silver-ai 0.1.8

Deterministic state-guardrails for agentic hardware & critical systems.

🛡️ SilverAi

Deterministic Pre-flight validation for AI agents controlling hardware.

A governance layer to catch AI agent mistakes before they reach your hardware.

🚨 The Problem

Large Language Models (LLMs) are probabilistic, but hardware is deterministic. SilverAi is a lightweight Python middleware that acts as a "bouncer at the door". It validates Agent requests against the current state snapshot of your system before execution, preventing obvious hallucinations from becoming physical actions.

Where SilverAi Helps

• Smart Home/Office Automation: Preventing agents from triggering devices during "do not disturb" modes;
• Warehouse Batch Operations: Validating battery and connectivity status before starting a non-critical routine;
• Prototyping & Development: Making the development of Agentic IoT safer by catching logic errors early.

⚡ The Solution

SilverAi is a lightweight, dependency-free Python middleware that enforces pre-flight validation on the tools of your AI agent. It sits between the LLM intent and the execution of your system.

✨ Key Features

• 🐍 Pythonic Decorators: Clean, readable syntax using @guard.
• 🔌 Connectivity Gates: Prevents Agents from calling APIs when the device is offline (BLE, WiFi).
• 🔋 State-Aware: Validates against real-time telemetry (Battery, Heat) before execution.
• 🧪 Dry-Run Mode: Test your safety logic in CI/CD without requiring physical hardware or live APIs.

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🚀 Quick Start

Installation

pip install silver-ai

Usage: Protecting a Robot

Prevent an Agent from moving a robot if the battery is critical or the connection is unstable.

from silver_ai import guard, rules

class IndustrialRobot:
    def __init__(self):
        # In production, this state comes from live telemetry
        self.state = {
            "battery": 10, 
            "connection": "offline",
            "is_stuck": False
        }

    @guard(
        rules.BatteryMin(15),
        rules.RequireConnectivity(protocol="BLE")
        # rules.TransactionLimit(amount=50)
    )
    def start_operation(self, zone: str):
        # 🛑 This code NEVER runs because battery (10) < 15
        # AND the device is offline.
        hardware_driver.move_to(zone)

The Agent receives this structured rejection (instead of crashing):

{
  "status": "error",
  "reason": "Battery critical: 10%. Required: 15%.",
  "suggestion": "Connect device to charger before proceeding.",
  "dry_run": false
}

🏛️ Architecture

SilverAi is part of a Defense-in-Depth strategy. It validates agent intent so your lower-level systems do not have to.

graph TD
    A[AI Agent Intent] --> B{SilverAi Governance}
    B -- Invalid --> C[Reject & Feedback]
    B -- Valid --> D[Hardware Controller]
    D --> E{Physical Safety System / PLC}
    E --> F[Execution]

🧪 Simulation & Testing (No Hardware Required)

One of the hardest parts of IoT development is testing failure states (e.g., "What happens if the battery dies halfway?"). SilverAi provides a DryRun harness to test safety logic instantly.

graph TD
    Start[AI Agent Request] --> Check{Safety Rules}
    Check -- Unsafe --> Fail[Return Error]
    Check -- Safe --> Mode{Dry Run Active?}
    Mode -- Yes --> Dry[Return 'Success: Simulated']
    Mode -- No --> Real[Execute Real Hardware]

from silver_ai.core import DRY_RUN_FLAG
from my_robot import IndustrialRobot

def test_safety_stops_low_battery():
    # 1. Instantiate the robot
    robot = IndustrialRobot()
    
    # 2. Inject dangerous state
    robot.state = {"battery": 5, "connection": "online"}
    
    # 3. Enable Safety Override (Dry Run)
    # We manually flag this instance for simulation
    setattr(robot, DRY_RUN_FLAG, True)
    
    # 4. Run the function
    result = robot.start_operation("Zone A")
    
    # 5. Assert that SilverAi caught it
    assert result['status'] == 'error'
    assert "Battery" in result['reason']

🛠️ Development on Local Machine

This project uses Poetry for dependency management and Ruff for strict code quality.

1. Prerequisites

• Python 3.11+;
• Poetry installed.

  pip install poetry
  

2. Setup

Clone the repo and install dependencies (including the virtual environment):

git clone https://github.com/gcl-team/SilverAi.git
cd SilverAi
poetry install

3. Running the Demo

We provide a demo.py to showcase the behavior (Success, Failure, Dry Run, Exception).

poetry run python demo.py

4. Running

We use pytest for unit testing.

poetry run pytest

5. Linting & Security

We use ruff to enforce PEP8, import sorting, and Bandit security rules.

poetry run ruff check .

⚠️ Important Limitations (Read Before Use)

SilverAi is a Software Governance Layer, not a real-time safety system.

• Not for Real-Time: Adds ~50-200ms latency. Works best for batch operations and control loops >500ms;
• Pre-flight only: Validates the intent before execution. It does not provide continuous monitoring during the action;
• Defense-in-Depth: SilverAi should be one layer of many. It does not replace hardware-level E-stops or PLC safety logic.

❌ NEVER Use for: Automotive, Medical Devices, Collision Avoidance, or any system where failure results in injury.

🤝 Contributing

We welcome your contributions! Bug reports and feature suggestions are encouraged. Open issues or submit pull requests via Project Issues.