Apache Kafka® with MongoDB source connector#
The Aiven Terraform Provider is a great choice for provisioning an Aiven for Apache Kafka® cluster with Kafka Connect enabled and the MongoDB source connector configured.
Let’s check out the following diagram to understand the setup.
Describe the setup#
Here is the Terraform recipe that will spin up an Aiven for Apache Kafka service with Kafka Connect enabled. This recipe will also create and configure a MongoDB source connector.
Warning
Aiven provides the option to run Kafka Connect on the same nodes as your Kafka cluster, sharing the resources. This is a low-cost way to get started with Kafka Connect. A standalone Aiven for Apache Kafka® Connect allows you to scale independently, offers more CPU time and memory for the Kafka Connect service and reduces load on nodes, making the cluster more stable.
Before you begin, you will require a MongoDB database and the related database connection information. You’ll also need to make sure that the database is reachable from the public internet (unless it’s part of a paired VPC).
Be sure to check out the getting started guide to learn about the common files required to execute the following recipe. For example, you’ll need to declare the variables for project_name, api_token, service_name_prefix, and mongodb_connection_uri.
Expand to check out the relevant common files needed for this recipe.
Navigate to a new folder and add the following files.
Add the following to a new
provider.tffile:
terraform {
required_providers {
aiven = {
source = "aiven/aiven"
version = "~> 3.10.0"
}
}
}
provider "aiven" {
api_token = var.aiven_api_token
}
You can also set the environment variable TF_VAR_aiven_api_token for the api_token property. With this, you don’t need to pass the -var-file flag when executing Terraform commands.
To avoid including sensitive information in source control, the variables are defined here in the
variables.tffile. You can then use a*.tfvarsfile with the actual values so that Terraform receives the values during runtime, and exclude it.
The variables.tf file defines the API token, the project name to use, and the prefix for the service name:
variable "aiven_api_token" {
description = "Aiven console API token"
type = string
}
variable "project_name" {
description = "Aiven console project name"
type = string
}
variable "service_name_prefix" {
description = "A string to prepend to the service name"
type = string
}
variable "mongodb_connection_uri" {
description = "MongoDB connection URI used to connect to your MongoDB deployment"
type = string
}
The
var-values.tfvarsfile holds the actual values and is passed to Terraform using the-var-file=flag.
var-values.tfvars file:
aiven_api_token = "<YOUR-AIVEN-AUTHENTICATION-TOKEN-GOES-HERE>"
project_name = "<YOUR-AIVEN-CONSOLE-PROJECT-NAME-GOES-HERE>"
service_name_prefix = "<YOUR-CHOICE-OF-A-SERVICE-NAME-PREFIX>"
mongodb_connection_uri = "<YOUR-MONGODB-SERVICE-CONNECTION-URI>"
services.tf file:
resource "aiven_kafka" "demo-kafka" {
project = var.project_name
cloud_name = "google-northamerica-northeast1"
plan = "business-4"
service_name = join("-", [var.service_name_prefix, "kafka"])
maintenance_window_dow = "sunday"
maintenance_window_time = "10:00:00"
kafka_user_config {
kafka_connect = true
kafka_rest = true
kafka_version = "3.2"
kafka {
auto_create_topics_enable = true
}
}
}
resource "aiven_kafka_connector" "mongodb-source-connector" {
project = var.project_name
service_name = aiven_kafka.demo-kafka.service_name
connector_name = "mongodb-source-connector"
config = {
"name" = "mongodb-source-connector"
"connector.class" = "com.mongodb.kafka.connect.MongoSourceConnector"
"connection.uri" = var.mongodb_connection_uri
"database" = "sample_airbnb"
"collection" = "listingsAndReviews"
"copy.existing" = "true"
"poll.await.time.ms" = "1000"
"output.format.value" = "json"
"output.format.key" = "json"
"publish.full.document.only" = "true"
}
}
Expand to check out how to execute the Terraform files.
The init command performs several different initialization steps in order to prepare the current working directory for use with Terraform. In our case, this command automatically finds, downloads, and installs the necessary Aiven Terraform provider plugins.
terraform init
The plan command creates an execution plan and shows you the resources that will be created (or modified) for you. This command does not actually create any resource; this is more like a preview.
terraform plan -var-file=var-values.tfvars
If you’re satisfied with the output of terraform plan, go ahead and run the terraform apply command which actually does the task or creating (or modifying) your infrastructure resources.
terraform apply -var-file=var-values.tfvars
Since you have
kafka_connectset totrueunder thekafka_user_config, you don’t need a standalone Aiven for Apache Kafka Connect service.The
auto_create_topics_enableflag is enabled, therefore the connector is able to create the topic on the Apache Kafka cluster by pushing the first message, without having to create the topic first.The automatically created topic name will be the concatenation of
databaseandcollectionparameters -sample_airbnb.listingsAndReviewsin this example.poll.await.time.mscan be configured to set the amount of wait time before the MongoDB source connector pulls the new changes from a collection.publish.full.document.only, when set totrue, only publishes the actual document rather than the full change stream document. The default value of the parameter isfalse.
More resources#
Keep in mind that some parameters and configurations will vary for your case. A reference to some of the advanced Apache Kafka configurations and other related resources: