-#
+#
# Copyright 2016 RIFT.IO Inc
#
# Licensed under the Apache License, Version 2.0 (the "License");
VnfrYang,
RwVnfrYang,
RwNsmYang,
- RwsdnYang,
+ RwsdnalYang,
RwDts as rwdts,
RwTypes,
ProtobufC,
pass
-class NetworkServiceDescriptorRefCountExists(Exception):
+class NetworkServiceDescriptorNotFound(Exception):
""" Network Service Descriptor reference count exists """
pass
-
-class NetworkServiceDescriptorUnrefError(Exception):
- """ Failed to unref a network service descriptor """
- pass
-
-
class NsrInstantiationFailed(Exception):
""" Failed to instantiate network service """
pass
if self._vnffgr_state == VnffgRecordState.INIT:
vnffgr_dict = {"id": self._vnffgr_id,
- "nsd_id": self._nsr.nsd_id,
"vnffgd_id_ref": self._vnffgd_msg.id,
"vnffgd_name_ref": self._vnffgd_msg.name,
"sdn_account": self._sdn_account_name,
vnffgr = NsrYang.YangData_Nsr_NsInstanceOpdata_Nsr_Vnffgr.from_dict(vnffgr_dict)
elif self._vnffgr_state == VnffgRecordState.TERMINATED:
vnffgr_dict = {"id": self._vnffgr_id,
- "nsd_id": self._nsr.nsd_id,
"vnffgd_id_ref": self._vnffgd_msg.id,
"vnffgd_name_ref": self._vnffgd_msg.name,
"sdn_account": self._sdn_account_name,
self._log.exception("Fetching VNFFGR for VNFFG with id %s failed", self._vnffgr_id)
self._vnffgr_state = VnffgRecordState.FAILED
vnffgr_dict = {"id": self._vnffgr_id,
- "nsd_id": self._nsr.nsd_id,
"vnffgd_id_ref": self._vnffgd_msg.id,
"vnffgd_name_ref": self._vnffgd_msg.name,
"sdn_account": self._sdn_account_name,
def vnffgr_create_msg(self):
""" Virtual Link Record message for Creating VLR in VNS """
vnffgr_dict = {"id": self._vnffgr_id,
- "nsd_id": self._nsr.nsd_id,
"vnffgd_id_ref": self._vnffgd_msg.id,
"vnffgd_name_ref": self._vnffgd_msg.name,
"sdn_account": self._sdn_account_name,
vnfr = yield from self._nsr.fetch_vnfr(nsr_vnfr.xpath)
self._log.debug("Received VNFR is %s", vnfr)
- sff = RwsdnYang.VNFFGSff()
+ sff = RwsdnalYang.VNFFGSff()
sff_list[nsr_vnfr.vnfd.id] = sff
sff.name = nsr_vnfr.name
sff.function_type = nsr_vnfr.vnfd.service_function_chain
class VirtualLinkRecord(object):
""" Virtual Link Records class"""
+ XPATH = "D,/vlr:vlr-catalog/vlr:vlr"
@staticmethod
@asyncio.coroutine
def create_record(dts, log, loop, nsr_name, vld_msg, cloud_account_name, om_datacenter, ip_profile, nsr_id, restart_mode=False):
self._vlr_id = str(uuid.uuid4())
self._state = VlRecordState.INIT
self._prev_state = None
-
+ self._create_time = int(time.time())
+
@property
def xpath(self):
""" path for this object """
"nsr_id_ref": self._nsr_id,
"vld_ref": self.vld_msg.id,
"name": self.name,
+ "create_time": self._create_time,
"cloud_account": self.cloud_account_name,
"om_datacenter": self.om_datacenter_name,
}
@asyncio.coroutine
def instantiate(self):
""" Instantiate this VL """
-
self._log.debug("Instaniating VLR key %s, vld %s",
self.xpath, self._vld_msg)
vlr = None
self._group_instance_id = group_instance_id
self._placement_groups = placement_groups
self._config_status = NsrYang.ConfigStates.INIT
+ self._create_time = int(time.time())
self._prev_state = VnfRecordState.INIT
self._state = VnfRecordState.INIT
vnfr_dict = {
"id": self.id,
"nsr_id_ref": self._nsr_id,
- "vnfd_ref": self.vnfd.id,
"name": self.name,
"cloud_account": self._cloud_account_name,
"om_datacenter": self._om_datacenter_name,
vnfr_dict.update(vnfd_copy_dict)
vnfr = RwVnfrYang.YangData_Vnfr_VnfrCatalog_Vnfr.from_dict(vnfr_dict)
+ vnfr.vnfd = VnfrYang.YangData_Vnfr_VnfrCatalog_Vnfr_Vnfd.from_dict(self.vnfd.as_dict(),
+ ignore_missing_keys=True)
vnfr.member_vnf_index_ref = self.member_vnf_index
vnfr.vnf_configuration.from_dict(self._vnfd.vnf_configuration.as_dict())
cpr = VnfrYang.YangData_Vnfr_VnfrCatalog_Vnfr_ConnectionPoint()
cpr.name = conn_p.name
cpr.type_yang = conn_p.type_yang
+ if conn_p.has_field('port_security_enabled'):
+ cpr.port_security_enabled = conn_p.port_security_enabled
+
vlr_ref = find_vlr_for_cp(conn_p)
if vlr_ref is None:
msg = "Failed to find VLR for cp = %s" % conn_p.name
cpr.vlr_ref = vlr_ref.id
self.vnfr_msg.connection_point.append(cpr)
self._log.debug("Connection point [%s] added, vnf id=%s vnfd id=%s",
- cpr, self.vnfr_msg.id, self.vnfr_msg.vnfd_ref)
+ cpr, self.vnfr_msg.id, self.vnfr_msg.vnfd.id)
if not self.restart_mode:
yield from self._dts.query_create(self.xpath,
""" Network service record """
XPATH = "D,/nsr:ns-instance-opdata/nsr:nsr"
- def __init__(self, dts, log, loop, nsm, nsm_plugin, nsr_cfg_msg, sdn_account_name, key_pairs, restart_mode=False):
+ def __init__(self, dts, log, loop, nsm, nsm_plugin, nsr_cfg_msg, sdn_account_name, key_pairs, restart_mode=False,
+ vlr_handler=None):
self._dts = dts
self._log = log
self._loop = loop
self._nsr_cfg_msg = nsr_cfg_msg
self._nsm_plugin = nsm_plugin
self._sdn_account_name = sdn_account_name
+ self._vlr_handler = vlr_handler
self._nsd = None
self._nsr_msg = None
self._is_active = False
self._vl_phase_completed = False
self._vnf_phase_completed = False
+ self.vlr_uptime_tasks = {}
# Initalise the state to init
self._vnf_phase_completed = True
self._op_status.set_state(state)
+ self._nsm_plugin.set_state(self.id, state)
@property
def id(self):
yield from self.nsm_plugin.instantiate_vl(self, vlr)
vlr.state = VlRecordState.ACTIVE
+
+ def vlr_uptime_update(self, vlr):
+ try:
+
+ vlr_ = RwVlrYang.YangData_Vlr_VlrCatalog_Vlr.from_dict({'id': vlr.id})
+ while True:
+ vlr_.uptime = int(time.time()) - vlr._create_time
+ yield from self._vlr_handler.update(None, VirtualLinkRecord.vlr_xpath(vlr), vlr_)
+ yield from asyncio.sleep(2, loop=self._loop)
+ except asyncio.CancelledError:
+ self._log.debug("Received cancellation request for vlr_uptime_update task")
+ yield from self._vlr_handler.delete(None, VirtualLinkRecord.vlr_xpath(vlr))
+
+
@asyncio.coroutine
def create(self, config_xact):
""" Create this network service"""
vnfr = yield from self.create_vnf_record(vnfd_msg, const_vnfd_msg, cloud_account_name, om_datacenter_name, group_name, index)
scale_instance.add_vnfr(vnfr)
vnfrs.append(vnfr)
-
return vnfrs
@asyncio.coroutine
format(group.name, index))
scale_instance.operational_status = "failed"
else:
- yield from self.instantiate_vnfs(vnfrs)
+ yield from self.instantiate_vnfs(vnfrs, scaleout=True)
+
except Exception as e:
self._log.exception("Failed to begin instantiatiation of vnfs for scale group {}: {}".
