raise exception.NetworkNotFound(net_id=neutron_net_id)
def create_lqueue(cluster, queue_data):
params = {
'name': 'display_name',
'qos_marking': 'qos_marking',
'min': 'min_bandwidth_rate',
'max': 'max_bandwidth_rate',
'dscp': 'dscp'
}
queue_obj = dict(
(nsx_name, queue_data.get(api_name))
for api_name, nsx_name in six.iteritems(params)
if attr.is_attr_set(queue_data.get(api_name))
)
if 'display_name' in queue_obj:
queue_obj['display_name'] = utils.check_and_truncate(
queue_obj['display_name'])
queue_obj['tags'] = utils.get_tags()
try:
return nsxlib.do_request(HTTP_POST,
nsxlib._build_uri_path(LQUEUE_RESOURCE),
jsonutils.dumps(queue_obj),
cluster=cluster)['uuid']
except api_exc.NsxApiException:
# FIXME(salv-orlando): This should not raise NeutronException
with excutils.save_and_reraise_exception():
raise exception.NeutronException()
def plug_interface(cluster, lswitch_id, lport_id, att_obj):
return nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSWITCHPORT_RESOURCE,
lport_id, lswitch_id,
is_attachment=True),
jsonutils.dumps(att_obj),
cluster=cluster)
def get_port_by_neutron_tag(cluster, lswitch_uuid, neutron_port_id):
"""Get port by neutron tag.
Returns the NSX UUID of the logical port with tag q_port_id equal to
neutron_port_id or None if the port is not Found.
"""
uri = nsxlib._build_uri_path(LSWITCHPORT_RESOURCE,
parent_resource_id=lswitch_uuid,
fields='uuid',
filters={'tag': neutron_port_id,
'tag_scope': 'q_port_id'})
LOG.debug("Looking for port with q_port_id tag '%(neutron_port_id)s' "
"on: '%(lswitch_uuid)s'",
{'neutron_port_id': neutron_port_id,
'lswitch_uuid': lswitch_uuid})
res = nsxlib.do_request(HTTP_GET, uri, cluster=cluster)
num_results = len(res["results"])
if num_results >= 1:
if num_results > 1:
LOG.warning(_LW("Found '%(num_ports)d' ports with "
"q_port_id tag: '%(neutron_port_id)s'. "
"Only 1 was expected."),
{'num_ports': num_results,
'neutron_port_id': neutron_port_id})
return res["results"][0]
def test_cluster_method_not_implemented(self):
self.assertRaises(api_exc.NsxApiException,
nsxlib.do_request,
nsxlib.HTTP_GET,
nsxlib._build_uri_path('MY_FAKE_RESOURCE',
resource_id='foo'),
cluster=self.fake_cluster)
def create_router_lport(cluster, lrouter_uuid, tenant_id, neutron_port_id,
display_name, admin_status_enabled, ip_addresses,
mac_address=None):
"""Creates a logical port on the assigned logical router."""
lport_obj = dict(
admin_status_enabled=admin_status_enabled,
display_name=display_name,
tags=utils.get_tags(os_tid=tenant_id, q_port_id=neutron_port_id),
ip_addresses=ip_addresses,
type="LogicalRouterPortConfig"
)
