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Support CIS ACK 1.0.0 benchmark (#841)

* Support CIS ACK 1.0.0 benchmark

* fix yaml lint

* Fix TestMakeSubsitutions may failed when order of map changed

* Support auto-detect platform when running on ACK

* Apply suggestions from code review

Co-authored-by: Yoav Rotem <yoavrotems97@gmail.com>

Co-authored-by: Yoav Rotem <yoavrotems97@gmail.com>
This commit is contained in:
Huang Huang 2021-05-11 16:52:24 +08:00 committed by GitHub
parent 887965d31f
commit 47c2494728
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12 changed files with 1998 additions and 14 deletions

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@ -29,7 +29,7 @@ Tests are configured with YAML files, making this tool easy to update as test sp
1. There is not a one-to-one mapping between releases of Kubernetes and releases of the CIS benchmark. See [CIS Kubernetes Benchmark support](#cis-kubernetes-benchmark-support) to see which releases of Kubernetes are covered by different releases of the benchmark.
1. It is impossible to inspect the master nodes of managed clusters, e.g. GKE, EKS and AKS, using kube-bench as one does not have access to such nodes, although it is still possible to use kube-bench to check worker node configuration in these environments.
1. It is impossible to inspect the master nodes of managed clusters, e.g. GKE, EKS, AKS and ACK, using kube-bench as one does not have access to such nodes, although it is still possible to use kube-bench to check worker node configuration in these environments.
![Kubernetes Bench for Security](https://raw.githubusercontent.com/aquasecurity/kube-bench/main/images/output.png "Kubernetes Bench for Security")
@ -48,6 +48,7 @@ Table of Contents
- [Running in an EKS cluster](#running-in-an-eks-cluster)
- [Running on OpenShift](#running-on-openshift)
- [Running in an GKE cluster](#running-in-a-gke-cluster)
- [Running in an ACK cluster](#running-in-a-ack-cluster)
- [Installing from a container](#installing-from-a-container)
- [Download and Install binaries](#download-and-install-binaries)
- [Installing from sources](#installing-from-sources)
@ -74,6 +75,7 @@ kube-bench supports the tests for Kubernetes as defined in the [CIS Kubernetes B
| [1.6.0](https://workbench.cisecurity.org/benchmarks/4834) | cis-1.6 | 1.16- |
| [GKE 1.0.0](https://workbench.cisecurity.org/benchmarks/4536) | gke-1.0 | GKE |
| [EKS 1.0.0](https://workbench.cisecurity.org/benchmarks/5190) | eks-1.0 | EKS |
| [ACK 1.0.0](https://workbench.cisecurity.org/benchmarks/6467) | ack-1.0 | ACK |
| Red Hat OpenShift hardening guide | rh-0.7 | OCP 3.10-3.11 |
By default, kube-bench will determine the test set to run based on the Kubernetes version running on the machine, but please note that kube-bench does not automatically detect OpenShift and GKE - see the section below on [Running kube-bench](https://github.com/aquasecurity/kube-bench#running-kube-bench).
@ -141,6 +143,7 @@ The following table shows the valid targets based on the CIS Benchmark version.
| cis-1.6| master, controlplane, node, etcd, policies |
| gke-1.0| master, controlplane, node, etcd, policies, managedservices |
| eks-1.0| controlplane, node, policies, managedservices |
| ack-1.0| master, controlplane, node, etcd, policies, managedservices |
If no targets are specified, `kube-bench` will determine the appropriate targets based on the CIS Benchmark version and the components detected on the node. The detection is done by verifying which components are running, as defined in the config files (see [Configuration](#configuration).
### Running inside a container
@ -268,6 +271,21 @@ To run the benchmark as a job in your GKE cluster apply the included `job-gke.ya
kubectl apply -f job-gke.yaml
```
### Running in a ACK cluster
| CIS Benchmark | Targets |
|---|---|
| ack-1.0| master, controlplane, node, etcd, policies, managedservices |
kube-bench includes benchmarks for Alibaba Cloud Container Service For Kubernetes (ACK).
To run this you will need to specify `--benchmark ack-1.0` when you run the `kube-bench` command.
To run the benchmark as a job in your ACK cluster apply the included `job-ack.yaml`.
```
kubectl apply -f job-ack.yaml
```
### Installing from a container
This command copies the kube-bench binary and configuration files to your host from the Docker container:
@ -280,7 +298,7 @@ You can then run `./kube-bench`.
### Download and Install binaries
It is possible to manually install and run kube-bench release binaries. In order to do that, you must have access to your Kubernetes cluster nodes. Note that if you're using one of the managed Kubernetes services (e.g. EKS, AKS, GKE), you will not have access to the master nodes of your cluster and you cant perform any tests on the master nodes.
It is possible to manually install and run kube-bench release binaries. In order to do that, you must have access to your Kubernetes cluster nodes. Note that if you're using one of the managed Kubernetes services (e.g. EKS, AKS, GKE, ACK), you will not have access to the master nodes of your cluster and you cant perform any tests on the master nodes.
First, log into one of the nodes using SSH.

2
cfg/ack-1.0/config.yaml Normal file
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@ -0,0 +1,2 @@
---
## Version-specific settings that override the values in cfg/config.yaml

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@ -0,0 +1,39 @@
---
controls:
version: "ack-1.0"
id: 3
text: "Control Plane Configuration"
type: "controlplane"
groups:
- id: 3.1
text: "Authentication and Authorization"
checks:
- id: 3.1.1
text: "Revoke client certificate when possible leakage (Manual)"
type: "manual"
remediation: |
Kubernetes provides the option to use client certificates for user authentication.
ACK issues kubeconfig with its client certificates as the user credentials for connecing to target cluster.
User should revoke his/her issued kubeconfig when possible leakage.
scored: false
- id: 3.2
text: "Logging"
checks:
- id: 3.2.1
text: "Ensure that a minimal audit policy is created (Manual)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--audit-policy-file"
remediation: |
Create an audit policy file for your cluster.
scored: false
- id: 3.2.2
text: "Ensure that the audit policy covers key security concerns (Manual)"
type: "manual"
remediation: |
Consider modification of the audit policy in use on the cluster to include these items, at a
minimum.
scored: false

135
cfg/ack-1.0/etcd.yaml Normal file
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---
controls:
version: "ack-1.0"
id: 2
text: "Etcd Node Configuration"
type: "etcd"
groups:
- id: 2
text: "Etcd Node Configuration Files"
checks:
- id: 2.1
text: "Ensure that the --cert-file and --key-file arguments are set as appropriate (Automated)"
audit: "/bin/ps -ef | /bin/grep $etcdbin | /bin/grep -v grep"
tests:
bin_op: and
test_items:
- flag: "--cert-file"
env: "ETCD_CERT_FILE"
- flag: "--key-file"
env: "ETCD_KEY_FILE"
remediation: |
Follow the etcd service documentation and configure TLS encryption.
Then, edit the etcd pod specification file /etc/kubernetes/manifests/etcd.yaml
on the master node and set the below parameters.
--cert-file=</path/to/ca-file>
--key-file=</path/to/key-file>
scored: true
- id: 2.2
text: "Ensure that the --client-cert-auth argument is set to true (Automated)"
audit: "/bin/ps -ef | /bin/grep $etcdbin | /bin/grep -v grep"
tests:
test_items:
- flag: "--client-cert-auth"
env: "ETCD_CLIENT_CERT_AUTH"
compare:
op: eq
value: true
remediation: |
Edit the etcd pod specification file $etcdconf on the master
node and set the below parameter.
--client-cert-auth="true"
scored: true
- id: 2.3
text: "Ensure that the --auto-tls argument is not set to true (Automated)"
audit: "/bin/ps -ef | /bin/grep $etcdbin | /bin/grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--auto-tls"
env: "ETCD_AUTO_TLS"
set: false
- flag: "--auto-tls"
env: "ETCD_AUTO_TLS"
compare:
op: eq
value: false
remediation: |
Edit the etcd pod specification file $etcdconf on the master
node and either remove the --auto-tls parameter or set it to false.
--auto-tls=false
scored: true
- id: 2.4
text: "Ensure that the --peer-cert-file and --peer-key-file arguments are
set as appropriate (Automated)"
audit: "/bin/ps -ef | /bin/grep $etcdbin | /bin/grep -v grep"
tests:
bin_op: and
test_items:
- flag: "--peer-cert-file"
env: "ETCD_PEER_CERT_FILE"
- flag: "--peer-key-file"
env: "ETCD_PEER_KEY_FILE"
remediation: |
Follow the etcd service documentation and configure peer TLS encryption as appropriate
for your etcd cluster.
Then, edit the etcd pod specification file $etcdconf on the
master node and set the below parameters.
--peer-client-file=</path/to/peer-cert-file>
--peer-key-file=</path/to/peer-key-file>
scored: true
- id: 2.5
text: "Ensure that the --peer-client-cert-auth argument is set to true (Automated)"
audit: "/bin/ps -ef | /bin/grep $etcdbin | /bin/grep -v grep"
tests:
test_items:
- flag: "--peer-client-cert-auth"
env: "ETCD_PEER_CLIENT_CERT_AUTH"
compare:
op: eq
value: true
remediation: |
Edit the etcd pod specification file $etcdconf on the master
node and set the below parameter.
--peer-client-cert-auth=true
scored: true
- id: 2.6
text: "Ensure that the --peer-auto-tls argument is not set to true (Automated)"
audit: "/bin/ps -ef | /bin/grep $etcdbin | /bin/grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--peer-auto-tls"
env: "ETCD_PEER_AUTO_TLS"
set: false
- flag: "--peer-auto-tls"
env: "ETCD_PEER_AUTO_TLS"
compare:
op: eq
value: false
remediation: |
Edit the etcd pod specification file $etcdconf on the master
node and either remove the --peer-auto-tls parameter or set it to false.
--peer-auto-tls=false
scored: true
- id: 2.7
text: "Ensure that a unique Certificate Authority is used for etcd (Manual)"
audit: "/bin/ps -ef | /bin/grep $etcdbin | /bin/grep -v grep"
tests:
test_items:
- flag: "--trusted-ca-file"
env: "ETCD_TRUSTED_CA_FILE"
remediation: |
[Manual test]
Follow the etcd documentation and create a dedicated certificate authority setup for the
etcd service.
Then, edit the etcd pod specification file $etcdconf on the
master node and set the below parameter.
--trusted-ca-file=</path/to/ca-file>
scored: false

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@ -0,0 +1,127 @@
---
controls:
version: "ack-1.0"
id: 6
text: "Managed Services"
type: "managedservices"
groups:
- id: 6.1
text: "Image Registry and Image Scanning"
checks:
- id: 6.1.1
text: "Ensure Image Vulnerability Scanning using ACR image scanning or a third party provider (Manual)"
type: "manual"
remediation: |
Ensure Image Vulnerability Scanning using ACR image scanning or a third party provider by follow the ACR document: https://www.alibabacloud.com/help/doc-detail/160146.htm
scored: false
- id: 6.1.2
text: "Minimize user access to ACR (Manual)"
type: "manual"
remediation: |
Minimize user access to ACR by follow the ACR document to setup network access control: https://www.alibabacloud.com/help/doc-detail/142179.htm
And follow the ACR document to setup Resource Access Management (RAM) policies for ACR: https://www.alibabacloud.com/help/doc-detail/144229.htm
scored: false
- id: 6.1.3
text: "Minimize cluster access to read-only for ACR (Manual)"
type: "manual"
remediation: Minimize cluster access to read-only for ACR
scored: false
- id: 6.1.4
text: "Minimize Container Registries to only those approved (Manual)"
type: "manual"
remediation: Minimize Container Registries to only those approved
scored: false
- id: 6.2
text: "Key Management Service (KMS)"
checks:
- id: 6.2.1
text: "Ensure Kubernetes Secrets are encrypted using keys managed in KMS (Manual)"
type: "manual"
remediation: |
Ensure Kubernetes Secrets are encrypted using keys managed in KMS by follow The ACK document: https://www.alibabacloud.com/help/zh/doc-detail/177372.htm
scored: false
- id: 6.3
text: "Cluster Networking"
checks:
- id: 6.3.1
text: "Restrict Access to the Control Plane Endpoint (Manual)"
type: "manual"
remediation: Restrict Access to the Control Plane Endpoint
scored: false
- id: 6.3.2
text: "Ensure clusters are created with Private Endpoint Enabled and Public Access Disabled (Manual)"
type: "manual"
remediation: Ensure clusters are created with Private Endpoint Enabled and Public Access Disabled
scored: false
- id: 6.3.3
text: "Ensure clusters are created with Private Nodes (Manual)"
type: "manual"
remediation: Ensure clusters are created with Private Nodes
scored: false
- id: 6.3.4
text: "Ensure Network Policy is Enabled and set as appropriate (Manual)"
type: "manual"
remediation: Ensure Network Policy is Enabled and set as appropriate
scored: false
- id: 6.3.5
text: "Encrypt traffic to HTTPS load balancers with TLS certificates (Manual)"
type: "manual"
remediation: Encrypt traffic to HTTPS load balancers with TLS certificates
scored: false
- id: 6.4
text: "Storage"
checks:
- id: 6.4.1
text: "Enable data disk encryption for Alibaba Cloud Disks (Manual)"
type: "manual"
remediation: Enable data disk encryption for Alibaba Cloud Disks
scored: false
- id: 6.5
text: "Logging"
checks:
- id: 6.5.1
text: "Ensure Cluster Auditing is Enabled (Manual)"
type: "manual"
remediation: Ensure Cluster Auditing is Enabled
scored: false
- id: 6.6
text: "Other Cluster Configurations"
checks:
- id: 6.6.1
text: "Ensure Pod Security Policy is Enabled and set as appropriate (Manual)"
type: "manual"
remediation: Ensure Pod Security Policy is Enabled and set as appropriate
scored: false
- id: 6.6.2
text: "Enable Cloud Security Center (Manual)"
type: "manual"
remediation: Enable Cloud Security Center
scored: false
- id: 6.6.3
text: "Consider ACK Sandboxed-Container for running untrusted workloads (Manual)"
type: "manual"
remediation: Consider ACK Sandboxed-Container for running untrusted workloads
- id: 6.6.4
text: "Consider ACK TEE-based when running confidential computing (Manual)"
type: "manual"
remediation: Consider ACK TEE-based when running confidential computing
- id: 6.6.5
text: "Consider use service account token volume projection (Manual)"
type: "manual"
remediation: Consider use service account token volume projection

973
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@ -0,0 +1,973 @@
---
controls:
version: "ack-1.0"
id: 1
text: "Master Node Security Configuration"
type: "master"
groups:
- id: 1.1
text: "Master Node Configuration Files"
checks:
- id: 1.1.1
text: "Ensure that the API server pod specification file permissions are set to 644 or more restrictive (Automated)"
audit: "/bin/sh -c 'if test -e $apiserverconf; then stat -c permissions=%a $apiserverconf; fi'"
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the
master node.
For example, chmod 644 $apiserverconf
scored: true
- id: 1.1.2
text: "Ensure that the API server pod specification file ownership is set to root:root (Automated)"
audit: "/bin/sh -c 'if test -e $apiserverconf; then stat -c %U:%G $apiserverconf; fi'"
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root $apiserverconf
scored: true
- id: 1.1.3
text: "Ensure that the controller manager pod specification file permissions are set to 644 or more restrictive (Automated)"
audit: "/bin/sh -c 'if test -e $controllermanagerconf; then stat -c permissions=%a $controllermanagerconf; fi'"
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod 644 $controllermanagerconf
scored: true
- id: 1.1.4
text: "Ensure that the controller manager pod specification file ownership is set to root:root (Automated)"
audit: "/bin/sh -c 'if test -e $controllermanagerconf; then stat -c %U:%G $controllermanagerconf; fi'"
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root $controllermanagerconf
scored: true
- id: 1.1.5
text: "Ensure that the scheduler pod specification file permissions are set to 644 or more restrictive (Automated)"
audit: "/bin/sh -c 'if test -e $schedulerconf; then stat -c permissions=%a $schedulerconf; fi'"
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod 644 $schedulerconf
scored: true
- id: 1.1.6
text: "Ensure that the scheduler pod specification file ownership is set to root:root (Automated)"
audit: "/bin/sh -c 'if test -e $schedulerconf; then stat -c %U:%G $schedulerconf; fi'"
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root $schedulerconf
scored: true
- id: 1.1.7
text: "Ensure that the etcd service file permissions are set to 644 or more restrictive (Automated)"
audit: |
stat -c permissions=%a /usr/lib/systemd/system/etcd.service || \
if test -e $etcdconf; then find $etcdconf -name '*etcd*' | xargs stat -c permissions=%a; fi
use_multiple_values: true
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod 644 $etcdconf
scored: true
- id: 1.1.8
text: "Ensure that the etcd service file ownership is set to root:root (Automated)"
audit: |
stat -c %U:%G /usr/lib/systemd/system/etcd.service || \
if test -e $etcdconf; then find $etcdconf -name '*etcd*' | xargs stat -c %U:%G; fi
use_multiple_values: true
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root $etcdconf
scored: true
- id: 1.1.9
text: "Ensure that the Container Network Interface file permissions are set to 644 or more restrictive (Manual)"
audit: "stat -c permissions=%a <path/to/cni/files>"
type: "manual"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod 644 <path/to/cni/files>
scored: false
- id: 1.1.10
text: "Ensure that the Container Network Interface file ownership is set to root:root (Manual)"
audit: "stat -c %U:%G <path/to/cni/files>"
type: "manual"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root <path/to/cni/files>
scored: false
- id: 1.1.11
text: "Ensure that the etcd data directory permissions are set to 700 or more restrictive (Automated)"
audit: |
stat -c permissions=%a /var/lib/etcd/data.etcd || \
ps -ef | grep $etcdbin | grep -- --data-dir | sed 's%.*data-dir[= ]\([^ ]*\).*%\1%' | xargs stat -c permissions=%a
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "700"
remediation: |
On the etcd server node, get the etcd data directory, passed as an argument --data-dir,
from the below command:
ps -ef | grep etcd
Run the below command (based on the etcd data directory found above). For example,
chmod 700 /var/lib/etcd
scored: true
- id: 1.1.12
text: "Ensure that the etcd data directory ownership is set to etcd:etcd (Automated)"
audit: |
stat -c %U:%G /var/lib/etcd/data.etcd || \
ps -ef | grep $etcdbin | grep -- --data-dir | sed 's%.*data-dir[= ]\([^ ]*\).*%\1%' | xargs stat -c %U:%G
tests:
test_items:
- flag: "etcd:etcd"
remediation: |
On the etcd server node, get the etcd data directory, passed as an argument --data-dir,
from the below command:
ps -ef | grep etcd
Run the below command (based on the etcd data directory found above).
For example, chown etcd:etcd /var/lib/etcd
scored: true
- id: 1.1.13
text: "Ensure that the admin.conf file permissions are set to 644 or more restrictive (Automated)"
audit: "/bin/sh -c 'if test -e /etc/kubernetes/admin.conf; then stat -c permissions=%a /etc/kubernetes/admin.conf; fi'"
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod 644 /etc/kubernetes/admin.conf
scored: true
- id: 1.1.14
text: "Ensure that the admin.conf file ownership is set to root:root (Automated)"
audit: "/bin/sh -c 'if test -e /etc/kubernetes/admin.conf; then stat -c %U:%G /etc/kubernetes/admin.conf; fi'"
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root /etc/kubernetes/admin.conf
scored: true
- id: 1.1.15
text: "Ensure that the scheduler.conf file permissions are set to 644 or more restrictive (Automated)"
audit: "/bin/sh -c 'if test -e $schedulerkubeconfig; then stat -c permissions=%a $schedulerkubeconfig; fi'"
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod 644 $schedulerkubeconfig
scored: true
- id: 1.1.16
text: "Ensure that the scheduler.conf file ownership is set to root:root (Automated)"
audit: "/bin/sh -c 'if test -e $schedulerkubeconfig; then stat -c %U:%G $schedulerkubeconfig; fi'"
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root $schedulerkubeconfig
scored: true
- id: 1.1.17
text: "Ensure that the controller-manager.conf file permissions are set to 644 or more restrictive (Automated)"
audit: "/bin/sh -c 'if test -e $controllermanagerkubeconfig; then stat -c permissions=%a $controllermanagerkubeconfig; fi'"
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod 644 $controllermanagerkubeconfig
scored: true
- id: 1.1.18
text: "Ensure that the controller-manager.conf file ownership is set to root:root (Automated)"
audit: "/bin/sh -c 'if test -e $controllermanagerkubeconfig; then stat -c %U:%G $controllermanagerkubeconfig; fi'"
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown root:root $controllermanagerkubeconfig
scored: true
- id: 1.1.19
text: "Ensure that the Kubernetes PKI directory and file ownership is set to root:root (Automated)"
audit: "find /etc/kubernetes/pki/ | xargs stat -c %U:%G"
use_multiple_values: true
tests:
test_items:
- flag: "root:root"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chown -R root:root /etc/kubernetes/pki/
scored: true
- id: 1.1.20
text: "Ensure that the Kubernetes PKI certificate file permissions are set to 644 or more restrictive (Manual)"
audit: "find /etc/kubernetes/pki -name '*.crt' | xargs stat -c permissions=%a"
use_multiple_values: true
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod -R 644 /etc/kubernetes/pki/*.crt
scored: false
- id: 1.1.21
text: "Ensure that the Kubernetes PKI key file permissions are set to 600 (Manual)"
audit: "find /etc/kubernetes/pki -name '*.key' | xargs stat -c permissions=%a"
use_multiple_values: true
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "600"
remediation: |
Run the below command (based on the file location on your system) on the master node.
For example,
chmod -R 600 /etc/kubernetes/pki/*.key
scored: false
- id: 1.2
text: "API Server"
checks:
- id: 1.2.1
text: "Ensure that the --basic-auth-file argument is not set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--basic-auth-file"
set: false
remediation: |
Follow the documentation and configure alternate mechanisms for authentication. Then,
edit the API server pod specification file $apiserverconf
on the master node and remove the --basic-auth-file=<filename> parameter.
scored: true
- id: 1.2.2
text: "Ensure that the --token-auth-file parameter is not set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--token-auth-file"
set: false
remediation: |
Follow the documentation and configure alternate mechanisms for authentication. Then,
edit the API server pod specification file $apiserverconf
on the master node and remove the --token-auth-file=<filename> parameter.
scored: true
- id: 1.2.3
text: "Ensure that the --kubelet-https argument is set to true (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--kubelet-https"
compare:
op: eq
value: true
- flag: "--kubelet-https"
set: false
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and remove the --kubelet-https parameter.
scored: true
- id: 1.2.4
text: "Ensure that the --kubelet-client-certificate and --kubelet-client-key arguments are set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: and
test_items:
- flag: "--kubelet-client-certificate"
- flag: "--kubelet-client-key"
remediation: |
Follow the Kubernetes documentation and set up the TLS connection between the
apiserver and kubelets. Then, edit API server pod specification file
$apiserverconf on the master node and set the
kubelet client certificate and key parameters as below.
