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osm.etsi.org / osm / vim-emu / 85408ed517f100c3e477efd35e54630bf9171af0 / . / src / emuvim / api / sonata / dummygatekeeper.py
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# Copyright (c) 2015 SONATA-NFV and Paderborn University
# 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.
#
# Neither the name of the SONATA-NFV, Paderborn University
# nor the names of its contributors may be used to endorse or promote
# products derived from this software without specific prior written
# permission.
#
# This work has been performed in the framework of the SONATA project,
# funded by the European Commission under Grant number 671517 through
# the Horizon 2020 and 5G-PPP programmes. The authors would like to
# acknowledge the contributions of their colleagues of the SONATA
# partner consortium (www.sonata-nfv.eu).
import logging
import os
import uuid
import hashlib
import zipfile
import yaml
import threading
from docker import DockerClient
from flask import Flask, request
import flask_restful as fr
from collections import defaultdict
import pkg_resources
from subprocess import Popen
from random import randint
import ipaddress
import copy
import time
from functools import reduce
logging.basicConfig()
LOG = logging.getLogger("sonata-dummy-gatekeeper")
LOG.setLevel(logging.DEBUG)
logging.getLogger("werkzeug").setLevel(logging.WARNING)
GK_STORAGE = "/tmp/son-dummy-gk/"
UPLOAD_FOLDER = os.path.join(GK_STORAGE, "uploads/")
CATALOG_FOLDER = os.path.join(GK_STORAGE, "catalog/")
# Enable Dockerfile build functionality
BUILD_DOCKERFILE = False
# flag to indicate that we run without the emulator (only the bare API for
# integration testing)
GK_STANDALONE_MODE = False
# should a new version of an image be pulled even if its available
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
# override the management interfaces in the descriptors with default
# docker0 interfaces in the containers
USE_DOCKER_MGMT = False
# automatically deploy uploaded packages (no need to execute son-access
# deploy --latest separately)
AUTO_DEPLOY = False
# and also automatically terminate any other running services
AUTO_DELETE = False
def generate_subnets(prefix, base, subnet_size=50, mask=24):
# Generate a list of ipaddress in subnets
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)))
return r
# private subnet definitions for the generated interfaces
# 10.10.xxx.0/24
SAP_SUBNETS = generate_subnets('10.10', 0, subnet_size=50, mask=30)
# 10.20.xxx.0/30
ELAN_SUBNETS = generate_subnets('10.20', 0, subnet_size=50, mask=24)
# 10.30.xxx.0/30
ELINE_SUBNETS = generate_subnets('10.30', 0, subnet_size=50, mask=30)
# path to the VNFD for the SAP VNF that is deployed as internal SAP point
SAP_VNFD = None
# Time in seconds to wait for vnf stop scripts to execute fully
VNF_STOP_WAIT_TIME = 5
class Gatekeeper(object):
def __init__(self):
self.services = dict()
self.dcs = dict()
self.net = None
# used to generate short names for VNFs (Mininet limitation)
self.vnf_counter = 0
LOG.info("Create SONATA dummy gatekeeper.")
def register_service_package(self, service_uuid, service):
"""
register new service package
:param service_uuid
:param service object
"""
self.services[service_uuid] = service
# lets perform all steps needed to onboard the service
service.onboard()
def get_next_vnf_name(self):
self.vnf_counter += 1
return "vnf%d" % self.vnf_counter
class Service(object):
"""
This class represents a NS uploaded as a *.son package to the
dummy gatekeeper.
Can have multiple running instances of this service.
"""
def __init__(self,
service_uuid,
package_file_hash,
package_file_path):
self.uuid = service_uuid
self.package_file_hash = package_file_hash
self.package_file_path = package_file_path
self.package_content_path = os.path.join(
CATALOG_FOLDER, "services/%s" % self.uuid)
self.manifest = None
self.nsd = None
self.vnfds = dict()
self.saps = dict()
self.saps_ext = list()
self.saps_int = list()
self.local_docker_files = dict()
self.remote_docker_image_urls = dict()
self.instances = dict()
# dict to find the vnf_name for any vnf id
self.vnf_id2vnf_name = dict()
def onboard(self):
"""
Do all steps to prepare this service to be instantiated
:return:
"""
# 1. extract the contents of the package and store them in our catalog
self._unpack_service_package()
# 2. read in all descriptor files
self._load_package_descriptor()
self._load_nsd()
self._load_vnfd()
if DEPLOY_SAP:
self._load_saps()
# 3. prepare container images (e.g. download or build Dockerfile)
if BUILD_DOCKERFILE:
self._load_docker_files()
self._build_images_from_dockerfiles()
else:
self._load_docker_urls()
self._pull_predefined_dockerimages()
LOG.info("On-boarded service: %r" % self.manifest.get("name"))
def start_service(self):
"""
This methods creates and starts a new service instance.
It computes placements, iterates over all VNFDs, and starts
each VNFD as a Docker container in the data center selected
by the placement algorithm.
