Custom Workflows
Custom workflows can be defined to override the default commands that Atlantis runs.
Usage
Custom workflows can be specified in the Server-Side Repo Config or in the Repo-Level atlantis.yaml
files.
Notes
- If you want to allow repos to select their own workflows, they must have the
allowed_overrides: [workflow]
setting. See server-side repo config use cases for more details. - If in addition you also want to allow repos to define their own workflows, they must have the
allow_custom_workflows: true
setting. See server-side repo config use cases for more details.
Use Cases
.tfvars files
Given the structure:
.
└── project1
├── main.tf
├── production.tfvars
└── staging.tfvars
If you wanted Atlantis to automatically run plan with -var-file staging.tfvars
and -var-file production.tfvars
you could define two workflows:
# repos.yaml or atlantis.yaml
workflows:
staging:
plan:
steps:
- init
- plan:
extra_args: ["-var-file", "staging.tfvars"]
# NOTE: no need to define the apply stage because it will default
# to the normal apply stage.
production:
plan:
steps:
- init
- plan:
extra_args: ["-var-file", "production.tfvars"]
apply:
steps:
- apply:
extra_args: ["-var-file", "production.tfvars"]
import:
steps:
- init
- import:
extra_args: ["-var-file", "production.tfvars"]
state_rm:
steps:
- init
- state_rm:
extra_args: ["-lock=false"]
Then in your repo-level atlantis.yaml
file, you would reference the workflows:
# atlantis.yaml
version: 3
projects:
# If two or more projects have the same dir and workspace, they must also have
# a 'name' key to differentiate them.
- name: project1-staging
dir: project1
workflow: staging
- name: project1-production
dir: project1
workflow: production
workflows:
# If you didn't define the workflows in your server-side repos.yaml config,
# you would define them here instead.
When you want to apply the plans, you can comment
atlantis apply -p project1-staging
and
atlantis apply -p project1-production
Where -p
refers to the project name.
Adding extra arguments to Terraform commands
If you need to append flags to terraform plan
or apply
temporarily, you can append flags on a comment following --
, for example commenting:
atlantis plan -- -lock=false
If you always need to do this for a project's init
, plan
or apply
commands then you must define a custom workflow and set the extra_args
key for the command you need to modify.
# atlantis.yaml or repos.yaml
workflows:
myworkflow:
plan:
steps:
- init:
extra_args: ["-lock=false"]
- plan:
extra_args: ["-lock=false"]
apply:
steps:
- apply:
extra_args: ["-lock=false"]
If policy checking is enabled, extra_args
can also be used to change the default behaviour of conftest.
workflows:
myworkflow:
policy_check:
steps:
- show
- policy_check:
extra_args: ["--all-namespaces"]
Custom init/plan/apply Commands
If you want to customize terraform init
, plan
or apply
in ways that aren't supported by extra_args
, you can completely override those commands.
In this example, we're not using any of the built-in commands and are instead using our own.
# atlantis.yaml or repos.yaml
workflows:
myworkflow:
plan:
steps:
# If you want to hide command output from Atlantis's PR comment, use
# the output option on the run step's expanded form.
- run:
command: terraform init -input=false
output: hide
# If you're using workspaces you need to select the workspace using the
# $WORKSPACE environment variable.
- run: terraform workspace select $WORKSPACE
# You MUST output the plan using -out $PLANFILE because Atlantis expects
# plans to be in a specific location.
- run: terraform plan -input=false -refresh -out $PLANFILE
apply:
steps:
# Again, you must use the $PLANFILE environment variable.
- run: terraform apply $PLANFILE
CDKTF
Here are the requirements to enable CDKTF
- A custom image with
CDKTF
installed - Add
**/cdk.tf.json
to the list of Atlantis autoplan files. - Set the
atlantis-include-git-untracked-files
flag so that the Terraform files dynamically generated by CDKTF will be add to the Atlantis modified file list. - Use
pre_workflow_hooks
to runcdktf synth
- Optional: There isn't a requirement to use a repo
atlantis.yaml
but one can be leveraged if needed.
Custom Image
# Dockerfile
FROM ghcr.io/runatlantis/atlantis:v0.19.7
RUN apk add npm && npm i -g cdktf-cli
Server Config
# env variables
ATLANTIS_AUTOPLAN_FILE_LIST="**/*.tf,**/*.tfvars,**/*.tfvars.json,**/cdk.tf.json"
ATLANTIS_INCLUDE_GIT_UNTRACKED_FILES=true
OR
atlantis server --config config.yaml
# config.yaml
autoplan-file-list: "**/*.tf,**/*.tfvars,**/*.tfvars.json,**/cdk.tf.json"
include-git-untracked-files: true
Server Repo Config
Use pre_workflow_hooks
atlantis server --repo-config="repos.yaml"
# repos.yaml
repos:
- id: /.*cdktf.*/
pre_workflow_hooks:
- run: npm i && cdktf get && cdktf synth --output ci-cdktf.out
Note: don't use the default cdktf.out
directory that CDKTF uses, as this should be in the .gitignore
list of the repo, so that locally generated files are not checked in.
Repo Structure
This is the git repo structure after running cdktf synth
. The cdk.tf.json
files contain the Terraform configuration that atlantis can run.
$ tree --gitignore
.
├── cdktf.json
├── ci-cdktf.out
│ ├── manifest.json
│ └── stacks
│ └── eks
│ └── cdk.tf.json
Workflow
- Container orchestrator (k8s/fargate/ecs/etc) uses the custom docker image of atlantis with
cdktf
installed with the--autoplan-file-list
to trigger oncdk.tf.json
files and--include-git-untracked-files
set to include the CDKTF dynamically generated Terraform files in the Atlantis plan. - PR branch is pushed up containing
cdktf
code changes. - Atlantis checks out the branch in the repo.
- Atlantis runs the
npm i && cdktf get && cdktf synth
command in the repo root as a step inpre_workflow_hooks
, generating thecdk.tf.json
Terraform files. - Atlantis detects the
cdk.tf.json
untracked files in a number of directories. - Atlantis then runs
terraform
workflows in the respective directories as usual.
Terragrunt
Atlantis supports running custom commands in place of the default Atlantis commands. We can use this functionality to enable Terragrunt.
You can either use your repo's atlantis.yaml
file or the Atlantis server's repos.yaml
file.
Given a directory structure:
.
└── live
├── prod
│ └── terragrunt.hcl
└── staging
└── terragrunt.hcl
If using the server repos.yaml
file, you would use the following config:
# repos.yaml
# Specify TERRAGRUNT_TFPATH environment variable to accommodate setting --default-tf-version
# Generate json plan via terragrunt for policy checks
repos:
- id: "/.*/"
workflow: terragrunt
workflows:
terragrunt:
plan:
steps:
- env:
name: TERRAGRUNT_TFPATH
command: 'echo "terraform${ATLANTIS_TERRAFORM_VERSION}"'
- env:
# Reduce Terraform suggestion output
name: TF_IN_AUTOMATION
value: 'true'
- run:
# Allow for targetted plans/applies as not supported for Terraform wrappers by default
command: terragrunt plan -input=false $(printf '%s' $COMMENT_ARGS | sed 's/,/ /g' | tr -d '\\') -no-color -out $PLANFILE
output: hide
- run: |
terragrunt show $PLANFILE
apply:
steps:
- env:
name: TERRAGRUNT_TFPATH
command: 'echo "terraform${ATLANTIS_TERRAFORM_VERSION}"'
- env:
# Reduce Terraform suggestion output
name: TF_IN_AUTOMATION
value: 'true'
- run: terragrunt apply -input=false $PLANFILE
import:
steps:
- env:
name: TERRAGRUNT_TFPATH
command: 'echo "terraform${DEFAULT_TERRAFORM_VERSION}"'
- env:
name: TF_VAR_author
command: 'git show -s --format="%ae" $HEAD_COMMIT'
# Allow for imports as not supported for Terraform wrappers by default
- run: terragrunt import -input=false $(printf '%s' $COMMENT_ARGS | sed 's/,/ /' | tr -d '\\')
state_rm:
steps:
- env:
name: TERRAGRUNT_TFPATH
command: 'echo "terraform${DEFAULT_TERRAFORM_VERSION}"'
# Allow for state removals as not supported for Terraform wrappers by default
- run: terragrunt state rm $(printf '%s' $COMMENT_ARGS | sed 's/,/ /' | tr -d '\\')
If using the repo's atlantis.yaml
file you would use the following config:
version: 3
projects:
- dir: live/staging
workflow: terragrunt
- dir: live/prod
workflow: terragrunt
workflows:
terragrunt:
plan:
steps:
- env:
name: TERRAGRUNT_TFPATH
command: 'echo "terraform${ATLANTIS_TERRAFORM_VERSION}"'
- env:
# Reduce Terraform suggestion output
name: TF_IN_AUTOMATION
value: 'true'
- run:
command: terragrunt plan -input=false -out=$PLANFILE
output: strip_refreshing
apply:
steps:
- env:
name: TERRAGRUNT_TFPATH
command: 'echo "terraform${ATLANTIS_TERRAFORM_VERSION}"'
- env:
# Reduce Terraform suggestion output
name: TF_IN_AUTOMATION
value: 'true'
- run: terragrunt apply $PLANFILE
NOTE: If using the repo's atlantis.yaml
file, you will need to specify each directory that is a Terragrunt project.
