Workspace Runtime

The workspace/ directory is Molecule AI's unified runtime image. Every provisioned workspace starts from this image, loads its own config, selects a runtime adapter, registers an Agent Card, exposes A2A, and joins the platform heartbeat/activity loop.

Runtime Matrix In Current main

Current main ships seven runtimes:

• claude-code
• langgraph
• autogen
• openclaw
• hermes
• codex
• google-adk
• external (bring-your-own agent — no platform-managed container)

This is the merged runtime surface today; the canonical set is the control-plane provider registry. Branch-level experiments are separate and should be treated as roadmap/WIP, not merged support.

Adapter-specific behavior is documented in Agent Runtime Adapters.

What The Runtime Is Responsible For

• loading config.yaml
• running preflight checks before the workspace goes live
• selecting an adapter based on runtime
• loading local skills plus plugin-mounted shared rules/skills
• constructing an Agent Card
• serving A2A over HTTP
• registering with the platform and sending heartbeats
• reporting activity and task state
• integrating with awareness-backed memory when configured
• hot-reloading skills while the workspace is running

Environment Model

Common runtime environment variables:

WORKSPACE_ID=ws-123
WORKSPACE_CONFIG_PATH=/configs
PLATFORM_URL=http://host.docker.internal:8080
PARENT_ID=
AWARENESS_URL=http://awareness:37800
AWARENESS_NAMESPACE=workspace:ws-123
LANGFUSE_HOST=http://langfuse-web:3000
LANGFUSE_PUBLIC_KEY=...
LANGFUSE_SECRET_KEY=...

Important behavior:

• WORKSPACE_CONFIG_PATH points at the mounted config directory for that workspace.
• AWARENESS_URL + AWARENESS_NAMESPACE enable workspace-scoped awareness-backed memory.
• If awareness is absent, runtime memory tools fall back to the platform memory endpoints for compatibility.

Startup Sequence

At a high level, workspace/main.py does this:

1. Initialize telemetry.
2. Load config.yaml.
3. Run preflight validation.
4. Build the heartbeat loop.
5. Resolve the adapter from config.runtime.
6. Let the adapter run setup() and build an executor.
7. Build the Agent Card from loaded skills and runtime config.
8. Register the workspace with POST /registry/register.
9. Start heartbeats.
10. Start the skill watcher when skills are configured.
11. Serve the A2A app through Uvicorn.

Core Runtime Pieces

Skills, Plugins, And Hot Reload

The runtime combines three sources of capability:

1. workspace-local skills from skills/<skill>/SKILL.md
2. plugin-mounted rules and shared skills from /plugins
3. built-in tools like delegation, approval, memory, sandbox, and telemetry helpers

Hot reload matters because the runtime is designed to keep a workspace alive while its capability surface evolves:

• edit SKILL.md
• add/remove skill files
• update tool modules
• modify config prompt references

The watcher rescans the skill package, rebuilds the agent tool surface, and updates the Agent Card so peers and the canvas reflect the new capabilities.

Awareness And Memory Integration

The runtime keeps the agent-facing contract stable:

• commit_memory(content, scope)
• search_memory(query, scope)

When awareness is configured:

• the tools route durable facts to the workspace's own awareness namespace
• the namespace defaults to workspace:<workspace_id> unless explicitly overridden

When awareness is not configured:

• the same tools fall back to the platform memory endpoints

That design lets the platform improve the backend memory boundary without forcing every agent prompt or tool signature to change.

Coordinator Enforcement

coordinator.py is not a generic “smart agent” mode. It is intentionally strict:

• coordinators delegate
• coordinators synthesize
• coordinators do not quietly do the child work themselves

This matters because Molecule AI wants hierarchy to remain operationally real, not cosmetic.

Remote Agent Registration (External Workspaces)

External workspaces run outside the platform's Docker infrastructure — on your laptop, a cloud VM, an on-prem server, or a CI/CD agent. They register via the platform API and send heartbeats to stay live on the canvas.

How it differs from Docker workspaces

Registration flow

1. Create the workspace:

curl -X POST http://localhost:8080/workspaces \
  -H "Authorization: Bearer <admin-token>" \
  -H "Content-Type: application/json" \
  -d '{
    "name": "my-remote-agent",
    "runtime": "external",
    "external": true,
    "url": "https://my-agent.example.com/a2a",
    "parent_id": "ws-pm-123"
  }'

Returns { "id": "ws-xyz", "platform_url": "http://localhost:8080" }.

2. Register the agent with the platform:

curl -X POST http://localhost:8080/registry/register \
  -H "Content-Type: application/json" \
  -H "Authorization: Bearer <admin-token>" \
  -d '{
    "workspace_id": "ws-xyz",
    "name": "my-remote-agent",
    "description": "Runs on a cloud VM in us-east-1",
    "skills": ["research", "summarization"],
    "url": "https://my-agent.example.com/a2a"
  }'

The platform returns a 256-bit bearer token — save it, it is shown only once.

3. Pull secrets at boot:

curl http://localhost:8080/workspaces/ws-xyz/secrets \
  -H "Authorization: Bearer <your-token>"

Returns { "ANTHROPIC_API_KEY": "...", "OPENAI_API_KEY": "..." }. No credentials baked into images or env files.

4. Send heartbeats every 30 seconds:

curl -X POST http://localhost:8080/registry/heartbeat \
  -H "Authorization: Bearer <your-token>" \
  -H "Content-Type: application/json" \
  -d '{
    "workspace_id": "ws-xyz",
    "status": "online",
    "task": "analyzing Q1 sales data",
    "error_rate": 0.0
  }'

If the platform misses two consecutive heartbeats, the workspace shows offline on the canvas.

5. A2A with X-Workspace-ID header:

When sending A2A messages to sibling or parent workspaces, include the header so the platform can verify mutual auth:

curl -X POST http://localhost:8080/workspaces/ws-pm-123/a2a \
  -H "Authorization: Bearer <your-token>" \
  -H "X-Workspace-ID: ws-xyz" \
  -H "Content-Type: application/json" \
  -d '{"type": "status_report", "payload": {...}}'

Behind NAT — Cloudflare Tunnel / ngrok

If the agent machine has no public IP, use an outbound tunnel:

# ngrok
ngrok http 8000 --url https://my-agent.ngrok.io

# Cloudflare Tunnel
cloudflared tunnel run --token <token>

# Register the tunnel URL (not localhost)
curl -X POST http://localhost:8080/registry/update-card \
  -H "Authorization: Bearer <your-token>" \
  -d '{"workspace_id": "ws-xyz", "url": "https://my-agent.ngrok.io/a2a"}'

The agent initiates the outbound WebSocket to the platform — no inbound ports need to be opened on the firewall.

Revocation and re-registration

To revoke and re-register:

# Delete the workspace
curl -X DELETE http://localhost:8080/workspaces/ws-xyz \
  -H "Authorization: Bearer <admin-token>"

# Create fresh (new workspace_id, new token)

Re-registration with the same workspace_id does not issue a new token — use the token saved from first registration.

Related docs

• Full step-by-step: External Agent Registration Guide
• Tutorial with CI/CD examples: Register a Remote Agent
• API reference: Registry and Heartbeat

A2A And Registration

Each workspace exposes an A2A server, builds an Agent Card, and registers with the platform. The platform is used for:

• discovery
• liveness
• event fanout
• proxying browser-initiated A2A calls

But the long-term collaboration model remains direct workspace-to-workspace communication via A2A.

Known Limitations

Playwright / browser system libs are not installed

The base molecule-ai-workspace-runtime image is built on python:3.11-slim with Node.js 22, git, and gh — about 500 MB. It deliberately does not include the system libraries Chromium needs (libnss3, libatk-bridge2.0-0, libxkbcommon0, libcups2, libdrm2, libxcomposite1, libxdamage1, libxrandr2, libgbm1, libpango-1.0-0, libasound2, etc.). Adding them would inflate the image by ~200–250 MB (~40%) for every workspace, even though only frontend / QA workspaces ever launch a browser.

Practical consequences:

• npx playwright test (and any other Chromium-driven E2E tooling) will fail at browser launch when run from inside an in-container workspace agent.
• The error surface is missing-shared-object messages such as error while loading shared libraries: libnss3.so or Host system is missing dependencies to run browsers.
• Unit and integration tests (Vitest, Jest, etc.) that don't spawn a real browser are unaffected.

Recommended workflow:

1. Run E2E in CI, not in-container. The Gitea Actions self-hosted runner (and GitHub Actions runners used by mirror repos) has the full Playwright dep set installed and is the supported surface for E2E. Push a branch, let CI run the suite.
2. Local debugging of a single failing spec is best done on a developer laptop with npx playwright install-deps run once.
3. In-container iteration on test logic itself is fine — write specs, lint them, type-check them — just don't expect playwright test to actually launch a browser.

If a particular workspace role genuinely needs in-container E2E (a dedicated QA template, for instance), the right place to layer Playwright deps is in a role-specific adapter template image that does FROM molecule-ai-workspace-runtime:<tag> and adds RUN npx playwright install-deps. Open a request against molecule-ai-workspace-runtime if you need this template stamped.

Tracking issue: molecule-ai/molecule-app#7.

Related Docs

• Agent Runtime Adapters
• Skills
• Config Format
• System Prompt Structure
• Memory Architecture