Removing deprecated/unused/outdated code
[osm/RO.git] / RO / osm_ro / nfvo_db.py
diff --git a/RO/osm_ro/nfvo_db.py b/RO/osm_ro/nfvo_db.py
deleted file mode 100644 (file)
index 9ae26c4..0000000
+++ /dev/null
@@ -1,1186 +0,0 @@
-# -*- coding: utf-8 -*-
-
-##
-# Copyright 2015 Telefonica Investigacion y Desarrollo, S.A.U.
-# This file is part of openmano
-# All Rights Reserved.
-#
-# Licensed under the Apache License, Version 2.0 (the "License"); you may
-# not use this file except in compliance with the License. You may obtain
-# a copy of the License at
-#
-#         http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
-# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
-# License for the specific language governing permissions and limitations
-# under the License.
-#
-# For those usages not covered by the Apache License, Version 2.0 please
-# contact with: nfvlabs@tid.es
-##
-
-"""
-NFVO DB engine. It implements all the methods to interact with the Openmano Database
-"""
-__author__="Alfonso Tierno, Gerardo Garcia, Pablo Montes"
-__date__ ="$28-aug-2014 10:05:01$"
-
-from osm_ro import db_base
-import MySQLdb as mdb
-import json
-import yaml
-import time
-#import sys, os
-
-from osm_ro.db_base import retry, with_transaction
-from osm_ro.http_tools import errors as httperrors
-from osm_ro.utils import Attempt
-
-
-_ATTEMPT = Attempt()
-
-
-tables_with_createdat_field=["datacenters","instance_nets","instance_scenarios","instance_vms","instance_vnfs",
-                           "interfaces","nets","nfvo_tenants","scenarios","sce_interfaces","sce_nets",
-                           "sce_vnfs","tenants_datacenters","datacenter_tenants","vms","vnfs", "datacenter_nets",
-                           "instance_actions", "sce_vnffgs", "sce_rsps", "sce_rsp_hops",
-                           "sce_classifiers", "sce_classifier_matches", "instance_sfis", "instance_sfs",
-                           "instance_classifications", "instance_sfps", "wims", "wim_accounts", "wim_nfvo_tenants",
-                           "wim_port_mappings", "vim_wim_actions", "instance_interfaces",
-                           "instance_wim_nets"]
-
-
-class nfvo_db(db_base.db_base):
-    def __init__(self, host=None, user=None, passwd=None, database=None,
-                 log_name='openmano.db', log_level=None, lock=None):
-        db_base.db_base.__init__(self, host, user, passwd, database,
-                                 log_name, log_level, lock)
-        db_base.db_base.tables_with_created_field=tables_with_createdat_field
-        return
-
-    @retry
-    @with_transaction
-    def new_vnf_as_a_whole(self,nfvo_tenant,vnf_name,vnf_descriptor,VNFCDict):
-        self.logger.debug("Adding new vnf to the NFVO database")
-        created_time = time.time()
-        myVNFDict = {}
-        myVNFDict["name"] = vnf_name
-        myVNFDict["descriptor"] = vnf_descriptor['vnf'].get('descriptor')
-        myVNFDict["public"] = vnf_descriptor['vnf'].get('public', "false")
-        myVNFDict["description"] = vnf_descriptor['vnf']['description']
-        myVNFDict["class"] = vnf_descriptor['vnf'].get('class',"MISC")
-        myVNFDict["tenant_id"] = vnf_descriptor['vnf'].get("tenant_id")
-
-        vnf_id = self._new_row_internal('vnfs', myVNFDict, add_uuid=True, root_uuid=None, created_time=created_time)
-        #print "Adding new vms to the NFVO database"
-        #For each vm, we must create the appropriate vm in the NFVO database.
-        vmDict = {}
-        for _,vm in VNFCDict.items():
-            #This code could make the name of the vms grow and grow.
-            #If we agree to follow this convention, we should check with a regex that the vnfc name is not including yet the vnf name
-            #vm['name'] = "%s-%s" % (vnf_name,vm['name'])
-            #print "VM name: %s. Description: %s" % (vm['name'], vm['description'])
-            vm["vnf_id"] = vnf_id
-            created_time += 0.00001
-            vm_id = self._new_row_internal('vms', vm, add_uuid=True, root_uuid=vnf_id, created_time=created_time)
-            #print "Internal vm id in NFVO DB: %s" % vm_id
-            vmDict[vm['name']] = vm_id
-
-        #Collect the bridge interfaces of each VM/VNFC under the 'bridge-ifaces' field
-        bridgeInterfacesDict = {}
-        for vm in vnf_descriptor['vnf']['VNFC']:
-            if 'bridge-ifaces' in  vm:
-                bridgeInterfacesDict[vm['name']] = {}
-                for bridgeiface in vm['bridge-ifaces']:
-                    created_time += 0.00001
-                    if 'port-security' in bridgeiface:
-                        bridgeiface['port_security'] = bridgeiface.pop('port-security')
-                    if 'floating-ip' in bridgeiface:
-                        bridgeiface['floating_ip'] = bridgeiface.pop('floating-ip')
-                    db_base._convert_bandwidth(bridgeiface, logger=self.logger)
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']] = {}
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']]['vpci'] = bridgeiface.get('vpci',None)
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']]['mac'] = bridgeiface.get('mac_address',None)
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']]['bw'] = bridgeiface.get('bandwidth', None)
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']]['model'] = bridgeiface.get('model', None)
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']]['port_security'] = \
-                        int(bridgeiface.get('port_security', True))
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']]['floating_ip'] = \
-                        int(bridgeiface.get('floating_ip', False))
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']]['created_time'] = created_time
-
-        # Collect the data interfaces of each VM/VNFC under the 'numas' field
-        dataifacesDict = {}
-        for vm in vnf_descriptor['vnf']['VNFC']:
-            dataifacesDict[vm['name']] = {}
-            for numa in vm.get('numas', []):
-                for dataiface in numa.get('interfaces', []):
-                    created_time += 0.00001
-                    db_base._convert_bandwidth(dataiface, logger=self.logger)
-                    dataifacesDict[vm['name']][dataiface['name']] = {}
-                    dataifacesDict[vm['name']][dataiface['name']]['vpci'] = dataiface.get('vpci')
-                    dataifacesDict[vm['name']][dataiface['name']]['bw'] = dataiface['bandwidth']
-                    dataifacesDict[vm['name']][dataiface['name']]['model'] = "PF" if dataiface[
-                                                                                            'dedicated'] == "yes" else (
-                    "VF" if dataiface['dedicated'] == "no" else "VFnotShared")
-                    dataifacesDict[vm['name']][dataiface['name']]['created_time'] = created_time
-
-        #For each internal connection, we add it to the interfaceDict and we  create the appropriate net in the NFVO database.
-        #print "Adding new nets (VNF internal nets) to the NFVO database (if any)"
-        internalconnList = []
-        if 'internal-connections' in vnf_descriptor['vnf']:
-            for net in vnf_descriptor['vnf']['internal-connections']:
-                #print "Net name: %s. Description: %s" % (net['name'], net['description'])
-
-                myNetDict = {}
-                myNetDict["name"] = net['name']
-                myNetDict["description"] = net['description']
-                myNetDict["type"] = net['type']
-                myNetDict["vnf_id"] = vnf_id
-
-                created_time += 0.00001
-                net_id = self._new_row_internal('nets', myNetDict, add_uuid=True, root_uuid=vnf_id, created_time=created_time)
-
-                for element in net['elements']:
-                    ifaceItem = {}
-                    #ifaceItem["internal_name"] = "%s-%s-%s" % (net['name'],element['VNFC'], element['local_iface_name'])
-                    ifaceItem["internal_name"] = element['local_iface_name']
-                    #ifaceItem["vm_id"] = vmDict["%s-%s" % (vnf_name,element['VNFC'])]
-                    ifaceItem["vm_id"] = vmDict[element['VNFC']]
-                    ifaceItem["net_id"] = net_id
-                    ifaceItem["type"] = net['type']
-                    if ifaceItem ["type"] == "data":
-                        dataiface = dataifacesDict[ element['VNFC'] ][ element['local_iface_name'] ]
-                        ifaceItem["vpci"] =  dataiface['vpci']
-                        ifaceItem["bw"] =    dataiface['bw']
-                        ifaceItem["model"] = dataiface['model']
-                        created_time_iface = dataiface['created_time']
-                    else:
-                        bridgeiface =  bridgeInterfacesDict[ element['VNFC'] ][ element['local_iface_name'] ]
-                        ifaceItem["vpci"]          = bridgeiface['vpci']
-                        ifaceItem["mac"]           = bridgeiface['mac']
-                        ifaceItem["bw"]            = bridgeiface['bw']
-                        ifaceItem["model"]         = bridgeiface['model']
-                        ifaceItem["port_security"] = bridgeiface['port_security']
-                        ifaceItem["floating_ip"]   = bridgeiface['floating_ip']
-                        created_time_iface = bridgeiface['created_time']
-                    internalconnList.append(ifaceItem)
-                #print "Internal net id in NFVO DB: %s" % net_id
-
-        #print "Adding internal interfaces to the NFVO database (if any)"
-        for iface in internalconnList:
-            #print "Iface name: %s" % iface['internal_name']
-            iface_id = self._new_row_internal('interfaces', iface, add_uuid=True, root_uuid=vnf_id, created_time = created_time_iface)
-            #print "Iface id in NFVO DB: %s" % iface_id
-
-        #print "Adding external interfaces to the NFVO database"
-        for iface in vnf_descriptor['vnf']['external-connections']:
-            myIfaceDict = {}
-            #myIfaceDict["internal_name"] = "%s-%s-%s" % (vnf_name,iface['VNFC'], iface['local_iface_name'])
-            myIfaceDict["internal_name"] = iface['local_iface_name']
-            #myIfaceDict["vm_id"] = vmDict["%s-%s" % (vnf_name,iface['VNFC'])]
-            myIfaceDict["vm_id"] = vmDict[iface['VNFC']]
-            myIfaceDict["external_name"] = iface['name']
-            myIfaceDict["type"] = iface['type']
-            if iface["type"] == "data":
-                dataiface = dataifacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]
-                myIfaceDict["vpci"]         = dataiface['vpci']
-                myIfaceDict["bw"]           = dataiface['bw']
-                myIfaceDict["model"]        = dataiface['model']
-                created_time_iface = dataiface['created_time']
-            else:
-                bridgeiface = bridgeInterfacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]
-                myIfaceDict["vpci"]         = bridgeiface['vpci']
-                myIfaceDict["bw"]           = bridgeiface['bw']
-                myIfaceDict["model"]        = bridgeiface['model']
-                myIfaceDict["mac"]          = bridgeiface['mac']
-                myIfaceDict["port_security"]= bridgeiface['port_security']
-                myIfaceDict["floating_ip"]  = bridgeiface['floating_ip']
-                created_time_iface = bridgeiface['created_time']
-            #print "Iface name: %s" % iface['name']
-            iface_id = self._new_row_internal('interfaces', myIfaceDict, add_uuid=True, root_uuid=vnf_id, created_time = created_time_iface)
-            #print "Iface id in NFVO DB: %s" % iface_id
-
-        return vnf_id
-
-    @retry
-    @with_transaction
-    def new_vnf_as_a_whole2(self,nfvo_tenant,vnf_name,vnf_descriptor,VNFCDict):
-        self.logger.debug("Adding new vnf to the NFVO database")
-        created_time = time.time()
-        myVNFDict = {}
-        myVNFDict["name"] = vnf_name
-        myVNFDict["descriptor"] = vnf_descriptor['vnf'].get('descriptor')
-        myVNFDict["public"] = vnf_descriptor['vnf'].get('public', "false")
-        myVNFDict["description"] = vnf_descriptor['vnf']['description']
-        myVNFDict["class"] = vnf_descriptor['vnf'].get('class',"MISC")
-        myVNFDict["tenant_id"] = vnf_descriptor['vnf'].get("tenant_id")
-
-        vnf_id = self._new_row_internal('vnfs', myVNFDict, add_uuid=True, root_uuid=None, created_time=created_time)
-        #print "Adding new vms to the NFVO database"
-        #For each vm, we must create the appropriate vm in the NFVO database.
-        vmDict = {}
-        for _,vm in VNFCDict.items():
-            #This code could make the name of the vms grow and grow.
-            #If we agree to follow this convention, we should check with a regex that the vnfc name is not including yet the vnf name
-            #vm['name'] = "%s-%s" % (vnf_name,vm['name'])
-            #print "VM name: %s. Description: %s" % (vm['name'], vm['description'])
-            vm["vnf_id"] = vnf_id
-            created_time += 0.00001
-            vm_id = self._new_row_internal('vms', vm, add_uuid=True, root_uuid=vnf_id, created_time=created_time)
-            #print "Internal vm id in NFVO DB: %s" % vm_id
-            vmDict[vm['name']] = vm_id
-
-        #Collect the bridge interfaces of each VM/VNFC under the 'bridge-ifaces' field
-        bridgeInterfacesDict = {}
-        for vm in vnf_descriptor['vnf']['VNFC']:
-            if 'bridge-ifaces' in  vm:
-                bridgeInterfacesDict[vm['name']] = {}
-                for bridgeiface in vm['bridge-ifaces']:
-                    created_time += 0.00001
-                    db_base._convert_bandwidth(bridgeiface, logger=self.logger)
-                    if 'port-security' in bridgeiface:
-                        bridgeiface['port_security'] = bridgeiface.pop('port-security')
-                    if 'floating-ip' in bridgeiface:
-                        bridgeiface['floating_ip'] = bridgeiface.pop('floating-ip')
-                    ifaceDict = {}
-                    ifaceDict['vpci'] = bridgeiface.get('vpci',None)
-                    ifaceDict['mac'] = bridgeiface.get('mac_address',None)
-                    ifaceDict['bw'] = bridgeiface.get('bandwidth', None)
-                    ifaceDict['model'] = bridgeiface.get('model', None)
-                    ifaceDict['port_security'] = int(bridgeiface.get('port_security', True))
-                    ifaceDict['floating_ip'] = int(bridgeiface.get('floating_ip', False))
-                    ifaceDict['created_time'] = created_time
-                    bridgeInterfacesDict[vm['name']][bridgeiface['name']] = ifaceDict
-
-        # Collect the data interfaces of each VM/VNFC under the 'numas' field
-        dataifacesDict = {}
-        for vm in vnf_descriptor['vnf']['VNFC']:
-            dataifacesDict[vm['name']] = {}
-            for numa in vm.get('numas', []):
-                for dataiface in numa.get('interfaces', []):
-                    created_time += 0.00001
-                    db_base._convert_bandwidth(dataiface, logger=self.logger)
-                    ifaceDict = {}
-                    ifaceDict['vpci'] = dataiface.get('vpci')
-                    ifaceDict['bw'] = dataiface['bandwidth']
-                    ifaceDict['model'] = "PF" if dataiface['dedicated'] == "yes" else \
-                        ("VF" if dataiface['dedicated'] == "no" else "VFnotShared")
-                    ifaceDict['created_time'] = created_time
-                    dataifacesDict[vm['name']][dataiface['name']] = ifaceDict
-
-        #For each internal connection, we add it to the interfaceDict and we  create the appropriate net in the NFVO database.
-        #print "Adding new nets (VNF internal nets) to the NFVO database (if any)"
-        if 'internal-connections' in vnf_descriptor['vnf']:
-            for net in vnf_descriptor['vnf']['internal-connections']:
-                #print "Net name: %s. Description: %s" % (net['name'], net['description'])
-
-                myNetDict = {}
-                myNetDict["name"] = net['name']
-                myNetDict["description"] = net['description']
-                if (net["implementation"] == "overlay"):
-                    net["type"] = "bridge"
-                    #It should give an error if the type is e-line. For the moment, we consider it as a bridge
-                elif (net["implementation"] == "underlay"):
-                    if (net["type"] == "e-line"):
-                        net["type"] = "ptp"
-                    elif (net["type"] == "e-lan"):
-                        net["type"] = "data"
-                net.pop("implementation")
-                myNetDict["type"] = net['type']
-                myNetDict["vnf_id"] = vnf_id
-
-                created_time += 0.00001
-                net_id = self._new_row_internal('nets', myNetDict, add_uuid=True, root_uuid=vnf_id, created_time=created_time)
-
-                if "ip-profile" in net:
-                    ip_profile = net["ip-profile"]
-                    myIPProfileDict = {}
-                    myIPProfileDict["net_id"] = net_id
-                    myIPProfileDict["ip_version"] = ip_profile.get('ip-version',"IPv4")
-                    myIPProfileDict["subnet_address"] = ip_profile.get('subnet-address',None)
-                    myIPProfileDict["gateway_address"] = ip_profile.get('gateway-address',None)
-                    myIPProfileDict["dns_address"] = ip_profile.get('dns-address',None)
-                    if ("dhcp" in ip_profile):
-                        myIPProfileDict["dhcp_enabled"] = ip_profile["dhcp"].get('enabled',"true")
-                        myIPProfileDict["dhcp_start_address"] = ip_profile["dhcp"].get('start-address',None)
-                        myIPProfileDict["dhcp_count"] = ip_profile["dhcp"].get('count',None)
-
-                    created_time += 0.00001
-                    ip_profile_id = self._new_row_internal('ip_profiles', myIPProfileDict)
-
-                for element in net['elements']:
-                    ifaceItem = {}
-                    #ifaceItem["internal_name"] = "%s-%s-%s" % (net['name'],element['VNFC'], element['local_iface_name'])
-                    ifaceItem["internal_name"] = element['local_iface_name']
-                    #ifaceItem["vm_id"] = vmDict["%s-%s" % (vnf_name,element['VNFC'])]
-                    ifaceItem["vm_id"] = vmDict[element['VNFC']]
-                    ifaceItem["net_id"] = net_id
-                    ifaceItem["type"] = net['type']
-                    ifaceItem["ip_address"] = element.get('ip_address',None)
-                    if ifaceItem ["type"] == "data":
-                        ifaceDict = dataifacesDict[ element['VNFC'] ][ element['local_iface_name'] ]
-                        ifaceItem["vpci"] =  ifaceDict['vpci']
-                        ifaceItem["bw"] =    ifaceDict['bw']
-                        ifaceItem["model"] = ifaceDict['model']
-                    else:
-                        ifaceDict = bridgeInterfacesDict[ element['VNFC'] ][ element['local_iface_name'] ]
-                        ifaceItem["vpci"] =  ifaceDict['vpci']
-                        ifaceItem["mac"] =  ifaceDict['mac']
-                        ifaceItem["bw"] =    ifaceDict['bw']
-                        ifaceItem["model"] = ifaceDict['model']
-                        ifaceItem["port_security"] = ifaceDict['port_security']
-                        ifaceItem["floating_ip"] = ifaceDict['floating_ip']
-                    created_time_iface = ifaceDict["created_time"]
-                    #print "Iface name: %s" % iface['internal_name']
-                    iface_id = self._new_row_internal('interfaces', ifaceItem, add_uuid=True, root_uuid=vnf_id, created_time=created_time_iface)
-                    #print "Iface id in NFVO DB: %s" % iface_id
-
-        #print "Adding external interfaces to the NFVO database"
-        for iface in vnf_descriptor['vnf']['external-connections']:
-            myIfaceDict = {}
-            #myIfaceDict["internal_name"] = "%s-%s-%s" % (vnf_name,iface['VNFC'], iface['local_iface_name'])
-            myIfaceDict["internal_name"] = iface['local_iface_name']
-            #myIfaceDict["vm_id"] = vmDict["%s-%s" % (vnf_name,iface['VNFC'])]
-            myIfaceDict["vm_id"] = vmDict[iface['VNFC']]
-            myIfaceDict["external_name"] = iface['name']
-            myIfaceDict["type"] = iface['type']
-            if iface["type"] == "data":
-                myIfaceDict["vpci"]  = dataifacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['vpci']
-                myIfaceDict["bw"]    = dataifacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['bw']
-                myIfaceDict["model"] = dataifacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['model']
-                created_time_iface = dataifacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['created_time']
-            else:
-                myIfaceDict["vpci"]  = bridgeInterfacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['vpci']
-                myIfaceDict["bw"]    = bridgeInterfacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['bw']
-                myIfaceDict["model"] = bridgeInterfacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['model']
-                myIfaceDict["mac"] = bridgeInterfacesDict[ iface['VNFC'] ][ iface['local_iface_name'] ]['mac']
-                myIfaceDict["port_security"] = \
-                    bridgeInterfacesDict[iface['VNFC']][iface['local_iface_name']]['port_security']
-                myIfaceDict["floating_ip"] = \
-                    bridgeInterfacesDict[iface['VNFC']][iface['local_iface_name']]['floating_ip']
-                created_time_iface = bridgeInterfacesDict[iface['VNFC']][iface['local_iface_name']]['created_time']
-            #print "Iface name: %s" % iface['name']
-            iface_id = self._new_row_internal('interfaces', myIfaceDict, add_uuid=True, root_uuid=vnf_id, created_time=created_time_iface)
-            #print "Iface id in NFVO DB: %s" % iface_id
-
-        return vnf_id
-
-#             except KeyError as e2:
-#                 exc_type, exc_obj, exc_tb = sys.exc_info()
-#                 fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1]
-#                 self.logger.debug("Exception type: %s; Filename: %s; Line number: %s", exc_type, fname, exc_tb.tb_lineno)
-#                 raise KeyError
-
-    @retry
-    @with_transaction
-    def new_scenario(self, scenario_dict):
-        created_time = time.time()
-        tenant_id = scenario_dict.get('tenant_id')
-        #scenario
-        INSERT_={'tenant_id': tenant_id,
-                    'name': scenario_dict['name'],
-                    'description': scenario_dict['description'],
-                    'public': scenario_dict.get('public', "false")}
-
-        scenario_uuid =  self._new_row_internal('scenarios', INSERT_, add_uuid=True, root_uuid=None, created_time=created_time)
-        #sce_nets
-        for net in scenario_dict['nets'].values():
-            net_dict={'scenario_id': scenario_uuid}
-            net_dict["name"] = net["name"]
-            net_dict["type"] = net["type"]
-            net_dict["description"] = net.get("description")
-            net_dict["external"] = net.get("external", False)
-            if "graph" in net:
-                #net["graph"]=yaml.safe_dump(net["graph"],default_flow_style=True,width=256)
-                #TODO, must be json because of the GUI, change to yaml
-                net_dict["graph"]=json.dumps(net["graph"])
-            created_time += 0.00001
-            net_uuid =  self._new_row_internal('sce_nets', net_dict, add_uuid=True, root_uuid=scenario_uuid, created_time=created_time)
-            net['uuid']=net_uuid
-
-            if net.get("ip-profile"):
-                ip_profile = net["ip-profile"]
-                myIPProfileDict = {
-                    "sce_net_id": net_uuid,
-                    "ip_version": ip_profile.get('ip-version', "IPv4"),
-                    "subnet_address": ip_profile.get('subnet-address'),
-                    "gateway_address": ip_profile.get('gateway-address'),
-                    "dns_address": ip_profile.get('dns-address')}
-                if "dhcp" in ip_profile:
-                    myIPProfileDict["dhcp_enabled"] = ip_profile["dhcp"].get('enabled', "true")
-                    myIPProfileDict["dhcp_start_address"] = ip_profile["dhcp"].get('start-address')
-                    myIPProfileDict["dhcp_count"] = ip_profile["dhcp"].get('count')
-                self._new_row_internal('ip_profiles', myIPProfileDict)
-
-        # sce_vnfs
-        for k, vnf in scenario_dict['vnfs'].items():
-            INSERT_ = {'scenario_id': scenario_uuid,
-                        'name': k,
-                        'vnf_id': vnf['uuid'],
-                        # 'description': scenario_dict['name']
-                        'description': vnf['description']}
-            if "graph" in vnf:
-                #I NSERT_["graph"]=yaml.safe_dump(vnf["graph"],default_flow_style=True,width=256)
-                # TODO, must be json because of the GUI, change to yaml
-                INSERT_["graph"] = json.dumps(vnf["graph"])
-            created_time += 0.00001
-            scn_vnf_uuid = self._new_row_internal('sce_vnfs', INSERT_, add_uuid=True,
-                                                    root_uuid=scenario_uuid, created_time=created_time)
-            vnf['scn_vnf_uuid']=scn_vnf_uuid
-            # sce_interfaces
-            for iface in vnf['ifaces'].values():
-                # print 'iface', iface
-                if 'net_key' not in iface:
-                    continue
-                iface['net_id'] = scenario_dict['nets'][ iface['net_key'] ]['uuid']
-                INSERT_={'sce_vnf_id': scn_vnf_uuid,
-                            'sce_net_id': iface['net_id'],
-                            'interface_id':  iface['uuid'],
-                            'ip_address': iface.get('ip_address')}
-                created_time += 0.00001
-                iface_uuid = self._new_row_internal('sce_interfaces', INSERT_, add_uuid=True,
-                                                        root_uuid=scenario_uuid, created_time=created_time)
-
-        return scenario_uuid
-
-    @retry
-    @with_transaction
-    def edit_scenario(self, scenario_dict):
-        modified_time = time.time()
-        item_changed=0
-        #check that scenario exist
-        tenant_id = scenario_dict.get('tenant_id')
-        scenario_uuid = scenario_dict['uuid']
-
-        where_text = "uuid='{}'".format(scenario_uuid)
-        if not tenant_id and tenant_id != "any":
-            where_text += " AND (tenant_id='{}' OR public='True')".format(tenant_id)
-        cmd = "SELECT * FROM scenarios WHERE "+ where_text
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        self.cur.fetchall()
-        if self.cur.rowcount==0:
-            raise db_base.db_base_Exception("No scenario found with this criteria " + where_text, httperrors.Bad_Request)
-        elif self.cur.rowcount>1:
-            raise db_base.db_base_Exception("More than one scenario found with this criteria " + where_text, httperrors.Bad_Request)
-
-        #scenario
-        nodes = {}
-        topology = scenario_dict.pop("topology", None)
-        if topology != None and "nodes" in topology:
-            nodes = topology.get("nodes",{})
-        UPDATE_ = {}
-        if "name" in scenario_dict:        UPDATE_["name"] = scenario_dict["name"]
-        if "description" in scenario_dict: UPDATE_["description"] = scenario_dict["description"]
-        if len(UPDATE_)>0:
-            WHERE_={'tenant_id': tenant_id, 'uuid': scenario_uuid}
-            item_changed += self._update_rows('scenarios', UPDATE_, WHERE_, modified_time=modified_time)
-        #sce_nets
-        for node_id, node in nodes.items():
-            if "graph" in node:
-                #node["graph"] = yaml.safe_dump(node["graph"],default_flow_style=True,width=256)
-                #TODO, must be json because of the GUI, change to yaml
-                node["graph"] = json.dumps(node["graph"])
-            WHERE_={'scenario_id': scenario_uuid, 'uuid': node_id}
-            #Try to change at sce_nets(version 0 API backward compatibility and sce_vnfs)
-            item_changed += self._update_rows('sce_nets', node, WHERE_)
-            item_changed += self._update_rows('sce_vnfs', node, WHERE_, modified_time=modified_time)
-        return item_changed
-
-#     def get_instance_scenario(self, instance_scenario_id, tenant_id=None):
-#         '''Obtain the scenario instance information, filtering by one or several of the tenant, uuid or name
-#         instance_scenario_id is the uuid or the name if it is not a valid uuid format
-#         Only one scenario isntance must mutch the filtering or an error is returned
-#         '''
-#         print "1******************************************************************"
-#         try:
-#             with self.transaction(mdb.cursors.DictCursor):
-#                 #scenario table
-#                 where_list=[]
-#                 if tenant_id is not None: where_list.append( "tenant_id='" + tenant_id +"'" )
-#                 if db_base._check_valid_uuid(instance_scenario_id):
-#                     where_list.append( "uuid='" + instance_scenario_id +"'" )
-#                 else:
-#                     where_list.append( "name='" + instance_scenario_id +"'" )
-#                 where_text = " AND ".join(where_list)
-#                 self.cur.execute("SELECT * FROM instance_scenarios WHERE "+ where_text)
-#                 rows = self.cur.fetchall()
-#                 if self.cur.rowcount==0:
-#                     return -httperrors.Bad_Request, "No scenario instance found with this criteria " + where_text
-#                 elif self.cur.rowcount>1:
-#                     return -httperrors.Bad_Request, "More than one scenario instance found with this criteria " + where_text
-#                 instance_scenario_dict = rows[0]
-#
-#                 #instance_vnfs
-#                 self.cur.execute("SELECT uuid,vnf_id FROM instance_vnfs WHERE instance_scenario_id='"+ instance_scenario_dict['uuid'] + "'")
-#                 instance_scenario_dict['instance_vnfs'] = self.cur.fetchall()
-#                 for vnf in instance_scenario_dict['instance_vnfs']:
-#                     #instance_vms
-#                     self.cur.execute("SELECT uuid, vim_vm_id "+
-#                                 "FROM instance_vms  "+
-#                                 "WHERE instance_vnf_id='" + vnf['uuid'] +"'"
-#                                 )
-#                     vnf['instance_vms'] = self.cur.fetchall()
-#                 #instance_nets
-#                 self.cur.execute("SELECT uuid, vim_net_id FROM instance_nets WHERE instance_scenario_id='"+ instance_scenario_dict['uuid'] + "'")
-#                 instance_scenario_dict['instance_nets'] = self.cur.fetchall()
-#
-#                 #instance_interfaces
-#                 self.cur.execute("SELECT uuid, vim_interface_id, instance_vm_id, instance_net_id FROM instance_interfaces WHERE instance_scenario_id='"+ instance_scenario_dict['uuid'] + "'")
-#                 instance_scenario_dict['instance_interfaces'] = self.cur.fetchall()
-#
-#                 db_base._convert_datetime2str(instance_scenario_dict)
-#                 db_base._convert_str2boolean(instance_scenario_dict, ('public','shared','external') )
-#                 print "2******************************************************************"
-#                 return 1, instance_scenario_dict
-#         except (mdb.Error, AttributeError) as e:
-#             print "nfvo_db.get_instance_scenario DB Exception %d: %s" % (e.args[0], e.args[1])
-#             return self._format_error(e)
-
-    @retry
-    @with_transaction(cursor='dict')
-    def get_scenario(self, scenario_id, tenant_id=None, datacenter_vim_id=None, datacenter_id=None):
-        '''Obtain the scenario information, filtering by one or several of the tenant, uuid or name
-        scenario_id is the uuid or the name if it is not a valid uuid format
-        if datacenter_vim_id,d datacenter_id is provided, it supply aditional vim_id fields with the matching vim uuid
-        Only one scenario must mutch the filtering or an error is returned
-        '''
-        where_text = "uuid='{}'".format(scenario_id)
-        if not tenant_id and tenant_id != "any":
-            where_text += " AND (tenant_id='{}' OR public='True')".format(tenant_id)
-        cmd = "SELECT * FROM scenarios WHERE " + where_text
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        rows = self.cur.fetchall()
-        if self.cur.rowcount==0:
-            raise db_base.db_base_Exception("No scenario found with this criteria " + where_text, httperrors.Bad_Request)
