Set up M3-related services using Aiven Terraform Provider
Set up an Aiven for M3 database, a M3 aggregator service, and integrate the two, then deploy using Terraform. A part of Aiven's Terraform Cookbook.
Aiven for M3DB is a powerful time-series database that can be used when handling very large volumes of metrics and scalability is a concern. Aiven for M3 Aggregator can store your data at various resolutions for different workloads at scale.
Together, they are a perfect choice to aggregate, store, and query large time-series data like internet of things (IoT) sensor readings.
This example shows how to use the Aiven Terraform Provider to create an Aiven for M3 service, an Aiven for M3 Aggregator service, and the related service integration programmatically.
In the above diagram, the M3 service contains both M3DB and M3 Coordinator. The service integration between M3DB + M3 Coordinator and M3 Aggregator brings unaggregated metrics from M3 Coordinator to M3 Aggregator.
While you can perform aggregations without an M3 Aggregator node, a dedicated metrics aggregator can help in cases when the downsampling workload is slowing down the ingestion of metrics by the main M3DB.
For example, to aggregate all IoT metrics from the last two months into 10-minute points.
The following Terraform recipe will create an Aiven for M3 service, an Aiven for M3 Aggregator service, and the related service integration.
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
, and service_name_prefix
.
Common files
Navigate to a new folder and add the following files.
Add the following to a new provider.tf
file:
terraform { required_providers { aiven = { source = "aiven/aiven" version = ">=4.0.0, < 5.0.0" } } } 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.tf
file. You can then use a *.tfvars
file 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 }
The var-values.tfvars
file 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>"
Services.tf file
services.tf
file:
resource "aiven_m3db" "demo-m3db" { project = var.project_name cloud_name = "google-northamerica-northeast1" plan = "business-8" service_name = join("-", [var.service_name_prefix, "m3db"]) m3db_user_config { m3db_version = 1.5 namespaces { name = "m3_default_unaggregated_ns" type = "unaggregated" options { retention_options { retention_period_duration = "2h" } } } namespaces { name = "m3_lowRes_aggregated_ns" type = "aggregated" resolution = "10m" options { retention_options { retention_period_duration = "6d" } } } namespaces { name = "m3_medRes_aggregated_ns" type = "aggregated" resolution = "2m" options { retention_options { retention_period_duration = "18h" } } } namespaces { name = "m3_highRes_aggregated_ns" type = "aggregated" resolution = "10s" options { retention_options { retention_period_duration = "4h" } } } } } // Setting up aggregation resource "aiven_m3aggregator" "demo-m3a" { project = var.project_name cloud_name = "google-northamerica-northeast1" plan = "business-8" service_name = join("-", [var.service_name_prefix, "m3a"]) m3aggregator_user_config { m3aggregator_version = 1.5 } } resource "aiven_service_integration" "int-m3db-aggr" { project = var.project_name integration_type = "m3aggregator" source_service_name = aiven_m3db.demo-m3db.service_name destination_service_name = aiven_m3aggregator.demo-m3a.service_name }
Execute the 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
namespaces
in M3 is used to determine how metrics are stored and retained. There is always one unaggregated namespace which is configured under the demo-m3db
resource namespaces
block. There are three aggregated namespaces defined within the same block for different resolution settings.
m3_default_unaggregated_ns
keeps the unaggregated data for 2h (retention time)m3_lowRes_aggregated_ns
aggregates the data to 10m (resolution) and keeps the data for 6d (retention time)m3_medRes_aggregated_ns
aggregates the data to 2m (resolution) and keeps the data for 18h (retention time)m3_highRes_aggregated_ns
aggregates the data to 10s (resolution) and keeps the data for 4h (retention time)
With high resolution (more samples per second), you'll have more data points for a given time compared to low resolution. More data points will require more storage, and that's why low resolution data is retained for a longer period of time than high resolution data.
More resources
You might find these related resources useful too: