# do some re-naming of fields to be compatible to containernet
for i in intfs:
if i.get("address"):
+ LOG.info("Found static address for {}: {}"
+ .format(i.get("id"), i.get("address")))
i["ip"] = i.get("address")
# get ports and port_bindings from the port and publish fields of CNFD
conf_envs = self._load_instance_conf_envs(vnf_container_instance_name)
cenv.update(conf_envs)
+ # 5.3 handle optional ipc_mode setting
+ ipc_mode = u.get("ipc_mode", None)
+ # 5.4 handle optional devices setting
+ devices = u.get("devices", [])
+ # 5.5 handle optional cap_add setting
+ cap_add = u.get("cap_add", [])
+
# 6. Start the container
LOG.info("Starting %r as %r in DC %r" %
(vnf_name, vnf_container_instance_name, target_dc))
port_bindings=port_bindings,
# only publish if explicitly stated in descriptor
publish_all_ports=False,
+ ipc_mode=ipc_mode,
+ devices=devices,
+ cap_add=cap_add,
type=kwargs.get('type', 'docker'))
# add vnfd reference to vnfi
vnfi.vnfd = vnfd
lan_hosts = list(lan_net.hosts())
# generate lan ip address for all interfaces (of all involved (V/CDUs))
- for intf in link["connection_points_reference"]:
- vnf_id, intf_name = parse_interface(intf)
+ for intf_ref in link["connection_points_reference"]:
+ vnf_id, intf_name = parse_interface(intf_ref)
if vnf_id is None:
continue # skip references to NS connection points
units = self._get_vnf_instance_units(instance_uuid, vnf_id)
# Attention: we apply a simplification for multi DU VNFs here:
# the connection points of all involved DUs have to have the same
# name as the connection points of the surrounding VNF to be mapped.
- # This is because we do not consider links specified in the VNFds
+ # This is because we do not consider links specified in the VNFDs
container_name = uvnfi.name
- ip_address = "{0}/{1}".format(str(lan_hosts.pop(0)),
- lan_net.prefixlen)
+
+ ip_address = None
+ # get the interface of the unit
+ intf = self._get_vnfd_cp_from_vnfi(uvnfi, intf_name)
+ # check if there is a manually assigned address
+ if intf is not None:
+ if intf.get("address"):
+ ip_address = intf.get("address")
+ if ip_address is None:
+ # automatically asign an IP from our pool
+ ip_address = "{0}/{1}".format(str(lan_hosts.pop(0)),
+ lan_net.prefixlen)
LOG.debug(
"Setting up E-LAN/E-Tree interface. (%s:%s) -> %s" % (
container_name, intf_name, ip_address))
Get all URLs to pre-build docker images in some repo.
:return:
"""
- for vnf_id, v in self.vnfds.iteritems():
+ for vnf_id, v in list(self.vnfds.items()):
for vu in v.get("virtual_deployment_units", []):
vnf_container_name = get_container_name(vnf_id, vu.get("id"))
if vu.get("vm_image_format") == "docker":
dc = DockerClient()
LOG.info("Building %d Docker images (this may take several minutes) ..." % len(
self.local_docker_files))
- for k, v in self.local_docker_files.iteritems():
+ for k, v in list(self.local_docker_files.items()):
for line in dc.build(path=v.replace(
"Dockerfile", ""), tag=k, rm=False, nocache=False):
LOG.debug("DOCKER BUILD: %s" % line)
If the package contains URLs to pre-build Docker images, we download them with this method.
"""
dc = DockerClient()
- for url in self.remote_docker_image_urls.itervalues():
+ for url in list(self.remote_docker_image_urls.values()):
# only pull if not present (speedup for development)
if not FORCE_PULL:
if len(dc.images.list(name=url)) > 0:
"""
def place(self, dcs, vnfd, vnfid, vdu, ssiid, cname):
- return list(dcs.itervalues())[0]
+ return list(dcs.values())[0]
class RoundRobinDcPlacement(object):
self.count = 0
def place(self, dcs, vnfd, vnfid, vdu, ssiid, cname):
- dcs_list = list(dcs.itervalues())
+ dcs_list = list(dcs.values())
rdc = dcs_list[self.count % len(dcs_list)]
self.count += 1 # inc. count to use next DC
return rdc
if cname not in self.static_placement:
LOG.error("Coudn't find {} in placement".format(cname))
LOG.error("Using first DC as fallback!")
