multi-nic-cni

Documents and source codes for the deprecated domain cogadvisor.io are moved to cogadvisor-net branch

official document: https://foundation-model-stack.github.io/multi-nic-cni.

• Multi-NIC CNI
  • MultiNicNetwork
  • Usage
    • Requirements
    • Quick Installation
      • by OperatorHub
      • by manifests with kubectl
      • by bundle with operator-sdk
    • Deploy MultiNicNetwork resource
    • Check connections
      • One-time peer-to-peer - quick test
      • One-time all-to-all - recommended for small cluster (<10 HostInterfaces)
      • Health checker service
    • Uninstallation
• Troubleshooting

Multi-NIC CNI

Attaching secondary network interfaces that is linked to different network interfaces on host (NIC) to pod provides benefits of network segmentation and top-up network bandwidth in the containerization system.

Multi-NIC CNI is the CNI plugin operating on top of Multus CNI. However, unlike Multus, instead of defining and handling each secondary network interface one by one, this CNI automatically discovers all available secondary interfaces and handles them as a NIC pool. With this manner, it can provide the following benefits.

i) Common secondary network definition: User can manage only one network definition for multiple secondary interfaces with a common CNI main plugin such as ipvlan, macvlan, and sr-iov.

read more

ii) Common NAT-bypassing network solution: All secondary NICs on each host can be assigned with non-conflict CIDR and non-conflict L3 routing configuration that can omit an overlay networking overhead. Particularyly, the CNI is built-in with L3 IPVLAN solution composing of the following functionalities.

1. Interface-host-devision CIDR Computation: compute allocating CIDR range for each host and each interface from a single global subnet with the number of bits for hosts and for interface.
2. L3 Host Route Configuration: configure L3 routes (next hop via dev) in host route table according to the computed CIDR.
3. Distributed IP Allocation Management: manage IP allocation/deallocation distributedly via the communication between CNI program and daemon at each host.

read more

iii) Policy-based secondary network attachment: Instead of statically set the desired host's master interface name one by one, user can define a policy on attaching multiple secondary network interfaces such as specifying only the number of desired interfaces, filtering only highspeed NICs.

read more

The Multi-NIC CNI architecture can be found here.

MultiNicNetwork

The Multi-NIC operator operates over a custom resource named MultiNicNetwork defined by users. This definition will define a Pod global subnet, common network definition (main CNI and IPAM plugin), and attachment policy. After deploying MultiNicNetwork, NetworkAttachmentDefinition with the same name will be automatically configured and created respectively.

# network.yaml
apiVersion: multinic.fms.io/v1
kind: MultiNicNetwork
metadata:
  name: multi-nic-sample
spec:
  subnet: "192.168.0.0/16"
  ipam: |
    {
      "type": "multi-nic-ipam",
      "hostBlock": 6, 
      "interfaceBlock": 2,
      "vlanMode": "l3"
    }
  multiNICIPAM: true
  plugin:
    cniVersion: "0.3.0"
    type: ipvlan
    args: 
      mode: l3
  attachPolicy:
    strategy: none

Usage

Requirements

• Secondary interfaces attached to worker nodes, check terraform script here
• Multus CNI installation; compatible with networkAttachmentDefinition and pod annotation in multus-cni v3.8
• For IPVLAN L3 CNI, the following configurations are additionally required
  • enable allowing IP spoofing for each attached interface
  • set security group to allow IPs in the target container subnet
  • IPVLAN support (kernel version >= 4.2)

Quick Installation

• Kubernetes with OLM:

  • check multi-nic-cni-operator on OperatorHub.io

    

• Openshift Container Platform:

  • Search for multi-nic-cni-operator in OperatorHub

    

Recommended to deploy in the same default namespace for health check service, which is multi-nic-cni-operator.

(available after v1.0.5)

kubectl apply -f deploy/

operator-sdk run bundle ghcr.io/foundation-model-stack/multi-nic-cni-bundle:v1.3.0 -n multi-nic-cni-operator

Deploy MultiNicNetwork resource

1. Prepare network.yaml as shown in the example

2. Deploy

   kubectl apply -f network.yaml
   

   After deployment, the operator will create NetworkAttachmentDefinition of Multus CNI from MultiNicNetwork as well as dependent resource such as SriovNetworkNodePolicy, SriovNetwork for sriov plugin.

3. To attach additional interfaces, annotate the pod with the network name

   metadata:
     annotations:
       k8s.v1.cni.cncf.io/networks: multi-nic-sample
   

Check connections

1. Set target peer

   export SERVER_HOST_NAME=<target-server-node-name>
   export CLIENT_HOST_NAME=<target-client-node-name>
   

   If the target peer is not set, the last two of listed nodes will be selected as server and client, respectively.

2. Run the test

   make sample-concheck
   

   Example output:

   # pod/multi-nic-iperf3-server created
   # pod/multi-nic-iperf3-server condition met
   # pod/multi-nic-iperf3-client created
   # pod/multi-nic-iperf3-client condition met
   # [  5] local 192.168.0.66 port 46284 connected to 192.168.0.130 port 5201
   # [ ID] Interval           Transfer     Bitrate         Retr  Cwnd
   # [  5]   0.00-1.00   sec   121 MBytes  1.02 Gbits/sec    0   3.04 MBytes
   # [  5]   1.00-2.00   sec   114 MBytes   954 Mbits/sec    0   3.04 MBytes
   # [  5]   2.00-3.00   sec   115 MBytes   964 Mbits/sec   45   2.19 MBytes
   # [  5]   3.00-4.00   sec   114 MBytes   954 Mbits/sec   45   1.67 MBytes
   # [  5]   4.00-5.00   sec   114 MBytes   954 Mbits/sec    0   1.77 MBytes
   # - - - - - - - - - - - - - - - - - - - - - - - - -
   # [ ID] Interval           Transfer     Bitrate         Retr
   # [  5]   0.00-5.00   sec   577 MBytes   969 Mbits/sec   90             sender
   # [  5]   0.00-5.04   sec   574 MBytes   956 Mbits/sec                  receiver
   
   # iperf Done.
   # pod "multi-nic-iperf3-client" deleted
   # pod "multi-nic-iperf3-server" deleted
   

1. Run

   make concheck
   

   Example output:

   # serviceaccount/multi-nic-concheck-account created
   # clusterrole.rbac.authorization.k8s.io/multi-nic-concheck-cr created
   # clusterrolebinding.rbac.authorization.k8s.io/multi-nic-concheck-cr-binding created
   # job.batch/multi-nic-concheck created
   # Wait for job/multi-nic-concheck to complete
   # job.batch/multi-nic-concheck condition met
   # 2023/02/14 01:22:21 Config
   # W0214 01:22:21.976565       1 client_config.go:617] Neither --kubeconfig nor --master was specified.  Using the inClusterConfig.  This might not work.
   # 2023/02/14 01:22:23 2/2 servers successfully created
   # 2023/02/14 01:22:23 p-cni-operator-ipvlanl3-multi-nic-n7zf6-worker-2-zt5l5-serv: Pending
   ...
   # 2023/02/14 01:23:13 2/2 clients successfully finished
   # ###########################################
   # ## Connection Check: multi-nic-cni-operator-ipvlanl3
   # ###########################################
   # FROM                           TO                              CONNECTED/TOTAL IPs                            BANDWIDTHs
   # multi-nic-n7zf6-worker-2-zt5l5 multi-nic-n7zf6-worker-2-zxw2n  2/2             [192.168.0.65 192.168.64.65]   [ 1.05Gbits/sec 1.03Gbits/sec]
   # multi-nic-n7zf6-worker-2-zxw2n multi-nic-n7zf6-worker-2-zt5l5  2/2             [192.168.0.129 192.168.64.129] [ 934Mbits/sec 937Mbits/sec]
   # ###########################################
   # 2023/02/14 01:23:13 multi-nic-cni-operator-ipvlanl3 checked
   

   If the job takes longer than 50 minutes (mostly in large cluster), you will get

   error: timed out waiting for the condition on jobs/multi-nic-concheck

   Check the test progress directly:

   kubectl get po -w
   

   When the multi-nic-concheck job has completed, check the log:

   kubectl logs job/multi-nic-concheck
   

   If some connection failed, you may investigate the failure from log of the iperf3 client pod.

2. Clean up the job

    make clean-concheck
   

Deploy health check and agents to the cluster to serve a functional and connetion checking on-demand and periodically exporting to Prometheus metric server. See more detail.

Uninstallation

1. Clean all CRs

   make clean-resource
   

2. Uninstall

   For installation by manifests with kubectl:

   kubectl delete -f deploy/
   

   For installation by bundle with operator-sdk:

   operator-sdk cleanup multi-nic-cni-operator --delete-all -n multi-nic-cni-operator
   

Troubleshooting

Multi-NIC CNI operator is composed of multiple components. There are some common issues could happen due to the missing required configuration (e.g., security rule on VPC), versioning, and 3rd party CNI.

To primarily troubleshoot the failure, please check the Troubleshooting (Common Issues) page.