Restrict a Container’s Syscalls with seccomp

FEATURE STATE: Kubernetes v1.19 [stable]

Seccomp stands for secure computing mode and has been a feature of the Linux kernel since version 2.6.12. It can be used to sandbox the privileges of a process, restricting the calls it is able to make from userspace into the kernel. Kubernetes lets you automatically apply seccomp profiles loaded onto a Node to your Pods and containers.

Identifying the privileges required for your workloads can be difficult. In this tutorial, you will go through how to load seccomp profiles into a local Kubernetes cluster, how to apply them to a Pod, and how you can begin to craft profiles that give only the necessary privileges to your container processes.

Objectives

  • Learn how to load seccomp profiles on a node
  • Learn how to apply a seccomp profile to a container
  • Observe auditing of syscalls made by a container process
  • Observe behavior when a missing profile is specified
  • Observe a violation of a seccomp profile
  • Learn how to create fine-grained seccomp profiles
  • Learn how to apply a container runtime default seccomp profile

Before you begin

Your Kubernetes server must be version v1.22. To check the version, enter kubectl version.

In order to complete all steps in this tutorial, you must install kind and kubectl. This tutorial will show examples both alpha (new in v1.22) and generally available seccomp functionality. You should make sure that your cluster is configured correctly for the version you are using.

Enable the use of RuntimeDefault as the default seccomp profile for all workloads

FEATURE STATE: Kubernetes v1.22 [alpha]

SeccompDefault is an optional kubelet feature gate as well as corresponding --seccomp-default command line flag. Both have to be enabled simultaneously to use the feature.

If enabled, the kubelet will use the RuntimeDefault seccomp profile by default, which is defined by the container runtime, instead of using the Unconfined (seccomp disabled) mode. The default profiles aim to provide a strong set of security defaults while preserving the functionality of the workload. It is possible that the default profiles differ between container runtimes and their release versions, for example when comparing those from CRI-O and containerd.

Some workloads may require a lower amount of syscall restrictions than others. This means that they can fail during runtime even with the RuntimeDefault profile. To mitigate such a failure, you can:

  • Run the workload explicitly as Unconfined.
  • Disable the SeccompDefault feature for the nodes. Also making sure that workloads get scheduled on nodes where the feature is disabled.
  • Create a custom seccomp profile for the workload.

If you were introducing this feature into production-like cluster, the Kubernetes project recommends that you enable this feature gate on a subset of your nodes and then test workload execution before rolling the change out cluster-wide.

More detailed information about a possible upgrade and downgrade strategy can be found in the related Kubernetes Enhancement Proposal (KEP).

Since the feature is in alpha state it is disabled per default. To enable it, pass the flags --feature-gates=SeccompDefault=true --seccomp-default to the kubelet CLI or enable it via the kubelet configuration file. To enable the feature gate in kind, ensure that kind provides the minimum required Kubernetes version and enables the SeccompDefault feature in the kind configuration:

  1. kind: Cluster
  2. apiVersion: kind.x-k8s.io/v1alpha4
  3. featureGates:
  4.   SeccompDefault: true

Create Seccomp Profiles

The contents of these profiles will be explored later on, but for now go ahead and download them into a directory named profiles/ so that they can be loaded into the cluster.

pods/security/seccomp/profiles/audit.json Restrict a Container’s Syscalls with seccomp - 图1

  1. {
  2.     "defaultAction": "SCMP_ACT_LOG"
  3. }

pods/security/seccomp/profiles/violation.json Restrict a Container’s Syscalls with seccomp - 图2

  1. {
  2.     "defaultAction": "SCMP_ACT_ERRNO"
  3. }

pods/security/seccomp/profiles/fine-grained.json Restrict a Container’s Syscalls with seccomp - 图3

  1. {
  2.     "defaultAction": "SCMP_ACT_ERRNO",
  3.     "architectures": [
  4.         "SCMP_ARCH_X86_64",
  5.         "SCMP_ARCH_X86",
  6.         "SCMP_ARCH_X32"
  7.     ],
  8.     "syscalls": [
  9.         {
  10.             "names": [
  11.                 "accept4",
  12.                 "epoll_wait",
  13.                 "pselect6",
  14.                 "futex",
  15.                 "madvise",
  16.                 "epoll_ctl",
  17.                 "getsockname",
  18.                 "setsockopt",
  19.                 "vfork",
  20.                 "mmap",
  21.                 "read",
  22.                 "write",
  23.                 "close",
  24.                 "arch_prctl",
  25.                 "sched_getaffinity",
  26.                 "munmap",
  27.                 "brk",
  28.                 "rt_sigaction",
  29.                 "rt_sigprocmask",
  30.                 "sigaltstack",
  31.                 "gettid",
  32.                 "clone",
  33.                 "bind",
  34.                 "socket",
  35.                 "openat",
  36.                 "readlinkat",
  37.                 "exit_group",
  38.                 "epoll_create1",
  39.                 "listen",
  40.                 "rt_sigreturn",
  41.                 "sched_yield",
  42.                 "clock_gettime",
  43.                 "connect",
  44.                 "dup2",
  45.                 "epoll_pwait",
  46.                 "execve",
  47.                 "exit",
  48.                 "fcntl",
  49.                 "getpid",
  50.                 "getuid",
  51.                 "ioctl",
  52.                 "mprotect",
  53.                 "nanosleep",
  54.                 "open",
  55.                 "poll",
  56.                 "recvfrom",
  57.                 "sendto",
  58.                 "set_tid_address",
  59.                 "setitimer",
  60.                 "writev"
  61.             ],
  62.             "action": "SCMP_ACT_ALLOW"
  63.         }
  64.     ]
  65. }

Create a Local Kubernetes Cluster with Kind

For simplicity, kind can be used to create a single node cluster with the seccomp profiles loaded. Kind runs Kubernetes in Docker, so each node of the cluster is a container. This allows for files to be mounted in the filesystem of each container similar to loading files onto a node.

pods/security/seccomp/kind.yaml Restrict a Container’s Syscalls with seccomp - 图4

  1. apiVersion: kind.x-k8s.io/v1alpha4
  2. kind: Cluster
  3. nodes:
  4. - role: control-plane
  5.   extraMounts:
  6.   - hostPath: "./profiles"
  7.     containerPath: "/var/lib/kubelet/seccomp/profiles"

Download the example above, and save it to a file named kind.yaml. Then create the cluster with the configuration.

  1. kind create cluster --config=kind.yaml

Once the cluster is ready, identify the container running as the single node cluster:

  1. docker ps

You should see output indicating that a container is running with name kind-control-plane.

  1. CONTAINER ID        IMAGE                  COMMAND                  CREATED             STATUS              PORTS                       NAMES
  2. 6a96207fed4b        kindest/node:v1.18.2   "/usr/local/bin/entr…"   27 seconds ago      Up 24 seconds       127.0.0.1:42223->6443/tcp   kind-control-plane

If observing the filesystem of that container, one should see that the profiles/ directory has been successfully loaded into the default seccomp path of the kubelet. Use docker exec to run a command in the Pod:

  1. docker exec -it 6a96207fed4b ls /var/lib/kubelet/seccomp/profiles
  1. audit.json  fine-grained.json  violation.json

Create a Pod with a seccomp profile for syscall auditing

To start off, apply the audit.json profile, which will log all syscalls of the process, to a new Pod.

Download the correct manifest for your Kubernetes version:

pods/security/seccomp/ga/audit-pod.yaml Restrict a Container’s Syscalls with seccomp - 图5

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: audit-pod
  5.   labels:
  6.     app: audit-pod
  7. spec:
  8.   securityContext:
  9.     seccompProfile:
  10.       type: Localhost
  11.       localhostProfile: profiles/audit.json
  12.   containers:
  13.   - name: test-container
  14.     image: hashicorp/http-echo:0.2.3
  15.     args:
  16.     - "-text=just made some syscalls!"
  17.     securityContext:
  18.       allowPrivilegeEscalation: false

pods/security/seccomp/alpha/audit-pod.yaml Restrict a Container’s Syscalls with seccomp - 图6

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: audit-pod
  5.   labels:
  6.     app: audit-pod
  7.   annotations:
  8.     seccomp.security.alpha.kubernetes.io/pod: localhost/profiles/audit.json
  9. spec:
  10.   containers:
  11.   - name: test-container
  12.     image: hashicorp/http-echo:0.2.3
  13.     args:
  14.     - "-text=just made some syscalls!"
  15.     securityContext:
  16.       allowPrivilegeEscalation: false

Create the Pod in the cluster:

  1. kubectl apply -f audit-pod.yaml

This profile does not restrict any syscalls, so the Pod should start successfully.

  1. kubectl get pod/audit-pod
  1. NAME        READY   STATUS    RESTARTS   AGE
  2. audit-pod   1/1     Running   0          30s

In order to be able to interact with this endpoint exposed by this container,create a NodePort Service that allows access to the endpoint from inside the kind control plane container.

  1. kubectl expose pod/audit-pod --type NodePort --port 5678

Check what port the Service has been assigned on the node.

