import hashlib
import zipfile
import yaml
+import threading
from docker import Client as DockerClient
from flask import Flask, request
import flask_restful as fr
FORCE_PULL = False
# Automatically deploy SAPs (endpoints) of the service as new containers
+# Attention: This is not a configuration switch but a global variable! Don't change its default value.
DEPLOY_SAP = False
+# flag to indicate if we use bidirectional forwarding rules in the automatic chaining process
+BIDIRECTIONAL_CHAIN = False
+
class Gatekeeper(object):
def __init__(self):
self.services = dict()
self.dcs = dict()
+ self.net = None
self.vnf_counter = 0 # used to generate short names for VNFs (Mininet limitation)
LOG.info("Create SONATA dummy gatekeeper.")
self.eline_subnets_src = generate_subnet_strings(50, start=200, subnet_size=24, ip=1)
self.eline_subnets_dst = generate_subnet_strings(50, start=200, subnet_size=24, ip=2)
-
def onboard(self):
"""
Do all steps to prepare this service to be instantiated
# 3. compute placement of this service instance (adds DC names to VNFDs)
if not GK_STANDALONE_MODE:
- self._calculate_placement(FirstDcPlacement)
+ #self._calculate_placement(FirstDcPlacement)
+ self._calculate_placement(RoundRobinDcPlacement)
# iterate over all vnfds that we have to start
for vnfd in self.vnfds.itervalues():
vnfi = None
eline_fwd_links = [l for l in vlinks if (l["id"] in fwd_links) and (l["connectivity_type"] == "E-Line")]
elan_fwd_links = [l for l in vlinks if (l["id"] in fwd_links) and (l["connectivity_type"] == "E-LAN")]
+ GK.net.deployed_elines.extend(eline_fwd_links)
+ GK.net.deployed_elans.extend(elan_fwd_links)
+
# 4a. deploy E-Line links
# cookie is used as identifier for the flowrules installed by the dummygatekeeper
# eg. different services get a unique cookie for their flowrules
ret = network.setChain(
src_docker_name, dst_docker_name,
vnf_src_interface=src_if_name, vnf_dst_interface=dst_if_name,
- bidirectional=True, cmd="add-flow", cookie=cookie, priority=10)
+ bidirectional=BIDIRECTIONAL_CHAIN, cmd="add-flow", cookie=cookie, priority=10)
# re-configure the VNFs IP assignment and ensure that a new subnet is used for each E-Link
src_vnfi = self._get_vnf_instance(instance_uuid, src_name)
# 4b. deploy E-LAN links
base = 10
for link in elan_fwd_links:
+
+ elan_vnf_list=[]
+
# generate lan ip address
ip = 1
for intf in link["connection_points_reference"]:
if vnf_id in self.sap_identifiers:
src_docker_name = "{0}_{1}".format(vnf_id, intf_name)
vnf_id = src_docker_name
+ else:
+ src_docker_name = vnf_id
vnf_name = vnf_id2vnf_name[vnf_id]
LOG.debug(
"Setting up E-LAN link. %s(%s:%s) -> %s" % (
if vnf_name in self.vnfds:
# re-configure the VNFs IP assignment and ensure that a new subnet is used for each E-LAN
- # E-LAN relies on the learning switch capability of the infrastructure switch in dockernet,
- # so no explicit chaining is necessary
+ # E-LAN relies on the learning switch capability of Ryu which has to be turned on in the topology
+ # (DCNetwork(controller=RemoteController, enable_learning=True)), so no explicit chaining is necessary.
vnfi = self._get_vnf_instance(instance_uuid, vnf_name)
if vnfi is not None:
self._vnf_reconfigure_network(vnfi, intf_name, ip_address)
# increase for the next ip address on this E-LAN
ip += 1
+
+ # add this vnf and interface to the E-LAN for tagging
+ network = self.vnfds[vnf_name].get("dc").net # there should be a cleaner way to find the DCNetwork
+ elan_vnf_list.append({'name':src_docker_name,'interface':intf_name})
+
+
+ # install the VLAN tags for this E-LAN
+ network.setLAN(elan_vnf_list)
# increase the base ip address for the next E-LAN
base += 1
for env_var in env:
if "SON_EMU_CMD=" in env_var:
cmd = str(env_var.split("=")[1])
- LOG.info("Executing entrypoint script in %r: %r" % (vnfi.name, cmd))
- vnfi.cmdPrint(cmd)
+ LOG.info("Executing entry point script in %r: %r" % (vnfi.name, cmd))
+ # execute command in new thread to ensure that GK is not blocked by VNF
+ t = threading.Thread(target=vnfi.cmdPrint, args=(cmd,))
+ t.daemon = True
+ t.start()
def _unpack_service_package(self):
"""
self.package_content_path,
make_relative_path(self.manifest.get("entry_service_template")))
self.nsd = load_yaml(nsd_path)
+ GK.net.deployed_nsds.append(self.nsd)
LOG.debug("Loaded NSD: %r" % self.nsd.get("name"))
def _load_vnfd(self):
# set of the connection_point ids found in the nsd (in the examples this is 'ns')
self.sap_identifiers.add(sap_vnf_id)
- sap_docker_name = sap.replace(':', '_')
+ sap_docker_name = "%s_%s" % (sap_vnf_id, sap_vnf_interface)
# add SAP to self.vnfds
sapfile = pkg_resources.resource_filename(__name__, "sap_vnfd.yml")
vnfd["dc"] = list(dcs.itervalues())[0]
+class RoundRobinDcPlacement(object):
+ """
+ Placement: Distribute VNFs across all available DCs in a round robin fashion.
+ """
+ def place(self, nsd, vnfds, dcs):
+ c = 0
+ dcs_list = list(dcs.itervalues())
+ for name, vnfd in vnfds.iteritems():
+ vnfd["dc"] = dcs_list[c % len(dcs_list)]
+ c += 1 # inc. c to use next DC
+
+
+
+
"""
Resource definitions and API endpoints
"""
s = Service(service_uuid, file_hash, upload_path)
GK.register_service_package(service_uuid, s)
# generate the JSON result
- return {"service_uuid": service_uuid, "size": size, "sha1": file_hash, "error": None}
+ return {"service_uuid": service_uuid, "size": size, "sha1": file_hash, "error": None}, 201
except Exception as ex:
LOG.exception("Service package upload failed:")
return {"service_uuid": None, "size": 0, "sha1": None, "error": "upload failed"}, 500
def start_rest_api(host, port, datacenters=dict()):
GK.dcs = datacenters
+ GK.net = get_dc_network()
# start the Flask server (not the best performance but ok for our use case)
app.run(host=host,
port=port,
r.append("%d.0.0.%d/%d" % (i, ip, subnet_size))
return r
+def get_dc_network():
+ """
+ retrieve the DCnetwork where this dummygatekeeper (GK) connects to.
+ Assume at least 1 datacenter is connected to this GK, and that all datacenters belong to the same DCNetwork
+ :return:
+ """
+ assert (len(GK.dcs) > 0)
+ return GK.dcs.values()[0].net
if __name__ == '__main__':
"""