import asyncio
from collections import OrderedDict
+from time import time
+from osm_lcm.data_utils.database.database import Database
+from osm_lcm.data_utils.filesystem.filesystem import Filesystem
+
# from osm_common.dbbase import DbException
__author__ = "Alfonso Tierno"
"""
filled = []
for point in v.split("."):
- filled.append(point.zfill(16))
+ point, _, _ = point.partition("+")
+ point, _, _ = point.partition("-")
+ filled.append(point.zfill(20))
return tuple(filled)
-# LcmBase must be listed before TaskRegistry, as it is a dependency.
-class LcmBase:
+def deep_get(target_dict, key_list, default_value=None):
+ """
+ Get a value from target_dict entering in the nested keys. If keys does not exist, it returns None
+ Example target_dict={a: {b: 5}}; key_list=[a,b] returns 5; both key_list=[a,b,c] and key_list=[f,h] return None
+ :param target_dict: dictionary to be read
+ :param key_list: list of keys to read from target_dict
+ :param default_value: value to return if key is not present in the nested dictionary
+ :return: The wanted value if exist, None otherwise
+ """
+ for key in key_list:
+ if not isinstance(target_dict, dict) or key not in target_dict:
+ return default_value
+ target_dict = target_dict[key]
+ return target_dict
+
+
+def get_iterable(in_dict, in_key):
+ """
+ Similar to <dict>.get(), but if value is None, False, ..., An empty tuple is returned instead
+ :param in_dict: a dictionary
+ :param in_key: the key to look for at in_dict
+ :return: in_dict[in_var] or () if it is None or not present
+ """
+ if not in_dict.get(in_key):
+ return ()
+ return in_dict[in_key]
- def __init__(self, db, msg, fs, logger):
+
+def populate_dict(target_dict, key_list, value):
+ """
+ Update target_dict creating nested dictionaries with the key_list. Last key_list item is asigned the value.
+ Example target_dict={K: J}; key_list=[a,b,c]; target_dict will be {K: J, a: {b: {c: value}}}
+ :param target_dict: dictionary to be changed
+ :param key_list: list of keys to insert at target_dict
+ :param value:
+ :return: None
+ """
+ for key in key_list[0:-1]:
+ if key not in target_dict:
+ target_dict[key] = {}
+ target_dict = target_dict[key]
+ target_dict[key_list[-1]] = value
+
+
+class LcmBase:
+ def __init__(self, msg, logger):
"""
:param db: database connection
"""
- self.db = db
+ self.db = Database().instance.db
self.msg = msg
- self.fs = fs
+ self.fs = Filesystem().instance.fs
self.logger = logger
def update_db_2(self, item, _id, _desc):
"""
if not _desc:
return
+ now = time()
+ _desc["_admin.modified"] = now
self.db.set_one(item, {"_id": _id}, _desc)
_desc.clear()
# except DbException as e:
- worker: the worker ID for this process
"""
- instance_id_label_dict = {'ns': 'nsInstanceId', 'nsi': 'netsliceInstanceId'}
-
- def __init__(self, worker_id=None, db=None, logger=None):
+ # NS/NSI: "services" VIM/WIM/SDN: "accounts"
+ topic_service_list = ["ns", "nsi"]
+ topic_account_list = ["vim", "wim", "sdn", "k8scluster", "vca", "k8srepo"]
+
+ # Map topic to InstanceID
+ topic2instid_dict = {"ns": "nsInstanceId", "nsi": "netsliceInstanceId"}
+
+ # Map topic to DB table name
+ topic2dbtable_dict = {
+ "ns": "nslcmops",
+ "nsi": "nsilcmops",
+ "vim": "vim_accounts",
+ "wim": "wim_accounts",
+ "sdn": "sdns",
+ "k8scluster": "k8sclusters",
+ "vca": "vca",
+ "k8srepo": "k8srepos",
+ }
+
+ def __init__(self, worker_id=None, logger=None):
self.task_registry = {
"ns": {},
"nsi": {},
"vim_account": {},
"wim_account": {},
"sdn": {},
+ "k8scluster": {},
+ "vca": {},
+ "k8srepo": {},
}
self.worker_id = worker_id
- self.db = db
+ self.db = Database().instance.db
self.logger = logger
def register(self, topic, _id, op_id, task_name, task):
# if result:
# self.logger.debug("{} _id={} order_id={} task={} cancelled".format(topic, _id, op_id, task_name))
+ # Is topic NS/NSI?
