Clawflow

A protocol for OpenClaw agents collaborating through messages and recursive task DAGs.

Mental model: Think of a consulting firm. Anyone can receive a project. If they can

do it alone, they do. If it's too big, they break it into pieces, hand each piece to a

colleague, collect the results, and synthesise. Those colleagues might do the same.

There are no fixed "managers" and "workers." Every agent speaks the same protocol.

When to Read References

• Message formats, task file structure, status codes → references/schemas.md
• The decision loop every agent runs → references/agent-loop.md
• DAG decomposition, context passing, synthesis → references/coordinating.md

Core Principles

1. One protocol, fluid roles — every agent is structurally identical. Any agent can

execute work directly or decompose and delegate. The role emerges from the task.

1. OpenClaw is the backbone — agent identity comes from openclaw.json config,

peer discovery from openclaw agents list, and message transport from

openclaw agent --agent --message "...". No custom identity or peer files.

1. Recursive DAGs — an agent that delegates becomes a coordinator for that sub-DAG.

Its parent doesn't know or care. DAGs nest naturally.

1. Workspace = working memory — each agent's OpenClaw workspace is its private

scratchpad. Task state lives in workspace files. No agent reads another's workspace.

How It Works

Agent A receives a task
  → Can I do this alone?
     YES → Execute, reply with results
     NO  → Decompose into sub-DAG
           → Dispatch subtasks to Agents B, C via openclaw agent
           → Agent B receives its subtask
              → Can I do this alone?
                 YES → Execute, reply to A
                 NO  → Decompose further, dispatch to D, E...
           → Agent C executes, replies to A
           → A collects all replies, synthesises, replies to *its* parent

Every level looks the same. An agent at any depth follows the same loop.

Integration with OpenClaw

Agent Identity

Comes from the OpenClaw configuration. Do NOT create custom identity files.

• Config source: openclaw.json → agents.list[].id, agents.list[].identity
• Workspace source: IDENTITY.md in the agent's workspace root
• Read with: openclaw agents list or from injected bootstrap context

Each agent already knows who it is — its id, name, emoji, and theme are

injected into the session context on every turn via the workspace bootstrap files

(IDENTITY.md, SOUL.md, AGENTS.md).

Peer Discovery

Discover available agents from OpenClaw configuration. Do NOT maintain a separate

peers file.

# List all configured agents
openclaw agents list

# The config defines them:
# agents.list[].id        → agent identifier (used in --agent flag)
# agents.list[].workspace → their workspace path
# agents.list[].model     → their model

An agent's subagents.allowAgents config controls which agents it can delegate to.

["*"] means it can reach any agent.

Sending Tasks to Peers

Use the OpenClaw CLI to send a task message to another agent:

# Send a task to a specific agent
openclaw agent --agent data-extractor --message "Extract Q3 sales from sales.csv"

# The receiving agent gets this in its session, processes it,
# and the response comes back through the same mechanism

For structured task dispatch with metadata, write the task message to a file and

reference it:

openclaw agent --agent data-extractor \
  --message "$(cat workspace/tasks/task-abc/dispatch-st-extract.md)"

Workspace Layout for Clawflow

Each agent uses its existing OpenClaw workspace. Clawflow adds a tasks/ directory:

<agent-workspace>/                   ← OpenClaw workspace root
  IDENTITY.md                        ← Agent identity (OpenClaw-managed)
  AGENTS.md                          ← Operating instructions (OpenClaw-managed)
  SOUL.md                            ← Persona (OpenClaw-managed)
  mailbox/                           ← Agent-level message log (all tasks)
    inbox/                           ← Incoming messages before processing
    outbox/                          ← Outgoing messages (dispatches + replies sent)
    archive/                         ← Processed messages (durable audit trail)
  tasks/                             ← Clawflow working directory
    {task-id}/
      task.md                        ← DAG definition + progress + results
  skills/
    clawflow/                        ← This skill
      SKILL.md
      ...

Clawflow adds two top-level directories to the workspace:

• mailbox/ — agent-level message log, independent of any task. Every message

the agent sends or receives is logged here. inbox/ holds unprocessed arrivals,

outbox/ logs what was sent, archive/ holds processed messages. This is the

durable audit trail — OpenClaw session history compacts over time, the mailbox doesn't.

• tasks/ — one subdirectory per task with a task.md tracking DAG state, subtask

results, and the final synthesised output.

The Agent Loop

When an agent receives a task (via openclaw agent --message):

1. Parse the message
2. Is it a TASK from a parent?
   → Create task.md in workspace/tasks/{task-id}/
   → DECIDE: execute directly or decompose?
     → Direct: do the work, reply with results
     → Decompose: build sub-DAG in task.md, dispatch subtasks via openclaw agent
3. Is it a REPLY from a peer I delegated to?
   → Update sub-DAG in task.md (mark subtask done, store results)
   → Dispatch any newly unblocked subtasks
   → If all subtasks done → synthesise results, reply to parent

Read references/agent-loop.md for the full decision logic and edge cases.

Delegation Decision

When an agent receives a task, it decides: do it myself or delegate?

Execute directly when:

• The task is within the agent's own capabilities
• It's simple enough that decomposition adds overhead
• No relevant peer agents are configured

Decompose and delegate when:

• The task requires capabilities the agent doesn't have
• The task has naturally parallel parts
• The task is large enough that breaking it up reduces complexity

This is a judgment call. The protocol doesn't force it — the agent decides.

DAG Dependency Resolution

When coordinating a sub-DAG, the agent tracks subtask status in task.md:

def get_ready_subtasks(dag):
    """Subtasks whose dependencies are all done and haven't been dispatched yet."""
    return [
        sid for sid, st in dag.subtasks.items()
        if st.status == 'pending'
        and all(dag.subtasks[dep].status == 'done' for dep in st.depends_on)
    ]

Called after every reply. Newly unblocked subtasks get dispatched immediately.

Error Handling (V1)

Fail-fast. No retries, no partial recovery.

Errors propagate upward. Future versions will add retry and partial recovery.

Implementation Checklist

1. Verify agent configuration — openclaw agents list to see available agents.
2. Check subagent permissions — ensure subagents.allowAgents includes target agents.
3. Implement the agent loop — follow references/agent-loop.md.
4. Use message templates — scripts/message.py generates structured task/reply messages.
5. Test a 2-level chain — agent A delegates to B, B executes and replies.
6. Test fan-out — agent A delegates to B and C in parallel.
7. Test recursion — agent A → B → C.

Out of Scope (V1)

• Large result attachments (Google Drive layer)
• Task retry / partial DAG recovery
• Agent health checks
• Progress streaming
• Cross-agent workspace access (by design, forever)