The stable channel only provides updates to the most recent release of logging. To continue receiving updates for prior releases, you must change your subscription channel to stable-x.y, where |
OpenShift Container Platform Operators use custom resources (CR) to manage applications and their components. High-level configuration and settings are provided by the user within a CR. The Operator translates high-level directives into low-level actions, based on best practices embedded within the Operator’s logic. A custom resource definition (CRD) defines a CR and lists all the configurations available to users of the Operator. Installing an Operator creates the CRDs, which are then used to generate CRs.
You must install the Red Hat OpenShift Logging Operator after the log store Operator. |
You deploy logging by installing the Loki Operator or OpenShift Elasticsearch Operator to manage your log store, followed by the Red Hat OpenShift Logging Operator to manage the components of logging. You can use either the OpenShift Container Platform web console or the OpenShift Container Platform CLI to install or configure logging.
The Logging 5.9 release does not contain an updated version of the OpenShift Elasticsearch Operator. If you currently use the OpenShift Elasticsearch Operator released with Logging 5.8, it will continue to work with Logging until the EOL of Logging 5.8. As an alternative to using the OpenShift Elasticsearch Operator to manage the default log storage, you can use the Loki Operator. For more information on the Logging lifecycle dates, see Platform Agnostic Operators. |
You can alternatively apply all example objects. |
You can use the OpenShift Container Platform web console to install the OpenShift Elasticsearch and Red Hat OpenShift Logging Operators. Elasticsearch is a memory-intensive application. By default, OpenShift Container Platform installs three Elasticsearch nodes with memory requests and limits of 16 GB. This initial set of three OpenShift Container Platform nodes might not have enough memory to run Elasticsearch within your cluster. If you experience memory issues that are related to Elasticsearch, add more Elasticsearch nodes to your cluster rather than increasing the memory on existing nodes.
If you do not want to use the default Elasticsearch log store, you can remove the internal Elasticsearch |
Ensure that you have the necessary persistent storage for Elasticsearch. Note that each Elasticsearch node requires its own storage volume.
If you use a local volume for persistent storage, do not use a raw block volume, which is described with |
To install the OpenShift Elasticsearch Operator and Red Hat OpenShift Logging Operator using the OpenShift Container Platform web console:
Install the OpenShift Elasticsearch Operator:
In the OpenShift Container Platform web console, click Operators → OperatorHub.
Choose OpenShift Elasticsearch Operator from the list of available Operators, and click Install.
Ensure that the All namespaces on the cluster is selected under Installation Mode.
Ensure that openshift-operators-redhat is selected under Installed Namespace.
You must specify the openshift-operators-redhat
namespace. The openshift-operators
namespace might contain Community Operators, which are untrusted and could publish
a metric with the same name as an OpenShift Container Platform metric, which would cause
conflicts.
Select Enable Operator recommended cluster monitoring on this namespace.
This option sets the openshift.io/cluster-monitoring: "true"
label in the Namespace object. You must select this option to ensure that cluster monitoring scrapes the openshift-operators-redhat
namespace.
Select stable-5.y as the Update Channel.
The stable channel only provides updates to the most recent release of logging. To continue receiving updates for prior releases, you must change your subscription channel to stable-x.y, where |
Select an Approval Strategy.
The Automatic strategy allows Operator Lifecycle Manager (OLM) to automatically update the Operator when a new version is available.
The Manual strategy requires a user with appropriate credentials to approve the Operator update.
Click Install.
Verify that the OpenShift Elasticsearch Operator installed by switching to the Operators → Installed Operators page.
Ensure that OpenShift Elasticsearch Operator is listed in all projects with a Status of Succeeded.
Install the Red Hat OpenShift Logging Operator:
In the OpenShift Container Platform web console, click Operators → OperatorHub.
Choose Red Hat OpenShift Logging from the list of available Operators, and click Install.
Ensure that the A specific namespace on the cluster is selected under Installation Mode.
Ensure that Operator recommended namespace is openshift-logging under Installed Namespace.
Select Enable Operator recommended cluster monitoring on this namespace.
This option sets the openshift.io/cluster-monitoring: "true"
label in the Namespace object.
You must select this option to ensure that cluster monitoring
scrapes the openshift-logging
namespace.
Select stable-5.y as the Update Channel.
Select an Approval Strategy.
The Automatic strategy allows Operator Lifecycle Manager (OLM) to automatically update the Operator when a new version is available.
The Manual strategy requires a user with appropriate credentials to approve the Operator update.
Click Install.
Verify that the Red Hat OpenShift Logging Operator installed by switching to the Operators → Installed Operators page.
Ensure that Red Hat OpenShift Logging is listed in the openshift-logging project with a Status of Succeeded.
If the Operator does not appear as installed, to troubleshoot further:
Switch to the Operators → Installed Operators page and inspect the Status column for any errors or failures.
Switch to the Workloads → Pods page and check the logs in any pods in the
openshift-logging
project that are reporting issues.
Create an OpenShift Logging instance:
Switch to the Administration → Custom Resource Definitions page.
On the Custom Resource Definitions page, click ClusterLogging.
On the Custom Resource Definition details page, select View Instances from the Actions menu.
On the ClusterLoggings page, click Create ClusterLogging.
You might have to refresh the page to load the data.
In the YAML field, replace the code with the following:
This default OpenShift Logging configuration should support a wide array of environments. Review the topics on tuning and configuring logging components for information on modifications you can make to your OpenShift Logging cluster. |
apiVersion: logging.openshift.io/v1
kind: ClusterLogging
metadata:
name: instance (1)
namespace: openshift-logging
spec:
managementState: Managed (2)
logStore:
type: elasticsearch (3)
retentionPolicy: (4)
application:
maxAge: 1d
infra:
maxAge: 7d
audit:
maxAge: 7d
elasticsearch:
nodeCount: 3 (5)
storage:
storageClassName: <storage_class_name> (6)
size: 200G
resources: (7)
limits:
memory: 16Gi
requests:
memory: 16Gi
proxy: (8)
resources:
limits:
memory: 256Mi
requests:
memory: 256Mi
redundancyPolicy: SingleRedundancy
visualization:
type: kibana (9)
kibana:
replicas: 1
collection:
type: fluentd (10)
fluentd: {}
1 | The name must be instance . |
2 | The OpenShift Logging management state. In some cases, if you change the OpenShift Logging defaults, you must set this to Unmanaged .
However, an unmanaged deployment does not receive updates until OpenShift Logging is placed back into a managed state. |
3 | Settings for configuring Elasticsearch. Using the CR, you can configure shard replication policy and persistent storage. |
4 | Specify the length of time that Elasticsearch should retain each log source. Enter an integer and a time designation: weeks(w), hours(h/H), minutes(m) and seconds(s). For example, 7d for seven days. Logs older than the maxAge are deleted. You must specify a retention policy for each log source or the Elasticsearch indices will not be created for that source. |
5 | Specify the number of Elasticsearch nodes. See the note that follows this list. |
6 | Enter the name of an existing storage class for Elasticsearch storage. For best performance, specify a storage class that allocates block storage. If you do not specify a storage class, OpenShift Logging uses ephemeral storage. |
7 | Specify the CPU and memory requests for Elasticsearch as needed. If you leave these values blank, the OpenShift Elasticsearch Operator sets default values that should be sufficient for most deployments. The default values are 16Gi for the memory request and 1 for the CPU request. |
8 | Specify the CPU and memory requests for the Elasticsearch proxy as needed. If you leave these values blank, the OpenShift Elasticsearch Operator sets default values that should be sufficient for most deployments. The default values are 256Mi for the memory request and 100m for the CPU request. |
9 | Settings for configuring Kibana. Using the CR, you can scale Kibana for redundancy and configure the CPU and memory for your Kibana nodes. For more information, see Configuring the log visualizer. |
10 | Settings for configuring Fluentd. Using the CR, you can configure Fluentd CPU and memory limits. For more information, see "Configuring Fluentd". |
The maximum number of master nodes is three. If you specify a For example, if
Example output
|
Click Create. This creates the logging components, the Elasticsearch
custom resource and components, and the Kibana interface.
Verify the install:
Switch to the Workloads → Pods page.
Select the openshift-logging project.
You should see several pods for OpenShift Logging, Elasticsearch, your collector, and Kibana similar to the following list:
cluster-logging-operator-66f77ffccb-ppzbg 1/1 Running 0 7m
elasticsearch-cdm-ftuhduuw-1-ffc4b9566-q6bhp 2/2 Running 0 2m40s
elasticsearch-cdm-ftuhduuw-2-7b4994dbfc-rd2gc 2/2 Running 0 2m36s
elasticsearch-cdm-ftuhduuw-3-84b5ff7ff8-gqnm2 2/2 Running 0 2m4s
collector-587vb 1/1 Running 0 2m26s
collector-7mpb9 1/1 Running 0 2m30s
collector-flm6j 1/1 Running 0 2m33s
collector-gn4rn 1/1 Running 0 2m26s
collector-nlgb6 1/1 Running 0 2m30s
collector-snpkt 1/1 Running 0 2m28s
kibana-d6d5668c5-rppqm 2/2 Running 0 2m39s
Elasticsearch is a memory-intensive application. By default, OpenShift Container Platform installs three Elasticsearch nodes with memory requests and limits of 16 GB. This initial set of three OpenShift Container Platform nodes might not have enough memory to run Elasticsearch within your cluster. If you experience memory issues that are related to Elasticsearch, add more Elasticsearch nodes to your cluster rather than increasing the memory on existing nodes.
Ensure that you have the necessary persistent storage for Elasticsearch. Note that each Elasticsearch node requires its own storage volume.
If you use a local volume for persistent storage, do not use a raw block volume, which is described with |
Create a Namespace
object for the OpenShift Elasticsearch Operator:
Namespace
objectapiVersion: v1
kind: Namespace
metadata:
name: openshift-operators-redhat (1)
annotations:
openshift.io/node-selector: ""
labels:
openshift.io/cluster-monitoring: "true" (2)
1 | You must specify the openshift-operators-redhat namespace. The openshift-operators
namespace might contain Community Operators, which are untrusted and could publish
a metric with the same name as an OpenShift Container Platform metric, which would cause
conflicts. |
2 | A string value that specifies the label as shown to ensure that cluster monitoring scrapes the openshift-operators-redhat namespace. |
Apply the Namespace
object by running the following command:
$ oc apply -f <filename>.yaml
Create a Namespace
object for the Red Hat OpenShift Logging Operator:
Namespace
objectapiVersion: v1
kind: Namespace
metadata:
name: openshift-logging (1)
annotations:
openshift.io/node-selector: ""
labels:
openshift.io/cluster-monitoring: "true"
1 | You must specify openshift-logging as the namespace for logging versions 5.7 and earlier. For logging 5.8 and later, you can use any namespace. |
Apply the Namespace
object by running the following command:
$ oc apply -f <filename>.yaml
Create an OperatorGroup
object for the OpenShift Elasticsearch Operator:
OperatorGroup
objectapiVersion: operators.coreos.com/v1
kind: OperatorGroup
metadata:
name: openshift-operators-redhat
namespace: openshift-operators-redhat (1)
spec: {}
1 | You must specify the openshift-operators-redhat namespace. |
Apply the OperatorGroup
object by running the following command:
$ oc apply -f <filename>.yaml
Create a Subscription
object to subscribe a namespace to the OpenShift Elasticsearch Operator:
The stable channel only provides updates to the most recent release of logging. To continue receiving updates for prior releases, you must change your subscription channel to stable-x.y, where |
Subscription
objectapiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
name: elasticsearch-operator
namespace: openshift-operators-redhat (1)
spec:
channel: <channel> (2)
installPlanApproval: Automatic (3)
source: redhat-operators (4)
sourceNamespace: openshift-marketplace
name: elasticsearch-operator
1 | You must specify the openshift-operators-redhat namespace. |
2 | Specify stable , or stable-<x.y> as the channel. |
3 | Automatic allows the Operator Lifecycle Manager (OLM) to automatically update the Operator when a new version is available. Manual requires a user with appropriate credentials to approve the Operator update. |
4 | Specify redhat-operators . If your OpenShift Container Platform cluster is installed on a restricted network, also known as a disconnected cluster, specify the name of the CatalogSource object you created when you configured the Operator Lifecycle Manager (OLM) |
Apply the subscription by running the following command:
$ oc apply -f <filename>.yaml
Verify the Operator installation by running the following command:
$ oc get csv --all-namespaces
NAMESPACE NAME DISPLAY VERSION REPLACES PHASE
default elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
kube-node-lease elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
kube-public elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
kube-system elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
openshift-apiserver-operator elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
openshift-apiserver elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
openshift-authentication-operator elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
openshift-authentication elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
openshift-cloud-controller-manager-operator elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
openshift-cloud-controller-manager elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
openshift-cloud-credential-operator elasticsearch-operator.v5.8.3 OpenShift Elasticsearch Operator 5.8.3 elasticsearch-operator.v5.8.2 Succeeded
Create an OperatorGroup
object for the Red Hat OpenShift Logging Operator:
OperatorGroup
objectapiVersion: operators.coreos.com/v1
kind: OperatorGroup
metadata:
name: cluster-logging
namespace: openshift-logging (1)
spec:
targetNamespaces:
- openshift-logging (2)
1 | You must specify openshift-logging as the namespace for logging versions 5.7 and earlier. For logging 5.8 and later, you can use any namespace. |
2 | You must specify openshift-logging as the namespace for logging versions 5.7 and earlier. For logging 5.8 and later, you can use any namespace. |
Apply the OperatorGroup
object by running the following command:
$ oc apply -f <filename>.yaml
Create a Subscription
object to subscribe the namespace to the Red Hat OpenShift Logging Operator:
Subscription
objectapiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
name: cluster-logging
namespace: openshift-logging (1)
spec:
channel: stable (2)
name: cluster-logging
source: redhat-operators (3)
sourceNamespace: openshift-marketplace
1 | You must specify the openshift-logging namespace for logging versions 5.7 and older. For logging 5.8 and later versions, you can use any namespace. |
2 | Specify stable or stable-x.y as the channel. |
3 | Specify redhat-operators . If your OpenShift Container Platform cluster is installed on a restricted network, also known as a disconnected cluster, specify the name of the CatalogSource object you created when you configured the Operator Lifecycle Manager (OLM). |
Apply the subscription
object by running the following command:
$ oc apply -f <filename>.yaml
Create a ClusterLogging
object as a YAML file:
ClusterLogging
objectapiVersion: logging.openshift.io/v1
kind: ClusterLogging
metadata:
name: instance (1)
namespace: openshift-logging
spec:
managementState: Managed (2)
logStore:
type: elasticsearch (3)
retentionPolicy: (4)
application:
maxAge: 1d
infra:
maxAge: 7d
audit:
maxAge: 7d
elasticsearch:
nodeCount: 3 (5)
storage:
storageClassName: <storage_class_name> (6)
size: 200G
resources: (7)
limits:
memory: 16Gi
requests:
memory: 16Gi
proxy: (8)
resources:
limits:
memory: 256Mi
requests:
memory: 256Mi
redundancyPolicy: SingleRedundancy
visualization:
type: kibana (9)
kibana:
replicas: 1
collection:
type: fluentd (10)
fluentd: {}
1 | The name must be instance . |
2 | The OpenShift Logging management state. In some cases, if you change the OpenShift Logging defaults, you must set this to Unmanaged .
However, an unmanaged deployment does not receive updates until OpenShift Logging is placed back into a managed state. |
3 | Settings for configuring Elasticsearch. Using the CR, you can configure shard replication policy and persistent storage. |
4 | Specify the length of time that Elasticsearch should retain each log source. Enter an integer and a time designation: weeks(w), hours(h/H), minutes(m) and seconds(s). For example, 7d for seven days. Logs older than the maxAge are deleted. You must specify a retention policy for each log source or the Elasticsearch indices will not be created for that source. |
5 | Specify the number of Elasticsearch nodes. |
6 | Enter the name of an existing storage class for Elasticsearch storage. For best performance, specify a storage class that allocates block storage. If you do not specify a storage class, OpenShift Logging uses ephemeral storage. |
7 | Specify the CPU and memory requests for Elasticsearch as needed. If you leave these values blank, the OpenShift Elasticsearch Operator sets default values that should be sufficient for most deployments. The default values are 16Gi for the memory request and 1 for the CPU request. |
8 | Specify the CPU and memory requests for the Elasticsearch proxy as needed. If you leave these values blank, the OpenShift Elasticsearch Operator sets default values that should be sufficient for most deployments. The default values are 256Mi for the memory request and 100m for the CPU request. |
9 | Settings for configuring Kibana. Using the CR, you can scale Kibana for redundancy and configure the CPU and memory for your Kibana nodes. |
10 | Settings for configuring Fluentd. Using the CR, you can configure Fluentd CPU and memory limits. |
The maximum number of master nodes is three. If you specify a For example, if
Example output
|
Apply the ClusterLogging
CR by running the following command:
$ oc apply -f <filename>.yaml
Verify the installation by running the following command:
$ oc get pods -n openshift-logging
NAME READY STATUS RESTARTS AGE
cluster-logging-operator-66f77ffccb-ppzbg 1/1 Running 0 7m
elasticsearch-cdm-ftuhduuw-1-ffc4b9566-q6bhp 2/2 Running 0 2m40s
elasticsearch-cdm-ftuhduuw-2-7b4994dbfc-rd2gc 2/2 Running 0 2m36s
elasticsearch-cdm-ftuhduuw-3-84b5ff7ff8-gqnm2 2/2 Running 0 2m4s
collector-587vb 1/1 Running 0 2m26s
collector-7mpb9 1/1 Running 0 2m30s
collector-flm6j 1/1 Running 0 2m33s
collector-gn4rn 1/1 Running 0 2m26s
collector-nlgb6 1/1 Running 0 2m30s
collector-snpkt 1/1 Running 0 2m28s
kibana-d6d5668c5-rppqm 2/2 Running 0 2m39s
If there is no retention period defined on the s3 bucket or in the LokiStack custom resource (CR), then the logs are not pruned and they stay in the s3 bucket forever, which might fill up the s3 storage. |
To install and configure logging on your OpenShift Container Platform cluster, an Operator such as Loki Operator for log storage must be installed first. This can be done from the OpenShift Container Platform CLI.
You have administrator permissions.
You installed the OpenShift CLI (oc
).
You have access to a supported object store. For example: AWS S3, Google Cloud Storage, Azure, Swift, Minio, or OpenShift Data Foundation.
The stable channel only provides updates to the most recent release of logging. To continue receiving updates for prior releases, you must change your subscription channel to stable-x.y, where |
Create a Namespace
object for Loki Operator:
Namespace
objectapiVersion: v1
kind: Namespace
metadata:
name: openshift-operators-redhat (1)
annotations:
openshift.io/node-selector: ""
labels:
openshift.io/cluster-monitoring: "true" (2)
1 | You must specify the openshift-operators-redhat namespace. To prevent possible conflicts with metrics, you should configure the Prometheus Cluster Monitoring stack to scrape metrics from the openshift-operators-redhat namespace and not the openshift-operators namespace. The openshift-operators namespace might contain community Operators, which are untrusted and could publish a metric with the same name as an OpenShift Container Platform metric, which would cause conflicts. |
2 | A string value that specifies the label as shown to ensure that cluster monitoring scrapes the openshift-operators-redhat namespace. |
Apply the Namespace
object by running the following command:
$ oc apply -f <filename>.yaml
Create a Subscription
object for Loki Operator:
Subscription
objectapiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
name: loki-operator
namespace: openshift-operators-redhat (1)
spec:
channel: stable (2)
name: loki-operator
source: redhat-operators (3)
sourceNamespace: openshift-marketplace
1 | You must specify the openshift-operators-redhat namespace. |
2 | Specify stable , or stable-5.<y> as the channel. |
3 | Specify redhat-operators . If your OpenShift Container Platform cluster is installed on a restricted network, also known as a disconnected cluster, specify the name of the CatalogSource object you created when you configured the Operator Lifecycle Manager (OLM). |
Apply the Subscription
object by running the following command:
$ oc apply -f <filename>.yaml
Create a namespace
object for the Red Hat OpenShift Logging Operator:
namespace
objectapiVersion: v1
kind: Namespace
metadata:
name: openshift-logging (1)
annotations:
openshift.io/node-selector: ""
labels:
openshift.io/cluster-logging: "true"
openshift.io/cluster-monitoring: "true" (2)
1 | The Red Hat OpenShift Logging Operator is only deployable to the openshift-logging namespace. |
2 | A string value that specifies the label as shown to ensure that cluster monitoring scrapes the openshift-operators-redhat namespace. |
Apply the namespace
object by running the following command:
$ oc apply -f <filename>.yaml
Create an OperatorGroup
object
OperatorGroup
objectapiVersion: operators.coreos.com/v1
kind: OperatorGroup
metadata:
name: cluster-logging
namespace: openshift-logging (1)
spec:
targetNamespaces:
- openshift-logging
1 | You must specify the openshift-logging namespace. |
Apply the OperatorGroup
object by running the following command:
$ oc apply -f <filename>.yaml
Create a Subscription
object:
apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
name: cluster-logging
namespace: openshift-logging (1)
spec:
channel: stable (2)
name: cluster-logging
source: redhat-operators (3)
sourceNamespace: openshift-marketplace
1 | You must specify the openshift-logging namespace. |
2 | Specify stable , or stable-5.<y> as the channel. |
3 | Specify redhat-operators . If your OpenShift Container Platform cluster is installed on a restricted network, also known as a disconnected cluster, specify the name of the CatalogSource object you created when you configured the Operator Lifecycle Manager (OLM). |
Apply the Subscription
object by running the following command:
$ oc apply -f <filename>.yaml
Create a LokiStack
CR:
LokiStack
CRapiVersion: loki.grafana.com/v1
kind: LokiStack
metadata:
name: logging-loki (1)
namespace: openshift-logging (2)
spec:
size: 1x.small (3)
storage:
schemas:
- version: v12
effectiveDate: "2022-06-01"
secret:
name: logging-loki-s3 (4)
type: s3 (5)
credentialMode: (6)
storageClassName: <storage_class_name> (7)
tenants:
mode: openshift-logging (8)
1 | Use the name logging-loki . |
2 | You must specify the openshift-logging namespace. |
3 | Specify the deployment size. In the logging 5.8 and later versions, the supported size options for production instances of Loki are 1x.extra-small , 1x.small , or 1x.medium . |
4 | Specify the name of your log store secret. |
5 | Specify the corresponding storage type. |
6 | Optional field, logging 5.9 and later. Supported user configured values are as follows: static is the default authentication mode available for all supported object storage types using credentials stored in a Secret. token for short-lived tokens retrieved from a credential source. In this mode the static configuration does not contain credentials needed for the object storage. Instead, they are generated during runtime using a service, which allows for shorter-lived credentials and much more granular control. This authentication mode is not supported for all object storage types. token-cco is the default value when Loki is running on managed STS mode and using CCO on STS/WIF clusters. |
7 | Specify the name of a storage class for temporary storage. For best performance, specify a storage class that allocates block storage. Available storage classes for your cluster can be listed by using the oc get storageclasses command. |
8 | LokiStack defaults to running in multi-tenant mode, which cannot be modified. One tenant is provided for each log type: audit, infrastructure, and application logs. This enables access control for individual users and user groups to different log streams. |
Apply the LokiStack CR
object by running the following command:
$ oc apply -f <filename>.yaml
Create a ClusterLogging
CR object:
apiVersion: logging.openshift.io/v1
kind: ClusterLogging
metadata:
name: instance (1)
namespace: openshift-logging (2)
spec:
collection:
type: vector
logStore:
lokistack:
name: logging-loki
retentionPolicy:
application:
maxAge: 7d
audit:
maxAge: 7d
infra:
maxAge: 7d
type: lokistack
visualization:
type: ocp-console
ocpConsole:
logsLimit: 15
managementState: Managed
1 | Name must be instance . |
2 | Namespace must be openshift-logging . |
Apply the ClusterLogging CR
object by running the following command:
$ oc apply -f <filename>.yaml
Verify the installation by running the following command:
$ oc get pods -n openshift-logging
$ oc get pods -n openshift-logging
NAME READY STATUS RESTARTS AGE
cluster-logging-operator-fb7f7cf69-8jsbq 1/1 Running 0 98m
collector-222js 2/2 Running 0 18m
collector-g9ddv 2/2 Running 0 18m
collector-hfqq8 2/2 Running 0 18m
collector-sphwg 2/2 Running 0 18m
collector-vv7zn 2/2 Running 0 18m
collector-wk5zz 2/2 Running 0 18m
logging-view-plugin-6f76fbb78f-n2n4n 1/1 Running 0 18m
lokistack-sample-compactor-0 1/1 Running 0 42m
lokistack-sample-distributor-7d7688bcb9-dvcj8 1/1 Running 0 42m
lokistack-sample-gateway-5f6c75f879-bl7k9 2/2 Running 0 42m
lokistack-sample-gateway-5f6c75f879-xhq98 2/2 Running 0 42m
lokistack-sample-index-gateway-0 1/1 Running 0 42m
lokistack-sample-ingester-0 1/1 Running 0 42m
lokistack-sample-querier-6b7b56bccc-2v9q4 1/1 Running 0 42m
lokistack-sample-query-frontend-84fb57c578-gq2f7 1/1 Running 0 42m
To install and configure logging on your OpenShift Container Platform cluster, an Operator such as Loki Operator for log storage must be installed first. This can be done from the Operator Hub within the web console.
You have access to a supported object store (AWS S3, Google Cloud Storage, Azure, Swift, Minio, OpenShift Data Foundation).
You have administrator permissions.
You have access to the OpenShift Container Platform web console.
In the OpenShift Container Platform web console Administrator perspective, go to Operators → OperatorHub.
Type Loki Operator in the Filter by keyword field. Click Loki Operator in the list of available Operators, and then click Install.
The Community Loki Operator is not supported by Red Hat. |
Select stable or stable-x.y as the Update channel.
The stable channel only provides updates to the most recent release of logging. To continue receiving updates for prior releases, you must change your subscription channel to stable-x.y, where |
The Loki Operator must be deployed to the global operator group namespace openshift-operators-redhat
, so the Installation mode and Installed Namespace are already selected. If this namespace does not already exist, it is created for you.
Select Enable Operator-recommended cluster monitoring on this namespace.
This option sets the openshift.io/cluster-monitoring: "true"
label in the Namespace
object. You must select this option to ensure that cluster monitoring scrapes the openshift-operators-redhat
namespace.
For Update approval select Automatic, then click Install.
If the approval strategy in the subscription is set to Automatic, the update process initiates as soon as a new Operator version is available in the selected channel. If the approval strategy is set to Manual, you must manually approve pending updates.
Install the Red Hat OpenShift Logging Operator:
In the OpenShift Container Platform web console, click Operators → OperatorHub.
Choose Red Hat OpenShift Logging from the list of available Operators, and click Install.
Ensure that the A specific namespace on the cluster is selected under Installation Mode.
Ensure that Operator recommended namespace is openshift-logging under Installed Namespace.
Select Enable Operator recommended cluster monitoring on this namespace.
This option sets the openshift.io/cluster-monitoring: "true"
label in the Namespace object.
You must select this option to ensure that cluster monitoring
scrapes the openshift-logging
namespace.
Select stable-5.y as the Update Channel.
Select an Approval Strategy.
The Automatic strategy allows Operator Lifecycle Manager (OLM) to automatically update the Operator when a new version is available.
The Manual strategy requires a user with appropriate credentials to approve the Operator update.
Click Install.
Go to the Operators → Installed Operators page. Click the All instances tab.
From the Create new drop-down list, select LokiStack.
Select YAML view, and then use the following template to create a LokiStack
CR:
LokiStack
CRapiVersion: loki.grafana.com/v1
kind: LokiStack
metadata:
name: logging-loki (1)
namespace: openshift-logging (2)
spec:
size: 1x.small (3)
storage:
schemas:
- version: v12
effectiveDate: "2022-06-01"
secret:
name: logging-loki-s3 (4)
type: s3 (5)
credentialMode: (6)
storageClassName: <storage_class_name> (7)
tenants:
mode: openshift-logging (8)
1 | Use the name logging-loki . |
2 | You must specify the openshift-logging namespace. |
3 | Specify the deployment size. In the logging 5.8 and later versions, the supported size options for production instances of Loki are 1x.extra-small , 1x.small , or 1x.medium . |
4 | Specify the name of your log store secret. |
5 | Specify the corresponding storage type. |
6 | Optional field, logging 5.9 and later. Supported user configured values are as follows: static is the default authentication mode available for all supported object storage types using credentials stored in a Secret. token for short-lived tokens retrieved from a credential source. In this mode the static configuration does not contain credentials needed for the object storage. Instead, they are generated during runtime using a service, which allows for shorter-lived credentials and much more granular control. This authentication mode is not supported for all object storage types. token-cco is the default value when Loki is running on managed STS mode and using CCO on STS/WIF clusters. |
7 | Specify the name of a storage class for temporary storage. For best performance, specify a storage class that allocates block storage. Available storage classes for your cluster can be listed by using the oc get storageclasses command. |
8 | LokiStack defaults to running in multi-tenant mode, which cannot be modified. One tenant is provided for each log type: audit, infrastructure, and application logs. This enables access control for individual users and user groups to different log streams. |
It is not possible to change the number |
Click Create.
Create an OpenShift Logging instance:
Switch to the Administration → Custom Resource Definitions page.
On the Custom Resource Definitions page, click ClusterLogging.
On the Custom Resource Definition details page, select View Instances from the Actions menu.
On the ClusterLoggings page, click Create ClusterLogging.
You might have to refresh the page to load the data.
In the YAML field, replace the code with the following:
apiVersion: logging.openshift.io/v1
kind: ClusterLogging
metadata:
name: instance (1)
namespace: openshift-logging (2)
spec:
collection:
type: vector
logStore:
lokistack:
name: logging-loki
retentionPolicy:
application:
maxAge: 7d
audit:
maxAge: 7d
infra:
maxAge: 7d
type: lokistack
visualization:
type: ocp-console
ocpConsole:
logsLimit: 15
managementState: Managed
1 | Name must be instance . |
2 | Namespace must be openshift-logging . |
Go to Operators → Installed Operators.
Make sure the openshift-logging project is selected.
In the Status column, verify that you see green checkmarks with InstallSucceeded and the text Up to date.
An Operator might display a |