aws2-lambda/aws2-lambda-sink/README.adoc - camel-kafka-connector-examples - Git at Google

 # Camel-Kafka-connector AWS2 Lambda Sink

 This is an example for Camel-Kafka-connector AWS2-Lambda Sink

 ## Standalone

 ### What is needed

 - An AWS Lambda function
 - The following project here: https://github.com/oscerd/lambda-ckc

 ### Running Kafka

 ```
 $KAFKA_HOME/bin/zookeeper-server-start.sh $KAFKA_HOME/config/zookeeper.properties
 $KAFKA_HOME/bin/kafka-server-start.sh $KAFKA_HOME/config/server.properties
 $KAFKA_HOME/bin/kafka-topics.sh --create --bootstrap-server localhost:9092 --replication-factor 1 --partitions 1 --topic mytopic
 ```

 ### Setting up the needed bits and running the example

 You'll need to setup the plugin.path property in your kafka

 Open the `$KAFKA_HOME/config/connect-standalone.properties`

 and set the `plugin.path` property to your choosen location

 In this example we'll use `/home/oscerd/connectors/`

 ```
 > cd /home/oscerd/connectors/
 > wget https://repo1.maven.org/maven2/org/apache/camel/kafkaconnector/camel-aws2-lambda-kafka-connector/0.11.5/camel-aws2-lambda-kafka-connector-0.11.5-package.tar.gz
 > untar.gz camel-aws2-sns-kafka-connector-0.11.5-package.tar.gz
 ```

 ### Deploying the AWS Lambda function

 ```
 > git clone git@github.com:oscerd/lambda-ckc.git
 > cd lambda-ckc/
 > mvn clean install
 ```

 In your AWS console for Lambda service, create a new function called `hello-ckc` and deploy the `target/test-ckc.jar`

 Wait for the function to be up and running and eventually do a test through the lambda console.

 ## Setting up the connector

 Now it's time to setup the connectors

 Open the AWS2 Lambda configuration file

 ```
 name=CamelAWS2LambdaSinkConnector
 connector.class=org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector
 key.converter=org.apache.kafka.connect.storage.StringConverter
 value.converter=org.apache.kafka.connect.converters.ByteArrayConverter

 topics=mytopic

 camel.sink.path.function=hello-ckc
 camel.sink.endpoint.operation=invokeFunction

 camel.component.aws2-lambda.accessKey=xxxx
 camel.component.aws2-lambda.secretKey=yyyy
 camel.component.aws2-lambda.region=eu-west-1
 ```

 and add the correct credentials for AWS.

 Now you can run the example

 ```
 $KAFKA_HOME/bin/connect-standalone.sh $KAFKA_HOME/config/connect-standalone.properties config/CamelAWS2LambdaSinkConnector.properties
 ```

 On a different terminal run the kafka-producer and send messages to your Kafka Broker.

 ```
 >$ bin/kafka-console-producer.sh --topic test12 --broker-list localhost:9092
 >"Kafka message sent!"
 ```

 In the AWS console, in the CloudWatch Log insights section under the monitoring tabs, you should get the information about this invokation and you should see in the logs

 ```
 2020-08-07T12:32:12.282+02:00 START RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Version: $LATEST
 2020-08-07T12:32:12.321+02:00 Event received: Kafka message sent!
 2020-08-07T12:32:12.325+02:00 END RequestId: 666d2257-1a22-406e-b112-2384ceac23a3
 2020-08-07T12:32:12.325+02:00 REPORT RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Duration: 43.33 ms Billed Duration: 100 ms Memory Size: 512 MB Max Memory Used: 75 MB Init Duration: 293.52 ms
 ```

 ## Openshift

 ### What is needed

 - An AWS Lambda function
 - The following project here: https://github.com/oscerd/lambda-ckc
 - An Openshift instance

 ### Running Kafka using Strimzi Operator

 First we install the Strimzi operator and use it to deploy the Kafka broker and Kafka Connect into our OpenShift project.
 We need to create security objects as part of installation so it is necessary to switch to admin user.
 If you use Minishift, you can do it with the following command:

 [source,bash,options="nowrap"]
 ----
 oc login -u system:admin
 ----

 We will use OpenShift project `myproject`.
 If it doesn't exist yet, you can create it using following command:

