This is an example repo showing how the CFT Terraform modules can be composed to build a secure GCP foundation, following the Google Cloud security foundations guide. The supplied structure and code is intended to form a starting point for building your own foundation with pragmatic defaults you can customize to meet your own requirements. Currently, the step 0 is manually executed. From step 1 onwards, the Terraform code is deployed by leveraging either Google Cloud Build (by default) or Jenkins. Cloud Build has been chosen by default to allow teams to quickly get started without needing to deploy a CI/CD tool, although it is worth noting the code can easily be executed by your preferred tool.
This repo contains several distinct Terraform projects each within their own directory that must be applied separately, but in sequence. Each of these Terraform projects are to be layered on top of each other, running in the following order.
This stage executes the CFT Bootstrap module which bootstraps an existing GCP organization, creating all the required GCP resources & permissions to start using the Cloud Foundation Toolkit (CFT). For CI/CD Pipelines, you can use either Cloud Build (by default) or Jenkins. If you want to use Jenkins instead of Cloud Build, please see README-Jenkins on how to use the included Jenkins sub-module.
The bootstrap step includes:
- The
prj-b-seed
project, which contains:- Terraform state bucket
- Custom Service Accounts used by Terraform to create new resources in GCP
- The
prj-b-cicd
project, which contains:- A CI/CD Pipeline implemented with either Cloud Build or Jenkins
- If using Cloud Build:
- Cloud Source Repository
- Artifact Registry
- If using Jenkins:
- A GCE Instance configured as a Jenkins Agent
- Custom Service Account to run Jenkins Agents GCE instances
- VPN connection with on-prem (or where ever your Jenkins Controller is located)
It is a best practice to separate concerns by having two projects here: one for the CFT resources and one for the CI/CD tool.
The prj-b-seed
project stores Terraform state and has the Service Accounts able to create / modify infrastructure.
On the other hand, the deployment of that infrastructure is coordinated by a CI/CD tool of your choice allocated in a second project named prj-b-cicd
.
To further separate the concerns at the IAM level as well, a distinct service account is created for each stage.
If using Cloud Build, these service accounts are used directly in the pipeline to execute the pipeline steps (plan
or apply
).
In this configuration, the baseline permissions of the CI/CD tool are unchanged, and the Terraform custom Service Accounts are granted the IAM permissions required to build the foundation.
If using Jenkins The CI/CD tool account ([email protected]
) is granted access to generate tokens over the Terraform custom Service Accounts.
In this configuration, the baseline permissions of the CI/CD tool are limited, and the Terraform custom Service Accounts are granted the IAM permissions required to build the foundation.
After executing this step, you will have the following structure:
example-organization/
└── fldr-bootstrap
├── prj-b-cicd
└── prj-b-seed
When this step uses the Cloud Build submodule, it sets up Cloud Build and Cloud Source Repositories for each of the stages below.
Triggers are configured to run a terraform plan
for any non environment branch and terraform apply
when changes are merged to an environment branch (development
, non-production
& production
).
Usage instructions are available in the 0-bootstrap README.
The purpose of this stage is to set up the common folder used to house projects which contain shared resources such as DNS Hub, Interconnect, SCC Notification, org level secrets, Network Hub and org level logging. This will create the following folder & project structure:
example-organization
└── fldr-common
├── prj-c-logging
├── prj-c-base-net-hub
├── prj-c-billing-logs
├── prj-c-dns-hub
├── prj-c-interconnect
├── prj-c-restricted-net-hub
├── prj-c-scc
└── prj-c-secrets
Among the eight projects created under the common folder, two projects (prj-c-logging
, prj-c-billing-logs
) are used for logging.
The first one for organization wide audit logs, and the latter for billing logs.
In both cases the logs are collected into BigQuery datasets which can then be used general querying, dashboarding & reporting. Logs are also exported to Pub/Sub, GCS bucket, and Log Bucket.
Notes:
- Log export to GCS bucket has optional object versioning support via
log_export_storage_versioning
. - The various audit log types being captured in BigQuery are retained for 30 days.
- For billing data, a BigQuery dataset is created with permissions attached, however you will need to configure a billing export manually, as there is no easy way to automate this at the moment.
Another project created under the common folder. This project will host the DNS Hub for the organization.
Another project created under the common folder. This project will host the Dedicated Interconnect Interconnect connection for the organization. In case of the Partner Interconnect this project is unused and the VLAN attachments will be placed directly into the corresponding Hub projects.
Another project created under the common folder. This project will host the SCC Notification resources at the organization level. This project will contain a Pub/Sub topic and subscription, a SCC Notification configured to send all new Findings to the topic created. You can adjust the filter when deploying this step.
Another project created under the common folder. This project is allocated for GCP Secret Manager for secrets shared by the organization.
Usage instructions are available for the org step in the README.
The purpose of this stage is to set up the environments folders used to house projects which contain monitoring, secrets, networking projects. This will create the following folder & project structure:
example-organization
└── fldr-development
├── prj-d-monitoring
├── prj-d-secrets
├── prj-d-shared-base
└── prj-d-shared-restricted
└── fldr-non-production
├── prj-n-monitoring
├── prj-n-secrets
├── prj-n-shared-base
└── prj-n-shared-restricted
└── fldr-production
├── prj-p-monitoring
├── prj-p-secrets
├── prj-p-shared-base
└── prj-p-shared-restricted
Under the environment folder, a project is created per environment (development
, non-production
& production
), which is intended to be used as a Cloud Monitoring workspace for all projects in that environment.
Please note that creating the workspace and linking projects can currently only be completed through the Cloud Console.
If you have strong IAM requirements for these monitoring workspaces, it is worth considering creating these at a more granular level, such as per business unit or per application.
Under the environment folder, two projects, one for base and another for restricted network, are created per environment (development
, non-production
& production
) which is intended to be used as a Shared VPC Host project for all projects in that environment.
This stage only creates the projects and enables the correct APIs, the following networks stages, 3-networks-dual-svpc and 3-networks-hub-and-spoke, create the actual Shared VPC networks.
Under the environment folder, a project is created per environment (development
, non-production
& production
), which is intended to be used by GCP Secret Manager for secrets shared by the environment.
Usage instructions are available for the environments step in the README.
This step focuses on creating a Shared VPC per environment (development
, non-production
& production
) in a standard configuration with a reasonable security baseline. Currently, this includes:
- Optional - Example subnets for
development
,non-production
&production
inclusive of secondary ranges for those that want to use GKE. - Hierarchical firewall policy created to allow remote access to VMs through IAP, without needing public IPs.
- Hierarchical firewall policy created to allow for load balancing health checks.
- Hierarchical firewall policy created to allow Windows KMS activation.
- Private service networking configured to enable workload dependant resources like Cloud SQL.
- Base Shared VPC with private.googleapis.com configured for base access to googleapis.com and gcr.io. Route added for VIP so no internet access is required to access APIs.
- Restricted Shared VPC with restricted.googleapis.com configured for restricted access to googleapis.com and gcr.io. Route added for VIP so no internet access is required to access APIs.
- Default routes to internet removed, with tag based route
egress-internet
required on VMs in order to reach the internet. - Optional - Cloud NAT configured for all subnets with logging and static outbound IPs.
- Default Cloud DNS policy applied, with DNS logging and inbound query forwarding turned on.
Usage instructions are available for the networks step in the README.
This step configures the same network resources that the step 3-networks-dual-svpc does, but this time it makes usage of the architecture based on the Hub and Spoke reference network model.
Usage instructions are available for the networks step in the README.
This step is focused on creating service projects with a standard configuration that are attached to the Shared VPC created in the previous step and application infrastructure pipelines. Running this code as-is should generate a structure as shown below:
example-organization/
└── fldr-development
├── prj-bu1-d-env-secrets
├── prj-bu1-d-sample-floating
├── prj-bu1-d-sample-base
├── prj-bu1-d-sample-restrict
├── prj-bu1-d-sample-peering
├── prj-bu2-d-env-secrets
├── prj-bu2-d-sample-floating
├── prj-bu2-d-sample-base
├── prj-bu2-d-sample-restrict
└── prj-bu2-d-sample-peering
└── fldr-non-production
├── prj-bu1-n-env-secrets
├── prj-bu1-n-sample-floating
├── prj-bu1-n-sample-base
├── prj-bu1-n-sample-restrict
├── prj-bu1-n-sample-peering
├── prj-bu2-n-env-secrets
├── prj-bu2-n-sample-floating
├── prj-bu2-n-sample-base
├── prj-bu2-n-sample-restrict
└── prj-bu2-n-sample-peering
└── fldr-production
├── prj-bu1-p-env-secrets
├── prj-bu1-p-sample-floating
├── prj-bu1-p-sample-base
├── prj-bu1-p-sample-restrict
├── prj-bu1-p-sample-peering
├── prj-bu2-p-env-secrets
├── prj-bu2-p-sample-floating
├── prj-bu2-p-sample-base
├── prj-bu2-p-sample-restrict
└── prj-bu2-p-sample-peering
└── fldr-common
├── prj-bu1-c-infra-pipeline
└── prj-bu2-c-infra-pipeline
The code in this step includes two options for creating projects. The first is the standard projects module which creates a project per environment, and the second creates a standalone project for one environment. If relevant for your use case, there are also two optional submodules which can be used to create a subnet per project, and a dedicated private DNS zone per project.
Usage instructions are available for the projects step in the README.
The purpose of this step is to deploy a simple Compute Engine instance in one of the business unit projects using the infra pipeline set up in 4-projects.
Usage instructions are available for the app-infra step in the README.
Once all steps above have been executed your GCP organization should represent the structure shown below, with projects being the lowest nodes in the tree.
example-organization
└── fldr-common
├── prj-c-logging
├── prj-c-base-net-hub
├── prj-c-billing-logs
├── prj-c-dns-hub
├── prj-c-interconnect
├── prj-c-restricted-net-hub
├── prj-c-scc
├── prj-c-secrets
├── prj-bu1-c-infra-pipeline
└── prj-bu2-c-infra-pipeline
└── fldr-development
├── prj-bu1-d-env-secrets
├── prj-bu1-d-sample-floating
├── prj-bu1-d-sample-base
├── prj-bu1-d-sample-restrict
├── prj-bu1-d-sample-peering
├── prj-bu2-d-env-secrets
├── prj-bu2-d-sample-floating
├── prj-bu2-d-sample-base
├── prj-bu2-d-sample-restrict
├── prj-bu2-d-sample-peering
├── prj-d-monitoring
├── prj-d-secrets
├── prj-d-shared-base
└── prj-d-shared-restricted
└── fldr-non-production
├── prj-bu1-n-env-secrets
├── prj-bu1-n-sample-floating
├── prj-bu1-n-sample-base
├── prj-bu1-n-sample-restrict
├── prj-bu1-n-sample-peering
├── prj-bu2-n-env-secrets
├── prj-bu2-n-sample-floating
├── prj-bu2-n-sample-base
├── prj-bu2-n-sample-restrict
├── prj-bu2-n-sample-peering
├── prj-n-monitoring
├── prj-n-secrets
├── prj-n-shared-base
└── prj-n-shared-restricted
└── fldr-production
├── prj-bu1-p-env-secrets
├── prj-bu1-p-sample-floating
├── prj-bu1-p-sample-base
├── prj-bu1-p-sample-restrict
├── prj-bu1-p-sample-peering
├── prj-bu2-p-env-secrets
├── prj-bu2-p-sample-floating
├── prj-bu2-p-sample-base
├── prj-bu2-p-sample-restrict
├── prj-bu2-p-sample-peering
├── prj-p-monitoring
├── prj-p-secrets
├── prj-p-shared-base
└── prj-p-shared-restricted
└── fldr-bootstrap
├── prj-b-cicd
└── prj-b-seed
There are three main named branches - development
, non-production
and production
that reflect the corresponding environments. These branches should be protected. When the CI/CD Pipeline (Jenkins/CloudBuild) runs on a particular named branch (say for instance development
), only the corresponding environment (development
) is applied. An exception is the shared
environment which is only applied when triggered on the production
branch. This is because any changes in the shared
environment may affect resources in other environments and can have adverse effects if not validated correctly.
Development happens on feature/bugfix branches (which can be named feature/new-foo
, bugfix/fix-bar
, etc.) and when complete, a pull request (PR) or merge request (MR) can be opened targeting the development
branch. This will trigger the CI/CD Pipeline to perform a plan and validate against all environments (development
, non-production
, shared
and production
). Once code review is complete and changes are validated, this branch can be merged into development
. This will trigger a CI/CD Pipeline that applies the latest changes in the development
branch on the development
environment.
Once validated in development
, changes can be promoted to non-production
by opening a PR/MR targeting the non-production
branch and merging them. Similarly, changes can be promoted from non-production
to production
.
This repo uses the terraform-tools component of the gcloud
CLI to validate the terraform plans against a library of GCP policies.
The Scorecard bundle was used to create the policy-library folder with one extra constraint added.
See the policy-library documentation if you need to add more constraints from the samples folder in your configuration based in your type of workload.
Step 1-org has instructions on the creation of the shared repository to host these policies.
Some variables used to deploy the steps have default values, check those before deployment to ensure they match your requirements. For more information, there are tables of inputs and outputs for the Terraform modules, each with a detailed description of their variables. Look for variables marked as not required in the section Inputs of these READMEs:
- Step 0-bootstrap: If you are using Cloud Build in the CI/CD Pipeline, check the main README of the step. If you are using Jenkins, check the README of the module
jenkins-agent
. - Step 1-org: The README of the environment
shared
. - Step 2-environments: The README's of the environments development, non-production and production
- Step 3-networks-dual-svpc: The README's of the environments shared, development, non-production and production
- Step 3-networks-hub-and-spoke: The README's of the environments shared, development, non-production and production
- Step 4-projects: The README's of the environments shared, development, non-production and production
Refer to the Errata Summary for an overview of the delta between the example foundation repository and the Google Cloud security foundations guide.
Refer to the contribution guidelines for information on contributing to this module.