:return:
"""
LOG.info("Starting service %r" % self.uuid)
# 1. each service instance gets a new uuid to identify it
instance_uuid = str(uuid.uuid4())
# build a instances dict (a bit like a NSR :))
self.instances[instance_uuid] = dict()
self.instances[instance_uuid]["vnf_instances"] = list()
# 2. compute placement of this service instance (adds DC names to
# VNFDs)
if not GK_STANDALONE_MODE:
# self._calculate_placement(FirstDcPlacement)
self._calculate_placement(RoundRobinDcPlacementWithSAPs)
# 3. start all vnfds that we have in the service (except SAPs)
for vnf_id in self.vnfds:
vnfd = self.vnfds[vnf_id]
vnfi = None
if not GK_STANDALONE_MODE:
vnfi = self._start_vnfd(vnfd, vnf_id)
self.instances[instance_uuid]["vnf_instances"].append(vnfi)
# 4. start all SAPs in the service
for sap in self.saps:
self._start_sap(self.saps[sap], instance_uuid)
# 5. Deploy E-Line and E_LAN links
# Attention: Only done if ""forwarding_graphs" section in NSD exists,
# even if "forwarding_graphs" are not used directly.
if "virtual_links" in self.nsd and "forwarding_graphs" in self.nsd:
vlinks = self.nsd["virtual_links"]
# constituent virtual links are not checked
# fwd_links = self.nsd["forwarding_graphs"][0]["constituent_virtual_links"]
eline_fwd_links = [l for l in vlinks if (
l["connectivity_type"] == "E-Line")]
elan_fwd_links = [l for l in vlinks if (
l["connectivity_type"] == "E-LAN")]
GK.net.deployed_elines.extend(eline_fwd_links)
GK.net.deployed_elans.extend(elan_fwd_links)
# 5a. deploy E-Line links
self._connect_elines(eline_fwd_links, instance_uuid)
# 5b. deploy E-LAN links
self._connect_elans(elan_fwd_links, instance_uuid)
# 6. run the emulator specific entrypoint scripts in the VNFIs of this
# service instance
self._trigger_emulator_start_scripts_in_vnfis(
self.instances[instance_uuid]["vnf_instances"])
LOG.info("Service started. Instance id: %r" % instance_uuid)
return instance_uuid
def stop_service(self, instance_uuid):
"""
This method stops a running service instance.
It iterates over all VNF instances, stopping them each
and removing them from their data center.
:param instance_uuid: the uuid of the service instance to be stopped
"""
LOG.info("Stopping service %r" % self.uuid)
# get relevant information
# instance_uuid = str(self.uuid.uuid4())
vnf_instances = self.instances[instance_uuid]["vnf_instances"]
# trigger stop skripts in vnf instances and wait a few seconds for
# completion
self._trigger_emulator_stop_scripts_in_vnfis(vnf_instances)
time.sleep(VNF_STOP_WAIT_TIME)
for v in vnf_instances:
self._stop_vnfi(v)
for sap_name in self.saps_ext:
ext_sap = self.saps[sap_name]
target_dc = ext_sap.get("dc")
target_dc.removeExternalSAP(sap_name)
LOG.info("Stopping the SAP instance: %r in DC %r" %
(sap_name, target_dc))
if not GK_STANDALONE_MODE:
# remove placement?
# self._remove_placement(RoundRobinPlacement)
None
# last step: remove the instance from the list of all instances
del self.instances[instance_uuid]
def _start_vnfd(self, vnfd, vnf_id, **kwargs):
"""
Start a single VNFD of this service
:param vnfd: vnfd descriptor dict
:param vnf_id: unique id of this vnf in the nsd
:return:
"""
# the vnf_name refers to the container image to be deployed
vnf_name = vnfd.get("name")
# iterate over all deployment units within each VNFDs
for u in vnfd.get("virtual_deployment_units"):
# 1. get the name of the docker image to start and the assigned DC
if vnf_id not in self.remote_docker_image_urls:
raise Exception("No image name for %r found. Abort." % vnf_id)
docker_name = self.remote_docker_image_urls.get(vnf_id)
target_dc = vnfd.get("dc")
# 2. perform some checks to ensure we can start the container
assert(docker_name is not None)
assert(target_dc is not None)
if not self._check_docker_image_exists(docker_name):
raise Exception(
"Docker image %r not found. Abort." % docker_name)
# 3. get the resource limits
res_req = u.get("resource_requirements")
cpu_list = res_req.get("cpu").get("cores")
if cpu_list is None:
cpu_list = res_req.get("cpu").get("vcpus")
if cpu_list is None:
cpu_list = "1"
cpu_bw = res_req.get("cpu").get("cpu_bw")
if not cpu_bw:
cpu_bw = 1
mem_num = str(res_req.get("memory").get("size"))
if len(mem_num) == 0:
mem_num = "2"
mem_unit = str(res_req.get("memory").get("size_unit"))
if str(mem_unit) == 0:
mem_unit = "GB"
mem_limit = float(mem_num)
if mem_unit == "GB":
mem_limit = mem_limit * 1024 * 1024 * 1024
elif mem_unit == "MB":
mem_limit = mem_limit * 1024 * 1024
elif mem_unit == "KB":
mem_limit = mem_limit * 1024
mem_lim = int(mem_limit)
cpu_period, cpu_quota = self._calculate_cpu_cfs_values(
float(cpu_bw))
# check if we need to deploy the management ports
intfs = vnfd.get("connection_points", [])
mgmt_intf_names = []
if USE_DOCKER_MGMT:
mgmt_intfs = [vnf_id + ':' + intf['id']
for intf in intfs if intf.get('type') == 'management']
# check if any of these management interfaces are used in a
# management-type network in the nsd
for nsd_intf_name in mgmt_intfs:
vlinks = [l["connection_points_reference"]
for l in self.nsd.get("virtual_links", [])]
for link in vlinks:
if nsd_intf_name in link and self.check_mgmt_interface(
link):
# this is indeed a management interface and can be
# skipped
vnf_id, vnf_interface, vnf_sap_docker_name = parse_interface(
nsd_intf_name)
found_interfaces = [
intf for intf in intfs if intf.get('id') == vnf_interface]
intfs.remove(found_interfaces[0])
mgmt_intf_names.append(vnf_interface)
# 4. generate the volume paths for the docker container
volumes = list()
# a volume to extract log files
docker_log_path = "/tmp/results/%s/%s" % (self.uuid, vnf_id)
LOG.debug("LOG path for vnf %s is %s." % (vnf_id, docker_log_path))
if not os.path.exists(docker_log_path):
LOG.debug("Creating folder %s" % docker_log_path)
os.makedirs(docker_log_path)
volumes.append(docker_log_path + ":/mnt/share/")
# 5. do the dc.startCompute(name="foobar") call to run the container
# TODO consider flavors, and other annotations
# TODO: get all vnf id's from the nsd for this vnfd and use those as dockername
# use the vnf_id in the nsd as docker name
# so deployed containers can be easily mapped back to the nsd
LOG.info("Starting %r as %r in DC %r" %
(vnf_name, vnf_id, vnfd.get("dc")))
LOG.debug("Interfaces for %r: %r" % (vnf_id, intfs))
vnfi = target_dc.startCompute(
vnf_id,
network=intfs,
image=docker_name,
flavor_name="small",
cpu_quota=cpu_quota,
cpu_period=cpu_period,
cpuset=cpu_list,
mem_limit=mem_lim,
volumes=volumes,
type=kwargs.get('type', 'docker'))
# rename the docker0 interfaces (eth0) to the management port name
# defined in the VNFD
if USE_DOCKER_MGMT:
for intf_name in mgmt_intf_names:
self._vnf_reconfigure_network(
vnfi, 'eth0', new_name=intf_name)
return vnfi
def _stop_vnfi(self, vnfi):
"""
Stop a VNF instance.
:param vnfi: vnf instance to be stopped
"""
# Find the correct datacenter
status = vnfi.getStatus()
dc = vnfi.datacenter
# stop the vnfi
LOG.info("Stopping the vnf instance contained in %r in DC %r" %
(status["name"], dc))
dc.stopCompute(status["name"])
def _get_vnf_instance(self, instance_uuid, vnf_id):
"""
Returns the Docker object for the given VNF id (or Docker name).
:param instance_uuid: UUID of the service instance to search in.
:param name: VNF name or Docker name. We are fuzzy here.
:return:
"""
dn = vnf_id
for vnfi in self.instances[instance_uuid]["vnf_instances"]:
if vnfi.name == dn:
return vnfi
LOG.warning("No container with name: {0} found.".format(dn))
return None
@staticmethod
def _vnf_reconfigure_network(vnfi, if_name, net_str=None, new_name=None):
"""
Reconfigure the network configuration of a specific interface
of a running container.
:param vnfi: container instance
:param if_name: interface name
:param net_str: network configuration string, e.g., 1.2.3.4/24
:return:
"""
# assign new ip address
if net_str is not None:
intf = vnfi.intf(intf=if_name)
if intf is not None:
intf.setIP(net_str)
LOG.debug("Reconfigured network of %s:%s to %r" %
(vnfi.name, if_name, net_str))
else:
LOG.warning("Interface not found: %s:%s. Network reconfiguration skipped." % (
vnfi.name, if_name))
if new_name is not None:
vnfi.cmd('ip link set', if_name, 'down')
vnfi.cmd('ip link set', if_name, 'name', new_name)
vnfi.cmd('ip link set', new_name, 'up')
LOG.debug("Reconfigured interface name of %s:%s to %s" %
(vnfi.name, if_name, new_name))
def _trigger_emulator_start_scripts_in_vnfis(self, vnfi_list):
for vnfi in vnfi_list:
config = vnfi.dcinfo.get("Config", dict())
env = config.get("Env", list())
for env_var in env:
var, cmd = map(str.strip, map(str, env_var.split('=', 1)))
LOG.debug("%r = %r" % (var, cmd))
if var == "SON_EMU_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 _trigger_emulator_stop_scripts_in_vnfis(self, vnfi_list):
for vnfi in vnfi_list:
config = vnfi.dcinfo.get("Config", dict())
env = config.get("Env", list())
for env_var in env:
var, cmd = map(str.strip, map(str, env_var.split('=', 1)))
if var == "SON_EMU_CMD_STOP":
LOG.info("Executing stop 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):
"""
unzip *.son file and store contents in CATALOG_FOLDER/services/<service_uuid>/
"""
LOG.info("Unzipping: %r" % self.package_file_path)
with zipfile.ZipFile(self.package_file_path, "r") as z:
z.extractall(self.package_content_path)
def _load_package_descriptor(self):
"""
Load the main package descriptor YAML and keep it as dict.
