from lib_osm_openvim import ovim as ovim_module
from lib_osm_openvim.ovim import ovimException
+import osm_im.vnfd as vnfd_catalog
+import osm_im.nsd as nsd_catalog
+
+from pyangbind.lib.serialise import pybindJSONDecoder
+from itertools import chain
+
global global_config
global vimconn_imported
global logger
name_dict[ interface["name"] ] = "overlay"
vnfc_interfaces[ vnfc["name"] ] = name_dict
# check bood-data info
- if "boot-data" in vnfc:
- # check that user-data is incompatible with users and config-files
- if (vnfc["boot-data"].get("users") or vnfc["boot-data"].get("config-files")) and vnfc["boot-data"].get("user-data"):
- raise NfvoException(
- "Error at vnf:VNFC:boot-data, fields 'users' and 'config-files' are not compatible with 'user-data'",
- HTTP_Bad_Request)
+ # if "boot-data" in vnfc:
+ # # check that user-data is incompatible with users and config-files
+ # if (vnfc["boot-data"].get("users") or vnfc["boot-data"].get("config-files")) and vnfc["boot-data"].get("user-data"):
+ # raise NfvoException(
+ # "Error at vnf:VNFC:boot-data, fields 'users' and 'config-files' are not compatible with 'user-data'",
+ # HTTP_Bad_Request)
#check if the info in external_connections matches with the one in the vnfcs
name_list=[]
# continue
#elif res_vim==0:
- #Create the flavor in VIM
- #Translate images at devices from MANO id to VIM id
+ # Create the flavor in VIM
+ # Translate images at devices from MANO id to VIM id
disk_list = []
if 'extended' in flavor_dict and flavor_dict['extended']!=None and "devices" in flavor_dict['extended']:
- #make a copy of original devices
+ # make a copy of original devices
devices_original=[]
for device in flavor_dict["extended"].get("devices",[]):
del device['image']
if 'image metadata' in device:
del device['image metadata']
- dev_nb=0
+ if 'image checksum' in device:
+ del device['image checksum']
+ dev_nb = 0
for index in range(0,len(devices_original)) :
device=devices_original[index]
if "image" not in device and "image name" not in device:
image_dict['universal_name']=device.get('image name')
image_dict['description']=flavor_dict['name']+str(dev_nb)+"-img"
image_dict['location']=device.get('image')
- #image_dict['new_location']=device.get('image location')
+ # image_dict['new_location']=device.get('image location')
image_dict['checksum']=device.get('image checksum')
image_metadata_dict = device.get('image metadata', None)
image_metadata_str = None
return flavor_vim_id if only_create_at_vim else flavor_mano_id
+def get_str(obj, field, length):
+ """
+ Obtain the str value,
+ :param obj:
+ :param length:
+ :return:
+ """
+ value = obj.get(field)
+ if value is not None:
+ value = str(value)[:length]
+ return value
+
+def _lookfor_or_create_image(db_image, mydb, descriptor):
+ """
+ fill image content at db_image dictionary. Check if the image with this image and checksum exist
+ :param db_image: dictionary to insert data
+ :param mydb: database connector
+ :param descriptor: yang descriptor
+ :return: uuid if the image exist at DB, or None if a new image must be created with the data filled at db_image
+ """
+
+ db_image["name"] = get_str(descriptor, "image", 255)
+ db_image["checksum"] = get_str(descriptor, "image-checksum", 32)
+ if not db_image["checksum"]: # Ensure that if empty string, None is stored
+ db_image["checksum"] = None
+ if db_image["name"].startswith("/"):
+ db_image["location"] = db_image["name"]