--kubelet-client-certificate=<path/to/client-certificate-file>
--kubelet-client-key=<path/to/client-key-file>
scored: true
- id: 1.2.5
text: "Ensure that the --authorization-mode argument is not set to AlwaysAllow (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--authorization-mode"
compare:
op: nothave
value: "AlwaysAllow"
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --authorization-mode parameter to values other than AlwaysAllow.
One such example could be as below.
--authorization-mode=RBAC
scored: true
- id: 1.2.6
text: "Ensure that the --authorization-mode argument includes Node (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--authorization-mode"
compare:
op: has
value: "Node"
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --authorization-mode parameter to a value that includes Node.
--authorization-mode=Node,RBAC
scored: true
- id: 1.2.7
text: "Ensure that the --authorization-mode argument includes RBAC (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--authorization-mode"
compare:
op: has
value: "RBAC"
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --authorization-mode parameter to a value that includes RBAC,
for example:
--authorization-mode=Node,RBAC
scored: true
- id: 1.2.8
text: "Ensure that the admission control plugin EventRateLimit is set (Manual)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--enable-admission-plugins"
compare:
op: has
value: "EventRateLimit"
remediation: |
Follow the Kubernetes documentation and set the desired limits in a configuration file.
Then, edit the API server pod specification file $apiserverconf
and set the below parameters.
--enable-admission-plugins=...,EventRateLimit,...
--admission-control-config-file=<path/to/configuration/file>
scored: false
- id: 1.2.9
text: "Ensure that the admission control plugin AlwaysAdmit is not set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--enable-admission-plugins"
compare:
op: nothave
value: AlwaysAdmit
- flag: "--enable-admission-plugins"
set: false
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and either remove the --enable-admission-plugins parameter, or set it to a
value that does not include AlwaysAdmit.
scored: true
- id: 1.2.10
text: "Ensure that the admission control plugin AlwaysPullImages is set (Manual)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--enable-admission-plugins"
compare:
op: has
value: "AlwaysPullImages"
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --enable-admission-plugins parameter to include
AlwaysPullImages.
--enable-admission-plugins=...,AlwaysPullImages,...
scored: false
- id: 1.2.11
text: "Ensure that the admission control plugin SecurityContextDeny is set if PodSecurityPolicy is not used (Manual)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--enable-admission-plugins"
compare:
op: has
value: "SecurityContextDeny"
- flag: "--enable-admission-plugins"
compare:
op: has
value: "PodSecurityPolicy"
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --enable-admission-plugins parameter to include
SecurityContextDeny, unless PodSecurityPolicy is already in place.
--enable-admission-plugins=...,SecurityContextDeny,...
scored: false
- id: 1.2.12
text: "Ensure that the admission control plugin ServiceAccount is set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--disable-admission-plugins"
compare:
op: nothave
value: "ServiceAccount"
- flag: "--disable-admission-plugins"
set: false
remediation: |
Follow the documentation and create ServiceAccount objects as per your environment.
Then, edit the API server pod specification file $apiserverconf
on the master node and ensure that the --disable-admission-plugins parameter is set to a
value that does not include ServiceAccount.
scored: true
- id: 1.2.13
text: "Ensure that the admission control plugin NamespaceLifecycle is set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--disable-admission-plugins"
compare:
op: nothave
value: "NamespaceLifecycle"
- flag: "--disable-admission-plugins"
set: false
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --disable-admission-plugins parameter to
ensure it does not include NamespaceLifecycle.
scored: true
- id: 1.2.14
text: "Ensure that the admission control plugin PodSecurityPolicy is set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--enable-admission-plugins"
compare:
op: has
value: "PodSecurityPolicy"
remediation: |
Follow the documentation and create Pod Security Policy objects as per your environment.
Then, edit the API server pod specification file $apiserverconf
on the master node and set the --enable-admission-plugins parameter to a
value that includes PodSecurityPolicy:
--enable-admission-plugins=...,PodSecurityPolicy,...
Then restart the API Server.
scored: true
- id: 1.2.15
text: "Ensure that the admission control plugin NodeRestriction is set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--enable-admission-plugins"
compare:
op: has
value: "NodeRestriction"
remediation: |
Follow the Kubernetes documentation and configure NodeRestriction plug-in on kubelets.
Then, edit the API server pod specification file $apiserverconf
on the master node and set the --enable-admission-plugins parameter to a
value that includes NodeRestriction.
--enable-admission-plugins=...,NodeRestriction,...
scored: true
- id: 1.2.16
text: "Ensure that the --insecure-bind-address argument is not set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--insecure-bind-address"
set: false
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and remove the --insecure-bind-address parameter.
scored: true
- id: 1.2.17
text: "Ensure that the --insecure-port argument is set to 0 (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--insecure-port"
compare:
op: eq
value: 0
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the below parameter.
--insecure-port=0
scored: true
- id: 1.2.18
text: "Ensure that the --secure-port argument is not set to 0 (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--secure-port"
compare:
op: gt
value: 0
- flag: "--secure-port"
set: false
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and either remove the --secure-port parameter or
set it to a different (non-zero) desired port.
scored: true
- id: 1.2.19
text: "Ensure that the --profiling argument is set to false (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--profiling"
compare:
op: eq
value: false
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the below parameter.
--profiling=false
scored: true
- id: 1.2.20
text: "Ensure that the --audit-log-path argument is set (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--audit-log-path"
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --audit-log-path parameter to a suitable path and
file where you would like audit logs to be written, for example:
--audit-log-path=/var/log/apiserver/audit.log
scored: true
- id: 1.2.21
text: "Ensure that the --audit-log-maxage argument is set to 30 or as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--audit-log-maxage"
compare:
op: gte
value: 30
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --audit-log-maxage parameter to 30 or as an appropriate number of days:
--audit-log-maxage=30
scored: true
- id: 1.2.22
text: "Ensure that the --audit-log-maxbackup argument is set to 10 or as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--audit-log-maxbackup"
compare:
op: gte
value: 10
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --audit-log-maxbackup parameter to 10 or to an appropriate
value.
--audit-log-maxbackup=10
scored: true
- id: 1.2.23
text: "Ensure that the --audit-log-maxsize argument is set to 100 or as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--audit-log-maxsize"
compare:
op: gte
value: 100
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --audit-log-maxsize parameter to an appropriate size in MB.
For example, to set it as 100 MB:
--audit-log-maxsize=100
scored: true
- id: 1.2.24
text: "Ensure that the --request-timeout argument is set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--request-timeout"
set: false
- flag: "--request-timeout"
remediation: |
Edit the API server pod specification file $apiserverconf
and set the below parameter as appropriate and if needed.
For example,
--request-timeout=300s
scored: true
- id: 1.2.25
text: "Ensure that the --service-account-lookup argument is set to true (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--service-account-lookup"
set: false
- flag: "--service-account-lookup"
compare:
op: eq
value: true
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the below parameter.
--service-account-lookup=true
Alternatively, you can delete the --service-account-lookup parameter from this file so
that the default takes effect.
scored: true
- id: 1.2.26
text: "Ensure that the --service-account-key-file argument is set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--service-account-key-file"
remediation: |
Edit the API server pod specification file $apiserverconf
on the master node and set the --service-account-key-file parameter
to the public key file for service accounts:
--service-account-key-file=<filename>
scored: true
- id: 1.2.27
text: "Ensure that the --etcd-certfile and --etcd-keyfile arguments are set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: and
test_items:
- flag: "--etcd-certfile"
- flag: "--etcd-keyfile"
remediation: |
Follow the Kubernetes documentation and set up the TLS connection between the apiserver and etcd.
Then, edit the API server pod specification file $apiserverconf
on the master node and set the etcd certificate and key file parameters.
--etcd-certfile=<path/to/client-certificate-file>
--etcd-keyfile=<path/to/client-key-file>
scored: true
- id: 1.2.28
text: "Ensure that the --tls-cert-file and --tls-private-key-file arguments are set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
bin_op: and
test_items:
- flag: "--tls-cert-file"
- flag: "--tls-private-key-file"
remediation: |
Follow the Kubernetes documentation and set up the TLS connection on the apiserver.
Then, edit the API server pod specification file $apiserverconf
on the master node and set the TLS certificate and private key file parameters.
--tls-cert-file=<path/to/tls-certificate-file>
--tls-private-key-file=<path/to/tls-key-file>
scored: true
- id: 1.2.29
text: "Ensure that the --client-ca-file argument is set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--client-ca-file"
remediation: |
Follow the Kubernetes documentation and set up the TLS connection on the apiserver.
Then, edit the API server pod specification file $apiserverconf
on the master node and set the client certificate authority file.
--client-ca-file=<path/to/client-ca-file>
scored: true
- id: 1.2.30
text: "Ensure that the --etcd-cafile argument is set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--etcd-cafile"
remediation: |
Follow the Kubernetes documentation and set up the TLS connection between the apiserver and etcd.
Then, edit the API server pod specification file $apiserverconf
on the master node and set the etcd certificate authority file parameter.
--etcd-cafile=<path/to/ca-file>
scored: true
- id: 1.2.31
text: "Ensure that the --encryption-provider-config argument is set as appropriate (Manual)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--encryption-provider-config"
remediation: |
Follow the Kubernetes documentation and configure a EncryptionConfig file.
Then, edit the API server pod specification file $apiserverconf
on the master node and set the --encryption-provider-config parameter to the path of that file: --encryption-provider-config=</path/to/EncryptionConfig/File>
scored: false
- id: 1.2.32
text: "Ensure that encryption providers are appropriately configured (Manual)"
audit: |
ENCRYPTION_PROVIDER_CONFIG=$(ps -ef | grep $apiserverbin | grep -- --encryption-provider-config | sed 's%.*encryption-provider-config[= ]\([^ ]*\).*%\1%')
if test -e $ENCRYPTION_PROVIDER_CONFIG; then grep -A1 'providers:' $ENCRYPTION_PROVIDER_CONFIG | tail -n1 | grep -o "[A-Za-z]*" | sed 's/^/provider=/'; fi
tests:
test_items:
- flag: "provider"
compare:
op: valid_elements
value: "aescbc,kms,secretbox"
remediation: |
Follow the Kubernetes documentation and configure a EncryptionConfig file.
In this file, choose aescbc, kms or secretbox as the encryption provider.
scored: false
- id: 1.2.33
text: "Ensure that the API Server only makes use of Strong Cryptographic Ciphers (Manual)"
audit: "/bin/ps -ef | grep $apiserverbin | grep -v grep"
tests:
test_items:
- flag: "--tls-cipher-suites"
compare:
op: valid_elements
value: "TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384,TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_128_GCM_SHA256"
remediation: |
Edit the API server pod specification file /etc/kubernetes/manifests/kube-apiserver.yaml
on the master node and set the below parameter.
--tls-cipher-suites=TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_RSA_WITH_AES_128_GCM
_SHA256,TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_RSA_WITH_AES_256_GCM
_SHA384,TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_ECDSA_WITH_AES_256_GCM
_SHA384
scored: false
- id: 1.3
text: "Controller Manager"
checks:
- id: 1.3.1
text: "Ensure that the --terminated-pod-gc-threshold argument is set as appropriate (Manual)"
audit: "/bin/ps -ef | grep $controllermanagerbin | grep -v grep"
tests:
test_items:
- flag: "--terminated-pod-gc-threshold"
remediation: |
Edit the Controller Manager pod specification file $controllermanagerconf
on the master node and set the --terminated-pod-gc-threshold to an appropriate threshold,
for example:
--terminated-pod-gc-threshold=10
scored: false
- id: 1.3.2
text: "Ensure that the --profiling argument is set to false (Automated)"
audit: "/bin/ps -ef | grep $controllermanagerbin | grep -v grep"
tests:
test_items:
- flag: "--profiling"
compare:
op: eq
value: false
remediation: |
Edit the Controller Manager pod specification file $controllermanagerconf
on the master node and set the below parameter.
--profiling=false
scored: true
- id: 1.3.3
text: "Ensure that the --use-service-account-credentials argument is set to true (Automated)"
audit: "/bin/ps -ef | grep $controllermanagerbin | grep -v grep"
tests:
test_items:
- flag: "--use-service-account-credentials"
compare:
op: noteq
value: false
remediation: |
Edit the Controller Manager pod specification file $controllermanagerconf
on the master node to set the below parameter.
--use-service-account-credentials=true
scored: true
- id: 1.3.4
text: "Ensure that the --service-account-private-key-file argument is set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $controllermanagerbin | grep -v grep"
tests:
test_items:
- flag: "--service-account-private-key-file"
remediation: |
Edit the Controller Manager pod specification file $controllermanagerconf
on the master node and set the --service-account-private-key-file parameter
to the private key file for service accounts.
--service-account-private-key-file=<filename>
scored: true
- id: 1.3.5
text: "Ensure that the --root-ca-file argument is set as appropriate (Automated)"
audit: "/bin/ps -ef | grep $controllermanagerbin | grep -v grep"
tests:
test_items:
- flag: "--root-ca-file"
remediation: |
Edit the Controller Manager pod specification file $controllermanagerconf
on the master node and set the --root-ca-file parameter to the certificate bundle file`.
--root-ca-file=<path/to/file>
scored: true
- id: 1.3.6
text: "Ensure that the RotateKubeletServerCertificate argument is set to true (Automated)"
audit: "/bin/ps -ef | grep $controllermanagerbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--feature-gates"
compare:
op: nothave
value: "RotateKubeletServerCertificate=false"
set: true
- flag: "--feature-gates"
set: false
remediation: |
Edit the Controller Manager pod specification file $controllermanagerconf
on the master node and set the --feature-gates parameter to include RotateKubeletServerCertificate=true.
--feature-gates=RotateKubeletServerCertificate=true
scored: true
- id: 1.3.7
text: "Ensure that the --bind-address argument is set to 127.0.0.1 (Automated)"
audit: "/bin/ps -ef | grep $controllermanagerbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--bind-address"
compare:
op: eq
value: "127.0.0.1"
- flag: "--bind-address"
set: false
remediation: |
Edit the Controller Manager pod specification file $controllermanagerconf
on the master node and ensure the correct value for the --bind-address parameter
scored: true
- id: 1.4
text: "Scheduler"
checks:
- id: 1.4.1
text: "Ensure that the --profiling argument is set to false (Automated)"
audit: "/bin/ps -ef | grep $schedulerbin | grep -v grep"
tests:
test_items:
- flag: "--profiling"
compare:
op: eq
value: false
remediation: |
Edit the Scheduler pod specification file $schedulerconf file
on the master node and set the below parameter.
--profiling=false
scored: true
- id: 1.4.2
text: "Ensure that the --bind-address argument is set to 127.0.0.1 (Automated)"
audit: "/bin/ps -ef | grep $schedulerbin | grep -v grep"
tests:
bin_op: or
test_items:
- flag: "--bind-address"
compare:
op: eq
value: "127.0.0.1"
- flag: "--bind-address"
set: false
remediation: |
Edit the Scheduler pod specification file $schedulerconf
on the master node and ensure the correct value for the --bind-address parameter
scored: true

392
cfg/ack-1.0/node.yaml Normal file
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@ -0,0 +1,392 @@
---
controls:
version: "ack-1.0"
id: 4
text: "Worker Node Security Configuration"
type: "node"
groups:
- id: 4.1
text: "Worker Node Configuration Files"
checks:
- id: 4.1.1
text: "Ensure that the kubelet service file permissions are set to 644 or more restrictive (Automated)"
audit: '/bin/sh -c ''if test -e $kubeletsvc; then stat -c permissions=%a $kubeletsvc; fi'' '
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the each worker node.