 [source,bash,options="nowrap"]
 ----
 oc new-project myproject
 ----

 If the project already exists, you can switch to it with:

 [source,bash,options="nowrap"]
 ----
 oc project myproject
 ----

 We can now install the Strimzi operator into this project:

 [source,bash,options="nowrap",subs="attributes"]
 ----
 oc apply -f https://github.com/strimzi/strimzi-kafka-operator/releases/download/0.20.1/strimzi-cluster-operator-0.20.1.yaml
 ----

 Next we will deploy a Kafka broker cluster and a Kafka Connect cluster and then create a Kafka Connect image with the Debezium connectors installed:

 [source,bash,options="nowrap",subs="attributes"]
 ----
 # Deploy a single node Kafka broker
 oc apply -f https://github.com/strimzi/strimzi-kafka-operator/raw/0.20.1/examples/kafka/kafka-persistent-single.yaml

 # Deploy a single instance of Kafka Connect with no plug-in installed
 oc apply -f https://github.com/strimzi/strimzi-kafka-operator/raw/0.20.1/examples/connect/kafka-connect-s2i-single-node-kafka.yaml
 ----

 Optionally enable the possibility to instantiate Kafka Connectors through specific custom resource:
 [source,bash,options="nowrap"]
 ----
 oc annotate kafkaconnects2is my-connect-cluster strimzi.io/use-connector-resources=true
 ----

 ### Add Camel Kafka connector binaries

 Strimzi uses `Source2Image` builds to allow users to add their own connectors to the existing Strimzi Docker images.
 We now need to build the connectors and add them to the image,
 if you have built the whole project (`mvn clean package`) decompress the connectors you need in a folder (i.e. like `my-connectors/`)
 so that each one is in its own subfolder
 (alternatively you can download the latest officially released and packaged connectors from maven):

 So we need to do something like this:

 ```
 > cd my-connectors/
 > wget https://repo1.maven.org/maven2/org/apache/camel/kafkaconnector/camel-aws2-lambda-kafka-connector/0.11.5/camel-aws2-lambda-kafka-connector-0.11.5-package.tar.gz
 > untar.gz camel-aws2-lambda-kafka-connector-0.11.5-package.tar.gz
 ```

 Now we can start the build

 [source,bash,options="nowrap"]
 ----
 oc start-build my-connect-cluster-connect --from-dir=./my-connectors/ --follow
 ----

 We should now wait for the rollout of the new image to finish and the replica set with the new connector to become ready.
 Once it is done, we can check that the connectors are available in our Kafka Connect cluster.
 Strimzi is running Kafka Connect in a distributed mode.

 To check the available connector plugins, you can run the following command:

 [source,bash,options="nowrap"]
 ----
 oc exec -i `oc get pods --field-selector status.phase=Running -l strimzi.io/name=my-connect-cluster-connect -o=jsonpath='{.items[0].metadata.name}'` -- curl -s http://my-connect-cluster-connect-api:8083/connector-plugins
 ----

 You should see something like this:

 [source,json,options="nowrap"]
 ----
 [{"class":"org.apache.camel.kafkaconnector.CamelSinkConnector","type":"sink","version":"0.11.5"},{"class":"org.apache.camel.kafkaconnector.CamelSourceConnector","type":"source","version":"0.11.5"},{"class":"org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector","type":"sink","version":"0.11.5"},{"class":"org.apache.kafka.connect.file.FileStreamSinkConnector","type":"sink","version":"2.5.0"},{"class":"org.apache.kafka.connect.file.FileStreamSourceConnector","type":"source","version":"2.5.0"},{"class":"org.apache.kafka.connect.mirror.MirrorCheckpointConnector","type":"source","version":"1"},{"class":"org.apache.kafka.connect.mirror.MirrorHeartbeatConnector","type":"source","version":"1"},{"class":"org.apache.kafka.connect.mirror.MirrorSourceConnector","type":"source","version":"1"}]
 ----

 ### Set the AWS credential as secret (optional)

 You can also set the aws creds option as secret, you'll need to edit the file config/aws2-lambda-cred.properties with the correct credentials and then execute the following command

 [source,bash,options="nowrap"]
 ----
 oc create secret generic aws2-lambda --from-file=config/openshift/aws2-lambda-cred.properties
 ----

 Now we need to edit KafkaConnectS2I custom resource to reference the secret. For example:

 [source,bash,options="nowrap"]
 ----
 spec:
   # ...
   config:
     config.providers: file
     config.providers.file.class: org.apache.kafka.common.config.provider.FileConfigProvider
   #...
   externalConfiguration:
     volumes:
       - name: aws-credentials
         secret:
           secretName: aws2-lambda
 ----

 In this way the secret aws2-lambda will be mounted as volume with path /opt/kafka/external-configuration/aws-credentials/

 ### Create connector instance

 Now we can create some instance of the AWS2 Lambda sink connector:

 [source,bash,options="nowrap"]
 ----
 oc exec -i `oc get pods --field-selector status.phase=Running -l strimzi.io/name=my-connect-cluster-connect -o=jsonpath='{.items[0].metadata.name}'` -- curl -X POST \
     -H "Accept:application/json" \
     -H "Content-Type:application/json" \
     http://my-connect-cluster-connect-api:8083/connectors -d @- <<'EOF'
 {
   "name": "lambda-sink-connector",
   "config": {
     "connector.class": "org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector",
     "tasks.max": "1",
     "key.converter": "org.apache.kafka.connect.storage.StringConverter",
     "value.converter": "org.apache.kafka.connect.converters.ByteArrayConverter",
     "topics": "lambda-topic",
     "camel.sink.path.function": "hello-ckc",
     "camel.sink.endpoint.operation": "invokeFunction",
     "camel.component.aws2-lambda.accessKey": "xxx",
     "camel.component.aws2-lambda.secretKey": "xxx",
     "camel.component.aws2-lambda.region": "xxx"
   }
 }
 EOF
 ----

 Altenatively, if have enabled `use-connector-resources`, you can create the connector instance by creating a specific custom resource:

 [source,bash,options="nowrap"]
 ----
 oc apply -f - << EOF
 apiVersion: kafka.strimzi.io/v1alpha1
 kind: KafkaConnector
 metadata:
   name: lambda-sink-connector
   namespace: myproject
   labels:
     strimzi.io/cluster: my-connect-cluster
 spec:
   class: org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector
   tasksMax: 1
   config:
     key.converter: org.apache.kafka.connect.storage.StringConverter
     value.converter: org.apache.kafka.connect.converters.ByteArrayConverter
     topics: lambda-topic
     camel.sink.path.function: hello-ckc
     camel.sink.endpoint.operation: invokeFunction
     camel.component.aws2-lambda.accessKey: xxxx
     camel.component.aws2-lambda.secretKey: yyyy
     camel.component.aws2-lambda.region: region
 EOF
 ----

 If you followed the optional step for secret credentials you can run the following command:

 [source,bash,options="nowrap"]
 ----
 oc apply -f config/openshift/aws2-lambda-sink.yaml
 ----

 You can check the status of the connector using

 [source,bash,options="nowrap"]
 ----
 oc exec -i `oc get pods --field-selector status.phase=Running -l strimzi.io/name=my-connect-cluster-connect -o=jsonpath='{.items[0].metadata.name}'` -- curl -s http://my-connect-cluster-connect-api:8083/connectors/lambda-sink-connector/status
 ----

 Just connect to your AWS Console and check the content of camel-kafka-connector bucket.

 On a different terminal run the kafka-producer and send messages to your Kafka Broker.

 ```
 oc exec -i -c kafka my-cluster-kafka-0 -- bin/kafka-console-producer.sh --bootstrap-server localhost:9092 --topic lambda-topic
 Kafka message sent!
 ```

 In the AWS console, in the CloudWatch Log insights section under the monitoring tabs, you should get the information about this invokation and you should see in the logs

 ```
 2020-08-07T12:32:12.282+02:00 START RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Version: $LATEST
 2020-08-07T12:32:12.321+02:00 Event received: Kafka message sent!
 2020-08-07T12:32:12.325+02:00 END RequestId: 666d2257-1a22-406e-b112-2384ceac23a3
 2020-08-07T12:32:12.325+02:00 REPORT RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Duration: 43.33 ms Billed Duration: 100 ms Memory Size: 512 MB Max Memory Used: 75 MB Init Duration: 293.52 ms
 ```
	# Camel-Kafka-connector AWS2 Lambda Sink