- return list(dcs.itervalues())[0]
+ return list(dcs.values())[0]
# lookup
candidate_dc = self.static_placement.get(cname)
# check if DC exsits
if candidate_dc not in dcs:
LOG.error("Coudn't find DC {}".format(candidate_dc))
LOG.error("Using first DC as fallback!")
- return list(dcs.itervalues())[0]
+ return list(dcs.values())[0]
# return correct DC
return dcs.get(candidate_dc)
"error": "upload failed. file not found."}, 500
# generate a uuid to reference this package
service_uuid = str(uuid.uuid4())
- file_hash = hashlib.sha1(str(son_file)).hexdigest()
+ file_hash = str(son_file)
+ file_hash = hashlib.sha1(file_hash.encode())
+ file_hash = file_hash.hexdigest()
# ensure that upload folder exists
ensure_dir(UPLOAD_FOLDER)
- upload_path = os.path.join(UPLOAD_FOLDER, "%s.tgo" % service_uuid)
+ upload_path = os.path.\
+ join(UPLOAD_FOLDER, "%s.tgo" % service_uuid)
# store *.son file to disk
if is_file_object:
son_file.save(upload_path)
"""
LOG.info("GET /packages")
result = list()
- for suuid, sobj in GK.services.iteritems():
+ for suuid, sobj in GK.services.items():
pkg = dict()
pkg["pd"] = dict()
pkg["uuid"] = suuid
"""
LOG.info("GET /services")
result = list()
- for suuid, sobj in GK.services.iteritems():
+ for suuid, sobj in GK.services.items():
service = dict()
service["nsd"] = dict()
service["uuid"] = suuid
service_name = service_uuid
# first try to find by service_name
if service_name is not None:
- for s_uuid, s in GK.services.iteritems():
+ for s_uuid, s in GK.services.items():
if s.manifest.get("name") == service_name:
LOG.info("Searched for: {}. Found service w. UUID: {}"
.format(service_name, s_uuid))
"latest") and len(GK.services) > 0:
# if we don't get a service uuid, we simple start the first service
# in the list
- service_uuid = list(GK.services.iterkeys())[0]
+ service_uuid = list(GK.services.keys())[0]
if service_uuid in GK.services:
# ok, we have a service uuid, lets start the service
service_instance_uuid = GK.services.get(
"""
LOG.debug("GET /instantiations or /api/v3/records/services")
# return {"service_instantiations_list": [
- # list(s.instances.iterkeys()) for s in GK.services.itervalues()]}
+ # list(s.instances.keys()) for s in GK.services.values()]}
result = list()
- for suuid, sobj in GK.services.iteritems():
- for iuuid, iobj in sobj.instances.iteritems():
+ for suuid, sobj in GK.services.items():
+ for iuuid, iobj in sobj.instances.items():
inst = dict()
inst["uuid"] = iobj.get("uuid")
inst["instance_name"] = "{}-inst.{}".format(
# try to be fuzzy
if service_uuid_input is None:
# if we don't get a service uuid we stop all services
- service_uuid_list = list(GK.services.iterkeys())
+ service_uuid_list = list(GK.services.keys())
LOG.info("No service_uuid given, stopping all.")
else:
service_uuid_list = [service_uuid_input]
for service_uuid in service_uuid_list:
if instance_uuid_input is None:
instance_uuid_list = list(
- GK.services[service_uuid].instances.iterkeys())
+ GK.services[service_uuid].instances.keys())
else:
instance_uuid_list = [instance_uuid_input]
# for all service instances
r = list()
for net in range(base, base + subnet_size):
subnet = "{0}.{1}.0/{2}".format(prefix, net, mask)
- r.append(ipaddress.ip_network(unicode(subnet)))
+ r.append(ipaddress.ip_network(subnet))
return r
:return:
"""
assert (len(GK.dcs) > 0)
- return GK.dcs.values()[0].net
+ return list(GK.dcs.values())[0].net
def parse_interface(interface_name):
def _offset(p):
return p + MULTI_INSTANCE_PORT_OFFSET * ssiid
- port_bindings = {k: _offset(v) for k, v in port_bindings.iteritems()}
+ port_bindings = {k: _offset(v) for k, v in port_bindings.items()}
return port_bindings