Contents

Overview·· 1

Preparing for installation· 2

Hardware requirements· 2

Software requirements· 2

Configuring the Kubernetes nodes· 3

Configuring a node in host-based overlay model 3

Configuring a node in network-based overlay model 3

Installing the SDN Kubernetes plug-in· 6

Loading the plug-in Docker image· 6

Installing the plug-in· 6

Managing log files for the plug-in· 14

Removing the plug-in· 14

Upgrading the plug-in· 14

Configuration example· 15

Configuring Pod network parameters· 15

Configuring Pod network parameters by using the default network· 15

Configuring Pod network parameters by using labels· 15

Configuring Pod network parameters by using annotations· 16

Configuring Pod network parameters by using NetworkConfiguration CRD·· 17

Configuring an IP address for the Pod· 18

Specifying a static IP address for the Pod· 18

Configuring an IP address pool 19

Configuring network, QoS, and security group parameters for a Pod by using definition CRDs· 20

Configuring network parameters for a Pod by using a NetworkAttachmentDefinition CRD·· 20

Configuring network QoS parameters for a Pod by using a QoS CRD·· 22

Configuring network security group parameters for a Pod by using a security group CRD·· 23

Configuring network IP address parameters for a Pod by using a port CRD·· 24

Configuring parameters and creating a Pod by using CRDs· 24

Using NetworkPolicies· 25

 

Overview

Kubernetes is an open-source container orchestration platform for automated deployment, scaling, and management of containerized applications.

Pods are the smallest deployable units of computing in Kubernetes. A Pod is a group of one or more tightly coupled containers, with shared network resources and file system and specifications for how to run the containers.

Installation of the SDN Kubernetes plug-in allows pods in Kubernetes to come online on SeerEngine-DC for the controller to monitor traffic, deploy security policies, and provide networking services for the Pods.

Preparing for installation

Hardware requirements

Table 1 shows the minimum hardware requirements for installing the SDN Kubernetes plug-in on a physical server or virtual machine.

Table 1 Minimum hardware requirements

CPU	Memory size	Disk size
Quad-core	8 GB	50 GB

 

Software requirements

Table 2 shows the software requirements for installing the SDN Kubernetes plug-in.

Table 2 Software requirements

Item	Supported versions
Kubernetes	Kubernetes 1.9x to 1.21x.
vSwitch	·     Host-based overlay—For the vSwitch version information, see the release notes for the SeerEngine-DC controller. ·     Network-based overlay—Open vSwitch 2.9 and later. For the compatibility between the Open vSwitch and operating system kernel versions, see Table 3.

 

Table 3 Compatibility between the Open vSwitch and operating system kernel versions

Open vSwitch version	Linux kernel version
2.9.x	3.10 to 4.13
2.10.x	3.16 to 4.17
2.11.x	3.16 to 4.18
2.12.x	3.16 to 5.0
2.13.x	3.16 to 5.0
2.14.x	3.16 to 5.5
2.15.x	3.16 to 5.8

 

Configuring the Kubernetes nodes

You must configure basic settings for Kubernetes nodes before installing the SDN Kubernetes plug-in.

Configuring a node in host-based overlay model

1.     Install the S1020V vSwitch. For the installation procedure, see the installation guide for the S1020V vSwitch.

2.     Configure a VDS on SeerEngine-DC and add the VDS configuration to the node.

The following configuration example uses vds1-br as the vSwitch name, eth1 as the uplink interface, vxlan_vds1-br as the VXLAN tunnel name, and 100.0.100.100 as the VTEP's IP. Make sure the host-based overlay nodes are reachable to each other over VTEP IPs.

$ ovs-vsctl add-br vds1-br

$ ovs-vsctl add-port vds1-br eth1

$ ovs-vsctl add-port vds1-br vxlan_vds1-br -- set interface vxlan_vds1-br type=vxlan options:remote_ip=flow options:local_ip=100.0.100.100 options:key=flow

$ ip link set vds1-br up

$ ip addr add 100.0.100.100/16 dev vds1-br

To avoid loss of the VDS bridge's IP address after a node reboot, configure the IP address for the VDS bridge as follows for a root user:

a.     Use the vi editor to open the /etc/profile file, press i to switch to insert mode, and then add the following two lines at the end of the file.

ip link set vds1-br up

ip addr add 100.0.100.100/16 dev vds1-br

b.     Press Esc to enter command mode and enter :wq to save the file and quit the vi editor.

For a non-root user to perform this operation, it must have write access to the /etc/profile file and add sudo before the ip link set vds1-br up and ip addr add 100.0.100.100/16 dev vds1-br commands.

3.     Configure a KVM-type compute domain on the controller and associate the domain with the VDS.

4.     Add the node to the hosts in the compute domain.

Configuring a node in network-based overlay model

1.     Install a version of Open vSwitch compatible with the kernel version of the operating system. See Table 3 for the compatibility between the Open vSwitch and operating system kernel versions.

$ yum install -y openvswitch

$ systemctl enable openvswitch.service

$ systemctl start openvswitch.service

2.     Install and start lldpd.

$ yum install -y lldpd

$ systemctl enable lldpd.service

$ systemctl start lldpd.service

3.     Add an Open vSwitch bridge (br-eno2 for example) on the node, specify the OpenFlow version, and set the fail mode to secure.

$ ovs-vsctl add-br br-eno2

$ ovs-vsctl set bridge br-eno2 protocols=OpenFlow13

$ ovs-vsctl set-fail-mode br-eno2 secure

4.     Add an uplink interface (eno2 for example) to the Open vSwitch bridge and configure the interface settings.

$ ovs-vsctl add-port br-eno2 eno2

$ ovs-vsctl br-set-external-id br-eno2 uplinkInterface eno2

5.     (Optional.) To deploy K8s on a bare metal, add the UUID of the bare metal vPort (coming online on the controller), for example, 1e10786f-f894-533f-838c-23c2766ed1d1, the UUID of the virtual link layer network where the vPort resides, for example, 3c07b72c-4ee8-4b2a-aff2-cacb3d84c8f6, and the management network gateway of the K8s cluster, for example, 10.10.0.254, to the OVS bridge.

$ ovs-vsctl br-set-external-id br-eno2 uplinkNetworkId 3c07b72c-4ee8-4b2a-aff2-cacb3d84c8f6

$ ovs-vsctl br-set-external-id br-eno2 uplinkPortId 1e10786f-f894-533f-838c-23c2766ed1d1

$ ovs-vsctl br-set-external-id br-eno2 managementNetworkGw 10.10.0.254

6.     (Optional.) To deploy K8s on a VM created in trunk port mode on OpenStack, perform the following tasks:

a.     Add the following settings for the OVS bridge:

-     UUID of the trunk port on OpenStack, for example, 1e10786f-f894-533f-838c-23c2766ed1d1.

-     UUID of the virtual link layer network where the trunk port resides, for example, 3c07b72c-4ee8-4b2a-aff2-cacb3d84c8f6.

-     Management network gateway of the K8s cluster, for example, 10.10.0.254.

-     Connected cloud scenario. The value can only be OpenStack.

-     Virtualization type. The value can only be KVM.

-     Access type. The value can only be netoverlay.

b.     Configure lldpd on the host where the VM resides. For the configuration procedure, see step 2.

$ ovs-vsctl br-set-external-id br-eno2 uplinkNetworkId 3c07b72c-4ee8-4b2a-aff2-cacb3d84c8f6

$ ovs-vsctl br-set-external-id br-eno2 uplinkPortId 1e10786f-f894-533f-838c-23c2766ed1d1

$ ovs-vsctl br-set-external-id br-eno2 managementNetworkGw 10.10.0.254

$ ovs-vsctl br-set-external-id br-eno2 cloud openstack

$ ovs-vsctl br-set-external-id br-eno2 virtType kvm

$ ovs-vsctl br-set-external-id br-eno2 accessType netoverlay

7.     To deploy K8s in Ironic mode on OpenStack, perform the following tasks:

a.     Add the following settings for the OVS bridge:

-     UUID of the corresponding uplink port on OpenStack, for example, 1e10786f-f894-533f-838c-23c2766ed1d1.

-     UUID of the virtual link layer network where the uplink port resides, for example, 3c07b72c-4ee8-4b2a-aff2-cacb3d84c8f6.

-     Management network gateways of the K8s cluster, for example, 10.10.0.254.

-      Cloud scenario with which the OVS bridge interoperates. The value can only be OpenStack.

-     Virtualization type. The value can only be Ironic.

-     Overly mode. The value can only be Netoverlay.

b.     Configure the lldpd service for the host where the VM resides. For the configuration procedure, see step 2.

$ ovs-vsctl br-set-external-id br-eno2 uplinkNetworkId 3c07b72c-4ee8-4b2a-aff2-cacb3d84c8f6

$ ovs-vsctl br-set-external-id br-eno2 uplinkPortId 1e10786f-f894-533f-838c-23c2766ed1d1

$ ovs-vsctl br-set-external-id br-eno2 managementNetworkGw 10.10.0.254

$ ovs-vsctl br-set-external-id br-eno2 cloud openstack

$ ovs-vsctl br-set-external-id br-eno2 virtType ironic

$ ovs-vsctl br-set-external-id br-eno2 accessType netoverlay

 

Installing the SDN Kubernetes plug-in

Loading the plug-in Docker image

Follow these steps to load the plug-in Docker image on the master and nodes, respectively:

1.     Obtain the SDN Kubernetes plug-in Docker image package. Then save the package to the installation directory on the server or virtual machine The name of the package is in the SeerEngine_DC_NET_PLUGIN-version.tar format, where version represents the version number.

 

CAUTION: Alternatively, you can upload the package to the installation directory through FTP, TFTP, or SFTP. To avoid damaging the package, use the binary mode when you upload the package through FTP or TFTP.

 

IMPORTANT: The image package required depends on the server architecture: ·     x86_64 server—SeerEngine_DC_NET_PLUGIN-version.tar.gz ·     ARM server—SeerEngine_DC_NET_PLUGIN-version-ARM64.tar.gz

 

2.     Decompress the package.

$ tar -xzvf SeerEngine_DC_NET_PLUGIN-E6103.tar.gz

SeerEngine_DC_NET_PLUGIN-E6103.tar

SeerEngine_DC_NET_PLUGIN-E6103.yaml

SeerEngine_DC_NET_PLUGIN-E6103.crd.yaml

webhook-create-signed-cert.sh

3.     Load the Docker image.

$ docker load -i SeerEngine_DC_NET_PLUGIN-E6103.tar

Installing the plug-in

After loading the docker image on the master and nodes, install the plug-in on the master.

To install the plug-in on the master:

1.     Upload and execute the preprocessing script to provide a certificate for the webhook service in the sdnc-net-master plug-in.

a.     Obtain preprocessing script webhook-create-signed-cert.sh and upload it to the installation directory on the master.

b.     Execute the script.

You only need to execute the script on one master when multiple masters exist.

$ sh webhook-create-signed-cert.sh

2.     Obtain and copy the configuration files of the SDN Kubernetes plug-in SeerEngine_DC_NET_PLUGIN-version.yaml and SeerEngine_DC_NET_PLUGIN-version.crd.yaml to the installation directory on the master. version in the file names represents the version number.

You only need to perform this task on one master when multiple masters exist.

 

CAUTION: Alternatively, you can upload the files to the installation directory through FTP, TFTP, or SFTP. To avoid damaging the files, use the binary mode when you upload the files through FTP or TFTP.

 

3.     Modify the configuration file.

a.     Use the vi editor to open the configuration file.

$ vi SeerEngine_DC_NET_PLUGIN-E6103.yaml

b.     Press I to switch to insert mode, and then modify the configuration file. For information about the parameters, see Table 4.

kind: ConfigMap

apiVersion: v1

metadata:

  name: sndc-net-plugin

  namespace: kube-system

data:

  etcd_servers: "https://192.168.0.10:2379,https://192.168.0.11:2379,https://192.168.0.12:2379"

  etcd_certfile: "/etc/sndc-net-plugin/etcd.crt"

  etcd_keyfile: "/etc/sndc-net-plugin/etcd.key"

  etcd_cafile: "/etc/sndc-net-plugin/etcd-ca.crt"

  k8s_api_server: "https://192.168.0.20:6443"

  k8s_ca: "/etc/sndc-net-plugin/ca.crt"

  k8s_key: "/etc/sndc-net-plugin/client.key"

  k8s_cert: "/etc/sndc-net-plugin/client.crt"

  k8s_token: ""

  sdnc_url: " http://192.168.227.175:30000/"

  sdnc_domain: "sdn"

  sdnc_client_timeout: "1800"

  sdnc_client_retry: "10"

  sdnc_cert_enable: "false"

  sdnc_cafile: ""

  sdnc_keyfile: ""

  sdnc_certfile: ""

  openstack_url: "http://99.0.13.16:5000/v3"

  openstack_username: "admin"

  openstack_password: "OPENSTACK_PASSWORD"

  openstack_projectname: "admin"

  openstack_projectdomain: "admin"

  openstack_client_timeout: "30"

  openstack_client_retry: "10"

  default_network_id: ""

  log_dir: "/var/log/sdnc-net-plugin/"

  log_level: "1"

  bridge_mappings: "physnet1:br-physnet1:10:40,physnet2:br-physnet2"

---

kind: ConfigMap

apiVersion: v1

metadata:

  name: sndc-net-master

  namespace: kube-system

data:

  bind_host: "0.0.0.0"

  bind_port: "9797"

  protocol: "http"

webhook_bind_port: "9898"

---

apiVersion: v1

kind: Secret

metadata:

  name: sdnc-plugin-secret

  namespace: kube-system

type: Opaque

data:

  username: YWRtaW4=

  password: YWRtaW5AMTIz

---

kind: ConfigMap

apiVersion: v1

metadata:

  name: sdnc-net-agent

  namespace: kube-system

data:

  overlay_mode: "auto"

  default_security_policy: "permit"

  host_networks: "192.168.10.0/24,192.168.2.0/24"

  host_to_container_network: "172.70.0.0/16"

  container_to_host_network: "172.60.0.0/16"

  node_port_net_id: ""

  default_mtu: "0"

  sync_flows_interval: “5”

  service_strategy: "0"

  service_ip_cidr: "10.68.0.0/16"

  enable_flows_pre_distribution: "true"

  enable_nodeport_normal_forward: "false"

  clusterIp_publish : “false”

  cloud_region_name: ""

  agent_host: "0.0.0.0"

  agent_port: "9090"

  netoverlay_vlan_ranges: "node01:1:100,node02:101:200"

  node_port_interface_type: "openvswitch_internal"

  non_hierarchical_nodeport_vlan: "1024:1025"

ping_gateway_retry: "10"

---

apiVersion: admissionregistration.k8s.io/v1beta1

kind: MutatingWebhookConfiguration

metadata:

  name: validation-webhook-cfg

  labels:

    app: admission-webhook-network

webhooks:

  - name: validate.sdnc.io

    failurePolicy: Fail

    clientConfig:

      service:

        name: sdnc-net-master-webhook

        namespace: kube-system

        path: "/v1.0/validate"

      caBundle: ""

    rules:

      - operations: [ "CREATE", "UPDATE", "DELETE" ]

        apiGroups: ["sdnc.io"]

        apiVersions: ["v1"]

        resources: ["ipv4pools","ipv6pools","network-configurations"]

      - operations: [ "CREATE", "UPDATE", "DELETE" ]

        apiGroups: ["k8s.cni.cncf.io"]

        apiVersions: ["v1"]

        resources: ["network-attachment-definitions","qos-definitions","security-group-definitions","port-definitions"]

4.     Install the plug-in.

 

IMPORTANT: Before installing the plug-in, modify the apiVersion parameter for the resources in the configuration files according to the K8s cluster version.

 

$ kubectl create -f SeerEngine_DC_NET_PLUGIN-E6103.crd.yaml

$ kubectl create -f SeerEngine_DC_NET_PLUGIN-E6103.yaml

5.     Verify the installation. If the Pods are in Running state, the plug-in is installed correctly.

$ kubectl get pods -n kube-system | grep sndc
sndc-net-agent-mtwkl 1/1 Running 0 5d7h
sndc-net-agent-rt2s6 1/1 Running 0 5d7h
sndc-net-master-79bc68885c-2s9jm 1/1 Running 0 5d7h

The following table describes parameters in the configuration file of the SDN Kubernetes plug-in.

Table 4 Parameters in the configuration file of the SDN Kubernetes plug-in

Parameter	Description
etcd_servers	etcd service API address. You can configure multiple addresses for an etcd cluster and use commas to separate the addresses. You can configure multiple addresses for an etcd cluster and use commas to separate the addresses. The address can be an HTTP or HTTPS address. To use an HTTPS address (for example, https://192.168.0.10:2379), you must configure the etcd_certfile, etcd_keyfile, and etcd_cafile parameters.
etcd_certfile	etcd client x509 certificate file. The value is the certificate file path, for example, /etc/sndc-net-plugin/etcd.crt. If the path does not exist, create it and set the permission to 755. This parameter is valid only when the etcd_servers value is an HTTPS address.
etcd_keyfile	Private key file for the etcd client x509 certificate. The value is the private key file path, for example, /etc/sndc-net-plugin/etcd.key. If the path does not exist, create it and set the permission to 755. This parameter is valid only when the etcd_servers value is an HTTPS address.
etcd_cafile	etcd client CA file. The value is the CA file path. If the path does not exist, create it and set the permission to 755. This parameter is valid only when the etcd_servers value is an HTTPS address.
k8s_api_server	K8s API server interface address.
k8s_ca	Client CA file of the K8s API server. The value is the CA file path, for example, /etc/sndc-net-plugin/ca.crt. If the path does not exist, create it and set the permission to 755. This parameter is valid only when the value of the k8s_api_server parameter is an HTTPS address.
k8s_key	Client X.509 certificate private key file of the K8s API server. The value is the private key file, for example, /etc/sndc-net-plugin/client.key. If the path does not exist, create it and set the permission to 755. This parameter is valid only when the value of the k8s_api_server parameter is an HTTPS address. It is used together with k8s_cert. This parameter is not required when k8s_token authentication is used.
k8s_cert	Client X.509 certificate file of the K8s API server. The value is the certificate file path, for example, /etc/sndc-net-plugin/client.crt. If the path does not exist, create it and set the permission to 755. This parameter is valid only when the value of the k8s_api_server parameter is an HTTPS address. This parameter is not required when k8s_key and k8s_cert authentication is used.
k8s_token	Client authentication token of the K8s API server. This parameter is valid only when the value of the k8s_api_server parameter is an HTTPS address. This parameter is not required when k8s_key and k8s_cert authentication is used.
sdnc_url	URL address for logging in to the Unified Platform, for example, http://192.168.227.175:30000/.
sdnc_domain	Name of the domain where the SeerEngine-DC controller resides.
sdnc_client_timeout	Amount of time waiting for a response from the SeerEngine-DC controller, in seconds.
sdnc_client_retry	Maximum transmissions of connection requests to the SeerEngine-DC controller.
sdnc_cert_enable	Whether to enable bidirectional authentication for interoperation with the Unified Platform. ·     true-Enable. ·     false-Disable. The default value is false.
sdnc_cafile	CA file for bidirectional authentication for interoperation with the Unified Platform. By default, no value is configured. This parameter is valid only when the value of the sdnc_cert_enable parameter is true.
sdnc_certfile	Client certificate for bidirectional authentication for interoperation with the Unified Platform. By default, no value is configured. This parameter is valid only when the value of the sdnc_cert_enable parameter is true.
sdnc_keyfile	Client key for bidirectional authentication for interoperation with the Unified Platform. By default, no value is configured. This parameter is valid only when the value of the sdnc_cert_enable parameter is true.
openstack_url	OpenStack Keystone authentication address.
openstack_username	Username for accessing OpenStack.
openstack_password	Replace OPENSTACK_PASSWORD with the password for accessing OpenStack.
openstack_projectname	OpenStack project name.
openstack_projectdomain	Name of the domain where the OpenStack project resides.
openstack_client_timeout	Amount of time waiting for a response from OpenStack, in seconds.
openstack_client_retry	Maximum transmissions of connection requests to OpenStack.
default_network_id	UUID of the default virtual link layer network where the containers come online. If no virtual link layer network is configured for the containers, the containers come online on the default network.
log_dir	Log directory.
log_level	Log level.
bridge_mappings	·     Mappings between physical networks and VLAN network bridges if the plug-in interoperates with an OpenStack bare metal VLAN network. For multiple mappings, use commas to separate them, for example, physnet1:br-physnet1:10:40,physnet2:br-physnet2. In this example value, two mappings are configured: ¡     Mappings between physical network physnet1 and network bridge br-physnet1. If network bridge br-physnet1 is deployed on a K8s cluster node, physical network physnet1 is used. 10:40 represents the VLAN ID range for the physical network. If you do not specify the VLAN ID range, the VLAN ID range is 1 to 4094. ¡     Mappings between physical network physnet2 and network bridge br-physnet2. The VLAN ID range for the physical network is 1 to 4094. ·     Leave this parameter unconfigured for VXLAN network boarding scenarios. NOTE: By default, the last network bridge displayed in the ovs-vsctl list-br command output is used as the VXLAN network bridge. If you increase a physical network, the matched network bridge cannot be the last one in the ovs-vsctl list-br command output.
bind_host	Master service API-bound address.
bind_port	Master service API-bound port number. As a best practice, bind the API to the net_master_port.
protocol	API protocol. Only HTTP is supported.
webhook_bind_port	Webhook service port number. As a best practice, set the same value as the webhook-port parameter.
username(sdnc-plugin-secret)	Username for logging in to the Unified Platform. You must encode and provide the username in its Base64 format by using the echo -n 'username' |base64 command. For example, if the username is admin, provide its Base64 format of YWRtaW4= for this parameter. To decode the YWRtaW4= username, execute the echo -n 'YWRtaW4='|base64 –d command.
password(sdnc-plugin-secret)	Password for logging in to the Unified Platform. You must encode and provide the password in its Base64 format by using the echo -n 'password' |base64 command. For example, if the password is Pwd@12345, provide its Base64 format of UHdkQDEyMzQ1 for this parameter. To decode the UHdkQDEyMzQ1 password, execute the echo -n 'UHdkQDEyMzQ1'|base64 -d command.
overlay_mode	Overlay mode of the node: ·     net—Network-based overlay ·     host—Host-based overly ·     auto—Automatic selection of overlay mode based on the open vSwitch configuration
default_security_policy	Default security policy. This parameter takes effect only in network-based overlay mode. ·     permit ·     deny
host_networks	Network segment where the host is located. For multiple network segments, use commas to separate them.
host_to_container_network	NAT address network segment used by the host for accessing a container. This network segment cannot conflict with other network segments. You can leave this parameter unconfigured in a bare metal scenario.
container_to_host_network	NAT address network segment used by a container for accessing the host. This network segment cannot conflict with other network segments. You can leave this parameter unconfigured in a bare metal scenario.
node_port_net_id	Virtual link layer network UUID for the NodePort function. After the UUID is specified, a vPort will automatically come online for each node to provide NodePort services. You are not required to configure this parameter in the bare metal scenario or if NodePort is not used.
default_mtu	Default MTU of a container NIC. The value is 0 by default, indicating that the default MTU is 1500. You can set the MTU to 1450 when the controller interoperates with OpenStack.
sync_flows_interval	Interval at which the plug-in polls the endpoints and member Pods for changes. If a change is detected, the flow table is refreshed. The value is an integer in the range of 1 to 60, in seconds. The default value is 5. The smaller the value, the more frequently the flow table is refreshed. As a best practice, configure the value in the range of 1 to 10.
service_strategy	Load balancing policy for the ClusterIp service: ·     0—IP address-based load balancing policy. ·     1—IP address- and port number-based load balancing policy. The default value is 0. The load balancing policy for the ClusterIp service is disabled if flow table flow table pre-distribution is enabled.
service_ip_cidr	ClusterIp service IP address segment of the K8s cluster.
enable_flows_pre_distribution	Whether to enable flow table pre-distribution for Service ClusterIP. The default value is true. If you disable this feature, the number of network overlay nodes must be greater than 1.
enable_nodeport_normal_forward	Whether to enable use of preset normal flow tables for NodePort/Hostport. The default value is false. If the value is set to true, the forwarding performance is improved. You can set the value to true only in the scenario where the controller interoperates with OpenStack KVM and the value of the enable_flows_pre_distribution parameter is true.
clusterIp_publish	Whether to enable advertisement of ClusterIP routes to the EVPN fabric. The default value is false. If the value is set to true, you are required to bind a vRouter to the uplink interface subnet and bind a routing table to the vRouter. ClusterIP router advertisement to the EVPN fabric is not supported in the following scenarios: ·     The node_port_interface_type parameter value is set to true. ·     OpenStack scenario. ·     The container network uses the host network segment. ·     Host overlay scenario. ClusterIP routers advertised to the EVPN fabric cannot be IPv6 static routes. If you change the value from true to false, the routing entry already deployed from the controller will not be deleted.
cloud_region_name	Name of the cloud with which the K8s cluster interoperates. This parameter is used to differentiate K8s clusters. If only one K8s cluster exists, you can leave the parameter unconfigured. By default, the parameter is unconfigured.
agent_host	Agent service API-bound IP address.
agent _port	Agent service API-bound port number.
netoverlay_vlan_ranges	VLAN range for the network-based overlay nodes, in the format of Node_name:VLAN_min:VLAN_max. For multiple VLAN ranges, use commas to separate them. If the node_port_interface_type parameter value is host_ip_link_vlan, exclude the uplink interface PVID from the VLAN range.
node_port_interface_type	NodePort access mode: ·     host_ip_link_vlan—Adding a VLAN NIC for the uplink interface. For this mode to take effect, configure a UUID from which the vPort comes online on the OVS bridge and a K8s management network gateway and enable Service ClusterIP flow table pre-deployment. ·     openvswitch_internal—Adding a cniOVSNode for the OVS bridge. The default value is openvswitch_internal.
non_hierarchical_nodeport_vlan	VLAN range for the NodePort subinterfaces on the OpenStack bare metal VLAN network, in the format of VLAN_min:VLAN_max. The VLAN ID cannot be the PVID of the uplink interface.  IMPORTANT: The VLAN network (without subnet) must be created in advance on OpenStack. Do not use this network for other services. To avoid conflict with mappings on subinterfaces, does not deploy VLAN-VXLAN mappings on interfaces.
ping_gateway_retry	Maximum number of retries to ping the gateway after Pod creation when interoperating with the OpenStack VMs.
caBundle	Certificate authorization data of the K8s cluster. You can obtain the value by executing the kubectl config view --raw --flatten -o json command on the master or retrieve the data from the /etc/kubernetes/admin.conf file on the master node.

 

IMPORTANT: ·     After configuring the etcd_certfile, etcd_keyfile, and etcd_cafile parameters, you must save the etcd client certificate file, client certificate key file, and certificate CA file to the specified path on the master node and copy the path to all nodes. The path depends on the deployment tool and the tool version. For example, the etcd certificate file in the K8s environment set up by using Kubeadm is saved in the /etc/kubernetes/pki/ path. ·     After configuring the k8s_ca, k8s_key, and k8s_cert parameters, you must save the K8s API server client certificate file, client certificate key file, and certificate CA file to the specified path on the master node and copy the path to all nodes. The path depends on the deployment tool and the tool version. For example, the K8s API server certificate file in the K8s environment set up by using Kubeadm is saved in the /etc/kubernetes/pki/ path.

 

IMPORTANT: After the plug-in is installed, modify the MAC address of the uplink interface as needed.

 

Managing log files for the plug-in

The log files for the plug-in are saved in the /var/log/sdnc-net-plugin directory on each node by default. You can delete the log files as needed.

 

CAUTION: Do not delete the source and destination files for the soft links in the log directory. If you do so, you must restart the plug-in.

 

Removing the plug-in

IMPORTANT: Before removing the plug-in, remove all Pods created by using the plug-in.

 

To remove the plug-in, execute the following commands:

$ kubectl delete -f SeerEngine_DC_NET_PLUGIN-E6103.yaml

$ kubectl delete -f SeerEngine_DC_NET_PLUGIN-E6103.crd.yaml

Upgrading the plug-in

1.     Install the plug-in Docker image. For the installation procedure, see "Loading the plug-in Docker image."

2.     Upload and modify the plug-in configuration file. For the procedure, see "Installing the plug-in."

3.     Upgrade the plug-in.

 

CAUTION: To avoid loss of CRD resources, do not replace the .crd.yaml file with a new one when you upgrade the plug-in.

 

$ kubectl delete -f SeerEngine_DC_NET_PLUGIN-E3606.yaml

$ kubectl apply -f SeerEngine_DC_NET_PLUGIN-E6103.crd.yaml

$ kubectl create -f SeerEngine_DC_NET_PLUGIN-E6103.yaml

Configuration example

Configuring Pod network parameters

This section describes the procedure for creating a Pod in Kubernetes and onboarding the Pod onto the SeerEngine-DC controller. As a best practice, use CRDs to create network parameters for a Pod. For the configuration procedure by using CRDs, see "Configuring parameters and creating a Pod by using CRDs."

Configuring Pod network parameters by using the default network

1.     Create a tenant, virtual link layer network, subnet, security policy, and network policy on the controller.

2.     Identify the default_network_id parameter in the configuration file and specify the default network. For the configuration method, see "Installing the plug-in."

3.     Create and edit the Pod configuration file, for example, postgres-pod.yaml, on the master.

$ vi postgres-pod.yaml

apiVersion: v1

kind: Pod

metadata:

  name: postgres

  annotations:

spec:

  containers:

  - name: postgres

    image: postgres

4.     Use the configuration file to create a Pod.

$ kubectl create -f postgres-pod.yaml

5.     Verify the Pod online status on the controller vPort page.

Configuring Pod network parameters by using labels

1.     Create tenants, virtual link layer networks, subnets, security policies, and network policies on the controller. To deploy a K8s cluster on a VM in network-based overlay model or on an OpenStack bare metal, create tenants, virtual link layer networks, and subnets on OpenStack.

2.     Create and edit the Pod configuration file, for example, postgres-pod.yaml, on the master.

$ vi postgres-pod.yaml

apiVersion: v1

kind: Pod

metadata:

  name: postgres

  labels:

    sdnc.io/network_id: 9e9af886-e038-4c94-8573-11b89079196d

    sdnc.io/tenant_id: 14ac7fc1-50d4-409a-ad76-4a0c35f429f3

    sdnc.io/qos_policy_id: 38b51db9-cc1d-4b07-872e-cf2644bfc057

    sdnc.io/security_group_id: 39b70d60-8bfd-4b27-bb4d-4b8f8955a2e6

spec:

  containers:

  - name: postgres

    image: postgres

Parameter description:

¡     sdnc.io/network_id—UUID of the SeerEngine-DC or OpenStack virtual network. This parameter must be configured.

¡     sdnc.io/tenant_id—UUID of the SeerEngine-DC or OpenStack tenant. This parameter must be configured. The tenant UUID on OpenStack is different from that on SeerEngine-DC. When the Kubernetes plug-in is integrated with OpenStack, you must specify the tenant UUID on OpenStack for the sdnc.io/tenant_id field. When the Kubernetes plug-in is integrated with SeerEngine-DC, you must specify the tenant UUID on SeerEngine-DC for the sdnc.io/tenant_id field.

¡     sdnc.io/qos_policy_id—UUID of the SeerEngine-DC network policy. This parameter is optional. OpenStack VMs do not support this parameter.

¡     sdnc.io/security_group_id—UUID of the SeerEngine-DC security policy. This parameter is optional. OpenStack VMs do not support this parameter.

3.     Use the configuration file to create a Pod.

$ kubectl create -f postgres-pod.yaml

4.     Verify the Pod online status on the controller vPort page.

Configuring Pod network parameters by using annotations

1.     Create tenants, virtual link layer networks, subnets, security policies, and network policies on the controller. To deploy a K8s cluster on a VM in network-based overlay model or on an OpenStack bare metal, create tenants, virtual link layer networks, and subnets on OpenStack.

2.     Create and edit the Pod configuration file, for example, postgres-pod.yaml, on the master.

$ vi postgres-pod.yaml

apiVersion: v1

kind: Pod

metadata:

  name: postgres

  annotations:

    sdnc.io/network_id: 9e9af886-e038-4c94-8573-11b89079196d

    sdnc.io/tenant_id: 14ac7fc1-50d4-409a-ad76-4a0c35f429f3

    sdnc.io/qos_policy_id: 38b51db9-cc1d-4b07-872e-cf2644bfc057

    sdnc.io/security_group_id: 39b70d60-8bfd-4b27-bb4d-4b8f8955a2e6

spec:

  containers:

  - name: postgres

    image: postgres

Parameter description:

¡     sdnc.io/network_id—UUID of the SeerEngine-DC or OpenStack virtual network. This parameter must be configured.

¡     sdnc.io/tenant_id—UUID of the SeerEngine-DC or OpenStack tenant. This parameter must be configured. The tenant UUID on OpenStack is different from that on SeerEngine-DC. When the Kubernetes plug-in is integrated with OpenStack, you must specify the tenant UUID on OpenStack for the sdnc.io/tenant_id field. When the Kubernetes plug-in is integrated with SeerEngine-DC, you must specify the tenant UUID on SeerEngine-DC for the sdnc.io/tenant_id field.

¡     sdnc.io/qos_policy_id—UUID of the SeerEngine-DC network policy. This parameter is optional. OpenStack VMs do not support this parameter.

¡     sdnc.io/security_group_id—UUID of the SeerEngine-DC security policy. This parameter is optional. OpenStack VMs do not support this parameter.

3.     Use the configuration file to create a Pod.

$ kubectl create -f postgres-pod.yaml

4.     Verify the Pod online status on the controller vPort page.

Configuring Pod network parameters by using NetworkConfiguration CRD

1.     Create tenants, virtual link layer networks, subnets, security policies, and network policies on the controller. To deploy a K8s cluster on a VM in network-based overlay model or on an OpenStack bare metal, create tenants, virtual link layer networks, and subnets on OpenStack.

2.     Create network configuration resources on the cluster.

apiVersion: "sdnc.io/v1"

kind: NetworkConfiguration

metadata:

  name: example

  namespace: default

spec:

  config: '{

    "network": {

        "network_id": "bbdf64ec-73c7-4038-b134-b792cacf43cf"

    },

    "tenant": {

        "tenant_id": "115d0dcc-f5a7-407f-b0d1-9da3431df26b"

    },

    "qos_policy": {

        "qos_policy_id": "bbdf64cc- f5c7-407f-b0d1-9da3431df26b"

    },

    "security_group": {

        "security_group_id": "132d0dec-737f-407f-b0d1-9da3431df26b"

    }

}'

Parameter description:

¡     network_id—UUID of the SeerEngine-DC or OpenStack virtual network. This parameter must be configured.

¡     tenant_id—UUID of the SeerEngine-DC or OpenStack tenant. This parameter must be configured. The tenant UUID on OpenStack is different from that on SeerEngine-DC. When the Kubernetes plug-in is integrated with OpenStack, you must specify the tenant UUID on OpenStack for the sdnc.io/tenant_id field. When the Kubernetes plug-in is integrated with SeerEngine-DC, you must specify the tenant UUID on SeerEngine-DC for the sdnc.io/tenant_id field.

¡     qos_policy_id—UUID of the SeerEngine-DC network policy. This parameter is optional. OpenStack VMs do not support this parameter.

¡     security_group_id—UUID of the SeerEngine-DC security policy. This parameter is optional. OpenStack VMs do not support this parameter.

3.     Create and edit the Pod configuration file, for example, postgres-pod.yaml on the master.

$ vi postgres-pod.yaml

apiVersion: v1

kind: Pod

metadata:

  name: postgres

  annotations:

    sdnc.io/network_conf: example

spec:

  containers:

  - name: postgres

    image: postgres

4.     Use the configuration file to create a Pod.

$ kubectl create -f postgres-pod.yaml

5.     Verify the Pod online status on the controller vPort page.

Configuring an IP address for the Pod

After configuring the network parameters, you can specify a static IP address for the Pod or enable the Pod to obtain an IP address automatically from the IP address pool. These methods are exclusive of the method of configuring an IP address for the Pod by using a CRD.

Specifying a static IP address for the Pod

1.     Create a tenant, virtual link layer network, subnet, security policy, and network policy on the controller

2.     Create and edit the Pod configuration file, for example postgres-pod.yaml on the master.

$ vi postgres-pod.yaml

apiVersion: v1

kind: Pod

metadata:

  name: postgres

  annotations:

    sdnc.io/ipv4addr: 10.10.0.1

    sdnc.io/ipv6addr: 201::1

spec:

  containers:

  - name: postgres

    image: postgres

Parameter description:

¡     sdnc.io/ipv4addr—IPv4 address of the Pod. This parameter is optional.

¡     sdnc.io/ipv6addr—IPv6 address of the Pod. This parameter is optional.

3.     Use the configuration file to create a Pod.

$ kubectl create -f postgres-pod.yaml

4.     Verify the Pod online status on the controller vPort page.

Configuring an IP address pool

1.     Create a tenant, virtual link layer network, subnet, security policy, and network policy on the controller

2.     Create an IPv4 or IPv6 address pool on the cluster.

¡     IPv4:

apiVersion: sdnc.io/v1

kind: IpV4Pool

metadata:

  name: v4-ippool

spec:

  network_id: 5a25bc62-c8b4-4645-b194-2fa83bf7d91d

  ip_ranges:

  - start: 10.10.1.3

    end: 10.10.1.10

  - start: 10.10.2.3

    end: 10.10.2.10

¡     IPv6:

apiVersion: sdnc.io/v1

kind: IpV6Pool

metadata:

  name: v6-ippool

spec:

  network_id: 5a25bc62-c8b4-4645-b194-2fa83bf7d91d

  ip_ranges:

  - start: 201::2:1

    end: 201::2:5

  - start: 201::3:1

end: 201::4:1

Parameter description:

¡     network_id—UUID of the controller virtual link layer network. This parameter must be configured.

¡     ip_ranges—Address segment of the Pod IP address pool.

¡     start—Start IP address of the address segment.

¡     end—End IP address of the address segment

3.     Create and edit the Pod configuration file, for example postgres-pod.yaml on the master.

$ vi postgres-pod.yaml

apiVersion: v1

kind: Pod

metadata:

  name: postgres

  annotations:

    sdnc.io/ipv4pool: v4-ippool

    sdnc.io/ipv6pool: v6-ippool

spec:

  containers:

  - name: postgres

    image: postgres

4.     Use the configuration file to create a Pod.

$ kubectl create -f postgres-pod.yaml

5.     View the Pod online status on the controller vPort page and verify that the IP address of the Pod is from the address pool configured for the Pod.

Configuring network, QoS, and security group parameters for a Pod by using definition CRDs

This section describes the procedures for using definition CRDs to configure parameters, create and onboard a Pod in Kubernetes onto the SeerEngine-DC controller.

Configuring network parameters for a Pod by using a NetworkAttachmentDefinition CRD

1.     Create tenants, virtual link layer networks, subnets, security policies, and network policies on the controller. To deploy a cluster on OpenStack network-based overlay VMs or in an OpenStack Ironic environment, you must create tenants, virtual link layer networks, and subnets on OpenStack. You can use a network CRD to create virtual link layer networks and subnets on the controller or OpenStack and modify link layer networks and subnets by modifying or deleting the network CRD.

2.     Create a NetworkAttachmentDefinition resource in the cluster.

apiVersion: "k8s.cni.cncf.io/v1"

kind: NetworkAttachmentDefinition

metadata:

  name: pod-network

spec:

  create_at: openstack

  tenant_id: 665cdcaa9b3f4183824bf551c909429c

  network_id: cf2be36f-555d-49f7-bb85-a124b068b2bc=

  physical_network:  physnet1

  segmentation_id: 305

  router_external: false

  network_type: vlan

subnets:

  - name: pod_sub

    subnet_id: 3c6af174-5bcb-45b8-906b-24f23f92adde

    gateway_ip:

    cidr: 4.0.0.0/24

    ip_version: 4

    enable_dhcp: true

  - name: pod_sub2

    subnet_id: d09bc4c8-ba41-4344-9a38-062cd0934727

    gateway_ip:

    cidr: 212::/16

    ip_version: 6

    enable_dhcp: true

  static_ip: false

Parameter description:

¡     create_at—The value is written by the plug-in. You are not required to configure it. If the value is kubernetes, configure the parameters for the network CRD and create the CRD. If the value is openstack, configure the parameters for the network CRD based on the settings of the network resources created on OpenStack, and then create the CRD. If the value is sdnc, configure the parameters for the network CRD based on the settings of the network resources created on the controller, and then create the CRD.

¡     name—CRD resource name. The value can contain only lowercase letters and hyphens (-). The name must be unique. The plug-in will verify the name by using the regular expression: [a-z0-9]([-a-z0-9]*[a-z0-9])?(\.[a-z0-9]([-a-z0-9]*[a-z0-9])?)*.

¡     tenant_id—UUID of the SeerEngine-DC or OpenStack tenant. This parameter must be configured. The tenant UUID on OpenStack is different from that on SeerEngine-DC. When the Kubernetes plug-in is integrated with OpenStack, you must specify the tenant UUID on OpenStack for the sdnc.io/tenant_id field. When the Kubernetes plug-in is integrated with SeerEngine-DC, you must specify the tenant UUID on SeerEngine-DC for the sdnc.io/tenant_id field.

¡     network_id—UUID of the SeerEngine-DC or OpenStack virtual network, which must be consistent with that on the controller or OpenStack. If you leave this parameter unconfigured, the system will use the CRD to create virtual network layer resources on the controller or OpenStack and the ID of the network will be written to this field.

¡     physical_network—OpenStack bare metal VLAN network name. This parameter is required when the network_type parameter value is vlan.

¡     segmentation_id—OpenStack bare metal segment ID. This parameter is required when the network_type parameter value is vlan.

¡     router_external—Whether the OpenStack bare metal VLAN is an external network. The default value is false.

¡     network_type—Network type. Set the value to vlan when the plug-in interoperates with an OpenStack bare metal VLAN network. Set the value to vxlan or leave it configured for any other scenarios. The default value is vxlan.

¡     subnets—Subnet information, including the name, subnet ID, CIDR, IP version, and DHCP enabling status (the value must be true), which must be consistent with that on the controller or OpenStack. Multiple subnets of the same IP version can be configured.

¡     static_ip—Whether static IP is enabled. When the value is true, the IPs keep unchanged for the Pods in a StatefulSet and Pods in migration. After this feature takes effect, you are not allowed to change the value to false.

3.     Update the NetworkAttachmentDefinition resource in the cluster.

As a best practice, use kubectl edit rather than kubectl apply to update the network CRD resource because the network_ ID and subnet_ ID fields will be assigned values based on the network sources created by the network CRD if you leave the network_id field unconfigured when creating the NetworkAttachmentDefinition resource.

The update rules are as follows:

¡     If the subnet_ ID filed is not configured with a value in the new network CRD resource, a new subnet will be created.

¡     If the subnet ID filed value remains unchanged in the new network CRD, the subnet will be updated.

¡     If the subnet ID filed does not exist in the new network CRD, the subnet will be deleted.

4.     Delete the NetworkAttachmentDefinition resource from the cluster.

If you delete the network resource created by using the network CRD, the subnets on the controller or OpenStack will also be deleted.

Configuring network QoS parameters for a Pod by using a QoS CRD

1.     Create QoS rules on the controller or OpenStack. You can use a QoS CRD to create QoS rules on the controller or OpenStack and modify QoS rules by modifying or deleting the QoS CRD.

2.     Create a QosDefinition CRD resource in the cluster.

apiVersion: "k8s.cni.cncf.io/v1"

kind: QosDefinition

metadata:

  name: qos1

spec:

  create_at: kubernetes

  qos_id: 1f45ace0-8a0e-4e8a-8024-79f9eb6f94ab

  rules:

  - type: bandwidth_limit

    max_kbps: 500

    max_burst_kbps: 500

    direction: ingress

  - type: dscp_marking

dscp_mark: “26”         //Note: The value is a string. Use double quotes for it.

Parameter description:

¡     name—QoS CRD name. The value can contain only lowercase letters and hyphens (-). The name must be unique. The plug-in will verify the name by using the regular expression: [a-z0-9]([-a-z0-9]*[a-z0-9])?(\.[a-z0-9]([-a-z0-9]*[a-z0-9])?)*.

¡     create_at—The value is written by the plug-in. You are not required to configure it. If the value is kubernetes, configure the parameters for the QoS CRD and then create the CRD. If the value is openstack, configure the parameters for the QoS CRD based on the settings of QoS rules created on OpenStack and then create the CRD. If the value is sdnc, configure the parameters for the QoS CRD based on the settings of QoS rules created on the controller, and then create the CRD.

¡     qos_id—QoS resource ID on the controller or OpenStack, which must be consistent with that on the controller or OpenStack. If you leave this parameter unconfigured, the system will use the CRD to create QoS resources on the controller or OpenStack and write the ID of the created QoS resource to the field.

¡     rules—QoS resource rules. Options include bandwidth_limit and dscp_marking.

3.     Update the QosDefinition resource in the cluster.

As a best practice, use kubectl edit rather than kubectl apply to update the QoS CRD resource because the system will write the value to the qos_id field based on the settings of QoS rules created by the QoS CRD if the field is leaved unconfigured when the QosDefinition resource is created.

The resources are updated as a whole if the plug-in interoperates with the controller.

The update rules are as follows if the plug-in interoperates with OpenStack:

¡     If the rule ID field is not configured with a value in the new QoS CRD, new rules will be create.

¡     If the rule ID field value remains unchanged in the new QoS CRD, the rules will be updated.

¡     If the rule ID field does not exist in the new QoS CRD, the rules will be deleted.

4.     Delete the QosDefinition resource from the cluster.

If you delete the QoS resource created by using the QoS CRD, the QoS resources on the controller or OpenStack will also be deleted.

Configuring network security group parameters for a Pod by using a security group CRD

1.     Create tenants and security group rules on the controller or OpenStack. You can use a security group CRD to create security group rules on the controller or OpenStack and modify security group rules by modifying or deleting the security group CRD.

2.     Create a SecurityGroupDefinition CRD resource.

apiVersion: k8s.cni.cncf.io/v1

kind: SecurityGroupDefinition

metadata:

  name: sg-create

spec:

  create_at: kubernetes

  rules:

  - direction: ingress

    ethertype: IPv4

    id: 18ad1313-0588-4519-86e0-dc47af8f660b

    port_range_max: 8080

    port_range_min: 8080

    protocol: tcp

    remote_ip_prefix: 100.0.0.0/16

  security_group_id: ff0570ef-eecb-4d7f-a658-4eef43cadc19

  tenant_id: e93adb34143c42b8847f009dba9413a7

Parameter description:

¡     name—Security group CRD name. The value can contain only uppercase and lowercase letters and hyphens (-). The name must be unique. The plug-in will verify the name by using the regular expression: [a-z0-9]([-a-z0-9]*[a-z0-9])?(\.[a-z0-9]([-a-z0-9]*[a-z0-9])?)*.

¡     create_at—The value is written by the plug-in. You are not required to configure it. If the value is kubernetes, configure the parameters for the security group CRD and then create the CRD. If the value is openstack, configure the parameters for the security group CRD based on the settings of the security group rules created on OpenStack and then create the CRD. If the value is sdnc, configure the parameters for the security group CRD based on the settings of the security group rules created on the controller and then create the CRD.

¡     tenant_id—UUID of the SeerEngine-DC or OpenStack tenant. This parameter must be configured. The tenant UUID on OpenStack is different from that on SeerEngine-DC. When the Kubernetes plug-in is integrated with OpenStack, you must specify the tenant UUID on OpenStack for the sdnc.io/tenant_id field. When the Kubernetes plug-in is integrated with SeerEngine-DC, you must specify the tenant UUID on SeerEngine-DC for the sdnc.io/tenant_id field.

¡     security_group_id—Security group resource ID on the controller or OpenStack, which must be consistent with that on the controller or OpenStack. If you leave this parameter unconfigured, the system will use the CRD to create security group resources on the controller or OpenStack and write the ID of the created security group resource to the field.

¡     rules—Security group rules.

3.     Update the SecurityGroupDefinition resource in the cluster.

As a best practice, use kubectl edit rather than kubectl apply to update the security group CRD resource because the system will write the value to the security_group_ id field based on the settings of the security group resources created by the security group CRD if the field is leaved unconfigured when the SecurityGroupDefinition resource is created.

The update rules are as follows:

¡     If the security_group_id field is not configured with a value in the new security CRD, new rules will be created.

¡     If the security_group_id field value remains unchanged in the new security group CRD, the rules will be updated.

¡     If the security_group_id field does not exist in the new security group CRD, the rules will be deleted.

4.     Delete the SecurityGroupDefinition resource from the cluster.

If you delete the security group resource created by using the security group CRD, the security group resources on the controller or OpenStack will also be deleted.

Configuring network IP address parameters for a Pod by using a port CRD

You can assign IP addresses to NICs of a Pod by specifying a port CRD for a Pod. Before creating a port CRD, you need to create a network CRD corresponding to the network_id.

To configure network IP address parameters for a Pod by using a port CRD:

1.     Create tenants, virtual link layer networks, and subnets on the controller.

To deploy a cluster on OpenStack network-based overlay VMs or in an OpenStack Ironic environment, you must create tenants, virtual link layer networks, and subnets on OpenStack.

2.     Create a Port CRD resource from the cluster.

apiVersion: "k8s.cni.cncf.io/v1"

kind: PortDefinition

metadata:

  name: port1

spec:

  network_id: 9d24145a-7934-4be4-b59e-48bb271094d9

  fixed_ips:

    - subnet_name: v4-100

      ip_address: 100.0.0.0.2

    - subnet_name: v6-231

      ip_address: 231::6

Parameter description:

¡     network_id—UUID of the SeerEngine-DC or OpenStack virtual network.

¡     subnet_name—Subnet name.

Configuring parameters and creating a Pod by using CRDs

1.     Create and modify a Pod configuration file on the master node. The postgres-pod.yaml configuration file is configured and modified in this example.

$ vi postgres-pod.yaml

apiVersion: v1

kind: Pod

metadata:

  name: postgres

  annotations:

k8s.v1.cni.cncf.io/networks: pod-network1/pod_sub1/pod_sub2,pod-network2/pod_sub1/pod_sub2,pod-network3/pod_sub1/pod_sub2

k8s.v1.cni.cncf.io/static_ip: "true"

k8s.v1.cni.cncf.io/qoses: qos-create1,,qos-create2

k8s.v1.cni.cncf.io/security-groups: sg-create1/sg-create2,,sg-create3

k8s.v1.cni.cncf.io/ports: port-create1,,port-create3

spec:

  containers:

  - name: postgres

image: postgres

Parameter description:

¡     k8s.v1.cni.cncf.io/networks—Network CRD names and subnets. Use a slash (/) to separate each network and its subnet. If you configure multiple subnets on a network, separate the subnets by using slashes (/). As shown in this example, three NICs will be created for this Pod to use the corresponding subnets.

¡     k8s.v1.cni.cncf.io/static_ip—Whether the Pod IP address remains unchanged. If the value is true, an IP address is assigned to the Pod automatically at its creation and remains unchanged even if the Pod is updated.

¡     k8s.v1.cni.cncf.io/qoses—QoS CRD names, separated by commas for different NICs. If you are not to use QoS for an NIC, leave the name unconfigured for that NIC. The number of the QoS CRD names must be consistent with that of NICs. In this example, the first NIC uses qos-create1, the second NIC does not use QoS, and the third NIC uses qos-create3.

¡     k8s.v1.cni.cncf.io/security-groups—Security group CRD names, separated by commas for different NICs. If a NIC uses multiple security groups, use slashes (/) to separate the security groups. If a NIC does not use a security group, leave the group name unconfigured for that NIC. The number of security groups separated by commas must be consistent with that of the NICs. In this example, the first NIC uses sg-create1 and sg-create2 security groups, the second NIC does not use a security group, and the third NIC uses the sg-create3 security group.

¡     k8s.v1.cni.cncf.io/ports—Port CRD names, separated by commas for different NICs. The number of port CRD names must be consistent with that of NICs. In this example, the first NIC uses qos-create1, the second NIC does not use a port CRD, and the third NIC uses qos-create3.

2.     Use the configuration file to create a Pod.

$ kubectl create -f postgres-pod.yaml

3.     Verify the vPort online status of the Pod from the virtual port of the SeerEngine-DC controller.

Using NetworkPolicies

IMPORTANT: A NetworkPolicy takes effect only on backend Pods in the container network, and is not effective for backend Pods in the host network.

 

A NetworkPolicy specifies how Pods communicate with various network entities over the network. A NetworkPolicy resource uses labels to select Pods and defines the communication rules for the pods. The CNI plug-in supports using NetworkPolicies to control Pod traffic.

1.     To create a NetworkPolicy resource in the cluster, configure the settings as follows:

apiVersion: networking.k8s.io/v1

kind: NetworkPolicy

metadata:

  name: demo-np

  namespace: default

spec:

  podSelector:

    matchLabels:

      hello: world

  ingress:

  - from:

    - ipBlock:

        cidr: 5.0.0.0/24

  egress:

  - to:

    - ipBlock:

        cidr: 5.0.0.0/24

    ports:

    - port: 8080

      protocol: TCP

  policyTypes:

  - Egress

  - Ingress

Parameter description:

¡     name—Name of the NetworkPolicy resource.

¡     namespac—Namespace to which the NetworkPolicy resource belongs.

¡     podSelector—Selects the Pods to which the policy applies.

¡     ingress—Specifies ingress rules.

¡     egress—Specifies egress rules.

¡     policyTypes—Type of the policy, indicating whether or not the policy applies to ingress traffic to selected pods, egress traffic from selected pods, or both.

After the NetworkPolicy is created, the traffic of Pods matching the policy will be controlled by the policy.