self._vnffgrs[vnffgr.id] = vnffgr
def resolve_vld_ip_profile(self, nsd_msg, vld):
+ self._log.debug("Receieved ip profile ref is %s",vld.ip_profile_ref)
if not vld.has_field('ip_profile_ref'):
return None
- profile = [ profile for profile in nsd_msg.ip_profiles if profile.name == vld.ip_profile_ref ]
+ profile = [profile for profile in nsd_msg.ip_profiles if profile.name == vld.ip_profile_ref]
return profile[0] if profile else None
@asyncio.coroutine
def _create_vls(self, vld, cloud_account,om_datacenter):
"""Create a VLR in the cloud account specified using the given VLD
-
+
Args:
vld : VLD yang obj
cloud_account : Cloud account name
-
+
Returns:
VirtualLinkRecord
"""
""" This function creates VLs for every VLD in the NSD
associated with this NSR"""
for vld in self.nsd_msg.vld:
+
self._log.debug("Found vld %s in nsr id %s", vld, self.id)
cloud_account_list = self._extract_cloud_accounts_for_vl(vld)
for cloud_account,om_datacenter in cloud_account_list:
if vlr is None:
cloud_account_list = self._extract_cloud_accounts_for_vl(vld)
- for account in cloud_account_list:
- vlr = yield from self._create_vls(vld, account)
+ for account,om_datacenter in cloud_account_list:
+ vlr = yield from self._create_vls(vld, account,om_datacenter)
self._vlrs.append(vlr)
vlr.state = VlRecordState.INSTANTIATION_PENDING
(member_vnfd.member_vnf_index_ref == const_vnfd.member_vnf_index):
group_info = self.resolve_placement_group_cloud_construct(group)
if group_info is None:
- self._log.error("Could not resolve cloud-construct for placement group: %s", group.name)
+ self._log.info("Could not resolve cloud-construct for placement group: %s", group.name)
### raise PlacementGroupError("Could not resolve cloud-construct for placement group: {}".format(group.name))
else:
self._log.info("Successfully resolved cloud construct for placement group: %s for VNF: %s (Member Index: %s)",
return vnfr
@asyncio.coroutine
- def instantiate_vnfs(self, vnfrs):
+ def instantiate_vnfs(self, vnfrs, scaleout=False):
"""
This function instantiates VNFs for every VNF in this Network Service
"""
self._log.debug("Instantiating %u VNFs in NS %s", len(vnfrs), self.id)
for vnf in vnfrs:
self._log.debug("Instantiating VNF: %s in NS %s", vnf, self.id)
- yield from self.nsm_plugin.instantiate_vnf(self, vnf)
+ yield from self.nsm_plugin.instantiate_vnf(self, vnf,scaleout)
@asyncio.coroutine
def instantiate_vnffgs(self):
# Find the NSD
self._nsd = self._nsr_cfg_msg.nsd
- try:
- # Update ref count if nsd present in catalog
- self._nsm.get_nsd_ref(self.nsd_id)
-
- except NetworkServiceDescriptorError:
- # This could be an NSD not in the nsd-catalog
- pass
-
# Merge any config and initial config primitive values
self.config_store.merge_nsd_config(self.nsd_msg)
self._log.debug("Merged NSD: {}".format(self.nsd_msg.as_dict()))
def on_instantiate_done(fut):
# If the do_instantiate fails, then publish NSR with failed result
- if fut.exception() is not None:
- self._log.error("NSR instantiation failed for NSR id %s: %s", self.id, str(fut.exception()))
- self._loop.create_task(self.instantiation_failed(failed_reason=str(fut.exception())))
+ e = fut.exception()
+ if e is not None:
+ import traceback, sys
+ print(traceback.format_exception(None,e, e.__traceback__), file=sys.stderr, flush=True)
+ self._log.error("NSR instantiation failed for NSR id %s: %s", self.id, str(e))
+ self._loop.create_task(self.instantiation_failed(failed_reason=str(e)))
instantiate_task = self._loop.create_task(do_instantiate())
instantiate_task.add_done_callback(on_instantiate_done)
