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osm.etsi.org / osm / LCM / 47e86b567ff08adb8c77ce35a8e4feb4c7d59a3d / . / osm_lcm / ns.py
blob: 4b4adbf1f931fad4713ed3153a9ecf306ff6a470 [file] [log] [blame]
#!/usr/bin/python3
# -*- coding: utf-8 -*-
import asyncio
import yaml
import logging
import logging.handlers
import functools
import traceback
import ROclient
from lcm_utils import LcmException, LcmBase
from osm_common.dbbase import DbException, deep_update
from osm_common.fsbase import FsException
from n2vc.vnf import N2VC
from copy import deepcopy
from http import HTTPStatus
from time import time
__author__ = "Alfonso Tierno"
class NsLcm(LcmBase):
def __init__(self, db, msg, fs, lcm_tasks, ro_config, vca_config, loop):
"""
Init, Connect to database, filesystem storage, and messaging
:param config: two level dictionary with configuration. Top level should contain 'database', 'storage',
:return: None
"""
# logging
self.logger = logging.getLogger('lcm.ns')
self.loop = loop
self.lcm_tasks = lcm_tasks
super().__init__(db, msg, fs, self.logger)
self.ro_config = ro_config
self.n2vc = N2VC(
log=self.logger,
server=vca_config['host'],
port=vca_config['port'],
user=vca_config['user'],
secret=vca_config['secret'],
# TODO: This should point to the base folder where charms are stored,
# if there is a common one (like object storage). Otherwise, leave
# it unset and pass it via DeployCharms
# artifacts=vca_config[''],
artifacts=None,
)
def vnfd2RO(self, vnfd, new_id=None):
"""
Converts creates a new vnfd descriptor for RO base on input OSM IM vnfd
:param vnfd: input vnfd
:param new_id: overrides vnf id if provided
:return: copy of vnfd
"""
ci_file = None
try:
vnfd_RO = deepcopy(vnfd)
vnfd_RO.pop("_id", None)
vnfd_RO.pop("_admin", None)
if new_id:
vnfd_RO["id"] = new_id
for vdu in vnfd_RO["vdu"]:
if "cloud-init-file" in vdu:
base_folder = vnfd["_admin"]["storage"]
clout_init_file = "{}/{}/cloud_init/{}".format(
base_folder["folder"],
base_folder["pkg-dir"],
vdu["cloud-init-file"]
)
ci_file = self.fs.file_open(clout_init_file, "r")
# TODO: detect if binary or text. Propose to read as binary and try to decode to utf8. If fails
# convert to base 64 or similar
clout_init_content = ci_file.read()
ci_file.close()
ci_file = None
vdu.pop("cloud-init-file", None)
vdu["cloud-init"] = clout_init_content
# remnove unused by RO configuration, monitoring, scaling
vnfd_RO.pop("vnf-configuration", None)
vnfd_RO.pop("monitoring-param", None)
vnfd_RO.pop("scaling-group-descriptor", None)
return vnfd_RO
except FsException as e:
raise LcmException("Error reading file at vnfd {}: {} ".format(vnfd["_id"], e))
finally:
if ci_file:
ci_file.close()
def n2vc_callback(self, model_name, application_name, status, message, n2vc_info, task=None):
"""
Callback both for charm status change and task completion
:param model_name: Charm model name
:param application_name: Charm application name
:param status: Can be
- blocked: The unit needs manual intervention
- maintenance: The unit is actively deploying/configuring
- waiting: The unit is waiting for another charm to be ready
- active: The unit is deployed, configured, and ready
- error: The charm has failed and needs attention.
- terminated: The charm has been destroyed
- removing,
- removed
:param message: detailed message error
:param n2vc_info dictionary with information shared with instantiate task. Contains:
nsr_id:
nslcmop_id:
lcmOperationType: currently "instantiate"
deployed: dictionary with {<application>: {operational-status: <status>, detailed-status: <text>}}
db_update: dictionary to be filled with the changes to be wrote to database with format key.key.key: value
n2vc_event: event used to notify instantiation task that some change has been produced
:param task: None for charm status change, or task for completion task callback
:return:
"""
try:
nsr_id = n2vc_info["nsr_id"]
deployed = n2vc_info["deployed"]
db_nsr_update = n2vc_info["db_update"]
nslcmop_id = n2vc_info["nslcmop_id"]
ns_operation = n2vc_info["lcmOperationType"]
n2vc_event = n2vc_info["n2vc_event"]
logging_text = "Task ns={} {}={} [n2vc_callback] application={}".format(nsr_id, ns_operation, nslcmop_id,
application_name)
vca_deployed = deployed.get(application_name)
if not vca_deployed:
self.logger.error(logging_text + " Not present at nsr._admin.deployed.VCA")
return
if task:
if task.cancelled():
self.logger.debug(logging_text + " task Cancelled")
vca_deployed['operational-status'] = "error"
db_nsr_update["_admin.deployed.VCA.{}.operational-status".format(application_name)] = "error"
vca_deployed['detailed-status'] = "Task Cancelled"
db_nsr_update["_admin.deployed.VCA.{}.detailed-status".format(application_name)] = "Task Cancelled"
elif task.done():
exc = task.exception()
if exc:
self.logger.error(logging_text + " task Exception={}".format(exc))
vca_deployed['operational-status'] = "error"
db_nsr_update["_admin.deployed.VCA.{}.operational-status".format(application_name)] = "error"
vca_deployed['detailed-status'] = str(exc)
db_nsr_update["_admin.deployed.VCA.{}.detailed-status".format(application_name)] = str(exc)
else:
self.logger.debug(logging_text + " task Done")
# task is Done, but callback is still ongoing. So ignore
return
elif status:
self.logger.debug(logging_text + " Enter status={}".format(status))
if vca_deployed['operational-status'] == status:
return # same status, ignore
vca_deployed['operational-status'] = status
db_nsr_update["_admin.deployed.VCA.{}.operational-status".format(application_name)] = status
vca_deployed['detailed-status'] = str(message)
db_nsr_update["_admin.deployed.VCA.{}.detailed-status".format(application_name)] = str(message)
else:
self.logger.critical(logging_text + " Enter with bad parameters", exc_info=True)
return
# wake up instantiate task
n2vc_event.set()
except Exception as e:
self.logger.critical(logging_text + " Exception {}".format(e), exc_info=True)
def ns_params_2_RO(self, ns_params, nsd, vnfd_dict):
"""
Creates a RO ns descriptor from OSM ns_instantite params
:param ns_params: OSM instantiate params
:return: The RO ns descriptor
"""
vim_2_RO = {}
def vim_account_2_RO(vim_account):
if vim_account in vim_2_RO:
return vim_2_RO[vim_account]
db_vim = self.db.get_one("vim_accounts", {"_id": vim_account})
if db_vim["_admin"]["operationalState"] != "ENABLED":
raise LcmException("VIM={} is not available. operationalState={}".format(
vim_account, db_vim["_admin"]["operationalState"]))
RO_vim_id = db_vim["_admin"]["deployed"]["RO"]
vim_2_RO[vim_account] = RO_vim_id
return RO_vim_id
def ip_profile_2_RO(ip_profile):
RO_ip_profile = deepcopy((ip_profile))
if "dns-server" in RO_ip_profile:
if isinstance(RO_ip_profile["dns-server"], list):
RO_ip_profile["dns-address"] = []
for ds in RO_ip_profile.pop("dns-server"):
RO_ip_profile["dns-address"].append(ds['address'])
else:
RO_ip_profile["dns-address"] = RO_ip_profile.pop("dns-server")
if RO_ip_profile.get("ip-version") == "ipv4":
RO_ip_profile["ip-version"] = "IPv4"
if RO_ip_profile.get("ip-version") == "ipv6":
RO_ip_profile["ip-version"] = "IPv6"
if "dhcp-params" in RO_ip_profile:
RO_ip_profile["dhcp"] = RO_ip_profile.pop("dhcp-params")
return RO_ip_profile
if not ns_params:
return None
RO_ns_params = {
# "name": ns_params["nsName"],
# "description": ns_params.get("nsDescription"),
"datacenter": vim_account_2_RO(ns_params["vimAccountId"]),
# "scenario": ns_params["nsdId"],
"vnfs": {},
"networks": {},
}
if ns_params.get("ssh-authorized-key"):
RO_ns_params["cloud-config"] = {"key-pairs": ns_params["ssh-authorized-key"]}
if ns_params.get("vnf"):
for vnf_params in ns_params["vnf"]:
for constituent_vnfd in nsd["constituent-vnfd"]:
if constituent_vnfd["member-vnf-index"] == vnf_params["member-vnf-index"]:
vnf_descriptor = vnfd_dict[constituent_vnfd["vnfd-id-ref"]]
break
else:
raise LcmException("Invalid instantiate parameter vnf:member-vnf-index={} is not present at nsd:"
"constituent-vnfd".format(vnf_params["member-vnf-index"]))
RO_vnf = {"vdus": {}, "networks": {}}
if vnf_params.get("vimAccountId"):
RO_vnf["datacenter"] = vim_account_2_RO(vnf_params["vimAccountId"])
if vnf_params.get("vdu"):
for vdu_params in vnf_params["vdu"]:
RO_vnf["vdus"][vdu_params["id"]] = {}
if vdu_params.get("volume"):
RO_vnf["vdus"][vdu_params["id"]]["devices"] = {}
for volume_params in vdu_params["volume"]:
RO_vnf["vdus"][vdu_params["id"]]["devices"][volume_params["name"]] = {}
if volume_params.get("vim-volume-id"):
RO_vnf["vdus"][vdu_params["id"]]["devices"][volume_params["name"]]["vim_id"] = \
volume_params["vim-volume-id"]
if vdu_params.get("interface"):
RO_vnf["vdus"][vdu_params["id"]]["interfaces"] = {}
for interface_params in vdu_params["interface"]:
RO_interface = {}
RO_vnf["vdus"][vdu_params["id"]]["interfaces"][interface_params["name"]] = RO_interface
if interface_params.get("ip-address"):
RO_interface["ip_address"] = interface_params["ip-address"]
if interface_params.get("mac-address"):
RO_interface["mac_address"] = interface_params["mac-address"]
if interface_params.get("floating-ip-required"):
RO_interface["floating-ip"] = interface_params["floating-ip-required"]
if vnf_params.get("internal-vld"):
for internal_vld_params in vnf_params["internal-vld"]:
RO_vnf["networks"][internal_vld_params["name"]] = {}
if internal_vld_params.get("vim-network-name"):
RO_vnf["networks"][internal_vld_params["name"]]["vim-network-name"] = \
internal_vld_params["vim-network-name"]
if internal_vld_params.get("ip-profile"):
RO_vnf["networks"][internal_vld_params["name"]]["ip-profile"] = \
ip_profile_2_RO(internal_vld_params["ip-profile"])
if internal_vld_params.get("internal-connection-point"):
for icp_params in internal_vld_params["internal-connection-point"]:
# look for interface
iface_found = False
for vdu_descriptor in vnf_descriptor["vdu"]:
for vdu_interface in vdu_descriptor["interface"]:
if vdu_interface.get("internal-connection-point-ref") == icp_params["id-ref"]:
RO_interface_update = {}
if icp_params.get("ip-address"):
RO_interface_update["ip_address"] = icp_params["ip-address"]
if icp_params.get("mac-address"):
RO_interface_update["mac_address"] = icp_params["mac-address"]
if RO_interface_update:
RO_vnf_update = {"vdus": {vdu_descriptor["id"]: {
"interfaces": {vdu_interface["name"]: RO_interface_update}}}}
deep_update(RO_vnf, RO_vnf_update)
iface_found = True
break
if iface_found:
break
else:
raise LcmException("Invalid instantiate parameter vnf:member-vnf-index[{}]:"
"internal-vld:id-ref={} is not present at vnfd:internal-"
"connection-point".format(vnf_params["member-vnf-index"],
icp_params["id-ref"]))
if not RO_vnf["vdus"]:
del RO_vnf["vdus"]
if not RO_vnf["networks"]:
del RO_vnf["networks"]
if RO_vnf:
RO_ns_params["vnfs"][vnf_params["member-vnf-index"]] = RO_vnf
if ns_params.get("vld"):
for vld_params in ns_params["vld"]:
RO_vld = {}
if "ip-profile" in vld_params:
RO_vld["ip-profile"] = ip_profile_2_RO(vld_params["ip-profile"])
if "vim-network-name" in vld_params:
RO_vld["sites"] = []
if isinstance(vld_params["vim-network-name"], dict):
for vim_account, vim_net in vld_params["vim-network-name"].items():
RO_vld["sites"].append({
"netmap-use": vim_net,
"datacenter": vim_account_2_RO(vim_account)
})
else: # isinstance str
RO_vld["sites"].append({"netmap-use": vld_params["vim-network-name"]})
if "vnfd-connection-point-ref" in vld_params:
for cp_params in vld_params["vnfd-connection-point-ref"]:
# look for interface
for constituent_vnfd in nsd["constituent-vnfd"]:
if constituent_vnfd["member-vnf-index"] == cp_params["member-vnf-index-ref"]:
vnf_descriptor = vnfd_dict[constituent_vnfd["vnfd-id-ref"]]
break
else:
raise LcmException(
"Invalid instantiate parameter vld:vnfd-connection-point-ref:member-vnf-index-ref={} "
"is not present at nsd:constituent-vnfd".format(cp_params["member-vnf-index-ref"]))
match_cp = False
for vdu_descriptor in vnf_descriptor["vdu"]:
for interface_descriptor in vdu_descriptor["interface"]:
if interface_descriptor.get("external-connection-point-ref") == \
cp_params["vnfd-connection-point-ref"]:
match_cp = True
break
if match_cp:
break
else:
raise LcmException(
"Invalid instantiate parameter vld:vnfd-connection-point-ref:member-vnf-index-ref={}:"
"vnfd-connection-point-ref={} is not present at vnfd={}".format(
cp_params["member-vnf-index-ref"],
cp_params["vnfd-connection-point-ref"],
vnf_descriptor["id"]))
RO_cp_params = {}
if cp_params.get("ip-address"):
RO_cp_params["ip_address"] = cp_params["ip-address"]
if cp_params.get("mac-address"):
RO_cp_params["mac_address"] = cp_params["mac-address"]
if RO_cp_params:
RO_vnf_params = {
cp_params["member-vnf-index-ref"]: {
"vdus": {
vdu_descriptor["id"]: {
"interfaces": {
interface_descriptor["name"]: RO_cp_params
}
}
}
}
}
deep_update(RO_ns_params["vnfs"], RO_vnf_params)
if RO_vld:
RO_ns_params["networks"][vld_params["name"]] = RO_vld
return RO_ns_params
def ns_update_vnfr(self, db_vnfrs, nsr_desc_RO):
"""
Updates database vnfr with the RO info, e.g. ip_address, vim_id... Descriptor db_vnfrs is also updated
:param db_vnfrs:
:param nsr_desc_RO:
:return:
"""
for vnf_index, db_vnfr in db_vnfrs.items():
for vnf_RO in nsr_desc_RO["vnfs"]:
if vnf_RO["member_vnf_index"] == vnf_index:
vnfr_update = {}
db_vnfr["ip-address"] = vnfr_update["ip-address"] = vnf_RO.get("ip_address")
vdur_list = []
for vdur_RO in vnf_RO.get("vms", ()):
vdur = {
"vim-id": vdur_RO.get("vim_vm_id"),
"ip-address": vdur_RO.get("ip_address"),
"vdu-id-ref": vdur_RO.get("vdu_osm_id"),
"name": vdur_RO.get("vim_name"),
"status": vdur_RO.get("status"),
"status-detailed": vdur_RO.get("error_msg"),
"interfaces": []
}
for interface_RO in vdur_RO.get("interfaces", ()):
vdur["interfaces"].append({
"ip-address": interface_RO.get("ip_address"),
"mac-address": interface_RO.get("mac_address"),
"name": interface_RO.get("internal_name"),
})
vdur_list.append(vdur)
db_vnfr["vdur"] = vnfr_update["vdur"] = vdur_list
self.update_db_2("vnfrs", db_vnfr["_id"], vnfr_update)
break
else:
raise LcmException("ns_update_vnfr: Not found member_vnf_index={} at RO info".format(vnf_index))
async def create_monitoring(self, nsr_id, vnf_member_index, vnfd_desc):
if not vnfd_desc.get("scaling-group-descriptor"):
return
for scaling_group in vnfd_desc["scaling-group-descriptor"]:
scaling_policy_desc = {}
scaling_desc = {
"ns_id": nsr_id,
"scaling_group_descriptor": {
"name": scaling_group["name"],
"scaling_policy": scaling_policy_desc
}
}
for scaling_policy in scaling_group.get("scaling-policy"):
scaling_policy_desc["scale_in_operation_type"] = scaling_policy_desc["scale_out_operation_type"] = \
scaling_policy["scaling-type"]
scaling_policy_desc["threshold_time"] = scaling_policy["threshold-time"]
scaling_policy_desc["cooldown_time"] = scaling_policy["cooldown-time"]
scaling_policy_desc["scaling_criteria"] = []
for scaling_criteria in scaling_policy.get("scaling-criteria"):
scaling_criteria_desc = {"scale_in_threshold": scaling_criteria.get("scale-in-threshold"),
"scale_out_threshold": scaling_criteria.get("scale-out-threshold"),
}
if not scaling_criteria.get("vnf-monitoring-param-ref"):
continue
for monitoring_param in vnfd_desc.get("monitoring-param", ()):
if monitoring_param["id"] == scaling_criteria["vnf-monitoring-param-ref"]:
scaling_criteria_desc["monitoring_param"] = {
"id": monitoring_param["id"],
"name": monitoring_param["name"],
"aggregation_type": monitoring_param.get("aggregation-type"),
"vdu_name": monitoring_param.get("vdu-ref"),
"vnf_member_index": vnf_member_index,
}
scaling_policy_desc["scaling_criteria"].append(scaling_criteria_desc)
break
else:
self.logger.error(
"Task ns={} member_vnf_index={} Invalid vnfd vnf-monitoring-param-ref={} not in "
"monitoring-param list".format(nsr_id, vnf_member_index,
scaling_criteria["vnf-monitoring-param-ref"]))
await self.msg.aiowrite("lcm_pm", "configure_scaling", scaling_desc, self.loop)
async def instantiate(self, nsr_id, nslcmop_id):
logging_text = "Task ns={} instantiate={} ".format(nsr_id, nslcmop_id)
self.logger.debug(logging_text + "Enter")
# get all needed from database
db_nsr = None
db_nslcmop = None
db_nsr_update = {"_admin.nslcmop": nslcmop_id}
db_nslcmop_update = {}
nslcmop_operation_state = None
db_vnfrs = {}
RO_descriptor_number = 0 # number of descriptors created at RO
descriptor_id_2_RO = {} # map between vnfd/nsd id to the id used at RO
n2vc_info = {}
exc = None
try:
step = "Getting nslcmop={} from db".format(nslcmop_id)
db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
step = "Getting nsr={} from db".format(nsr_id)
db_nsr = self.db.get_one("nsrs", {"_id": nsr_id})
ns_params = db_nsr.get("instantiate_params")
nsd = db_nsr["nsd"]
nsr_name = db_nsr["name"] # TODO short-name??