	This is an example for Camel-Kafka-connector AWS2-Lambda Sink

	## Standalone

	### What is needed

	- An AWS Lambda function
	- The following project here: https://github.com/oscerd/lambda-ckc

	### Running Kafka

	```
	$KAFKA_HOME/bin/zookeeper-server-start.sh $KAFKA_HOME/config/zookeeper.properties
	$KAFKA_HOME/bin/kafka-server-start.sh $KAFKA_HOME/config/server.properties
	$KAFKA_HOME/bin/kafka-topics.sh --create --bootstrap-server localhost:9092 --replication-factor 1 --partitions 1 --topic mytopic
	```

	### Setting up the needed bits and running the example

	You'll need to setup the plugin.path property in your kafka

	Open the `$KAFKA_HOME/config/connect-standalone.properties`

	and set the `plugin.path` property to your choosen location

	In this example we'll use `/home/oscerd/connectors/`

	```
	> cd /home/oscerd/connectors/
	> wget https://repo1.maven.org/maven2/org/apache/camel/kafkaconnector/camel-aws2-lambda-kafka-connector/0.11.5/camel-aws2-lambda-kafka-connector-0.11.5-package.tar.gz
	> untar.gz camel-aws2-sns-kafka-connector-0.11.5-package.tar.gz
	```

	### Deploying the AWS Lambda function

	```
	> git clone git@github.com:oscerd/lambda-ckc.git
	> cd lambda-ckc/
	> mvn clean install
	```

	In your AWS console for Lambda service, create a new function called `hello-ckc` and deploy the `target/test-ckc.jar`

	Wait for the function to be up and running and eventually do a test through the lambda console.

	## Setting up the connector

	Now it's time to setup the connectors

	Open the AWS2 Lambda configuration file

	```
	name=CamelAWS2LambdaSinkConnector
	connector.class=org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector
	key.converter=org.apache.kafka.connect.storage.StringConverter
	value.converter=org.apache.kafka.connect.converters.ByteArrayConverter

	topics=mytopic

	camel.sink.path.function=hello-ckc
	camel.sink.endpoint.operation=invokeFunction

	camel.component.aws2-lambda.accessKey=xxxx
	camel.component.aws2-lambda.secretKey=yyyy
	camel.component.aws2-lambda.region=eu-west-1
	```

	and add the correct credentials for AWS.

	Now you can run the example

	```
	$KAFKA_HOME/bin/connect-standalone.sh $KAFKA_HOME/config/connect-standalone.properties config/CamelAWS2LambdaSinkConnector.properties
	```

	On a different terminal run the kafka-producer and send messages to your Kafka Broker.

	```
	>$ bin/kafka-console-producer.sh --topic test12 --broker-list localhost:9092
	>"Kafka message sent!"
	```

	In the AWS console, in the CloudWatch Log insights section under the monitoring tabs, you should get the information about this invokation and you should see in the logs

	```
	2020-08-07T12:32:12.282+02:00 START RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Version: $LATEST
	2020-08-07T12:32:12.321+02:00 Event received: Kafka message sent!
	2020-08-07T12:32:12.325+02:00 END RequestId: 666d2257-1a22-406e-b112-2384ceac23a3
	2020-08-07T12:32:12.325+02:00 REPORT RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Duration: 43.33 ms Billed Duration: 100 ms Memory Size: 512 MB Max Memory Used: 75 MB Init Duration: 293.52 ms
	```

	## Openshift

	### What is needed

	- An AWS Lambda function
	- The following project here: https://github.com/oscerd/lambda-ckc
	- An Openshift instance

	### Running Kafka using Strimzi Operator

	First we install the Strimzi operator and use it to deploy the Kafka broker and Kafka Connect into our OpenShift project.
	We need to create security objects as part of installation so it is necessary to switch to admin user.
	If you use Minishift, you can do it with the following command:

	[source,bash,options="nowrap"]
	----
	oc login -u system:admin
	----

	We will use OpenShift project `myproject`.
	If it doesn't exist yet, you can create it using following command:

	[source,bash,options="nowrap"]
	----
	oc new-project myproject
	----

	If the project already exists, you can switch to it with:

	[source,bash,options="nowrap"]
	----
	oc project myproject
	----

	We can now install the Strimzi operator into this project:

	[source,bash,options="nowrap",subs="attributes"]
	----
	oc apply -f https://github.com/strimzi/strimzi-kafka-operator/releases/download/0.20.1/strimzi-cluster-operator-0.20.1.yaml
	----

	Next we will deploy a Kafka broker cluster and a Kafka Connect cluster and then create a Kafka Connect image with the Debezium connectors installed:

	[source,bash,options="nowrap",subs="attributes"]
	----
	# Deploy a single node Kafka broker
	oc apply -f https://github.com/strimzi/strimzi-kafka-operator/raw/0.20.1/examples/kafka/kafka-persistent-single.yaml

	# Deploy a single instance of Kafka Connect with no plug-in installed
	oc apply -f https://github.com/strimzi/strimzi-kafka-operator/raw/0.20.1/examples/connect/kafka-connect-s2i-single-node-kafka.yaml
	----

	Optionally enable the possibility to instantiate Kafka Connectors through specific custom resource:
	[source,bash,options="nowrap"]
	----
	oc annotate kafkaconnects2is my-connect-cluster strimzi.io/use-connector-resources=true
	----

	### Add Camel Kafka connector binaries

	Strimzi uses `Source2Image` builds to allow users to add their own connectors to the existing Strimzi Docker images.
	We now need to build the connectors and add them to the image,
	if you have built the whole project (`mvn clean package`) decompress the connectors you need in a folder (i.e. like `my-connectors/`)
	so that each one is in its own subfolder
	(alternatively you can download the latest officially released and packaged connectors from maven):

	So we need to do something like this:

	```
	> cd my-connectors/
	> wget https://repo1.maven.org/maven2/org/apache/camel/kafkaconnector/camel-aws2-lambda-kafka-connector/0.11.5/camel-aws2-lambda-kafka-connector-0.11.5-package.tar.gz
	> untar.gz camel-aws2-lambda-kafka-connector-0.11.5-package.tar.gz
	```

	Now we can start the build

	[source,bash,options="nowrap"]
	----
	oc start-build my-connect-cluster-connect --from-dir=./my-connectors/ --follow
	----

	We should now wait for the rollout of the new image to finish and the replica set with the new connector to become ready.
	Once it is done, we can check that the connectors are available in our Kafka Connect cluster.
	Strimzi is running Kafka Connect in a distributed mode.

	To check the available connector plugins, you can run the following command:

	[source,bash,options="nowrap"]
	----
	oc exec -i `oc get pods --field-selector status.phase=Running -l strimzi.io/name=my-connect-cluster-connect -o=jsonpath='{.items[0].metadata.name}'` -- curl -s http://my-connect-cluster-connect-api:8083/connector-plugins
	----

	You should see something like this:

	[source,json,options="nowrap"]
	----
	[{"class":"org.apache.camel.kafkaconnector.CamelSinkConnector","type":"sink","version":"0.11.5"},{"class":"org.apache.camel.kafkaconnector.CamelSourceConnector","type":"source","version":"0.11.5"},{"class":"org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector","type":"sink","version":"0.11.5"},{"class":"org.apache.kafka.connect.file.FileStreamSinkConnector","type":"sink","version":"2.5.0"},{"class":"org.apache.kafka.connect.file.FileStreamSourceConnector","type":"source","version":"2.5.0"},{"class":"org.apache.kafka.connect.mirror.MirrorCheckpointConnector","type":"source","version":"1"},{"class":"org.apache.kafka.connect.mirror.MirrorHeartbeatConnector","type":"source","version":"1"},{"class":"org.apache.kafka.connect.mirror.MirrorSourceConnector","type":"source","version":"1"}]
	----

	### Set the AWS credential as secret (optional)

	You can also set the aws creds option as secret, you'll need to edit the file config/aws2-lambda-cred.properties with the correct credentials and then execute the following command

	[source,bash,options="nowrap"]
	----
	oc create secret generic aws2-lambda --from-file=config/openshift/aws2-lambda-cred.properties
	----

	Now we need to edit KafkaConnectS2I custom resource to reference the secret. For example:

	[source,bash,options="nowrap"]
	----
	spec:
	# ...
	config:
	config.providers: file
	config.providers.file.class: org.apache.kafka.common.config.provider.FileConfigProvider
	#...
	externalConfiguration:
	volumes:
	- name: aws-credentials
	secret:
	secretName: aws2-lambda
	----

	In this way the secret aws2-lambda will be mounted as volume with path /opt/kafka/external-configuration/aws-credentials/

	### Create connector instance

	Now we can create some instance of the AWS2 Lambda sink connector:

	[source,bash,options="nowrap"]
	----
	oc exec -i `oc get pods --field-selector status.phase=Running -l strimzi.io/name=my-connect-cluster-connect -o=jsonpath='{.items[0].metadata.name}'` -- curl -X POST \
	-H "Accept:application/json" \
	-H "Content-Type:application/json" \
	http://my-connect-cluster-connect-api:8083/connectors -d @- <<'EOF'
	{
	"name": "lambda-sink-connector",
	"config": {
	"connector.class": "org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector",
	"tasks.max": "1",
	"key.converter": "org.apache.kafka.connect.storage.StringConverter",
	"value.converter": "org.apache.kafka.connect.converters.ByteArrayConverter",
	"topics": "lambda-topic",
	"camel.sink.path.function": "hello-ckc",
	"camel.sink.endpoint.operation": "invokeFunction",
	"camel.component.aws2-lambda.accessKey": "xxx",
	"camel.component.aws2-lambda.secretKey": "xxx",
	"camel.component.aws2-lambda.region": "xxx"
	}
	}
	EOF
	----

	Altenatively, if have enabled `use-connector-resources`, you can create the connector instance by creating a specific custom resource:

	[source,bash,options="nowrap"]
	----
	oc apply -f - << EOF
	apiVersion: kafka.strimzi.io/v1alpha1
	kind: KafkaConnector
	metadata:
	name: lambda-sink-connector
	namespace: myproject
	labels:
	strimzi.io/cluster: my-connect-cluster
	spec:
	class: org.apache.camel.kafkaconnector.aws2lambda.CamelAws2lambdaSinkConnector
	tasksMax: 1
	config:
	key.converter: org.apache.kafka.connect.storage.StringConverter
	value.converter: org.apache.kafka.connect.converters.ByteArrayConverter
	topics: lambda-topic
	camel.sink.path.function: hello-ckc
	camel.sink.endpoint.operation: invokeFunction
	camel.component.aws2-lambda.accessKey: xxxx
	camel.component.aws2-lambda.secretKey: yyyy
	camel.component.aws2-lambda.region: region
	EOF
	----

	If you followed the optional step for secret credentials you can run the following command:

	[source,bash,options="nowrap"]
	----
	oc apply -f config/openshift/aws2-lambda-sink.yaml
	----

	You can check the status of the connector using

	[source,bash,options="nowrap"]
	----
	oc exec -i `oc get pods --field-selector status.phase=Running -l strimzi.io/name=my-connect-cluster-connect -o=jsonpath='{.items[0].metadata.name}'` -- curl -s http://my-connect-cluster-connect-api:8083/connectors/lambda-sink-connector/status
	----

	Just connect to your AWS Console and check the content of camel-kafka-connector bucket.

	On a different terminal run the kafka-producer and send messages to your Kafka Broker.

	```
	oc exec -i -c kafka my-cluster-kafka-0 -- bin/kafka-console-producer.sh --bootstrap-server localhost:9092 --topic lambda-topic
	Kafka message sent!
	```

	In the AWS console, in the CloudWatch Log insights section under the monitoring tabs, you should get the information about this invokation and you should see in the logs

	```
	2020-08-07T12:32:12.282+02:00 START RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Version: $LATEST
	2020-08-07T12:32:12.321+02:00 Event received: Kafka message sent!
	2020-08-07T12:32:12.325+02:00 END RequestId: 666d2257-1a22-406e-b112-2384ceac23a3
	2020-08-07T12:32:12.325+02:00 REPORT RequestId: 666d2257-1a22-406e-b112-2384ceac23a3 Duration: 43.33 ms Billed Duration: 100 ms Memory Size: 512 MB Max Memory Used: 75 MB Init Duration: 293.52 ms
	```