# Only add the mac_address to lport_obj if present. This is because
# when creating the fake_ext_gw there is no mac_address present.
if mac_address:
lport_obj['mac_address'] = mac_address
path = nsxlib._build_uri_path(LROUTERPORT_RESOURCE,
parent_resource_id=lrouter_uuid)
result = nsxlib.do_request(HTTP_POST, path, jsonutils.dumps(lport_obj),
cluster=cluster)
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 plug_router_port_attachment(cluster, router_id, port_id,
attachment_uuid, nsx_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 = nsxlib._build_uri_path(LROUTERPORT_RESOURCE, port_id, router_id,
is_attachment=True)
attach_obj = {}
attach_obj["type"] = nsx_attachment_type
if nsx_attachment_type == "PatchAttachment":
attach_obj["peer_port_uuid"] = attachment_uuid
elif nsx_attachment_type == "L3GatewayAttachment":
attach_obj["l3_gateway_service_uuid"] = attachment_uuid
if attachment_vlan:
attach_obj['vlan_id'] = attachment_vlan
else:
raise nsx_exc.InvalidAttachmentType(
attachment_type=nsx_attachment_type)
return nsxlib.do_request(
HTTP_PUT, uri, jsonutils.dumps(attach_obj), cluster=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 nsxlib.get_all_query_pages(
nsxlib._build_uri_path(GWSERVICE_RESOURCE, filters=actual_filters),
cluster)
def test_create_and_get_lqueue(self):
queue_id = queuelib.create_lqueue(self.fake_cluster, self.fake_queue)
queue_res = nsxlib.do_request('GET',
nsxlib._build_uri_path(
'lqueue', resource_id=queue_id),
cluster=self.fake_cluster)
self.assertEqual(queue_id, queue_res['uuid'])
self.assertEqual('fake_queue', queue_res['display_name'])
def _create_lrouter_nat_rule(cluster, router_id, nat_rule_obj):
LOG.debug("Creating NAT rule: %s", nat_rule_obj)
uri = nsxlib._build_uri_path(LROUTERNAT_RESOURCE,
parent_resource_id=router_id)
return nsxlib.do_request(HTTP_POST,
uri,
jsonutils.dumps(nat_rule_obj),
cluster=cluster)
def get_lswitch_by_id(cluster, lswitch_id):
try:
lswitch_uri_path = nsxlib._build_uri_path(
LSWITCH_RESOURCE, lswitch_id, relations="LogicalSwitchStatus")
return nsxlib.do_request(HTTP_GET, lswitch_uri_path, cluster=cluster)
except exception.NotFound:
# FIXME(salv-orlando): this should not raise a neutron exception
raise exception.NetworkNotFound(net_id=lswitch_id)
def get_lswitch_by_id(cluster, lswitch_id):
try:
lswitch_uri_path = nsxlib._build_uri_path(
LSWITCH_RESOURCE, lswitch_id,
relations="LogicalSwitchStatus")
return nsxlib.do_request(HTTP_GET, lswitch_uri_path, cluster=cluster)
except exception.NotFound:
# FIXME(salv-orlando): this should not raise a neutron exception
raise exception.NetworkNotFound(net_id=lswitch_id)
def lsn_for_network_create(cluster, network_id):
lsn_obj = {
"edge_cluster_uuid": cluster.default_service_cluster_uuid,
"tags": utils.get_tags(n_network_id=network_id)
}
return nsxlib.do_request(HTTP_POST,
nsxlib._build_uri_path(LSERVICESNODE_RESOURCE),
jsonutils.dumps(lsn_obj, sort_keys=True),
cluster=cluster)["uuid"]
def _lsn_configure_action(cluster, lsn_id, action, is_enabled, obj):
lsn_obj = {"enabled": is_enabled}
lsn_obj.update(obj)
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODE_RESOURCE,
resource_id=lsn_id,
extra_action=action),
jsonutils.dumps(lsn_obj),
cluster=cluster)
def test_create_and_get_lqueue(self):
queue_id = queuelib.create_lqueue(
self.fake_cluster, self.fake_queue)
queue_res = nsxlib.do_request(
'GET',
nsxlib._build_uri_path('lqueue', resource_id=queue_id),
cluster=self.fake_cluster)
self.assertEqual(queue_id, queue_res['uuid'])
self.assertEqual('fake_queue', queue_res['display_name'])
def lsn_for_network_create(cluster, network_id):
lsn_obj = {
"edge_cluster_uuid": cluster.default_service_cluster_uuid,
"tags": utils.get_tags(n_network_id=network_id)
}
return nsxlib.do_request(HTTP_POST,
nsxlib._build_uri_path(LSERVICESNODE_RESOURCE),
jsonutils.dumps(lsn_obj),
cluster=cluster)["uuid"]
def test_delete_lqueue(self):
queue_id = queuelib.create_lqueue(self.fake_cluster, self.fake_queue)
queuelib.delete_lqueue(self.fake_cluster, queue_id)
self.assertRaises(exceptions.NotFound,
nsxlib.do_request,
'GET',
nsxlib._build_uri_path('lqueue',
resource_id=queue_id),
cluster=self.fake_cluster)
def delete_router_lport(cluster, lrouter_uuid, lport_uuid):
"""Creates a logical port on the assigned logical router."""