:return:
"""
self.manifest = load_yaml(
os.path.join(
self.package_content_path, "META-INF/MANIFEST.MF"))
def _load_nsd(self):
"""
Load the entry NSD YAML and keep it as dict.
:return:
"""
if "entry_service_template" in self.manifest:
nsd_path = os.path.join(
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)
# create dict to find the vnf_name for any vnf id
self.vnf_id2vnf_name = defaultdict(lambda: "NotExistingNode",
reduce(lambda x, y: dict(x, **y),
map(lambda d: {d["vnf_id"]: d["vnf_name"]},
self.nsd["network_functions"])))
LOG.debug("Loaded NSD: %r" % self.nsd.get("name"))
def _load_vnfd(self):
"""
Load all VNFD YAML files referenced in MANIFEST.MF and keep them in dict.
:return:
"""
# first make a list of all the vnfds in the package
vnfd_set = dict()
if "package_content" in self.manifest:
for pc in self.manifest.get("package_content"):
if pc.get(
"content-type") == "application/sonata.function_descriptor":
vnfd_path = os.path.join(
self.package_content_path,
make_relative_path(pc.get("name")))
vnfd = load_yaml(vnfd_path)
vnfd_set[vnfd.get("name")] = vnfd
# then link each vnf_id in the nsd to its vnfd
for vnf_id in self.vnf_id2vnf_name:
vnf_name = self.vnf_id2vnf_name[vnf_id]
self.vnfds[vnf_id] = vnfd_set[vnf_name]
LOG.debug("Loaded VNFD: {0} id: {1}".format(vnf_name, vnf_id))
def _load_saps(self):
# create list of all SAPs
# check if we need to deploy management ports
if USE_DOCKER_MGMT:
SAPs = [p for p in self.nsd["connection_points"]
if 'management' not in p.get('type')]
else:
SAPs = [p for p in self.nsd["connection_points"]]
for sap in SAPs:
# endpoint needed in this service
sap_id, sap_interface, sap_docker_name = parse_interface(sap['id'])
# make sure SAP has type set (default internal)
sap["type"] = sap.get("type", 'internal')
# Each Service Access Point (connection_point) in the nsd is an IP
# address on the host
if sap["type"] == "external":
# add to vnfds to calculate placement later on
sap_net = SAP_SUBNETS.pop(0)
self.saps[sap_docker_name] = {
"name": sap_docker_name, "type": "external", "net": sap_net}
# add SAP vnf to list in the NSD so it is deployed later on
# each SAP gets a unique VNFD and vnf_id in the NSD and custom
# type (only defined in the dummygatekeeper)
self.nsd["network_functions"].append(
{"vnf_id": sap_docker_name, "vnf_name": sap_docker_name, "vnf_type": "sap_ext"})
# Each Service Access Point (connection_point) in the nsd is
# getting its own container (default)
elif sap["type"] == "internal" or sap["type"] == "management":
# add SAP to self.vnfds
if SAP_VNFD is None:
sapfile = pkg_resources.resource_filename(
__name__, "sap_vnfd.yml")
else:
sapfile = SAP_VNFD
sap_vnfd = load_yaml(sapfile)
sap_vnfd["connection_points"][0]["id"] = sap_interface
sap_vnfd["name"] = sap_docker_name
sap_vnfd["type"] = "internal"
# add to vnfds to calculate placement later on and deploy
self.saps[sap_docker_name] = sap_vnfd
# add SAP vnf to list in the NSD so it is deployed later on
# each SAP get a unique VNFD and vnf_id in the NSD
self.nsd["network_functions"].append(
{"vnf_id": sap_docker_name, "vnf_name": sap_docker_name, "vnf_type": "sap_int"})
LOG.debug("Loaded SAP: name: {0}, type: {1}".format(
sap_docker_name, sap['type']))
# create sap lists
self.saps_ext = [self.saps[sap]['name']
for sap in self.saps if self.saps[sap]["type"] == "external"]
self.saps_int = [self.saps[sap]['name']
for sap in self.saps if self.saps[sap]["type"] == "internal"]
def _start_sap(self, sap, instance_uuid):
if not DEPLOY_SAP:
return
LOG.info('start SAP: {0} ,type: {1}'.format(sap['name'], sap['type']))
if sap["type"] == "internal":
vnfi = None
if not GK_STANDALONE_MODE:
vnfi = self._start_vnfd(sap, sap['name'], type='sap_int')
self.instances[instance_uuid]["vnf_instances"].append(vnfi)
elif sap["type"] == "external":
target_dc = sap.get("dc")
# add interface to dc switch
target_dc.attachExternalSAP(sap['name'], sap['net'])
def _connect_elines(self, eline_fwd_links, instance_uuid):
"""
Connect all E-LINE links in the NSD
:param eline_fwd_links: list of E-LINE links in the NSD
:param: instance_uuid of the service
:return:
"""
# cookie is used as identifier for the flowrules installed by the dummygatekeeper
# eg. different services get a unique cookie for their flowrules
cookie = 1
for link in eline_fwd_links:
# check if we need to deploy this link when its a management link:
if USE_DOCKER_MGMT:
if self.check_mgmt_interface(
link["connection_points_reference"]):
continue
src_id, src_if_name, src_sap_id = parse_interface(
link["connection_points_reference"][0])
dst_id, dst_if_name, dst_sap_id = parse_interface(
link["connection_points_reference"][1])
setChaining = False
# check if there is a SAP in the link and chain everything together
if src_sap_id in self.saps and dst_sap_id in self.saps:
LOG.info(
'2 SAPs cannot be chained together : {0} - {1}'.format(src_sap_id, dst_sap_id))
continue
elif src_sap_id in self.saps_ext:
src_id = src_sap_id
# set intf name to None so the chaining function will choose
# the first one
src_if_name = None
dst_vnfi = self._get_vnf_instance(instance_uuid, dst_id)
if dst_vnfi is not None:
# choose first ip address in sap subnet
sap_net = self.saps[src_sap_id]['net']
sap_ip = "{0}/{1}".format(str(sap_net[2]),
sap_net.prefixlen)
self._vnf_reconfigure_network(
dst_vnfi, dst_if_name, sap_ip)
setChaining = True
elif dst_sap_id in self.saps_ext:
dst_id = dst_sap_id
# set intf name to None so the chaining function will choose
# the first one
dst_if_name = None
src_vnfi = self._get_vnf_instance(instance_uuid, src_id)
if src_vnfi is not None:
sap_net = self.saps[dst_sap_id]['net']
sap_ip = "{0}/{1}".format(str(sap_net[2]),
sap_net.prefixlen)
self._vnf_reconfigure_network(
src_vnfi, src_if_name, sap_ip)
setChaining = True
# Link between 2 VNFs
else:
# make sure we use the correct sap vnf name
if src_sap_id in self.saps_int:
src_id = src_sap_id
if dst_sap_id in self.saps_int:
dst_id = dst_sap_id
# 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_id)
dst_vnfi = self._get_vnf_instance(instance_uuid, dst_id)
if src_vnfi is not None and dst_vnfi is not None:
eline_net = ELINE_SUBNETS.pop(0)
ip1 = "{0}/{1}".format(str(eline_net[1]),
eline_net.prefixlen)
ip2 = "{0}/{1}".format(str(eline_net[2]),
eline_net.prefixlen)
self._vnf_reconfigure_network(src_vnfi, src_if_name, ip1)
self._vnf_reconfigure_network(dst_vnfi, dst_if_name, ip2)
setChaining = True
# Set the chaining
if setChaining:
GK.net.setChain(
src_id, dst_id,
vnf_src_interface=src_if_name, vnf_dst_interface=dst_if_name,
bidirectional=BIDIRECTIONAL_CHAIN, cmd="add-flow", cookie=cookie, priority=10)
LOG.debug(
"Setting up E-Line link. (%s:%s) -> (%s:%s)" % (
src_id, src_if_name, dst_id, dst_if_name))
def _connect_elans(self, elan_fwd_links, instance_uuid):
"""
Connect all E-LAN links in the NSD
:param elan_fwd_links: list of E-LAN links in the NSD
:param: instance_uuid of the service
:return:
"""
for link in elan_fwd_links:
# check if we need to deploy this link when its a management link:
if USE_DOCKER_MGMT:
if self.check_mgmt_interface(
link["connection_points_reference"]):
continue
elan_vnf_list = []
# check if an external SAP is in the E-LAN (then a subnet is
# already defined)
intfs_elan = [intf for intf in link["connection_points_reference"]]
lan_sap = self.check_ext_saps(intfs_elan)
if lan_sap:
lan_net = self.saps[lan_sap]['net']
lan_hosts = list(lan_net.hosts())
else:
lan_net = ELAN_SUBNETS.pop(0)
lan_hosts = list(lan_net.hosts())
# generate lan ip address for all interfaces except external SAPs
for intf in link["connection_points_reference"]:
# skip external SAPs, they already have an ip
vnf_id, vnf_interface, vnf_sap_docker_name = parse_interface(
intf)
if vnf_sap_docker_name in self.saps_ext:
elan_vnf_list.append(
{'name': vnf_sap_docker_name, 'interface': vnf_interface})
continue
ip_address = "{0}/{1}".format(str(lan_hosts.pop(0)),
lan_net.prefixlen)
vnf_id, intf_name, vnf_sap_id = parse_interface(intf)
# make sure we use the correct sap vnf name
src_docker_name = vnf_id
if vnf_sap_id in self.saps_int:
src_docker_name = vnf_sap_id
vnf_id = vnf_sap_id
LOG.debug(
"Setting up E-LAN interface. (%s:%s) -> %s" % (
vnf_id, intf_name, ip_address))
# 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 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_id)
if vnfi is not None:
self._vnf_reconfigure_network(vnfi, intf_name, ip_address)
# add this vnf and interface to the E-LAN for tagging
elan_vnf_list.append(
{'name': src_docker_name, 'interface': intf_name})
# install the VLAN tags for this E-LAN
GK.net.setLAN(elan_vnf_list)
def _load_docker_files(self):
"""
Get all paths to Dockerfiles from VNFDs and store them in dict.
:return:
"""
for k, v in self.vnfds.iteritems():
for vu in v.get("virtual_deployment_units"):
if vu.get("vm_image_format") == "docker":
vm_image = vu.get("vm_image")
docker_path = os.path.join(
self.package_content_path,
make_relative_path(vm_image))
self.local_docker_files[k] = docker_path
LOG.debug("Found Dockerfile (%r): %r" % (k, docker_path))
def _load_docker_urls(self):
"""
Get all URLs to pre-build docker images in some repo.
:return:
"""
# also merge sap dicts, because internal saps also need a docker
# container
all_vnfs = self.vnfds.copy()
all_vnfs.update(self.saps)
for k, v in all_vnfs.iteritems():
for vu in v.get("virtual_deployment_units", {}):
if vu.get("vm_image_format") == "docker":
url = vu.get("vm_image")
if url is not None:
url = url.replace("http://", "")
self.remote_docker_image_urls[k] = url
LOG.debug("Found Docker image URL (%r): %r" %
(k, self.remote_docker_image_urls[k]))
def _build_images_from_dockerfiles(self):
"""
Build Docker images for each local Dockerfile found in the package: self.local_docker_files
"""
if GK_STANDALONE_MODE:
return # do not build anything in standalone mode
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 line in dc.build(path=v.replace(
"Dockerfile", ""), tag=k, rm=False, nocache=False):
LOG.debug("DOCKER BUILD: %s" % line)
LOG.info("Docker image created: %s" % k)
def _pull_predefined_dockerimages(self):
"""
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():
# only pull if not present (speedup for development)
if not FORCE_PULL:
if len(dc.images.list(name=url)) > 0:
LOG.debug("Image %r present. Skipping pull." % url)
continue
LOG.info("Pulling image: %r" % url)
# this seems to fail with latest docker api version 2.0.2
# dc.images.pull(url,
# insecure_registry=True)
# using docker cli instead
cmd = ["docker",
"pull",
url,
]
Popen(cmd).wait()
def _check_docker_image_exists(self, image_name):
"""
Query the docker service and check if the given image exists
:param image_name: name of the docker image
:return:
"""
return len(DockerClient().images.list(name=image_name)) > 0
def _calculate_placement(self, algorithm):
"""
Do placement by adding the a field "dc" to
each VNFD that points to one of our
data center objects known to the gatekeeper.
"""
assert(len(self.vnfds) > 0)
assert(len(GK.dcs) > 0)
# instantiate algorithm an place
p = algorithm()
p.place(self.nsd, self.vnfds, self.saps, GK.dcs)
LOG.info("Using placement algorithm: %r" % p.__class__.__name__)
# lets print the placement result
for name, vnfd in self.vnfds.iteritems():
LOG.info("Placed VNF %r on DC %r" % (name, str(vnfd.get("dc"))))
for sap in self.saps:
sap_dict = self.saps[sap]
LOG.info("Placed SAP %r on DC %r" % (sap, str(sap_dict.get("dc"))))
def _calculate_cpu_cfs_values(self, cpu_time_percentage):
"""
Calculate cpu period and quota for CFS
:param cpu_time_percentage: percentage of overall CPU to be used
:return: cpu_period, cpu_quota
"""
if cpu_time_percentage is None:
return -1, -1
if cpu_time_percentage < 0:
return -1, -1
# (see: https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt)
# Attention minimum cpu_quota is 1ms (micro)
cpu_period = 1000000 # lets consider a fixed period of 1000000 microseconds for now
LOG.debug("cpu_period is %r, cpu_percentage is %r" %
(cpu_period, cpu_time_percentage))
# calculate the fraction of cpu time for this container
cpu_quota = cpu_period * cpu_time_percentage
# ATTENTION >= 1000 to avoid a invalid argument system error ... no
# idea why
if cpu_quota < 1000:
LOG.debug("cpu_quota before correcting: %r" % cpu_quota)
cpu_quota = 1000
LOG.warning("Increased CPU quota to avoid system error.")
LOG.debug("Calculated: cpu_period=%f / cpu_quota=%f" %
(cpu_period, cpu_quota))
return int(cpu_period), int(cpu_quota)
def check_ext_saps(self, intf_list):
# check if the list of interfacs contains an external SAP
saps_ext = [self.saps[sap]['name']
for sap in self.saps if self.saps[sap]["type"] == "external"]
for intf_name in intf_list:
vnf_id, vnf_interface, vnf_sap_docker_name = parse_interface(
intf_name)
if vnf_sap_docker_name in saps_ext:
return vnf_sap_docker_name
def check_mgmt_interface(self, intf_list):
SAPs_mgmt = [p.get('id') for p in self.nsd["connection_points"]
if 'management' in p.get('type')]
for intf_name in intf_list:
if intf_name in SAPs_mgmt:
return True
"""
Some (simple) placement algorithms
"""
class FirstDcPlacement(object):
"""
Placement: Always use one and the same data center from the GK.dcs dict.
"""
def place(self, nsd, vnfds, saps, dcs):
for id, vnfd in vnfds.iteritems():
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, saps, dcs):
c = 0
dcs_list = list(dcs.itervalues())
for id, vnfd in vnfds.iteritems():
vnfd["dc"] = dcs_list[c % len(dcs_list)]
c += 1 # inc. c to use next DC
class RoundRobinDcPlacementWithSAPs(object):
"""
Placement: Distribute VNFs across all available DCs in a round robin fashion,
every SAP is instantiated on the same DC as the connected VNF.
"""
def place(self, nsd, vnfds, saps, dcs):
# place vnfs
c = 0
dcs_list = list(dcs.itervalues())
for id, vnfd in vnfds.iteritems():
vnfd["dc"] = dcs_list[c % len(dcs_list)]
c += 1 # inc. c to use next DC
# place SAPs
vlinks = nsd.get("virtual_links", [])
eline_fwd_links = [l for l in vlinks if (
l["connectivity_type"] == "E-Line")]
elan_fwd_links = [l for l in vlinks if (
l["connectivity_type"] == "E-LAN")]
# SAPs on E-Line links are placed on the same DC as the VNF on the
# E-Line
for link in eline_fwd_links:
src_id, src_if_name, src_sap_id = parse_interface(
link["connection_points_reference"][0])
dst_id, dst_if_name, dst_sap_id = parse_interface(
link["connection_points_reference"][1])
# check if there is a SAP in the link
if src_sap_id in saps:
# get dc where connected vnf is mapped to
dc = vnfds[dst_id]['dc']
saps[src_sap_id]['dc'] = dc
if dst_sap_id in saps:
# get dc where connected vnf is mapped to
dc = vnfds[src_id]['dc']
saps[dst_sap_id]['dc'] = dc
# SAPs on E-LANs are placed on a random DC
dcs_list = list(dcs.itervalues())
dc_len = len(dcs_list)
for link in elan_fwd_links:
for intf in link["connection_points_reference"]:
# find SAP interfaces
intf_id, intf_name, intf_sap_id = parse_interface(intf)
if intf_sap_id in saps:
dc = dcs_list[randint(0, dc_len - 1)]
saps[intf_sap_id]['dc'] = dc
"""
Resource definitions and API endpoints
"""
class Packages(fr.Resource):
def post(self):
"""
Upload a *.son service package to the dummy gatekeeper.
We expect request with a *.son file and store it in UPLOAD_FOLDER
:return: UUID
"""
try:
# get file contents
LOG.info("POST /packages called")
# lets search for the package in the request
is_file_object = False # make API more robust: file can be in data or in files field
if "package" in request.files:
son_file = request.files["package"]
is_file_object = True
elif len(request.data) > 0:
son_file = request.data
else:
return {"service_uuid": None, "size": 0, "sha1": None,
"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()
# ensure that upload folder exists
ensure_dir(UPLOAD_FOLDER)
upload_path = os.path.join(UPLOAD_FOLDER, "%s.son" % service_uuid)
# store *.son file to disk
if is_file_object:
son_file.save(upload_path)
else:
with open(upload_path, 'wb') as f:
f.write(son_file)
size = os.path.getsize(upload_path)
# first stop and delete any other running services
if AUTO_DELETE:
service_list = copy.copy(GK.services)
for service_uuid in service_list:
instances_list = copy.copy(
GK.services[service_uuid].instances)
for instance_uuid in instances_list:
# valid service and instance UUID, stop service
GK.services.get(service_uuid).stop_service(
instance_uuid)
LOG.info("service instance with uuid %r stopped." %
instance_uuid)
# create a service object and register it
s = Service(service_uuid, file_hash, upload_path)
GK.register_service_package(service_uuid, s)
# automatically deploy the service
if AUTO_DEPLOY:
# ok, we have a service uuid, lets start the service
reset_subnets()
GK.services.get(service_uuid).start_service()
# generate the JSON result
return {"service_uuid": service_uuid, "size": size,
"sha1": file_hash, "error": None}, 201
except BaseException:
LOG.exception("Service package upload failed:")
return {"service_uuid": None, "size": 0,
"sha1": None, "error": "upload failed"}, 500
def get(self):
"""
Return a list of UUID's of uploaded service packages.
:return: dict/list
"""
LOG.info("GET /packages")
return {"service_uuid_list": list(GK.services.iterkeys())}
class Instantiations(fr.Resource):
def post(self):
"""
Instantiate a service specified by its UUID.
Will return a new UUID to identify the running service instance.
:return: UUID
"""
LOG.info("POST /instantiations (or /requests) called")
# try to extract the service uuid from the request
json_data = request.get_json(force=True)
service_uuid = json_data.get("service_uuid")
# lets be a bit fuzzy here to make testing easier
if (service_uuid is None or service_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]
if service_uuid in GK.services:
# ok, we have a service uuid, lets start the service
service_instance_uuid = GK.services.get(
service_uuid).start_service()
return {"service_instance_uuid": service_instance_uuid}, 201
return "Service not found", 404
def get(self):
"""
Returns a list of UUIDs containing all running services.
:return: dict / list
"""
LOG.info("GET /instantiations")
return {"service_instantiations_list": [
list(s.instances.iterkeys()) for s in GK.services.itervalues()]}
def delete(self):
"""
Stops a running service specified by its service and instance UUID.
"""
# try to extract the service and instance UUID from the request
json_data = request.get_json(force=True)
service_uuid = json_data.get("service_uuid")
instance_uuid = json_data.get("service_instance_uuid")
# try to be fuzzy
if service_uuid is None and len(GK.services) > 0:
# if we don't get a service uuid, we simply stop the last service
# in the list
service_uuid = list(GK.services.iterkeys())[0]
if instance_uuid is None and len(
GK.services[service_uuid].instances) > 0:
instance_uuid = list(
GK.services[service_uuid].instances.iterkeys())[0]
if service_uuid in GK.services and instance_uuid in GK.services[service_uuid].instances:
# valid service and instance UUID, stop service
GK.services.get(service_uuid).stop_service(instance_uuid)
return "service instance with uuid %r stopped." % instance_uuid, 200
return "Service not found", 404
class Exit(fr.Resource):
def put(self):
"""
Stop the running Containernet instance regardless of data transmitted
"""
list(GK.dcs.values())[0].net.stop()
def initialize_GK():
global GK
GK = Gatekeeper()
# create a single, global GK object
GK = None
initialize_GK()
# setup Flask
app = Flask(__name__)
app.config['MAX_CONTENT_LENGTH'] = 512 * 1024 * 1024 # 512 MB max upload
api = fr.Api(app)
# define endpoints
api.add_resource(Packages, '/packages', '/api/v2/packages')
api.add_resource(Instantiations, '/instantiations',
'/api/v2/instantiations', '/api/v2/requests')
api.add_resource(Exit, '/emulator/exit')
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,
debug=True,
use_reloader=False # this is needed to run Flask in a non-main thread
)
def ensure_dir(name):
if not os.path.exists(name):
os.makedirs(name)
def load_yaml(path):
with open(path, "r") as f:
try:
r = yaml.load(f)
except yaml.YAMLError as exc:
LOG.exception("YAML parse error: %r" % str(exc))
r = dict()
return r
def make_relative_path(path):
if path.startswith("file://"):
path = path.replace("file://", "", 1)
if path.startswith("/"):
path = path.replace("/", "", 1)
return path
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
def parse_interface(interface_name):
"""
convert the interface name in the nsd to the according vnf_id, vnf_interface names
:param interface_name:
:return:
"""
if ':' in interface_name:
vnf_id, vnf_interface = interface_name.split(':')
vnf_sap_docker_name = interface_name.replace(':', '_')
else:
vnf_id = interface_name
vnf_interface = interface_name
vnf_sap_docker_name = interface_name
return vnf_id, vnf_interface, vnf_sap_docker_name
def reset_subnets():
# private subnet definitions for the generated interfaces
# 10.10.xxx.0/24
global SAP_SUBNETS
SAP_SUBNETS = generate_subnets('10.10', 0, subnet_size=50, mask=30)
# 10.20.xxx.0/30
global ELAN_SUBNETS
ELAN_SUBNETS = generate_subnets('10.20', 0, subnet_size=50, mask=24)
# 10.30.xxx.0/30
global ELINE_SUBNETS
ELINE_SUBNETS = generate_subnets('10.30', 0, subnet_size=50, mask=30)
if __name__ == '__main__':
"""
Lets allow to run the API in standalone mode.
"""
GK_STANDALONE_MODE = True
logging.getLogger("werkzeug").setLevel(logging.INFO)
start_rest_api("0.0.0.0", 8000)