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Terratest
Terratest is a Go library that makes it easier to write automated tests for your infrastructure code. It provides a variety of helper functions and patterns for common infrastructure testing tasks, including:
- Testing Terraform code
- Testing Packer templates
- Testing Docker images
- Executing commands on servers over SSH
- Working with AWS APIs
- Working with GCP APIs
- Working with Kubernetes APIs
- Testing Helm Charts
- Making HTTP requests
- Running shell commands
- And much more
Terratest was developed at Gruntwork to help maintain the Infrastructure as Code Library, which contains over 250,000 lines of code written in Terraform, Go, Python, and Bash, and is used in production by hundreds of companies. See Open sourcing Terratest: a swiss army knife for testing infrastructure code for more info.
Introduction
The basic usage pattern for writing automated tests with Terratest is to:
- Write tests using Go's built-in package testing: you create a file ending in
_test.go
and run tests with thego test
command. - Use Terratest to execute your real IaC tools (e.g., Terraform, Packer, etc.) to deploy real infrastructure (e.g., servers) in a real environment (e.g., AWS).
- Validate that the infrastructure works correctly in that environment by making HTTP requests, API calls, SSH connections, etc.
- Undeploy everything at the end of the test.
Here's a simple example of how to test some Terraform code:
terraformOptions := &terraform.Options {
// The path to where your Terraform code is located
TerraformDir: "../examples/terraform-basic-example",
}
// At the end of the test, run `terraform destroy` to clean up any resources that were created
defer terraform.Destroy(t, terraformOptions)
// This will run `terraform init` and `terraform apply` and fail the test if there are any errors
terraform.InitAndApply(t, terraformOptions)
// Validate your code works as expected
validateServerIsWorking(t, terraformOptions)
Install
Prerequisite: install Go.
To add Terratest to your projects, we recommend using a Go dependency manager such as
dep to add the packages you wish to use (see package by package overview for the list). For example, to add the terraform
package:
dep ensure -add github.com/gruntwork-io/terratest/modules/terraform
Alternatively, you can use go get
:
go get github.com/gruntwork-io/terratest/modules/terraform
Installing the utility binaries
Terratest also ships utility binaries that you can use to improve the debugging experience (see Debugging interleaved test output. The compiled binaries are shipped separately from the library in the Releases page.
To install a binary, download the version that matches your platform and place it somewhere on your PATH
. For example
to install version 0.13.13 of terratest_log_parser
:
# This example assumes a linux 64bit machine
# Use curl to download the binary
curl --location --silent --fail --show-error -o terratest_log_parser https://github.com/gruntwork-io/terratest/releases/download/v0.13.13/terratest_log_parser_linux_amd64
# Make the downloaded binary executable
chmod +x terratest_log_parser
# Finally, we place the downloaded binary to a place in the PATH
sudo mv terratest_log_parser /usr/local/bin
Alternatively, you can use the gruntwork-installer, which will do the above steps and automatically select the right binary for your platform:
gruntwork-install --binary-name 'terratest_log_parser' --repo 'https://github.com/terraform-modules-krish/terratest' --tag 'v0.13.13'
The following binaries are currently available with terratest
:
Command | Description |
---|---|
terratest_log_parser | Parses test output from the go test command and breaks out the interleaved logs into logs for each test. Integrate with your CI environment to help debug failing tests. |
Examples
The best way to learn how to use Terratest is through examples.
First, check out the examples folder for different types of infrastructure code you may want to test, such as:
- Basic Terraform Example: A simple "Hello, World" Terraform configuration.
- HTTP Terraform Example: A more complicated Terraform configuration that deploys a simple web server that responds to HTTP requests in AWS.
- Basic Packer Example: A simple Packer template for building an Amazon Machine Image (AMI) or Google Cloud Platform Compute Image.
- Terraform Packer Example: A more complicated example that shows how to use Packer to build an AMI with a web server installed and deploy that AMI in AWS using Terraform.
- Terraform GCP Example: A simple Terraform configuration that creates a GCP Compute Instance and Storage Bucket.
- Terraform remote-exec Example: A terraform configuration that creates and
AWS instance and then uses
remote-exec
to provision it. - Basic Kubernetes Example: A minimal Kubernetes resource that deploys an addressable nginx instance.
- Kubernetes RBAC Example: A Kubernetes resource config that creates a Namespace with a ServiceAccount that has admin permissions within the Namespace, but not outside.
- Basic Helm Chart Example: A minimal helm chart that deploys a
Deployment
resource for the provided container image.
Next, head over to the test folder to see how you can use Terratest to test each of these examples:
- terraform_basic_example_test.go: Use Terratest to run
terraform apply
on the Basic Terraform Example and verify you get the expected outputs. - terraform_http_example_test.go: Use Terratest to run
terraform apply
on the HTTP Terraform Example to deploy the web server, make HTTP requests to the web server to check that it is working correctly, and runterraform destroy
to undeploy the web server. - packer_basic_example_test.go: Use Terratest to run
packer build
to build an AMI and then use the AWS APIs to delete that AMI. - packer_gcp_basic_example_test.go: Use Terratest to run
packer build
to build a Google Cloud Platform Compute Image and then use the GCP APIs to delete that image. - terraform_packer_example_test.go: Use Terratest to run
packer build
to build an AMI with a web server installed, deploy that AMI in AWS by runningterraform apply
, make HTTP requests to the web server to check that it is working correctly, and runterraform destroy
to undeploy the web server. - terraform_gcp_example_test.go: Use Terratest to run
terraform apply
on the Terraform GCP Example and verify you get the expected outputs. - terraform_remote_exec_example_test.go: Use Terratest to run
terraform apply
and then remotely provision the instance while using a custom SSH agent managed by Terratest - terraform_scp_example_test.go: Use Terratest to simplify copying resources like config files and logs from deployed EC2 Instances. This is especially useful for getting a snapshot of the state of a deployment when a test fails.
- kubernetes_basic_example_test.go: Use Terratest to run
kubectl apply
to apply a Kubernetes resource file, verify resources are created using the Kubernetes API, and then runkubectl delete
to delete the resources at the end of the test. - kubernetes_rbac_example_test.go: Use Terratest to run
kubectl apply
to apply a Kubernetes resource file, retrieve auth tokens to authenticate as the created ServiceAccount, update the kubeconfig file with the authentication token and add a new context to auth as the ServiceAccount, verify auth as the ServiceAccount by checking what resources you have access to, and finally runkubectl delete
to delete the resources at the end of the test. - helm_basic_example_template_test.go: Use Terratest to run
helm template
to test template rendering logic.
Finally, to see some real-world examples of Terratest in action, check out some of our open source infrastructure modules:
Package by package overview
Now that you've had a chance to browse the examples and their tests, here's an overview of the packages you'll find in Terratest's modules folder and how they can help you test different types infrastructure:
Package | Description |
---|---|
aws | Functions that make it easier to work with the AWS APIs. Examples: find an EC2 Instance by tag, get the IPs of EC2 Instances in an ASG, create an EC2 KeyPair, look up a VPC ID. |
collections | Go doesn't have much of a collections library built-in, so this package has a few helper methods for working with lists and maps. Examples: subtract two lists from each other. |
docker | Functions that make it easier to work with Docker and Docker Compose. Examples: run docker-compose commands. |
environment | Functions for interacting with os environment. Examples: check for first non empty environment variable in a list. |
files | Functions for manipulating files and folders. Examples: check if a file exists, copy a folder and all of its contents. |
gcp | Functions that make it easier to work with the GCP APIs. Examples: Add labels to a Compute Instance, get the Public IPs of an Instance, Get a list of Instances in a Managed Instance Group, Work with Storage Buckets and Objects. |
git | Functions for working with Git. Examples: get the name of the current Git branch. |
http-helper | Functions for making HTTP requests. Examples: make an HTTP request to a URL and check the status code and body contain the expected values, run a simple HTTP server locally. |
k8s | Functions that make it easier to work with Kubernetes. Examples: Getting the list of nodes in a cluster, waiting until all nodes in a cluster is ready. |
logger | A replacement for Go's t.Log and t.Logf that writes the logs to stdout immediately, rather than buffering them until the very end of the test. This makes debugging and iterating easier. |
logger/parser | Includes functions for parsing out interleaved go test output and piecing out the individual test logs. Used by the terratest_log_parser command. |
oci | Functions that make it easier to work with OCI. Examples: Getting the most recent image of a compartment + OS pair, deleting a custom image, retrieving a random subnet. |
packer | Functions for working with Packer. Examples: run a Packer build and return the ID of the artifact that was created. |
random | Functions for generating random data. Examples: generate a unique ID that can be used to namespace resources so multiple tests running in parallel don't clash. |
retry | Functions for retrying actions. Examples: retry a function up to a maximum number of retries, retry a function until a stop function is called, wait up to a certain timeout for a function to complete. These are especially useful when working with distributed systems and eventual consistency. |
shell | Functions to run shell commands. Examples: run a shell command and return its stdout and stderr . |
ssh | Functions to SSH to servers. Examples: SSH to a server, execute a command, and return stdout and stderr . |
terraform | Functions for working with Terraform. Examples: run terraform init , terraform apply , terraform destroy . |
test_structure | Functions for structuring your tests to speed up local iteration. Examples: break up your tests into stages so that any stage can be skipped by setting an environment variable. |
GoDoc
You can find the GoDoc for Terratest here: https://godoc.org/github.com/gruntwork-io/terratest. This will let you see the methods and types within each package.
Testing best practices
Testing infrastructure as code (IaC) is hard. With general purpose programming languages (e.g., Java, Python, Ruby), you have a "localhost" environment where you can run and test the code before you commit. You can also isolate parts of your code from external dependencies to create fast, reliable unit tests. With IaC, neither of these advantages is typically available, as there isn't a "localhost" equivalent for most IaC code (e.g., I can't use Terraform to deploy an AWS VPC on my own laptop) and there's no way to isolate your code from the outside world (i.e., the whole point of a tool like Terraform is to make calls to AWS, so if you remove AWS, there's nothing left).
That means that most of the tests are going to be integration tests that deploy into a real AWS account. This makes the tests effective at catching real-world bugs, but it also makes them much slower and more brittle. In this section, we'll outline some best practices to minimize the downsides of this sort of testing.
- Testing environment
- Namespacing
- Cleanup
- Timeouts and logging
- Debugging interleaved test output
- Avoid test caching
- Error handling
- Iterating locally using Docker
- Iterating locally using test stages
Testing environment
Since most automated tests written with Terratest can make potentially destructive changes in your environment, we strongly recommend running tests in an environment that is totally separate from production. For example, if you are testing infrastructure code for AWS, you should run your tests in a completely separate AWS account.
This means that you will have to write your infrastructure code in such a way that you can plug in (dependency injection environment-specific details, such as account IDs, domain names, IP addresses, etc. Adding support for this will typically make your code cleaner and more flexible.
Namespacing
Just about all resources your tests create (e.g., servers, load balancers, machine images) should be "namespaced" with a unique name to ensure that:
- You don't accidentally overwrite any "production" resources in that environment (though as mentioned in the previous section, your test environment should be completely isolated from prod anyway).
- You don't accidentally clash with other tests running in parallel.
For example, when deploying AWS infrastructure with Terraform, that typically means exposing variables that allow you to configure auto scaling group names, security group names, IAM role names, and any other names that must be unique.
You can use Terratest's random.UniqueId()
function to generate identifiers that are short enough to use in resource
names (just 6 characters) but random enough to make it unlikely that you'll have a conflict.
uniqueId := random.UniqueId()
instanceName := fmt.Sprintf("terratest-http-example-%s", uniqueId)
terraformOptions := &terraform.Options {
TerraformDir: "../examples/terraform-http-example",
Vars: map[string]interface{} {
"instance_name": instanceName,
},
}
terraform.Apply(t, terraformOptions)
Cleanup
Since automated tests with Terratest deploy real resources into real environments, you'll want to make sure your tests
always cleanup after themselves so you don't leave a bunch of resources lying around. Typically, you should use Go's
defer
keyword to ensure that the cleanup code always runs, even if the test hits an error along the way.
For example, if your test runs terraform apply
, you should run terraform destroy
at the end to clean up:
// Ensure cleanup always runs
defer terraform.Destroy(t, options)
// Deploy
terraform.Apply(t, options)
// Validate
checkServerWorks(t, options)
Of course, despite your best efforts, occasionally cleanup will fail, perhaps due to the CI server going down, or a bug in your code, or a temporary network outage. To handle those cases, we run a tool called cloud-nuke in our test AWS account on a nightly basis to clean up any leftover resources.
Timeouts and logging
Go's package testing has a default timeout of 10 minutes, after which it forcibly kills your tests (even your cleanup code won't run!). It's not uncommon for infrastructure tests to take longer than 10 minutes, so you'll want to increase this timeout:
go test -timeout 30m
Note that many CI systems will also kill your tests if they don't see any log output for a certain period of time
(e.g., 10 minutes in CircleCI). If you use Go's t.Log
and t.Logf
for logging in your tests, you'll find that these
functions buffer all log output until the very end of the test (see https://github.com/golang/go/issues/24929 for more
info). If you have a long-running test, this might mean you get no log output for more than 10 minutes, and the CI
system will shut down your tests. Moreover, if your test has a bug that causes it to hang, you won't see any log output
at all to help you debug it.
Therefore, we recommend instead using Terratest's logger.Log
and logger.Logf
functions, which log to stdout
immediately:
func TestFoo(t *testing.T) {
logger.Log(t, "This will show up in stdout immediately")
}
Finally, if you're testing multiple Go packages, be aware that Go will buffer log output—even that sent directly to
stdout
by logger.Log
and logger.Logf
—until all the tests in the package are done. This leads to the same
difficulties with CI servers and debugging. The workaround is to tell Go to test each package sequentially using the
-p 1
flag:
go test -timeout 30m -p 1 ./...
Debugging interleaved test output
Note: The terratest_log_parser
requires an explicit installation. See Installing the utility
binaries for installation instructions.
If you log using Terratest's logger
package, you may notice that all the test outputs are interleaved from the
parallel execution. This may make it difficult to debug failures, as it can be tedious to sift through the logs to find
the relevant entries for a failing test, let alone find the test that failed.
Therefore, Terratest ships with a utility binary terratest_log_parser
that can be used to break out the logs.
To use the utility, you simply give it the log output from a go test
run and a desired output directory:
go test -timeout 30m | tee test_output.log
terratest_log_parser -testlog test_ouptut.log -outputdir test_output
This will:
- Create a file
TEST_NAME.log
for each test it finds from the test output containing the logs corresponding to that test. - Create a
summary.log
file containing the test result lines for each test. - Create a
report.xml
file containing a Junit XML file of the test summary (so it can be integrated in your CI).
The output can be integrated in your CI engine to further enhance the debugging experience. See Terratest's own circleci configuration for an example of how to integrate the utility with CircleCI. This provides for each build:
- A test summary view showing you which tests failed:
- A snapshot of all the logs broken out by test:
Avoid test caching
Since Go 1.10, test results are automatically cached. This can lead to Go not
running your tests again if you haven't changed any of the Go code. Since you're probably mainly manipulating Terraform
files, you should consider turning the caching of test results off. This ensures that the tests are run every time
you run go test
and the result is not just read from the cache.
To turn caching off, you can use the GOCACHE
environment variable and set it to off
:
$ GOCACHE=off go test -timeout 30m -p 1 ./...
Error handling
Just about every method foo
in Terratest comes in two versions: foo
and fooE
(e.g., terraform.Apply
and
terraform.ApplyE
).
-
foo
: The base method takes at *testing.T
as an argument. If the method hits any errors, it callst.Fatal
to fail the test. -
fooE
: Methods that end with the capital letterE
always return anerror
as the last argument and never callt.Fatal
themselves. This allows you to decide how to handle errors.
You will use the base method name most of the time, as it allows you to keep your code more concise by avoiding
if err != nil
checks all over the place:
terraform.Init(t, terraformOptions)
terraform.Apply(t, terraformOptions)
url := terraform.Output(t, terraformOptions, "url")
In the code above, if Init
, Apply
, or Output
hits an error, the method will call t.Fatal
and fail the test
immediately, which is typically the behavior you want. However, if you are expecting an error and don't want it to
cause a test failure, use the method name that ends with a capital E
:
if _, err := terraform.InitE(t, terraformOptions); err != nil {
// Do something with err
}
if _, err := terraform.ApplyE(t, terraformOptions); err != nil {
// Do something with err
}
url, err := terraform.OutputE(t, terraformOptions, "url")
if err != nil {
// Do something with err
}
As you can see, the code above is more verbose, but gives you more flexibility with how to handle errors.
Iterating locally using Docker
For most infrastructure code, your only option is to deploy into a real environment such as AWS. However, if you're writing scripts (i.e., Bash, Python, or Go), you should be able to test them locally using Docker. Docker containers typically build 10x faster and start 100x faster than real servers, so using Docker for testing can help you iterate much faster.
Here are some techniques we use with Docker:
-
If your script is used in a Packer template, add a Docker builder to the template so you can create a Docker image from the same code. See the Packer Docker Example for working sample code.
-
We have prebuilt Docker images for major Linux distros that have many important dependencies (e.g., curl, vim, tar, sudo) already installed. See the test-docker-images folder for more details.
-
Create a
docker-compose.yml
to make it easier to run your Docker image with all the ports, environment variables, and other settings it needs. See the Packer Docker Example for working sample code. -
With scripts in Docker, you can replace some real-world dependencies with mocks! One way to do this is to create some "mock scripts" and to bind-mount them in
docker-compose.yml
in a way that replaces the real dependency. For example, if your script calls theaws
CLI, you could create a mock script calledaws
that shows up earlier in thePATH
. Using mocks allows you to test 100% locally, without external dependencies such as AWS.
Iterating locally using test stages
Most automated tests written with Terratest consist of multiple "stages", such as:
- Build an AMI using Packer
- Deploy the AMI using Terraform
- Validate that the AMI works as expected
- Undeploy the AMI using Terraform
Often, while testing locally, you'll want to re-run some subset of these stages over and over again: for example, you might want to repeatedly run the validation step while you work out the kinks. Having to run all of these stages each time you change a single line of code can be very slow.
This is where Terratest's test_structure
package comes in handy: it allows you to explicitly break up your tests into
stages and to be able to disable any one of those stages simply by setting an environment variable. Check out the
terraform_packer_example_test.go for working sample code.
Alternative testing tools
A list of infrastructure testing tools
Below is a list of other infrastructure testing tools you may wish to use in addition to Terratest. Check out How Terratest compares to other testing tools to understand the trade-offs.
- kitchen-terraform
- rspec-terraform
- serverspec
- inspec
- Goss
- awspec
- Terraform's acceptance testing framework
- ruby_terraform
How Terratest compares to other testing tools
Most of the other infrastructure testing tools we've seen are focused on making it easy to check the properties of a
single server or resource. For example, the various xxx-spec
tools offer a nice, concise language for connecting to
a server and checking if, say, httpd
is installed and running. These tools are effectively verifying that individual
"properties" of your infrastructure meet a certain spec.
Terratest approaches the testing problem from a different angle. The question we're trying to answer is, "does the
infrastructure actually work?" Instead of checking individual server properties (e.g., is httpd
installed and
running), we'll actually make HTTP requests to the server and check that we get the expected response; or we'll store
data in a database and make sure we can read it back out; or we'll try to deploy a new version of a Docker container
and make sure the orchestration tool can roll out the new container with no downtime.
Moreover, we use Terratest not only with individual servers, but to test entire systems. For example, the automated tests for the Vault module do the following:
- Use Packer to build an AMI.
- Use Terraform to create self-signed TLS certificates.
- Use Terraform to deploy all the infrastructure: a Vault cluster (which runs the AMI from the previous step), Consul cluster, load balancers, security groups, S3 buckets, and so on.
- SSH to a Vault node to initialize the cluster.
- SSH to all the Vault nodes to unseal them.
- Use the Vault SDK to store data in Vault.
- Use the Vault SDK to make sure you can read the same data back out of Vault.
- Use Terraform to undeploy and clean up all the infrastructure.
The steps above are exactly what you would've done to test the Vault module manually. Terratest helps automate this process. You can think of Terratest as a way to do end-to-end, acceptance or integration testing, whereas most other tools are focused on unit or functional testing.
Why Terratest?
Our experience with building the Infrastructure as Code Library is that the only way to create reliable, maintainable infrastructure code is to have a thorough suite of real-world, end-to-end acceptance tests. Without these sorts of tests, you simply cannot be confident that the infrastructure code actually works.
This is especially important with modern DevOps, as all the tools are changing so quickly. Terratest has helped us catch bugs not only in our own code, but also in AWS, Azure, Terraform, Packer, Kafka, Elasticsearch, CircleCI, and so on. Moreover, by running tests nightly, we're able to catch backwards incompatible changes and regressions in our dependencies (e.g., backwards incompatibilities in new versions of Terraform) as early as possible.
Developing Terratest
Contributing
Contributions are very welcome! Check out the Contribution Guidelines for instructions.
Running tests
Terratest itself includes a number of automated tests.
Note #1: Some of these tests create real resources in an AWS account. That means they cost money to run, especially if you don't clean up after yourself. Please be considerate of the resources you create and take extra care to clean everything up when you're done!
Note #2: In order to run tests that access your AWS account, you will need to configure your AWS CLI
credentials. For example, you could
set the credentials as the environment variables AWS_ACCESS_KEY_ID
and AWS_SECRET_ACCESS_KEY
.
Note #3: Never hit CTRL + C
or cancel a build once tests are running or the cleanup tasks won't run!
Prerequisite: Most the tests expect Terraform, Packer, and/or Docker to already be installed and in your PATH
.
To run all the tests:
go test -v -timeout 30m -p 1 ./...
To run the tests in a specific folder:
cd "<FOLDER_PATH>"
go test -timeout 30m
To run a specific test in a specific folder:
cd "<FOLDER_PATH>"
go test -timeout 30m -run "<TEST_NAME>"
Versioning
This repo follows the principles of Semantic Versioning. You can find each new release, along with the changelog, in the Releases Page.
During initial development, the major version will be 0 (e.g., 0.x.y
), which indicates the code does not yet have a
stable API. Once we hit 1.0.0
, we will make every effort to maintain a backwards compatible API and use the MAJOR,
MINOR, and PATCH versions on each release to indicate any incompatibilities.
License
This code is released under the Apache 2.0 License. Please see LICENSE and NOTICE for more details.
Copyright © 2018 Gruntwork, Inc.
Directories ¶
Path | Synopsis |
---|---|
modules
|
|
aws
Package aws allows to interact with resources on Amazon Web Services.
|
Package aws allows to interact with resources on Amazon Web Services. |
collections
Package collections allows to interact with lists of things.
|
Package collections allows to interact with lists of things. |
docker
Package docker allows to interact with Docker and docker-compose resources.
|
Package docker allows to interact with Docker and docker-compose resources. |
environment
Package environment provides utility functions for interacting with the OS environment (e.g environment variables).
|
Package environment provides utility functions for interacting with the OS environment (e.g environment variables). |
files
Package files allows to interact with files on a file system.
|
Package files allows to interact with files on a file system. |
gcp
Package gcp allows interaction with Google Cloud Platform resources.
|
Package gcp allows interaction with Google Cloud Platform resources. |
git
Package git allows to interact with Git.
|
Package git allows to interact with Git. |
http-helper
Package http_helper contains helpers to interact with deployed resources through HTTP.
|
Package http_helper contains helpers to interact with deployed resources through HTTP. |
logger
Package logger contains different methods to log.
|
Package logger contains different methods to log. |
packer
Package packer allows to interact with Packer.
|
Package packer allows to interact with Packer. |
random
Package random contains different random generators.
|
Package random contains different random generators. |
retry
Package retry contains logic to retry actions with certain conditions.
|
Package retry contains logic to retry actions with certain conditions. |
shell
Package shell allows to run commands in a shell.
|
Package shell allows to run commands in a shell. |
ssh
Package ssh allows to manage SSH connections and send commands through them.
|
Package ssh allows to manage SSH connections and send commands through them. |
terraform
Package terraform allows to interact with Terraform.
|
Package terraform allows to interact with Terraform. |
test-structure
Package test_structure allows to set up tests and their environment.
|
Package test_structure allows to set up tests and their environment. |