5-app-infra

5-app-infra

This repo is part of a multi-part guide that shows how to configure and deploy the example.com reference architecture described in Google Cloud security foundations guide. The following table lists the parts of the guide.

0-bootstrap	Bootstraps a Google Cloud organization, creating all the required resources and permissions to start using the Cloud Foundation Toolkit (CFT). This step also configures a CI/CD Pipeline for foundations code in subsequent stages.
1-org	Sets up top-level shared folders, monitoring and networking projects, organization-level logging, and baseline security settings through organizational policies.
2-environments	Sets up development, nonproduction, and production environments within the Google Cloud organization that you've created.
3-networks-dual-svpc	Sets up base and restricted shared VPCs with default DNS, NAT (optional), Private Service networking, VPC service controls, on-premises Dedicated Interconnect, and baseline firewall rules for each environment. It also sets up the global DNS hub.
3-networks-hub-and-spoke	Sets up base and restricted shared VPCs with all the default configuration found on step 3-networks-dual-svpc, but here the architecture will be based on the Hub and Spoke network model. It also sets up the global DNS hub
4-projects	Sets up a folder structure, projects, and an application infrastructure pipeline for applications, which are connected as service projects to the shared VPC created in the previous stage.
5-app-infra (this file)	Deploy a simple [Compute Engine](https://cloud.google.com/compute/) instance in one of the business unit projects using the infra pipeline set up in 4-projects.

For an overview of the architecture and the parts, see the terraform-example-foundation README file.

Purpose

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. The infra pipeline is created in step 4-projects within the shared env and has a Cloud Build pipeline configured to manage infrastructure within projects.

There is also a Source Repository configured with build triggers similar to the CI/CD Pipeline setup in 0-bootstrap. This Compute Engine instance is created using the base network from step 3-networks and is used to access private services.

Prerequisites

1. 0-bootstrap executed successfully.
2. 1-org executed successfully.
3. 2-environments executed successfully.
4. 3-networks executed successfully.
5. 4-projects executed successfully.

Troubleshooting

Please refer to troubleshooting if you run into issues during this step.

Usage

Note: If you are using MacOS, replace cp -RT with cp -R in the relevant commands. The -T flag is needed for Linux, but causes problems for MacOS.

Deploying with Cloud Build

1. Clone the gcp-policies repo based on the Terraform output from the 0-bootstrap step. Clone the repo at the same level of the terraform-example-foundation folder, the following instructions assume this layout. Run terraform output cloudbuild_project_id in the 0-bootstrap folder to get the Cloud Build Project ID.

   export INFRA_PIPELINE_PROJECT_ID=$(terraform -chdir="gcp-projects/business_unit_1/shared/" output -raw cloudbuild_project_id)
   echo ${INFRA_PIPELINE_PROJECT_ID}
   
   gcloud source repos clone gcp-policies gcp-policies-app-infra --project=${INFRA_PIPELINE_PROJECT_ID}

   Note: gcp-policies repo has the same name as the repo created in step 1-org. In order to prevent a collision, the previous command will clone this repo in the folder gcp-policies-app-infra.

2. Navigate into the repo and copy contents of policy-library to new repo. All subsequent steps assume you are running them from the gcp-policies-app-infra directory. If you run them from another directory, adjust your copy paths accordingly.

   cd gcp-policies-app-infra
   git checkout -b main
   
   cp -RT ../terraform-example-foundation/policy-library/ .

3. Commit changes and push your main branch to the new repo.

   git add .
   git commit -m 'Initialize policy library repo'
   
   git push --set-upstream origin main

4. Navigate out of the repo.

   cd ..

5. Clone the bu1-example-app repo.

   gcloud source repos clone bu1-example-app --project=${INFRA_PIPELINE_PROJECT_ID}

6. Navigate into the repo, change to non-main branch and copy contents of foundation to new repo. All subsequent steps assume you are running them from the bu1-example-app directory. If you run them from another directory, adjust your copy paths accordingly.

   cd bu1-example-app
   git checkout -b plan
   
   cp -RT ../terraform-example-foundation/5-app-infra/ .
   cp ../terraform-example-foundation/build/cloudbuild-tf-* .
   cp ../terraform-example-foundation/build/tf-wrapper.sh .
   chmod 755 ./tf-wrapper.sh

7. Rename common.auto.example.tfvars to common.auto.tfvars.

   mv common.auto.example.tfvars common.auto.tfvars

8. Update the file with values from your environment and 0-bootstrap. See any of the business unit 1 envs folders README.md files for additional information on the values in the common.auto.tfvars file.

   export remote_state_bucket=$(terraform -chdir="../terraform-example-foundation/0-bootstrap/" output -raw projects_gcs_bucket_tfstate)
   echo "remote_state_bucket = ${remote_state_bucket}"
   sed -i'' -e "s/REMOTE_STATE_BUCKET/${remote_state_bucket}/" ./common.auto.tfvars

9. Commit changes.

   git add .
   git commit -m 'Initialize bu1 example app repo'

10. Push your plan branch to trigger a plan for all environments. Because the plan branch is not a named environment branch, pushing your plan branch triggers terraform plan but not terraform apply. Review the plan output in your Cloud Build project https://console.cloud.google.com/cloud-build/builds;region=DEFAULT_REGION?project=YOUR_INFRA_PIPELINE_PROJECT_ID

    git push --set-upstream origin plan

11. Merge changes to development. Because this is a named environment branch, pushing to this branch triggers both terraform plan and terraform apply. Review the apply output in your Cloud Build project https://console.cloud.google.com/cloud-build/builds;region=DEFAULT_REGION?project=YOUR_INFRA_PIPELINE_PROJECT_ID

    git checkout -b development
    git push origin development

12. Merge changes to nonproduction. Because this is a named environment branch, pushing to this branch triggers both terraform plan and terraform apply. Review the apply output in your Cloud Build project https://console.cloud.google.com/cloud-build/builds;region=DEFAULT_REGION?project=YOUR_INFRA_PIPELINE_PROJECT_ID

    git checkout -b nonproduction
    git push origin nonproduction

13. Merge changes to production branch. Because this is a named environment branch, pushing to this branch triggers both terraform plan and terraform apply. Review the apply output in your Cloud Build project https://console.cloud.google.com/cloud-build/builds;region=DEFAULT_REGION?project=YOUR_INFRA_PIPELINE_PROJECT_ID

    git checkout -b production
    git push origin production

Run Terraform locally

1. The next instructions assume that you are at the same level of the terraform-example-foundation folder. Change into 5-app-infra folder, copy the Terraform wrapper script and ensure it can be executed.

   cd terraform-example-foundation/5-app-infra
   cp ../build/tf-wrapper.sh .
   chmod 755 ./tf-wrapper.sh

2. Rename common.auto.example.tfvars files to common.auto.tfvars.

   mv common.auto.example.tfvars common.auto.tfvars

3. Update common.auto.tfvars file with values from your environment.

4. Use terraform output to get the project backend bucket value from 0-bootstrap.

   export remote_state_bucket=$(terraform -chdir="../0-bootstrap/" output -raw projects_gcs_bucket_tfstate)
   echo "remote_state_bucket = ${remote_state_bucket}"
   sed -i'' -e "s/REMOTE_STATE_BUCKET/${remote_state_bucket}/" ./common.auto.tfvars

5. Provide the user that will be running ./tf-wrapper.sh the Service Account Token Creator role to the bu1 Terraform service account.

6. Provide the user permissions to run the terraform locally with the serviceAccountTokenCreator permission.

   member="user:$(gcloud auth list --filter="status=ACTIVE" --format="value(account)")"
   echo ${member}
   
   project_id=$(terraform -chdir="../4-projects/business_unit_1/shared/" output -raw cloudbuild_project_id)
   echo ${project_id}
   
   terraform_sa=$(terraform -chdir="../4-projects/business_unit_1/shared/" output -json terraform_service_accounts | jq '."bu1-example-app"' --raw-output)
   echo ${terraform_sa}
   
   gcloud iam service-accounts add-iam-policy-binding ${terraform_sa} --project ${project_id} --member="${member}" --role="roles/iam.serviceAccountTokenCreator"

7. Update backend.tf with your bucket from the infra pipeline output.

   export backend_bucket=$(terraform -chdir="../4-projects/business_unit_1/shared/" output -json state_buckets | jq '."bu1-example-app"' --raw-output)
   echo "backend_bucket = ${backend_bucket}"
   
   for i in `find . -name 'backend.tf'`; do sed -i'' -e "s/UPDATE_APP_INFRA_BUCKET/${backend_bucket}/" $i; done

We will now deploy each of our environments (development/production/nonproduction) using this script. When using Cloud Build or Jenkins as your CI/CD tool, each environment corresponds to a branch in the repository for the 5-app-infra step. Only the corresponding environment is applied.

To use the validate option of the tf-wrapper.sh script, please follow the instructions to install the terraform-tools component.

1. Use terraform output to get the Infra Pipeline Project ID from 4-projects output.

   export INFRA_PIPELINE_PROJECT_ID=$(terraform -chdir="../4-projects/business_unit_1/shared/" output -raw cloudbuild_project_id)
   echo ${INFRA_PIPELINE_PROJECT_ID}
   
   export GOOGLE_IMPERSONATE_SERVICE_ACCOUNT=$(terraform -chdir="../4-projects/business_unit_1/shared/" output -json terraform_service_accounts | jq '."bu1-example-app"' --raw-output)
   echo ${GOOGLE_IMPERSONATE_SERVICE_ACCOUNT}

2. Run init and plan and review output for environment production.

   ./tf-wrapper.sh init production
   ./tf-wrapper.sh plan production

3. Run validate and check for violations.

   ./tf-wrapper.sh validate production $(pwd)/../policy-library ${INFRA_PIPELINE_PROJECT_ID}

4. Run apply production.

   ./tf-wrapper.sh apply production

5. Run init and plan and review output for environment nonproduction.

   ./tf-wrapper.sh init nonproduction
   ./tf-wrapper.sh plan nonproduction

6. Run validate and check for violations.

   ./tf-wrapper.sh validate nonproduction $(pwd)/../policy-library ${INFRA_PIPELINE_PROJECT_ID}

7. Run apply nonproduction.

   ./tf-wrapper.sh apply nonproduction

8. Run init and plan and review output for environment development.

   ./tf-wrapper.sh init development
   ./tf-wrapper.sh plan development

9. Run validate and check for violations.

   ./tf-wrapper.sh validate development $(pwd)/../policy-library ${INFRA_PIPELINE_PROJECT_ID}

10. Run apply development.

    ./tf-wrapper.sh apply development

If you received any errors or made any changes to the Terraform config or common.auto.tfvars you must re-run ./tf-wrapper.sh plan <env> before running ./tf-wrapper.sh apply <env>.

After executing this stage, unset the GOOGLE_IMPERSONATE_SERVICE_ACCOUNT environment variable.

unset GOOGLE_IMPERSONATE_SERVICE_ACCOUNT