This repository contains only Terraform core, which includes the command line interface and the main graph engine. Providers are implemented as plugins that each have their own repository linked from the Terraform Registry index. Instructions for developing each provider are usually in the associated README file. For more information, see the provider development overview.
All communication on GitHub, the community forum, and other HashiCorp-provided communication channels is subject to the HashiCorp community guidelines.
This document provides guidance on Terraform contribution recommended practices. It covers what we're looking for in order to help set some expectations and help you get the most out of participation in this project.
To record a bug report, enhancement proposal, or give any other product feedback, please open a GitHub issue using the most appropriate issue template. Please do fill in all of the information the issue templates request, because we‘ve seen from experience that this will maximize the chance that we’ll be able to act on your feedback.
It can be tempting to want to dive into an open source project and help build the thing you believe you‘re missing. It’s a wonderful and helpful intention. However, Terraform is a complex tool. Many seemingly simple changes can have serious effects on other areas of the code and it can take some time to become familiar with the effects of even basic changes. The Terraform team is not immune to unintended and sometimes undesirable changes. We do take our work seriously, and appreciate the globally diverse community that relies on Terraform for workflows of all sizes and criticality.
As a result of Terraform's complexity and high bar for stability, the most straightforward way to start helping with the Terraform project is to pick an existing bug and get to work.
For new contributors we've labeled a few issues with Good First Issue
as a nod to issues which will help get you familiar with Terraform development, while also providing an onramp to the codebase itself.
Read the documentation, and don't be afraid to ask questions.
In order to be respectful of the time of community contributors, we aim to discuss potential changes in GitHub issues prior to implementation. That will allow us to give design feedback up front and set expectations about the scope of the change, and, for larger changes, how best to approach the work such that the Terraform team can review it and merge it along with other concurrent work.
If the bug you wish to fix or enhancement you wish to implement isn't already covered by a GitHub issue that contains feedback from the Terraform team, please do start a discussion (either in a new GitHub issue or an existing one, as appropriate) before you invest significant development time. If you mention your intent to implement the change described in your issue, the Terraform team can, as best as possible, prioritize including implementation-related feedback in the subsequent discussion.
At this time, we do not have a formal process for reviewing outside proposals that significantly change Terraform's workflow, its primary usage patterns, and its language. Additionally, some seemingly simple proposals can have deep effects across Terraform, which is why we strongly suggest starting with an issue-based proposal.
For large proposals that could entail a significant design phase, we wish to be up front with potential contributors that, unfortunately, we are unlikely to be able to give prompt feedback. We are still interested to hear about your use-cases so that we can consider ways to meet them as part of other larger projects.
Most changes will involve updates to the test suite, and changes to Terraform‘s documentation. The Terraform team can advise on different testing strategies for specific scenarios, and may ask you to revise the specific phrasing of your proposed documentation prose to match better with the standard “voice” of Terraform’s documentation.
This repository is primarily maintained by a small team at HashiCorp along with their other responsibilities, so unfortunately we cannot always respond promptly to pull requests, particularly if they do not relate to an existing GitHub issue where the Terraform team has already participated and indicated willingness to work on the issue or accept PRs for the proposal. We are grateful for all contributions however, and will give feedback on pull requests as soon as we're able.
There are some areas of Terraform which are of special concern to the Terraform team.
The Terraform team is not merging PRs for new state storage backends at the current time. Our priority regarding state storage backends is to find maintainers for existing backends and remove those backends without maintainers.
Please see the CODEOWNERS file for the status of a given backend. Community members with an interest in a particular standard backend are welcome to help maintain it.
Currently, merging state storage backends places a significant burden on the Terraform team. The team must set up an environment and cloud service provider account, or a new database/storage/key-value service, in order to build and test remote state storage backends. The time and complexity of doing so prevents us from moving Terraform forward in other ways.
We are working to remove ourselves from the critical path of state storage backends by moving them towards a plugin model. In the meantime, we won't be accepting new remote state backends into Terraform.
Provisioners are an area of concern in Terraform for a number of reasons. Chiefly, they are often used in the place of configuration management tools or custom providers.
There are two main types of provisioners in Terraform, the generic provisioners (file
,local-exec
, and remote-exec
) and the tool-specific provisioners (chef
, habbitat
, puppet
& salt-masterless
). The tool-specific provisioners are deprecated. In practice this means we will not be accepting PRs for these areas of the codebase.
From our documentation:
... they [...] add a considerable amount of complexity and uncertainty to Terraform usage.[...] we still recommend attempting to solve it [your problem] using other techniques first, and use provisioners only if there is no other option.
The Terraform team is in the process of building a way forward which continues to decrease reliance on provisioners. In the mean time however, as our documentation indicates, they are a tool of last resort. As such expect that PRs and issues for provisioners are not high in priority.
Please see the CODEOWNERS file for the status of a given provisioner. Community members with an interest in a particular provisioner are welcome to help maintain it.
Maintainers are key contributors to our Open Source project. They contribute their time and expertise and we ask that the community take extra special care to be mindful of this when interacting with them.
For code that has a listed maintainer or maintainers in our CODEOWNERS file, the Terraform team will highlight them for participation in PRs which relate to the area of code they maintain. The expectation is that a maintainer will review the code and work with the PR contributor before the code is merged by the Terraform team.
There is no expectation on response time for our maintainers; they may be indisposed for prolonged periods of time. Please be patient. Discussions on when code becomes “unmaintained” will be on a case-by-case basis.
If an an unmaintained area of code interests you and you'd like to become a maintainer, you may simply make a PR against our CODEOWNERS file with your github handle attached to the approriate area. If there is a maintainer or team of maintainers for that area, please coordinate with them as necessary.
It is much easier to review pull requests that are:
If we request changes, try to make those changes in a timely manner. Otherwise, PRs can go stale and be a lot more work for all of us to merge in the future.
Even with everyone making their best effort to be responsive, it can be time-consuming to get a PR merged. It can be frustrating to deal with the back-and-forth as we make sure that we understand the changes fully. Please bear with us, and please know that we appreciate the time and energy you put into the project.
The following checks run when a PR is opened:
This repository contains the source code for Terraform CLI, which is the main component of Terraform that contains the core Terraform engine.
Terraform providers are not maintained in this repository; you can find relevant repository and relevant issue tracker for each provider within the Terraform Registry index.
This repository also does not include the source code for some other parts of the Terraform product including Terraform Cloud, Terraform Enterprise, and the Terraform Registry. Those components are not open source, though if you have feedback about them (including bug reports) please do feel free to open a GitHub issue on this repository.
If you wish to work on the Terraform CLI source code, you'll first need to install the Go compiler and the version control system Git.
At this time the Terraform development environment is targeting only Linux and Mac OS X systems. While Terraform itself is compatible with Windows, unfortunately the unit test suite currently contains Unix-specific assumptions around maximum path lengths, path separators, etc.
Refer to the file .go-version
to see which version of Go Terraform is currently built with. Other versions will often work, but if you run into any build or testing problems please try with the specific Go version indicated. You can optionally simplify the installation of multiple specific versions of Go on your system by installing goenv
, which reads .go-version
and automatically selects the correct Go version.
Use Git to clone this repository into a location of your choice. Terraform is using Go Modules, and so you should not clone it inside your GOPATH
.
Switch into the root directory of the cloned repository and build Terraform using the Go toolchain in the standard way:
cd terraform go install .
The first time you run the go install
command, the Go toolchain will download any library dependencies that you don't already have in your Go modules cache. Subsequent builds will be faster because these dependencies will already be available on your local disk.
Once the compilation process succeeds, you can find a terraform
executable in the Go executable directory. If you haven't overridden it with the GOBIN
environment variable, the executable directory is the bin
directory inside the directory returned by the following command:
go env GOPATH
If you are planning to make changes to the Terraform source code, you should run the unit test suite before you start to make sure everything is initially passing:
go test ./...
As you make your changes, you can re-run the above command to ensure that the tests are still passing. If you are working only on a specific Go package, you can speed up your testing cycle by testing only that single package, or packages under a particular package prefix:
go test ./internal/command/... go test ./internal/addrs
Terraform's unit test suite is self-contained, using mocks and local files to help ensure that it can run offline and is unlikely to be broken by changes to outside systems.
However, several Terraform components interact with external services, such as the automatic provider installation mechanism, the Terraform Registry, Terraform Cloud, etc.
There are some optional tests in the Terraform CLI codebase that do interact with external services, which we collectively refer to as “acceptance tests”. You can enable these by setting the environment variable TF_ACC=1
when running the tests. We recommend focusing only on the specific package you are working on when enabling acceptance tests, both because it can help the test run to complete faster and because you are less likely to encounter failures due to drift in systems unrelated to your current goal:
TF_ACC=1 go test ./internal/initwd
Because the acceptance tests depend on services outside of the Terraform codebase, and because the acceptance tests are usually used only when making changes to the systems they cover, it is common and expected that drift in those external systems will cause test failures. Because of this, prior to working on a system covered by acceptance tests it's important to run the existing tests for that system in an unchanged work tree first and respond to any test failures that preexist, to avoid misinterpreting such failures as bugs in your new changes.
Some files in the Terraform CLI codebase are generated. In most cases, we update these using go generate
, which is the standard way to encapsulate code generation steps in a Go codebase.
go generate ./...
Use git diff
afterwards to inspect the changes and ensure that they are what you expected.
Terraform includes generated Go stub code for the Terraform provider plugin protocol, which is defined using Protocol Buffers. Because the Protocol Buffers tools are not written in Go and thus cannot be automatically installed using go get
, we follow a different process for generating these, which requires that you've already installed a suitable version of protoc
:
make protobuf
Terraform uses Go Modules for dependency management.
Our dependency licensing policy for Terraform excludes proprietary licenses and “copyleft”-style licenses. We accept the common Mozilla Public License v2, MIT License, and BSD licenses. We will consider other open source licenses in similar spirit to those three, but if you plan to include such a dependency in a contribution we'd recommend opening a GitHub issue first to discuss what you intend to implement and what dependencies it will require so that the Terraform team can review the relevant licenses to for whether they meet our licensing needs.
If you need to add a new dependency to Terraform or update the selected version for an existing one, use go get
from the root of the Terraform repository as follows:
go get github.com/hashicorp/hcl/v2@2.0.0
This command will download the requested version (2.0.0 in the above example) and record that version selection in the go.mod
file. It will also record checksums for the module in the go.sum
.
To complete the dependency change, clean up any redundancy in the module metadata files by running:
go mod tidy
To ensure that the upgrade has worked correctly, be sure to run the unit test suite at least once:
go test ./...
Because dependency changes affect a shared, top-level file, they are more likely than some other change types to become conflicted with other proposed changes during the code review process. For that reason, and to make dependency changes more visible in the change history, we prefer to record dependency changes as separate commits that include only the results of the above commands and the minimal set of changes to Terraform's own code for compatibility with the new version:
git add go.mod go.sum git commit -m "go get github.com/hashicorp/hcl/v2@2.0.0"
You can then make use of the new or updated dependency in new code added in subsequent commits.