path = nsxlib._build_uri_path(LROUTERPORT_RESOURCE, lport_uuid,
lrouter_uuid)
nsxlib.do_request(HTTP_DELETE, path, cluster=cluster)
LOG.debug("Delete logical router port %(lport_uuid)s on "
"logical router %(lrouter_uuid)s",
{'lport_uuid': lport_uuid,
'lrouter_uuid': lrouter_uuid})
def lookup_switches_by_tag():
# Fetch extra logical switches
lswitch_query_path = nsxlib._build_uri_path(
LSWITCH_RESOURCE,
fields="uuid,display_name,tags,lport_count",
relations="LogicalSwitchStatus",
filters={'tag': neutron_net_id,
'tag_scope': 'quantum_net_id'})
return nsxlib.get_all_query_pages(lswitch_query_path, cluster)
def get_gateway_device_status(cluster, device_uuid):
status_res = nsxlib.do_request(HTTP_GET,
nsxlib._build_uri_path(
TRANSPORTNODE_RESOURCE,
device_uuid,
extra_action='status'),
cluster=cluster)
# Returns the connection status
return status_res['connection']['connected']
def get_explicit_routes_lrouter(cluster, router_id, protocol_type='static'):
static_filter = {'protocol': protocol_type}
existing_routes = nsxlib.do_request(
HTTP_GET,
nsxlib._build_uri_path(LROUTERRIB_RESOURCE,
filters=static_filter,
fields="*",
parent_resource_id=router_id),
cluster=cluster)['results']
return existing_routes
def _lsn_configure_action(
cluster, lsn_id, action, is_enabled, obj):
lsn_obj = {"enabled": is_enabled}
lsn_obj.update(obj)
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODE_RESOURCE,
resource_id=lsn_id,
extra_action=action),
jsonutils.dumps(lsn_obj, sort_keys=True),
cluster=cluster)
def delete_lqueue(cluster, queue_id):
try:
nsxlib.do_request(HTTP_DELETE,
nsxlib._build_uri_path(LQUEUE_RESOURCE,
resource_id=queue_id),
cluster=cluster)
except Exception:
# FIXME(salv-orlando): This should not raise NeutronException
with excutils.save_and_reraise_exception():
raise exception.NeutronException()
def lsn_port_host_entries_update(
cluster, lsn_id, lsn_port_id, conf, hosts_data):
hosts_obj = {'hosts': hosts_data}
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODEPORT_RESOURCE,
parent_resource_id=lsn_id,
resource_id=lsn_port_id,
extra_action=conf),
jsonutils.dumps(hosts_obj, sort_keys=True),
cluster=cluster)
def _lsn_port_host_action(
cluster, lsn_id, lsn_port_id, host_obj, extra_action, action):
nsxlib.do_request(HTTP_POST,
nsxlib._build_uri_path(LSERVICESNODEPORT_RESOURCE,
parent_resource_id=lsn_id,
resource_id=lsn_port_id,
extra_action=extra_action,
filters={"action": action}),
jsonutils.dumps(host_obj, sort_keys=True),
cluster=cluster)
def _lsn_port_host_action(cluster, lsn_id, lsn_port_id, host_obj, extra_action,
action):
nsxlib.do_request(HTTP_POST,
nsxlib._build_uri_path(LSERVICESNODEPORT_RESOURCE,
parent_resource_id=lsn_id,
resource_id=lsn_port_id,
extra_action=extra_action,
filters={"action": action}),
jsonutils.dumps(host_obj),
cluster=cluster)
def get_default_route_explicit_routing_lrouter_v33(cluster, router_id):
static_filter = {"protocol": "static", "prefix": "0.0.0.0/0"}
default_route = nsxlib.do_request(HTTP_GET,
nsxlib._build_uri_path(
LROUTERRIB_RESOURCE,
filters=static_filter,
fields="*",
parent_resource_id=router_id),
cluster=cluster)["results"][0]
return default_route
def get_explicit_routes_lrouter(cluster, router_id, protocol_type='static'):
static_filter = {'protocol': protocol_type}
existing_routes = nsxlib.do_request(HTTP_GET,
nsxlib._build_uri_path(
LROUTERRIB_RESOURCE,
filters=static_filter,
fields="*",
parent_resource_id=router_id),
cluster=cluster)['results']
return existing_routes
def lsn_port_host_entries_update(cluster, lsn_id, lsn_port_id, conf,
hosts_data):
hosts_obj = {'hosts': hosts_data}
nsxlib.do_request(HTTP_PUT,
nsxlib._build_uri_path(LSERVICESNODEPORT_RESOURCE,
parent_resource_id=lsn_id,
resource_id=lsn_port_id,
extra_action=conf),
jsonutils.dumps(hosts_obj),
cluster=cluster)
def delete_lqueue(cluster, queue_id):
try:
nsxlib.do_request(HTTP_DELETE,
nsxlib._build_uri_path(LQUEUE_RESOURCE,
resource_id=queue_id),
cluster=cluster)
except Exception:
# FIXME(salv-orlando): This should not raise NeutronException
with excutils.save_and_reraise_exception():
raise exception.NeutronException()
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 nsxlib.get_all_query_pages(
nsxlib._build_uri_path(GWSERVICE_RESOURCE,
filters=actual_filters),
cluster)
def test_delete_lqueue(self):
queue_id = queuelib.create_lqueue(
self.fake_cluster, self.fake_queue)
queuelib.delete_lqueue(self.fake_cluster, queue_id)
self.assertRaises(exceptions.NotFound,
nsxlib.do_request,
'GET',
nsxlib._build_uri_path(
'lqueue', resource_id=queue_id),
cluster=self.fake_cluster)