Skip to main content

Project dependencies

For a long time, dbt has supported code reuse and extension by installing other projects as packages. When you install another project as a package, you are pulling in its full source code, and adding it to your own. This enables you to call macros and run models defined in that other project.

While this is a great way to reuse code, share utility macros, and establish a starting point for common transformations, it's not a great way to enable collaboration across teams and at scale, especially in larger organizations.

This year, dbt Labs is introducing an expanded notion of dependencies across multiple dbt projects:

  • Packages — Familiar and pre-existing type of dependency. You take this dependency by installing the package's full source code (like a software library).
  • Projects — A new way to take a dependency on another project. Using a metadata service that runs behind the scenes, dbt Cloud resolves references on-the-fly to public models defined in other projects. You don't need to parse or run those upstream models yourself. Instead, you treat your dependency on those models as an API that returns a dataset. The maintainer of the public model is responsible for guaranteeing its quality and stability.

Prerequisites

  • Available in dbt Cloud Enterprise. If you have an Enterprise account, you can unlock these features by designating a public model and adding a cross-project ref. enterprise
  • Use a supported version of dbt (v1.6, v1.7, or go versionless with "Versionless") for both the upstream ("producer") project and the downstream ("consumer") project.
  • Define models in an upstream ("producer") project that are configured with access: public. You need at least one successful job run after defining their access.
  • Define a deployment environment in the upstream ("producer") project that is set to be your Production environment, and ensure it has at least one successful job run in that environment.
  • Each project name must be unique in your dbt Cloud account. For example, if you have a dbt project (codebase) for the jaffle_marketing team, you should not create separate projects for Jaffle Marketing - Dev and Jaffle Marketing - Prod. That isolation should instead be handled at the environment level.
    • We are adding support for environment-level permissions and data warehouse connections; please contact your dbt Labs account team for beta access.
  • The dbt_project.yml file is case-sensitive, which means the project name must exactly match the name in your dependencies.yml. For example, if your project name is jaffle_marketing, you should use jaffle_marketing (not JAFFLE_MARKETING) in all related files.

Use cases

The following setup will work for every dbt project:

However, you may be able to consolidate both into a single dependencies.yml file. Read the following section to learn more.

About packages.yml and dependencies.yml

The dependencies.yml. file can contain both types of dependencies: "package" and "project" dependencies.

  • Package dependencies lets you add source code from someone else's dbt project into your own, like a library.
  • Project dependencies provide a different way to build on top of someone else's work in dbt.

If your dbt project doesn't require the use of Jinja within the package specifications, you can simply rename your existing packages.yml to dependencies.yml. However, something to note is if your project's package specifications use Jinja, particularly for scenarios like adding an environment variable or a Git token method in a private Git package specification, you should continue using the packages.yml file name.

Use the following toggles to understand the differences and determine when to use dependencies.yml or packages.yml (or both). Refer to the FAQs for more info.

 When to use Project dependencies
 When to use Package dependencies

Example

As an example, let's say you work on the Marketing team at the Jaffle Shop. The name of your team's project is jaffle_marketing:

dbt_project.yml
name: jaffle_marketing

As part of your modeling of marketing data, you need to take a dependency on two other projects:

  • dbt_utils as a package: A collection of utility macros you can use while writing the SQL for your own models. This package is open-source public and maintained by dbt Labs.
  • jaffle_finance as a project use-case: Data models about the Jaffle Shop's revenue. This project is private and maintained by your colleagues on the Finance team. You want to select from some of this project's final models, as a starting point for your own work.
dependencies.yml
packages:
- package: dbt-labs/dbt_utils
version: 1.1.1

projects:
- name: jaffle_finance # case sensitive and matches the 'name' in the 'dbt_project.yml'

What's happening here?

The dbt_utils package — When you run dbt deps, dbt will pull down this package's full contents (100+ macros) as source code and add them to your environment. You can then call any macro from the package, just as you can call macros defined in your own project.

The jaffle_finance projects — This is a new scenario. Unlike installing a package, the models in the jaffle_finance project will not be pulled down as source code and parsed into your project. Instead, dbt Cloud provides a metadata service that resolves references to public models defined in the jaffle_finance project.