for vlr in self.vlrs:
yield from self.nsm_plugin.terminate_vl(vlr)
vlr.state = VlRecordState.TERMINATED
+ if vlr.id in self.vlr_uptime_tasks:
+ self.vlr_uptime_tasks[vlr.id].cancel()
self._log.debug("Terminating network service id %s", self.id)
nsr.config_status = self.map_config_status()
nsr.config_status_details = self._config_status_details
nsr.create_time = self._create_time
+ nsr.uptime = int(time.time()) - self._create_time
for cfg_prim in self.nsd_msg.service_primitive:
cfg_prim = NsrYang.YangData_Nsr_NsInstanceOpdata_Nsr_ServicePrimitive.from_dict(
self._loop = loop
self._nsd = nsd
- self._ref_count = 0
-
self._nsm = nsm
@property
""" Returns name of nsd """
return self._nsd.name
- @property
- def ref_count(self):
- """ Returns reference count"""
- return self._ref_count
-
- def in_use(self):
- """ Returns whether nsd is in use or not """
- return True if self.ref_count > 0 else False
-
- def ref(self):
- """ Take a reference on this object """
- self._ref_count += 1
-
- def unref(self):
- """ Release reference on this object """
- if self.ref_count < 1:
- msg = ("Unref on a NSD object - nsd id %s, ref_count = %s" %
- (self.id, self.ref_count))
- self._log.critical(msg)
- raise NetworkServiceDescriptorError(msg)
- self._ref_count -= 1
-
@property
def msg(self):
""" Return the message associated with this NetworkServiceDescriptor"""
if fref.is_field_deleted():
# Delete an NSD record
self._log.debug("Deleting NSD with id %s", msg.id)
- if self._nsm.nsd_in_use(msg.id):
- self._log.debug("Cannot delete NSD in use - %s", msg.id)
- err = "Cannot delete an NSD in use - %s" % msg.id
- raise NetworkServiceDescriptorRefCountExists(err)
-
yield from delete_nsd_libs(msg.id)
self._nsm.delete_nsd(msg.id)
else:
rpc_op = NsrYang.YangOutput_Nsr_StartNetworkService.from_dict({
"nsr_id":str(uuid.uuid4())
})
-
+
if not ('name' in rpc_ip and 'nsd_ref' in rpc_ip and ('cloud_account' in rpc_ip or 'om_datacenter' in rpc_ip)):
self._log.error("Mandatory parameters name or nsd_ref or cloud account not found in start-network-service {}".format(rpc_ip))
-
+
self._log.debug("start-network-service RPC input: {}".format(rpc_ip))
try:
# Add used value to the pool
self._log.debug("RPC output: {}".format(rpc_op))
-
+
nsd_copy = self.nsm.get_nsd(rpc_ip.nsd_ref)
#if not self._manager:
# self._manager = yield from self._connect()
-
+
self._log.debug("Configuring ns-instance-config with name %s nsd-ref: %s",
rpc_ip.name, rpc_ip.nsd_ref)
def get_nsr_key_pairs(dts_member_reg, xact):
key_pairs = {}
for instance_cfg, keyspec in dts_member_reg.get_xact_elements(xact, include_keyspec=True):
- self._log.debug("Key pair received is {} KS: {}".format(instance_cfg, keyspec))
+ self._log.debug("Key pair received is {} KS: {}".format(instance_cfg, keyspec))
xpath = keyspec.to_xpath(RwNsrYang.get_schema())
key_pairs[instance_cfg.name] = instance_cfg
- return key_pairs
+ return key_pairs
def on_apply(dts, acg, xact, action, scratch):
"""Apply the configuration"""
raise NsrVlUpdateError("NS config NSD should have atleast 1 VLD defined")
if msg.has_field("scaling_group"):
+ self._log.debug("ScaleMsg %s", msg)
+ self._log.debug("NSSCALINGSTATE %s", nsr.state)
if nsr.state != NetworkServiceRecordState.RUNNING:
raise ScalingOperationError("Unable to perform scaling action when NS is not in running state")
flags=(rwdts.Flag.SUBSCRIBER),)
-class NsdRefCountDtsHandler(object):
- """ The NSD Ref Count DTS handler """
- XPATH = "D,/nsr:ns-instance-opdata/rw-nsr:nsd-ref-count"
-
- def __init__(self, dts, log, loop, nsm):
- self._dts = dts
- self._log = log
- self._loop = loop
- self._nsm = nsm
-
- self._regh = None
-
- @property
- def regh(self):
- """ Return registration handle """
- return self._regh
-
- @property
- def nsm(self):
- """ Return the NS manager instance """
- return self._nsm
-
- @asyncio.coroutine
- def register(self):
- """ Register for NSD ref count read from dts """
-
- @asyncio.coroutine
- def on_prepare(xact_info, action, ks_path, msg):
- """ prepare callback from dts """
- xpath = ks_path.to_xpath(RwNsrYang.get_schema())
-
- if action == rwdts.QueryAction.READ:
- schema = RwNsrYang.YangData_Nsr_NsInstanceOpdata_NsdRefCount.schema()
- path_entry = schema.keyspec_to_entry(ks_path)
- nsd_list = yield from self._nsm.get_nsd_refcount(path_entry.key00.nsd_id_ref)
- for xpath, msg in nsd_list:
- xact_info.respond_xpath(rsp_code=rwdts.XactRspCode.MORE,
- xpath=xpath,
- msg=msg)
- xact_info.respond_xpath(rwdts.XactRspCode.ACK)
- else:
- raise NetworkServiceRecordError("Not supported operation %s" % action)
-
- hdl = rift.tasklets.DTS.RegistrationHandler(on_prepare=on_prepare,)
- with self._dts.group_create() as group:
- self._regh = group.register(xpath=NsdRefCountDtsHandler.XPATH,
- handler=hdl,
- flags=rwdts.Flag.PUBLISHER,)
-
-
class NsManager(object):
""" The Network Service Manager class"""
def __init__(self, dts, log, loop,
self._cloud_account_handler = cloud_account_handler
self._ro_plugin_selector = ro_plugin_selector
- self._ncclient = rift.mano.ncclient.NcClient(
- host="127.0.0.1",
- port=2022,
- username="admin",
- password="admin",
- loop=self._loop)
+
+ # Intialize the set of variables for implementing Scaling RPC using REST.
+ self._headers = {"content-type":"application/json", "accept":"application/json"}
+ #This will break when we have rbac in the rift code and admin user password is changed or admin it self is removed.
+ self._user = 'admin'
+ self._password = 'admin'
+ self._ip = 'localhost'
+ self._rport = 8008
+ self._conf_url = "https://{ip}:{port}/api/config". \
+ format(ip=self._ip,
+ port=self._rport)
self._nsrs = {}
self._nsds = {}
self._vnfd_dts_handler = VnfdDtsHandler(dts, log, loop, self)
self._dts_handlers = [self._nsd_dts_handler,
VnfrDtsHandler(dts, log, loop, self),
- NsdRefCountDtsHandler(dts, log, loop, self),
NsrDtsHandler(dts, log, loop, self),
ScalingRpcHandler(log, dts, loop, self.scale_rpc_callback),
NsrRpcDtsHandler(dts,log,loop,self),
msg : RPC input
action : Scaling Action
"""
- ScalingGroupInstance = NsrYang.YangData_Nsr_NsInstanceConfig_Nsr_ScalingGroup_Instance
- ScalingGroup = NsrYang.YangData_Nsr_NsInstanceConfig_Nsr_ScalingGroup
-
- xpath = ('C,/nsr:ns-instance-config/nsr:nsr[nsr:id="{}"]').format(
- msg.nsr_id_ref)
- instance = ScalingGroupInstance.from_dict({"id": msg.instance_id})
-
- @asyncio.coroutine
- def get_nsr_scaling_group():
- results = yield from self._dts.query_read(xpath, rwdts.XactFlag.MERGE)
+ def get_scaling_group_information():
+ scaling_group_url = "{url}/ns-instance-config/nsr/{nsr_id}".format(url=self._conf_url, nsr_id=msg.nsr_id_ref)
+ output = requests.get(scaling_group_url, headers=self._headers, auth=(self._user, self._password), verify=False)
+ if output.text == None or len(output.text) == 0:
+ self.log.error("nsr id %s information not present", self._nsr_id)
+ return None
+ scaling_group_info = json.loads(output.text)
+ return scaling_group_info
+
+ def config_scaling_group_information(scaling_group_info):
+ data_str = json.dumps(scaling_group_info)
+ self.log.debug("scaling group Info %s", data_str)
+
+ scale_out_url = "{url}/ns-instance-config/nsr/{nsr_id}".format(url=self._conf_url, nsr_id=msg.nsr_id_ref)
+ response = requests.put(scale_out_url, data=data_str, verify=False, auth=(self._user, self._password), headers=self._headers)
+ response.raise_for_status()
- for result in results:
- res = yield from result
- nsr_config = res.result
+ def scale_out():
+ scaling_group_info = get_scaling_group_information()
+ if scaling_group_info is None:
+ return
- for scaling_group in nsr_config.scaling_group:
- if scaling_group.scaling_group_name_ref == msg.scaling_group_name_ref:
- break
- else:
- scaling_group = nsr_config.scaling_group.add()
- scaling_group.scaling_group_name_ref = msg.scaling_group_name_ref
+ scaling_group_present = False
+ if "scaling-group" in scaling_group_info["nsr:nsr"]:
+ scaling_group_array = scaling_group_info["nsr:nsr"]["scaling-group"]
+ for scaling_group in scaling_group_array:
+ if scaling_group["scaling-group-name-ref"] == msg.scaling_group_name_ref:
+ scaling_group_present = True
+ if 'instance' not in scaling_group:
+ scaling_group['instance'] = []
+ for instance in scaling_group['instance']:
+ if instance["id"] == int(msg.instance_id):
+ self.log.error("scaling group with instance id %s exists for scale out", msg.instance_id)
+ return
+ scaling_group["instance"].append({"id": int(msg.instance_id)})
+
+ if not scaling_group_present:
+ scaling_group_info["nsr:nsr"]["scaling-group"] = [{"scaling-group-name-ref": msg.scaling_group_name_ref, "instance": [{"id": msg.instance_id}]}]
+
+ config_scaling_group_information(scaling_group_info)
+ return
- return (nsr_config, scaling_group)
+ def scale_in():
+ scaling_group_info = get_scaling_group_information()
+ if scaling_group_info is None:
+ return
- @asyncio.coroutine
- def update_config(nsr_config):
- xml = self._ncclient.convert_to_xml(RwNsrYang, nsr_config)
- xml = '<config xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">{}</config>'.format(xml)
- yield from self._ncclient.connect()
- yield from self._ncclient.manager.edit_config(target="running", config=xml, default_operation="replace")
+ scaling_group_array = scaling_group_info["nsr:nsr"]["scaling-group"]
+ scaling_group_present = False
+ instance_id_present = False
+ for scaling_group in scaling_group_array:
+ if scaling_group["scaling-group-name-ref"] == msg.scaling_group_name_ref:
+ scaling_group_present = True
+ if 'instance' in scaling_group:
+ instance_array = scaling_group["instance"];
+ for index in range(len(instance_array)):
+ if instance_array[index]["id"] == int(msg.instance_id):
+ instance_array.pop(index)
+ instance_id_present = True
+ break
+
+ if not scaling_group_present:
+ self.log.error("Scaling group %s doesnot exists for scale in", msg.scaling_group_name_ref)
+ return
- @asyncio.coroutine
- def scale_out():
- nsr_config, scaling_group = yield from get_nsr_scaling_group()
- scaling_group.instance.append(instance)
- yield from update_config(nsr_config)
+ if not instance_id_present:
+ self.log.error("Instance id %s doesnot exists for scale in", msg.instance_id)
+ return
- @asyncio.coroutine
- def scale_in():
- nsr_config, scaling_group = yield from get_nsr_scaling_group()
- scaling_group.instance.remove(instance)
- yield from update_config(nsr_config)
+ config_scaling_group_information(scaling_group_info)
+ return
if action == ScalingRpcHandler.ACTION.SCALE_OUT:
- self._loop.create_task(scale_out())
+ self._loop.run_in_executor(None, scale_out)
else:
- self._loop.create_task(scale_in())
-
- # Opdata based calls, disabled for now!
- # if action == ScalingRpcHandler.ACTION.SCALE_OUT:
- # self.scale_nsr_out(
- # msg.nsr_id_ref,
- # msg.scaling_group_name_ref,
- # msg.instance_id,
- # xact)
- # else:
- # self.scale_nsr_in(
- # msg.nsr_id_ref,
- # msg.scaling_group_name_ref,
- # msg.instance_id)
-
+ self._loop.run_in_executor(None, scale_in)
+
def nsr_update_cfg(self, nsr_id, msg):
nsr = self._nsrs[nsr_id]
nsr.nsr_cfg_msg= msg
def create_nsr(self, nsr_msg, key_pairs=None,restart_mode=False):
""" Create an NSR instance """
+ self._log.debug("NSRMSG %s", nsr_msg)
if nsr_msg.id in self._nsrs:
msg = "NSR id %s already exists" % nsr_msg.id
self._log.error(msg)
nsr_msg,
sdn_account_name,
key_pairs,
- restart_mode=restart_mode
+ restart_mode=restart_mode,
+ vlr_handler=self._ro_plugin_selector._records_publisher._vlr_pub_hdlr
)
self._nsrs[nsr_msg.id] = nsr
nsm_plugin.create_nsr(nsr_msg, nsr_msg.nsd, key_pairs)
""" Delete VNFR with the passed id"""
del self._vnfrs[vnfr_id]
- def get_nsd_ref(self, nsd_id):
- """ Get network service descriptor for the passed nsd_id
- with a reference"""
- nsd = self.get_nsd(nsd_id)
- nsd.ref()
- return nsd
-
@asyncio.coroutine
def get_nsr_config(self, nsd_id):
xpath = "C,/nsr:ns-instance-config"
return None
- @asyncio.coroutine
- def nsd_unref_by_nsr_id(self, nsr_id):
- """ Unref the network service descriptor based on NSR id """
- self._log.debug("NSR Unref called for Nsr Id:%s", nsr_id)
- if nsr_id in self._nsrs:
- nsr = self._nsrs[nsr_id]
-
- try:
- nsd = self.get_nsd(nsr.nsd_id)
- self._log.debug("Releasing ref on NSD %s held by NSR %s - Curr %d",
- nsd.id, nsr.id, nsd.ref_count)
- nsd.unref()
- except NetworkServiceDescriptorError:
- # We store a copy of NSD in NSR and the NSD in nsd-catalog
- # could be deleted
- pass
-
- else:
- self._log.error("Cannot find NSR with id %s", nsr_id)
- raise NetworkServiceDescriptorUnrefError("No NSR with id" % nsr_id)
-
- @asyncio.coroutine
- def nsd_unref(self, nsd_id):
- """ Unref the network service descriptor associated with the id """
- nsd = self.get_nsd(nsd_id)
- nsd.unref()
-
def get_nsd(self, nsd_id):
""" Get network service descriptor for the passed nsd_id"""
if nsd_id not in self._nsds:
self.create_nsd(nsd)
else:
self._log.debug("Updating NSD id = %s, nsd = %s", nsd.id, nsd)
- self._nsds[nsd.id].update(nsd)
+ self._nsds[nsd.id].update(nsd)
def delete_nsd(self, nsd_id):
""" Delete the Network service descriptor with the passed id """
if nsd_id not in self._nsds:
self._log.debug("Delete NSD failed - cannot find nsd-id %s", nsd_id)
raise NetworkServiceDescriptorNotFound("Cannot find %s", nsd_id)
-
- if nsd_id not in self._nsds:
- self._log.debug("Cannot delete NSD id %s reference exists %s",
- nsd_id,
- self._nsds[nsd_id].ref_count)
- raise NetworkServiceDescriptorRefCountExists(
- "Cannot delete :%s, ref_count:%s",
- nsd_id,
- self._nsds[nsd_id].ref_count)
-
del self._nsds[nsd_id]
def get_vnfd_config(self, xact):
""" Update the virtual network function descriptor """
self._log.debug("Update virtual network function descriptor- %s", vnfd)
- # Hack to remove duplicates from leaf-lists - to be fixed by RIFT-6511
- for ivld in vnfd.internal_vld:
- ivld.internal_connection_point_ref = list(set(ivld.internal_connection_point_ref))
if vnfd.id not in self._vnfds:
self._log.debug("No VNFD found - creating VNFD id = %s", vnfd.id)
del self._vnfds[vnfd_id]
- def nsd_in_use(self, nsd_id):
- """ Is the NSD with the passed id in use """
- self._log.debug("Is this NSD in use - msg:%s", nsd_id)
- if nsd_id in self._nsds:
- return self._nsds[nsd_id].in_use()
- return False
-
@asyncio.coroutine
def publish_nsr(self, xact, path, msg):
""" Publish a NSR """
raise VirtualNetworkFunctionRecordError(err)
self._vnfrs[vnfr_id].is_ready()
- @asyncio.coroutine
- def get_nsd_refcount(self, nsd_id):
- """ Get the nsd_list from this NSM"""
-
- def nsd_refcount_xpath(nsd_id):
- """ xpath for ref count entry """
- return (NsdRefCountDtsHandler.XPATH +
- "[rw-nsr:nsd-id-ref = '{}']").format(nsd_id)
-
- nsd_list = []
- if nsd_id is None or nsd_id == "":
- for nsd in self._nsds.values():
- nsd_msg = RwNsrYang.YangData_Nsr_NsInstanceOpdata_NsdRefCount()
- nsd_msg.nsd_id_ref = nsd.id
- nsd_msg.instance_ref_count = nsd.ref_count
- nsd_list.append((nsd_refcount_xpath(nsd.id), nsd_msg))
- elif nsd_id in self._nsds:
- nsd_msg = RwNsrYang.YangData_Nsr_NsInstanceOpdata_NsdRefCount()
- nsd_msg.nsd_id_ref = self._nsds[nsd_id].id
- nsd_msg.instance_ref_count = self._nsds[nsd_id].ref_count
- nsd_list.append((nsd_refcount_xpath(nsd_id), nsd_msg))
-
- return nsd_list
@asyncio.coroutine
def terminate_ns(self, nsr_id, xact):
# Terminate the instances/networks assocaited with this nw service
self._log.debug("Terminating the network service %s", nsr_id)
- yield from self._nsrs[nsr_id].terminate()
-
- # Unref the NSD
- yield from self.nsd_unref_by_nsr_id(nsr_id)
+ try :
+ yield from self._nsrs[nsr_id].terminate()
+ except Exception as e:
+ self.log.exception("Failed to terminate NSR[id=%s]", nsr_id)
# Unpublish the NSR record
self._log.debug("Unpublishing the network service %s", nsr_id)
assert action == rwdts.QueryAction.RPC
try:
- if self.callback:
- self.callback(xact_info.xact, msg, self.ACTION.SCALE_IN)
-
rpc_op = NsrYang.YangOutput_Nsr_ExecScaleIn.from_dict({
"instance_id": msg.instance_id})
self.__class__.SCALE_IN_OUTPUT_XPATH,
rpc_op)
+ if self.callback:
+ self.callback(xact_info.xact, msg, self.ACTION.SCALE_IN)
except Exception as e:
self.log.exception(e)
xact_info.respond_xpath(
msg.instance_id = last_instance_id + 1
self.last_instance_id[scale_group] += 1
- if self.callback:
- self.callback(xact_info.xact, msg, self.ACTION.SCALE_OUT)
-
rpc_op = NsrYang.YangOutput_Nsr_ExecScaleOut.from_dict({
"instance_id": msg.instance_id})
self.__class__.SCALE_OUT_OUTPUT_XPATH,
rpc_op)
+ if self.callback:
+ self.callback(xact_info.xact, msg, self.ACTION.SCALE_OUT)
except Exception as e:
self.log.exception(e)
xact_info.respond_xpath(