"source_ip": match["source_ip"],
"destination_ip": match["destination_ip"],
"source_port": match["source_port"],
- "destination_port": match["destination_port"]
+ "destination_port": match["destination_port"],
+ "logical_source_port": classifier["interface_id"]
}
db_vim_action = {
"instance_action_id": instance_action_id,
else:
netDict['net_id'] = "TASK-{}".format(net2task_id[sce_vnf['uuid']][iface['net_id']])
instance_net_id = vnf_net2instance[sce_vnf['uuid']][iface['net_id']]
+ instance_wim_net_id = None
task_depends_on.append(net2task_id[sce_vnf['uuid']][iface['net_id']])
# skip bridge ifaces not connected to any net
if 'net_id' not in netDict or netDict['net_id'] == None:
private_key = key.exportKey(passphrase=tenant_id, pkcs=8)
except (ValueError, NameError) as e:
raise NfvoException("Unable to create private key: {}".format(e), httperrors.Internal_Server_Error)
+ if isinstance(public_key, bytes):
+ public_key = public_key.decode(encoding='UTF-8')
+ if isinstance(private_key, bytes):
+ private_key = private_key.decode(encoding='UTF-8')
return public_key, private_key
def decrypt_key (key, tenant_id):
unencrypted_key = key.exportKey('PEM')
if isinstance(unencrypted_key, ValueError):
raise NfvoException("Unable to decrypt the private key: {}".format(unencrypted_key), httperrors.Internal_Server_Error)
+ if isinstance(unencrypted_key, bytes):
+ unencrypted_key = unencrypted_key.decode(encoding='UTF-8')
except ValueError as e:
raise NfvoException("Unable to decrypt the private key: {}".format(e), httperrors.Internal_Server_Error)
return unencrypted_key