For example,
chmod 644 $kubeletsvc
scored: true
- id: 4.1.2
text: "Ensure that the kubelet service file ownership is set to root:root (Automated)"
audit: '/bin/sh -c ''if test -e $kubeletsvc; then stat -c %U:%G $kubeletsvc; fi'' '
tests:
test_items:
- flag: root:root
remediation: |
Run the below command (based on the file location on your system) on the each worker node.
For example,
chown root:root $kubeletsvc
scored: true
- id: 4.1.3
text: "If proxy kubeconfig file exists ensure permissions are set to 644 or more restrictive (Manual)"
audit: '/bin/sh -c ''if test -e $proxykubeconfig; then stat -c permissions=%a $proxykubeconfig; fi'' '
tests:
bin_op: or
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
- flag: "$proxykubeconfig"
set: false
remediation: |
Run the below command (based on the file location on your system) on the each worker node.
For example,
chmod 644 $proxykubeconfig
scored: false
- id: 4.1.4
text: "If proxy kubeconfig file exists ensure ownership is set to root:root (Manual)"
audit: '/bin/sh -c ''if test -e $proxykubeconfig; then stat -c %U:%G $proxykubeconfig; fi'' '
tests:
bin_op: or
test_items:
- flag: root:root
- flag: "$proxykubeconfig"
set: false
remediation: |
Run the below command (based on the file location on your system) on the each worker node.
For example, chown root:root $proxykubeconfig
scored: false
- id: 4.1.5
text: "Ensure that the --kubeconfig kubelet.conf file permissions are set to 644 or more restrictive (Automated)"
audit: '/bin/sh -c ''if test -e $kubeletkubeconfig; then stat -c permissions=%a $kubeletkubeconfig; fi'' '
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the below command (based on the file location on your system) on the each worker node.
For example,
chmod 644 $kubeletkubeconfig
scored: true
- id: 4.1.6
text: "Ensure that the --kubeconfig kubelet.conf file ownership is set to root:root (Manual)"
audit: '/bin/sh -c ''if test -e $kubeletkubeconfig; then stat -c %U:%G $kubeletkubeconfig; fi'' '
tests:
test_items:
- flag: root:root
remediation: |
Run the below command (based on the file location on your system) on the each worker node.
For example,
chown root:root $kubeletkubeconfig
scored: false
- id: 4.1.7
text: "Ensure that the certificate authorities file permissions are set to 644 or more restrictive (Manual)"
audit: |
CAFILE=$(ps -ef | grep kubelet | grep -v apiserver | grep -- --client-ca-file= | awk -F '--client-ca-file=' '{print $2}' | awk '{print $1}')
if test -z $CAFILE; then CAFILE=$kubeletcafile; fi
if test -e $CAFILE; then stat -c permissions=%a $CAFILE; fi
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the following command to modify the file permissions of the
--client-ca-file chmod 644 <filename>
scored: false
- id: 4.1.8
text: "Ensure that the client certificate authorities file ownership is set to root:root (Manual)"
audit: |
CAFILE=$(ps -ef | grep kubelet | grep -v apiserver | grep -- --client-ca-file= | awk -F '--client-ca-file=' '{print $2}' | awk '{print $1}')
if test -z $CAFILE; then CAFILE=$kubeletcafile; fi
if test -e $CAFILE; then stat -c %U:%G $CAFILE; fi
tests:
test_items:
- flag: root:root
compare:
op: eq
value: root:root
remediation: |
Run the following command to modify the ownership of the --client-ca-file.
chown root:root <filename>
scored: false
- id: 4.1.9
text: "Ensure that the kubelet --config configuration file has permissions set to 644 or more restrictive (Automated)"
audit: '/bin/sh -c ''if test -e $kubeletconf; then stat -c permissions=%a $kubeletconf; fi'' '
tests:
test_items:
- flag: "permissions"
compare:
op: bitmask
value: "644"
remediation: |
Run the following command (using the config file location identified in the Audit step)
chmod 644 $kubeletconf
scored: true
- id: 4.1.10
text: "Ensure that the kubelet --config configuration file ownership is set to root:root (Automated)"
audit: '/bin/sh -c ''if test -e $kubeletconf; then stat -c %U:%G $kubeletconf; fi'' '
tests:
test_items:
- flag: root:root
remediation: |
Run the following command (using the config file location identified in the Audit step)
chown root:root $kubeletconf
scored: true
- id: 4.2
text: "Kubelet"
checks:
- id: 4.2.1
text: "Ensure that the anonymous-auth argument is set to false (Automated)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: "--anonymous-auth"
path: '{.authentication.anonymous.enabled}'
compare:
op: eq
value: false
remediation: |
If using a Kubelet config file, edit the file to set authentication: anonymous: enabled to
false.
If using executable arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameter in KUBELET_SYSTEM_PODS_ARGS variable.
--anonymous-auth=false
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: true
- id: 4.2.2
text: "Ensure that the --authorization-mode argument is not set to AlwaysAllow (Automated)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --authorization-mode
path: '{.authorization.mode}'
compare:
op: nothave
value: AlwaysAllow
remediation: |
If using a Kubelet config file, edit the file to set authorization: mode to Webhook. If
using executable arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameter in KUBELET_AUTHZ_ARGS variable.
--authorization-mode=Webhook
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: true
- id: 4.2.3
text: "Ensure that the --client-ca-file argument is set as appropriate (Automated)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --client-ca-file
path: '{.authentication.x509.clientCAFile}'
remediation: |
If using a Kubelet config file, edit the file to set authentication: x509: clientCAFile to
the location of the client CA file.
If using command line arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameter in KUBELET_AUTHZ_ARGS variable.
--client-ca-file=<path/to/client-ca-file>
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: true
- id: 4.2.4
text: "Ensure that the --read-only-port argument is set to 0 (Manual)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
bin_op: or
test_items:
- flag: "--read-only-port"
path: '{.readOnlyPort}'
compare:
op: eq
value: 0
- flag: "--read-only-port"
path: '{.readOnlyPort}'
set: false
remediation: |
If using a Kubelet config file, edit the file to set readOnlyPort to 0.
If using command line arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameter in KUBELET_SYSTEM_PODS_ARGS variable.
--read-only-port=0
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: false
- id: 4.2.5
text: "Ensure that the --streaming-connection-idle-timeout argument is not set to 0 (Manual)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --streaming-connection-idle-timeout
path: '{.streamingConnectionIdleTimeout}'
compare:
op: noteq
value: 0
- flag: --streaming-connection-idle-timeout
path: '{.streamingConnectionIdleTimeout}'
set: false
bin_op: or
remediation: |
If using a Kubelet config file, edit the file to set streamingConnectionIdleTimeout to a
value other than 0.
If using command line arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameter in KUBELET_SYSTEM_PODS_ARGS variable.
--streaming-connection-idle-timeout=5m
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: false
- id: 4.2.6
text: "Ensure that the --protect-kernel-defaults argument is set to true (Manual)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --protect-kernel-defaults
path: '{.protectKernelDefaults}'
compare:
op: eq
value: true
remediation: |
If using a Kubelet config file, edit the file to set protectKernelDefaults: true.
If using command line arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameter in KUBELET_SYSTEM_PODS_ARGS variable.
--protect-kernel-defaults=true
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: false
- id: 4.2.7
text: "Ensure that the --make-iptables-util-chains argument is set to true (Automated)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --make-iptables-util-chains
path: '{.makeIPTablesUtilChains}'
compare:
op: eq
value: true
- flag: --make-iptables-util-chains
path: '{.makeIPTablesUtilChains}'
set: false
bin_op: or
remediation: |
If using a Kubelet config file, edit the file to set makeIPTablesUtilChains: true.
If using command line arguments, edit the kubelet service file
$kubeletsvc on each worker node and
remove the --make-iptables-util-chains argument from the
KUBELET_SYSTEM_PODS_ARGS variable.
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: true
- id: 4.2.8
text: "Ensure that the --event-qps argument is set to 0 or a level which ensures appropriate event capture (Manual)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --event-qps
path: '{.eventRecordQPS}'
compare:
op: eq
value: 0
remediation: |
If using a Kubelet config file, edit the file to set eventRecordQPS: to an appropriate level.
If using command line arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameter in KUBELET_SYSTEM_PODS_ARGS variable.
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: false
- id: 4.2.9
text: "Ensure that the --tls-cert-file and --tls-private-key-file arguments are set as appropriate (Manual)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --tls-cert-file
path: '{.tlsCertFile}'
- flag: --tls-private-key-file
path: '{.tlsPrivateKeyFile}'
remediation: |
If using a Kubelet config file, edit the file to set tlsCertFile to the location
of the certificate file to use to identify this Kubelet, and tlsPrivateKeyFile
to the location of the corresponding private key file.
If using command line arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the below parameters in KUBELET_CERTIFICATE_ARGS variable.
--tls-cert-file=<path/to/tls-certificate-file>
--tls-private-key-file=<path/to/tls-key-file>
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: false
- id: 4.2.10
text: "Ensure that the Kubelet only makes use of Strong Cryptographic Ciphers (Manual)"
audit: "/bin/ps -fC $kubeletbin"
audit_config: "/bin/cat $kubeletconf"
tests:
test_items:
- flag: --tls-cipher-suites
path: '{range .tlsCipherSuites[:]}{}{'',''}{end}'
compare:
op: valid_elements
value: TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384,TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_128_GCM_SHA256
remediation: |
If using a Kubelet config file, edit the file to set TLSCipherSuites: to
TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384,TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_128_GCM_SHA256
or to a subset of these values.
If using executable arguments, edit the kubelet service file
$kubeletsvc on each worker node and
set the --tls-cipher-suites parameter as follows, or to a subset of these values.
--tls-cipher-suites=TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256,TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384,TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305,TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_256_GCM_SHA384,TLS_RSA_WITH_AES_128_GCM_SHA256
Based on your system, restart the kubelet service. For example:
systemctl daemon-reload
systemctl restart kubelet.service
scored: false

239
cfg/ack-1.0/policies.yaml Normal file
View File

@ -0,0 +1,239 @@
---
controls:
version: "ack-1.0"
id: 5
text: "Kubernetes Policies"
type: "policies"
groups:
- id: 5.1
text: "RBAC and Service Accounts"
checks:
- id: 5.1.1
text: "Ensure that the cluster-admin role is only used where required (Manual)"
type: "manual"
remediation: |
Identify all clusterrolebindings to the cluster-admin role. Check if they are used and
if they need this role or if they could use a role with fewer privileges.
Where possible, first bind users to a lower privileged role and then remove the
clusterrolebinding to the cluster-admin role :
kubectl delete clusterrolebinding [name]
scored: false
- id: 5.1.2
text: "Minimize access to secrets (Manual)"
type: "manual"
remediation: |
Where possible, remove get, list and watch access to secret objects in the cluster.
scored: false
- id: 5.1.3
text: "Minimize wildcard use in Roles and ClusterRoles (Manual)"
type: "manual"
remediation: |
Where possible replace any use of wildcards in clusterroles and roles with specific
objects or actions.
scored: false
- id: 5.1.4
text: "Minimize access to create pods (Manual)"
type: "manual"
remediation: |
Where possible, remove create access to pod objects in the cluster.
scored: false
- id: 5.1.5
text: "Ensure that default service accounts are not actively used. (Manual)"
type: "manual"
remediation: |
Create explicit service accounts wherever a Kubernetes workload requires specific access
to the Kubernetes API server.
Modify the configuration of each default service account to include this value
automountServiceAccountToken: false
scored: false
- id: 5.1.6
text: "Ensure that Service Account Tokens are only mounted where necessary (Manual)"
type: "manual"
remediation: |
Modify the definition of pods and service accounts which do not need to mount service
account tokens to disable it.
scored: false
- id: 5.2
text: "Pod Security Policies"
checks:
- id: 5.2.1
text: "Minimize the admission of privileged containers (Manual)"
type: "manual"
remediation: |
Create a PSP as described in the Kubernetes documentation, ensuring that
the .spec.privileged field is omitted or set to false.
scored: false
- id: 5.2.2
text: "Minimize the admission of containers wishing to share the host process ID namespace (Manual)"
type: "manual"
remediation: |
Create a PSP as described in the Kubernetes documentation, ensuring that the
.spec.hostPID field is omitted or set to false.
scored: false
- id: 5.2.3
text: "Minimize the admission of containers wishing to share the host IPC namespace (Manual)"
type: "manual"
remediation: |
Create a PSP as described in the Kubernetes documentation, ensuring that the
.spec.hostIPC field is omitted or set to false.
scored: false
- id: 5.2.4
text: "Minimize the admission of containers wishing to share the host network namespace (Manual)"
type: "manual"
remediation: |
Create a PSP as described in the Kubernetes documentation, ensuring that the
.spec.hostNetwork field is omitted or set to false.
scored: false
- id: 5.2.5
text: "Minimize the admission of containers with allowPrivilegeEscalation (Manual)"
type: "manual"
remediation: |
Create a PSP as described in the Kubernetes documentation, ensuring that the
.spec.allowPrivilegeEscalation field is omitted or set to false.
scored: false
- id: 5.2.6
text: "Minimize the admission of root containers (Manual)"
type: "manual"
remediation: |
Create a PSP as described in the Kubernetes documentation, ensuring that the
.spec.runAsUser.rule is set to either MustRunAsNonRoot or MustRunAs with the range of
UIDs not including 0.
scored: false
- id: 5.2.7
text: "Minimize the admission of containers with the NET_RAW capability (Manual)"
type: "manual"
remediation: |
Create a PSP as described in the Kubernetes documentation, ensuring that the
.spec.requiredDropCapabilities is set to include either NET_RAW or ALL.
scored: false
- id: 5.2.8
text: "Minimize the admission of containers with added capabilities (Manual)"
type: "manual"
remediation: |
Ensure that allowedCapabilities is not present in PSPs for the cluster unless
it is set to an empty array.
scored: false
- id: 5.2.9
text: "Minimize the admission of containers with capabilities assigned (Manual)"
type: "manual"
remediation: |
Review the use of capabilites in applications runnning on your cluster. Where a namespace
contains applicaions which do not require any Linux capabities to operate consider adding
a PSP which forbids the admission of containers which do not drop all capabilities.
scored: false
- id: 5.3
text: "Network Policies and CNI"
checks:
- id: 5.3.1
text: "Ensure that the CNI in use supports Network Policies (Manual)"
type: "manual"
remediation: |
If the CNI plugin in use does not support network policies, consideration should be given to
making use of a different plugin, or finding an alternate mechanism for restricting traffic
in the Kubernetes cluster.
scored: false
- id: 5.3.2
text: "Ensure that all Namespaces have Network Policies defined (Manual)"
type: "manual"
remediation: |
Follow the documentation and create NetworkPolicy objects as you need them.
scored: false
- id: 5.4
text: "Secrets Management"
checks:
- id: 5.4.1
text: "Prefer using secrets as files over secrets as environment variables (Manual)"
type: "manual"
remediation: |
if possible, rewrite application code to read secrets from mounted secret files, rather than
from environment variables.
scored: false
- id: 5.4.2
text: "Consider external secret storage (Manual)"
type: "manual"
remediation: |
Refer to the secrets management options offered by your cloud provider or a third-party
secrets management solution.
scored: false
- id: 5.5
text: "Extensible Admission Control"
checks:
- id: 5.5.1
text: "Configure Image Provenance using ImagePolicyWebhook admission controller (Manual)"
type: "manual"
remediation: |
Follow the Kubernetes documentation and setup image provenance.
scored: false
- id: 5.6
text: "General Policies"
checks:
- id: 5.6.1
text: "Create administrative boundaries between resources using namespaces (Manual)"
type: "manual"
remediation: |
Follow the documentation and create namespaces for objects in your deployment as you need
them.
scored: false
- id: 5.6.2
text: "Ensure that the seccomp profile is set to docker/default in your pod definitions (Manual)"
type: "manual"
remediation: |
Seccomp is an alpha feature currently. By default, all alpha features are disabled. So, you
would need to enable alpha features in the apiserver by passing "--feature-
gates=AllAlpha=true" argument.
