migration-from-sck.md

Migration from Splunk Connect for Kubernetes

Assumptions

You are running Splunk Connect for Kubernetes (SCK) 1.4.9 and want to migrate to Splunk OpenTelemetry Collector for Kubernetes. Previous versions of the SCK are out of scope, but this guide still applies. You might encounter some version specific issues (such as missing/changed config options) but that shouldn't prevent you from proceeding with migration.

Changes in components

SCK has 3 components/applications:

1. Logs, metrics, and traces from a Kubernetes cluster (deployed as a DaemonSet)
2. Application to fetch cluster metrics from a Kubernetes cluster (deployed as a deployment)
3. Application to fetch Kubernetes objects metadata from a Kubernetes cluster (deployed as a deployment)

All SCK applications use Fluentd to work with logs, metrics, and objects. Fluentd has significant performance issues when used to fetch logs in a Kubernetes cluster with pods that have very high throughput.

Splunk OpenTelemetry Collector for Kubernetes provides significant performance improvements over the SCK through use of the OpenTelemetry Collector agent and native OpenTelemetry functionality for logs collection rather than Fluentd. See Performance of native OpenTelemetry logs collection to learn more about the performance characteristics of this new application.

Splunk OpenTelemetry Collector for Kubernetes has the following components and applications:

1. Splunk OpenTelemetry Collector Agent (agent) to fetch logs, metrics, and traces from a Kubernetes cluster (deployed as a Kubernetes DaemonSet)
2. Splunk OpenTelemetry Collector Cluster Receiver (clusterReceiver) to fetch metrics from a Kubernetes API (deployed as a Kubernetes 1-replica Deployment)
3. Optional Splunk OpenTelemetry Collector Gateway (gateway) to forward data through it to reduce load on Kubernetes API and apply additional processing (deployed as a Kubernetes Deployment)

There is no application available for fetching Kubernetes objects metadata from a Kubernetes cluster.

Changes in logs in Splunk OpenTelemetry Collector for Kubernetes

• Red Hat Universal Base Image (UBI) Docker images for our applications are no longer available, as we now use scratch images.
• AWS FireLens is not supported.

Changes in metrics in Splunk OpenTelemetry Collector for Kubernetes

• The naming convention of the metrics used in Splunk OpenTelemetry Collector for Kubernetes follows the OpenTelemetry specification and is different than SCK. You will observe minor differences in the names of the metrics.
• Previously in SCK, you could get a large number of metrics from various APIs for Kubernetes. However, in recent versions of Kubernetes 1.18+, these API sources are disabled by default and there are fewer metrics available. See Metrics Information for the previous list of metrics.

Some additional metrics that are available in Splunk OpenTelemetry Collector for Kubernetes are metrics about the OpenTelemetry Collector itself.

These are the metrics available in Splunk OpenTelemetry Collector for Kubernetes:

• container.cpu.time
• container.cpu.utilization
• container.filesystem.available
• container.filesystem.capacity
• container.filesystem.usage
• container.memory.available
• container.memory.major_page_faults
• container.memory.page_faults
• container.memory.rss
• container.memory.usage
• container.memory.working_set
• k8s.container.cpu_limit
• k8s.container.cpu_request
• k8s.container.memory_limit
• k8s.container.memory_request
• k8s.container.ready
• k8s.container.restarts
• k8s.daemonset.current_scheduled_nodes
• k8s.daemonset.desired_scheduled_nodes
• k8s.daemonset.misscheduled_nodes
• k8s.daemonset.ready_nodes
• k8s.deployment.available
• k8s.deployment.desired
• k8s.namespace.phase
• k8s.node.condition_ready
• k8s.node.cpu.time
• k8s.node.cpu.utilization
• k8s.node.filesystem.available
• k8s.node.filesystem.capacity
• k8s.node.filesystem.usage
• k8s.node.memory.available
• k8s.node.memory.major_page_faults
• k8s.node.memory.page_faults
• k8s.node.memory.rss
• k8s.node.memory.usage
• k8s.node.memory.working_set
• k8s.node.network.errors
• k8s.node.network.io
• k8s.pod.cpu.time
• k8s.pod.cpu.utilization
• k8s.pod.filesystem.available
• k8s.pod.filesystem.capacity
• k8s.pod.filesystem.usage
• k8s.pod.memory.available
• k8s.pod.memory.major_page_faults
• k8s.pod.memory.page_faults
• k8s.pod.memory.rss
• k8s.pod.memory.usage
• k8s.pod.memory.working_set
• k8s.pod.network.errors
• k8s.pod.network.io
• k8s.pod.phase
• k8s.replicaset.available
• k8s.replicaset.desired
• otelcol_exporter_queue_size
• otelcol_exporter_send_failed_log_records
• otelcol_exporter_send_failed_metric_points
• otelcol_exporter_sent_log_records
• otelcol_exporter_sent_metric_points
• otelcol_otelsvc_k8s_ip_lookup_miss
• otelcol_otelsvc_k8s_namespace_added
• otelcol_otelsvc_k8s_namespace_updated
• otelcol_otelsvc_k8s_pod_added
• otelcol_otelsvc_k8s_pod_table_size
• otelcol_otelsvc_k8s_pod_updated
• otelcol_process_cpu_seconds
• otelcol_process_memory_rss
• otelcol_process_runtime_heap_alloc_bytes
• otelcol_process_runtime_total_alloc_bytes
• otelcol_process_runtime_total_sys_memory_bytes
• otelcol_process_uptime
• otelcol_processor_accepted_log_records
• otelcol_processor_accepted_metric_points
• otelcol_processor_batch_batch_send_size_bucket
• otelcol_processor_batch_batch_send_size_count
• otelcol_processor_batch_batch_send_size_sum
• otelcol_processor_batch_timeout_trigger_send
• otelcol_processor_dropped_log_records
• otelcol_processor_dropped_metric_points
• otelcol_processor_refused_log_records
• otelcol_processor_refused_metric_points
• otelcol_receiver_accepted_metric_points
• otelcol_receiver_refused_metric_points
• otelcol_scraper_errored_metric_points
• otelcol_scraper_scraped_metric_points
• scrape_duration_seconds
• scrape_samples_post_metric_relabeling
• scrape_samples_scraped
• scrape_series_added
• system.cpu.load_average.15m
• system.cpu.load_average.1m
• system.cpu.load_average.5m
• system.cpu.time
• system.disk.io
• system.disk.io_time
• system.disk.merged
• system.disk.operation_time
• system.disk.operations
• system.disk.pending_operations
• system.disk.weighted_io_time
• system.filesystem.inodes.usage
• system.filesystem.usage
• system.memory.usage
• system.network.connections
• system.network.dropped
• system.network.errors
• system.network.io
• system.network.packets
• system.paging.faults
• system.paging.operations
• system.paging.usage
• system.processes.count
• system.processes.created
• up

Changes in objects in Splunk OpenTelemetry Collector for Kubernetes

This chart does not support the collection of Kubernetes objects. This is future functionality. You can use SCK to collect other objects.

Migration overview

Migration options/matrix

The following table shows the options for migrating from SCK to Splunk OpenTelemetry Collector for Kubernetes:

Method	Logs	Metrics	Objects
SCK	Yes	Yes	Yes
Splunk OpenTelemetry Collector for Kubernetes	Yes	Yes	No

As shown in the table, you can acquire logs and metrics using Splunk OpenTelemetry Collector for Kubernetes. If you have objects currently deployed and need objects data, leave your current SCK objects deployment as-is (Helm command args --set="splunk-kubernetes-logging.enabled=false,splunk-kubernetes-metrics.enabled=false,splunk-kubernetes-objects.enabled=true"). This allows you to use only the SCK for objects data together with Splunk OpenTelemetry Collector for Kubernetes for logs and other telemetry data.

Checkpoint translation

With migration to the Splunk OpenTelemetry Collector for Kubernetes, the underlying framework/agent being used has changed, so there needs to be a translation for checkpoint data so that the new OpenTelemetry agent can continue where Fluentd left off. All of this occurs automatically as an initContainer when you deploy the new Helm chart in your cluster for the first time. If you are not using a custom path for checkpoint for fluentd, it should just work with default configurations for this new Helm chart.

To migrate Fluentd's position files again:

1. Stop the OpenTelemetry DaemonSet by deleting deployed Helm chart.
2. Delete the OpenTelemetry checkpoint files in the "/var/addon/splunk/otel_pos/" directory from Kubernetes nodes.
3. Restart the new Helm chart DaemonSet.

Step 1: Preparing your values.yaml file for migration

Translate the values.yaml file from SCK to an appropriate format for Splunk OpenTelemetry Collector for Kubernetes. The following are the configurations for SCK and Splunk OpenTelemetry Collector for Kubernetes:

• SCK configuration
• Splunk OpenTelemetry Collector for Kubernetes configuration

Translating global/generic/splunk configurations from SCK to Splunk OpenTelemetry Collector for Kubernetes

Specifying your Splunk Platform and HTTP Event Collector (HEC) configuration

You can combine the host, port and protocol options from SCK to use the splunkPlatform.endpoint option in Splunk OpenTelemetry Collector for Kubernetes.

This option uses this format: "http://X.X.X.X:8088/services/collector" which is interpreted as "protocol://host:port/services/collector".

If you are using the clientCert, clientKey, and caFile options from SCK, use the corresponding clientCert, clientKey, and caFile options under splunkPlatform in Splunk OpenTelemetry Collector for Kubernetes to specify your HEC certificate chain.

If you are using the insecureSSL option from SCK, use the splunkPlatform.insecureSkipVerify option in Splunk OpenTelemetry Collector for Kubernetes to specify whether to verify the certificates on HEC.

If you are using the indexName option from SCK, use the splunkPlatform.index option in Splunk OpenTelemetry Collector for Kubernetes to specify which index you want to index data into

Translating custom configurations from SCK to Splunk OpenTelemetry Collector for Kubernetes for logs

You can find all the configuration options used to upgrade in the values.yaml files linked above for both SCK and Splunk OpenTelemetry Collector for Kubernetes.

Container runtimes

If you configured SCK to explicitly set any of the following, you can do the same with Splunk OpenTelemetry Collector for Kubernetes:

• Set the logsCollection.containers.containerRuntime to a value from CRI-O, containerd, or Docker, depending on your runtime.
• Set the path option to the location of your logs on your nodes.
• If using the exclude_path option from SCK, you can use the logsCollection.containers.excludePaths option in Splunk OpenTelemetry Collector for Kubernetes to exclude any logs you want.
• If using the logs option to define multiline configs in SCK, you can use the logsCollection.containers.multilineConfigs option in Splunk OpenTelemetry Collector for Kubernetes to concatenate multiline logs.
• If using the checkpointFile option in SCK to define a custom location for checkpointing your logs, you can also do so with the logsCollection.checkpointPath option in Splunk OpenTelemetry Collector for Kubernetes.
• If using the log option to ingest any other logs from your nodes, you can also do so with the logsCollection.extraFileLogs option in Splunk OpenTelemetry Collector for Kubernetes.

Cluster name

If you are using the clusterName option to set a cluster name metadata field in your logs in SCK, you can also use the clusterName option in Splunk OpenTelemetry Collector for Kubernetes.

Pod security context

If you are using the podSecurityContext option to set a pod security policy, you can use the agent.securityContext option in Splunk OpenTelemetry Collector for Kubernetes.

Custom metadata

If you are using the customMetadata option to set a custom metadata field in your logs in SCK, you can use the extraAttributes.custom option in Splunk OpenTelemetry Collector for Kubernetes.

Custom annotations

If you are using the customMetadataAnnotations option to set custom annotation fields in your logs in SCK, you can use the extraAttributes.fromAnnotations option in Splunk OpenTelemetry Collector for Kubernetes.

Pod scheduling configurations

If you are using any pod scheduling operations such as nodeSelector, affinity, and tolerations in SCK, you can use the nodeSelector, affinity and tolerations options in Splunk OpenTelemetry Collector for Kubernetes.

Service accounts

If you are using the serviceAccount option to use your own service accounts in SCK, you can use the serviceAccount option in Splunk OpenTelemetry Collector for Kubernetes.

Secrets

If you are using the secret option to use your own service accounts in SCK, you can use the secret option in Splunk OpenTelemetry Collector for Kubernetes.

Custom Docker image and pull secrets

If you are using custom Docker images, tags, pull secrets, and pull policy in SCK, you can achieve the same using the image option in Splunk OpenTelemetry Collector for Kubernetes to specify the relevant configs for using docker images.

Limiting or increasing application resources

If you are using the resources option in SCK to limit/increase the CPU and memory usage in SCK, you can do the same using the agent.resources option in Splunk OpenTelemetry Collector for Kubernetes.

Extra files from host

For tailing files other than container or journald logs (that is, kube audit logs), configure logsCollection.extraFileLogs using this filelog receiver configuration.

[SCK values.yaml snippet]

logs:
  kube-audit:
    from:
      file:
        path: /var/log/kube-apiserver-audit.log
    timestampExtraction:
      format: "%Y-%m-%dT%H:%M:%SZ"
    sourcetype: kube:apiserver-audit

[Splunk OpenTelemetry Collector for Kubernetes values.yaml snippet]

logsCollection:
  extraFileLogs:
    filelog/kube-audit:
      include: [/var/log/kube-apiserver-audit.log]
      start_at: beginning
      include_file_path: true
      include_file_name: false
      resource:
        service.name: /var/log/kube-apiserver-audit.log
        host.name: 'EXPR(env("K8S_NODE_NAME"))'
        com.splunk.sourcetype: kube:apiserver-audit

Use the kube-audit keyword to continue reading from the translated checkpoint data.

Translating custom configurations from SCK to Splunk OpenTelemetry Collector for Kubernetes for metrics

Limiting or increasing application resources"

If you are using the resources option in SCK to limit/increase the CPU and memory usage in SCK, you can do the same using the resources option in clusterReceiver section in Splunk OpenTelemetry Collector for Kubernetes.

Pod scheduling configurations

If you are using any pod scheduling operations such as nodeSelector, affinity, and tolerations in SCK, you can use the clusterReceiver.nodeSelector, clusterReceiver.affinity and clusterReceiver.tolerations options in Splunk OpenTelemetry Collector for Kubernetes.

Pod security context

If you are using the podSecurityContext option to set a pod security policy, you can use the clusterReceiver.securityContext option in Splunk OpenTelemetry Collector for Kubernetes.

Custom annotations

If you are using the customMetadataAnnotations option to set a custom annotation fields in your logs in SCK, you can use the extraAttributes.fromAnnotations option in Splunk OpenTelemetry Collector for Kubernetes.

(Optional) Step 2: Delete SCK Deployment

To delete the SCK deployment, find the name of the deployment using the helm ls command.

• If you want to delete only logs and metrics

  • Update the values.yaml file used to deploy SCK to disable objects and run the following command:

  • helm upgrade local-k8s -f your-values-file.yaml splunk/splunk-connect-for-kubernetes

• If you want to delete only logs

  • Update the values.yaml file used to deploy SCK to disable objects and run the following command:

  • helm upgrade local-k8s -f your-values-file.yaml splunk/splunk-connect-for-kubernetes

• If you want to delete your entire SCK deployment (logs, objects and metrics), run the following command

  • helm delete local-k8s

Step 3: Installing Splunk OpenTelemetry Collector for Kubernetes

• See How to install for the instructions.

Step 4: Check data in Splunk

• Check the logs index to see if you are receiving logs from your Kubernetes cluster
  • index="Your logs index"
• Check the metrics index to see if you are receiving metrics from your Kubernetes cluster
  • | mcatalog values(metric_name) WHERE index="Your metrics index"