π π A web dashboard to inspect Terraform States
Website: https://terraboard.io
Caution: Terraboard's Docker registry was migrated from Dockerhub to GHCR! All new tags will be now pushed here. You can still access to old tags on the legacy Dockerhub repository.
Table of content
Terraboard is a web dashboard to visualize and query Terraform states. It currently features:
- an overview page listing the most recently updated state files with their activity
- a state page with state file details, including versions and resource attributes
- a search interface to query resources by type, name or attributes
- a diff interface to compare state between versions
It currently supports several remote state backend providers:
- AWS S3 (state) + DynamoDB (lock)
- S3 compatible backends (ex: MinIO)
- Google Cloud Storage
- Terraform Cloud (remote)
- GitLab
Terraboard is now able to handle multiple buckets/providers configuration! π₯³ Check configuration section for more details.
The overview presents all the state files in the S3 bucket, by most recent modification date.
The search view allows to find resources by various criteria.
The state view presents details of a Terraform state at a given version.
From the state view, you can compare the current state version with another version.
Independently of the location of your statefiles, Terraboard needs to store an internal version of its dataset. For this purpose it requires a PostgreSQL database. Data resiliency is not paramount though as this dataset can be rebuilt upon your statefiles at anytime.
- A versioned S3 bucket name with one or more Terraform states, named with a
.tfstate
suffix - AWS credentials with the following IAM permissions over the bucket:
s3:GetObject
s3:ListBucket
s3:ListBucketVersions
s3:GetObjectVersion
- If you want to retrieve lock states from a dynamoDB table, you need to make sure the provided AWS credentials have
dynamodb:Scan
access to that table.
- Account on Terraform Cloud
- Existing organization
- Token assigned to an organization
Terraboard currently supports configuration in three different ways:
- Environment variables (only usable for single provider configuration)
- CLI parameters (only usable for single provider configuration)
- Configuration file (YAML). A configuration file example can be found in the root directory of this repository and in the
test/
subdirectory.
Important: all flags/environment variables related to the providers settings aren't compatible with multi-provider configuration! Instead, you must use the YAML config file to be able to configure multiples buckets/providers. YAML config is able to load values from environments variables.
The precedence of configurations is as described below.
In order for Terraboard to import states from multiples buckets or even providers, you must use the YAML configuration method:
- Set the
CONFIG_FILE
environment variable or the-c
/--config-file
flag to point to a valid YAML config file. - In the YAML file, specify your desired providers configuration. For example with two MinIO buckets (using the AWS provider with compatible mode):
# Needed since MinIO doesn't support versioning or locking
provider:
no-locks: true
no-versioning: true
aws:
- endpoint: http://minio:9000/
region: ${AWS_DEFAULT_REGION}
s3:
- bucket: test-bucket
force-path-style: true
file-extension:
- .tfstate
- endpoint: http://minio:9000/
region: eu-west-1
s3:
- bucket: test-bucket2
force-path-style: true
file-extension:
- .tfstate
In the case of AWS, don't forget to set the AWS_ACCESS_KEY_ID
and AWS_SECRET_ACCESS_KEY
environment variables.
That's it! Terraboard will now fetch these two buckets on DB refresh. You can also mix providers like AWS and Gitlab or anything else.
You can find a ready-to-use Docker example with two MinIO buckets in the test/multiple-minio-buckets/
sub-folder.
-V
,--version
Display version.-c
,--config-file
<default: $CONFIG_FILE> Config File path- Env: CONFIG_FILE
--no-versioning
<default: $TERRABOARD_NO_VERSIONING> Disable versioning support from Terraboard (useful for S3 compatible providers like MinIO)- Env: TERRABOARD_NO_VERSIONING
- Yaml: provider.no-versioning
--no-locks
<default: $TERRABOARD_NO_LOCKS> Disable locks support from Terraboard (useful for S3 compatible providers like MinIO)- Env: TERRABOARD_NO_LOCKS
- Yaml: provider.no-locks
-l
,--log-level
<default: "info"> Set log level ('debug', 'info', 'warn', 'error', 'fatal', 'panic').- Env: TERRABOARD_LOG_LEVEL
- Yaml: log.level
--log-format
<default: "plain"> Set log format ('plain', 'json').- Env: TERRABOARD_LOG_FORMAT
- Yaml: log.format
--db-host
<default: "db"> Database host.- Env: DB_HOST
- Yaml: database.host
--db-port
<default: "5432"> Database port.- Env: DB_PORT
- Yaml: database.port
--db-user
<default: "gorm"> Database user.- Env: DB_USER
- Yaml: database.user
--db-password
<default: $DB_PASSWORD> Database password.- Env: DB_PASSWORD
- Yaml: database.password
--db-name
<default: "gorm"> Database name.- Env: DB_NAME
- Yaml: database.name
--db-sslmode
<default: "require"> Database SSL mode.- Env: DB_SSLMODE
- Yaml: database.sslmode
--no-sync
Do not sync database.- Yaml: database.no-sync
--sync-interval
<default: "1"> DB sync interval (in minutes)- Yaml: database.sync-interval
--aws-access-key
<default: $AWS_ACCESS_KEY_ID> AWS account access key.- Env: AWS_ACCESS_KEY_ID
- Yaml: aws.access-key
--aws-secret-access-key
<default: $AWS_SECRET_ACCESS_KEY> AWS secret account access key.- Env: AWS_SECRET_ACCESS_KEY
- Yaml: aws.secret-access-key
--aws-session-token
<default: $AWS_SESSION_TOKEN> AWS session token.- Env: AWS_SESSION_TOKEN
- Yaml: aws.session-token
--dynamodb-table
<default: $AWS_DYNAMODB_TABLE> AWS DynamoDB table for locks.- Env: AWS_DYNAMODB_TABLE
- Yaml: aws.dynamodb-table
--aws-endpoint
<default: $AWS_ENDPOINT> AWS endpoint.- Env: AWS_ENDPOINT
- Yaml: aws.endpoint
--aws-region
<default: $AWS_REGION> AWS region.- Env: AWS_REGION
- Yaml: aws.region
--aws-role-arn
<default: $APP_ROLE_ARN> Role ARN to Assume.- Env: APP_ROLE_ARN
- Yaml: aws.app-role-arn
--aws-external-id
<default: $AWS_EXTERNAL_ID> External ID to use when assuming role.- Env: AWS_EXTERNAL_ID
- Yaml: aws.external-id
--s3-bucket
<default: $AWS_BUCKET> AWS S3 bucket.- Env: AWS_BUCKET
- Yaml: aws.s3.bucket
--key-prefix
<default: $AWS_KEY_PREFIX> AWS Key Prefix.- Env: AWS_KEY_PREFIX
- Yaml: aws.s3.key-prefix
--file-extension
<default: ".tfstate"> File extension(s) of state files.- Env: AWS_FILE_EXTENSION
- Yaml: aws.s3.file-extension
--force-path-style
<default: $AWS_FORCE_PATH_STYLE> Force path style S3 bucket calls.- Env: AWS_FORCE_PATH_STYLE
- Yaml: aws.s3.force-path-style
--tfe-address
<default: $TFE_ADDRESS> Terraform Enterprise address for states access- Env: TFE_ADDRESS
- Yaml: tfe.address
--tfe-token
<default: $TFE_TOKEN> Terraform Enterprise Token for states access- Env: TFE_TOKEN
- Yaml: tfe.token
--tfe-organization
<default: $TFE_ORGANIZATION> Terraform Enterprise organization for states access- Env: TFE_ORGANIZATION
- Yaml: tfe.organization
--gcs-bucket
Google Cloud bucket to search- Yaml: gcp.gcs-bucket
--gcp-sa-key-path
<default: $GCP_SA_KEY_PATH> The path to the service account to use to connect to Google Cloud Platform- Env: GCP_SA_KEY_PATH
- Yaml: gcp.gcp-sa-key-path
--gitlab-address
<default: *"https://gitlab.com"*> GitLab address (root)- Env: GITLAB_ADDRESS
- Yaml: gitlab.address
--gitlab-token
<default: $GITLAB_TOKEN> Token to authenticate upon GitLab- Env: GITLAB_TOKEN
- Yaml: gitlab.token
-p
,--port
<default: "8080"> Port to listen on.- Env: TERRABOARD_PORT
- Yaml: web.port
--base-url
<default: "/"> Base URL.- Env: TERRABOARD_BASE_URL
- Yaml: web.base-url
--logout-url
<default: $TERRABOARD_LOGOUT_URL> Logout URL.- Env: TERRABOARD_LOGOUT_URL
- Yaml: web.logout-url
-h
,--help
Show this help message
In order to send Terraform plans to Terraboard, you must wrap it in this JSON format:
{
"lineage": "<Plan's lineage>",
"terraform_version": "<Terraform version>",
"git_remote": "<The URL of the remote that generated this plan>",
"git_commit": "<Commit hash>",
"ci_url": "<The URL of the CI that sent this plan>",
"source": "<Free field for the triggering event>",
"plan_json": "<Terraform plan JSON export>"
}
And send it to /api/plans
using POST method
Configuration file can be provided to the container using a volume or a configuration.
# Set AWS credentials as environment variables:
export AWS_ACCESS_KEY_ID=<access_key>
export AWS_SECRET_ACCESS_KEY=<access_secret>
# Set AWS configuration as environment variables:
export AWS_DEFAULT_REGION=<AWS default region>
export AWS_BUCKET=<S3 Bucket name>
export AWS_DYNAMODB_TABLE=<Aws DynamoDB Table>
docker-compose up
Then point your browser to http://localhost:8080.
# Set AWS credentials as environment variables:
export AWS_ACCESS_KEY_ID=<access_key>
export AWS_SECRET_ACCESS_KEY=<access_secret>
# Set AWS configuration as environment variables:
export AWS_DEFAULT_REGION=<AWS default region>
export AWS_BUCKET=<S3 Bucket name>
export AWS_DYNAMODB_TABLE=<AWS_DYNAMODB_TABLE>
# Spin up the two containers and a network for them to communciate on:
docker network create terraboard
docker run --name db \
-e POSTGRES_USER=gorm \
-e POSTGRES_DB=gorm \
-e POSTGRES_PASSWORD="<mypassword>" \
-e GODEBUG="netdns=go" \
--net terraboard \
--detach \
--restart=always \
postgres:9.5
docker run -p 8080:8080 \
-e AWS_ACCESS_KEY_ID="${AWS_ACCESS_KEY_ID}" \
-e AWS_SECRET_ACCESS_KEY="${AWS_SECRET_ACCESS_KEY}" \
-e AWS_REGION="${AWS_DEFAULT_REGION}" \
-e AWS_BUCKET="${AWS_BUCKET}" \
-e AWS_DYNAMODB_TABLE="${AWS_DYNAMODB_TABLE}" \
-e DB_PASSWORD="<mypassword>" \
-e DB_SSLMODE="disable" \
--net terraboard \
ghcr.io/camptocamp/terraboard:latest
Then point your browser to http://localhost:8080.
A Helm chart is available on Camptocamp's repository.
In order to install it:
$ helm repo add c2c https://camptocamp.github.io/charts
$ helm install -v values.yaml terraboard c2c/terraboard
Camptocamp's Rancher Catalog contains a Terraboard template to automate its installation in Cattle.
Terraboard does not implement authentication. Instead, it is recommended to use an authentication proxy such as oauth2_proxy.
If you need to set a route path for Terraboard, you can set a base URL by
passing it as the BASE_URL
environment variable.
When using an authentication proxy, Terraboard will retrieve the logged in
user and email from the headers passed by the proxy.
Terraboard expects you to setup the HTTP Headers X-Forwarded-User
and
X-Forwarded-Email
when passing the logged in user and email. A Nginx
example can be found below:
location / {
....
auth_request_set $user $upstream_http_x_auth_request_user;
auth_request_set $email $upstream_http_x_auth_request_email;
proxy_set_header X-Forwarded-User $user;
proxy_set_header X-Forwarded-Email $email;
...
proxy_pass http://terraboard/;
}
You can also pass a TERRABOARD_LOGOUT_URL
parameter to allow users to
sign out of the proxy.
$ go get github.com/camptocamp/terraboard
Terraboard | Max Terraform version |
---|---|
0.15.0 | 0.12.7 |
0.16.0 | 0.12.7 |
0.17.0 | 0.12.18 |
0.18.0 | 0.12.18 |
0.19.0 | 0.12.20 |
0.20.0 | 0.12.26 |
0.21.0 | 0.12.28 |
0.22.0 | 0.13.0 |
1.0.0 | 0.14.5 |
1.1.0 | 0.14.10 |
Terraboard is made of two components:
The server is written in go and runs a web server which serves:
- the API on known access points, taking the data from the PostgreSQL database
- the index page (from static/index.html) on all other URLs
The server also has a routine which regularly (every 1 minute) feeds the PostgreSQL database from the S3 bucket.
The UI is an AngularJS application served from index.html
. All the UI code
can be found in the static/ directory.
$ docker-compose build && docker-compose up -d
# Point your browser to http://localhost
See CONTRIBUTING.md