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Introduction:

OVN4NFV is the Network controller designed based on the K8s controller framework and provides Open flow control based on OVN. This address OVN based Multiple Network creation, support Multiple network interfaces and support Virtual networking and Provider networkings.

Problem statement:

Application transformation is one of the major objectives in the edge computing in the cloud-native evolution. Taking a PNF(Physical Network Function) or a VNF(Virtual Network Functions) to be ready to deploy in the edge is as challenging because the NFs(Network Functions) are composited into smaller microservices and these microservers will be deployed in the multiple edge location. Controlling the network traffics such as both control plane and data plane traffics in the scenarios is required to achieve low latency and multiple clusters networking

Solution:

Adding Multi cluster networking is a challenging requirement for Edge networking in the cloud-native world. As Kubernetes delegates all the networking features to CNI(Container Network Interfaces), and right now we have 16+ CNI types that offer various networking features starting from localhost to BGP networking. Having a single network controller for the Multiple Cluster within an edge and also across geo-distributed edge location is a requirement to create a virtual network, provider networks across the edges, and apply the same tuning parameter for the network resources in the edges.

As edge locations are as small as 16 GB RAM, we don't have the options to run multiple network controller in edge, we required to have single network controller that could handle all the network requirement of the edge.

  • Kubelets invoke the CNI as a process at each time for the pod creation and deletion. Having more complex in the CNI binary will increase the pod creation and deletion time. we are required to have thin shim CNI layers and more complex to be moved to the network controller.  Having a CNI controller as a process along with Kubelet is the ideal solution, but this requires a serious change in Kubernetes networking.
  • CNI is complexing as they are forced to multiple items features within them. 
  • Having a proxy CNI that calls another network controllers/CNI to invoke multiple network interfaces is forcing to having multiple read and write operation to store the post and pre-state of the network creation, and this invokes multiple CNIs to achieve a simple networking configuration such as bonding and Qos. Are even to apply the SFCs mechanism
  • CNI framework also doesn't address the on-fly changing in the networking such as route change, overcome the network failovers or to apply SFCs to meet the network demands on the fly.


OVN4NFV is designed to address all the challenges. We designed the very thin layer of CNI shim that development to maintain the CNI framework and all the networking complexity such as Multiple networking, handling the infinite network resouces and finite network resources are moved in a single network controller.

Features:

InFinite Network Resources:

Virtual Networks: 

OVN4NFV uses the NFN operator to define the virtual network CRs that will create a OVN networking for virtual networking as defined in the CR.

Virutal network
apiVersion: k8splugin.opnfv.org/v1alpha1
kind: Network
metadata:
  name: ovn-priv-net
spec:
  cniType: ovn4nfv
  ipv4subnets:
  - subnet: 172.16.33.0/24
    name: subnet1
    gateway: 172.16.33.1/24
    excludeIps: 172.16.33.2 172.16.33.5..172.16.33.10

This CR defines the OVN networking and provides the gateway and exclude IPs to be reserved for any internal static IP address assignment.

Provider Networks:

Provider network supports both VLAN and direct provider networking

Virutal network
apiVersion: k8s.plugin.opnfv.org/v1alpha1
kind: ProviderNetwork
metadata:
  name: pnetwork
spec:
  cniType: ovn4nfv
  ipv4Subnets:
  - subnet: 172.16.33.0/24
    name: subnet1
    gateway: 172.16.33.1/24
    excludeIps: 172.16.33.2 172.16.33.5..172.16.33.10
  providerNetType: VLAN
  vlan:
    vlanId: "100"
    providerInterfaceName: eth0
    logicalInterfaceName: eth0.100
    vlanNodeSelector: specific
    nodeLabelList:
    - kubernetes.io/hostname=ubuntu18

The major change between the VLAN provider network and direct provide networks is the VLAN information is provided in the VLAN CR and they are excluded in the direct provider

Virutal network
apiVersion: k8s.plugin.opnfv.org/v1alpha1
kind: ProviderNetwork
metadata:
  name: directpnetwork
spec:
  cniType: ovn4nfv
  ipv4Subnets:
  - subnet: 172.16.34.0/24
    name: subnet2
    gateway: 172.16.34.1/24
    excludeIps: 172.16.34.2 172.16.34.5..172.16.34.10
  providerNetType: DIRECT
  direct:
    providerInterfaceName: eth1.
    directNodeSelector: specific
    nodeLabelList:
    - kubernetes.io/hostname=ubuntu18

Service Function Chaining:

Virutal network
apiVersion:  k8splugin.opnfv.org/v1alpha1
kind: NetworkChaining
metadata:
  name: chain1
  namespace: vFW
spec:
  type: Routing
  routingSpec:
    leftNetwork:
      - networkName: ovn-provider1
        gatewayIP: 10.1.5.1
        subnet: 10.1.5.0/24
    rightNetwork:
      - networkName: ovn-provider1
        gatewayIP: 10.1.10.1
        subnet: default
    networkChain: app=slb, ovn-net1, app=ngfw, ovn-net2, app=sdwancnf

Finite network Resources:

SRIOV Overlay Networks:

Required features in SRIOV Overlay networking:
  • Currently, OVN4NFV by default create the Veth pair interfaces for all interfaces.
  • SRIOV Overlay networks introduce a feature to include the interfaceType in the OVN networking and provide the deviceplugin sock name and targets on the devices only having SRIOV hardware-enabled labels
SRIOV Type Virtual network
Virutal network
apiVersion: k8splugin.opnfv.org/v1alpha1
kind: Network
metadata:
  name: ovn-sriov-net
spec:
  cniType: ovn4nfv
  ipv4subnets:
  - subnet: 172.16.33.0/24
    name: subnet1
    gateway: 172.16.33.1/24
    excludeIps: 172.16.33.2 172.16.33.5..172.16.33.10
    NodeSelector: specific
    nodeLabelList:
    - feature.node.kubernetes.io/network-sriov.capable=true
    - feature.node.kubernetes.io/custom-xl710.present=true
SRIOV Type provider network
Virutal network
apiVersion: k8s.plugin.opnfv.org/v1alpha1
kind: ProviderNetwork
metadata:
  name: ovn-sriov-vlan-pnetwork
spec:
  cniType: ovn4nfv
  interface:
  - Type:sriov
    deviceName: intel.com/intel_sriov_700
  ipv4Subnets:
  - subnet: 172.16.33.0/24
    name: subnet1
    gateway: 172.16.33.1/24
    excludeIps: 172.16.33.2 172.16.33.5..172.16.33.10
  providerNetType: VLAN
  vlan:
    vlanId: "100"
    providerInterfaceName: eth0
    logicalInterfaceName: eth0.100
    vlanNodeSelector: specific
    nodeLabelList:
    - feature.node.kubernetes.io/network-sriov.capable=true
    - feature.node.kubernetes.io/custom-xl710.present=true
SRIOV Type Direct network
Virutal network
apiVersion: k8s.plugin.opnfv.org/v1alpha1
kind: ProviderNetwork
metadata:
  name: ovn-sriov-direct-pnetwork
spec:
  cniType: ovn4nfv
  interface:
  - Type:sriov
    deviceName: intel.com/intel_sriov_700
  ipv4Subnets:
  - subnet: 172.16.34.0/24
    name: subnet2
    gateway: 172.16.34.1/24
    excludeIps: 172.16.34.2 172.16.34.5..172.16.34.10
  providerNetType: DIRECT
  direct:
    providerInterfaceName: enp
    directNodeSelector: specific
    nodeLabelList:
    - feature.node.kubernetes.io/network-sriov.capable=true
    - feature.node.kubernetes.io/custom-xl710.present=true
Parameter definition:

interface - Define the type of sriov interface to be created.

deviceName - Define device plugin to be targeted to get the pod resource information from the kubelet api - For more information refer here - 

https://github.com/kubernetes/kubernetes/blob/master/test/e2e_node/util.go


sriov single pod spec
apiVersion: v1
kind: Pod
metadata:
  name: pod-case-01
  annotations:
    k8s.plugin.opnfv.org/nfn-network: '{ "type": "ovn4nfv", "interface": [{ "name": "ovn-sriov-virutal-net", "interface": "net0", Type: sriov, Attribute: [{type: bonding, mode: roundrobin}, {type:tuning, bandwidth:”2GB”}}]}'
spec:
  containers:
  - name: test-pod
    image: docker.io/centos/tools:latest
    command:
    - /sbin/init
    resources:
      requests:
        intel.com/intel_sriov_700: '1'
      limits:
        intel.com/intel_sriov_700: '1'

  1. Admission controller should be part of NFN operator that insert the request and limit to pod spec by reading the OVN4NFV net CR.
  2. This design adds the SRIOV directly into the OVN overlay for both primary and secondary networking. The development should also address the SNAT for all the interfaces

Comprehensive documentation:

OVN4NFV-k8s-plugin

How to use?

Development

Configuration

Presentation:

October 8th 2020

OVN4NFV slide deck:

OVN4NFV Prerecorded Demo:

March 9th 2020

OVN4NFV Slide deck:

OVN4NFV recorded Video:




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