This page describes how to manage AlloyDB Omni user roles, monitor the activity of your AlloyDB Omni server, and update or remove your AlloyDB Omni installation.
Manage user roles
AlloyDB Omni uses the same set of predefined PostgreSQL user roles that AlloyDB includes, with the following differences:
-
AlloyDB Omni includes a superuser role named
alloydbadmin
, and a non-superuser role namedalloydbmetadata
. The default
postgres
user has a superuser role.All other predefined user roles have no privileges. They are reserved for potential uses in the future.
As with AlloyDB, it's a best practice to follow these steps when setting up a database:
Define or import your databases using the
postgres
user role. In a new installation, this role has superuser privileges, and requires no password.Create new user roles that have the correct level of access to your application's tables, again using the
postgres
user role.Configure your application to connect to the database using these new, limited-access roles.
You can create and define as many new user roles as you need. Don't modify or delete any of the user roles with which AlloyDB Omni ships.
For more information, see Manage AlloyDB user roles.
Monitor AlloyDB Omni
Monitoring your AlloyDB Omni installation means reading and analyzing its log files.
AlloyDB Omni running on Kubernetes also has a set of basic metrics available as Prometheus endpoints. For a list of available metrics, see AlloyDB Omni metrics.
Single-server
By default, to retrieve AlloyDB Omni logs, run:
Docker
docker logs CONTAINER_NAME
Replace CONTAINER_NAME
with the name of your AlloyDB Omni container.
To configure the logging behavior of AlloyDB Omni, see Customize your AlloyDB Omni installation.
Podman
podman logs CONTAINER_NAME
Replace CONTAINER_NAME
with the name of your AlloyDB Omni container.
To configure the logging behavior of AlloyDB Omni, see Customize your AlloyDB Omni installation.
Podman
podman logs CONTAINER_NAME
Replace CONTAINER_NAME
with the name of your AlloyDB Omni container.
To configure the logging behavior of AlloyDB Omni, see Customize your AlloyDB Omni installation.
Kubernetes
Find your database cluster log files
You can find postgresql.audit
and postgresql.log
files on the file system
of the database pod. To access these files, follow these steps:
Define an environment variable containing the name of the database pod.
export DB_POD=`kubectl get pod -l alloydbomni.internal.dbadmin.goog/dbcluster=DB_CLUSTER_NAME,alloydbomni.internal.dbadmin.goog/task-type=database -o jsonpath='{.items[0].metadata.name}'`
Replace
DB_CLUSTER_NAME
with the name of your database cluster. It's the same database cluster name you declared when you created it.Run a shell on the database pod as root.
kubectl exec ${DB_POD} -it -- /bin/bash
Find the log files in the
/obs/diagnostic/
directory:/obs/diagnostic/postgresql.audit
/obs/diagnostic/postgresql.log
List monitoring services
v1.0
When you create a database cluster, AlloyDB Omni creates the following monitoring service for each instance CR of the database cluster in the same namespace:
al-INSTANCE_NAME-monitoring-system
To list the monitoring services, run the following command.
kubectl get svc -n NAMESPACE | grep monitoring
Replace NAMESPACE
with a namespace where your cluster belongs.
The following example response shows the al-1060-dbc-monitoring-system
,
al-3de6-dbc-monitoring-system
, and al-4bc0-dbc-monitoring-system
services. Each service corresponds to one instance.
al-1060-dbc-monitoring-system ClusterIP 10.0.15.227 <none> 9187/TCP 7d20h
al-3de6-dbc-monitoring-system ClusterIP 10.0.5.205 <none> 9187/TCP 7d19h
al-4bc0-dbc-monitoring-system ClusterIP 10.0.15.92 <none> 9187/TCP 7d19h
Version < 1.0
When you create a database cluster, AlloyDB Omni creates the following monitoring services in the same namespace as the database cluster:
DB_CLUSTER-monitoring-db
DB_CLUSTER-monitoring-system
To list the monitoring services, run the following command.
kubectl get svc -n NAMESPACE | grep monitoring
Replace NAMESPACE
with a namespace where your cluster belongs.
The following example response shows the al-2953-dbcluster-foo7-monitoring-system
and the al-2953-dbcluster-foo7-monitoring-db
service.
al-2953-dbcluster-foo7-monitoring-db ClusterIP 10.36.3.243 <none> 9187/TCP 44m
al-2953-dbcluster-foo7-monitoring-system ClusterIP 10.36.7.72 <none> 9187/TCP 44m
View Prometheus metrics from the command line
The port 9187
is named as metricsalloydbomni
for all monitoring services.
Set up port forwarding from your local environment to the monitoring service.
kubectl port-forward service/MONITORING_SERVICE -n NAMESPACE MONITORING_METRICS_PORT:metricsalloydbomni
Replace the following:
MONITORING_SERVICE
: The name of the monitoring service that you want to forward—for example,al-1060-dbc-monitoring-system
.NAMESPACE
: The namespace where your cluster belongs.MONITORING_METRICS_PORT
: A local available TCP port.
The following response shows that the services are being forwarded.
Forwarding from 127.0.0.1:9187 -> 9187 Forwarding from [::1]:9187 -> 9187
While the previous command runs, you can access monitoring metrics through HTTP on the port that you specified. For example, you can use
curl
to see all of the metrics as plain text:curl http://localhost:MONITORING_METRICS_PORT/metrics
View metrics using the Prometheus API
The alloydbomni.internal.dbadmin.goog/task-type
label key and the metricsalloydbomni
port is available as a default for all monitoring services in AlloyDB Omni. You can use them together with a single serviceMonitor
custom resource to select all the services for all namespaces in your database cluster.
For more information about using the Prometheus API, see the Prometheus Operator documentation.
The following is an example spec
field of the serviceMonitor
custom resource that includes the alloydbomni.internal.dbadmin.gdc.goog/task-type
label key and metricsalloydbomni
port. The serviceMonitor
custom resource monitors and collects all the kubernetes services in all namespaces
For more information about the complete ServiceMonitor
definition, see the ServiceMonitor
custom resource definition .
v1.0
spec:
selector:
matchLabels:
alloydbomni.internal.dbadmin.goog/task-type: monitoring
namespaceSelector:
any: true
endpoints:
- port: metricsalloydbomni
Version < 1.0
spec:
selector:
matchExpressions:
- key: alloydbomni.internal.dbadmin.gdc.goog/task-type
operator: Exists
values: []
namespaceSelector:
any: true
endpoints:
- port: metricsalloydbomni
Upgrade AlloyDB Omni
To upgrade from AlloyDB Omni 15.5.2 or earlier to 15.5.4, follow instructions in Migrate from earlier version of AlloyDB Omni to latest version.
To upgrade from 15.5.4 and later:
Restart AlloyDB Omni using a new image version.
Make sure to specify your data directory to match the same path as used in earlier versions of AlloyDB Omni.
Uninstall AlloyDB Omni
Single-server
To uninstall AlloyDB Omni, stop and delete the AlloyDB Omni container using the following command:
Docker
docker container stop CONTAINER_NAME
docker container rm CONTAINER_NAME
Replace CONTAINER_NAME
with the name of your AlloyDB Omni container.
Podman
podman container stop CONTAINER_NAME
podman container rm CONTAINER_NAME
Replace CONTAINER_NAME
with the name of your AlloyDB Omni container.
Podman
podman container stop CONTAINER_NAME
podman container rm CONTAINER_NAME
Replace CONTAINER_NAME
with the name of your AlloyDB Omni container.
You can move, archive, or delete an external data directory depending on whether and how you want to preserve your data after uninstalling AlloyDB Omni.
Kubernetes
Delete your database cluster
To delete your database cluster, set isDeleted
to true
in its manifest.
You can accomplish this with the following command.
kubectl patch dbclusters.alloydbomni.dbadmin.goog DB_CLUSTER_NAME -p '{"spec":{"isDeleted":true}}' --type=merge
Replace DB_CLUSTER_NAME
with the name of your database
cluster. It's the same database cluster name you declared when you created
it.
Uninstall the AlloyDB Omni operator
To uninstall the AlloyDB Omni Kubernetes operator from your Kubernetes cluster, take the following steps:
Delete all of your database clusters:
for ns in $(kubectl get dbclusters.alloydbomni.dbadmin.goog --all-namespaces -o=jsonpath='{range .items[*]}{.metadata.namespace}{"\n"}{end}'); do for cr in $(kubectl get dbclusters.alloydbomni.dbadmin.goog -n $ns -o=jsonpath='{range .items[*]}{.metadata.name}{"\n"}{end}'); do kubectl patch dbclusters.alloydbomni.dbadmin.goog $cr -n $ns --type=merge -p '{"spec":{"isDeleted":true}}' done done
Wait for the AlloyDB Omni Kubernetes operator to delete all of your database clusters. Use the following command to check whether any database resources remain:
kubectl get dbclusters.alloydbomni.dbadmin.goog --all-namespaces
Delete other resources that the AlloyDB Omni Kubernetes operator created:
kubectl delete failovers.alloydbomni.dbadmin.goog --all --all-namespaces
kubectl delete restores.alloydbomni.dbadmin.goog --all --all-namespaces
kubectl delete switchovers.alloydbomni.dbadmin.goog --all --all-namespaces
Uninstall the AlloyDB Omni Kubernetes operator:
helm uninstall alloydbomni-operator --namespace alloydb-omni-system
Clean up secrets, custom resource descriptions, and namespaces related to the AlloyDB Omni Kubernetes operator:
kubectl delete certificate -n alloydb-omni-system --all
kubectl get secrets --all-namespaces -o custom-columns=NAMESPACE:.metadata.namespace,NAME:.metadata.name,ANNOTATION:.metadata.annotations.cert-manager\.io/issuer-name | grep -E 'alloydbomni|dbs-al' | awk '{print $1 " " $2}' | xargs -n 2 kubectl delete secret -n
kubectl delete crd -l alloydb-omni=true
kubectl delete ns alloydb-omni-system
Resize your Kubernetes-based database cluster
To resize the CPU, memory, or storage of your Kubernetes-based database cluster,
update the resources
field of the manifests that define its pod. The
AlloyDB Omni operator applies the new specifications to your database pod
immediately.
For more information about the AlloyDB Omni operator manifest syntax, see Create a database cluster.
The following restrictions apply to modifying a running database cluster's resources:
- You can increase a disk's size only if the specified
storageClass
supports volume expansion. - You can't decrease a disk's size.