Dagster starter kit

This example is a starter kit for building a daily ETL pipeline. At a high level, this project shows how to ingest data from external sources, explore and transform the data, and materialize outputs that help visualize the data.

New to Dagster? Learn what Dagster is in Concepts or in the hands-on Tutorials.

This guide covers:

Introduction

This starter kit includes:

In this project, we're building an analytical pipeline that explores popular topics on HackerNews.

This project:

  • Fetches data from HackerNews APIs.
  • Transforms the collected data using Pandas.
  • Creates a word cloud based on trending HackerNews stories to visualize popular topics on HackerNews.

Getting started

Option 1: Deploying it on Dagster Cloud

The easiest way to spin up your Dagster project is to use Dagster Cloud Serverless. It provides out-of-the-box CI/CD and native branching that make development and deployment easy.

Check out Dagster Cloud to get started.

Option 2: Running it locally

Bootstrap your own Dagster project with this example:

dagster project from-example --name my-dagster-project --example quickstart_etl

First, install your Dagster repository as a Python package. By using the --editable flag, pip will install your repository in "editable mode" so that as you develop, local code changes will automatically apply. Check out Dagster Installation for more information.

pip install -e ".[dev]"

Then, start the Dagit web server:

dagit

Open http://localhost:3000 with your browser to see the project.

Step 1: Materializing assets

With the starter project loaded in your browser, click the icon in the top-left corner of the page to expand the navigation. You'll see both jobs and assets listed in the left nav.

Click on the hackernews asset group to view the HackerNews assets and their relationship.

An asset is a software object that models a data asset, which can be a file in your filesystem, a table in a database, or a data report. The assets in the hackernews asset group ingest the current trending 500 HackerNews stories and plots a word cloud out of the collected stories to visualize the popular topics on HackerNews. You'll see three assets with different tags:

  • hackernews_topstory_ids fetches a list of top story ids from a HackerNews endpoint.
  • hackernews_topstories takes the list of ids and pulls the story details from HackerNews based on the ids.
  • hackernews_stories_word_cloud visualizes the trending topics in a word cloud.

Dagster visualizes upstream and downstream dependencies vertically. Assets below other assets connected by arrows implies a dependency relationship. So we can tell from the UI that the asset hackernews_topstories depends on hackernews_topstory_ids (i.e. hackernews_topstories takes hackernews_topstory_ids's output as an input) and hackernews_stories_word_cloud depends on hackernews_topstories.

All three assets are defined in quickstart_etl/assets/hackernews.py. Typically, you'll define assets by annotating ordinary Python functions with the @asset decorator.

This project also comes with ways to better organize the assets:

  • Labeling/tagging. You'll find the assets are tagged with different [labels/badges], such as HackerNews API and Plot. This is defined in code via the compute_kind argument to the @asset decorator. It can be any string value that represents the kind of computation that produces the asset and will be displayed in the UI as a badge on the asset. This can help us quickly understand the data logic from a bird's eye view.
  • Grouping assets. We've also assigned all three assets to the group hackernews, which is accomplished by providing the group_name argument to the @asset decorator. Grouping assets can help keep assets organized as your project grows. Learn about asset grouping here.
  • Adding descriptions. In the asset graph, the UI also shows the description of each asset. You can specify the description of an asset in the description argument to @asset. When the argument is not provided and the decorated function has a docstring, Dagster will use the docstring as the description. In this example, the UI is using the docstrings as the descriptions.

Now that we've got a basic understanding of Dagster assets, let's materialize them.

Click Materialize all to kick off a Dagster run which will pull info from the external APIs and move the data through assets.

As you iterate, some assets may become outdated. To refresh them, you can select a subset of assets to run instead of re-running the entire pipeline. This allows us to avoid unnecessary re-runs of expensive computations, only re-materializing the assets that need to be updated. If assets take a long time to run or interact with APIs with restrictive rate limits, selectively re-materializing assets will come in handy.

You'll see an indicator pop up with the launched run ID. Click View to monitor the run in real-time. This will open a new tab in your browser:

The process will run for a bit. While it's running, you should see the real-time compute logs printed in the UI. (It may take 1-2 minutes to fetch all top 500 stories from HackerNews in the hackernews_topstories step).

Step 2: Viewing and monitoring assets

When you materialize an asset, the object returned by your asset function is saved. Dagster makes it easy to save these results to disk, to blob storage, to a database, or to any other system. In this example the assets are saved to the file system. In addition to the asset materialization, your asset functions can also generate metadata that is directly visible in Dagster. To view the materialization details and metadata, click on the "ASSET_MATERIALIZATION" event. In this example, the hackernews_stories_word_cloud asset materializes a plot that is saved to disk, but we also add the plot as metadata to make it visible in Dagster.

Click Show Markdown. You'll see a word cloud of the top 500 HackerNews story titles generated by the hackernews_topstories_word_cloud asset:

The metadata is recorded in the hackernews_topstories_word_cloud asset in quickstart_etl/assets/hackernews.py. Dagster supports attaching arbitrary metadata to asset materializations. This metadata is also be displayed on the Activity tab of the Asset Details page in the UI or in the Asset Lineage view after selecting an asset. From the compute logs of a run, you can click the View Asset to go to the Asset Details page.

This metadata would be useful for monitoring and maintaining the asset as you iterate. Similarly, we've also recorded some metadata in the hackernews_topstories asset. You can filter the compute logs by typing the asset name (e.g. hackernews_topstories) or the event type (e.g. type:ASSET_MATERIALIZATION) in the Log Filter input box:

In the results, you'll see that the hackernews_topstories asset has two metadata entries: num_records and preview. Both are defined in quickstart_etl/assets/hackernews.py, in which we record the first five rows of the output Pandas DataFrame in the preview metadata entry using the Markdown type. This could help debug and keep your assets easily monitored. Click Show Markdown to view a preview of the output data frame:

Note: You'll find a path metadata attached to every asset. This is because assets are, by default, materialized to pickle files on your local filesystem. In most projects, your assets will be materialized to a production system and you can fully customize the I/O using I/O managers.

Step 3: Scheduling a daily job

Finally, let's refresh our plots every day so we can monitor popular topics over time. To do so, we can use schedules.

We've defined a daily schedule and job in quickstart_etl/repository.py for all assets that are defined in the quickstart_etl/assets/ module.

Now, let's turn on the daily schedule within Dagster.

  1. In the left nav, it indicates the all_assets_job has a schedule associated with it but it's currently off. Clicking "all_assets_job" in the left nav will bring you to the job definition page.
  2. Mouse over the schedule indicator on the top of the page to navigate to the individual schedule page for more info about the schedule.

You can now turn on the schedule switch to set up the daily job we defined in quickstart_etl/repository.py.

(Optional) Running daemon locally

If you're running Dagster locally, you will see a warning that your daemon isnโ€™t running.

๐Ÿ‘ˆ Expand to learn how to set up a local daemon

If you want to enable Dagster schedules for your jobs, start the Dagster daemon process in the same folder as your workspace.yaml file, but in a different shell or terminal.

The $DAGSTER_HOME environment variable must be set to a directory for the daemon to work. Note: using directories within /tmp may cause issues. See Dagster Instance default local behavior for more details.

In this case, go to the project root directory and run:

dagster-daemon run

Once your Dagster daemon is running, the schedules that are turned on will start running.



Congratulations ๐ŸŽ‰ You now have a daily job running in production!


Learning more

Changing the code locally

When developing pipelines locally, be sure to click the Reload definition button in the Dagster UI after you change the code. This ensures that Dagster picks up the latest changes you made.

You can reload the code using the Deployment page:

๐Ÿ‘ˆ Expand to view the screenshot

Or from the left nav or on each job page:

๐Ÿ‘ˆ Expand to view the screenshot

Using environment variables and secrets

Environment variables, which are key-value pairs configured outside your source code, allow you to dynamically modify application behavior depending on environment.

Using environment variables, you can define various configuration options for your Dagster application and securely set up secrets. For example, instead of hard-coding database credentials - which is bad practice and cumbersome for development - you can use environment variables to supply user details. This allows you to parameterize your pipeline without modifying code or insecurely storing sensitive data.

Check out Using environment variables and secrets for more info and examples.

Adding new Python dependencies

You can specify new Python dependencies in setup.py.

Testing

Tests are in the quickstart_etl_tests directory and you can run tests using pytest:

pytest quickstart_etl_tests