Edit the /etc/kubernetes/apiserver file on the master node and set the KUBE_API_ARGS
parameter to "--feature-gates=AllAlpha=true"
KUBE_API_ARGS="--feature-gates=AllAlpha=true"
Based on your system, restart the kube-apiserver service. For example:
systemctl restart kube-apiserver.service
Use annotations to enable the docker/default seccomp profile in your pod definitions. An
example is as below:
apiVersion: v1
kind: Pod
metadata:
name: trustworthy-pod
annotations:
seccomp.security.alpha.kubernetes.io/pod: docker/default
spec:
containers:
- name: trustworthy-container
image: sotrustworthy:latest
scored: false
- id: 5.6.3
text: "Apply Security Context to Your Pods and Containers (Manual)"
type: "manual"
remediation: |
Follow the Kubernetes documentation and apply security contexts to your pods. For a
suggested list of security contexts, you may refer to the CIS Security Benchmark for Docker
Containers.
scored: false
- id: 5.6.4
text: "The default namespace should not be used (Manual)"
type: "manual"
remediation: |
Ensure that namespaces are created to allow for appropriate segregation of Kubernetes
resources and that all new resources are created in a specific namespace.
scored: false

View File

@ -237,6 +237,7 @@ version_mapping:
"ocp-3.11": "rh-0.7"
"ocp-4.0": "rh-1.0"
"aks-1.0": "aks-1.0"
"ack-1.0": "ack-1.0"
target_mapping:
"cis-1.5":
@ -273,6 +274,13 @@ target_mapping:
- "controlplane"
- "policies"
- "managedservices"
"ack-1.0":
- "master"
- "node"
- "controlplane"
- "etcd"
- "policies"
- "managedservices"
"rh-1.0":
- "master"
- "node"

View File

@ -306,7 +306,7 @@ func getKubeVersion() (*KubeVersion, error) {
glog.Warning(missingKubectlKubeletMessage)
glog.V(1).Info("unable to find the programs kubectl or kubelet in the PATH")
glog.V(1).Infof("Cant detect version, assuming default %s", defaultKubeVersion)
return &KubeVersion{baseVersion: defaultKubeVersion}, nil
return &KubeVersion{baseVersion: defaultKubeVersion}, nil
}
return getKubeVersionFromKubelet(), nil
}
@ -430,7 +430,7 @@ These program names are provided in the config.yaml, section '%s.%s.bins'
func getPlatformName() string {
openShiftVersion := getOpenShiftVersion()
if openShiftVersion != ""{
if openShiftVersion != "" {
return openShiftVersion
}
@ -458,6 +458,8 @@ func getPlatformBenchmarkVersion(platform string) string {
return "eks-1.0"
case "gke":
return "gke-1.0"
case "aliyun":
return "ack-1.0"
case "ocp-3.10":
return "rh-0.7"
case "ocp-4.1":
@ -466,7 +468,7 @@ func getPlatformBenchmarkVersion(platform string) string {
return ""
}
func getOpenShiftVersion() string{
func getOpenShiftVersion() string {
glog.V(1).Info("Checking for oc")
_, err := exec.LookPath("oc")
@ -482,9 +484,9 @@ func getOpenShiftVersion() string{
subs = versionRe.FindStringSubmatch(string(out))
}
if len(subs) > 1 {
glog.V(2).Infof("OCP output '%s' \nplatform is %s \nocp %v",string(out),getPlatformNameFromVersion(string(out)),subs[1])
glog.V(2).Infof("OCP output '%s' \nplatform is %s \nocp %v", string(out), getPlatformNameFromVersion(string(out)), subs[1])
ocpBenchmarkVersion, err := getOcpValidVersion(subs[1])
if err == nil{
if err == nil {
return fmt.Sprintf("ocp-%s", ocpBenchmarkVersion)
} else {
glog.V(1).Infof("Can't get getOcpValidVersion: %v", err)
@ -504,13 +506,13 @@ func getOpenShiftVersion() string{
func getOcpValidVersion(ocpVer string) (string, error) {
ocpOriginal := ocpVer
for (!isEmpty(ocpVer)) {
for !isEmpty(ocpVer) {
glog.V(3).Info(fmt.Sprintf("getOcpBenchmarkVersion check for ocp: %q \n", ocpVer))
if ocpVer == "3.10" || ocpVer == "4.1"{
if ocpVer == "3.10" || ocpVer == "4.1" {
glog.V(1).Info(fmt.Sprintf("getOcpBenchmarkVersion found valid version for ocp: %q \n", ocpVer))
return ocpVer, nil
}
ocpVer = decrementVersion(ocpVer)
ocpVer = decrementVersion(ocpVer)
}
glog.V(1).Info(fmt.Sprintf("getOcpBenchmarkVersion unable to find a match for: %q", ocpOriginal))

View File

@ -15,14 +15,16 @@
package cmd
import (
"github.com/magiconair/properties/assert"
"io/ioutil"
"os"
"path/filepath"
"reflect"
"sort"
"strconv"
"testing"
"github.com/magiconair/properties/assert"
"github.com/aquasecurity/kube-bench/check"
"github.com/spf13/viper"
)
@ -389,9 +391,9 @@ func TestGetServiceFiles(t *testing.T) {
func TestMakeSubsitutions(t *testing.T) {
cases := []struct {
input string
subst map[string]string
exp string
input string
subst map[string]string
exp string
expectedSubs []string
}{
{input: "Replace $thisbin", subst: map[string]string{"this": "that"}, exp: "Replace that", expectedSubs: []string{"that"}},
@ -404,6 +406,7 @@ func TestMakeSubsitutions(t *testing.T) {
if s != c.exp {
t.Fatalf("Got %s expected %s", s, c.exp)
}
sort.Strings(subs)
assert.Equal(t, c.expectedSubs, subs)
})
}
@ -536,6 +539,11 @@ func Test_getPlatformNameFromKubectlOutput(t *testing.T) {
args: args{s: "v1.17.6-gke.1"},
want: "gke",
},
{
name: "ack",
args: args{s: "v1.18.8-aliyun.1"},
want: "aliyun",
},
{
name: "unknown",
args: args{s: "v1.17.6"},
@ -579,6 +587,13 @@ func Test_getPlatformBenchmarkVersion(t *testing.T) {
},
want: "gke-1.0",
},
{
name: "aliyun",
args: args{
platform: "aliyun",
},
want: "ack-1.0",
},
{
name: "unknown",
args: args{

34
job-ack.yaml Normal file
View File

@ -0,0 +1,34 @@
---
apiVersion: batch/v1
kind: Job
metadata:
name: kube-bench
spec:
template:
spec:
hostPID: true
containers:
- name: kube-bench
image: aquasec/kube-bench:latest
command: ["kube-bench", "--benchmark", "ack-1.0", "run", "--targets", "node,policies,managedservices"]
volumeMounts:
- name: var-lib-kubelet
mountPath: /var/lib/kubelet
readOnly: true
- name: etc-systemd
mountPath: /etc/systemd
readOnly: true
- name: etc-kubernetes
mountPath: /etc/kubernetes
readOnly: true
restartPolicy: Never
volumes:
- name: var-lib-kubelet
hostPath:
path: "/var/lib/kubelet"
- name: etc-systemd
hostPath:
path: "/etc/systemd"
- name: etc-kubernetes
hostPath:
path: "/etc/kubernetes"