-
Such as per pod.
-
Such as per workload or namespace.
-
Statistics on packet drops are only available with Loki.
Installing Loki is a recommended prerequisite for using the Network Observability Operator. You can choose to use Network Observability without Loki, but there are some considerations for doing this, described in the previously linked section.
The Loki Operator integrates a gateway that implements multi-tenancy and authentication with Loki for data flow storage. The LokiStack
resource manages Loki, which is a scalable, highly-available, multi-tenant log aggregation system, and a web proxy with OpenShift Container Platform authentication. The LokiStack
proxy uses OpenShift Container Platform authentication to enforce multi-tenancy and facilitate the saving and indexing of data in Loki log stores.
The Loki Operator can also be used for configuring the LokiStack log store. The Network Observability Operator requires a dedicated LokiStack separate from the logging. |
You can use Network Observability without Loki by not performing the Loki installation steps and skipping directly to "Installing the Network Observability Operator". If you only want to export flows to a Kafka consumer or IPFIX collector, or you only need dashboard metrics, then you do not need to install Loki or provide storage for Loki. The following table compares available features with and without Loki.
With Loki | Without Loki | |
---|---|---|
Exporters |
||
Multi-tenancy |
||
Complete filtering and aggregations capabilities [1] |
||
Partial filtering and aggregations capabilities [2] |
||
Flow-based metrics and dashboards |
||
Traffic flows view overview [3] |
||
Traffic flows view table |
||
Topology view |
||
OpenShift Container Platform console Network Traffic tab integration |
Such as per pod.
Such as per workload or namespace.
Statistics on packet drops are only available with Loki.
The Loki Operator versions 5.7+ are the supported Loki Operator versions for Network Observability; these versions provide the ability to create a LokiStack
instance using the openshift-network
tenant configuration mode and provide fully-automatic, in-cluster authentication and authorization support for Network Observability. There are several ways you can install Loki. One way is by using the OpenShift Container Platform web console Operator Hub.
Supported Log Store (AWS S3, Google Cloud Storage, Azure, Swift, Minio, OpenShift Data Foundation)
OpenShift Container Platform 4.10+
Linux Kernel 4.18+
In the OpenShift Container Platform web console, click Operators → OperatorHub.
Choose Loki Operator from the list of available Operators, and click Install.
Under Installation Mode, select All namespaces on the cluster.
Verify that you installed the Loki Operator. Visit the Operators → Installed Operators page and look for Loki Operator.
Verify that Loki Operator is listed with Status as Succeeded in all the projects.
To uninstall Loki, refer to the uninstallation process that corresponds with the method you used to install Loki. You might have remaining |
The Loki Operator supports a few log storage options, such as AWS S3, Google Cloud Storage, Azure, Swift, Minio, OpenShift Data Foundation. The following example shows how to create a secret for AWS S3 storage. The secret created in this example, loki-s3
, is referenced in "Creating a LokiStack resource". You can create this secret in the web console or CLI.
Using the web console, navigate to the Project → All Projects dropdown and select Create Project. Name the project netobserv
and click Create.
Navigate to the Import icon, +, in the top right corner. Paste your YAML file into the editor.
The following shows an example secret YAML file for S3 storage:
apiVersion: v1
kind: Secret
metadata:
name: loki-s3
namespace: netobserv (1)
stringData:
access_key_id: QUtJQUlPU0ZPRE5ON0VYQU1QTEUK
access_key_secret: d0phbHJYVXRuRkVNSS9LN01ERU5HL2JQeFJmaUNZRVhBTVBMRUtFWQo=
bucketnames: s3-bucket-name
endpoint: https://s3.eu-central-1.amazonaws.com
region: eu-central-1
1 | The installation examples in this documentation use the same namespace, netobserv , across all components. You can optionally use a different namespace for the different components |
Once you create the secret, you should see it listed under Workloads → Secrets in the web console.
You can deploy a LokiStack
custom resource (CR) by using the web console or OpenShift CLI (oc
) to create a namespace, or new project.
Navigate to Operators → Installed Operators, viewing All projects from the Project dropdown.
Look for Loki Operator. In the details, under Provided APIs, select LokiStack.
Click Create LokiStack.
