adk-deploy-guide
ADK Deployment Guide
Scaffolded project? Use the
makecommands throughout this guide — they wrap Terraform, Docker, and deployment into a tested pipeline.No scaffold? See Quick Deploy below, or the ADK deployment docs. For production infrastructure, scaffold with
/adk-scaffold.
Reference Files
For deeper details, consult these reference files in references/:
cloud-run.md— Scaling defaults, Dockerfile, session types, networkingagent-engine.md— deploy.py CLI, AdkApp pattern, Terraform resource, deployment metadata, CI/CD differencesterraform-patterns.md— Custom infrastructure, IAM, state management, importing resourcesevent-driven.md— Pub/Sub, Eventarc, BigQuery Remote Function triggers via customfast_api_app.pyendpoints
Observability: See the adk-observability-guide skill for Cloud Trace, prompt-response logging, BigQuery Analytics, and third-party integrations.
Deployment Target Decision Matrix
Choose the right deployment target based on your requirements:
| Criteria | Agent Engine | Cloud Run | GKE |
|---|---|---|---|
| Languages | Python | Python | Python (+ others via custom containers) |
| Scaling | Managed auto-scaling (configurable min/max, concurrency) | Fully configurable (min/max instances, concurrency, CPU allocation) | Full Kubernetes scaling (HPA, VPA, node auto-provisioning) |
| Networking | VPC-SC and PSC supported | Full VPC support, direct VPC egress, IAP, ingress rules | Full Kubernetes networking |
| Session state | Native VertexAiSessionService (persistent, managed) |
In-memory (dev), Cloud SQL, or Agent Engine session backend | Custom (any Kubernetes-compatible store) |
| Batch/event processing | Not supported | /invoke endpoint for Pub/Sub, Eventarc, BigQuery |
Custom (Kubernetes Jobs, Pub/Sub) |
| Cost model | vCPU-hours + memory-hours (not billed when idle) | Per-instance-second + min instance costs | Node pool costs (always-on or auto-provisioned) |
| Setup complexity | Lower (managed, purpose-built for agents) | Medium (Dockerfile, Terraform, networking) | Higher (Kubernetes expertise required) |
| Best for | Managed infrastructure, minimal ops | Custom infra, event-driven workloads | Full control, open models, GPU workloads |
Ask the user which deployment target fits their needs. Each is a valid production choice with different trade-offs.
Quick Deploy (ADK CLI)
For projects without Agent Starter Pack scaffolding. No Makefile, Terraform, or Dockerfile required.
# Cloud Run
adk deploy cloud_run --project=PROJECT --region=REGION path/to/agent/
# Agent Engine
adk deploy agent_engine --project=PROJECT --region=REGION path/to/agent/
# GKE (requires existing cluster)
adk deploy gke --project=PROJECT --cluster_name=CLUSTER --region=REGION path/to/agent/
All commands support --with_ui to deploy the ADK dev UI. Cloud Run also accepts extra gcloud flags after -- (e.g., -- --no-allow-unauthenticated).
See adk deploy --help or the ADK deployment docs for full flag reference.
For CI/CD, observability, or production infrastructure, scaffold with
/adk-scaffoldand use the sections below.
Dev Environment Setup & Deploy (Scaffolded Projects)
Setting Up Dev Infrastructure (Optional)
make setup-dev-env runs terraform apply in deployment/terraform/dev/. This provisions supporting infrastructure:
- Service accounts (
app_safor the agent, used for runtime permissions) - Artifact Registry repository (for container images)
- IAM bindings (granting the app SA necessary roles)
- Telemetry resources (Cloud Logging bucket, BigQuery dataset)
- Any custom resources defined in
deployment/terraform/dev/
This step is optional — make deploy works without it (Cloud Run creates the service on the fly via gcloud run deploy --source .). However, running it gives you proper service accounts, observability, and IAM setup.
make setup-dev-env
Deploying
- Notify the human: "Eval scores meet thresholds and tests pass. Ready to deploy to dev?"
- Wait for explicit approval
- Once approved:
make deploy
IMPORTANT: Never run make deploy without explicit human approval.
Production Deployment — CI/CD Pipeline
Best for: Production applications, teams requiring staging → production promotion.
Prerequisites:
- Project must NOT be in a gitignored folder
- User must provide staging and production GCP project IDs
- GitHub repository name and owner
Steps:
-
If prototype, first add Terraform/CI-CD files using the Agent Starter Pack CLI (see
/adk-scaffoldfor full options):uvx agent-starter-pack enhance . --cicd-runner github_actions -y -s -
Ensure you're logged in to GitHub CLI:
gh auth login # (skip if already authenticated) -
Run setup-cicd:
uvx agent-starter-pack setup-cicd \ --staging-project YOUR_STAGING_PROJECT \ --prod-project YOUR_PROD_PROJECT \ --repository-name YOUR_REPO_NAME \ --repository-owner YOUR_GITHUB_USERNAME \ --auto-approve \ --create-repository -
Push code to trigger deployments
Key setup-cicd Flags
| Flag | Description |
|---|---|
--staging-project |
GCP project ID for staging environment |
--prod-project |
GCP project ID for production environment |
--repository-name / --repository-owner |
GitHub repository name and owner |
--auto-approve |
Skip Terraform plan confirmation prompts |
--create-repository |
Create the GitHub repo if it doesn't exist |
--cicd-project |
Separate GCP project for CI/CD infrastructure. Defaults to prod project |
--local-state |
Store Terraform state locally instead of in GCS (see references/terraform-patterns.md) |
Run uvx agent-starter-pack setup-cicd --help for the full flag reference (Cloud Build options, dev project, region, etc.).
Choosing a CI/CD Runner
| Runner | Pros | Cons |
|---|---|---|
| github_actions (Default) | No PAT needed, uses gh auth, WIF-based, fully automated |
Requires GitHub CLI authentication |
| google_cloud_build | Native GCP integration | Requires interactive browser authorization (or PAT + app installation ID for programmatic mode) |
How Authentication Works (WIF)
Both runners use Workload Identity Federation (WIF) — GitHub/Cloud Build OIDC tokens are trusted by a GCP Workload Identity Pool, which grants cicd_runner_sa impersonation. No long-lived service account keys needed. Terraform in setup-cicd creates the pool, provider, and SA bindings automatically. If auth fails, re-run terraform apply in the CI/CD Terraform directory.
CI/CD Pipeline Stages
The pipeline has three stages:
- CI (PR checks) — Triggered on pull request. Runs unit and integration tests.
- Staging CD — Triggered on merge to
main. Builds container, deploys to staging, runs load tests. - Production CD — Triggered after successful staging deploy. Requires manual approval before deploying to production.
IMPORTANT: setup-cicd creates infrastructure but doesn't deploy automatically. Terraform configures all required GitHub secrets and variables (WIF credentials, project IDs, service accounts). Push code to trigger the pipeline:
git add . && git commit -m "Initial agent implementation"
git push origin main
To approve production deployment:
# GitHub Actions: Approve via repository Actions tab (environment protection rules)
# Cloud Build: Find pending build and approve
gcloud builds list --project=PROD_PROJECT --region=REGION --filter="status=PENDING"
gcloud builds approve BUILD_ID --project=PROD_PROJECT
Cloud Run Specifics
For detailed infrastructure configuration (scaling defaults, Dockerfile, FastAPI endpoints, session types, networking), see references/cloud-run.md. For ADK docs on Cloud Run deployment, fetch https://google.github.io/adk-docs/deploy/cloud-run/index.md via WebFetch.
Agent Engine Specifics
Agent Engine is a managed Vertex AI service for deploying Python ADK agents. Uses source-based deployment (no Dockerfile) via deploy.py and the AdkApp class.
No
gcloudCLI exists for Agent Engine. Deploy viadeploy.pyoradk deploy agent_engine. Query via the Pythonvertexai.ClientSDK.
Deployments can take 5-10 minutes. If make deploy times out, check if the engine was created and manually populate deployment_metadata.json with the engine resource ID (see reference for details).
For detailed infrastructure configuration (deploy.py flags, AdkApp pattern, Terraform resource, deployment metadata, session/artifact services, CI/CD differences), see references/agent-engine.md. For ADK docs on Agent Engine deployment, fetch https://google.github.io/adk-docs/deploy/agent-engine/index.md via WebFetch.
Service Account Architecture
Scaffolded projects use two service accounts:
app_sa(per environment) — Runtime identity for the deployed agent. Roles defined indeployment/terraform/iam.tf.cicd_runner_sa(CI/CD project) — CI/CD pipeline identity (GitHub Actions / Cloud Build). Lives in the CI/CD project (defaults to prod project), needs permissions in both staging and prod projects.
Check deployment/terraform/iam.tf for exact role bindings. Cross-project permissions (Cloud Run service agents, artifact registry access) are also configured there.
Common 403 errors:
- "Permission denied on Cloud Run" →
cicd_runner_samissing deployment role in the target project - "Cannot act as service account" → Missing
iam.serviceAccountUserbinding onapp_sa - "Secret access denied" →
app_samissingsecretmanager.secretAccessor - "Artifact Registry read denied" → Cloud Run service agent missing read access in CI/CD project
Secret Manager (for API Credentials)
Instead of passing sensitive keys as environment variables, use GCP Secret Manager.
# Create a secret
echo -n "YOUR_API_KEY" | gcloud secrets create MY_SECRET_NAME --data-file=-
# Update an existing secret
echo -n "NEW_API_KEY" | gcloud secrets versions add MY_SECRET_NAME --data-file=-
Grant access: For Cloud Run, grant secretmanager.secretAccessor to app_sa. For Agent Engine, grant it to the platform-managed SA (service-PROJECT_NUMBER@gcp-sa-aiplatform-re.iam.gserviceaccount.com).
Pass secrets at deploy time (Agent Engine):
make deploy SECRETS="API_KEY=my-api-key,DB_PASS=db-password:2"
Format: ENV_VAR=SECRET_ID or ENV_VAR=SECRET_ID:VERSION (defaults to latest). Access in code via os.environ.get("API_KEY").
Observability
See the adk-observability-guide skill for observability configuration (Cloud Trace, prompt-response logging, BigQuery Analytics, third-party integrations).
Testing Your Deployed Agent
Agent Engine Deployment
Option 1: Testing Notebook
jupyter notebook notebooks/adk_app_testing.ipynb
Option 2: Python Script
import json
import vertexai
with open("deployment_metadata.json") as f:
engine_id = json.load(f)["remote_agent_engine_id"]
client = vertexai.Client(location="us-central1")
agent = client.agent_engines.get(name=engine_id)
async for event in agent.async_stream_query(message="Hello!", user_id="test"):
print(event)
Option 3: Playground
make playground
Cloud Run Deployment
Auth required by default. Cloud Run deploys with
--no-allow-unauthenticated, so all requests need anAuthorization: Bearerheader with an identity token. Getting a 403? You're likely missing this header. To allow public access, redeploy with--allow-unauthenticated.
# Test health endpoint
curl -H "Authorization: Bearer $(gcloud auth print-identity-token)" \
https://SERVICE_NAME-PROJECT_NUMBER.REGION.run.app/health
# Test SSE streaming endpoint (ADK HTTP mode)
curl -X POST "https://SERVICE_NAME-PROJECT_NUMBER.REGION.run.app/run_sse" \
-H "Content-Type: application/json" \
-H "Authorization: Bearer $(gcloud auth print-identity-token)" \
-d '{"message": "Hello!", "user_id": "test", "session_id": "test-session"}'
Load Tests
make load-test
See tests/load_test/README.md for configuration, default settings, and CI/CD integration details.
Deploying with a UI (IAP)
To expose your agent with a web UI protected by Google identity authentication:
# Deploy with IAP (built-in framework UI)
make deploy IAP=true
# Deploy with custom frontend on a different port
make deploy IAP=true PORT=5173
IAP (Identity-Aware Proxy) secures the Cloud Run service — only authorized Google accounts can access it. After deploying, grant user access via the Cloud Console IAP settings.
For Agent Engine with a custom frontend, use a decoupled deployment — deploy the frontend separately to Cloud Run or Cloud Storage, connecting to the Agent Engine backend API.
Rollback & Recovery
The primary rollback mechanism is git-based: fix the issue, commit, and push to main. The CI/CD pipeline will automatically build and deploy the new version through staging → production.
For immediate Cloud Run rollback without a new commit, use revision traffic shifting:
gcloud run revisions list --service=SERVICE_NAME --region=REGION
gcloud run services update-traffic SERVICE_NAME \
--to-revisions=REVISION_NAME=100 --region=REGION
Agent Engine doesn't support revision-based rollback — fix and redeploy via make deploy.
Custom Infrastructure (Terraform)
For custom infrastructure patterns (Pub/Sub, BigQuery, Eventarc, Cloud SQL, IAM), consult references/terraform-patterns.md for:
- Where to put custom Terraform files (dev vs CI/CD)
- Resource examples (Pub/Sub, BigQuery, Eventarc triggers)
- IAM bindings for custom resources
- Terraform state management (remote vs local, importing resources)
- Common infrastructure patterns
Troubleshooting
| Issue | Solution |
|---|---|
| Terraform state locked | terraform force-unlock -force LOCK_ID in deployment/terraform/ |
| GitHub Actions auth failed | Re-run terraform apply in CI/CD terraform dir; verify WIF pool/provider |
| Cloud Build authorization pending | Use github_actions runner instead |
| Resource already exists | terraform import (see references/terraform-patterns.md) |
| Agent Engine deploy timeout / hangs | Deployments take 5-10 min; check if engine was created (see Agent Engine Specifics) |
| Secret not available | Verify secretAccessor granted to app_sa (not the default compute SA) |
| 403 on deploy | Check deployment/terraform/iam.tf — cicd_runner_sa needs deployment + SA impersonation roles in the target project |
| 403 when testing Cloud Run | Default is --no-allow-unauthenticated; include Authorization: Bearer $(gcloud auth print-identity-token) header |
| Cold starts too slow | Set min_instance_count > 0 in Cloud Run Terraform config |
| Cloud Run 503 errors | Check resource limits (memory/CPU), increase max_instance_count, or check container crash logs |