from n2vc.n2vc_conn import N2VCConnector
from n2vc.k8s_helm_conn import K8sHelmConnector
from n2vc.k8s_helm3_conn import K8sHelm3Connector
-from n2vc.exceptions import N2VCBadArgumentsException, N2VCException, N2VCExecutionException
+from n2vc.exceptions import (
+ N2VCBadArgumentsException,
+ N2VCException,
+ N2VCExecutionException,
+)
from osm_lcm.lcm_utils import deep_get
def retryer(max_wait_time_var="_initial_retry_time", delay_time_var="_retry_delay"):
def wrapper(func):
- retry_exceptions = (
- ConnectionRefusedError
- )
+ retry_exceptions = ConnectionRefusedError
@functools.wraps(func)
async def wrapped(*args, **kwargs):
continue
else:
return ConnectionRefusedError
+
return wrapped
+
return wrapper
# Time beetween retries, retry time after a connection error is raised
_EE_RETRY_DELAY = 10
- def __init__(self,
- log: object = None,
- loop: object = None,
- vca_config: dict = None,
- on_update_db=None, ):
+ def __init__(
+ self,
+ log: object = None,
+ loop: object = None,
+ vca_config: dict = None,
+ on_update_db=None,
+ ):
"""
Initialize EE helm connector.
"""
# parent class constructor
N2VCConnector.__init__(
- self,
- log=log,
- loop=loop,
- on_update_db=on_update_db,
- db=self.db,
- fs=self.fs
+ self, log=log, loop=loop, on_update_db=on_update_db, db=self.db, fs=self.fs
)
self.vca_config = vca_config
self.log.debug("Initial retry time: {}".format(self._initial_retry_time))
else:
self._initial_retry_time = self._MAX_INITIAL_RETRY_TIME
- self.log.debug("Applied default retry time: {}".format(self._initial_retry_time))
+ self.log.debug(
+ "Applied default retry time: {}".format(self._initial_retry_time)
+ )
if self.vca_config and self.vca_config.get("eegrpctimeout"):
self._max_retry_time = self.vca_config.get("eegrpctimeout")
self.log.debug("Retry time: {}".format(self._max_retry_time))
else:
self._max_retry_time = self._MAX_RETRY_TIME
- self.log.debug("Applied default retry time: {}".format(self._max_retry_time))
+ self.log.debug(
+ "Applied default retry time: {}".format(self._max_retry_time)
+ )
# initialize helm connector for helmv2 and helmv3
self._k8sclusterhelm2 = K8sHelmConnector(
self.log.info("Helm N2VC connector initialized")
# TODO - ¿reuse_ee_id?
- async def create_execution_environment(self,
- namespace: str,
- db_dict: dict,
- reuse_ee_id: str = None,
- progress_timeout: float = None,
- total_timeout: float = None,
- config: dict = None,
- artifact_path: str = None,
- vca_type: str = None,
- *kargs, **kwargs) -> (str, dict):
+ async def create_execution_environment(
+ self,
+ namespace: str,
+ db_dict: dict,
+ reuse_ee_id: str = None,
+ progress_timeout: float = None,
+ total_timeout: float = None,
+ config: dict = None,
+ artifact_path: str = None,
+ vca_type: str = None,
+ *kargs,
+ **kwargs,
+ ) -> (str, dict):
"""
Creates a new helm execution environment deploying the helm-chat indicated in the
attifact_path
self.log.info(
"create_execution_environment: namespace: {}, artifact_path: {}, db_dict: {}, "
- "reuse_ee_id: {}".format(
- namespace, artifact_path, db_dict, reuse_ee_id)
+ "reuse_ee_id: {}".format(namespace, artifact_path, db_dict, reuse_ee_id)
)
# Validate artifact-path is provided
db_dict=db_dict,
kdu_model=full_path,
)
- await self._k8sclusterhelm2.install(system_cluster_uuid, kdu_model=full_path,
- kdu_instance=helm_id,
- namespace=self._KUBECTL_OSM_NAMESPACE,
- params=config,
- db_dict=db_dict,
- timeout=progress_timeout)
+ await self._k8sclusterhelm2.install(
+ system_cluster_uuid,
+ kdu_model=full_path,
+ kdu_instance=helm_id,
+ namespace=self._KUBECTL_OSM_NAMESPACE,
+ params=config,
+ db_dict=db_dict,
+ timeout=progress_timeout,
+ )
else:
helm_id = self._k8sclusterhelm2.generate_kdu_instance_name(
db_dict=db_dict,
kdu_model=full_path,
)
- await self._k8sclusterhelm3.install(system_cluster_uuid, kdu_model=full_path,
- kdu_instance=helm_id,
- namespace=self._KUBECTL_OSM_NAMESPACE,
- params=config,
- db_dict=db_dict,
- timeout=progress_timeout)
+ await self._k8sclusterhelm3.install(
+ system_cluster_uuid,
+ kdu_model=full_path,
+ kdu_instance=helm_id,
+ namespace=self._KUBECTL_OSM_NAMESPACE,
+ params=config,
+ db_dict=db_dict,
+ timeout=progress_timeout,
+ )
ee_id = "{}:{}.{}".format(vca_type, self._KUBECTL_OSM_NAMESPACE, helm_id)
return ee_id, None
self.log.error("Error deploying chart ee: {}".format(e), exc_info=True)
raise N2VCException("Error deploying chart ee: {}".format(e))
- async def register_execution_environment(self, namespace: str, credentials: dict, db_dict: dict,
- progress_timeout: float = None, total_timeout: float = None,
- *kargs, **kwargs) -> str:
+ async def register_execution_environment(
+ self,
+ namespace: str,
+ credentials: dict,
+ db_dict: dict,
+ progress_timeout: float = None,
+ total_timeout: float = None,
+ *kargs,
+ **kwargs,
+ ) -> str:
# nothing to do
pass
# not used for this connector
pass
+ async def upgrade_charm(self, *args, **kwargs):
+ # not used for this connector
+ pass
+
async def get_ee_ssh_public__key(
self,
ee_id: str,
"""
self.log.info(
- "get_ee_ssh_public_key: ee_id: {}, db_dict: {}".format(
- ee_id, db_dict)
+ "get_ee_ssh_public_key: ee_id: {}, db_dict: {}".format(ee_id, db_dict)
)
# check arguments
self.log.error("Error obtaining ee ssh_key: {}".format(e), exc_info=True)
raise N2VCException("Error obtaining ee ssh_ke: {}".format(e))
+ async def upgrade_charm(
+ self,
+ ee_id: str = None,
+ path: str = None,
+ charm_id: str = None,
+ charm_type: str = None,
+ timeout: float = None,
+ ) -> str:
+ """This method upgrade charms in VNFs
+
+ This method does not support KDU's deployed with Helm.
+
+ Args:
+ ee_id: Execution environment id
+ path: Local path to the charm
+ charm_id: charm-id
+ charm_type: Charm type can be lxc-proxy-charm, native-charm or k8s-proxy-charm
+ timeout: (Float) Timeout for the ns update operation
+
+ Returns:
+ the output of the update operation if status equals to "completed"
+
+ """
+ raise N2VCException("KDUs deployed with Helm do not support charm upgrade")
+
async def exec_primitive(
- self,
- ee_id: str,
- primitive_name: str,
- params_dict: dict,
- db_dict: dict = None,
- progress_timeout: float = None,
- total_timeout: float = None,
- **kwargs,
+ self,
+ ee_id: str,
+ primitive_name: str,
+ params_dict: dict,
+ db_dict: dict = None,
+ progress_timeout: float = None,
+ total_timeout: float = None,
+ **kwargs,
) -> str:
"""
Execute a primitive in the execution environment
:returns str: primitive result, if ok. It raises exceptions in case of fail
"""
- self.log.info("exec primitive for ee_id : {}, primitive_name: {}, params_dict: {}, db_dict: {}".format(
- ee_id, primitive_name, params_dict, db_dict
- ))
+ self.log.info(
+ "exec primitive for ee_id : {}, primitive_name: {}, params_dict: {}, db_dict: {}".format(
+ ee_id, primitive_name, params_dict, db_dict
+ )
+ )
# check arguments
if ee_id is None or len(ee_id) == 0:
if primitive_name == "config":
try:
# Execute config primitive, higher timeout to check the case ee is starting
- status, detailed_message = await self._execute_config_primitive(ip_addr, params_dict, db_dict=db_dict)
- self.log.debug("Executed config primitive ee_id_ {}, status: {}, message: {}".format(
- ee_id, status, detailed_message))
+ status, detailed_message = await self._execute_config_primitive(
+ ip_addr, params_dict, db_dict=db_dict
+ )
+ self.log.debug(
+ "Executed config primitive ee_id_ {}, status: {}, message: {}".format(
+ ee_id, status, detailed_message
+ )
+ )
if status != "OK":
- self.log.error("Error configuring helm ee, status: {}, message: {}".format(
- status, detailed_message))
+ self.log.error(
+ "Error configuring helm ee, status: {}, message: {}".format(
+ status, detailed_message
+ )
+ )
raise N2VCExecutionException(
message="Error configuring helm ee_id: {}, status: {}, message: {}: ".format(
ee_id, status, detailed_message
except Exception as e:
self.log.error("Error configuring helm ee: {}".format(e))
raise N2VCExecutionException(
- message="Error configuring helm ee_id: {}, {}".format(
- ee_id, e
- ),
+ message="Error configuring helm ee_id: {}, {}".format(ee_id, e),
primitive_name=primitive_name,
)
return "CONFIG OK"
else:
try:
# Execute primitive
- status, detailed_message = await self._execute_primitive(ip_addr, primitive_name,
- params_dict, db_dict=db_dict)
- self.log.debug("Executed primitive {} ee_id_ {}, status: {}, message: {}".format(
- primitive_name, ee_id, status, detailed_message))
+ status, detailed_message = await self._execute_primitive(
+ ip_addr, primitive_name, params_dict, db_dict=db_dict
+ )
+ self.log.debug(
+ "Executed primitive {} ee_id_ {}, status: {}, message: {}".format(
+ primitive_name, ee_id, status, detailed_message
+ )
+ )
if status != "OK" and status != "PROCESSING":
self.log.error(
"Execute primitive {} returned not ok status: {}, message: {}".format(
- primitive_name, status, detailed_message)
+ primitive_name, status, detailed_message
+ )
)
raise N2VCExecutionException(
message="Execute primitive {} returned not ok status: {}, message: {}".format(
except N2VCException:
raise
except Exception as e:
- self.log.error("Error deleting ee id: {}: {}".format(ee_id, e), exc_info=True)
+ self.log.error(
+ "Error deleting ee id: {}: {}".format(ee_id, e), exc_info=True
+ )
raise N2VCException("Error deleting ee id {}: {}".format(ee_id, e))
- async def delete_namespace(self, namespace: str, db_dict: dict = None, total_timeout: float = None):
+ async def delete_namespace(
+ self, namespace: str, db_dict: dict = None, total_timeout: float = None
+ ):
# method not implemented for this connector, execution environments must be deleted individually
pass
progress_timeout: float = None,
total_timeout: float = None,
config: dict = None,
- *kargs, **kwargs
+ *kargs,
+ **kwargs,
) -> str:
pass
@retryer(max_wait_time_var="_initial_retry_time", delay_time_var="_retry_delay")
async def _execute_config_primitive(self, ip_addr, params, db_dict=None):
- return await self._execute_primitive_internal(ip_addr, "config", params, db_dict=db_dict)
+ return await self._execute_primitive_internal(
+ ip_addr, "config", params, db_dict=db_dict
+ )
@retryer(max_wait_time_var="_max_retry_time", delay_time_var="_retry_delay")
async def _execute_primitive(self, ip_addr, primitive_name, params, db_dict=None):
- return await self._execute_primitive_internal(ip_addr, primitive_name, params, db_dict=db_dict)
+ return await self._execute_primitive_internal(
+ ip_addr, primitive_name, params, db_dict=db_dict
+ )
- async def _execute_primitive_internal(self, ip_addr, primitive_name, params, db_dict=None):
+ async def _execute_primitive_internal(
+ self, ip_addr, primitive_name, params, db_dict=None
+ ):
channel = Channel(ip_addr, self._ee_service_port)
try:
async with stub.RunPrimitive.open() as stream:
primitive_id = str(uuid.uuid1())
result = None
- self.log.debug("Execute primitive internal: id:{}, name:{}, params: {}".
- format(primitive_id, primitive_name, params))
+ self.log.debug(
+ "Execute primitive internal: id:{}, name:{}, params: {}".format(
+ primitive_id, primitive_name, params
+ )
+ )
await stream.send_message(
- PrimitiveRequest(id=primitive_id, name=primitive_name, params=yaml.dump(params)), end=True)
+ PrimitiveRequest(
+ id=primitive_id, name=primitive_name, params=yaml.dump(params)
+ ),
+ end=True,
+ )
async for reply in stream:
self.log.debug("Received reply: {}".format(reply))
result = reply
# If db_dict provided write notifs in database
if db_dict:
- self._write_op_detailed_status(db_dict, reply.status, reply.detailed_message)
+ self._write_op_detailed_status(
+ db_dict, reply.status, reply.detailed_message
+ )
if result:
return reply.status, reply.detailed_message
else:
async def _get_system_cluster_id(self):
if not self._system_cluster_id:
- db_k8cluster = self.db.get_one("k8sclusters", {"name": self._KUBECTL_OSM_CLUSTER_NAME})
+ db_k8cluster = self.db.get_one(
+ "k8sclusters", {"name": self._KUBECTL_OSM_CLUSTER_NAME}
+ )
k8s_hc_id = deep_get(db_k8cluster, ("_admin", "helm-chart-v3", "id"))
if not k8s_hc_id:
try:
# backward compatibility for existing clusters that have not been initialized for helm v3
cluster_id = db_k8cluster.get("_id")
k8s_credentials = yaml.safe_dump(db_k8cluster.get("credentials"))
- k8s_hc_id, uninstall_sw = await self._k8sclusterhelm3.init_env(k8s_credentials,
- reuse_cluster_uuid=cluster_id)
- db_k8scluster_update = {"_admin.helm-chart-v3.error_msg": None,
- "_admin.helm-chart-v3.id": k8s_hc_id,
- "_admin.helm-chart-v3}.created": uninstall_sw,
- "_admin.helm-chart-v3.operationalState": "ENABLED"}
+ k8s_hc_id, uninstall_sw = await self._k8sclusterhelm3.init_env(
+ k8s_credentials, reuse_cluster_uuid=cluster_id
+ )
+ db_k8scluster_update = {
+ "_admin.helm-chart-v3.error_msg": None,
+ "_admin.helm-chart-v3.id": k8s_hc_id,
+ "_admin.helm-chart-v3}.created": uninstall_sw,
+ "_admin.helm-chart-v3.operationalState": "ENABLED",
+ }
self.update_db_2("k8sclusters", cluster_id, db_k8scluster_update)
except Exception as e:
- self.log.error("error initializing helm-v3 cluster: {}".format(str(e)))
- raise N2VCException("K8s system cluster '{}' has not been initialized for helm-chart-v3".format(
- cluster_id))
+ self.log.error(
+ "error initializing helm-v3 cluster: {}".format(str(e))
+ )
+ raise N2VCException(
+ "K8s system cluster '{}' has not been initialized for helm-chart-v3".format(
+ cluster_id
+ )
+ )
self._system_cluster_id = k8s_hc_id
return self._system_cluster_id
namespace.helm_id for backward compatibility
If exists helm version can be helm-v3 or helm (helm-v2 old version)
"""
- version, _, part_id = ee_id.rpartition(':')
- namespace, _, helm_id = part_id.rpartition('.')
+ version, _, part_id = ee_id.rpartition(":")
+ namespace, _, helm_id = part_id.rpartition(".")
return version, namespace, helm_id