+ existing_images = mydb.get_rows(FROM="images", WHERE={'location': db_image["location"]})
+ else:
+ db_image["universal_name"] = db_image["name"]
+ existing_images = mydb.get_rows(FROM="images", WHERE={'universal_name': db_image['universal_name'],
+ 'checksum': db_image['checksum']})
+ if existing_images:
+ return existing_images[0]["uuid"]
+ else:
+ image_uuid = str(uuid4())
+ db_image["uuid"] = image_uuid
+ return None
+
+def new_vnfd_v3(mydb, tenant_id, vnf_descriptor):
+ """
+ Parses an OSM IM vnfd_catalog and insert at DB
+ :param mydb:
+ :param tenant_id:
+ :param vnf_descriptor:
+ :return: The list of cretated vnf ids
+ """
+ try:
+ myvnfd = vnfd_catalog.vnfd()
+ try:
+ pybindJSONDecoder.load_ietf_json(vnf_descriptor, None, None, obj=myvnfd)
+ except Exception as e:
+ raise NfvoException("Invalid yang descriptor format " + str(e), HTTP_Bad_Request)
+ db_vnfs = []
+ db_nets = []
+ db_vms = []
+ db_vms_index = 0
+ db_interfaces = []
+ db_images = []
+ db_flavors = []
+ uuid_list = []
+ vnfd_uuid_list = []
+ for rift_vnfd in myvnfd.vnfd_catalog.vnfd.itervalues():
+ vnfd = rift_vnfd.get()
+
+ # table vnf
+ vnf_uuid = str(uuid4())
+ uuid_list.append(vnf_uuid)
+ vnfd_uuid_list.append(vnf_uuid)
+ db_vnf = {
+ "uuid": vnf_uuid,
+ "osm_id": get_str(vnfd, "id", 255),
+ "name": get_str(vnfd, "name", 255),
+ "description": get_str(vnfd, "description", 255),
+ "tenant_id": tenant_id,
+ "vendor": get_str(vnfd, "vendor", 255),
+ "short_name": get_str(vnfd, "short-name", 255),
+ "descriptor": str(vnf_descriptor)[:60000]
+ }
+
+ # table nets (internal-vld)
+ net_id2uuid = {} # for mapping interface with network
+ for vld in vnfd.get("internal-vld").itervalues():
+ net_uuid = str(uuid4())
+ uuid_list.append(net_uuid)
+ db_net = {
+ "name": get_str(vld, "name", 255),
+ "vnf_id": vnf_uuid,
+ "uuid": net_uuid,
+ "description": get_str(vld, "description", 255),
+ "type": "bridge", # TODO adjust depending on connection point type
+ }
+ net_id2uuid[vld.get("id")] = net_uuid
+ db_nets.append(db_net)
+
+ # table vms (vdus)
+ vdu_id2uuid = {}
+ vdu_id2db_table_index = {}
+ for vdu in vnfd.get("vdu").itervalues():
+ vm_uuid = str(uuid4())
+ uuid_list.append(vm_uuid)
+ db_vm = {
+ "uuid": vm_uuid,
+ "osm_id": get_str(vdu, "id", 255),
+ "name": get_str(vdu, "name", 255),
+ "description": get_str(vdu, "description", 255),
+ "vnf_id": vnf_uuid,
+ }
+ vdu_id2uuid[db_vm["osm_id"]] = vm_uuid
+ vdu_id2db_table_index[db_vm["osm_id"]] = db_vms_index
+ if vdu.get("count"):
+ db_vm["count"] = int(vdu["count"])
+
+ # table image
+ image_present = False
+ if vdu.get("image"):
+ image_present = True
+ db_image = {}
+ image_uuid = _lookfor_or_create_image(db_image, mydb, vdu)
+ if not image_uuid:
+ image_uuid = db_image["uuid"]
+ db_images.append(db_image)
+ db_vm["image_id"] = image_uuid
+
+ # volumes
+ devices = []
+ if vdu.get("volumes"):
+ for volume_key in sorted(vdu["volumes"]):
+ volume = vdu["volumes"][volume_key]
+ if not image_present:
+ # Convert the first volume to vnfc.image
+ image_present = True
+ db_image = {}
+ image_uuid = _lookfor_or_create_image(db_image, mydb, volume)
+ if not image_uuid:
+ image_uuid = db_image["uuid"]
+ db_images.append(db_image)
+ db_vm["image_id"] = image_uuid
+ else:
+ # Add Openmano devices
+ device = {}
+ device["type"] = str(volume.get("device-type"))
+ if volume.get("size"):
+ device["size"] = int(volume["size"])
