a. Generate the create domain script
The OIG deployment scripts demonstrate the creation of an OIG domain home on an existing Kubernetes persistent volume (PV) and persistent volume claim (PVC). The scripts also generate the domain YAML file, which can then be used to start the Kubernetes artifacts of the corresponding domain.
Before you begin, perform the following steps:
The sample scripts for Oracle Identity Governance domain deployment are available at $WORKDIR/kubernetes/create-oim-domain
.
Make a copy of the create-domain-inputs.yaml
file:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv
$ cp create-domain-inputs.yaml create-domain-inputs.yaml.orig
Edit the create-domain-inputs.yaml
and modify the following parameters. Save the file when complete:
domainUID: <domain_uid>
domainHome: /u01/oracle/user_projects/domains/<domain_uid>
image: <image_name>
imagePullSecretName: <container_registry_secret>
weblogicCredentialsSecretName: <kubernetes_domain_secret>
logHome: /u01/oracle/user_projects/domains/logs/<domain_id>
namespace: <domain_namespace>
persistentVolumeClaimName: <pvc_name>
rcuSchemaPrefix: <rcu_prefix>
rcuDatabaseURL: <rcu_db_host>:<rcu_db_port>/<rcu_db_service_name>
rcuCredentialsSecret: <kubernetes_rcu_secret>
frontEndHost: <front_end_hostname>
frontEndPort: <front_end_port>
For example:
domainUID: governancedomain
domainHome: /u01/oracle/user_projects/domains/governancedomain
image: container-registry.oracle.com/middleware/oig_cpu:12.2.1.4-jdk8-ol7-<july'22>
imagePullSecretName: orclcred
weblogicCredentialsSecretName: oig-domain-credentials
logHome: /u01/oracle/user_projects/domains/logs/governancedomain
namespace: oigns
persistentVolumeClaimName: governancedomain-domain-pvc
rcuSchemaPrefix: OIGK8S
rcuDatabaseURL: mydatabasehost.example.com:1521/orcl.example.com
rcuCredentialsSecret: oig-rcu-credentials
frontEndHost: example.com
frontEndPort: 14100
Note: For now frontEndHost
and front_end_port
should be set to example.com
and 14100
respectively. These values will be changed to the correct values in post installation tasks in Set OIMFrontendURL using MBeans.
A full list of parameters in the create-domain-inputs.yaml
file are shown below:
Parameter | Definition | Default |
---|---|---|
adminPort |
Port number for the Administration Server inside the Kubernetes cluster. | 7001 |
adminNodePort |
Port number of the Administration Server outside the Kubernetes cluster. | 30701 |
adminServerName |
Name of the Administration Server. | AdminServer |
clusterName |
Name of the WebLogic cluster instance to generate for the domain. By default the cluster name is oimcluster for the OIG domain. |
oimcluster |
configuredManagedServerCount |
Number of Managed Server instances to generate for the domain. | 5 |
createDomainFilesDir |
Directory on the host machine to locate all the files to create a WebLogic domain, including the script that is specified in the createDomainScriptName property. By default, this directory is set to the relative path wlst , and the create script will use the built-in WLST offline scripts in the wlst directory to create the WebLogic domain. It can also be set to the relative path wdt , and then the built-in WDT scripts will be used instead. An absolute path is also supported to point to an arbitrary directory in the file system. The built-in scripts can be replaced by the user-provided scripts or model files as long as those files are in the specified directory. Files in this directory are put into a Kubernetes config map, which in turn is mounted to the createDomainScriptsMountPath , so that the Kubernetes pod can use the scripts and supporting files to create a domain home. |
wlst |
createDomainScriptsMountPath |
Mount path where the create domain scripts are located inside a pod. The create-domain.sh script creates a Kubernetes job to run the script (specified in the createDomainScriptName property) in a Kubernetes pod to create a domain home. Files in the createDomainFilesDir directory are mounted to this location in the pod, so that the Kubernetes pod can use the scripts and supporting files to create a domain home. |
/u01/weblogic |
createDomainScriptName |
Script that the create domain script uses to create a WebLogic domain. The create-domain.sh script creates a Kubernetes job to run this script to create a domain home. The script is located in the in-pod directory that is specified in the createDomainScriptsMountPath property. If you need to provide your own scripts to create the domain home, instead of using the built-it scripts, you must use this property to set the name of the script that you want the create domain job to run. |
create-domain-job.sh |
domainHome |
Home directory of the OIG domain. If not specified, the value is derived from the domainUID as /shared/domains/<domainUID> . |
/u01/oracle/user_projects/domains/oimcluster |
domainPVMountPath |
Mount path of the domain persistent volume. | /u01/oracle/user_projects/domains |
domainUID |
Unique ID that will be used to identify this particular domain. Used as the name of the generated WebLogic domain as well as the name of the Kubernetes domain resource. This ID must be unique across all domains in a Kubernetes cluster. This ID cannot contain any character that is not valid in a Kubernetes service name. | oimcluster |
exposeAdminNodePort |
Boolean indicating if the Administration Server is exposed outside of the Kubernetes cluster. | false |
exposeAdminT3Channel |
Boolean indicating if the T3 administrative channel is exposed outside the Kubernetes cluster. | true |
image |
OIG container image. The operator requires OIG 12.2.1.4. Refer to OIG domains for details on how to obtain or create the image. | oracle/oig:12.2.1.4.0 |
imagePullPolicy |
WebLogic container image pull policy. Legal values are IfNotPresent , Always , or Never |
IfNotPresent |
imagePullSecretName |
Name of the Kubernetes secret to access the container registry to pull the OIG container image. The presence of the secret will be validated when this parameter is specified. | |
includeServerOutInPodLog |
Boolean indicating whether to include the server .out to the pod’s stdout. | true |
initialManagedServerReplicas |
Number of Managed Servers to initially start for the domain. | 2 |
javaOptions |
Java options for starting the Administration Server and Managed Servers. A Java option can have references to one or more of the following pre-defined variables to obtain WebLogic domain information: $(DOMAIN_NAME) , $(DOMAIN_HOME) , $(ADMIN_NAME) , $(ADMIN_PORT) , and $(SERVER_NAME) . |
-Dweblogic.StdoutDebugEnabled=false |
logHome |
The in-pod location for the domain log, server logs, server out, and Node Manager log files. If not specified, the value is derived from the domainUID as /shared/logs/<domainUID> . |
/u01/oracle/user_projects/domains/logs/oimcluster |
managedServerNameBase |
Base string used to generate Managed Server names. | oim_server |
managedServerPort |
Port number for each Managed Server. | 8001 |
namespace |
Kubernetes namespace in which to create the domain. | oimcluster |
persistentVolumeClaimName |
Name of the persistent volume claim created to host the domain home. If not specified, the value is derived from the domainUID as <domainUID>-weblogic-sample-pvc . |
oimcluster-domain-pvc |
productionModeEnabled |
Boolean indicating if production mode is enabled for the domain. | true |
serverStartPolicy |
Determines which WebLogic Server instances will be started. Legal values are NEVER , IF_NEEDED , ADMIN_ONLY . |
IF_NEEDED |
t3ChannelPort |
Port for the T3 channel of the NetworkAccessPoint. | 30012 |
t3PublicAddress |
Public address for the T3 channel. This should be set to the public address of the Kubernetes cluster. This would typically be a load balancer address. For development environments only: In a single server (all-in-one) Kubernetes deployment, this may be set to the address of the master, or at the very least, it must be set to the address of one of the worker nodes. | If not provided, the script will attempt to set it to the IP address of the Kubernetes cluster |
weblogicCredentialsSecretName |
Name of the Kubernetes secret for the Administration Server’s user name and password. If not specified, then the value is derived from the domainUID as <domainUID>-weblogic-credentials . |
oimcluster-domain-credentials |
weblogicImagePullSecretName |
Name of the Kubernetes secret for the container registry, used to pull the WebLogic Server image. | |
serverPodCpuRequest , serverPodMemoryRequest , serverPodCpuCLimit , serverPodMemoryLimit |
The maximum amount of compute resources allowed, and minimum amount of compute resources required, for each server pod. Please refer to the Kubernetes documentation on Managing Compute Resources for Containers for details. |
Resource requests and resource limits are not specified. |
rcuSchemaPrefix |
The schema prefix to use in the database, for example OIGK8S . You may wish to make this the same as the domainUID in order to simplify matching domains to their RCU schemas. |
OIGK8S |
rcuDatabaseURL |
The database URL. | oracle-db.default.svc.cluster.local:1521/devpdb.k8s |
rcuCredentialsSecret |
The Kubernetes secret containing the database credentials. | oimcluster-rcu-credentials |
frontEndHost |
The entry point URL for the OIM. | Not set |
frontEndPort |
The entry point port for the OIM. | Not set |
Note that the names of the Kubernetes resources in the generated YAML files may be formed with the
value of some of the properties specified in the create-inputs.yaml
file. Those properties include
the adminServerName
, clusterName
and managedServerNameBase
. If those values contain any
characters that are invalid in a Kubernetes service name, those characters are converted to
valid values in the generated YAML files. For example, an uppercase letter is converted to a
lowercase letter and an underscore ("_")
is converted to a hyphen ("-")
.
The sample demonstrates how to create an OIG domain home and associated Kubernetes resources for a domain that has one cluster only. In addition, the sample provides the capability for users to supply their own scripts to create the domain home for other use cases. The generated domain YAML file could also be modified to cover more use cases.
Run the create domain script, specifying your inputs file and an output directory to store the generated artifacts:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv
$ mkdir output
$ ./create-domain.sh -i create-domain-inputs.yaml -o /<path to output-directory>
For example:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv
$ mkdir output
$ ./create-domain.sh -i create-domain-inputs.yaml -o output
The output will look similar to the following:
Input parameters being used
export version="create-weblogic-sample-domain-inputs-v1"
export adminPort="7001"
export adminServerName="AdminServer"
export domainUID="governancedomain"
export domainHome="/u01/oracle/user_projects/domains/governancedomain"
export serverStartPolicy="IF_NEEDED"
export clusterName="oim_cluster"
export configuredManagedServerCount="5"
export initialManagedServerReplicas="1"
export managedServerNameBase="oim_server"
export managedServerPort="14000"
export image="container-registry.oracle.com/middleware/oig_cpu:12.2.1.4-jdk8-ol7-<july'22>"
export imagePullPolicy="IfNotPresent"
export imagePullSecretName="orclcred"
export productionModeEnabled="true"
export weblogicCredentialsSecretName="oig-domain-credentials"
export includeServerOutInPodLog="true"
export logHome="/u01/oracle/user_projects/domains/logs/governancedomain"
export t3ChannelPort="30012"
export exposeAdminT3Channel="false"
export adminNodePort="30701"
export exposeAdminNodePort="false"
export namespace="oigns"
javaOptions=-Dweblogic.StdoutDebugEnabled=false
export persistentVolumeClaimName="governancedomain-domain-pvc"
export domainPVMountPath="/u01/oracle/user_projects/domains"
export createDomainScriptsMountPath="/u01/weblogic"
export createDomainScriptName="create-domain-job.sh"
export createDomainFilesDir="wlst"
export rcuSchemaPrefix="OIGK8S"
export rcuDatabaseURL="mydatabasehost.example.com:1521/orcl.example.com"
export rcuCredentialsSecret="oig-rcu-credentials"
export frontEndHost="example.com"
export frontEndPort="14100"
Generating output/weblogic-domains/governancedomain/create-domain-job.yaml
Generating output/weblogic-domains/governancedomain/delete-domain-job.yaml
Generating output/weblogic-domains/governancedomain/domain.yaml
Checking to see if the secret governancedomain-domain-credentials exists in namespace oigns
configmap/governancedomain-create-fmw-infra-sample-domain-job-cm created
Checking the configmap governancedomain-create-fmw-infra-sample-domain-job-cm was created
configmap/governancedomain-create-fmw-infra-sample-domain-job-cm labeled
Checking if object type job with name governancedomain-create-fmw-infra-sample-domain-job exists
No resources found in oigns namespace.
Creating the domain by creating the job output/weblogic-domains/governancedomain/create-domain-job.yaml
job.batch/governancedomain-create-fmw-infra-sample-domain-job created
Waiting for the job to complete...
status on iteration 1 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 2 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 3 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 4 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 5 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 6 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 7 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 8 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 9 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 10 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Running
status on iteration 11 of 40
pod governancedomain-create-fmw-infra-sample-domain-job-8cww8 status is Completed
Domain governancedomain was created and will be started by the WebLogic Kubernetes Operator
The following files were generated:
output/weblogic-domains/governancedomain/create-domain-inputs.yaml
output/weblogic-domains/governancedomain/create-domain-job.yaml
output/weblogic-domains/governancedomain/domain.yaml
sed
Completed
$
Note: If the create domain script creation fails, refer to the Troubleshooting section.
Navigate to the /output/weblogic-domains/<domain_uid>
directory:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv/output/weblogic-domains/<domain_uid>
For example:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv/output/weblogic-domains/governancedomain
Edit the domain_oim_soa.yaml
and locate the section of the file starting with: - clusterName: oim_cluster
. Immediately after the line: topologyKey: "kubernetes.io/hostname"
, add the following lines:
env:
- name: USER_MEM_ARGS
value: "-Djava.security.egd=file:/dev/./urandom -Xms2408m -Xmx8192m"
The file should looks as follows:
- clusterName: oim_cluster
serverService:
precreateService: true
serverStartState: "RUNNING"
serverPod:
# Instructs Kubernetes scheduler to prefer nodes for new cluster members where there are not
# already members of the same cluster.
affinity:
podAntiAffinity:
preferredDuringSchedulingIgnoredDuringExecution:
- weight: 100
podAffinityTerm:
labelSelector:
matchExpressions:
- key: "weblogic.clusterName"
operator: In
values:
- $(CLUSTER_NAME)
topologyKey: "kubernetes.io/hostname"
env:
- name: USER_MEM_ARGS
value: "-Djava.security.egd=file:/dev/./urandom -Xms2408m -Xmx8192m"
replicas: 1
...
Create the Kubernetes resource using the following command:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv/output/weblogic-domains/<domain_uid>
$ kubectl apply -f domain.yaml
For example:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv/output/weblogic-domains/governancedomain
$ kubectl apply -f domain.yaml
The output will look similar to the following:
domain.weblogic.oracle/governancedomain created
Run the following command to view the status of the OIG pods:
$ kubectl get pods -n oigns
The output will initially look similar to the following:
NAME READY STATUS RESTARTS AGE
helper 1/1 Running 0 3h30m
governancedomain-create-fmw-infra-sample-domain-job-8cww8 0/1 Completed 0 27m
governancedomain-introspect-domain-job-p4brt 1/1 Running 0 6s
The introspect-domain-job
pod will be displayed first. Run the command again after several minutes and check to see that the Administration Server and SOA Server are both started. When started they should have STATUS
= Running
and READY
= 1/1
.
NAME READY STATUS RESTARTS AGE
helper 1/1 Running 0 3h38m
governancedomain-adminserver 1/1 Running 0 7m30s
governancedomain-create-fmw-infra-sample-domain-job-8cww8 0/1 Completed 0 35m
governancedomain-soa-server1 1/1 Running 0 4m
Note: It will take several minutes before all the pods listed above show. When a pod has a STATUS
of 0/1
the pod is started but the OIG server associated with it is currently starting. While the pods are starting you can check the startup status in the pod logs, by running the following command:
$ kubectl logs governancedomain-adminserver -n oigns
$ kubectl logs governancedomain-soa-server1 -n oigns
Once both pods are running, start the OIM Server using the following command:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv/output/weblogic-domains/governancedomain/
$ kubectl apply -f domain_oim_soa.yaml
For example:
$ cd $WORKDIR/kubernetes/create-oim-domain/domain-home-on-pv/output/weblogic-domains/governancedomain/
$ kubectl apply -f domain_oim_soa.yaml
The output will look similar to the following:
domain.weblogic.oracle/governancedomain configured
Verify the domain, servers pods and services are created and in the READY
state with a STATUS
of 1/1
, by running the following command:
$ kubectl get all,domains -n <domain_namespace>
For example:
$ kubectl get all,domains -n oigns
The output will look similar to the following:
NAME READY STATUS RESTARTS AGE
pod/governancedomain-adminserver 1/1 Running 0 16m
pod/governancedomain-create-fmw-infra-sample-domain-job-8cww8 0/1 Completed 0 36m
pod/governancedomain-oim-server1 1/1 Running 0 5m57s
pod/governancedomain-soa-server1 1/1 Running 0 13m
pod/helper 1/1 Running 0 3h40m
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/governancedomain-adminserver ClusterIP None <none> 7001/TCP 16m
service/governancedomain-cluster-oim-cluster ClusterIP 10.97.121.159 <none> 14000/TCP 13m
service/governancedomain-cluster-soa-cluster ClusterIP 10.111.231.242 <none> 8001/TCP 13m
service/governancedomain-oim-server1 ClusterIP None <none> 14000/TCP 5m57s
service/governancedomain-oim-server2 ClusterIP 10.108.139.30 <none> 14000/TCP 5m57s
service/governancedomain-oim-server3 ClusterIP 10.97.170.104 <none> 14000/TCP 5m57s
service/governancedomain-oim-server4 ClusterIP 10.99.82.214 <none> 14000/TCP 5m57s
service/governancedomain-oim-server5 ClusterIP 10.98.75.228 <none> 14000/TCP 5m57s
service/governancedomain-soa-server1 ClusterIP None <none> 8001/TCP 13m
service/governancedomain-soa-server2 ClusterIP 10.107.232.220 <none> 8001/TCP 13m
service/governancedomain-soa-server3 ClusterIP 10.108.203.6 <none> 8001/TCP 13m
service/governancedomain-soa-server4 ClusterIP 10.96.178.0 <none> 8001/TCP 13m
service/governancedomain-soa-server5 ClusterIP 10.107.83.62 <none> 8001/TCP 13m
NAME COMPLETIONS DURATION AGE
job.batch/governancedomain-create-fmw-infra-sample-domain-job 1/1 5m30s 36m
NAME AGE
domain.weblogic.oracle/governancedomain 17m
Note: It will take several minutes before all the services listed above show. While the governancedomain-oim-server1
pod has a STATUS
of 0/1
the pod is started but the OIG server associated with it is currently starting. While the pod is starting you can check the startup status in the pod logs, by running the following command:
$ kubectl logs governancedomain-oim-server1 -n oigns
The default domain created by the script has the following characteristics:
AdminServer
listening on port 7001
.oig_cluster
of size 5.soa_cluster
of size 5.oim_server1
, listening on port 14000
.soa_server1
, listening on port 8001
.<persistent_volume>/logs/<domainUID>
Run the following command to describe the domain:
$ kubectl describe domain <domain_uid> -n <namespace>
For example:
$ kubectl describe domain governancedomain -n oigns
The output will look similar to the following:
Name: governancedomain
Namespace: oigns
Labels: weblogic.domainUID=governancedomain
Annotations: <none>
API Version: weblogic.oracle/v8
Kind: Domain
Metadata:
Creation Timestamp: 2022-07-13T11:44:17Z
Generation: 2
Managed Fields:
API Version: weblogic.oracle/v8
Fields Type: FieldsV1
fieldsV1:
f:metadata:
f:annotations:
.:
f:kubectl.kubernetes.io/last-applied-configuration:
f:labels:
.:
f:weblogic.domainUID:
Manager: kubectl-client-side-apply
Operation: Update
Time: 2022-07-13T14:59:44Z
API Version: weblogic.oracle/v8
Fields Type: FieldsV1
fieldsV1:
f:status:
.:
f:clusters:
f:conditions:
f:introspectJobFailureCount:
f:servers:
f:startTime:
Manager: Kubernetes Java Client
Operation: Update
Time: 2022-07-13T11:51:12Z
Resource Version: 383381
UID: ea95c549-c414-42a6-8de4-beaf1204872e
Spec:
Admin Server:
Server Pod:
Env:
Name: USER_MEM_ARGS
Value: -Djava.security.egd=file:/dev/./urandom -Xms512m -Xmx1024m
Server Start State: RUNNING
Clusters:
Cluster Name: soa_cluster
Replicas: 1
Server Pod:
Affinity:
Pod Anti Affinity:
Preferred During Scheduling Ignored During Execution:
Pod Affinity Term:
Label Selector:
Match Expressions:
Key: weblogic.clusterName
Operator: In
Values:
$(CLUSTER_NAME)
Topology Key: kubernetes.io/hostname
Weight: 100
Server Service:
Precreate Service: true
Server Start State: RUNNING
Cluster Name: oim_cluster
Replicas: 1
Server Pod:
Affinity:
Pod Anti Affinity:
Preferred During Scheduling Ignored During Execution:
Pod Affinity Term:
Label Selector:
Match Expressions:
Key: weblogic.clusterName
Operator: In
Values:
$(CLUSTER_NAME)
Topology Key: kubernetes.io/hostname
Weight: 100
Env:
Name: USER_MEM_ARGS
Value: -Djava.security.egd=file:/dev/./urandom -Xms2408m -Xmx8192m
Server Service:
Precreate Service: true
Server Start State: RUNNING
Data Home:
Domain Home: /u01/oracle/user_projects/domains/governancedomain
Domain Home Source Type: PersistentVolume
Http Access Log In Log Home: true
Image: container-registry.oracle.com/middleware/oig_cpu:12.2.1.4-jdk8-ol7-<july'22>
Image Pull Policy: IfNotPresent
Image Pull Secrets:
Name: orclcred
Include Server Out In Pod Log: true
Log Home: /u01/oracle/user_projects/domains/logs/governancedomain
Log Home Enabled: true
Server Pod:
Env:
Name: JAVA_OPTIONS
Value: -Dweblogic.StdoutDebugEnabled=false
Name: USER_MEM_ARGS
Value: -Djava.security.egd=file:/dev/./urandom -Xms256m -Xmx1024m
Volume Mounts:
Mount Path: /u01/oracle/user_projects/domains
Name: weblogic-domain-storage-volume
Volumes:
Name: weblogic-domain-storage-volume
Persistent Volume Claim:
Claim Name: governancedomain-domain-pvc
Server Start Policy: IF_NEEDED
Web Logic Credentials Secret:
Name: oig-domain-credentials
Status:
Clusters:
Cluster Name: oim_cluster
Maximum Replicas: 5
Minimum Replicas: 0
Ready Replicas: 1
Replicas: 1
Replicas Goal: 1
Cluster Name: soa_cluster
Maximum Replicas: 5
Minimum Replicas: 0
Ready Replicas: 1
Replicas: 1
Replicas Goal: 1
Conditions:
Last Transition Time: 2022-07-13T11:59:53.249700Z
Reason: ServersReady
Status: True
Type: Available
Introspect Job Failure Count: 0
Servers:
Desired State: RUNNING
Health:
Activation Time: 2022-07-13T11:46:49.874000Z
Overall Health: ok
Subsystems:
Subsystem Name: ServerRuntime
Symptoms:
Node Name: 10.250.40.59
Server Name: AdminServer
State: RUNNING
Cluster Name: oim_cluster
Desired State: RUNNING
Health:
Activation Time: 2022-07-13T15:06:21.693000Z
Overall Health: ok
Subsystems:
Subsystem Name: ServerRuntime
Symptoms:
Node Name: 10.250.40.59
Server Name: oim_server1
State: RUNNING
Cluster Name: oim_cluster
Desired State: SHUTDOWN
Server Name: oim_server2
Cluster Name: oim_cluster
Desired State: SHUTDOWN
Server Name: oim_server3
Cluster Name: oim_cluster
Desired State: SHUTDOWN
Server Name: oim_server4
Cluster Name: oim_cluster
Desired State: SHUTDOWN
Server Name: oim_server5
Cluster Name: soa_cluster
Desired State: RUNNING
Health:
Activation Time: 2022-07-13T11:49:26.340000Z
Overall Health: ok
Subsystems:
Subsystem Name: ServerRuntime
Symptoms:
Node Name: 10.250.40.59
Server Name: soa_server1
State: RUNNING
Cluster Name: soa_cluster
Desired State: SHUTDOWN
Server Name: soa_server2
Cluster Name: soa_cluster
Desired State: SHUTDOWN
Server Name: soa_server3
Cluster Name: soa_cluster
Desired State: SHUTDOWN
Server Name: soa_server4
Cluster Name: soa_cluster
Desired State: SHUTDOWN
Server Name: soa_server5
Start Time: 2022-07-13T14:50:19.148541Z
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal DomainCreated 19m weblogic.operator Domain resource governancedomain was created
Normal DomainProcessingCompleted 12m weblogic.operator Successfully completed processing domain resource governancedomain
Normal DomainChanged 10m weblogic.operator Domain resource governancedomain was changed
Normal DomainProcessingStarting 10m (x2 over 19m) weblogic.operator Creating or updating Kubernetes presence for WebLogic Domain with UID governancedomai
In the Status
section of the output, the available servers and clusters are listed.
Run the following command to see the pods running the servers and which nodes they are running on:
$ kubectl get pods -n <namespace> -o wide
For example:
$ kubectl get pods -n oigns -o wide
The output will look similar to the following:
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
helper 1/1 Running 0 3h50m 10.244.1.39 worker-node2 <none> <none>
governancedomain-adminserver 1/1 Running 0 27m 10.244.1.42 worker-node2 <none> <none>
governancedomain-create-fmw-infra-sample-domain-job-8cww8 0/1 Completed 0 47m 10.244.1.40 worker-node2 <none> <none>
governancedomain-oim-server1 1/1 Running 0 16m 10.244.1.44 worker-node2 <none> <none>
governancedomain-soa-server1 1/1 Running 0 24m 10.244.1.43 worker-node2 <none> <none>
You are now ready to configure an Ingress to direct traffic for your OIG domain as per Configure an ingress for an OIG domain.