  1. kubectl get svc/audit-pod
  1. NAME        TYPE       CLUSTER-IP      EXTERNAL-IP   PORT(S)          AGE
  2. audit-pod   NodePort   10.111.36.142   <none>        5678:32373/TCP   72s

Now you can curl the endpoint from inside the kind control plane container at the port exposed by this Service. Use docker exec to run a command in the Pod:

  1. docker exec -it 6a96207fed4b curl localhost:32373
  1. just made some syscalls!

You can see that the process is running, but what syscalls did it actually make? Because this Pod is running in a local cluster, you should be able to see those in /var/log/syslog. Open up a new terminal window and tail the output for calls from http-echo:

  1. tail -f /var/log/syslog | grep 'http-echo'

You should already see some logs of syscalls made by http-echo, and if you curl the endpoint in the control plane container you will see more written.

  1. Jul  6 15:37:40 my-machine kernel: [369128.669452] audit: type=1326 audit(1594067860.484:14536): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=51 compat=0 ip=0x46fe1f code=0x7ffc0000
  2. Jul  6 15:37:40 my-machine kernel: [369128.669453] audit: type=1326 audit(1594067860.484:14537): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=54 compat=0 ip=0x46fdba code=0x7ffc0000
  3. Jul  6 15:37:40 my-machine kernel: [369128.669455] audit: type=1326 audit(1594067860.484:14538): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=202 compat=0 ip=0x455e53 code=0x7ffc0000
  4. Jul  6 15:37:40 my-machine kernel: [369128.669456] audit: type=1326 audit(1594067860.484:14539): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=288 compat=0 ip=0x46fdba code=0x7ffc0000
  5. Jul  6 15:37:40 my-machine kernel: [369128.669517] audit: type=1326 audit(1594067860.484:14540): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=0 compat=0 ip=0x46fd44 code=0x7ffc0000
  6. Jul  6 15:37:40 my-machine kernel: [369128.669519] audit: type=1326 audit(1594067860.484:14541): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=270 compat=0 ip=0x4559b1 code=0x7ffc0000
  7. Jul  6 15:38:40 my-machine kernel: [369188.671648] audit: type=1326 audit(1594067920.488:14559): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=270 compat=0 ip=0x4559b1 code=0x7ffc0000
  8. Jul  6 15:38:40 my-machine kernel: [369188.671726] audit: type=1326 audit(1594067920.488:14560): auid=4294967295 uid=0 gid=0 ses=4294967295 pid=29064 comm="http-echo" exe="/http-echo" sig=0 arch=c000003e syscall=202 compat=0 ip=0x455e53 code=0x7ffc0000

You can begin to understand the syscalls required by the http-echo process by looking at the syscall= entry on each line. While these are unlikely to encompass all syscalls it uses, it can serve as a basis for a seccomp profile for this container.

Clean up that Pod and Service before moving to the next section:

  1. kubectl delete pod/audit-pod
  2. kubectl delete svc/audit-pod

Create Pod with seccomp Profile that Causes Violation

For demonstration, apply a profile to the Pod that does not allow for any syscalls.

Download the correct manifest for your Kubernetes version:

pods/security/seccomp/ga/violation-pod.yaml Restrict a Container’s Syscalls with seccomp - 图7

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: violation-pod
  5.   labels:
  6.     app: violation-pod
  7. spec:
  8.   securityContext:
  9.     seccompProfile:
  10.       type: Localhost
  11.       localhostProfile: profiles/violation.json
  12.   containers:
  13.   - name: test-container
  14.     image: hashicorp/http-echo:0.2.3
  15.     args:
  16.     - "-text=just made some syscalls!"
  17.     securityContext:
  18.       allowPrivilegeEscalation: false

pods/security/seccomp/alpha/violation-pod.yaml Restrict a Container’s Syscalls with seccomp - 图8

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: violation-pod
  5.   labels:
  6.     app: violation-pod
  7.   annotations:
  8.     seccomp.security.alpha.kubernetes.io/pod: localhost/profiles/violation.json
  9. spec:
  10.   containers:
  11.   - name: test-container
  12.     image: hashicorp/http-echo:0.2.3
  13.     args:
  14.     - "-text=just made some syscalls!"
  15.     securityContext:
  16.       allowPrivilegeEscalation: false

Create the Pod in the cluster:

  1. kubectl apply -f violation-pod.yaml

If you check the status of the Pod, you should see that it failed to start.

  1. kubectl get pod/violation-pod
  1. NAME            READY   STATUS             RESTARTS   AGE
  2. violation-pod   0/1     CrashLoopBackOff   1          6s

As seen in the previous example, the http-echo process requires quite a few syscalls. Here seccomp has been instructed to error on any syscall by setting "defaultAction": "SCMP_ACT_ERRNO". This is extremely secure, but removes the ability to do anything meaningful. What you really want is to give workloads only the privileges they need.

Clean up that Pod and Service before moving to the next section:

  1. kubectl delete pod/violation-pod
  2. kubectl delete svc/violation-pod

Create Pod with seccomp Profile that Only Allows Necessary Syscalls

If you take a look at the fine-pod.json, you will notice some of the syscalls seen in the first example where the profile set "defaultAction": "SCMP_ACT_LOG". Now the profile is setting "defaultAction": "SCMP_ACT_ERRNO", but explicitly allowing a set of syscalls in the "action": "SCMP_ACT_ALLOW" block. Ideally, the container will run successfully and you will see no messages sent to syslog.

Download the correct manifest for your Kubernetes version:

pods/security/seccomp/ga/fine-pod.yaml Restrict a Container’s Syscalls with seccomp - 图9

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: fine-pod
  5.   labels:
  6.     app: fine-pod
  7. spec:
  8.   securityContext:
  9.     seccompProfile:
  10.       type: Localhost
  11.       localhostProfile: profiles/fine-grained.json
  12.   containers:
  13.   - name: test-container
  14.     image: hashicorp/http-echo:0.2.3
  15.     args:
  16.     - "-text=just made some syscalls!"
  17.     securityContext:
  18.       allowPrivilegeEscalation: false

pods/security/seccomp/alpha/fine-pod.yaml Restrict a Container’s Syscalls with seccomp - 图10

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: fine-pod
  5.   labels:
  6.     app: fine-pod
  7.   annotations:
  8.     seccomp.security.alpha.kubernetes.io/pod: localhost/profiles/fine-grained.json
  9. spec:
  10.   containers:
  11.   - name: test-container
  12.     image: hashicorp/http-echo:0.2.3
  13.     args:
  14.     - "-text=just made some syscalls!"
  15.     securityContext:
  16.       allowPrivilegeEscalation: false

Create the Pod in your cluster:

  1. kubectl apply -f fine-pod.yaml

The Pod should start successfully.

  1. kubectl get pod/fine-pod
  1. NAME        READY   STATUS    RESTARTS   AGE
  2. fine-pod   1/1     Running   0          30s

Open up a new terminal window and tail the output for calls from http-echo:

  1. tail -f /var/log/syslog | grep 'http-echo'

Expose the Pod with a NodePort Service:

  1. kubectl expose pod/fine-pod --type NodePort --port 5678

Check what port the Service has been assigned on the node:

  1. kubectl get svc/fine-pod
  1. NAME        TYPE       CLUSTER-IP      EXTERNAL-IP   PORT(S)          AGE
  2. fine-pod    NodePort   10.111.36.142   <none>        5678:32373/TCP   72s

curl the endpoint from inside the kind control plane container:

  1. docker exec -it 6a96207fed4b curl localhost:32373
  1. just made some syscalls!

You should see no output in the syslog because the profile allowed all necessary syscalls and specified that an error should occur if one outside of the list is invoked. This is an ideal situation from a security perspective, but required some effort in analyzing the program. It would be nice if there was a simple way to get closer to this security without requiring as much effort.

Clean up that Pod and Service before moving to the next section:

  1. kubectl delete pod/fine-pod
  2. kubectl delete svc/fine-pod

Create Pod that uses the Container Runtime Default seccomp Profile

Most container runtimes provide a sane set of default syscalls that are allowed or not. The defaults can easily be applied in Kubernetes by using the runtime/default annotation or setting the seccomp type in the security context of a pod or container to RuntimeDefault.

Download the correct manifest for your Kubernetes version:

pods/security/seccomp/ga/default-pod.yaml Restrict a Container’s Syscalls with seccomp - 图11

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: audit-pod
  5.   labels:
  6.     app: audit-pod
  7. spec:
  8.   securityContext:
  9.     seccompProfile:
  10.       type: RuntimeDefault
  11.   containers:
  12.   - name: test-container
  13.     image: hashicorp/http-echo:0.2.3
  14.     args:
  15.     - "-text=just made some syscalls!"
  16.     securityContext:
  17.       allowPrivilegeEscalation: false

pods/security/seccomp/alpha/default-pod.yaml Restrict a Container’s Syscalls with seccomp - 图12

  1. apiVersion: v1
  2. kind: Pod
  3. metadata:
  4.   name: default-pod
  5.   labels:
  6.     app: default-pod
  7.   annotations:
  8.     seccomp.security.alpha.kubernetes.io/pod: runtime/default
  9. spec:
  10.   containers:
  11.   - name: test-container
  12.     image: hashicorp/http-echo:0.2.3
  13.     args:
  14.     - "-text=just made some syscalls!"
  15.     securityContext:
  16.       allowPrivilegeEscalation: false

The default seccomp profile should provide adequate access for most workloads.

What’s next

Additional resources: