Strimzi can be upgraded to version 0.26.0 to take advantage of new features and enhancements, performance improvements, and security options.
As part of the upgrade, you upgrade Kafka to the latest supported version.
Each Kafka release introduces new features, improvements, and bug fixes to your Strimzi deployment.
Strimzi can be downgraded to the previous version if you encounter issues with the newer version.
Upgrade paths
Two upgrade paths are possible:
- Incremental
-
Upgrading Strimzi from the previous minor version to version 0.26.0.
- Multi-version
-
Upgrading Strimzi from an old version to version 0.26.0 within a single upgrade (skipping one or more intermediate versions).
For example, upgrading from Strimzi 0.20.0 directly to Strimzi 0.22.
Upgrading from a version earlier than 0.22
The v1beta2
API version for all custom resources was introduced with Strimzi 0.22.
For Strimzi 0.23 and newer, the v1alpha1
and v1beta1
API versions were removed from all Strimzi custom resources apart from KafkaTopic
and KafkaUser
.
If you are upgrading from a Strimzi version prior to version 0.22:
-
Upgrade Strimzi to 0.22
-
Convert the custom resources to v1beta2
-
Upgrade Strimzi to 0.23 or newer
Note
|
As an alternative, you can install the custom resources from version 0.22, convert the resources, and then upgrade to 0.23 or newer.
|
Kafka version support
You can review supported Kafka versions in the Supported versions table.
-
The Operators column lists all released Strimzi versions (the Strimzi version is often called the "Operator version").
-
The Kafka versions column lists the supported Kafka versions for each Strimzi version.
Decide which Kafka version to upgrade to before beginning the Strimzi upgrade process.
Note
|
You can upgrade to a higher Kafka version as long as it is supported by your version of Strimzi.
In some cases, you can also downgrade to a previous supported Kafka version.
|
Downtime and availability
If topics are configured for high availability, upgrading Strimzi should not cause any downtime for consumers and producers that publish and read data from those topics.
Highly available topics have a replication factor of at least 3 and partitions distributed evenly among the brokers.
Upgrading Strimzi triggers rolling updates, where all brokers are restarted in turn, at different stages of the process.
During rolling updates, not all brokers are online, so overall cluster availability is temporarily reduced.
A reduction in cluster availability increases the chance that a broker failure will result in lost messages.
To upgrade brokers and clients without downtime, you must complete the Strimzi upgrade procedures in the following order:
-
Make sure your Kubernetes cluster version is supported.
Strimzi 0.26.0 requires Kubernetes 1.16 and later.
-
When upgrading from 0.22 or earlier, update existing custom resources to support the v1beta2
API version.
-
Update your Cluster Operator to a new Strimzi version.
-
If you deployed the Cluster Operator using the installation YAML files, perform your upgrade by modifying the Operator installation files, as described in Upgrading the Cluster Operator.
-
If you deployed the Cluster Operator from OperatorHub.io, use the Operator Lifecycle Manager (OLM) to change the update channel for the Strimzi Operators to a new Strimzi version.
Depending on your chosen upgrade strategy, after updating the channel, either:
-
If you deployed the Cluster Operator using a Helm chart, use helm upgrade
.
The helm upgrade
command does not upgrade the Custom Resource Definitions for Helm.
Install the new CRDs manually after upgrading the Cluster Operator.
You can access the CRDs from GitHub or find them in the crd
subdirectory inside the Helm Chart.
-
Upgrade all Kafka brokers and client applications to the latest supported Kafka version.
Optional: incremental cooperative rebalance upgrade
Consider upgrading consumers and Kafka Streams applications to use the incremental cooperative rebalance protocol for partition rebalances.
When performing your upgrade, you’ll want to keep your Kafka clusters available.
You can employ one of the following strategies:
-
Configuring pod disruption budgets
-
Rolling pods by one of these methods:
-
Using the Strimzi Drain Cleaner
-
Manually by applying an annotation to your pod
You have to configure the pod disruption budget before using one of the methods to roll your pods.
For Kafka to stay operational, topics must also be replicated for high availability.
This requires topic configuration that specifies a replication factor of at least 3 and a minimum number of in-sync replicas to 1 less than the replication factor.
Kafka topic replicated for high availability
apiVersion: kafka.strimzi.io/v1beta2
kind: KafkaTopic
metadata:
name: my-topic
labels:
strimzi.io/cluster: my-cluster
spec:
partitions: 1
replicas: 1
config:
# ...
default.replication.factor: 3
min.insync.replicas: 2
# ...
In a highly available environment, the Cluster Operator maintains a minimum number of in-sync replicas for topics during the upgrade process so that there is no downtime.
You can use the Strimzi Drain Cleaner tool to evict nodes during an upgrade.
The Strimzi Drain Cleaner annotates pods with a rolling update pod annotation.
This informs the Cluster Operator to perform a rolling update of an evicted pod.
A pod disruption budget allows only a specified number of pods to be unavailable at a given time.
During planned maintenance of Kafka broker pods, a pod disruption budget ensures Kafka continues to run in a highly available environment.
You specify a pod disruption budget using a template
customization for a Kafka component.
By default, pod disruption budgets allow only a single pod to be unavailable at a given time.
To do this, you set maxUnavailable
to 0 (zero).
Reducing the maximum pod disruption budget to zero prevents voluntary disruptions, so pods must be evicted manually.
Specifying a pod disruption budget
apiVersion: kafka.strimzi.io/v1beta2
kind: Kafka
metadata:
name: my-cluster
namespace: myproject
spec:
kafka:
# ...
template:
podDisruptionBudget:
maxUnavailable: 0
# ...
During an upgrade, you can trigger a manual rolling update of pods through the Cluster Operator.
Using Pod
resources, rolling updates restart the pods of resources with new pods.
As with using the Strimzi Drain Cleaner, you’ll need to set the maxUnavailable
value to zero for the pod disruption budget.
You need to watch the pods that need to be drained.
You then add a pod annotation to make the update.
Here, the annotation updates a Kafka broker.
Performing a manual rolling update on a Kafka broker pod
kubectl annotate pod <cluster_name>-kafka-<index> strimzi.io/manual-rolling-update=true
You replace <cluster_name> with the name of the cluster.
Kafka broker pods are named <cluster-name>-kafka-<index>, where <index> starts at zero and ends at the total number of replicas minus one.
For example, my-cluster-kafka-0
.
When upgrading Strimzi to 0.26.0 from 0.22 or earlier, you must ensure that your custom resources are using API version v1beta2
.
You must upgrade the Custom Resource Definitions and the custom resources before upgrading to Strimzi 0.23 or newer.
To perform the upgrade, you can use the API conversion tool provided with Strimzi 0.24.
For more information, see the Strimzi 0.24.0 upgrade documentation.
This procedure describes how to upgrade a Cluster Operator deployment to use Strimzi 0.26.0.
Follow this procedure if you deployed the Cluster Operator using the installation YAML files rather than OperatorHub.io.
The availability of Kafka clusters managed by the Cluster Operator is not affected by the upgrade operation.
Note
|
Refer to the documentation supporting a specific version of Strimzi for information on how to upgrade to that version.
|
Procedure
-
Take note of any configuration changes made to the existing Cluster Operator resources (in the /install/cluster-operator
directory).
Any changes will be overwritten by the new version of the Cluster Operator.
-
Update your custom resources to reflect the supported configuration options available for Strimzi version 0.26.0.
-
Update the Cluster Operator.
-
Modify the installation files for the new Cluster Operator version according to the namespace the Cluster Operator is running in.
sed -i 's/namespace: .*/namespace: my-cluster-operator-namespace/' install/cluster-operator/*RoleBinding*.yaml
sed -i '' 's/namespace: .*/namespace: my-cluster-operator-namespace/' install/cluster-operator/*RoleBinding*.yaml
-
If you modified one or more environment variables in your existing Cluster Operator Deployment
, edit the
install/cluster-operator/060-Deployment-strimzi-cluster-operator.yaml
file to use those environment variables.
-
When you have an updated configuration, deploy it along with the rest of the installation resources:
kubectl replace -f install/cluster-operator
Wait for the rolling updates to complete.
-
If the new Operator version no longer supports the Kafka version you are upgrading from, the Cluster Operator returns a "Version not found" error message.
Otherwise, no error message is returned.
"Version 2.4.0 is not supported. Supported versions are: 2.6.0, 2.6.1, 2.7.0."
-
If the error message is returned, upgrade to a Kafka version that is supported by the new Cluster Operator version:
-
Edit the Kafka
custom resource.
-
Change the spec.kafka.version
property to a supported Kafka version.
-
If the error message is not returned, go to the next step.
You will upgrade the Kafka version later.
-
Get the image for the Kafka pod to ensure the upgrade was successful:
kubectl get pods my-cluster-kafka-0 -o jsonpath='{.spec.containers[0].image}'
The image tag shows the new Operator version. For example:
quay.io/strimzi/kafka:0.26.0-kafka-3.0.0
Your Cluster Operator was upgraded to version 0.26.0 but the version of Kafka running in the cluster it manages is unchanged.
Following the Cluster Operator upgrade, you must perform a Kafka upgrade.
After you have upgraded your Cluster Operator to 0.26.0, the next step is to upgrade all Kafka brokers to the latest supported version of Kafka.
Kafka upgrades are performed by the Cluster Operator through rolling updates of the Kafka brokers.
The Cluster Operator initiates rolling updates based on the Kafka cluster configuration.
If Kafka.spec.kafka.config contains… |
The Cluster Operator initiates… |
Both the inter.broker.protocol.version and the log.message.format.version . |
A single rolling update. After the update, the inter.broker.protocol.version must be updated manually, followed by log.message.format.version .
Changing each will trigger a further rolling update. |
Either the inter.broker.protocol.version or the log.message.format.version . |
Two rolling updates. |
No configuration for the inter.broker.protocol.version or the log.message.format.version . |
Two rolling updates. |
As part of the Kafka upgrade, the Cluster Operator initiates rolling updates for ZooKeeper.
Kafka’s log message format version and inter-broker protocol version specify, respectively, the log format version appended to messages and the version of the Kafka protocol used in a cluster.
To ensure the correct versions are used, the upgrade process involves making configuration changes to existing Kafka brokers and code changes to client applications (consumers and producers).
The following table shows the differences between Kafka versions:
Kafka version |
Interbroker protocol version |
Log message format version |
ZooKeeper version |
2.8.0 |
2.8 |
2.8 |
3.5.9 |
2.8.1 |
2.8 |
2.8 |
3.5.9 |
3.0.0 |
3.0 |
3.0 |
3.6.3 |
Inter-broker protocol version
In Kafka, the network protocol used for inter-broker communication is called the inter-broker protocol.
Each version of Kafka has a compatible version of the inter-broker protocol.
The minor version of the protocol typically increases to match the minor version of Kafka, as shown in the preceding table.
The inter-broker protocol version is set cluster wide in the Kafka
resource.
To change it, you edit the inter.broker.protocol.version
property in Kafka.spec.kafka.config
.
Log message format version
When a producer sends a message to a Kafka broker, the message is encoded using a specific format.
The format can change between Kafka releases, so messages specify which version of the format they were encoded with. You can configure a Kafka broker to convert messages from newer format versions to a given older format version before the broker appends the message to the log.
In Kafka, there are two different methods for setting the message format version:
The default value of message.format.version
for a topic is defined by the log.message.format.version
that is set on the Kafka broker. You can manually set the message.format.version
of a topic by modifying its topic configuration.
The upgrade tasks in this section assume that the message format version is defined by the log.message.format.version
.
The right approach to upgrading your client applications (including Kafka Connect connectors) depends on your particular circumstances.
Consuming applications need to receive messages in a message format that they understand. You can ensure that this is the case in one of two ways:
Using broker down-conversion puts extra load on the brokers, so it is not ideal to rely on down-conversion for all topics for a prolonged period of time.
For brokers to perform optimally they should not be down converting messages at all.
Broker down-conversion is configured in two ways:
-
The topic-level message.format.version
configures it for a single topic.
-
The broker-level log.message.format.version
is the default for topics that do not have the topic-level message.format.version
configured.
Messages published to a topic in a new-version format will be visible to consumers, because brokers perform down-conversion when they receive messages from producers, not when they are sent to consumers.
There are a number of strategies you can use to upgrade your clients:
- Consumers first
-
-
Upgrade all the consuming applications.
-
Change the broker-level log.message.format.version
to the new version.
-
Upgrade all the producing applications.
This strategy is straightforward, and avoids any broker down-conversion.
However, it assumes that all consumers in your organization can be upgraded in a coordinated way, and it does not work for applications that are both consumers and producers.
There is also a risk that, if there is a problem with the upgraded clients, new-format messages might get added to the message log so that you cannot revert to the previous consumer version.
- Per-topic consumers first
-
For each topic:
-
Upgrade all the consuming applications.
-
Change the topic-level message.format.version
to the new version.
-
Upgrade all the producing applications.
This strategy avoids any broker down-conversion, and means you can proceed on a topic-by-topic basis. It does not work for applications that are both consumers and producers of the same topic. Again, it has the risk that, if there is a problem with the upgraded clients, new-format messages might get added to the message log.
- Per-topic consumers first, with down conversion
-
For each topic:
-
Change the topic-level message.format.version
to the old version
(or rely on the topic defaulting to the broker-level log.message.format.version
).
-
Upgrade all the consuming and producing applications.
-
Verify that the upgraded applications function correctly.
-
Change the topic-level message.format.version
to the new version.
This strategy requires broker down-conversion, but the load on the brokers is minimized because it is only required for a single topic (or small group of topics) at a time. It also works for applications that are both consumers and producers of the same topic. This approach ensures that the upgraded producers and consumers are working correctly before you commit to using the new message format version.
The main drawback of this approach is that it can be complicated to manage in a cluster with many topics and applications.
Other strategies for upgrading client applications are also possible.
Note
|
It is also possible to apply multiple strategies.
For example, for the first few applications and topics the
"per-topic consumers first, with down conversion" strategy can be used.
When this has proved successful another, more efficient strategy can be considered acceptable to use instead.
|
When upgrading Kafka, consider your settings for the STRIMZI_KAFKA_IMAGES
environment variable and the Kafka.spec.kafka.version
property.
-
Each Kafka
resource can be configured with a Kafka.spec.kafka.version
.
-
The Cluster Operator’s STRIMZI_KAFKA_IMAGES
environment variable provides a mapping between the Kafka version and the image to be used when that version is requested in a given Kafka
resource.
-
If Kafka.spec.kafka.image
is not configured, the default image for the given version is used.
-
If Kafka.spec.kafka.image
is configured, the default image is overridden.
Warning
|
The Cluster Operator cannot validate that an image actually contains a Kafka broker of the expected version.
Take care to ensure that the given image corresponds to the given Kafka version.
|
This procedure describes how to upgrade a Strimzi Kafka cluster to the latest supported Kafka version.
Compared to your current Kafka version, the new version might support a higher log message format version or inter-broker protocol version, or both.
Follow the steps to upgrade these versions, if required.
For more information, see Kafka versions.
Prerequisites
For the Kafka
resource to be upgraded, check that:
-
The Cluster Operator, which supports both versions of Kafka, is up and running.
-
The Kafka.spec.kafka.config
does not contain options that are not supported in the new Kafka version.
Procedure
-
Update the Kafka cluster configuration:
kubectl edit kafka my-cluster
-
If configured, ensure that Kafka.spec.kafka.config
has the log.message.format.version
and inter.broker.protocol.version
set to the defaults for the current Kafka version.
For example, if upgrading from Kafka version 2.8.0 to 3.0.0:
kind: Kafka
spec:
# ...
kafka:
version: 2.8.0
config:
log.message.format.version: "2.8"
inter.broker.protocol.version: "2.8"
# ...
If log.message.format.version
and inter.broker.protocol.version
are not configured,
Strimzi automatically updates these versions to the current defaults after the update to the Kafka version in the next step.
Note
|
The value of log.message.format.version and inter.broker.protocol.version must be strings to prevent them from being interpreted as floating point numbers.
|
-
Change the Kafka.spec.kafka.version
to specify the new Kafka version; leave the log.message.format.version
and inter.broker.protocol.version
at the defaults for the current Kafka version.
Note
|
Changing the kafka.version ensures that all brokers in the cluster will be upgraded to start using the new broker binaries.
During this process, some brokers are using the old binaries while others have already upgraded to the new ones.
Leaving the inter.broker.protocol.version unchanged ensures that the brokers can continue to communicate with each other throughout the upgrade.
|
For example, if upgrading from Kafka 2.8.0 to 3.0.0:
apiVersion: kafka.strimzi.io/v1beta2
kind: Kafka
spec:
# ...
kafka:
version: 3.0.0 (1)
config:
log.message.format.version: "2.8" (2)
inter.broker.protocol.version: "2.8" (3)
# ...
-
Kafka version is changed to the new version.
-
Message format version is unchanged.
-
Inter-broker protocol version is unchanged.
Warning
|
You cannot downgrade Kafka if the inter.broker.protocol.version for the new Kafka version changes. The inter-broker protocol version determines the schemas used for persistent metadata stored by the broker, including messages written to __consumer_offsets . The downgraded cluster will not understand the messages.
|
-
If the image for the Kafka cluster is defined in the Kafka custom resource, in Kafka.spec.kafka.image
, update the image
to point to a container image with the new Kafka version.
-
Save and exit the editor, then wait for rolling updates to complete.
Check the progress of the rolling updates by watching the pod state transitions:
kubectl get pods my-cluster-kafka-0 -o jsonpath='{.spec.containers[0].image}'
The rolling updates ensure that each pod is using the broker binaries for the new version of Kafka.
-
Depending on your chosen strategy for upgrading clients, upgrade all client applications to use the new version of the client binaries.
If required, set the version
property for Kafka Connect and MirrorMaker as the new version of Kafka:
-
For Kafka Connect, update KafkaConnect.spec.version
.
-
For MirrorMaker, update KafkaMirrorMaker.spec.version
.
-
For MirrorMaker 2.0, update KafkaMirrorMaker2.spec.version
.
-
If configured, update the Kafka resource to use the new inter.broker.protocol.version
version. Otherwise, go to step 9.
For example, if upgrading to Kafka 3.0.0:
apiVersion: kafka.strimzi.io/v1beta2
kind: Kafka
spec:
# ...
kafka:
version: 3.0.0
config:
log.message.format.version: "2.8"
inter.broker.protocol.version: "3.0"
# ...
-
Wait for the Cluster Operator to update the cluster.
-
If configured, update the Kafka resource to use the new log.message.format.version
version. Otherwise, go to step 10.
For example, if upgrading to Kafka 3.0.0:
apiVersion: kafka.strimzi.io/v1beta2
kind: Kafka
spec:
# ...
kafka:
version: 3.0.0
config:
log.message.format.version: "3.0"
inter.broker.protocol.version: "3.0"
# ...
-
Wait for the Cluster Operator to update the cluster.
-
The Kafka cluster and clients are now using the new Kafka version.
-
The brokers are configured to send messages using the inter-broker protocol version and message format version of the new version of Kafka.
Following the Kafka upgrade, if required, you can:
You can upgrade Kafka consumers and Kafka Streams applications to use the incremental cooperative rebalance protocol for partition rebalances instead of the default eager rebalance protocol. The new protocol was added in Kafka 2.4.0.
Consumers keep their partition assignments in a cooperative rebalance and only revoke them at the end of the process, if needed to achieve a balanced cluster. This reduces the unavailability of the consumer group or Kafka Streams application.
Note
|
Upgrading to the incremental cooperative rebalance protocol is optional. The eager rebalance protocol is still supported.
|
Procedure
To upgrade a Kafka consumer to use the incremental cooperative rebalance protocol:
-
Replace the Kafka clients .jar
file with the new version.
-
In the consumer configuration, append cooperative-sticky
to the partition.assignment.strategy
. For example, if the range
strategy is set, change the configuration to range, cooperative-sticky
.
-
Restart each consumer in the group in turn, waiting for the consumer to rejoin the group after each restart.
-
Reconfigure each consumer in the group by removing the earlier partition.assignment.strategy
from the consumer configuration, leaving only the cooperative-sticky
strategy.
-
Restart each consumer in the group in turn, waiting for the consumer to rejoin the group after each restart.
To upgrade a Kafka Streams application to use the incremental cooperative rebalance protocol:
-
Replace the Kafka Streams .jar
file with the new version.
-
In the Kafka Streams configuration, set the upgrade.from
configuration parameter to the Kafka version you are upgrading from (for example, 2.3).
-
Restart each of the stream processors (nodes) in turn.
-
Remove the upgrade.from
configuration parameter from the Kafka Streams configuration.
-
Restart each consumer in the group in turn.