+ def _is_service_type_HA(self, topic):
+ return topic in self.topic_service_list
+
+ # Is topic VIM/WIM/SDN?
+ def _is_account_type_HA(self, topic):
+ return topic in self.topic_account_list
+
+ # Input: op_id, example: 'abc123def:3' Output: account_id='abc123def', op_index=3
+ def _get_account_and_op_HA(self, op_id):
+ if not op_id:
+ return None, None
+ account_id, _, op_index = op_id.rpartition(":")
+ if not account_id or not op_index.isdigit():
+ return None, None
+ return account_id, op_index
+
+ # Get '_id' for any topic and operation
+ def _get_instance_id_HA(self, topic, op_type, op_id):
+ _id = None
+ # Special operation 'ANY', for SDN account associated to a VIM account: op_id as '_id'
+ if op_type == "ANY":
+ _id = op_id
+ # NS/NSI: Use op_id as '_id'
+ elif self._is_service_type_HA(topic):
+ _id = op_id
+ # VIM/SDN/WIM/K8SCLUSTER: Split op_id to get Account ID and Operation Index, use Account ID as '_id'
+ elif self._is_account_type_HA(topic):
+ _id, _ = self._get_account_and_op_HA(op_id)
+ return _id
+
+ # Set DB _filter for querying any related process state
+ def _get_waitfor_filter_HA(self, db_lcmop, topic, op_type, op_id):
+ _filter = {}
+ # Special operation 'ANY', for SDN account associated to a VIM account: op_id as '_id'
+ # In this special case, the timestamp is ignored
+ if op_type == "ANY":
+ _filter = {"operationState": "PROCESSING"}
+ # Otherwise, get 'startTime' timestamp for this operation
+ else:
+ # NS/NSI
+ if self._is_service_type_HA(topic):
+ now = time()
+ starttime_this_op = db_lcmop.get("startTime")
+ instance_id_label = self.topic2instid_dict.get(topic)
+ instance_id = db_lcmop.get(instance_id_label)
+ _filter = {
+ instance_id_label: instance_id,
+ "operationState": "PROCESSING",
+ "startTime.lt": starttime_this_op,
+ "_admin.modified.gt": now
+ - 2 * 3600, # ignore if tow hours of inactivity
+ }
+ # VIM/WIM/SDN/K8scluster
+ elif self._is_account_type_HA(topic):
+ _, op_index = self._get_account_and_op_HA(op_id)
+ _ops = db_lcmop["_admin"]["operations"]
+ _this_op = _ops[int(op_index)]
+ starttime_this_op = _this_op.get("startTime", None)
+ _filter = {
+ "operationState": "PROCESSING",
+ "startTime.lt": starttime_this_op,
+ }
+ return _filter
+
+ # Get DB params for any topic and operation
+ def _get_dbparams_for_lock_HA(self, topic, op_type, op_id):
+ q_filter = {}
+ update_dict = {}
+ # NS/NSI
+ if self._is_service_type_HA(topic):
+ q_filter = {"_id": op_id, "_admin.worker": None}
+ update_dict = {"_admin.worker": self.worker_id}
+ # VIM/WIM/SDN
+ elif self._is_account_type_HA(topic):
+ account_id, op_index = self._get_account_and_op_HA(op_id)
+ if not account_id:
+ return None, None
+ if op_type == "create":
+ # Creating a VIM/WIM/SDN account implies setting '_admin.current_operation' = 0
+ op_index = 0
+ q_filter = {
+ "_id": account_id,
+ "_admin.operations.{}.worker".format(op_index): None,
+ }
+ update_dict = {
+ "_admin.operations.{}.worker".format(op_index): self.worker_id,
+ "_admin.current_operation": op_index,
+ }
+ return q_filter, update_dict
+
def lock_HA(self, topic, op_type, op_id):
"""
- Lock an task, if possible, to indicate to the HA system that
+ Lock a task, if possible, to indicate to the HA system that
the task will be executed in this LCM instance.