+ if volume.get("image"):
+ device["image name"] = str(volume["image"])
+ if volume.get("image-checksum"):
+ device["image checksum"] = str(volume["image-checksum"])
+ devices.append(device)
+
+ # table flavors
+ db_flavor = {
+ "name": get_str(vdu, "name", 250) + "-flv",
+ "vcpus": int(vdu["vm-flavor"].get("vcpu-count", 1)),
+ "ram": int(vdu["vm-flavor"].get("memory-mb", 1)),
+ "disk": int(vdu["vm-flavor"].get("storage-gb", 1)),
+ }
+ # EPA TODO revise
+ extended = {}
+ numa = {}
+ if devices:
+ extended["devices"] = devices
+ if vdu.get("guest-epa"): # TODO or dedicated_int:
+ epa_vcpu_set = False
+ if vdu["guest-epa"].get("numa-node-policy"): # TODO or dedicated_int:
+ numa_node_policy = vdu["guest-epa"].get("numa-node-policy")
+ if numa_node_policy.get("node"):
+ numa_node = numa_node_policy.node[0]
+ if numa_node.get("num-cores"):
+ numa["cores"] = numa_node["num-cores"]
+ epa_vcpu_set = True
+ if numa_node.get("paired-threads"):
+ if numa_node["paired-threads"].get("num-paired-threads"):
+ numa["paired-threads"] = numa_node["paired-threads"]["num-paired-threads"]
+ epa_vcpu_set = True
+ if len(numa_node["paired-threads"].get("paired-thread-ids")) > 0:
+ numa["paired-threads-id"] = []
+ for pair in numa_node["paired-threads"]["paired-thread-ids"].itervalues:
+ numa["paired-threads-id"].append(
+ (str(pair["thread-a"]), str(pair["thread-b"]))
+ )
+ if numa_node.get("num-threads"):
+ numa["threads"] = numa_node["num-threads"]
+ epa_vcpu_set = True
+ if numa_node.get("memory-mb"):
+ numa["memory"] = max(int(numa_node["memory-mb"] / 1024), 1)
+ if vdu["guest-epa"].get("mempage-size"):
+ if vdu["guest-epa"]["mempage-size"] != "SMALL":
+ numa["memory"] = max(int(db_flavor["ram"] / 1024), 1)
+ if vdu["guest-epa"].get("cpu-pinning-policy") and not epa_vcpu_set:
+ if vdu["guest-epa"]["cpu-pinning-policy"] == "DEDICATED":
+ if vdu["guest-epa"].get("cpu-thread-pinning-policy") and \
+ vdu["guest-epa"]["cpu-thread-pinning-policy"] != "PREFER":
+ numa["cores"] = max(db_flavor["vcpus"], 1)
+ else:
+ numa["threads"] = max(db_flavor["vcpus"], 1)
+ if numa:
+ extended["numas"] = [numa]
+ if extended:
+ extended_text = yaml.safe_dump(extended, default_flow_style=True, width=256)
+ db_flavor["extended"] = extended_text
+ # look if flavor exist
+
+ temp_flavor_dict = {'disk': db_flavor.get('disk', 1),
+ 'ram': db_flavor.get('ram'),
+ 'vcpus': db_flavor.get('vcpus'),
+ 'extended': db_flavor.get('extended')
+ }
+ existing_flavors = mydb.get_rows(FROM="flavors", WHERE=temp_flavor_dict)
+ if existing_flavors:
+ flavor_uuid = existing_flavors[0]["uuid"]
+ else:
+ flavor_uuid = str(uuid4())
+ uuid_list.append(flavor_uuid)
+ db_flavor["uuid"] = flavor_uuid
+ db_flavors.append(db_flavor)
+ db_vm["flavor_id"] = flavor_uuid
+
+ # cloud-init
+ boot_data = {}
+ if vdu.get("cloud-init"):
+ boot_data["user-data"] = vdu["cloud-init"]
+ elif vdu.get("cloud-init-file"):
+ # TODO Where this file content is present???
+ # boot_data["user-data"] = rift_vnfd.files[vdu["cloud-init-file"]]
+ boot_data["user-data"] = str(vdu["cloud-init-file"])
+
+ if vdu.get("supplemental-boot-data"):
+ if vdu["supplemental-boot-data"].get('boot-data-drive'):
+ boot_data['boot-data-drive'] = True
+ if vdu["supplemental-boot-data"].get('config-file'):
+ om_cfgfile_list = list()
+ for custom_config_file in vdu["supplemental-boot-data"]['config-file'].itervalues():
+ # TODO Where this file content is present???
+ cfg_source = str(custom_config_file["source"])
+ om_cfgfile_list.append({"dest": custom_config_file["dest"],
+ "content": cfg_source})
+ boot_data['config-files'] = om_cfgfile_list
+ if boot_data:
+ db_vm["boot_data"] = boot_data
+
+ db_vms.append(db_vm)
+ db_vms_index += 1
+
+ # table interfaces (internal/external interfaces)
+ cp_name2iface_uuid = {}
+ cp_name2vm_uuid = {}
+ # for iface in chain(vdu.get("internal-interface").itervalues(), vdu.get("external-interface").itervalues()):
+ for iface in vdu.get("interface").itervalues():
+ iface_uuid = str(uuid4())
+ uuid_list.append(iface_uuid)
+ db_interface = {
+ "uuid": iface_uuid,
+ "internal_name": get_str(iface, "name", 255),
+ "vm_id": vm_uuid,
+ }
+ if iface.get("virtual-interface").get("vpci"):
+ db_interface["vpci"] = get_str(iface.get("virtual-interface"), "vpci", 12)
+
+ if iface.get("virtual-interface").get("bandwidth"):
+ bps = int(iface.get("virtual-interface").get("bandwidth"))
+ db_interface["bw"] = bps/1000
+
+ if iface.get("virtual-interface").get("type") == "OM-MGMT":
+ db_interface["type"] = "mgmt"
+ elif iface.get("virtual-interface").get("type") in ("VIRTIO", "E1000"):
+ db_interface["type"] = "bridge"
+ db_interface["model"] = get_str(iface.get("virtual-interface"), "type", 12)
+ elif iface.get("virtual-interface").get("type") in ("SR-IOV", "PCI-PASSTHROUGH"):
+ db_interface["type"] = "data"
+ db_interface["model"] = get_str(iface.get("virtual-interface"), "type", 12)
+ else:
+ raise ValueError("Interface type {} not supported".format(iface.get("virtual-interface").get("type")))
+
+ if iface.get("external-connection-point-ref"):
+ try:
+ cp = vnfd.get("connection-point")[iface.get("external-connection-point-ref")]
+ db_interface["external_name"] = get_str(cp, "name", 255)
+ cp_name2iface_uuid[db_interface["external_name"]] = iface_uuid
+ cp_name2vm_uuid[db_interface["external_name"]] = vm_uuid
+ # TODO add port-security-enable
+ # if cp.get("port-security-enabled") == False:
+ # elif cp.get("port-security-enabled") == True:
+ except KeyError:
+ raise KeyError(
+ "Error wrong reference at vnfd['{vnf}'] vdu['{vdu}']:internal-interface['{iface}']:"
+ "vnfd-connection-point-ref '{cp}' is not present at connection-point".format(
+ vnf=vnfd["id"], vdu=vdu["id"], iface=iface["name"],
+ cp=iface.get("vnfd-connection-point-ref"))
+ )
+ elif iface.get("internal-connection-point-ref"):
+ try:
+ for vld in vnfd.get("internal-vld").itervalues():
+ for cp in vld.get("internal-connection-point").itervalues():
+ if cp.get("id-ref") == iface.get("internal-connection-point-ref"):
+ db_interface["net_id"] = net_id2uuid[vld.get("id")]
+ break
+ except KeyError:
+ raise KeyError(
+ "Error at vnfd['{vnf}'] vdu['{vdu}']:internal-interface['{iface}']:"
+ "vdu-internal-connection-point-ref '{cp}' is not referenced by any internal-vld".format(
+ vnf=vnfd["id"], vdu=vdu["id"], iface=iface["name"],
+ cp=iface.get("vdu-internal-connection-point-ref"))
+ )
+ if iface.get("position") is not None:
+ db_interface["created_at"] = int(iface.get("position")) - 1000
+ db_interfaces.append(db_interface)
+
+ # VNF affinity and antiaffinity
+ for pg in vnfd.get("placement-groups").itervalues():
+ pg_name = get_str(pg, "name", 255)
+ for vdu in pg.get("member-vdus").itervalues():
+ vdu_id = get_str(vdu, "member-vdu-ref", 255)
+ if vdu_id not in vdu_id2db_table_index:
+ raise KeyError(
+ "Error at 'vnfd'['{vnf}']:'placement-groups'['{pg}']:'member-vdus':'{vdu}' references a non existing vdu".format(
+ vnf=vnfd["id"], pg=pg_name, vdu=vdu_id))
+ db_vms[vdu_id2db_table_index[vdu_id]]["availability_zone"] = pg_name
+ # TODO consider the case of isolation and not colocation
+ # if pg.get("strategy") == "ISOLATION":
+
+ # VNF mgmt configuration
+ mgmt_access = {}
+ if vnfd["mgmt-interface"].get("vdu-id"):
+ if vnfd["mgmt-interface"]["vdu-id"] not in vdu_id2uuid:
+ raise KeyError(
+ "Error at vnfd['{vnf}']:'mgmt-interface':'vdu-id':{vdu} reference a non existing vdu".format(
+ vnf=vnfd["id"], vdu=vnfd["mgmt-interface"]["vdu-id"]))
+ mgmt_access["vm_id"] = vdu_id2uuid[vnfd["mgmt-interface"]["vdu-id"]]
+ if vnfd["mgmt-interface"].get("ip-address"):
+ mgmt_access["ip-address"] = str(vnfd["mgmt-interface"].get("ip-address"))
+ if vnfd["mgmt-interface"].get("cp"):
+ if vnfd["mgmt-interface"]["cp"] not in cp_name2iface_uuid:
+ raise KeyError(
+ "Error at vnfd['{vnf}']:'mgmt-interface':'cp':{cp} reference a non existing connection-point".
+ format(vnf=vnfd["id"], cp=vnfd["mgmt-interface"]["cp"]))
+ mgmt_access["vm_id"] = cp_name2vm_uuid[vnfd["mgmt-interface"]["cp"]]
+ mgmt_access["interface_id"] = cp_name2iface_uuid[vnfd["mgmt-interface"]["cp"]]
+ default_user = get_str(vnfd.get("vnf-configuration", {}).get("config-access", {}).get("ssh-access", {}),
+ "default-user", 64)
+ if default_user:
+ mgmt_access["default_user"] = default_user
+ if mgmt_access:
+ db_vnf["mgmt_access"] = yaml.safe_dump(mgmt_access, default_flow_style=True, width=256)
+
+ db_vnfs.append(db_vnf)
+ db_tables=[
+ {"vnfs": db_vnfs},
+ {"nets": db_nets},
+ {"images": db_images},
+ {"flavors": db_flavors},
+ {"vms": db_vms},
+ {"interfaces": db_interfaces},
+ ]
+
+ logger.debug("create_vnf Deployment done vnfDict: %s",
+ yaml.safe_dump(db_tables, indent=4, default_flow_style=False) )
+ mydb.new_rows(db_tables, uuid_list)
+ return vnfd_uuid_list
+ except Exception as e:
+ logger.error("Exception {}".format(e))
+ raise # NfvoException("Exception {}".format(e), HTTP_Bad_Request)
+
+
def new_vnf(mydb, tenant_id, vnf_descriptor):
global global_config
where_or["public"] = True
vnf = mydb.get_table_by_uuid_name('vnfs', vnf_id, "VNF", WHERE_OR=where_or, WHERE_AND_OR="AND")
- vnf_id=vnf["uuid"]
- filter_keys = ('uuid','name','description','public', "tenant_id", "created_at")
+ vnf_id = vnf["uuid"]
+ filter_keys = ('uuid', 'name', 'description', 'public', "tenant_id", "osm_id", "created_at")
filtered_content = dict( (k,v) for k,v in vnf.iteritems() if k in filter_keys )
#change_keys_http2db(filtered_content, http2db_vnf, reverse=True)
data={'vnf' : filtered_content}
#GET VM
content = mydb.get_rows(FROM='vnfs join vms on vnfs.uuid=vms.vnf_id',
- SELECT=('vms.uuid as uuid','vms.name as name', 'vms.description as description', 'boot_data'),
+ SELECT=('vms.uuid as uuid', 'vms.osm_id as osm_id', 'vms.name as name', 'vms.description as description',
+ 'boot_data'),
WHERE={'vnfs.uuid': vnf_id} )
if len(content)==0:
raise NfvoException("vnf '{}' not found".format(vnf_id), HTTP_Not_Found)
return scenario_id
+def new_nsd_v3(mydb, tenant_id, nsd_descriptor):
+ """
+ Parses an OSM IM nsd_catalog and insert at DB
+ :param mydb:
+ :param tenant_id:
+ :param nsd_descriptor:
+ :return: The list of cretated NSD ids
+ """
+ try:
+ mynsd = nsd_catalog.nsd()
+ try:
+ pybindJSONDecoder.load_ietf_json(nsd_descriptor, None, None, obj=mynsd)
+ except Exception as e:
+ raise NfvoException("Invalid yang descriptor format " + str(e), HTTP_Bad_Request)
+ db_scenarios = []
+ db_sce_nets = []
+ db_sce_vnfs = []
+ db_sce_interfaces = []
+ db_ip_profiles = []
+ db_ip_profiles_index = 0
+ uuid_list = []
+ nsd_uuid_list = []
+ for rift_nsd in mynsd.nsd_catalog.nsd.itervalues():
+ nsd = rift_nsd.get()
+
+ # table sceanrios
+ scenario_uuid = str(uuid4())
+ uuid_list.append(scenario_uuid)
+ nsd_uuid_list.append(scenario_uuid)
+ db_scenario = {
+ "uuid": scenario_uuid,
+ "osm_id": get_str(nsd, "id", 255),
+ "name": get_str(nsd, "name", 255),
+ "description": get_str(nsd, "description", 255),
+ "tenant_id": tenant_id,
+ "vendor": get_str(nsd, "vendor", 255),
+ "short_name": get_str(nsd, "short-name", 255),
+ "descriptor": str(nsd_descriptor)[:60000],
+ }
+ db_scenarios.append(db_scenario)
+
+ # table sce_vnfs (constituent-vnfd)
+ vnf_index2scevnf_uuid = {}
+ vnf_index2vnf_uuid = {}
+ for vnf in nsd.get("constituent-vnfd").itervalues():
+ existing_vnf = mydb.get_rows(FROM="vnfs", WHERE={'osm_id': str(vnf["vnfd-id-ref"])[:255],
+ 'tenant_id': tenant_id})
+ if not existing_vnf:
+ raise KeyError("Error at 'nsd[{}]':'constituent-vnfd':'vnfd-id-ref':'{}' references a "
+ "non existing VNFD in the catalog".format(str(nsd["id"]),
+ str(vnf["vnfd-id-ref"])[:255]))
+ sce_vnf_uuid = str(uuid4())
+ uuid_list.append(sce_vnf_uuid)
+ db_sce_vnf = {
+ "uuid": sce_vnf_uuid,
+ "scenario_id": scenario_uuid,
+ "name": existing_vnf[0]["name"][:200] + "." + get_str(vnf, "member-vnf-index", 5),
+ "vnf_id": existing_vnf[0]["uuid"],
+ "member_vnf_index": int(vnf["member-vnf-index"]),
+ # TODO 'start-by-default': True
+ }
+ vnf_index2scevnf_uuid[int(vnf['member-vnf-index'])] = sce_vnf_uuid
+ vnf_index2vnf_uuid[int(vnf['member-vnf-index'])] = existing_vnf[0]["uuid"]
+ db_sce_vnfs.append(db_sce_vnf)
+
+ # table ip_profiles (ip-profiles)
+ ip_profile_name2db_table_index = {}
+ for ip_profile in nsd.get("ip-profiles").itervalues():
+ db_ip_profile = {
+ "ip_version": str(ip_profile["ip-profile-params"].get("ip-version", "ipv4")),
+ "subnet_address": str(ip_profile["ip-profile-params"].get("subnet-address")),
+ "gateway_address": str(ip_profile["ip-profile-params"].get("gateway-address")),
+ "dhcp_enabled": str(ip_profile["ip-profile-params"]["dhcp-params"].get("enabled", True)),
+ "dhcp_start_address": str(ip_profile["ip-profile-params"]["dhcp-params"].get("start-address")),
+ "dhcp_count": str(ip_profile["ip-profile-params"]["dhcp-params"].get("count")),
+ }
+ dns_list = []
+ for dns in ip_profile["ip-profile-params"]["dns-server"].itervalues():
+ dns_list.append(str(dns.get("address")))
+ db_ip_profile["dns_address"] = ";".join(dns_list)
+ if ip_profile["ip-profile-params"].get('security-group'):
+ db_ip_profile["security_group"] = ip_profile["ip-profile-params"]['security-group']
+ ip_profile_name2db_table_index[str(ip_profile["name"])] = db_ip_profiles_index
+ db_ip_profiles_index += 1
+ db_ip_profiles.append(db_ip_profile)
+
+ # table sce_nets (internal-vld)
+ for vld in nsd.get("vld").itervalues():
+ sce_net_uuid = str(uuid4())
+ uuid_list.append(sce_net_uuid)
+ db_sce_net = {
+ "uuid": sce_net_uuid,
+ "name": get_str(vld, "name", 255),
+ "scenario_id": scenario_uuid,
+ # "type": #TODO
+ "multipoint": not vld.get("type") == "ELINE",
+ # "external": #TODO
+ "description": get_str(vld, "description", 255),
+ }
+ # guess type of network
+ if vld.get("mgmt-network"):
+ db_sce_net["type"] = "bridge"
+ db_sce_net["external"] = True
+ elif vld.get("provider-network").get("overlay-type") == "VLAN":
+ db_sce_net["type"] = "data"
+ else:
+ db_sce_net["type"] = "bridge"
+ db_sce_nets.append(db_sce_net)
+
+ # ip-profile, link db_ip_profile with db_sce_net
+ if vld.get("ip-profile-ref"):
+ ip_profile_name = vld.get("ip-profile-ref")
+ if ip_profile_name not in ip_profile_name2db_table_index:
+ raise KeyError("Error at 'nsd[{}]':'vld[{}]':'ip-profile-ref':'{}' references a non existing "
+ "'ip_profiles'".format(
+ str(nsd["id"]), str(vld["id"]), str(vld["ip-profile-ref"])))
+ db_ip_profiles[ip_profile_name2db_table_index[ip_profile_name]]["sce_net_id"] = sce_net_uuid
+
+ # table sce_interfaces (vld:vnfd-connection-point-ref)
+ for iface in vld.get("vnfd-connection-point-ref").itervalues():
+ vnf_index = int(iface['member-vnf-index-ref'])
+ # check correct parameters
+ if vnf_index not in vnf_index2vnf_uuid:
+ raise KeyError("Error at 'nsd[{}]':'vld[{}]':'vnfd-connection-point-ref':'member-vnf-index-ref'"
+ ":'{}' references a non existing index at 'nsd':'constituent-vnfd'".format(
+ str(nsd["id"]), str(vld["id"]), str(iface["member-vnf-index-ref"])))
+
+ existing_ifaces = mydb.get_rows(SELECT=('i.uuid as uuid',),
+ FROM="interfaces as i join vms on i.vm_id=vms.uuid",
+ WHERE={'vnf_id': vnf_index2vnf_uuid[vnf_index],
+ 'external_name': get_str(iface, "vnfd-connection-point-ref",
+ 255)})
+ if not existing_ifaces:
+ raise KeyError("Error at 'nsd[{}]':'vld[{}]':'vnfd-connection-point-ref':'vnfd-connection-point"
+ "-ref':'{}' references a non existing interface at VNFD '{}'".format(
+ str(nsd["id"]), str(vld["id"]), str(iface["vnfd-connection-point-ref"]),
+ str(iface.get("vnfd-id-ref"))[:255]))
+
+ interface_uuid = existing_ifaces[0]["uuid"]
+ sce_interface_uuid = str(uuid4())
+ uuid_list.append(sce_net_uuid)
+ db_sce_interface = {
+ "uuid": sce_interface_uuid,
+ "sce_vnf_id": vnf_index2scevnf_uuid[vnf_index],
+ "sce_net_id": sce_net_uuid,
+ "interface_id": interface_uuid,
+ # "ip_address": #TODO
+ }
+ db_sce_interfaces.append(db_sce_interface)
+
+ db_tables = [
+ {"scenarios": db_scenarios},
+ {"sce_nets": db_sce_nets},
+ {"ip_profiles": db_ip_profiles},
+ {"sce_vnfs": db_sce_vnfs},
+ {"sce_interfaces": db_sce_interfaces},
+ ]
+
+ logger.debug("create_vnf Deployment done vnfDict: %s",
+ yaml.safe_dump(db_tables, indent=4, default_flow_style=False) )
+ mydb.new_rows(db_tables, uuid_list)
+ return nsd_uuid_list
+ except Exception as e:
+ logger.error("Exception {}".format(e))
+ raise # NfvoException("Exception {}".format(e), HTTP_Bad_Request)
+
+
def edit_scenario(mydb, tenant_id, scenario_id, data):
data["uuid"] = scenario_id
data["tenant_id"] = tenant_id
def unify_cloud_config(cloud_config_preserve, cloud_config):
- ''' join the cloud config information into cloud_config_preserve.
+ """ join the cloud config information into cloud_config_preserve.
In case of conflict cloud_config_preserve preserves
- None is admited
- '''
+ None is allowed
+ """
if not cloud_config_preserve and not cloud_config:
return None
new_cloud_config["boot-data-drive"] = cloud_config_preserve["boot-data-drive"]
# user-data
- if cloud_config and cloud_config.get("user-data") != None:
- new_cloud_config["user-data"] = cloud_config["user-data"]
- if cloud_config_preserve and cloud_config_preserve.get("user-data") != None:
- new_cloud_config["user-data"] = cloud_config_preserve["user-data"]
+ new_cloud_config["user-data"] = []
+ if cloud_config and cloud_config.get("user-data"):
+ if isinstance(cloud_config["user-data"], list):
+ new_cloud_config["user-data"] += cloud_config["user-data"]
+ else:
+ new_cloud_config["user-data"].append(cloud_config["user-data"])
+ if cloud_config_preserve and cloud_config_preserve.get("user-data"):
+ if isinstance(cloud_config_preserve["user-data"], list):
+ new_cloud_config["user-data"] += cloud_config_preserve["user-data"]
+ else:
+ new_cloud_config["user-data"].append(cloud_config_preserve["user-data"])
+ if not new_cloud_config["user-data"]:
+ del new_cloud_config["user-data"]
# config files
new_cloud_config["config-files"] = []
myvim_thread_id = myvim_threads_id[default_datacenter_id]
net_type = sce_net['type']
lookfor_filter = {'admin_state_up': True, 'status': 'ACTIVE'} #'shared': True
- if sce_net["external"]:
- if not net_name:
+
+ if not net_name:
+ if sce_net["external"]:
net_name = sce_net["name"]
- if "netmap-use" in site or "netmap-create" in site:
- create_network = False
- lookfor_network = False
- if "netmap-use" in site:
- lookfor_network = True
- if utils.check_valid_uuid(site["netmap-use"]):
- filter_text = "scenario id '%s'" % site["netmap-use"]
- lookfor_filter["id"] = site["netmap-use"]
- else:
- filter_text = "scenario name '%s'" % site["netmap-use"]
- lookfor_filter["name"] = site["netmap-use"]
- if "netmap-create" in site:
- create_network = True
- net_vim_name = net_name
- if site["netmap-create"]:
- net_vim_name = site["netmap-create"]
-
- elif sce_net['vim_id'] != None:
+ else:
+ net_name = "{}.{}".format(instance_name, sce_net["name"])
+ net_name = net_name[:255] # limit length
+
+ if "netmap-use" in site or "netmap-create" in site:
+ create_network = False
+ lookfor_network = False
+ if "netmap-use" in site:
+ lookfor_network = True
+ if utils.check_valid_uuid(site["netmap-use"]):
+ filter_text = "scenario id '%s'" % site["netmap-use"]
+ lookfor_filter["id"] = site["netmap-use"]
+ else:
+ filter_text = "scenario name '%s'" % site["netmap-use"]
+ lookfor_filter["name"] = site["netmap-use"]
+ if "netmap-create" in site:
+ create_network = True
+ net_vim_name = net_name
+ if site["netmap-create"]:
+ net_vim_name = site["netmap-create"]
+ elif sce_net["external"]:
+ if sce_net['vim_id'] != None:
#there is a netmap at datacenter_nets database #TODO REVISE!!!!
create_network = False
lookfor_network = True
net_vim_name = sce_net["name"]
filter_text = "scenario name '%s'" % sce_net["name"]
else:
- if not net_name:
- net_name = "%s.%s" %(instance_name, sce_net["name"])
- net_name = net_name[:255] #limit length
net_vim_name = net_name
create_network = True
lookfor_network = False
+
+
if lookfor_network:
vim_nets = vim.get_network_list(filter_dict=lookfor_filter)
if len(vim_nets) > 1:
db_instance_vms = []
db_instance_interfaces = []
#myvim.new_vminstance(self,vimURI,tenant_id,name,description,image_id,flavor_id,net_dict)
- sce_vnf_list = sorted(scenarioDict['vnfs'], key=lambda k: k['name'])
+ sce_vnf_list = sorted(scenarioDict['vnfs'], key=lambda k: k['name'])
#for sce_vnf in scenarioDict['vnfs']:
for sce_vnf in sce_vnf_list:
vnf_availability_zones = []
def deassociate_datacenter_to_tenant(mydb, tenant_id, datacenter, vim_tenant_id=None):
#get datacenter info
- datacenter_id, myvim = get_datacenter_by_name_uuid(mydb, None, datacenter)
+ datacenter_id, myvim = get_datacenter_by_name_uuid(mydb, tenant_id, datacenter)
#get nfvo_tenant info
if not tenant_id or tenant_id=="any":
datacenter_id, myvim = get_datacenter_by_name_uuid(mydb, tenant_id, datacenter)
network = myvim.get_network_list(filter_dict=filter_dict)
except vimconn.vimconnException as e:
- print "vim_action Not possible to get_%s_list from VIM: %s " % (item, str(e))
- raise NfvoException("Not possible to get_{}_list from VIM: {}".format(item, str(e)), e.http_code)
+ raise NfvoException("Not possible to get_sdn_net_id from VIM: {}".format(str(e)), e.http_code)
# ensure the network is defined
if len(network) == 0: