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RXON (Reverse Axon) - Lightweight Inter-node Reverse Communication Protocol

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RXON (Reverse Axon) Protocol

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License: MPL 2.0 Python 3.11+ PyPI version

RXON (Reverse Axon) is a lightweight, extensible reverse-connection protocol designed for HLN (Hierarchical Logic Network) architectures.

It serves as the "nervous system" for distributed multi-agent systems, providing a strictly typed, Zero Trust foundation for inter-service communication.

🚀 Concept

In traditional networks, commands usually flow "top-down" (Push model). In RXON, the connection initiative always comes from the subordinate node (Shell) to the superior node (Orchestrator). This "Reverse Axon" architecture allows workers to operate behind NAT or Firewalls without complex network configuration, while maintaining a secure, bi-directional control channel.

✨ Key Features

  • Reverse Connection (PULL): Nodes connect to the orchestrator to pull tasks, ensuring compatibility with complex network environments (NAT/Firewalls).
  • Zero Trust Security: Payload signing via HMAC-SHA256 (symmetric) and Ed25519 (asymmetric digital signatures) with constant-time verification. Support for signed bubbling chains and mTLS certificate identity extraction.
  • Deep Model Restoration: Robust from_dict utility powered by msgspec.convert that recursively restores complex Python types (msgspec.Structs, Enums, UUIDs, datetimes) from raw dictionaries, supporting nested structures and Union types.
  • Secure Serialization: to_dict utility that recursively strips None values to reduce payload size and normalizes float values (e.g., 1.0 -> 1) to ensure stable cryptographic hashes.
  • Automated Contract Validation: Built-in JSON Schema engine that automatically infers schemas from Python types and validates TaskPayload parameters against SkillInfo contracts.
  • Advanced Resource Matching: Mathematical logic for resource allocation:
    • Numbers: Uses GE (Greater or Equal) logic (Requirement <= Available).
    • Lists: Uses Inclusion (val in list) or Intersection (any common element).
    • Strings: Case-insensitive partial matching for hardware models.
  • Unified Telemetry: Heartbeats include granular metrics for any custom devices (Sensors, GPUs, Actuators) and generic system properties via the extensible HardwareDevice model.
  • Resilient Transport: HTTP/WebSocket implementation with Secure Token Service (STS) supporting Refresh Tokens, exponential backoff for reconnections, and built-in Rate Limit (HTTP 429) handling with Retry-After.

🏗 Architecture & Logic

Internal Validation & Normalization

The library ensures data integrity at several layers:

  1. Serialization Stability: RXON uses a JSON Round-trip mechanism with orjson to normalize all numeric types (10.0 -> 10), coerce dictionary keys to strings, and sort keys. This ensures that the same object always produces the exact same HMAC hash regardless of minor formatting differences.
  2. Full Type Support: Native support for datetime, UUID, Enum, and Pydantic models ensures seamless integration with modern Python ecosystems while maintaining cryptographic consistency.
  3. Recursion Protection: All recursive operations are limited to a depth of 100 to prevent stack overflow or DoS attacks via malicious payloads.
  4. Schema Enforcement: Before task execution, the library validates input parameters against the skill's JSON Schema, checking for required fields, type correctness, and allowed enum values.

Smart Matching Logic

RXON formalizes the rules for matching tasks to holons:

  1. Hardware Matching: Compares HardwareDevice properties. If a task requires vram_gb: 16, it will match any device with vram_gb >= 16.
  2. Resource Properties: Generic resources (like RAM or CPU cores) are matched via the properties dictionary using the same GE logic.
  3. Capability Intersection: If a task accepts multiple environments (e.g., ["linux", "darwin"]), a worker with linux will be correctly matched.

🧪 Quick Start

Worker Side (PULL)

from rxon import create_transport
from rxon.models import Resources, HardwareDevice

# 1. Create transport (supports http, https, ws, wss)
transport = create_transport("ws://api.hln.local", "worker-01", "secret-token")

# 2. Define worker resources
my_res = Resources(
    properties={"ram_gb": 64, "cpu_cores": 16},
    devices=[HardwareDevice(type="gpu", model="RTX 4090", properties={"vram_gb": 24})]
)

# 3. Smart Matching Logic (Requirement: GPU with at least 16GB VRAM)
req = Resources(devices=[HardwareDevice(type="gpu", properties={"vram_gb": 16})])
if my_res.matches(req):
    print("This holon is ready for the task!")

Orchestrator Side (Server)

from aiohttp import web
from rxon import HttpListener

app = web.Application()
listener = HttpListener(app)

# MANDATORY: Register RXON routes before app startup
listener.setup_routes()

async def my_handler(action, payload, context):
    if action == "poll":
        return {"job_id": "j-1", "task_id": "t-1", "type": "echo"}
    return {"status": "ok"}

# Start listening
await listener.start(handler=my_handler)

📜 License

The project is distributed under the Mozilla Public License 2.0 (MPL 2.0).


Mantra: "The RXON is the medium for the Ghost."

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