$ oc get -n openshift-compliance compliancecheckresults \
-l compliance.openshift.io/suite=workers-compliancesuite
KubeletConfig
sub poolsEach ComplianceCheckResult
represents a result of one compliance rule check. If the rule can be remediated automatically, a ComplianceRemediation
object with the same name, owned by the ComplianceCheckResult
is created. Unless requested, the remediations are not applied automatically, which gives an OpenShift Container Platform administrator the opportunity to review what the remediation does and only apply a remediation once it has been verified.
Full remediation for Federal Information Processing Standards (fips) compliance requires enabling fips mode for the cluster. To enable fips mode, you must run the installation program from a Red Hat Enterprise Linux (RHEL) computer configured to operate in fips mode. For more information about configuring fips mode on RHEL, see Installing the system in fips mode. fips mode is supported on the following architectures:
|
By default, the ComplianceCheckResult
objects are labeled with several useful labels that allow you to query the checks and decide on the next steps after the results are generated.
List checks that belong to a specific suite:
$ oc get -n openshift-compliance compliancecheckresults \
-l compliance.openshift.io/suite=workers-compliancesuite
List checks that belong to a specific scan:
$ oc get -n openshift-compliance compliancecheckresults \
-l compliance.openshift.io/scan=workers-scan
Not all ComplianceCheckResult
objects create ComplianceRemediation
objects. Only ComplianceCheckResult
objects that can be remediated automatically do. A ComplianceCheckResult
object has a related remediation if it is labeled with the compliance.openshift.io/automated-remediation
label. The name of the remediation is the same as the name of the check.
List all failing checks that can be remediated automatically:
$ oc get -n openshift-compliance compliancecheckresults \
-l 'compliance.openshift.io/check-status=FAIL,compliance.openshift.io/automated-remediation'
List all failing checks sorted by severity:
$ oc get compliancecheckresults -n openshift-compliance \
-l 'compliance.openshift.io/check-status=FAIL,compliance.openshift.io/check-severity=high'
NAME STATUS SEVERITY
nist-moderate-modified-master-configure-crypto-policy FAIL high
nist-moderate-modified-master-coreos-pti-kernel-argument FAIL high
nist-moderate-modified-master-disable-ctrlaltdel-burstaction FAIL high
nist-moderate-modified-master-disable-ctrlaltdel-reboot FAIL high
nist-moderate-modified-master-enable-fips-mode FAIL high
nist-moderate-modified-master-no-empty-passwords FAIL high
nist-moderate-modified-master-selinux-state FAIL high
nist-moderate-modified-worker-configure-crypto-policy FAIL high
nist-moderate-modified-worker-coreos-pti-kernel-argument FAIL high
nist-moderate-modified-worker-disable-ctrlaltdel-burstaction FAIL high
nist-moderate-modified-worker-disable-ctrlaltdel-reboot FAIL high
nist-moderate-modified-worker-enable-fips-mode FAIL high
nist-moderate-modified-worker-no-empty-passwords FAIL high
nist-moderate-modified-worker-selinux-state FAIL high
ocp4-moderate-configure-network-policies-namespaces FAIL high
ocp4-moderate-fips-mode-enabled-on-all-nodes FAIL high
List all failing checks that must be remediated manually:
$ oc get -n openshift-compliance compliancecheckresults \
-l 'compliance.openshift.io/check-status=FAIL,!compliance.openshift.io/automated-remediation'
The manual remediation steps are typically stored in the description
attribute in the ComplianceCheckResult
object.
ComplianceCheckResult Status | Description |
---|---|
PASS |
Compliance check ran to completion and passed. |
FAIL |
Compliance check ran to completion and failed. |
INFO |
Compliance check ran to completion and found something not severe enough to be considered an error. |
MANUAL |
Compliance check does not have a way to automatically assess the success or failure and must be checked manually. |
INCONSISTENT |
Compliance check reports different results from different sources, typically cluster nodes. |
ERROR |
Compliance check ran, but could not complete properly. |
NOT-APPLICABLE |
Compliance check did not run because it is not applicable or not selected. |
Review both the ComplianceRemediation
object and the ComplianceCheckResult
object that owns the remediation. The ComplianceCheckResult
object contains human-readable descriptions of what the check does and the hardening trying to prevent, as well as other metadata
like the severity and the associated security controls. The ComplianceRemediation
object represents a way to fix the problem described in the ComplianceCheckResult
. After first scan, check for remediations with the state MissingDependencies
.
Below is an example of a check and a remediation called sysctl-net-ipv4-conf-all-accept-redirects
. This example is redacted to only show spec
and status
and omits metadata
:
spec:
apply: false
current:
object:
apiVersion: machineconfiguration.openshift.io/v1
kind: MachineConfig
spec:
config:
ignition:
version: 3.2.0
storage:
files:
- path: /etc/sysctl.d/75-sysctl_net_ipv4_conf_all_accept_redirects.conf
mode: 0644
contents:
source: data:,net.ipv4.conf.all.accept_redirects%3D0
outdated: {}
status:
applicationState: NotApplied
The remediation payload is stored in the spec.current
attribute. The payload can be any Kubernetes object, but because this remediation was produced by a node scan, the remediation payload in the above example is a MachineConfig
object. For Platform scans, the remediation payload is often a different kind of an object (for example, a ConfigMap
or Secret
object), but typically applying that remediation is up to the administrator, because otherwise the Compliance Operator would have required a very broad set of permissions to manipulate any generic Kubernetes object. An example of remediating a Platform check is provided later in the text.
To see exactly what the remediation does when applied, the MachineConfig
object contents use the Ignition objects for the configuration. See the Ignition specification for further information about the format. In our example, the spec.config.storage.files[0].path
attribute specifies the file that is being create by this remediation (/etc/sysctl.d/75-sysctl_net_ipv4_conf_all_accept_redirects.conf
) and the spec.config.storage.files[0].contents.source
attribute specifies the contents of that file.
The contents of the files are URL-encoded. |
Use the following Python script to view the contents:
$ echo "net.ipv4.conf.all.accept_redirects%3D0" | python3 -c "import sys, urllib.parse; print(urllib.parse.unquote(''.join(sys.stdin.readlines())))"
net.ipv4.conf.all.accept_redirects=0
The Compliance Operator does not automatically resolve dependency issues that can occur between remediations. Users should perform a rescan after remediations are applied to ensure accurate results. |
When you create a custom MachineConfigPool
, add a label to the MachineConfigPool
so that machineConfigPoolSelector
present in the KubeletConfig
can match the label with MachineConfigPool
.
Do not set |
List the nodes.
$ oc get nodes -n openshift-compliance
NAME STATUS ROLES AGE VERSION
ip-10-0-128-92.us-east-2.compute.internal Ready master 5h21m v1.30.3
ip-10-0-158-32.us-east-2.compute.internal Ready worker 5h17m v1.30.3
ip-10-0-166-81.us-east-2.compute.internal Ready worker 5h17m v1.30.3
ip-10-0-171-170.us-east-2.compute.internal Ready master 5h21m v1.30.3
ip-10-0-197-35.us-east-2.compute.internal Ready master 5h22m v1.30.3
Add a label to nodes.
$ oc -n openshift-compliance \
label node ip-10-0-166-81.us-east-2.compute.internal \
node-role.kubernetes.io/<machine_config_pool_name>=
node/ip-10-0-166-81.us-east-2.compute.internal labeled
Create custom MachineConfigPool
CR.
apiVersion: machineconfiguration.openshift.io/v1
kind: MachineConfigPool
metadata:
name: <machine_config_pool_name>
labels:
pools.operator.machineconfiguration.openshift.io/<machine_config_pool_name>: '' (1)
spec:
machineConfigSelector:
matchExpressions:
- {key: machineconfiguration.openshift.io/role, operator: In, values: [worker,<machine_config_pool_name>]}
nodeSelector:
matchLabels:
node-role.kubernetes.io/<machine_config_pool_name>: ""
1 | The labels field defines label name to add for Machine config pool(MCP). |
Verify MCP created successfully.
$ oc get mcp -w
OpenShift Container Platform infrastructure might contain incomplete configuration files at run time, and nodes assume default configuration values for missing configuration options. Some configuration options can be passed as command line arguments. As a result, the Compliance Operator cannot verify if the configuration file on the node is complete because it might be missing options used in the rule checks.
To prevent false negative results where the default configuration value passes a check, the Compliance Operator uses the Node/Proxy API to fetch the configuration for each node in a node pool, then all configuration options that are consistent across nodes in the node pool are stored in a file that represents the configuration for all nodes within that node pool. This increases the accuracy of the scan results.
No additional configuration changes are required to use this feature with default master
and worker
node pools configurations.
The Compliance Operator does not maintain a copy of each node pool configuration. The Compliance Operator aggregates consistent configuration options for all nodes within a single node pool into one copy of the configuration file. The Compliance Operator then uses the configuration file for a particular node pool to evaluate rules against nodes within that pool.
Add the example
role to the ScanSetting
object that will be stored in the ScanSettingBinding
CR:
apiVersion: compliance.openshift.io/v1alpha1
kind: ScanSetting
metadata:
name: default
namespace: openshift-compliance
rawResultStorage:
rotation: 3
size: 1Gi
roles:
- worker
- master
- example
scanTolerations:
- effect: NoSchedule
key: node-role.kubernetes.io/master
operator: Exists
schedule: '0 1 * * *'
Create a scan that uses the ScanSettingBinding
CR:
apiVersion: compliance.openshift.io/v1alpha1
kind: ScanSettingBinding
metadata:
name: cis
namespace: openshift-compliance
profiles:
- apiGroup: compliance.openshift.io/v1alpha1
kind: Profile
name: ocp4-cis
- apiGroup: compliance.openshift.io/v1alpha1
kind: Profile
name: ocp4-cis-node
settingsRef:
apiGroup: compliance.openshift.io/v1alpha1
kind: ScanSetting
name: default
The Platform KubeletConfig rules are checked through the Node/Proxy
object. You can find those rules by running the following command:
$ oc get rules -o json | jq '.items[] | select(.checkType == "Platform") | select(.metadata.name | contains("ocp4-kubelet-")) | .metadata.name'
KubeletConfig
sub poolsKubeletConfig
remediation labels can be applied to MachineConfigPool
sub-pools.
Add a label to the sub-pool MachineConfigPool
CR:
$ oc label mcp <sub-pool-name> pools.operator.machineconfiguration.openshift.io/<sub-pool-name>=
The boolean attribute spec.apply
controls whether the remediation should be applied by the Compliance Operator. You can apply the remediation by setting the attribute to true
:
$ oc -n openshift-compliance \
patch complianceremediations/<scan-name>-sysctl-net-ipv4-conf-all-accept-redirects \
--patch '{"spec":{"apply":true}}' --type=merge
After the Compliance Operator processes the applied remediation, the status.ApplicationState
attribute would change to Applied or to Error if incorrect. When a machine config remediation is applied, that remediation along with all other applied remediations are rendered into a MachineConfig
object named 75-$scan-name-$suite-name
. That MachineConfig
object is subsequently rendered by the Machine Config Operator and finally applied to all the nodes in a machine config pool by an instance of the machine control daemon running on each node.
Note that when the Machine Config Operator applies a new MachineConfig
object to nodes in a pool, all the nodes belonging to the pool are rebooted. This might be inconvenient when applying multiple remediations, each of which re-renders the composite 75-$scan-name-$suite-name
MachineConfig
object. To prevent applying the remediation immediately, you can pause the machine config pool by setting the .spec.paused
attribute of a MachineConfigPool
object to true
.
The Compliance Operator can apply remediations automatically. Set autoApplyRemediations: true
in the ScanSetting
top-level object.
Applying remediations automatically should only be done with careful consideration. |
The Compliance Operator does not automatically resolve dependency issues that can occur between remediations. Users should perform a rescan after remediations are applied to ensure accurate results. |
Checks for Platform scans typically have to be remediated manually by the administrator for two reasons:
It is not always possible to automatically determine the value that must be set. One of the checks requires that a list of allowed registries is provided, but the scanner has no way of knowing which registries the organization wants to allow.
Different checks modify different API objects, requiring automated remediation to possess root
or superuser access to modify objects in the cluster, which is not advised.
The example below uses the ocp4-ocp-allowed-registries-for-import
rule, which would fail on a default OpenShift Container Platform installation. Inspect the rule oc get rule.compliance/ocp4-ocp-allowed-registries-for-import -oyaml
, the rule is to limit the registries the users are allowed to import images from by setting the allowedRegistriesForImport
attribute, The warning attribute of the rule also shows the API object checked, so it can be modified and remediate the issue:
$ oc edit image.config.openshift.io/cluster
apiVersion: config.openshift.io/v1
kind: Image
metadata:
annotations:
release.openshift.io/create-only: "true"
creationTimestamp: "2020-09-10T10:12:54Z"
generation: 2
name: cluster
resourceVersion: "363096"
selfLink: /apis/config.openshift.io/v1/images/cluster
uid: 2dcb614e-2f8a-4a23-ba9a-8e33cd0ff77e
spec:
allowedRegistriesForImport:
- domainName: registry.redhat.io
status:
externalRegistryHostnames:
- default-route-openshift-image-registry.apps.user-cluster-09-10-12-07.devcluster.openshift.com
internalRegistryHostname: image-registry.openshift-image-registry.svc:5000
Re-run the scan:
$ oc -n openshift-compliance \
annotate compliancescans/rhcos4-e8-worker compliance.openshift.io/rescan=
When a new version of compliance content is used, it might deliver a new and different version of a remediation than the previous version. The Compliance Operator will keep the old version of the remediation applied. The OpenShift Container Platform administrator is also notified of the new version to review and apply. A ComplianceRemediation object that had been applied earlier, but was updated changes its status to Outdated. The outdated objects are labeled so that they can be searched for easily.
The previously applied remediation contents would then be stored in the spec.outdated
attribute of a ComplianceRemediation
object and the new updated contents would be stored in the spec.current
attribute. After updating the content to a newer version, the administrator then needs to review the remediation. As long as the spec.outdated
attribute exists, it would be used to render the resulting MachineConfig
object. After the spec.outdated
attribute is removed, the Compliance Operator re-renders the resulting MachineConfig
object, which causes the Operator to push the configuration to the nodes.
Search for any outdated remediations:
$ oc -n openshift-compliance get complianceremediations \
-l complianceoperator.openshift.io/outdated-remediation=
NAME STATE
workers-scan-no-empty-passwords Outdated
The currently applied remediation is stored in the Outdated
attribute and the new, unapplied remediation is stored in the Current
attribute. If you are satisfied with the new version, remove the Outdated
field. If you want to keep the updated content, remove the Current
and Outdated
attributes.
Apply the newer version of the remediation:
$ oc -n openshift-compliance patch complianceremediations workers-scan-no-empty-passwords \
--type json -p '[{"op":"remove", "path":/spec/outdated}]'
The remediation state will switch from Outdated
to Applied
:
$ oc get -n openshift-compliance complianceremediations workers-scan-no-empty-passwords
NAME STATE
workers-scan-no-empty-passwords Applied
The nodes will apply the newer remediation version and reboot.
The Compliance Operator does not automatically resolve dependency issues that can occur between remediations. Users should perform a rescan after remediations are applied to ensure accurate results. |
It might be required to unapply a remediation that was previously applied.
Set the apply
flag to false
:
$ oc -n openshift-compliance \
patch complianceremediations/rhcos4-moderate-worker-sysctl-net-ipv4-conf-all-accept-redirects \
--patch '{"spec":{"apply":false}}' --type=merge
The remediation status will change to NotApplied
and the composite MachineConfig
object would be re-rendered to not include the remediation.
All affected nodes with the remediation will be rebooted. |
The Compliance Operator does not automatically resolve dependency issues that can occur between remediations. Users should perform a rescan after remediations are applied to ensure accurate results. |
KubeletConfig
remediations are included in node-level profiles. In order to remove a KubeletConfig remediation, you must manually remove it from the KubeletConfig
objects. This example demonstrates how to remove the compliance check for the one-rule-tp-node-master-kubelet-eviction-thresholds-set-hard-imagefs-available
remediation.
Locate the scan-name
and compliance check for the one-rule-tp-node-master-kubelet-eviction-thresholds-set-hard-imagefs-available
remediation:
$ oc -n openshift-compliance get remediation \ one-rule-tp-node-master-kubelet-eviction-thresholds-set-hard-imagefs-available -o yaml
apiVersion: compliance.openshift.io/v1alpha1
kind: ComplianceRemediation
metadata:
annotations:
compliance.openshift.io/xccdf-value-used: var-kubelet-evictionhard-imagefs-available
creationTimestamp: "2022-01-05T19:52:27Z"
generation: 1
labels:
compliance.openshift.io/scan-name: one-rule-tp-node-master (1)
compliance.openshift.io/suite: one-rule-ssb-node
name: one-rule-tp-node-master-kubelet-eviction-thresholds-set-hard-imagefs-available
namespace: openshift-compliance
ownerReferences:
- apiVersion: compliance.openshift.io/v1alpha1
blockOwnerDeletion: true
controller: true
kind: ComplianceCheckResult
name: one-rule-tp-node-master-kubelet-eviction-thresholds-set-hard-imagefs-available
uid: fe8e1577-9060-4c59-95b2-3e2c51709adc
resourceVersion: "84820"
uid: 5339d21a-24d7-40cb-84d2-7a2ebb015355
spec:
apply: true
current:
object:
apiVersion: machineconfiguration.openshift.io/v1
kind: KubeletConfig
spec:
kubeletConfig:
evictionHard:
imagefs.available: 10% (2)
outdated: {}
type: Configuration
status:
applicationState: Applied
1 | The scan name of the remediation. |
2 | The remediation that was added to the KubeletConfig objects. |
If the remediation invokes an |
Remove the remediation:
Set apply
to false for the remediation object:
$ oc -n openshift-compliance patch \
complianceremediations/one-rule-tp-node-master-kubelet-eviction-thresholds-set-hard-imagefs-available \
-p '{"spec":{"apply":false}}' --type=merge
Using the scan-name
, find the KubeletConfig
object that the remediation was applied to:
$ oc -n openshift-compliance get kubeletconfig \
--selector compliance.openshift.io/scan-name=one-rule-tp-node-master
NAME AGE
compliance-operator-kubelet-master 2m34s
Manually remove the remediation, imagefs.available: 10%
, from the KubeletConfig
object:
$ oc edit -n openshift-compliance KubeletConfig compliance-operator-kubelet-master
All affected nodes with the remediation will be rebooted. |
You must also exclude the rule from any scheduled scans in your tailored profiles that auto-applies the remediation, otherwise, the remediation will be re-applied during the next scheduled scan. |
The ScanSetting
object lists the node roles that the compliance scans generated from the ScanSetting
or ScanSettingBinding
objects would scan. Each node role usually maps to a machine config pool.
It is expected that all machines in a machine config pool are identical and all scan results from the nodes in a pool should be identical. |
If some of the results are different from others, the Compliance Operator flags a ComplianceCheckResult
object where some of the nodes will report as INCONSISTENT
. All ComplianceCheckResult
objects are also labeled with compliance.openshift.io/inconsistent-check
.
Because the number of machines in a pool might be quite large, the Compliance Operator attempts to find the most common state and list the nodes that differ from the common state. The most common state is stored in the compliance.openshift.io/most-common-status
annotation and the annotation compliance.openshift.io/inconsistent-source
contains pairs of hostname:status
of check statuses that differ from the most common status. If no common state can be found, all the hostname:status
pairs are listed in the compliance.openshift.io/inconsistent-source annotation
.
If possible, a remediation is still created so that the cluster can converge to a compliant status. However, this might not always be possible and correcting the difference between nodes must be done manually. The compliance scan must be re-run to get a consistent result by annotating the scan with the compliance.openshift.io/rescan=
option:
$ oc -n openshift-compliance \
annotate compliancescans/rhcos4-e8-worker compliance.openshift.io/rescan=