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Fluent-plugin-openlineage, a plugin for Fluentd

Gem Version

fluent-plugin-openlineage is a Fluentd plugin that verifies if a JSON matches the OpenLineage schema. It is intended to be used together with a Fluentd Application.

Requirements

fluent-plugin-prometheus fluentd ruby
1.x.y >= v1.9.1 >= 2.4
1.[0-7].y >= v0.14.8 >= 2.1
0.x.y >= v0.12.0 >= 1.9

Installation

Add this line to your application's Gemfile:

gem 'fluent-plugin-openlineage'

And then execute:

$ bundle

Or install it yourself using one of the following:

$ gem install fluent-plugin-openlineage

$ fluent-gem install fluent-plugin-openlineage

Usage

fluentd-plugin-openlineage include only one plugin.

  • openlineage parse plugin

Why are Fluentd and Openlineage a perfect match?

This is part of the OpenLineage Project repository at: https://github.com/OpenLineage/OpenLineage/tree/main/proxy/fluentd

<<<<<<< HEAD Modern data collectors (Fluentd, Logstash, Vector, etc.) can be extremely useful when designing production-grade architectures for processing Openlineage events.

They can be used for features such as:

  • A server-proxy in front of the Openlineage backend (like Marquez) to handle load spikes and buffer incoming events when the backend is down (e.g., due to a maintenance window).
  • The ability to copy the event to multiple backends such as HTTP, Kafka or cloud object storage. Data collectors implement that out-of-the-box.

They have great potential except for a single missing feature: the ability to parse and validate OpenLineage events at the point of HTTP input. This is important as one would like to get a Bad Request response immediately when sending invalid OpenLineage events to an endpoint. Fortunately, this missing feature can be implemented as a plugin.

We decided to implement an OpenLineage parser plugin for Fluentd because:

  • Fluentd has a small footprint in terms of resource utilization and does not require that JVM be installed,
  • Fluentd plugins can be installed from local files (no need to register in a plugin repository).

As a side effect, the Fluentd integration can be also used as a OpenLineage HTTP validation backend for development purposes.

Fluentd features

Some interesting Fluentd features are available according to the official documentation:

The official Fluentd documentation does not mention guarantees about event ordering. However, retrieving Openlineage events and buffering in file/memory should be considered a millisecond-long operation, while any HTTP backend cannot guarantee ordering in such a case. On the other hand, by default the amount of threads to flush the buffer is set to 1 and configurable (flush_thread_count).

Quickstart with Docker

Please refer to the Dockerfile and fluent.conf to see how to build and install the plugin with the example usage scenario provided in docker-compose.yml. To run the example setup, go to the docker directory and execute the following command:

docker-compose up

After all the containers have started, send some HTTP requests:

curl -X POST \
-d '{"test":"test"}' \
-H 'Content-Type: application/json' \
http://localhost:9880/api/v1/lineage

In response, you should see the following message:

Openlineage validation failed: path "/": "run" is a required property, path "/": "job" is a required property, path "/": "eventTime" is a required property, path "/": "producer" is a required property, path "/": "schemaURL" is a required property

Next, send some valid requests:

curl -X POST \
-d "$(cat test-start.json)" \
-H 'Content-Type: application/json' \
http://localhost:9880/api/v1/lineage
curl -X POST \
-d "$(cat test-complete.json)" \
-H 'Content-Type: application/json' \
http://localhost:9880/api/v1/lineage

After that you should see entities in Marquez (http://localhost:3000/) in the my-namespace namespace.

To clean up, run

docker-compose down

Configuration

Although Openlineage event is specified according to Json-Schema, its real-life validation may vary and backends like Marquez may have less strict approach to validating certain types of facets. For example, Marquez allows a non-valid DataQualityMetricsInputDatasetFacet. To give more flexibility, fluentd parser allows following configuration parameters:

validate_input_dataset_facets => true/false
validate_output_dataset_facets => true/false
validate_dataset_facets => true/false
validate_run_facets => true/false
validate_job_facets =>  true/false

By default, only validate_run_facets and validate_job_facets are set to true/

Development

To build dependencies:

bundle install
bundle

To run the tests:

bundle exec rake test

Installation

The easiest way to install the plugin is to install the main application Fluentd and along with it, these external packages for example in a Dockerfile:

  • rusty_json_schema installs a JSON validation library for Rust,
  • fluent-plugin-out-http allows non-bulk HTTP out requests (sending each OpenLineage event in a separate request).
fluent-gem install rusty_json_schema
fluent-gem install fluent-plugin-out-http
fluent-gem install fluent-plugin-openlineage

Fluentd proxy setup

Monitoring with Prometheus and some other configs you can try by running a separate fluent.conf file

You may also want to check how Fluentd application itself is doing using Prometheus and for that, you may want to add the plugin: fluent-plugin-prometheus at https://github.com/fluent/fluent-plugin-prometheus and include the following setup in your prometheus.yml file:

global:
  scrape_interval: 10s # Set the scrape interval to every 10 seconds. Default is every 1 minute.

#### A scrape configuration containing exactly one endpoint to scrape:
#### Here it's Prometheus itself.
scrape_configs:
  - job_name: 'fluentd'
    static_configs:
      - targets: ['localhost:24231']

You may also want to include the following additional parameters to your fluent.conf file:

#### source
<source>
  @type forward
  bind 0.0.0.0
  port 24224
</source>
#### count the number of incoming records per tag
<filter company.*>
  @type prometheus
  <metric>
    name fluentd_input_status_num_records_total
    type counter
    desc The total number of incoming records
    <labels>
      tag ${tag}
      hostname ${hostname}
    </labels>
  </metric>
</filter>
#### count the number of outgoing records per tag
<match company.*>
  @type copy
  <store>
    @type forward
    <server>
      name myserver1
      host 192.168.1.3
      port 24224
      weight 60
    </server>
  </store>
  <store>
    @type prometheus
    <metric>
      name fluentd_output_status_num_records_total
      type counter
      desc The total number of outgoing records
      <labels>
        tag ${tag}
        hostname ${hostname}
      </labels>
    </metric>
  </store>
</match>
#### expose metrics in prometheus format
<source>
  @type prometheus
  bind 0.0.0.0
  port 24231
  metrics_path /metrics
</source>
<source>
  @type prometheus_output_monitor
  interval 10
  <labels>
    hostname ${hostname}
  </labels>
</source>

You can check the docker file for some other examples related to configurations

For any additional information, you can check out Fluentd official documentation on https://docs.fluentd.org/monitoring-fluentd/monitoring-prometheus#example-prometheus-queries# fluentd-openlineage-parser

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