Event-driven Agent-to-Agent protocol SDK and developer CLI
Project description
cosmonapse
Event-driven Agent-to-Agent protocol SDK for Python.
v0.1.0 - Python 3.11+ · MIT
Install
pip install cosmonapse
# Provider-backed Neurons (Ollama / HuggingFace / OpenAI / Anthropic / groq /
# openrouter / together / mistral) need httpx
pip install httpx
Quick start
import asyncio
from cosmonapse import (
Axon, Dendrite, Neuron,
MemoryRegistryStore,
connect_synapse,
)
async def main():
# 1. Connect to a running synapse (cosmo synapse start memory)
synapse = await connect_synapse("cosmo://127.0.0.1:7070")
try:
# 2. Define a pure agent function (zero protocol knowledge)
async def my_agent(input, context):
return {"answer": f"You asked: {input['q']}"}
# -- Worker Dendrite: hosts an Axon --------------------------
worker = Dendrite(synapse=synapse, namespace="demo")
worker.attach_axon(Axon(neuron_id="answerer", neuron_fn=my_agent))
# -- Orchestrator Dendrite: drives the workflow ---------------
orch = Dendrite(
synapse=synapse,
registry_store=MemoryRegistryStore(),
namespace="demo",
)
@orch.on_agent_output
async def done(sig):
print("Got answer:", sig.payload["output"])
await orch.emit_final(
trace_id=sig.trace_id,
parent_id=sig.id,
result=sig.payload["output"],
)
async with orch, worker:
await orch.dispatch_task(neuron="answerer", input={"q": "hi"})
await asyncio.sleep(0.5)
finally:
await synapse.close()
asyncio.run(main())
Start the dev synapse first:
cosmo synapse start memory --namespace=demo
Clarification & permission
A Neuron can pause and ask instead of returning a result, by returning a marker.
The Axon turns it into a CLARIFICATION or PERMISSION signal; an answering
Dendrite (a central Cortex or any peer) replies. No extra client - the Engram
is the memory, the return-marker is the request.
async def writer(input, context, *, recall, imprint):
# 1. Try the Engram of standing grants first.
if input.get("permission"): # resumed with a verdict
if input["permission"]["granted"]:
await imprint("grants", op="upsert", merge_key="action",
entry={"action": "write_file", "granted": True})
return {"wrote": True}
return {"wrote": False}
hit = await recall("grants", query={"action": "write_file"})
if hit.hits:
return {"wrote": True} # already allowed
# 2. Miss -> ask. Same shape as {"__clarification__": True, ...}.
return {"__permission__": True, "action": "write_file",
"scope": {"path": "/tmp/out"}, "reason": "persist output"}
# Answering side (centralised or decentralised - just who subscribes):
@cortex.on_permission
async def decide(sig):
granted = sig.payload["action"] == "write_file"
# Re-dispatch a TASK carrying the verdict so the Neuron resumes:
await cortex.respond_to_permission(sig, granted=granted, reason="allowlisted")
# ...or emit a discrete signal instead:
# await cortex.grant_permission(sig, reason="allowlisted", ttl_ms=3_600_000)
on_clarification / respond_to_clarification / answer_clarification are the
clarification-side equivalents. See design/ENVELOPE_SPEC.md §7.5.
Provider-backed Neurons
Drop an LLM into any workflow with Neuron(source=...):
from cosmonapse import Axon, Neuron
# Local Ollama daemon
axon = Axon(
neuron_id="chat",
neuron_fn=Neuron(source="ollama", model="llama3"),
)
# HuggingFace TGI / vLLM / llama.cpp / LM Studio
axon = Axon(
neuron_id="summariser",
neuron_fn=Neuron(
source="huggingface",
endpoint="http://localhost:8080",
),
)
# HuggingFace hosted endpoint (requires api_key)
axon = Axon(
neuron_id="classifier",
neuron_fn=Neuron(
source="huggingface",
endpoint="https://<your-endpoint>.endpoints.huggingface.cloud",
api_key="hf_…",
use_chat_api=True,
),
)
# OpenAI (api_key falls back to OPENAI_API_KEY)
axon = Axon(
neuron_id="writer",
neuron_fn=Neuron(source="openai", model="gpt-4o", system="Be concise."),
)
# Anthropic (api_key falls back to ANTHROPIC_API_KEY)
axon = Axon(
neuron_id="reasoner",
neuron_fn=Neuron(source="anthropic", model="claude-opus-4-6"),
)
# OpenAI-compatible hosted endpoints - groq, openrouter, together, mistral.
# Pre-configured huggingface Neurons; api_key falls back to <PROVIDER>_API_KEY.
axon = Axon(
neuron_id="fast",
neuron_fn=Neuron(source="groq", model="llama-3.1-70b-versatile"),
)
Neuron(...) returns an async callable satisfying NeuronFn. Pass prompt or
messages (OpenAI-style) in the task input. Output is always
{"response": "<text>", "meta": <raw provider payload>}.
source= |
Kind | Key kwargs |
|---|---|---|
"ollama" |
LLM | model*, endpoint, system, temperature, max_tokens |
"huggingface" / "hf" |
LLM | endpoint*, model, use_chat_api, api_key, max_new_tokens |
"openai" |
LLM | model*, api_key (or OPENAI_API_KEY), endpoint, temperature, max_tokens, system |
"anthropic" |
LLM | model*, api_key (or ANTHROPIC_API_KEY), system, max_tokens, temperature |
"groq" / "openrouter" / "together" / "mistral" |
LLM | model, api_key (or <PROVIDER>_API_KEY), endpoint, temperature, max_new_tokens |
"mcp" |
MCP server | command+args or server+args, env, cwd, tool |
Requires httpx (pip install httpx).