# look if previous tasks in process
task_name, task_dependency = self.lcm_tasks.lookfor_related("ns", nsr_id, nslcmop_id)
if task_dependency:
step = db_nslcmop_update["detailed-status"] = \
"Waiting for related tasks to be completed: {}".format(task_name)
self.logger.debug(logging_text + step)
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
_, pending = await asyncio.wait(task_dependency, timeout=3600)
if pending:
raise LcmException("Timeout waiting related tasks to be completed")
needed_vnfd = {}
vnfr_filter = {"nsr-id-ref": nsr_id, "member-vnf-index-ref": None}
for c_vnf in nsd["constituent-vnfd"]:
vnfd_id = c_vnf["vnfd-id-ref"]
vnfr_filter["member-vnf-index-ref"] = c_vnf["member-vnf-index"]
step = "Getting vnfr={} of nsr={} from db".format(c_vnf["member-vnf-index"], nsr_id)
db_vnfrs[c_vnf["member-vnf-index"]] = self.db.get_one("vnfrs", vnfr_filter)
if vnfd_id not in needed_vnfd:
step = "Getting vnfd={} from db".format(vnfd_id)
needed_vnfd[vnfd_id] = self.db.get_one("vnfds", {"id": vnfd_id})
nsr_lcm = db_nsr["_admin"].get("deployed")
if not nsr_lcm:
nsr_lcm = db_nsr["_admin"]["deployed"] = {
"id": nsr_id,
"RO": {"vnfd_id": {}, "nsd_id": None, "nsr_id": None, "nsr_status": "SCHEDULED"},
"nsr_ip": {},
"VCA": {},
}
db_nsr_update["detailed-status"] = "creating"
db_nsr_update["operational-status"] = "init"
RO = ROclient.ROClient(self.loop, **self.ro_config)
# get vnfds, instantiate at RO
for vnfd_id, vnfd in needed_vnfd.items():
step = db_nsr_update["detailed-status"] = "Creating vnfd={} at RO".format(vnfd_id)
# self.logger.debug(logging_text + step)
vnfd_id_RO = "{}.{}.{}".format(nsr_id, RO_descriptor_number, vnfd_id[:23])
descriptor_id_2_RO[vnfd_id] = vnfd_id_RO
RO_descriptor_number += 1
# look if present
vnfd_list = await RO.get_list("vnfd", filter_by={"osm_id": vnfd_id_RO})
if vnfd_list:
db_nsr_update["_admin.deployed.RO.vnfd_id.{}".format(vnfd_id)] = vnfd_list[0]["uuid"]
self.logger.debug(logging_text + "vnfd={} exists at RO. Using RO_id={}".format(
vnfd_id, vnfd_list[0]["uuid"]))
else:
vnfd_RO = self.vnfd2RO(vnfd, vnfd_id_RO)
desc = await RO.create("vnfd", descriptor=vnfd_RO)
db_nsr_update["_admin.deployed.RO.vnfd_id.{}".format(vnfd_id)] = desc["uuid"]
db_nsr_update["_admin.nsState"] = "INSTANTIATED"
self.logger.debug(logging_text + "vnfd={} created at RO. RO_id={}".format(
vnfd_id, desc["uuid"]))
self.update_db_2("nsrs", nsr_id, db_nsr_update)
# create nsd at RO
nsd_id = nsd["id"]
step = db_nsr_update["detailed-status"] = "Creating nsd={} at RO".format(nsd_id)
# self.logger.debug(logging_text + step)
RO_osm_nsd_id = "{}.{}.{}".format(nsr_id, RO_descriptor_number, nsd_id[:23])
descriptor_id_2_RO[nsd_id] = RO_osm_nsd_id
RO_descriptor_number += 1
nsd_list = await RO.get_list("nsd", filter_by={"osm_id": RO_osm_nsd_id})
if nsd_list:
db_nsr_update["_admin.deployed.RO.nsd_id"] = RO_nsd_uuid = nsd_list[0]["uuid"]
self.logger.debug(logging_text + "nsd={} exists at RO. Using RO_id={}".format(
nsd_id, RO_nsd_uuid))
else:
nsd_RO = deepcopy(nsd)
nsd_RO["id"] = RO_osm_nsd_id
nsd_RO.pop("_id", None)
nsd_RO.pop("_admin", None)
for c_vnf in nsd_RO["constituent-vnfd"]:
vnfd_id = c_vnf["vnfd-id-ref"]
c_vnf["vnfd-id-ref"] = descriptor_id_2_RO[vnfd_id]
desc = await RO.create("nsd", descriptor=nsd_RO)
db_nsr_update["_admin.nsState"] = "INSTANTIATED"
db_nsr_update["_admin.deployed.RO.nsd_id"] = RO_nsd_uuid = desc["uuid"]
self.logger.debug(logging_text + "nsd={} created at RO. RO_id={}".format(nsd_id, RO_nsd_uuid))
self.update_db_2("nsrs", nsr_id, db_nsr_update)
# Crate ns at RO
# if present use it unless in error status
RO_nsr_id = db_nsr["_admin"].get("deployed", {}).get("RO", {}).get("nsr_id")
if RO_nsr_id:
try:
step = db_nsr_update["detailed-status"] = "Looking for existing ns at RO"
# self.logger.debug(logging_text + step + " RO_ns_id={}".format(RO_nsr_id))
desc = await RO.show("ns", RO_nsr_id)
except ROclient.ROClientException as e:
if e.http_code != HTTPStatus.NOT_FOUND:
raise
RO_nsr_id = db_nsr_update["_admin.deployed.RO.nsr_id"] = None
if RO_nsr_id:
ns_status, ns_status_info = RO.check_ns_status(desc)
db_nsr_update["_admin.deployed.RO.nsr_status"] = ns_status
if ns_status == "ERROR":
step = db_nsr_update["detailed-status"] = "Deleting ns at RO. RO_ns_id={}".format(RO_nsr_id)
self.logger.debug(logging_text + step)
await RO.delete("ns", RO_nsr_id)
RO_nsr_id = db_nsr_update["_admin.deployed.RO.nsr_id"] = None
if not RO_nsr_id:
step = db_nsr_update["detailed-status"] = "Checking dependencies"
# self.logger.debug(logging_text + step)
# check if VIM is creating and wait look if previous tasks in process
task_name, task_dependency = self.lcm_tasks.lookfor_related("vim_account", ns_params["vimAccountId"])
if task_dependency:
step = "Waiting for related tasks to be completed: {}".format(task_name)
self.logger.debug(logging_text + step)
await asyncio.wait(task_dependency, timeout=3600)
if ns_params.get("vnf"):
for vnf in ns_params["vnf"]:
if "vimAccountId" in vnf:
task_name, task_dependency = self.lcm_tasks.lookfor_related("vim_account",
vnf["vimAccountId"])
if task_dependency:
step = "Waiting for related tasks to be completed: {}".format(task_name)
self.logger.debug(logging_text + step)
await asyncio.wait(task_dependency, timeout=3600)
step = db_nsr_update["detailed-status"] = "Checking instantiation parameters"
RO_ns_params = self.ns_params_2_RO(ns_params, nsd, needed_vnfd)
step = db_nsr_update["detailed-status"] = "Creating ns at RO"
desc = await RO.create("ns", descriptor=RO_ns_params,
name=db_nsr["name"],
scenario=RO_nsd_uuid)
RO_nsr_id = db_nsr_update["_admin.deployed.RO.nsr_id"] = desc["uuid"]
db_nsr_update["_admin.nsState"] = "INSTANTIATED"
db_nsr_update["_admin.deployed.RO.nsr_status"] = "BUILD"
self.logger.debug(logging_text + "ns created at RO. RO_id={}".format(desc["uuid"]))
self.update_db_2("nsrs", nsr_id, db_nsr_update)
# update VNFR vimAccount
step = "Updating VNFR vimAcccount"
for vnf_index, vnfr in db_vnfrs.items():
if vnfr.get("vim-account-id"):
continue
vnfr_update = {"vim-account-id": db_nsr["instantiate_params"]["vimAccountId"]}
if db_nsr["instantiate_params"].get("vnf"):
for vnf_params in db_nsr["instantiate_params"]["vnf"]:
if vnf_params.get("member-vnf-index") == vnf_index:
if vnf_params.get("vimAccountId"):
vnfr_update["vim-account-id"] = vnf_params.get("vimAccountId")
break
self.update_db_2("vnfrs", vnfr["_id"], vnfr_update)
# wait until NS is ready
step = ns_status_detailed = detailed_status = "Waiting ns ready at RO. RO_id={}".format(RO_nsr_id)
detailed_status_old = None
self.logger.debug(logging_text + step)
deployment_timeout = 2 * 3600 # Two hours
while deployment_timeout > 0:
desc = await RO.show("ns", RO_nsr_id)
ns_status, ns_status_info = RO.check_ns_status(desc)
db_nsr_update["admin.deployed.RO.nsr_status"] = ns_status
if ns_status == "ERROR":
raise ROclient.ROClientException(ns_status_info)
elif ns_status == "BUILD":
detailed_status = ns_status_detailed + "; {}".format(ns_status_info)
elif ns_status == "ACTIVE":
step = detailed_status = "Waiting for management IP address reported by the VIM"
try:
nsr_lcm["nsr_ip"] = RO.get_ns_vnf_info(desc)
break
except ROclient.ROClientException as e:
if e.http_code != 409: # IP address is not ready return code is 409 CONFLICT
raise e
else:
assert False, "ROclient.check_ns_status returns unknown {}".format(ns_status)
if detailed_status != detailed_status_old:
detailed_status_old = db_nsr_update["detailed-status"] = detailed_status
self.update_db_2("nsrs", nsr_id, db_nsr_update)
await asyncio.sleep(5, loop=self.loop)
deployment_timeout -= 5
if deployment_timeout <= 0:
raise ROclient.ROClientException("Timeout waiting ns to be ready")
step = "Updating VNFRs"
self.ns_update_vnfr(db_vnfrs, desc)
db_nsr["detailed-status"] = "Configuring vnfr"
self.update_db_2("nsrs", nsr_id, db_nsr_update)
# The parameters we'll need to deploy a charm
number_to_configure = 0
def deploy(vnf_index, vdu_id, mgmt_ip_address, n2vc_info, config_primitive=None):
"""An inner function to deploy the charm from either vnf or vdu
vnf_index is mandatory. vdu_id can be None for a vnf configuration or the id for vdu configuration
"""
if not mgmt_ip_address:
raise LcmException("vnfd/vdu has not management ip address to configure it")
# Login to the VCA.
# if number_to_configure == 0:
# self.logger.debug("Logging into N2VC...")
# task = asyncio.ensure_future(self.n2vc.login())
# yield from asyncio.wait_for(task, 30.0)
# self.logger.debug("Logged into N2VC!")
# # await self.n2vc.login()
# Note: The charm needs to exist on disk at the location
# specified by charm_path.
base_folder = vnfd["_admin"]["storage"]
storage_params = self.fs.get_params()
charm_path = "{}{}/{}/charms/{}".format(
storage_params["path"],
base_folder["folder"],
base_folder["pkg-dir"],
proxy_charm
)
# Setup the runtime parameters for this VNF
params = {'rw_mgmt_ip': mgmt_ip_address}
if config_primitive:
params["initial-config-primitive"] = config_primitive
# ns_name will be ignored in the current version of N2VC
# but will be implemented for the next point release.
model_name = 'default'
vdu_id_text = "vnfd"
if vdu_id:
vdu_id_text = vdu_id
application_name = self.n2vc.FormatApplicationName(
nsr_name,
vnf_index,
vdu_id_text
)
if not nsr_lcm.get("VCA"):
nsr_lcm["VCA"] = {}
nsr_lcm["VCA"][application_name] = db_nsr_update["_admin.deployed.VCA.{}".format(application_name)] = {
"member-vnf-index": vnf_index,
"vdu_id": vdu_id,
"model": model_name,
"application": application_name,
"operational-status": "init",
"detailed-status": "",
"vnfd_id": vnfd_id,
}
self.update_db_2("nsrs", nsr_id, db_nsr_update)
self.logger.debug("Task create_ns={} Passing artifacts path '{}' for {}".format(nsr_id, charm_path,
proxy_charm))
if not n2vc_info:
n2vc_info["nsr_id"] = nsr_id
n2vc_info["nslcmop_id"] = nslcmop_id
n2vc_info["n2vc_event"] = asyncio.Event(loop=self.loop)
n2vc_info["lcmOperationType"] = "instantiate"
n2vc_info["deployed"] = nsr_lcm["VCA"]
n2vc_info["db_update"] = db_nsr_update
task = asyncio.ensure_future(
self.n2vc.DeployCharms(
model_name, # The network service name
application_name, # The application name
vnfd, # The vnf descriptor
charm_path, # Path to charm
params, # Runtime params, like mgmt ip
{}, # for native charms only
self.n2vc_callback, # Callback for status changes
n2vc_info, # Callback parameter
None, # Callback parameter (task)
)
)
task.add_done_callback(functools.partial(self.n2vc_callback, model_name, application_name, None, None,
n2vc_info))
self.lcm_tasks.register("ns", nsr_id, nslcmop_id, "create_charm:" + application_name, task)
step = "Looking for needed vnfd to configure"
self.logger.debug(logging_text + step)
for c_vnf in nsd["constituent-vnfd"]:
vnfd_id = c_vnf["vnfd-id-ref"]
vnf_index = str(c_vnf["member-vnf-index"])
vnfd = needed_vnfd[vnfd_id]
# Check if this VNF has a charm configuration
vnf_config = vnfd.get("vnf-configuration")
if vnf_config and vnf_config.get("juju"):
proxy_charm = vnf_config["juju"]["charm"]
config_primitive = None
if proxy_charm:
if 'initial-config-primitive' in vnf_config:
config_primitive = vnf_config['initial-config-primitive']
# Login to the VCA. If there are multiple calls to login(),
# subsequent calls will be a nop and return immediately.
step = "connecting to N2VC to configure vnf {}".format(vnf_index)
await self.n2vc.login()
deploy(vnf_index, None, db_vnfrs[vnf_index]["ip-address"], n2vc_info, config_primitive)
number_to_configure += 1
# Deploy charms for each VDU that supports one.
vdu_index = 0
for vdu in vnfd['vdu']:
vdu_config = vdu.get('vdu-configuration')
proxy_charm = None
config_primitive = None
if vdu_config and vdu_config.get("juju"):
proxy_charm = vdu_config["juju"]["charm"]
if 'initial-config-primitive' in vdu_config:
config_primitive = vdu_config['initial-config-primitive']
if proxy_charm:
step = "connecting to N2VC to configure vdu {} from vnf {}".format(vdu["id"], vnf_index)
await self.n2vc.login()
deploy(vnf_index, vdu["id"], db_vnfrs[vnf_index]["vdur"][vdu_index]["ip-address"],
n2vc_info, config_primitive)
number_to_configure += 1
vdu_index += 1
db_nsr_update["operational-status"] = "running"
configuration_failed = False
if number_to_configure:
old_status = "configuring: init: {}".format(number_to_configure)
db_nsr_update["config-status"] = old_status
db_nsr_update["detailed-status"] = old_status
db_nslcmop_update["detailed-status"] = old_status
# wait until all are configured.
while True:
if db_nsr_update:
self.update_db_2("nsrs", nsr_id, db_nsr_update)
if db_nslcmop_update:
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
await n2vc_info["n2vc_event"].wait()
n2vc_info["n2vc_event"].clear()
all_active = True
status_map = {}
n2vc_error_text = [] # contain text error list. If empty no one is in error status
for _, vca_info in nsr_lcm["VCA"].items():
vca_status = vca_info["operational-status"]
if vca_status not in status_map:
# Initialize it
status_map[vca_status] = 0
status_map[vca_status] += 1
if vca_status != "active":
all_active = False
if vca_status in ("error", "blocked"):
n2vc_error_text.append(
"member_vnf_index={} vdu_id={} {}: {}".format(vca_info["member-vnf-index"],
vca_info["vdu_id"], vca_status,
vca_info["detailed-status"]))
if all_active:
break
elif n2vc_error_text:
db_nsr_update["config-status"] = "failed"
error_text = "fail configuring " + ";".join(n2vc_error_text)
db_nsr_update["detailed-status"] = error_text
db_nslcmop_update["operationState"] = nslcmop_operation_state = "FAILED_TEMP"
db_nslcmop_update["detailed-status"] = error_text
db_nslcmop_update["statusEnteredTime"] = time()
configuration_failed = True
break
else:
cs = "configuring: "
separator = ""
for status, num in status_map.items():
cs += separator + "{}: {}".format(status, num)
separator = ", "
if old_status != cs:
db_nsr_update["config-status"] = cs
db_nsr_update["detailed-status"] = cs
db_nslcmop_update["detailed-status"] = cs
old_status = cs
if not configuration_failed:
# all is done
db_nslcmop_update["operationState"] = nslcmop_operation_state = "COMPLETED"
db_nslcmop_update["statusEnteredTime"] = time()
db_nslcmop_update["detailed-status"] = "done"
db_nsr_update["config-status"] = "configured"
db_nsr_update["detailed-status"] = "done"
# step = "Sending monitoring parameters to PM"
# for c_vnf in nsd["constituent-vnfd"]:
# await self.create_monitoring(nsr_id, c_vnf["member-vnf-index"], needed_vnfd[c_vnf["vnfd-id-ref"]])
return
except (ROclient.ROClientException, DbException, LcmException) as e:
self.logger.error(logging_text + "Exit Exception while '{}': {}".format(step, e))
exc = e
except asyncio.CancelledError:
self.logger.error(logging_text + "Cancelled Exception while '{}'".format(step))
exc = "Operation was cancelled"
except Exception as e:
exc = traceback.format_exc()
self.logger.critical(logging_text + "Exit Exception {} while '{}': {}".format(type(e).__name__, step, e),
exc_info=True)
finally:
if exc:
if db_nsr:
db_nsr_update["detailed-status"] = "ERROR {}: {}".format(step, exc)
db_nsr_update["operational-status"] = "failed"
if db_nslcmop:
db_nslcmop_update["detailed-status"] = "FAILED {}: {}".format(step, exc)
db_nslcmop_update["operationState"] = nslcmop_operation_state = "FAILED"
db_nslcmop_update["statusEnteredTime"] = time()
if db_nsr:
db_nsr_update["_admin.nslcmop"] = None
self.update_db_2("nsrs", nsr_id, db_nsr_update)
if db_nslcmop_update:
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
if nslcmop_operation_state:
try:
await self.msg.aiowrite("ns", "instantiated", {"nsr_id": nsr_id, "nslcmop_id": nslcmop_id,
"operationState": nslcmop_operation_state})
except Exception as e:
self.logger.error(logging_text + "kafka_write notification Exception {}".format(e))
self.logger.debug(logging_text + "Exit")
self.lcm_tasks.remove("ns", nsr_id, nslcmop_id, "ns_instantiate")
async def terminate(self, nsr_id, nslcmop_id):
logging_text = "Task ns={} terminate={} ".format(nsr_id, nslcmop_id)
self.logger.debug(logging_text + "Enter")
db_nsr = None
db_nslcmop = None
exc = None
failed_detail = [] # annotates all failed error messages
vca_task_list = []
vca_task_dict = {}
db_nsr_update = {"_admin.nslcmop": nslcmop_id}
db_nslcmop_update = {}
nslcmop_operation_state = None
try:
step = "Getting nslcmop={} from db".format(nslcmop_id)
db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
step = "Getting nsr={} from db".format(nsr_id)
db_nsr = self.db.get_one("nsrs", {"_id": nsr_id})
# nsd = db_nsr["nsd"]
nsr_lcm = deepcopy(db_nsr["_admin"].get("deployed"))
if db_nsr["_admin"]["nsState"] == "NOT_INSTANTIATED":
return
# TODO ALF remove
# db_vim = self.db.get_one("vim_accounts", {"_id": db_nsr["datacenter"]})
# #TODO check if VIM is creating and wait
# RO_vim_id = db_vim["_admin"]["deployed"]["RO"]
db_nsr_update["operational-status"] = "terminating"
db_nsr_update["config-status"] = "terminating"
if nsr_lcm and nsr_lcm.get("VCA"):
try:
step = "Scheduling configuration charms removing"
db_nsr_update["detailed-status"] = "Deleting charms"
self.logger.debug(logging_text + step)
self.update_db_2("nsrs", nsr_id, db_nsr_update)
for application_name, deploy_info in nsr_lcm["VCA"].items():
if deploy_info: # TODO it would be desirable having a and deploy_info.get("deployed"):
task = asyncio.ensure_future(
self.n2vc.RemoveCharms(
deploy_info['model'],
application_name,
# self.n2vc_callback,
# db_nsr,
# db_nslcmop,
)
)
vca_task_list.append(task)
vca_task_dict[application_name] = task
# task.add_done_callback(functools.partial(self.n2vc_callback, deploy_info['model'],
# deploy_info['application'], None, db_nsr,
# db_nslcmop, vnf_index))
self.lcm_tasks.register("ns", nsr_id, nslcmop_id, "delete_charm:" + application_name, task)
except Exception as e:
self.logger.debug(logging_text + "Failed while deleting charms: {}".format(e))
# remove from RO
RO_fail = False
RO = ROclient.ROClient(self.loop, **self.ro_config)
# Delete ns
RO_nsr_id = RO_delete_action = None
if nsr_lcm and nsr_lcm.get("RO"):
RO_nsr_id = nsr_lcm["RO"].get("nsr_id")
RO_delete_action = nsr_lcm["RO"].get("nsr_delete_action_id")
try:
if RO_nsr_id:
step = db_nsr_update["detailed-status"] = db_nslcmop_update["detailed-status"] = "Deleting ns at RO"
self.logger.debug(logging_text + step)
desc = await RO.delete("ns", RO_nsr_id)
RO_delete_action = desc["action_id"]
db_nsr_update["_admin.deployed.RO.nsr_delete_action_id"] = RO_delete_action
db_nsr_update["_admin.deployed.RO.nsr_id"] = None
db_nsr_update["_admin.deployed.RO.nsr_status"] = "DELETED"
if RO_delete_action:
# wait until NS is deleted from VIM
step = detailed_status = "Waiting ns deleted from VIM. RO_id={}".format(RO_nsr_id)
detailed_status_old = None
self.logger.debug(logging_text + step)
delete_timeout = 20 * 60 # 20 minutes
while delete_timeout > 0:
desc = await RO.show("ns", item_id_name=RO_nsr_id, extra_item="action",
extra_item_id=RO_delete_action)
ns_status, ns_status_info = RO.check_action_status(desc)
if ns_status == "ERROR":
raise ROclient.ROClientException(ns_status_info)
elif ns_status == "BUILD":
detailed_status = step + "; {}".format(ns_status_info)
elif ns_status == "ACTIVE":
break
else:
assert False, "ROclient.check_action_status returns unknown {}".format(ns_status)
await asyncio.sleep(5, loop=self.loop)
delete_timeout -= 5
if detailed_status != detailed_status_old:
detailed_status_old = db_nslcmop_update["detailed-status"] = detailed_status
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
else: # delete_timeout <= 0:
raise ROclient.ROClientException("Timeout waiting ns deleted from VIM")
except ROclient.ROClientException as e:
if e.http_code == 404: # not found
db_nsr_update["_admin.deployed.RO.nsr_id"] = None
db_nsr_update["_admin.deployed.RO.nsr_status"] = "DELETED"
self.logger.debug(logging_text + "RO_ns_id={} already deleted".format(RO_nsr_id))
elif e.http_code == 409: # conflict
failed_detail.append("RO_ns_id={} delete conflict: {}".format(RO_nsr_id, e))
self.logger.debug(logging_text + failed_detail[-1])
RO_fail = True
else:
failed_detail.append("RO_ns_id={} delete error: {}".format(RO_nsr_id, e))
self.logger.error(logging_text + failed_detail[-1])
RO_fail = True
# Delete nsd
if not RO_fail and nsr_lcm and nsr_lcm.get("RO") and nsr_lcm["RO"].get("nsd_id"):
RO_nsd_id = nsr_lcm["RO"]["nsd_id"]
try:
step = db_nsr_update["detailed-status"] = db_nslcmop_update["detailed-status"] =\
"Deleting nsd at RO"
await RO.delete("nsd", RO_nsd_id)
self.logger.debug(logging_text + "RO_nsd_id={} deleted".format(RO_nsd_id))
db_nsr_update["_admin.deployed.RO.nsd_id"] = None
except ROclient.ROClientException as e:
if e.http_code == 404: # not found
db_nsr_update["_admin.deployed.RO.nsd_id"] = None
self.logger.debug(logging_text + "RO_nsd_id={} already deleted".format(RO_nsd_id))
elif e.http_code == 409: # conflict
failed_detail.append("RO_nsd_id={} delete conflict: {}".format(RO_nsd_id, e))
self.logger.debug(logging_text + failed_detail[-1])
RO_fail = True
else:
failed_detail.append("RO_nsd_id={} delete error: {}".format(RO_nsd_id, e))
self.logger.error(logging_text + failed_detail[-1])
RO_fail = True
if not RO_fail and nsr_lcm and nsr_lcm.get("RO") and nsr_lcm["RO"].get("vnfd_id"):
for vnf_id, RO_vnfd_id in nsr_lcm["RO"]["vnfd_id"].items():
if not RO_vnfd_id:
continue
try:
step = db_nsr_update["detailed-status"] = db_nslcmop_update["detailed-status"] =\
"Deleting vnfd={} at RO".format(vnf_id)
await RO.delete("vnfd", RO_vnfd_id)
self.logger.debug(logging_text + "RO_vnfd_id={} deleted".format(RO_vnfd_id))
db_nsr_update["_admin.deployed.RO.vnfd_id.{}".format(vnf_id)] = None
except ROclient.ROClientException as e:
if e.http_code == 404: # not found
db_nsr_update["_admin.deployed.RO.vnfd_id.{}".format(vnf_id)] = None
self.logger.debug(logging_text + "RO_vnfd_id={} already deleted ".format(RO_vnfd_id))
elif e.http_code == 409: # conflict
failed_detail.append("RO_vnfd_id={} delete conflict: {}".format(RO_vnfd_id, e))
self.logger.debug(logging_text + failed_detail[-1])
else:
failed_detail.append("RO_vnfd_id={} delete error: {}".format(RO_vnfd_id, e))
self.logger.error(logging_text + failed_detail[-1])
if vca_task_list:
db_nsr_update["detailed-status"] = db_nslcmop_update["detailed-status"] =\
"Waiting for deletion of configuration charms"
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
self.update_db_2("nsrs", nsr_id, db_nsr_update)
await asyncio.wait(vca_task_list, timeout=300)
for application_name, task in vca_task_dict.items():
if task.cancelled():
failed_detail.append("VCA[{}] Deletion has been cancelled".format(application_name))
elif task.done():
exc = task.exception()
if exc:
failed_detail.append("VCA[{}] Deletion exception: {}".format(application_name, exc))
else:
db_nsr_update["_admin.deployed.VCA.{}".format(application_name)] = None
else: # timeout
# TODO Should it be cancelled?!!
task.cancel()
failed_detail.append("VCA[{}] Deletion timeout".format(application_name))
if failed_detail:
self.logger.error(logging_text + " ;".join(failed_detail))
db_nsr_update["operational-status"] = "failed"
db_nsr_update["detailed-status"] = "Deletion errors " + "; ".join(failed_detail)
db_nslcmop_update["detailed-status"] = "; ".join(failed_detail)
db_nslcmop_update["operationState"] = nslcmop_operation_state = "FAILED"
db_nslcmop_update["statusEnteredTime"] = time()
elif db_nslcmop["operationParams"].get("autoremove"):
self.db.del_one("nsrs", {"_id": nsr_id})
db_nsr_update.clear()
self.db.del_list("nslcmops", {"nsInstanceId": nsr_id})
nslcmop_operation_state = "COMPLETED"
db_nslcmop_update.clear()
self.db.del_list("vnfrs", {"nsr-id-ref": nsr_id})
self.logger.debug(logging_text + "Delete from database")
else:
db_nsr_update["operational-status"] = "terminated"
db_nsr_update["detailed-status"] = "Done"
db_nsr_update["_admin.nsState"] = "NOT_INSTANTIATED"
db_nslcmop_update["detailed-status"] = "Done"
db_nslcmop_update["operationState"] = nslcmop_operation_state = "COMPLETED"
db_nslcmop_update["statusEnteredTime"] = time()
except (ROclient.ROClientException, DbException) as e:
self.logger.error(logging_text + "Exit Exception {}".format(e))
exc = e
except asyncio.CancelledError:
self.logger.error(logging_text + "Cancelled Exception while '{}'".format(step))
exc = "Operation was cancelled"
except Exception as e:
exc = traceback.format_exc()
self.logger.critical(logging_text + "Exit Exception {}".format(e), exc_info=True)
finally:
if exc and db_nslcmop:
db_nslcmop_update["detailed-status"] = "FAILED {}: {}".format(step, exc)
db_nslcmop_update["operationState"] = nslcmop_operation_state = "FAILED"
db_nslcmop_update["statusEnteredTime"] = time()
if db_nslcmop_update:
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
if db_nsr:
db_nsr_update["_admin.nslcmop"] = None
self.update_db_2("nsrs", nsr_id, db_nsr_update)
if nslcmop_operation_state:
try:
await self.msg.aiowrite("ns", "terminated", {"nsr_id": nsr_id, "nslcmop_id": nslcmop_id,
"operationState": nslcmop_operation_state})
except Exception as e:
self.logger.error(logging_text + "kafka_write notification Exception {}".format(e))
self.logger.debug(logging_text + "Exit")
self.lcm_tasks.remove("ns", nsr_id, nslcmop_id, "ns_terminate")
async def _ns_execute_primitive(self, db_deployed, nsr_name, member_vnf_index, vdu_id, primitive, primitive_params):
vdu_id_text = "vnfd"
if vdu_id:
vdu_id_text = vdu_id
application_name = self.n2vc.FormatApplicationName(
nsr_name,
member_vnf_index,
vdu_id_text
)
vca_deployed = db_deployed["VCA"].get(application_name)
if not vca_deployed:
raise LcmException("charm for member_vnf_index={} vdu_id={} is not deployed".format(member_vnf_index,
vdu_id))
model_name = vca_deployed.get("model")
application_name = vca_deployed.get("application")
if not model_name or not application_name:
raise LcmException("charm for member_vnf_index={} is not properly deployed".format(member_vnf_index))
if vca_deployed["operational-status"] != "active":
raise LcmException("charm for member_vnf_index={} operational_status={} not 'active'".format(
member_vnf_index, vca_deployed["operational-status"]))
callback = None # self.n2vc_callback
callback_args = () # [db_nsr, db_nslcmop, member_vnf_index, None]
await self.n2vc.login()
task = asyncio.ensure_future(
self.n2vc.ExecutePrimitive(
model_name,
application_name,
primitive, callback,
*callback_args,
**primitive_params
)
)
# task.add_done_callback(functools.partial(self.n2vc_callback, model_name, application_name, None,
# db_nsr, db_nslcmop, member_vnf_index))
# self.lcm_tasks.register("ns", nsr_id, nslcmop_id, "action:" + primitive, task)
# wait until completed with timeout
await asyncio.wait((task,), timeout=600)
result = "FAILED" # by default
result_detail = ""
if task.cancelled():
result_detail = "Task has been cancelled"
elif task.done():
exc = task.exception()
if exc:
result_detail = str(exc)
else:
# TODO revise with Adam if action is finished and ok when task is done or callback is needed
result = "COMPLETED"
result_detail = "Done"
else: # timeout
# TODO Should it be cancelled?!!
task.cancel()
result_detail = "timeout"
return result, result_detail
async def action(self, nsr_id, nslcmop_id):
logging_text = "Task ns={} action={} ".format(nsr_id, nslcmop_id)
self.logger.debug(logging_text + "Enter")
# get all needed from database
db_nsr = None
db_nslcmop = None
db_nsr_update = {"_admin.nslcmop": nslcmop_id}
db_nslcmop_update = {}
nslcmop_operation_state = None
exc = None
try:
step = "Getting information from database"
db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
db_nsr = self.db.get_one("nsrs", {"_id": nsr_id})
nsr_lcm = db_nsr["_admin"].get("deployed")
nsr_name = db_nsr["name"]
vnf_index = db_nslcmop["operationParams"]["member_vnf_index"]
vdu_id = db_nslcmop["operationParams"].get("vdu_id")
# look if previous tasks in process
task_name, task_dependency = self.lcm_tasks.lookfor_related("ns", nsr_id, nslcmop_id)
if task_dependency:
step = db_nslcmop_update["detailed-status"] = \
"Waiting for related tasks to be completed: {}".format(task_name)
self.logger.debug(logging_text + step)
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
_, pending = await asyncio.wait(task_dependency, timeout=3600)
if pending:
raise LcmException("Timeout waiting related tasks to be completed")
# TODO check if ns is in a proper status
primitive = db_nslcmop["operationParams"]["primitive"]
primitive_params = db_nslcmop["operationParams"]["primitive_params"]
result, result_detail = await self._ns_execute_primitive(nsr_lcm, nsr_name, vnf_index, vdu_id, primitive,
primitive_params)
db_nslcmop_update["detailed-status"] = result_detail
db_nslcmop_update["operationState"] = nslcmop_operation_state = result
db_nslcmop_update["statusEnteredTime"] = time()
self.logger.debug(logging_text + " task Done with result {} {}".format(result, result_detail))
return # database update is called inside finally
except (DbException, LcmException) as e:
self.logger.error(logging_text + "Exit Exception {}".format(e))
exc = e
except asyncio.CancelledError:
self.logger.error(logging_text + "Cancelled Exception while '{}'".format(step))
exc = "Operation was cancelled"
except Exception as e:
exc = traceback.format_exc()
self.logger.critical(logging_text + "Exit Exception {} {}".format(type(e).__name__, e), exc_info=True)
finally:
if exc and db_nslcmop:
db_nslcmop_update["detailed-status"] = "FAILED {}: {}".format(step, exc)
db_nslcmop_update["operationState"] = nslcmop_operation_state = "FAILED"
db_nslcmop_update["statusEnteredTime"] = time()
if db_nslcmop_update:
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
if db_nsr:
db_nsr_update["_admin.nslcmop"] = None
self.update_db_2("nsrs", nsr_id, db_nsr_update)
self.logger.debug(logging_text + "Exit")
if nslcmop_operation_state:
try:
await self.msg.aiowrite("ns", "actioned", {"nsr_id": nsr_id, "nslcmop_id": nslcmop_id,
"operationState": nslcmop_operation_state})
except Exception as e:
self.logger.error(logging_text + "kafka_write notification Exception {}".format(e))
self.logger.debug(logging_text + "Exit")
self.lcm_tasks.remove("ns", nsr_id, nslcmop_id, "ns_action")
async def scale(self, nsr_id, nslcmop_id):
logging_text = "Task ns={} scale={} ".format(nsr_id, nslcmop_id)
self.logger.debug(logging_text + "Enter")
# get all needed from database
db_nsr = None
db_nslcmop = None
db_nslcmop_update = {}
nslcmop_operation_state = None
db_nsr_update = {"_admin.nslcmop": nslcmop_id}
exc = None
# in case of error, indicates what part of scale was failed to put nsr at error status
scale_process = None
old_operational_status = ""
old_config_status = ""
try:
step = "Getting nslcmop from database"
db_nslcmop = self.db.get_one("nslcmops", {"_id": nslcmop_id})
step = "Getting nsr from database"
db_nsr = self.db.get_one("nsrs", {"_id": nsr_id})
old_operational_status = db_nsr["operational-status"]
old_config_status = db_nsr["config-status"]
# look if previous tasks in process
task_name, task_dependency = self.lcm_tasks.lookfor_related("ns", nsr_id, nslcmop_id)
if task_dependency:
step = db_nslcmop_update["detailed-status"] = \
"Waiting for related tasks to be completed: {}".format(task_name)
self.logger.debug(logging_text + step)
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
_, pending = await asyncio.wait(task_dependency, timeout=3600)
if pending:
raise LcmException("Timeout waiting related tasks to be completed")
step = "Parsing scaling parameters"
db_nsr_update["operational-status"] = "scaling"
self.update_db_2("nsrs", nsr_id, db_nsr_update)
nsr_lcm = db_nsr["_admin"].get("deployed")
RO_nsr_id = nsr_lcm["RO"]["nsr_id"]
vnf_index = db_nslcmop["operationParams"]["scaleVnfData"]["scaleByStepData"]["member-vnf-index"]
scaling_group = db_nslcmop["operationParams"]["scaleVnfData"]["scaleByStepData"]["scaling-group-descriptor"]
scaling_type = db_nslcmop["operationParams"]["scaleVnfData"]["scaleVnfType"]
# scaling_policy = db_nslcmop["operationParams"]["scaleVnfData"]["scaleByStepData"].get("scaling-policy")
step = "Getting vnfr from database"
db_vnfr = self.db.get_one("vnfrs", {"member-vnf-index-ref": vnf_index, "nsr-id-ref": nsr_id})
step = "Getting vnfd from database"
db_vnfd = self.db.get_one("vnfds", {"_id": db_vnfr["vnfd-id"]})
step = "Getting scaling-group-descriptor"
for scaling_descriptor in db_vnfd["scaling-group-descriptor"]:
if scaling_descriptor["name"] == scaling_group:
break
else:
raise LcmException("input parameter 'scaleByStepData':'scaling-group-descriptor':'{}' is not present "
"at vnfd:scaling-group-descriptor".format(scaling_group))
# cooldown_time = 0
# for scaling_policy_descriptor in scaling_descriptor.get("scaling-policy", ()):
# cooldown_time = scaling_policy_descriptor.get("cooldown-time", 0)
# if scaling_policy and scaling_policy == scaling_policy_descriptor.get("name"):
# break
# TODO check if ns is in a proper status
step = "Sending scale order to RO"
nb_scale_op = 0
if not db_nsr["_admin"].get("scaling-group"):
self.update_db_2("nsrs", nsr_id, {"_admin.scaling-group": [{"name": scaling_group, "nb-scale-op": 0}]})
admin_scale_index = 0
else:
for admin_scale_index, admin_scale_info in enumerate(db_nsr["_admin"]["scaling-group"]):
if admin_scale_info["name"] == scaling_group:
nb_scale_op = admin_scale_info.get("nb-scale-op", 0)
break
else: # not found, set index one plus last element and add new entry with the name
admin_scale_index += 1
db_nsr_update["_admin.scaling-group.{}.name".format(admin_scale_index)] = scaling_group
RO_scaling_info = []
vdu_scaling_info = {"scaling_group_name": scaling_group, "vdu": []}
if scaling_type == "SCALE_OUT":
# count if max-instance-count is reached
if "max-instance-count" in scaling_descriptor and scaling_descriptor["max-instance-count"] is not None:
max_instance_count = int(scaling_descriptor["max-instance-count"])
if nb_scale_op >= max_instance_count:
raise LcmException("reached the limit of {} (max-instance-count) scaling-out operations for the"
" scaling-group-descriptor '{}'".format(nb_scale_op, scaling_group))
nb_scale_op = nb_scale_op + 1
vdu_scaling_info["scaling_direction"] = "OUT"
vdu_scaling_info["vdu-create"] = {}
for vdu_scale_info in scaling_descriptor["vdu"]:
RO_scaling_info.append({"osm_vdu_id": vdu_scale_info["vdu-id-ref"], "member-vnf-index": vnf_index,
"type": "create", "count": vdu_scale_info.get("count", 1)})
vdu_scaling_info["vdu-create"][vdu_scale_info["vdu-id-ref"]] = vdu_scale_info.get("count", 1)
elif scaling_type == "SCALE_IN":
# count if min-instance-count is reached
if "min-instance-count" in scaling_descriptor and scaling_descriptor["min-instance-count"] is not None:
min_instance_count = int(scaling_descriptor["min-instance-count"])
if nb_scale_op <= min_instance_count:
raise LcmException("reached the limit of {} (min-instance-count) scaling-in operations for the "
"scaling-group-descriptor '{}'".format(nb_scale_op, scaling_group))
nb_scale_op = nb_scale_op - 1
vdu_scaling_info["scaling_direction"] = "IN"
vdu_scaling_info["vdu-delete"] = {}
for vdu_scale_info in scaling_descriptor["vdu"]:
RO_scaling_info.append({"osm_vdu_id": vdu_scale_info["vdu-id-ref"], "member-vnf-index": vnf_index,
"type": "delete", "count": vdu_scale_info.get("count", 1)})
vdu_scaling_info["vdu-delete"][vdu_scale_info["vdu-id-ref"]] = vdu_scale_info.get("count", 1)
# update VDU_SCALING_INFO with the VDUs to delete ip_addresses
if vdu_scaling_info["scaling_direction"] == "IN":
for vdur in reversed(db_vnfr["vdur"]):
if vdu_scaling_info["vdu-delete"].get(vdur["vdu-id-ref"]):
vdu_scaling_info["vdu-delete"][vdur["vdu-id-ref"]] -= 1
vdu_scaling_info["vdu"].append({
"name": vdur["name"],
"vdu_id": vdur["vdu-id-ref"],
"interface": []
})
for interface in vdur["interfaces"]:
vdu_scaling_info["vdu"][-1]["interface"].append({
"name": interface["name"],
"ip_address": interface["ip-address"],
"mac_address": interface.get("mac-address"),
})
del vdu_scaling_info["vdu-delete"]
# execute primitive service PRE-SCALING
step = "Executing pre-scale vnf-config-primitive"
if scaling_descriptor.get("scaling-config-action"):
for scaling_config_action in scaling_descriptor["scaling-config-action"]:
if scaling_config_action.get("trigger") and scaling_config_action["trigger"] == "pre-scale-in" \
and scaling_type == "SCALE_IN":
vnf_config_primitive = scaling_config_action["vnf-config-primitive-name-ref"]
step = db_nslcmop_update["detailed-status"] = \
"executing pre-scale scaling-config-action '{}'".format(vnf_config_primitive)
# look for primitive
primitive_params = {}
for config_primitive in db_vnfd.get("vnf-configuration", {}).get("config-primitive", ()):
if config_primitive["name"] == vnf_config_primitive:
for parameter in config_primitive.get("parameter", ()):
if 'default-value' in parameter and \
parameter['default-value'] == "<VDU_SCALE_INFO>":
primitive_params[parameter["name"]] = yaml.safe_dump(vdu_scaling_info,
default_flow_style=True,
width=256)
break
else:
raise LcmException(
"Invalid vnfd descriptor at scaling-group-descriptor[name='{}']:scaling-config-action"
"[vnf-config-primitive-name-ref='{}'] does not match any vnf-cnfiguration:config-"
"primitive".format(scaling_group, config_primitive))
scale_process = "VCA"
db_nsr_update["config-status"] = "configuring pre-scaling"
result, result_detail = await self._ns_execute_primitive(nsr_lcm, vnf_index,
vnf_config_primitive, primitive_params)
self.logger.debug(logging_text + "vnf_config_primitive={} Done with result {} {}".format(
vnf_config_primitive, result, result_detail))
if result == "FAILED":
raise LcmException(result_detail)
db_nsr_update["config-status"] = old_config_status
scale_process = None
if RO_scaling_info:
scale_process = "RO"
RO = ROclient.ROClient(self.loop, **self.ro_config)
RO_desc = await RO.create_action("ns", RO_nsr_id, {"vdu-scaling": RO_scaling_info})
db_nsr_update["_admin.scaling-group.{}.nb-scale-op".format(admin_scale_index)] = nb_scale_op
db_nsr_update["_admin.scaling-group.{}.time".format(admin_scale_index)] = time()
# wait until ready
RO_nslcmop_id = RO_desc["instance_action_id"]
db_nslcmop_update["_admin.deploy.RO"] = RO_nslcmop_id
RO_task_done = False
step = detailed_status = "Waiting RO_task_id={} to complete the scale action.".format(RO_nslcmop_id)
detailed_status_old = None
self.logger.debug(logging_text + step)
deployment_timeout = 1 * 3600 # One hour
while deployment_timeout > 0:
if not RO_task_done:
desc = await RO.show("ns", item_id_name=RO_nsr_id, extra_item="action",
extra_item_id=RO_nslcmop_id)
ns_status, ns_status_info = RO.check_action_status(desc)
if ns_status == "ERROR":
raise ROclient.ROClientException(ns_status_info)
elif ns_status == "BUILD":
detailed_status = step + "; {}".format(ns_status_info)
elif ns_status == "ACTIVE":
RO_task_done = True
step = detailed_status = "Waiting ns ready at RO. RO_id={}".format(RO_nsr_id)
self.logger.debug(logging_text + step)
else:
assert False, "ROclient.check_action_status returns unknown {}".format(ns_status)
else:
desc = await RO.show("ns", RO_nsr_id)
ns_status, ns_status_info = RO.check_ns_status(desc)
if ns_status == "ERROR":
raise ROclient.ROClientException(ns_status_info)
elif ns_status == "BUILD":
detailed_status = step + "; {}".format(ns_status_info)
elif ns_status == "ACTIVE":
step = detailed_status = "Waiting for management IP address reported by the VIM"
try:
desc = await RO.show("ns", RO_nsr_id)
nsr_lcm["nsr_ip"] = RO.get_ns_vnf_info(desc)
break
except ROclient.ROClientException as e:
if e.http_code != 409: # IP address is not ready return code is 409 CONFLICT
raise e
else:
assert False, "ROclient.check_ns_status returns unknown {}".format(ns_status)
if detailed_status != detailed_status_old:
detailed_status_old = db_nslcmop_update["detailed-status"] = detailed_status
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
await asyncio.sleep(5, loop=self.loop)
deployment_timeout -= 5
if deployment_timeout <= 0:
raise ROclient.ROClientException("Timeout waiting ns to be ready")
step = "Updating VNFRs"
self.ns_update_vnfr({db_vnfr["member-vnf-index-ref"]: db_vnfr}, desc)
# update VDU_SCALING_INFO with the obtained ip_addresses
if vdu_scaling_info["scaling_direction"] == "OUT":
for vdur in reversed(db_vnfr["vdur"]):
if vdu_scaling_info["vdu-create"].get(vdur["vdu-id-ref"]):
vdu_scaling_info["vdu-create"][vdur["vdu-id-ref"]] -= 1
vdu_scaling_info["vdu"].append({
"name": vdur["name"],
"vdu_id": vdur["vdu-id-ref"],
"interface": []
})
for interface in vdur["interfaces"]:
vdu_scaling_info["vdu"][-1]["interface"].append({
"name": interface["name"],
"ip_address": interface["ip-address"],
"mac_address": interface.get("mac-address"),
})
del vdu_scaling_info["vdu-create"]
scale_process = None
if db_nsr_update:
self.update_db_2("nsrs", nsr_id, db_nsr_update)
# execute primitive service POST-SCALING
step = "Executing post-scale vnf-config-primitive"
if scaling_descriptor.get("scaling-config-action"):
for scaling_config_action in scaling_descriptor["scaling-config-action"]:
if scaling_config_action.get("trigger") and scaling_config_action["trigger"] == "post-scale-out" \
and scaling_type == "SCALE_OUT":
vnf_config_primitive = scaling_config_action["vnf-config-primitive-name-ref"]
step = db_nslcmop_update["detailed-status"] = \
"executing post-scale scaling-config-action '{}'".format(vnf_config_primitive)
# look for primitive
primitive_params = {}
for config_primitive in db_vnfd.get("vnf-configuration", {}).get("config-primitive", ()):
if config_primitive["name"] == vnf_config_primitive:
for parameter in config_primitive.get("parameter", ()):
if 'default-value' in parameter and \
parameter['default-value'] == "<VDU_SCALE_INFO>":
primitive_params[parameter["name"]] = yaml.safe_dump(vdu_scaling_info,
default_flow_style=True,
width=256)
break
else:
raise LcmException("Invalid vnfd descriptor at scaling-group-descriptor[name='{}']:"
"scaling-config-action[vnf-config-primitive-name-ref='{}'] does not "
"match any vnf-configuration:config-primitive".format(scaling_group,
config_primitive))
scale_process = "VCA"
db_nsr_update["config-status"] = "configuring post-scaling"
result, result_detail = await self._ns_execute_primitive(nsr_lcm, vnf_index,
vnf_config_primitive, primitive_params)
self.logger.debug(logging_text + "vnf_config_primitive={} Done with result {} {}".format(
vnf_config_primitive, result, result_detail))
if result == "FAILED":
raise LcmException(result_detail)
db_nsr_update["config-status"] = old_config_status
scale_process = None
db_nslcmop_update["operationState"] = nslcmop_operation_state = "COMPLETED"
db_nslcmop_update["statusEnteredTime"] = time()
db_nslcmop_update["detailed-status"] = "done"
db_nsr_update["detailed-status"] = "" # "scaled {} {}".format(scaling_group, scaling_type)
db_nsr_update["operational-status"] = old_operational_status
db_nsr_update["config-status"] = old_config_status
return
except (ROclient.ROClientException, DbException, LcmException) as e:
self.logger.error(logging_text + "Exit Exception {}".format(e))
exc = e
except asyncio.CancelledError:
self.logger.error(logging_text + "Cancelled Exception while '{}'".format(step))
exc = "Operation was cancelled"
except Exception as e:
exc = traceback.format_exc()
self.logger.critical(logging_text + "Exit Exception {} {}".format(type(e).__name__, e), exc_info=True)
finally:
if exc:
if db_nslcmop:
db_nslcmop_update["detailed-status"] = "FAILED {}: {}".format(step, exc)
db_nslcmop_update["operationState"] = nslcmop_operation_state = "FAILED"
db_nslcmop_update["statusEnteredTime"] = time()
if db_nsr:
db_nsr_update["operational-status"] = old_operational_status
db_nsr_update["config-status"] = old_config_status
db_nsr_update["detailed-status"] = ""
db_nsr_update["_admin.nslcmop"] = None
if scale_process:
if "VCA" in scale_process:
db_nsr_update["config-status"] = "failed"
if "RO" in scale_process:
db_nsr_update["operational-status"] = "failed"
db_nsr_update["detailed-status"] = "FAILED scaling nslcmop={} {}: {}".format(nslcmop_id, step,
exc)
if db_nslcmop_update:
self.update_db_2("nslcmops", nslcmop_id, db_nslcmop_update)
if db_nsr:
db_nsr_update["_admin.nslcmop"] = None
self.update_db_2("nsrs", nsr_id, db_nsr_update)
if nslcmop_operation_state:
try:
await self.msg.aiowrite("ns", "scaled", {"nsr_id": nsr_id, "nslcmop_id": nslcmop_id,
"operationState": nslcmop_operation_state})
# if cooldown_time:
# await asyncio.sleep(cooldown_time)
# await self.msg.aiowrite("ns","scaled-cooldown-time", {"nsr_id": nsr_id, "nslcmop_id": nslcmop_id})
except Exception as e:
self.logger.error(logging_text + "kafka_write notification Exception {}".format(e))
self.logger.debug(logging_text + "Exit")
self.lcm_tasks.remove("ns", nsr_id, nslcmop_id, "ns_scale")