Help Center/ Cloud Container Engine/ Best Practices/ Security/ Configuration Suggestions on CCE Container Security
Updated on 2024-11-12 GMT+08:00

Configuration Suggestions on CCE Container Security

Controlling the Pod Scheduling Scope

The nodeSelector or nodeAffinity is used to limit the range of nodes to which applications can be scheduled, preventing the entire cluster from being threatened due to the exceptions of a single application. For details, see Node Affinity.

To achieve strong isolation, like in logical multi-tenancy situations, it is important to have system add-ons run on separate nodes or node pools. This helps keep them separated from service pods and reduces the risk of privilege escalation within a cluster. To do this, you can set the node affinity policy to either Node Affinity or Specified Node Pool Scheduling on the add-on installation page.

Suggestions on Container Security Configuration

  • Set the computing resource limits (request and limit) of a container. This prevents the container from occupying too many resources and affecting the stability of the host and other containers on the same node.
  • Unless necessary, do not mount sensitive host directories to containers, such as /, /boot, /dev, /etc, /lib, /proc, /sys, and /usr.
  • Do not run the sshd process in containers unless necessary.
  • Unless necessary, it is not recommended that containers and hosts share the network namespace.
  • Unless necessary, it is not recommended that containers and hosts share the process namespace.
  • Unless necessary, it is not recommended that containers and hosts share the IPC namespace.
  • Unless necessary, it is not recommended that containers and hosts share the UTS namespace.
  • Unless necessary, do not mount the sock file of Docker to any container.

Container Permission Access Control

When using a containerized application, comply with the minimum privilege principle and properly set securityContext of Deployments or StatefulSets.

  • Configure runAsUser to specify a non-root user to run a container.
  • Configure privileged to prevent containers being used in scenarios where privilege is not required.
  • Configure capabilities to accurately control the privileged access permission of containers.
  • Configure allowPrivilegeEscalation to disable privilege escape in scenarios where privilege escalation is not required for container processes.
  • Configure seccomp to restrict the container syscalls. For details, see Restrict a Container's Syscalls with seccomp in the official Kubernetes documentation.
  • Configure ReadOnlyRootFilesystem to protect the root file system of a container.

    Example YAML for a Deployment:

    apiVersion: apps/v1
    kind: Deployment
    metadata:
      name: security-context-example
      namespace: security-example
    spec:
      replicas: 1
      selector:
        matchLabels:
          app: security-context-example
          label: security-context-example
      strategy:
        rollingUpdate:
          maxSurge: 25%
          maxUnavailable: 25%
        type: RollingUpdate
      template:
        metadata:
          annotations:
            seccomp.security.alpha.kubernetes.io/pod: runtime/default
          labels:
            app: security-context-example
            label: security-context-example
        spec:
          containers:
            - image: ...
              imagePullPolicy: Always
              name: security-context-example
              securityContext:
                allowPrivilegeEscalation: false
                readOnlyRootFilesystem: true
                runAsUser: 1000
                capabilities:
                  add:
                  - NET_BIND_SERVICE
                  drop:
                  - all		
              volumeMounts:
                - mountPath: /etc/localtime
                  name: localtime
                  readOnly: true
                - mountPath: /opt/write-file-dir
                  name: tmpfs-example-001
          securityContext:
            seccompProfile:
              type: RuntimeDefault
          volumes:
            - hostPath:
                path: /etc/localtime
                type: ""
              name: localtime
            - emptyDir: {}            
              name: tmpfs-example-001 

Restricting the Access of Containers to the Management Plane

If application containers on a node do not need to access Kubernetes, you can perform the following operations to disable containers from accessing kube-apiserver:

  1. Query the container CIDR block and private API server address.

    On the Clusters page of the CCE console, click the name of the cluster to find the information on the details page.

  2. Configure access rules.

    • CCE cluster: Log in to each node in the cluster as user root and run the following command:
      • VPC network:
        iptables -I OUTPUT -s {container_cidr} -d {Private API server IP} -j REJECT
      • Container tunnel network:
        iptables -I FORWARD -s {container_cidr} -d {Private API server IP} -j REJECT

      {container_cidr} indicates the container CIDR of the cluster, for example, 10.0.0.0/16.

      To ensure configuration persistence, write the command to the /etc/rc.local script.

    • CCE Turbo cluster: Add an outbound rule to the ENI security group of the cluster.
      1. Log in to the VPC console.
      2. In the navigation pane, choose Access Control > Security Groups.
      3. Locate the ENI security group corresponding to the cluster and name it in the format of {Cluster name}-cce-eni-{Random ID}. Click the security group name and configure rules.
      4. Click the Outbound Rules tab and click Add Rule to add an outbound rule for the security group.
        • Priority: Set it to 1.
        • Action: Select Deny, indicating that the access to the destination address is denied.
        • Type: Select IPv4.
        • Protocol & Port: Enter 5443 based on the port in the intranet API server address.
        • Destination: Select IP address and enter the IP address of the internal API server.
      5. Click OK.

  3. Run the following command in the container to access kube-apiserver and check whether the request is intercepted:

    curl -k https://{Private API server IP}:5443