Synapse adapters
| Import | Use when |
|---|---|
MemorySynapse |
tests, single-process |
DevSynapse |
multi-process dev on one host (cosmo synapse start memory) |
NatsSynapse |
production default (pip install cosmonapse) |
KafkaSynapse |
durable audit log (pip install cosmonapse) |
URL factory:
from cosmonapse import connect_synapse, synapse_from_url
synapse = await connect_synapse("cosmo://127.0.0.1:7070") # DevSynapse
synapse = await connect_synapse("nats://nats:4222") # NatsSynapse
synapse = await connect_synapse("kafka://broker:9092") # KafkaSynapse
For MemorySynapse, construct directly:
from cosmonapse import MemorySynapse
synapse = MemorySynapse()
await synapse.connect()
Storage backends
A RegistryStore is the orchestrator's view of the live Neuron population,
rebuilt from REGISTER / HEARTBEAT / DEREGISTER Signals. Pass one as
registry_store= when an orchestrator dispatches by capability instead of by
neuron_id.
| Import | Use when |
|---|---|
MemoryRegistryStore |
tests, ephemeral orchestrators |
SqliteRegistryStore |
single-process production, zero extra deps |
PostgresRegistryStore |
multi-process / multi-host (pip install cosmonapse) |
Pathway
dendrite.dispatch(...) returns a Pathway - a per-trace event handle with
three consumption shapes on the same primitive:
# 1. Sequential request/reply - block for the first terminal Signal.
sig = await orch.dispatch_and_wait(neuron="answerer", input={"q": "hi"}, timeout_s=5.0)
print(sig.payload["output"])
# 2. Reactive - trace-scoped callbacks.
pw = await orch.dispatch_and_subscribe(capabilities=["plan"], input={"goal": "..."})
@pw.on(SignalType.THOUGHT_DELTA)
async def stream(s):
print(s.payload["delta"], end="")
# 3. Streaming iteration.
async with await orch.dispatch(capabilities=["plan"], input={"goal": "..."}) as pw:
async for sig in pw:
if sig.type is SignalType.AGENT_OUTPUT:
break
Pathway(scope=...) filters delivery. "all" (default) sees every
PATHWAY_TYPES Signal on the trace; "terminal" delivers only
FINAL / ERROR / CLARIFICATION / PERMISSION - the decentralised pattern where
intermediate orchestration is handled peer-to-peer and the Cortex only wakes
for a conclusion or a blocked decision. Pathways auto-close on FINAL or ERROR.
observe_pathway(trace_id) opens a Pathway in observer role for a trace another
peer started. See the 04-pathway example.
Engram (shared memory)
An Engram is a memory backend addressed over the bus. The Neuron stays pure -
it gains keyword-only recall / imprint parameters that the Axon injects
because the Axon was constructed with engrams=[EngramBinding(...)]. Under the
hood recall(...) emits a RECALL Signal on the current trace and awaits the
matching RECALLED reply.
from cosmonapse import Axon, Dendrite, EngramBinding, InMemoryEngram
async def researcher(input, context, *, recall, imprint):
prior = await recall("ctx", query={"text": input["question"]})
if prior.hits:
return {"answer": prior.hits[0].entry["answer"], "source": "cache"}
answer = solve(input["question"])
await imprint("ctx", op="upsert", merge_key=f"q:{input['question']}",
entry={"question": input["question"], "answer": answer})
return {"answer": answer, "source": "computed"}
# Host owns the backend; engram_id is the wire address.
host.attach_engram(InMemoryEngram(engram_id="ctx", engram_kind="context"))
# Worker binds a local name to that wire id, so ops can repoint the
# backend without editing Neuron code.
worker.attach_axon(Axon(
neuron_id="researcher", neuron_fn=researcher, capabilities=["research"],
engrams=[EngramBinding(name="ctx", directed_id="ctx")],
))
Backends: InMemoryEngram (tests), SqliteEngram (single-host durable),
PostgresEngram (pip install cosmonapse). See the
06-engram-integration and 11-rag examples.
The cosmo CLI
pip install cosmonapse also installs the cosmo command:
| Command | What it does |
|---|---|
cosmo init [name] |
Scaffold a runnable Axon + Dendrite project (-n namespace, --force) |
cosmo synapse start memory --namespace=demo |
Boot a local TCP+NDJSON dev broker at cosmo://127.0.0.1:7070 |
cosmo dispatch |
Dispatch a TASK from the terminal and await the reply |
cosmo registry |
Inspect the live Neuron population (DISCOVER-based) |
cosmo answer |
Interactively answer CLARIFICATION / PERMISSION requests |
cosmo doppler -n demo |
Stream every Signal on the bus to stdout (--type to filter, --prism for the browser view) |
cosmo schema |
Export the Signal envelope JSON Schema |
cosmo validate |
Validate that Signals on the bus conform to the envelope spec |
cosmo completion |
Print a shell-completion script (bash / zsh / fish) |
Watch any workflow live:
cosmo synapse start memory --namespace=demo
cosmo doppler --prism --url=cosmo://127.0.0.1:7070 -n demo # opens http://127.0.0.1:7071
Examples
The companion cosmonapse-examples repo has 13 runnable, numbered examples -
from a single-process hello-world up through capability routing, competitive
bidding, a full hybrid-retrieval RAG system, an MCP-backed coding agent, and
retry / STOP / saga-rollback. Start with 01-quickstart.
License
MIT (c) 2026 Aqib Khan
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