Ensure the following fields are specified in either Form View or YAML view:
apiVersion: loki.grafana.com/v1
kind: LokiStack
metadata:
name: loki
namespace: netobserv (1)
spec:
size: 1x.small (2)
storage:
schemas:
- version: v12
effectiveDate: '2022-06-01'
secret:
name: loki-s3
type: s3
storageClassName: gp3 (3)
tenants:
mode: openshift-network
1 | The installation examples in this documentation use the same namespace, netobserv , across all components. You can optionally use a different namespace. |
||
2 | Specify the deployment size. In the Loki Operator 5.8 and later versions, the supported size options for production instances of Loki are 1x.extra-small , 1x.small , or 1x.medium .
|
||
3 | Use a storage class name that is available on the cluster for ReadWriteOnce access mode. You can use oc get storageclasses to see what is available on your cluster.
|
Click Create.
Querying application logs for multiple namespaces as a |
Use the following procedure to create a new group for users with cluster-admin
permissions.
Enter the following command to create a new group:
$ oc adm groups new cluster-admin
Enter the following command to add the desired user to the cluster-admin
group:
$ oc adm groups add-users cluster-admin <username>
Enter the following command to add cluster-admin
user role to the group:
$ oc adm policy add-cluster-role-to-group cluster-admin cluster-admin
If you have a large deployment with a number of users who require broader permissions, you can create a custom group using the adminGroup
field. Users who are members of any group specified in the adminGroups
field of the LokiStack
CR are considered admins. Admin users have access to all application logs in all namespaces, if they also get assigned the cluster-logging-application-view
role.
apiVersion: loki.grafana.com/v1
kind: LokiStack
metadata:
name: logging-loki
namespace: openshift-logging
spec:
tenants:
mode: openshift-network (1)
openshift:
adminGroups: (2)
- cluster-admin
- custom-admin-group (3)
1 | Custom admin groups are only available in this mode. |
2 | Entering an empty list [] value for this field disables admin groups. |
3 | Overrides the default groups (system:cluster-admins , cluster-admin , dedicated-admin ) |
Sizing for Loki follows the format of 1x.<size>
where the value 1x
is number of instances and <size>
specifies performance capabilities.
It is not possible to change the number |
1x.demo | 1x.extra-small | 1x.small | 1x.medium | |
---|---|---|---|---|
Data transfer |
Demo use only |
100GB/day |
500GB/day |
2TB/day |
Queries per second (QPS) |
Demo use only |
1-25 QPS at 200ms |
25-50 QPS at 200ms |
25-75 QPS at 200ms |
Replication factor |
None |
2 |
2 |
2 |
Total CPU requests |
None |
14 vCPUs |
34 vCPUs |
54 vCPUs |
Total memory requests |
None |
31Gi |
67Gi |
139Gi |
Total disk requests |
40Gi |
430Gi |
430Gi |
590Gi |
The LokiStack instance comes with default settings according to the configured size. It is possible to override some of these settings, such as the ingestion and query limits. You might want to update them if you get Loki errors showing up in the Console plugin, or in flowlogs-pipeline
logs. An automatic alert in the web console notifies you when these limits are reached.
Here is an example of configured limits:
spec:
limits:
global:
ingestion:
ingestionBurstSize: 40
ingestionRate: 20
maxGlobalStreamsPerTenant: 25000
queries:
maxChunksPerQuery: 2000000
maxEntriesLimitPerQuery: 10000
maxQuerySeries: 3000
For more information about these settings, see the LokiStack API reference.
Multi-tenancy in the Network Observability Operator allows and restricts individual user access, or group access, to the flows stored in Loki. Access is enabled for project admins. Project admins who have limited access to some namespaces can access flows for only those namespaces.
You have installed at least Loki Operator version 5.7
You must be logged in as a project administrator
Authorize reading permission to user1
by running the following command:
$ oc adm policy add-cluster-role-to-user netobserv-reader user1
Now, the data is restricted to only allowed user namespaces. For example, a user that has access to a single namespace can see all the flows internal to this namespace, as well as flows going from and to this namespace. Project admins have access to the Administrator perspective in the OpenShift Container Platform console to access the Network Flows Traffic page.
You can install the Network Observability Operator using the OpenShift Container Platform web console Operator Hub. When you install the Operator, it provides the FlowCollector
custom resource definition (CRD). You can set specifications in the web console when you create the FlowCollector
.
The actual memory consumption of the Operator depends on your cluster size and the number of resources deployed. Memory consumption might need to be adjusted accordingly. For more information refer to "Network Observability controller manager pod runs out of memory" in the "Important Flow Collector configuration considerations" section. |
If you choose to use Loki, install the Loki Operator version 5.7+.
You must have cluster-admin
privileges.
One of the following supported architectures is required: amd64
, ppc64le
, arm64
, or s390x
.
Any CPU supported by Red Hat Enterprise Linux (RHEL) 9.
Must be configured with OVN-Kubernetes or OpenShift SDN as the main network plugin, and optionally using secondary interfaces with Multus and SR-IOV.
Additionally, this installation example uses the |
In the OpenShift Container Platform web console, click Operators → OperatorHub.
Choose Network Observability Operator from the list of available Operators in the OperatorHub, and click Install.
Select the checkbox Enable Operator recommended cluster monitoring on this Namespace
.
Navigate to Operators → Installed Operators. Under Provided APIs for Network Observability, select the Flow Collector link.
Navigate to the Flow Collector tab, and click Create FlowCollector. Make the following selections in the form view:
spec.agent.ebpf.Sampling: Specify a sampling size for flows. Lower sampling sizes will have higher impact on resource utilization. For more information, see the "FlowCollector API reference", spec.agent.ebpf
.
If you are using Loki, set the following specifications:
spec.loki.mode: Set this to the LokiStack
mode, which automatically sets URLs, TLS, cluster roles and a cluster role binding, as well as the authToken
value. Alternatively, the Manual
mode allows more control over configuration of these settings.
spec.loki.lokistack.name: Set this to the name of your LokiStack
resource. In this documentation, loki
is used.
Optional: If you are in a large-scale environment, consider configuring the FlowCollector
with Kafka for forwarding data in a more resilient, scalable way. See "Configuring the Flow Collector resource with Kafka storage" in the "Important Flow Collector configuration considerations" section.
Optional: Configure other optional settings before the next step of creating the FlowCollector
. For example, if you choose not to use Loki, then you can configure exporting flows to Kafka or IPFIX. See "Export enriched network flow data to Kafka and IPFIX" and more in the "Important Flow Collector configuration considerations" section.
Click Create.
To confirm this was successful, when you navigate to Observe you should see Network Traffic listed in the options.
In the absence of Application Traffic within the OpenShift Container Platform cluster, default filters might show that there are "No results", which results in no visual flow. Beside the filter selections, select Clear all filters to see the flow.
Once you create the FlowCollector
instance, you can reconfigure it, but the pods are terminated and recreated again, which can be disruptive. Therefore, you can consider configuring the following options when creating the FlowCollector
for the first time:
For more general information about Flow Collector specifications and the Network Observability Operator architecture and resource use, see the following resources:
The Kafka Operator is supported for large scale environments. Kafka provides high-throughput and low-latency data feeds for forwarding network flow data in a more resilient, scalable way. You can install the Kafka Operator as Red Hat AMQ Streams from the Operator Hub, just as the Loki Operator and Network Observability Operator were installed. Refer to "Configuring the FlowCollector resource with Kafka" to configure Kafka as a storage option.
To uninstall Kafka, refer to the uninstallation process that corresponds with the method you used to install. |
You can uninstall the Network Observability Operator using the OpenShift Container Platform web console Operator Hub, working in the Operators → Installed Operators area.
Remove the FlowCollector
custom resource.
Click Flow Collector, which is next to the Network Observability Operator in the Provided APIs column.
Click the options menu for the cluster and select Delete FlowCollector.
Uninstall the Network Observability Operator.
Navigate back to the Operators → Installed Operators area.
Click the options menu next to the Network Observability Operator and select Uninstall Operator.
Home → Projects and select openshift-netobserv-operator
Navigate to Actions and select Delete Project
Remove the FlowCollector
custom resource definition (CRD).
Navigate to Administration → CustomResourceDefinitions.
Look for FlowCollector and click the options menu .
Select Delete CustomResourceDefinition.
The Loki Operator and Kafka remain if they were installed and must be removed separately. Additionally, you might have remaining data stored in an object store, and a persistent volume that must be removed. |