WARNING
Atlantis will need to have the terragrunt
binary in its PATH. If you're using Docker you can build your own image, see Customization.
If you don't want to create/manage the repo's atlantis.yaml
file yourself, you can use the tool terragrunt-atlantis-config to generate it.
The terragrunt-atlantis-config
tool is a community project and not maintained by the Atlantis team.
Running custom commands
Atlantis supports running completely custom commands. In this example, we want to run a script after every apply
:
# repos.yaml or atlantis.yaml
workflows:
myworkflow:
apply:
steps:
- apply
- run: ./my-custom-script.sh
Notes
- We don't need to write a
plan
key undermyworkflow
. Ifplan
isn't set, Atlantis will use the default plan workflow which is what we want in this case. - A custom command will only terminate if all output file descriptors are closed. Therefore a custom command can only be sent to the background (e.g. for an SSH tunnel during the terraform run) when its output is redirected to a different location. For example, Atlantis will execute a custom script containing the following code to create a SSH tunnel correctly:
ssh -f -M -S /tmp/ssh_tunnel -L 3306:database:3306 -N bastion 1>/dev/null 2>&1
. Without the redirect, the script would block the Atlantis workflow.
Custom Backend Config
If you need to specify the -backend-config
flag to terraform init
you'll need to use a custom workflow. In this example, we're using custom backend files to configure two remote states, one for each environment. We're then using .tfvars
files to load different variables for each environment.
# repos.yaml or atlantis.yaml
workflows:
staging:
plan:
steps:
- run: rm -rf .terraform
- init:
extra_args: [-backend-config=staging.backend.tfvars]
- plan:
extra_args: [-var-file=staging.tfvars]
production:
plan:
steps:
- run: rm -rf .terraform
- init:
extra_args: [-backend-config=production.backend.tfvars]
- plan:
extra_args: [-var-file=production.tfvars]
NOTE
We have to use a custom run
step to rm -rf .terraform
because otherwise Terraform will complain in-between commands since the backend config has changed.
You would then reference the workflows in your repo-level atlantis.yaml
:
version: 3
projects:
- name: staging
dir: .
workflow: staging
- name: production
dir: .
workflow: production
Reference
Workflow
plan:
apply:
import:
state_rm:
Key | Type | Default | Required | Description |
---|---|---|---|---|
plan | Stage | steps: [init, plan] | no | How to plan for this project. |
apply | Stage | steps: [apply] | no | How to apply for this project. |
import | Stage | steps: [init, import] | no | How to import for this project. |
state_rm | Stage | steps: [init, state_rm] | no | How to run state rm for this project. |
Stage
steps:
- run: custom-command
- init
- plan:
extra_args: [-lock=false]
Key | Type | Default | Required | Description |
---|---|---|---|---|
steps | array[Step] | [] | no | List of steps for this stage. If the steps key is empty, no steps will be run for this stage. |
Step
Built-In Commands
Steps can be a single string for a built-in command.
- init
- plan
- apply
- import
- state_rm
Key | Type | Default | Required | Description |
---|---|---|---|---|
init/plan/apply/import/state_rm | string | none | no | Use a built-in command without additional configuration. Only init , plan , apply , import and state_rm are supported |
Built-In Command With Extra Args
A map from string to extra_args
for a built-in command with extra arguments.
- init:
extra_args: [arg1, arg2]
- plan:
extra_args: [arg1, arg2]
- apply:
extra_args: [arg1, arg2]
- import:
extra_args: [arg1, arg2]
- state_rm:
extra_args: [arg1, arg2]
Key | Type | Default | Required | Description |
---|---|---|---|---|
init/plan/apply/import/state_rm | map[extra_args -> array[string]] | none | no | Use a built-in command and append extra_args . Only init , plan , apply , import and state_rm are supported as keys and only extra_args is supported as a value |
run
Command
Custom A custom command can be written in 2 ways
Compact:
- run: custom-command arg1 arg2
Key | Type | Default | Required | Description |
---|---|---|---|---|
run | string | none | no | Run a custom command |
Full
- run:
command: custom-command arg1 arg2
output: show
Key | Type | Default | Required | Description |
---|---|---|---|---|
run | map[string -> string] | none | no | Run a custom command |
run.command | string | none | yes | Shell command to run |
run.output | string | "show" | no | How to post-process the output of this command when posted in the PR comment. The options are * show - preserve the full output* hide - hide output from comment (still visible in the real-time streaming output)* strip_refreshing - hide all output up until and including the last line containing "Refreshing...". This matches the behavior of the built-in plan command |
Notes
run
steps in the mainworkflow
are executed with the following environment variables:
note: these variables are not available topre
orpost
workflowsWORKSPACE
- The Terraform workspace used for this project, ex.default
.
NOTE: if the step is executed beforeinit
then Atlantis won't have switched to this workspace yet.ATLANTIS_TERRAFORM_VERSION
- The version of Terraform used for this project, ex.0.11.0
.DIR
- Absolute path to the current directory.PLANFILE
- Absolute path to the location where Atlantis expects the plan to either be generated (by plan) or already exist (if running apply). Can be used to override the built-inplan
/apply
commands, ex.run: terraform plan -out $PLANFILE
.SHOWFILE
- Absolute path to the location where Atlantis expects the plan in json format to either be generated (by show) or already exist (if running policy checks). Can be used to override the built-inplan
/apply
commands, ex.run: terraform show -json $PLANFILE > $SHOWFILE
.POLICYCHECKFILE
- Absolute path to the location of policy check output if Atlantis runs policy checks. See policy checking for information of data structure.BASE_REPO_NAME
- Name of the repository that the pull request will be merged into, ex.atlantis
.BASE_REPO_OWNER
- Owner of the repository that the pull request will be merged into, ex.runatlantis
.HEAD_REPO_NAME
- Name of the repository that is getting merged into the base repository, ex.atlantis
.HEAD_REPO_OWNER
- Owner of the repository that is getting merged into the base repository, ex.acme-corp
.HEAD_BRANCH_NAME
- Name of the head branch of the pull request (the branch that is getting merged into the base)HEAD_COMMIT
- The sha256 that points to the head of the branch that is being pull requested into the base. If the pull request is from Bitbucket Cloud the string will only be 12 characters long because Bitbucket Cloud truncates its commit IDs.BASE_BRANCH_NAME
- Name of the base branch of the pull request (the branch that the pull request is getting merged into)PROJECT_NAME
- Name of the project configured inatlantis.yaml
. If no project name is configured this will be an empty string.PULL_NUM
- Pull request number or ID, ex.2
.PULL_URL
- Pull request URL, ex.https://github.com/runatlantis/atlantis/pull/2
.PULL_AUTHOR
- Username of the pull request author, ex.acme-user
.REPO_REL_DIR
- The relative path of the project in the repository. For example if your project is indir1/dir2/
then this will be set to"dir1/dir2"
. If your project is at the root this will be"."
.USER_NAME
- Username of the VCS user running command, ex.acme-user
. During an autoplan, the user will be the Atlantis API user, ex.atlantis
.COMMENT_ARGS
- Any additional flags passed in the comment on the pull request. Flags are separated by commas and every character is escaped, ex.atlantis plan -- arg1 arg2
will result inCOMMENT_ARGS=\a\r\g\1,\a\r\g\2
.
- A custom command will only terminate if all output file descriptors are closed. Therefore a custom command can only be sent to the background (e.g. for an SSH tunnel during the terraform run) when its output is redirected to a different location. For example, Atlantis will execute a custom script containing the following code to create a SSH tunnel correctly:
ssh -f -M -S /tmp/ssh_tunnel -L 3306:database:3306 -N bastion 1>/dev/null 2>&1
. Without the redirect, the script would block the Atlantis workflow. - If a workflow step returns a non-zero exit code, the workflow will stop.
env
Command
Environment Variable The env
command allows you to set environment variables that will be available to all steps defined below the env
step.
You can set hard coded values via the value
key, or set dynamic values via the command
key which allows you to run any command and uses the output as the environment variable value.
- env:
name: ENV_NAME
value: hard-coded-value
- env:
name: ENV_NAME_2
command: 'echo "dynamic-value-$(date)"'
Key | Type | Default | Required | Description |
---|---|---|---|---|
env | map[string -> string] | none | no | Set environment variables for subsequent steps |
env.name | string | none | yes | Name of the environment variable |
env.value | string | none | no | Set the value of the environment variable to a hard-coded string. Cannot be set at the same time as command |
env.command | string | none | no | Set the value of the environment variable to the output of a command. Cannot be set at the same time as value |
Notes
env
command
's can use any of the built-in environment variables available torun
commands.
multienv
Command
Multiple Environment Variables The multienv
command allows you to set dynamic number of multiple environment variables that will be available to all steps defined below the multienv
step.
- multienv: custom-command
Key | Type | Default | Required | Description |
---|---|---|---|---|
multienv | string | none | no | Run a custom command and add set environment variables according to the result |
The result of the executed command must have a fixed format: EnvVar1Name=value1,EnvVar2Name=value2,EnvVar3Name=value3
The name-value pairs in the result are added as environment variables if success is true otherwise the workflow execution stops with error and the errorMessage is getting displayed.
Notes
multienv
command
's can use any of the built-in environment variables available torun
commands.