- :param topic: Can be "ns", "nsi"
- :param op_type: Operation type, can be "nslcmops", "nsilcmops"
- :param op_id: id of the operation of the related item
+ :param topic: Can be "ns", "nsi", "vim", "wim", or "sdn"
+ :param op_type: Operation type, can be "nslcmops", "nsilcmops", "create", "edit", "delete"
+ :param op_id: NS, NSI: Operation ID VIM,WIM,SDN: Account ID + ':' + Operation Index
:return:
- True=lock successful => execute the task (not registered by any other LCM instance)
+ True=lock was successful => execute the task (not registered by any other LCM instance)
False=lock failed => do NOT execute the task (already registered by another LCM instance)
+
+ HA tasks and backward compatibility:
+ If topic is "account type" (VIM/WIM/SDN) and op_id is None, 'op_id' was not provided by NBI.
+ This means that the running NBI instance does not support HA.
+ In such a case this method should always return True, to always execute
+ the task in this instance of LCM, without querying the DB.
"""
- db_lock_task = self.db.set_one(op_type,
- q_filter={'_id': op_id, '_admin.worker': None},
- update_dict={'_admin.worker': self.worker_id},
- fail_on_empty=False)
+ # Backward compatibility for VIM/WIM/SDN/k8scluster without op_id
+ if self._is_account_type_HA(topic) and op_id is None:
+ return True
+ # Try to lock this task
+ db_table_name = self.topic2dbtable_dict[topic]
+ q_filter, update_dict = self._get_dbparams_for_lock_HA(topic, op_type, op_id)
+ db_lock_task = self.db.set_one(
+ db_table_name,
+ q_filter=q_filter,
+ update_dict=update_dict,
+ fail_on_empty=False,
+ )
if db_lock_task is None:
- self.logger.debug("Task {} operation={} already locked by another worker".format(topic, op_id))
+ self.logger.debug(
+ "Task {} operation={} already locked by another worker".format(
+ topic, op_id
+ )
+ )
return False
else:
+ # Set 'detailed-status' to 'In progress' for VIM/WIM/SDN operations
+ if self._is_account_type_HA(topic):
+ detailed_status = "In progress"
+ account_id, op_index = self._get_account_and_op_HA(op_id)
+ q_filter = {"_id": account_id}
+ update_dict = {
+ "_admin.operations.{}.detailed-status".format(
+ op_index
+ ): detailed_status
+ }
+ self.db.set_one(
+ db_table_name,
+ q_filter=q_filter,
+ update_dict=update_dict,
+ fail_on_empty=False,
+ )
return True
+ def unlock_HA(self, topic, op_type, op_id, operationState, detailed_status):
+ """
+ Register a task, done when finished a VIM/WIM/SDN 'create' operation.
+ :param topic: Can be "vim", "wim", or "sdn"
+ :param op_type: Operation type, can be "create", "edit", "delete"
+ :param op_id: Account ID + ':' + Operation Index
+ :return: nothing
+ """
+
+ # Backward compatibility
+ if not self._is_account_type_HA(topic) or not op_id:
+ return
+
+ # Get Account ID and Operation Index
+ account_id, op_index = self._get_account_and_op_HA(op_id)
+ db_table_name = self.topic2dbtable_dict[topic]
+
+ # If this is a 'delete' operation, the account may have been deleted (SUCCESS) or may still exist (FAILED)
+ # If the account exist, register the HA task.
+ # Update DB for HA tasks
+ q_filter = {"_id": account_id}
+ update_dict = {
+ "_admin.operations.{}.operationState".format(op_index): operationState,
+ "_admin.operations.{}.detailed-status".format(op_index): detailed_status,
+ "_admin.operations.{}.worker".format(op_index): None,
+ "_admin.current_operation": None,
+ }
+ self.db.set_one(
+ db_table_name,
+ q_filter=q_filter,
+ update_dict=update_dict,
+ fail_on_empty=False,
+ )
+ return
+
async def waitfor_related_HA(self, topic, op_type, op_id=None):
"""
Wait for any pending related HA tasks
"""
- # InstanceId label
- instance_id_label = self.instance_id_label_dict.get(topic)
+ # Backward compatibility
+ if not (
+ self._is_service_type_HA(topic) or self._is_account_type_HA(topic)
+ ) and (op_id is None):
+ return
+
+ # Get DB table name
+ db_table_name = self.topic2dbtable_dict.get(topic)
- # Get 'startTime' timestamp for this operation
- step = "Getting timestamp for op_id={} from db".format(op_id)
- db_lcmop = self.db.get_one(op_type,
- {"_id": op_id},
- fail_on_empty=False)
+ # Get instance ID
+ _id = self._get_instance_id_HA(topic, op_type, op_id)
+ _filter = {"_id": _id}
+ db_lcmop = self.db.get_one(db_table_name, _filter, fail_on_empty=False)
if not db_lcmop:
return
- starttime_this_op = db_lcmop.get("startTime")
- instance_id = db_lcmop.get(instance_id_label)
+
+ # Set DB _filter for querying any related process state
+ _filter = self._get_waitfor_filter_HA(db_lcmop, topic, op_type, op_id)
# For HA, get list of tasks from DB instead of from dictionary (in-memory) variable.
- timeout_wait_for_task = 3600 # Max time (seconds) to wait for a related task to finish
+ timeout_wait_for_task = (
+ 3600 # Max time (seconds) to wait for a related task to finish
+ )
# interval_wait_for_task = 30 # A too long polling interval slows things down considerably
- interval_wait_for_task = 10 # Interval in seconds for polling related tasks
+ interval_wait_for_task = 10 # Interval in seconds for polling related tasks
time_left = timeout_wait_for_task
old_num_related_tasks = 0
while True:
- # Get related tasks (operations within the same NS or NSI instance) which are
+ # Get related tasks (operations within the same instance as this) which are
# still running (operationState='PROCESSING') and which were started before this task.
- _filter = {instance_id_label: instance_id,
- 'operationState': 'PROCESSING',
- 'startTime.lt': starttime_this_op}
- db_waitfor_related_task = self.db.get_list(op_type,
- q_filter=_filter)
+ # In the case of op_type='ANY', get any related tasks with operationState='PROCESSING', ignore timestamps.
+ db_waitfor_related_task = self.db.get_list(db_table_name, q_filter=_filter)
new_num_related_tasks = len(db_waitfor_related_task)
+ # If there are no related tasks, there is nothing to wait for, so return.
if not new_num_related_tasks:
- # There are no related tasks, no need to wait, so return.
return
# If number of pending related tasks have changed,
# update the 'detailed-status' field and log the change.
- if new_num_related_tasks != old_num_related_tasks:
- db_lcmops_update = {}
- step = db_lcmops_update["detailed-status"] = \
- "Waiting for {} related tasks to be completed.".format(
- new_num_related_tasks)
- self.logger.debug("Task {} operation={} {}".format(topic, op_id, step))
- self.update_db_2(op_type, op_id, db_lcmops_update)
+ # Do NOT update the 'detailed-status' for SDNC-associated-to-VIM operations ('ANY').
+ if (op_type != "ANY") and (new_num_related_tasks != old_num_related_tasks):
+ step = "Waiting for {} related tasks to be completed.".format(
+ new_num_related_tasks
+ )
+ update_dict = {}
+ q_filter = {"_id": _id}
+ # NS/NSI
+ if self._is_service_type_HA(topic):
+ update_dict = {
+ "detailed-status": step,
+ "queuePosition": new_num_related_tasks,
+ }
+ # VIM/WIM/SDN
+ elif self._is_account_type_HA(topic):
+ _, op_index = self._get_account_and_op_HA(op_id)
+ update_dict = {
+ "_admin.operations.{}.detailed-status".format(op_index): step
+ }
+ self.logger.debug("Task {} operation={} {}".format(topic, _id, step))
+ self.db.set_one(
+ db_table_name,
+ q_filter=q_filter,
+ update_dict=update_dict,
+ fail_on_empty=False,
+ )
old_num_related_tasks = new_num_related_tasks
time_left -= interval_wait_for_task
if time_left < 0:
raise LcmException(
"Timeout ({}) when waiting for related tasks to be completed".format(
- timeout_wait_for_task))
+ timeout_wait_for_task
+ )
+ )
await asyncio.sleep(interval_wait_for_task)
return