-        elif self.cur.rowcount>1:
-            raise db_base.db_base_Exception("More than one scenario found with this criteria " + where_text, httperrors.Bad_Request)
-        scenario_dict = rows[0]
-        if scenario_dict["cloud_config"]:
-            scenario_dict["cloud-config"] = yaml.load(scenario_dict["cloud_config"], Loader=yaml.Loader)
-        del scenario_dict["cloud_config"]
-        # sce_vnfs
-        cmd = "SELECT uuid,name,member_vnf_index,vnf_id,description FROM sce_vnfs WHERE scenario_id='{}' "\
-                "ORDER BY created_at".format(scenario_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        scenario_dict['vnfs'] = self.cur.fetchall()
-
-        for vnf in scenario_dict['vnfs']:
-            cmd = "SELECT mgmt_access FROM vnfs WHERE uuid='{}'".format(scenario_dict['vnfs'][0]['vnf_id'])
-            self.logger.debug(cmd)
-            self.cur.execute(cmd)
-            mgmt_access_dict = self.cur.fetchall()
-            if mgmt_access_dict[0].get('mgmt_access'):
-                vnf['mgmt_access'] = yaml.load(mgmt_access_dict[0]['mgmt_access'], Loader=yaml.Loader)
-            else:
-                vnf['mgmt_access'] = None
-            # sce_interfaces
-            cmd = "SELECT scei.uuid,scei.sce_net_id,scei.interface_id,i.external_name,scei.ip_address"\
-                    " FROM sce_interfaces as scei join interfaces as i on scei.interface_id=i.uuid"\
-                    " WHERE scei.sce_vnf_id='{}' ORDER BY scei.created_at".format(vnf['uuid'])
-            self.logger.debug(cmd)
-            self.cur.execute(cmd)
-            vnf['interfaces'] = self.cur.fetchall()
-            # vms
-            cmd = "SELECT vms.uuid as uuid, flavor_id, image_id, image_list, vms.name as name," \
-                    " vms.description as description, vms.boot_data as boot_data, count," \
-                    " vms.availability_zone as availability_zone, vms.osm_id as osm_id, vms.pdu_type" \
-                    " FROM vnfs join vms on vnfs.uuid=vms.vnf_id" \
-                    " WHERE vnfs.uuid='" + vnf['vnf_id'] + "'"  \
-                    " ORDER BY vms.created_at"
-            self.logger.debug(cmd)
-            self.cur.execute(cmd)
-            vnf['vms'] = self.cur.fetchall()
-            for vm in vnf['vms']:
-                if vm["boot_data"]:
-                    vm["boot_data"] = yaml.safe_load(vm["boot_data"])
-                else:
-                    del vm["boot_data"]
-                if vm["image_list"]:
-                    vm["image_list"] = yaml.safe_load(vm["image_list"])
-                else:
-                    del vm["image_list"]
-                if datacenter_vim_id!=None:
-                    if vm['image_id']:
-                        cmd = "SELECT vim_id FROM datacenters_images WHERE image_id='{}' AND " \
-                                "datacenter_vim_id='{}'".format(vm['image_id'], datacenter_vim_id)
-                        self.logger.debug(cmd)
-                        self.cur.execute(cmd)
-                        if self.cur.rowcount==1:
-                            vim_image_dict = self.cur.fetchone()
-                            vm['vim_image_id']=vim_image_dict['vim_id']
-                    if vm['flavor_id']:
-                        cmd = "SELECT vim_id FROM datacenters_flavors WHERE flavor_id='{}' AND " \
-                                "datacenter_vim_id='{}'".format(vm['flavor_id'], datacenter_vim_id)
-                        self.logger.debug(cmd)
-                        self.cur.execute(cmd)
-                        if self.cur.rowcount==1:
-                            vim_flavor_dict = self.cur.fetchone()
-                            vm['vim_flavor_id']=vim_flavor_dict['vim_id']
-
-                #interfaces
-                cmd = "SELECT uuid,internal_name,external_name,net_id,type,vpci,mac,bw,model,ip_address," \
-                        "floating_ip, port_security" \
-                        " FROM interfaces" \
-                        " WHERE vm_id='{}'" \
-                        " ORDER BY created_at".format(vm['uuid'])
-                self.logger.debug(cmd)
-                self.cur.execute(cmd)
-                vm['interfaces'] = self.cur.fetchall()
-                for iface in vm['interfaces']:
-                    iface['port-security'] = iface.pop("port_security")
-                    iface['floating-ip'] = iface.pop("floating_ip")
-                    for sce_interface in vnf["interfaces"]:
-                        if sce_interface["interface_id"] == iface["uuid"]:
-                            if sce_interface["ip_address"]:
-                                iface["ip_address"] = sce_interface["ip_address"]
-                            break
-            #nets    every net of a vms
-            cmd = "SELECT uuid,name,type,description, osm_id FROM nets WHERE vnf_id='{}'".format(vnf['vnf_id'])
-            self.logger.debug(cmd)
-            self.cur.execute(cmd)
-            vnf['nets'] = self.cur.fetchall()
-            for vnf_net in vnf['nets']:
-                SELECT_ = "ip_version,subnet_address,gateway_address,dns_address,dhcp_enabled,dhcp_start_address,dhcp_count"
-                cmd = "SELECT {} FROM ip_profiles WHERE net_id='{}'".format(SELECT_,vnf_net['uuid'])
-                self.logger.debug(cmd)
-                self.cur.execute(cmd)
-                ipprofiles = self.cur.fetchall()
-                if self.cur.rowcount==1:
-                    vnf_net["ip_profile"] = ipprofiles[0]
-                elif self.cur.rowcount>1:
-                    raise db_base.db_base_Exception("More than one ip-profile found with this criteria: net_id='{}'".format(vnf_net['uuid']), httperrors.Bad_Request)
-
-        #sce_nets
-        cmd = "SELECT uuid,name,type,external,description,vim_network_name, osm_id" \
-                " FROM sce_nets  WHERE scenario_id='{}'" \
-                " ORDER BY created_at ".format(scenario_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        scenario_dict['nets'] = self.cur.fetchall()
-        #datacenter_nets
-        for net in scenario_dict['nets']:
-            if str(net['external']) == 'false':
-                SELECT_ = "ip_version,subnet_address,gateway_address,dns_address,dhcp_enabled,dhcp_start_address,dhcp_count"
-                cmd = "SELECT {} FROM ip_profiles WHERE sce_net_id='{}'".format(SELECT_,net['uuid'])
-                self.logger.debug(cmd)
-                self.cur.execute(cmd)
-                ipprofiles = self.cur.fetchall()
-                if self.cur.rowcount==1:
-                    net["ip_profile"] = ipprofiles[0]
-                elif self.cur.rowcount>1:
-                    raise db_base.db_base_Exception("More than one ip-profile found with this criteria: sce_net_id='{}'".format(net['uuid']), httperrors.Bad_Request)
-                continue
-            WHERE_=" WHERE name='{}'".format(net['name'])
-            if datacenter_id!=None:
-                WHERE_ += " AND datacenter_id='{}'".format(datacenter_id)
-            cmd = "SELECT vim_net_id FROM datacenter_nets" + WHERE_
-            self.logger.debug(cmd)
-            self.cur.execute(cmd)
-            d_net = self.cur.fetchone()
-            if d_net==None or datacenter_vim_id==None:
-                #print "nfvo_db.get_scenario() WARNING external net %s not found"  % net['name']
-                net['vim_id']=None
-            else:
-                net['vim_id']=d_net['vim_net_id']
-
-        db_base._convert_datetime2str(scenario_dict)
-        db_base._convert_str2boolean(scenario_dict, ('public','shared','external','port-security','floating-ip') )
-
-        #forwarding graphs
-        cmd = "SELECT uuid,name,description,vendor FROM sce_vnffgs WHERE scenario_id='{}' "\
-                "ORDER BY created_at".format(scenario_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        scenario_dict['vnffgs'] = self.cur.fetchall()
-        for vnffg in scenario_dict['vnffgs']:
-            cmd = "SELECT uuid,name FROM sce_rsps WHERE sce_vnffg_id='{}' "\
-                    "ORDER BY created_at".format(vnffg['uuid'])
-            self.logger.debug(cmd)
-            self.cur.execute(cmd)
-            vnffg['rsps'] = self.cur.fetchall()
-            for rsp in vnffg['rsps']:
-                cmd = "SELECT uuid,if_order,ingress_interface_id,egress_interface_id,sce_vnf_id " \
-                        "FROM sce_rsp_hops WHERE sce_rsp_id='{}' "\
-                        "ORDER BY created_at".format(rsp['uuid'])
-                self.logger.debug(cmd)
-                self.cur.execute(cmd)
-                rsp['connection_points'] = self.cur.fetchall();
-                cmd = "SELECT uuid,name,sce_vnf_id,interface_id FROM sce_classifiers WHERE sce_vnffg_id='{}' "\
-                        "AND sce_rsp_id='{}' ORDER BY created_at".format(vnffg['uuid'], rsp['uuid'])
-                self.logger.debug(cmd)
-                self.cur.execute(cmd)
-                rsp['classifier'] = self.cur.fetchone();
-                cmd = "SELECT uuid,ip_proto,source_ip,destination_ip,source_port,destination_port FROM sce_classifier_matches "\
-                        "WHERE sce_classifier_id='{}' ORDER BY created_at".format(rsp['classifier']['uuid'])
-                self.logger.debug(cmd)
-                self.cur.execute(cmd)
-                rsp['classifier']['matches'] = self.cur.fetchall()
-
-        return scenario_dict
-
-    @retry(command="delete", extra="instances running")
-    @with_transaction(cursor='dict')
-    def delete_scenario(self, scenario_id, tenant_id=None):
-        '''Deletes a scenario, filtering by one or several of the tenant, uuid or name
-        scenario_id is the uuid or the name if it is not a valid uuid format
-        Only one scenario must mutch the filtering or an error is returned
-        '''
-        #scenario table
-        where_text = "uuid='{}'".format(scenario_id)
-        if not tenant_id and tenant_id != "any":
-            where_text += " AND (tenant_id='{}' OR public='True')".format(tenant_id)
-        cmd = "SELECT * FROM scenarios WHERE "+ where_text
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        rows = self.cur.fetchall()
-        if self.cur.rowcount==0:
-            raise db_base.db_base_Exception("No scenario found where " + where_text, httperrors.Not_Found)
-        elif self.cur.rowcount>1:
-            raise db_base.db_base_Exception("More than one scenario found where " + where_text, httperrors.Conflict)
-        scenario_uuid = rows[0]["uuid"]
-        scenario_name = rows[0]["name"]
-
-        #sce_vnfs
-        cmd = "DELETE FROM scenarios WHERE uuid='{}'".format(scenario_uuid)
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-
-        return scenario_uuid + " " + scenario_name
-
-    @retry
-    @with_transaction
-    def new_rows(self, tables, uuid_list=None, confidential_data=False, attempt=_ATTEMPT):
-        """
-        Make a transactional insertion of rows at several tables. Can be also a deletion
-        :param tables: list with dictionary where the keys are the table names and the values are a row or row list
-            with the values to be inserted at the table. Each row is a dictionary with the key values. E.g.:
-            tables = [
-                {"table1": [ {"column1": value, "column2: value, ... }, {"column1": value, "column2: value, ... }, ...],
-                {"table2": [ {"column1": value, "column2: value, ... }, {"column1": value, "column2: value, ... }, ...],
-                {"table3": {"column1": value, "column2: value, ... }
-            }
-            If tables does not contain the 'created_at', it is generated incrementally with the order of tables. You can
-            provide a integer value, that it is an index multiply by 0.00001 to add to the created time to manually set
-            up and order
-            If dict contains {"TO-DELETE": uuid} the entry is deleted if exist instead of inserted
-        :param uuid_list: list of created uuids, first one is the root (#TODO to store at uuid table)
-        :return: None if success,  raise exception otherwise
-        """
-        table_name = None
-        created_time = time.time()
-        for table in tables:
-            for table_name, row_list in table.items():
-                index = 0
-                attempt.info['table'] = table_name
-                if isinstance(row_list, dict):
-                    row_list = (row_list, )  #create a list with the single value
-                for row in row_list:
-                    if "TO-DELETE" in row:
-                        self._delete_row_by_id_internal(table_name, row["TO-DELETE"])
-                        continue
-                    if "TO-UPDATE" in row:
-                        self._update_rows(table_name, UPDATE=row["TO-UPDATE"], WHERE=row["WHERE"],
-                                          modified_time=created_time)
-                        continue
-                    if table_name in self.tables_with_created_field:
-                        if "created_at" in row:
-                            created_time_param = created_time + (index + row.pop("created_at"))*0.00001
-                        else:
-                            created_time_param = created_time + index*0.00001
-                        index += 1
-                    else:
-                        created_time_param = 0
-                    self._new_row_internal(table_name, row, add_uuid=False, root_uuid=None,
-                                            confidential_data=confidential_data,
-                                            created_time=created_time_param)
-
-    @retry
-    @with_transaction
-    def new_instance_scenario_as_a_whole(self,tenant_id,instance_scenario_name,instance_scenario_description,scenarioDict):
-        created_time = time.time()
-        #instance_scenarios
-        datacenter_id = scenarioDict['datacenter_id']
-        INSERT_={'tenant_id': tenant_id,
-            'datacenter_tenant_id': scenarioDict["datacenter2tenant"][datacenter_id],
-            'name': instance_scenario_name,
-            'description': instance_scenario_description,
-            'scenario_id' : scenarioDict['uuid'],
-            'datacenter_id': datacenter_id
-        }
-        if scenarioDict.get("cloud-config"):
-            INSERT_["cloud_config"] = yaml.safe_dump(scenarioDict["cloud-config"], default_flow_style=True, width=256)
-
-        instance_uuid = self._new_row_internal('instance_scenarios', INSERT_, add_uuid=True, root_uuid=None, created_time=created_time)
-
-        net_scene2instance={}
-        #instance_nets   #nets interVNF
-        for net in scenarioDict['nets']:
-            net_scene2instance[ net['uuid'] ] ={}
-            datacenter_site_id = net.get('datacenter_id', datacenter_id)
-            if not "vim_id_sites" in net:
-                net["vim_id_sites"] ={datacenter_site_id: net['vim_id']}
-                net["vim_id_sites"]["datacenter_site_id"] = {datacenter_site_id: net['vim_id']}
-            sce_net_id = net.get("uuid")
-
-            for datacenter_site_id,vim_id in net["vim_id_sites"].items():
-                INSERT_={'vim_net_id': vim_id, 'created': net.get('created', False), 'instance_scenario_id':instance_uuid } #,  'type': net['type']
-                INSERT_['datacenter_id'] = datacenter_site_id
-                INSERT_['datacenter_tenant_id'] = scenarioDict["datacenter2tenant"][datacenter_site_id]
-                if not net.get('created', False):
-                    INSERT_['status'] = "ACTIVE"
-                if sce_net_id:
-                    INSERT_['sce_net_id'] = sce_net_id
-                created_time += 0.00001
-                instance_net_uuid =  self._new_row_internal('instance_nets', INSERT_, True, instance_uuid, created_time)
-                net_scene2instance[ sce_net_id ][datacenter_site_id] = instance_net_uuid
-                net['uuid'] = instance_net_uuid  #overwrite scnario uuid by instance uuid
-
-            if 'ip_profile' in net:
-                net['ip_profile']['net_id'] = None
-                net['ip_profile']['sce_net_id'] = None
-                net['ip_profile']['instance_net_id'] = instance_net_uuid
-                created_time += 0.00001
-                ip_profile_id = self._new_row_internal('ip_profiles', net['ip_profile'])
-
-        #instance_vnfs
-        for vnf in scenarioDict['vnfs']:
-            datacenter_site_id = vnf.get('datacenter_id', datacenter_id)
-            INSERT_={'instance_scenario_id': instance_uuid,  'vnf_id': vnf['vnf_id']  }
-            INSERT_['datacenter_id'] = datacenter_site_id
-            INSERT_['datacenter_tenant_id'] = scenarioDict["datacenter2tenant"][datacenter_site_id]
-            if vnf.get("uuid"):
-                INSERT_['sce_vnf_id'] = vnf['uuid']
-            created_time += 0.00001
-            instance_vnf_uuid =  self._new_row_internal('instance_vnfs', INSERT_, True, instance_uuid, created_time)
-            vnf['uuid'] = instance_vnf_uuid  #overwrite scnario uuid by instance uuid
-
-            #instance_nets   #nets intraVNF
-            for net in vnf['nets']:
-                net_scene2instance[ net['uuid'] ] = {}
-                INSERT_={'vim_net_id': net['vim_id'], 'created': net.get('created', False), 'instance_scenario_id':instance_uuid  } #,  'type': net['type']
-                INSERT_['datacenter_id'] = net.get('datacenter_id', datacenter_site_id)
-                INSERT_['datacenter_tenant_id'] = scenarioDict["datacenter2tenant"][datacenter_id]
-                if net.get("uuid"):
-                    INSERT_['net_id'] = net['uuid']
-                created_time += 0.00001
-                instance_net_uuid =  self._new_row_internal('instance_nets', INSERT_, True, instance_uuid, created_time)
-                net_scene2instance[ net['uuid'] ][datacenter_site_id] = instance_net_uuid
-                net['uuid'] = instance_net_uuid  #overwrite scnario uuid by instance uuid
-
-                if 'ip_profile' in net:
-                    net['ip_profile']['net_id'] = None
-                    net['ip_profile']['sce_net_id'] = None
-                    net['ip_profile']['instance_net_id'] = instance_net_uuid
-                    created_time += 0.00001
-                    ip_profile_id = self._new_row_internal('ip_profiles', net['ip_profile'])
-
-            #instance_vms
-            for vm in vnf['vms']:
-                INSERT_={'instance_vnf_id': instance_vnf_uuid,  'vm_id': vm['uuid'], 'vim_vm_id': vm['vim_id']  }
-                created_time += 0.00001
-                instance_vm_uuid =  self._new_row_internal('instance_vms', INSERT_, True, instance_uuid, created_time)
-                vm['uuid'] = instance_vm_uuid  #overwrite scnario uuid by instance uuid
-
-                #instance_interfaces
-                for interface in vm['interfaces']:
-                    net_id = interface.get('net_id', None)
-                    if net_id is None:
-                        #check if is connected to a inter VNFs net
-                        for iface in vnf['interfaces']:
-                            if iface['interface_id'] == interface['uuid']:
-                                if 'ip_address' in iface:
-                                    interface['ip_address'] = iface['ip_address']
-                                net_id = iface.get('sce_net_id', None)
-                                break
-                    if net_id is None:
-                        continue
-                    interface_type='external' if interface['external_name'] is not None else 'internal'
-                    INSERT_={'instance_vm_id': instance_vm_uuid,  'instance_net_id': net_scene2instance[net_id][datacenter_site_id],
-                        'interface_id': interface['uuid'], 'vim_interface_id': interface.get('vim_id'), 'type':  interface_type,
-                        'ip_address': interface.get('ip_address'), 'floating_ip': int(interface.get('floating-ip',False)),
-                        'port_security': int(interface.get('port-security',True))}
-                    #created_time += 0.00001
-                    interface_uuid =  self._new_row_internal('instance_interfaces', INSERT_, True, instance_uuid) #, created_time)
-                    interface['uuid'] = interface_uuid  #overwrite scnario uuid by instance uuid
-        return instance_uuid
-
-    @retry
-    @with_transaction(cursor='dict')
-    def get_instance_scenario(self, instance_id, tenant_id=None, verbose=False):
-        '''Obtain the instance information, filtering by one or several of the tenant, uuid or name
-        instance_id is the uuid or the name if it is not a valid uuid format
-        Only one instance must mutch the filtering or an error is returned
-        '''
-        # instance table
-        where_list = []
-        if tenant_id:
-            where_list.append("inst.tenant_id='{}'".format(tenant_id))
-        if db_base._check_valid_uuid(instance_id):
-            where_list.append("inst.uuid='{}'".format(instance_id))
-        else:
-            where_list.append("inst.name='{}'".format(instance_id))
-        where_text = " AND ".join(where_list)
-        cmd = "SELECT inst.uuid as uuid, inst.name as name, inst.scenario_id as scenario_id, datacenter_id"\
-                    " ,datacenter_tenant_id, s.name as scenario_name,inst.tenant_id as tenant_id" \
-                    " ,inst.description as description, inst.created_at as created_at" \
-                    " ,inst.cloud_config as cloud_config, s.osm_id as nsd_osm_id" \
-                " FROM instance_scenarios as inst left join scenarios as s on inst.scenario_id=s.uuid" \
-                " WHERE " + where_text
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        rows = self.cur.fetchall()
-
-        if self.cur.rowcount == 0:
-            raise db_base.db_base_Exception("No instance found where " + where_text, httperrors.Not_Found)
-        elif self.cur.rowcount > 1:
-            raise db_base.db_base_Exception("More than one instance found where " + where_text,
-                                            httperrors.Bad_Request)
-        instance_dict = rows[0]
-        if instance_dict["cloud_config"]:
-            instance_dict["cloud-config"] = yaml.load(instance_dict["cloud_config"], Loader=yaml.Loader)
-        del instance_dict["cloud_config"]
-
-        # instance_vnfs
-        cmd = "SELECT iv.uuid as uuid, iv.vnf_id as vnf_id, sv.name as vnf_name, sce_vnf_id, datacenter_id"\
-                ", datacenter_tenant_id, v.mgmt_access, sv.member_vnf_index, v.osm_id as vnfd_osm_id "\
-                "FROM instance_vnfs as iv left join sce_vnfs as sv "\
-                " on iv.sce_vnf_id=sv.uuid join vnfs as v on iv.vnf_id=v.uuid " \
-                "WHERE iv.instance_scenario_id='{}' " \
-                "ORDER BY iv.created_at ".format(instance_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        instance_dict['vnfs'] = self.cur.fetchall()
-        for vnf in instance_dict['vnfs']:
-            vnf["ip_address"] = None
-            vnf_mgmt_access_iface = None
-            vnf_mgmt_access_vm = None
-            if vnf["mgmt_access"]:
-                vnf_mgmt_access = yaml.load(vnf["mgmt_access"], Loader=yaml.Loader)
-                vnf_mgmt_access_iface = vnf_mgmt_access.get("interface_id")
-                vnf_mgmt_access_vm = vnf_mgmt_access.get("vm_id")
-                vnf["ip_address"] = vnf_mgmt_access.get("ip-address")
-
-            # instance vms
-            cmd = "SELECT iv.uuid as uuid, vim_vm_id, status, error_msg, vim_info, iv.created_at as "\
-                    "created_at, name, vms.osm_id as vdu_osm_id, vim_name, vms.uuid as vm_uuid, related"\
-                    " FROM instance_vms as iv join vms on iv.vm_id=vms.uuid "\
-                    " WHERE instance_vnf_id='{}' ORDER BY iv.created_at".format(vnf['uuid'])
-            self.logger.debug(cmd)
-            self.cur.execute(cmd)
-            vnf['vms'] = self.cur.fetchall()
-            for vm in vnf['vms']:
-                vm_manage_iface_list=[]
-                # instance_interfaces
-                cmd = "SELECT vim_interface_id, instance_net_id, internal_name,external_name, mac_address,"\
-                        " ii.ip_address as ip_address, vim_info, i.type as type, sdn_port_id, i.uuid"\
-                        " FROM instance_interfaces as ii join interfaces as i on ii.interface_id=i.uuid"\
-                        " WHERE instance_vm_id='{}' ORDER BY i.created_at".format(vm['uuid'])
-                self.logger.debug(cmd)
-                self.cur.execute(cmd )
-                vm['interfaces'] = self.cur.fetchall()
-                for iface in vm['interfaces']:
-                    if vnf_mgmt_access_iface and vnf_mgmt_access_iface == iface["uuid"]:
-                        if not vnf["ip_address"]:
-                            vnf["ip_address"] = iface["ip_address"]
-                    if iface["type"] == "mgmt" and iface["ip_address"]:
-                        vm_manage_iface_list.append(iface["ip_address"])
-                    if not verbose:
-                        del iface["type"]
-                    del iface["uuid"]
-                if vm_manage_iface_list:
-                    vm["ip_address"] = ",".join(vm_manage_iface_list)
-                    if not vnf["ip_address"] and vnf_mgmt_access_vm == vm["vm_uuid"]:
-                        vnf["ip_address"] = vm["ip_address"]
-                del vm["vm_uuid"]
-
-        #instance_nets
-        #select_text = "instance_nets.uuid as uuid,sce_nets.name as net_name,instance_nets.vim_net_id as net_id,instance_nets.status as status,instance_nets.external as external"
-        #from_text = "instance_nets join instance_scenarios on instance_nets.instance_scenario_id=instance_scenarios.uuid " + \
-        #            "join sce_nets on instance_scenarios.scenario_id=sce_nets.scenario_id"
-        #where_text = "instance_nets.instance_scenario_id='"+ instance_dict['uuid'] + "'"
-        cmd = "SELECT inets.uuid as uuid,vim_net_id,status,error_msg,vim_info,created, sce_net_id, " \
-                "net_id as vnf_net_id, datacenter_id, datacenter_tenant_id, sdn_net_id, " \
-                "snets.osm_id as ns_net_osm_id, nets.osm_id as vnf_net_osm_id, inets.vim_name, related " \
-                "FROM instance_nets as inets left join sce_nets as snets on inets.sce_net_id=snets.uuid " \
-                "left join nets on inets.net_id=nets.uuid " \
-                "WHERE instance_scenario_id='{}' ORDER BY inets.created_at".format(instance_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        instance_dict['nets'] = self.cur.fetchall()
-
-        # instance sdn_nets:
-        cmd = "SELECT * FROM instance_wim_nets WHERE instance_scenario_id='{}' ORDER BY created_at;".format(
-            instance_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        instance_dict['sdn_nets'] = self.cur.fetchall()
-
-        #instance_sfps
-        cmd = "SELECT uuid,vim_sfp_id,sce_rsp_id,datacenter_id,"\
-                "datacenter_tenant_id,status,error_msg,vim_info, related"\
-                " FROM instance_sfps" \
-                " WHERE instance_scenario_id='{}' ORDER BY created_at".format(instance_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        instance_dict['sfps'] = self.cur.fetchall()
-
-        # for sfp in instance_dict['sfps']:
-        #instance_sfs
-        cmd = "SELECT uuid,vim_sf_id,sce_rsp_hop_id,datacenter_id,"\
-                "datacenter_tenant_id,status,error_msg,vim_info, related"\
-                " FROM instance_sfs" \
-                " WHERE instance_scenario_id='{}' ORDER BY created_at".format(instance_dict['uuid']) # TODO: replace instance_scenario_id with instance_sfp_id
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        instance_dict['sfs'] = self.cur.fetchall()
-
-        #for sf in instance_dict['sfs']:
-        #instance_sfis
-        cmd = "SELECT uuid,vim_sfi_id,sce_rsp_hop_id,datacenter_id,"\
-                "datacenter_tenant_id,status,error_msg,vim_info, related"\
-                " FROM instance_sfis" \
-                " WHERE instance_scenario_id='{}' ORDER BY created_at".format(instance_dict['uuid']) # TODO: replace instance_scenario_id with instance_sf_id
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        instance_dict['sfis'] = self.cur.fetchall()
-#                            for sfi in instance_dict['sfi']:
-
-        #instance_classifications
-        cmd = "SELECT uuid,vim_classification_id,sce_classifier_match_id,datacenter_id,"\
-                "datacenter_tenant_id,status,error_msg,vim_info, related"\
-                " FROM instance_classifications" \
-                " WHERE instance_scenario_id='{}' ORDER BY created_at".format(instance_dict['uuid'])
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        instance_dict['classifications'] = self.cur.fetchall()
-#                    for classification in instance_dict['classifications']
-
-        db_base._convert_datetime2str(instance_dict)
-        db_base._convert_str2boolean(instance_dict, ('public','shared','created') )
-        return instance_dict
-
-    @retry(command='delete', extra='No dependences can avoid deleting!!!!')
-    @with_transaction(cursor='dict')
-    def delete_instance_scenario(self, instance_id, tenant_id=None):
-        '''Deletes a instance_Scenario, filtering by one or several of the tenant, uuid or name
-        instance_id is the uuid or the name if it is not a valid uuid format
-        Only one instance_scenario must mutch the filtering or an error is returned
-        '''
-        #instance table
-        where_list=[]
-        if tenant_id is not None: where_list.append( "tenant_id='" + tenant_id +"'" )
-        if db_base._check_valid_uuid(instance_id):
-            where_list.append( "uuid='" + instance_id +"'" )
-        else:
-            where_list.append( "name='" + instance_id +"'" )
-        where_text = " AND ".join(where_list)
-        cmd = "SELECT * FROM instance_scenarios WHERE "+ where_text
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        rows = self.cur.fetchall()
-
-        if self.cur.rowcount==0:
-            raise db_base.db_base_Exception("No instance found where " + where_text, httperrors.Bad_Request)
-        elif self.cur.rowcount>1:
-            raise db_base.db_base_Exception("More than one instance found where " + where_text, httperrors.Bad_Request)
-        instance_uuid = rows[0]["uuid"]
-        instance_name = rows[0]["name"]
-
-        #sce_vnfs
-        cmd = "DELETE FROM instance_scenarios WHERE uuid='{}'".format(instance_uuid)
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-
-        return instance_uuid + " " + instance_name
-
-    @retry(table='instance_scenarios')
-    @with_transaction
-    def new_instance_scenario(self, instance_scenario_dict, tenant_id):
-        #return self.new_row('vnfs', vnf_dict, None, tenant_id, True, True)
-        return self._new_row_internal('instance_scenarios', instance_scenario_dict, tenant_id, add_uuid=True, root_uuid=None, log=True)
-
-    def update_instance_scenario(self, instance_scenario_dict):
-        #TODO:
-        return
-
-    @retry(table='instance_vnfs')
-    @with_transaction
-    def new_instance_vnf(self, instance_vnf_dict, tenant_id, instance_scenario_id = None):
-        #return self.new_row('vms', vm_dict, tenant_id, True, True)
-        return self._new_row_internal('instance_vnfs', instance_vnf_dict, tenant_id, add_uuid=True, root_uuid=instance_scenario_id, log=True)
-
-    def update_instance_vnf(self, instance_vnf_dict):
-        #TODO:
-        return
-
-    def delete_instance_vnf(self, instance_vnf_id):
-        #TODO:
-        return
-
-    @retry(table='instance_vms')
-    @with_transaction
-    def new_instance_vm(self, instance_vm_dict, tenant_id, instance_scenario_id = None):
-        #return self.new_row('vms', vm_dict, tenant_id, True, True)
-        return self._new_row_internal('instance_vms', instance_vm_dict, tenant_id, add_uuid=True, root_uuid=instance_scenario_id, log=True)
-
-    def update_instance_vm(self, instance_vm_dict):
-        #TODO:
-        return
-
-    def delete_instance_vm(self, instance_vm_id):
-        #TODO:
-        return
-
-    @retry(table='instance_nets')
-    @with_transaction
-    def new_instance_net(self, instance_net_dict, tenant_id, instance_scenario_id = None):
-        return self._new_row_internal('instance_nets', instance_net_dict, tenant_id, add_uuid=True, root_uuid=instance_scenario_id, log=True)
-
-    def update_instance_net(self, instance_net_dict):
-        #TODO:
-        return
-
-    def delete_instance_net(self, instance_net_id):
-        #TODO:
-        return
-
-    @retry(table='instance_interfaces')
-    @with_transaction
-    def new_instance_interface(self, instance_interface_dict, tenant_id, instance_scenario_id = None):
-        return self._new_row_internal('instance_interfaces', instance_interface_dict, tenant_id, add_uuid=True, root_uuid=instance_scenario_id, log=True)
-
-    def update_instance_interface(self, instance_interface_dict):
-        #TODO:
-        return
-
-    def delete_instance_interface(self, instance_interface_dict):
-        #TODO:
-        return
-
-    @retry(table='datacenter_nets')
-    @with_transaction
-    def update_datacenter_nets(self, datacenter_id, new_net_list=[]):
-        ''' Removes the old and adds the new net list at datacenter list for one datacenter.
-        Attribute
-            datacenter_id: uuid of the datacenter to act upon
-            table: table where to insert
-            new_net_list: the new values to be inserted. If empty it only deletes the existing nets
-        Return: (Inserted items, Deleted items) if OK, (-Error, text) if error
-        '''
-        created_time = time.time()
-        cmd="DELETE FROM datacenter_nets WHERE datacenter_id='{}'".format(datacenter_id)
-        self.logger.debug(cmd)
-        self.cur.execute(cmd)
-        deleted = self.cur.rowcount
-        inserted = 0
-        for new_net in new_net_list:
-            created_time += 0.00001
-            self._new_row_internal('datacenter_nets', new_net, add_uuid=True, created_time=created_time)
-            inserted += 1
-        return inserted, deleted