Advantages

When you're building on top of another team's work, resolving the references in this way has several advantages:

  • You're using an intentional interface designated by the model's maintainer with access: public.
  • You're keeping the scope of your project narrow, and avoiding unnecessary resources and complexity. This is faster for you and faster for dbt.
  • You don't need to mirror any conditional configuration of the upstream project such as vars, environment variables, or target.name. You can reference them directly wherever the Finance team is building their models in production. Even if the Finance team makes changes like renaming the model, changing the name of its schema, or bumping its version, your ref would still resolve successfully.
  • You eliminate the risk of accidentally building those models with dbt run or dbt build. While you can select those models, you can't actually build them. This prevents unexpected warehouse costs and permissions issues. This also ensures proper ownership and cost allocation for each team's models.

How to write cross-project ref

Writing ref: Models referenced from a project-type dependency must use two-argument ref, including the project name:

models/marts/roi_by_channel.sql
with monthly_revenue as (

select * from {{ ref('jaffle_finance', 'monthly_revenue') }}

),

...

Cycle detection

You can enable bidirectional dependencies across projects so these relationships can go in either direction, meaning that the jaffle_finance project can add a new model that depends on any public models produced by the jaffle_marketing project, so long as the new dependency doesn't introduce any node-level cycles. dbt checks for cycles across projects and raises errors if any are detected.

When setting up projects that depend on each other, it's important to do so in a stepwise fashion. Each project must run and produce public models before the original producer project can take a dependency on the original consumer project. For example, the order of operations would be as follows for a simple two-project setup:

  1. The project_a project runs in a deployment environment and produces public models.
  2. The project_b project adds project_a as a dependency.
  3. The project_b project runs in a deployment environment and produces public models.
  4. The project_a project adds project_b as a dependency.

For more guidance on how to use dbt Mesh, refer to the dedicated dbt Mesh guide and also our freely available dbt Mesh learning course.

Safeguarding production data with staging environments

When working in a Development environment, cross-project refs normally resolve to the Production environment of the project. However, to protect production data, set up a Staging deployment environment within your projects. With a staging environment integrated into the project, any references from external projects during development workflows resolve to the Staging environment. This adds a layer of security between your Deployment and Production environments by limiting access to production data.

Read Why use a staging environment for more information about the benefits.

Staging with downstream dependencies

dbt Cloud begins using the Staging environment to resolve cross-project references from downstream projects as soon as it exists in a project without "fail-over" to Production. To avoid causing downtime for downstream developers, you should define and trigger a job before marking the environment as Staging:

  1. Create a new environment, but do NOT mark it as Staging.
  2. Define a job in that environment.
  3. Trigger the job to run, and ensure it completes successfully.
  4. Update the environment to mark it as Staging.

Comparison

If you were to instead install the jaffle_finance project as a package dependency, you would instead be pulling down its full source code and adding it to your runtime environment. This means:

  • dbt needs to parse and resolve more inputs (which is slower)
  • dbt expects you to configure these models as if they were your own (with vars, env vars, etc)
  • dbt will run these models as your own unless you explicitly --exclude them
  • You could be using the project's models in a way that their maintainer (the Finance team) hasn't intended

There are a few cases where installing another internal project as a package can be a useful pattern:

  • Unified deployments — In a production environment, if the central data platform team of Jaffle Shop wanted to schedule the deployment of models across both jaffle_finance and jaffle_marketing, they could use dbt's selection syntax to create a new "passthrough" project that installed both projects as packages.
  • Coordinated changes — In development, if you wanted to test the effects of a change to a public model in an upstream project (jaffle_finance.monthly_revenue) on a downstream model (jaffle_marketing.roi_by_channel) before introducing changes to a staging or production environment, you can install the jaffle_finance package as a package within jaffle_marketing. The installation can point to a specific git branch, however, if you find yourself frequently needing to perform end-to-end testing across both projects, we recommend you re-examine if this represents a stable interface boundary.

These are the exceptions, rather than the rule. Installing another team's project as a package adds complexity, latency, and risk of unnecessary costs. By defining clear interface boundaries across teams, by serving one team's public models as "APIs" to another, and by enabling practitioners to develop with a more narrowly defined scope, we can enable more people to contribute, with more confidence, while requiring less context upfront.

FAQs

Can I define private packages in the dependencies.yml file?

If you're using private packages with the git token method, you must define them in the packages.yml file instead of the dependencies.yml file. This is because conditional rendering (like Jinja-in-yaml) is not supported.

0