zeroboot-vm-sandbox
Sub-millisecond VM sandboxes for AI agents using copy-on-write KVM forking via Zeroboot
How do I install this agent skill?
npx skills add https://github.com/aradotso/trending-skills --skill zeroboot-vm-sandboxIs this agent skill safe to install?
- Gen Agent Trust Hubpass
This skill provides a secure, high-performance VM sandboxing service using Zeroboot to run untrusted code. It leverages KVM and Firecracker for hardware-level isolation, ensuring that agent-generated code remains contained. No malicious activity or security vulnerabilities were detected.
- Socketpass
No alerts
- Snykwarn
Risk: MEDIUM · 2 issues
- ZeroLeakspass
Score: 93/100 · 2 sections analyzed
What does this agent skill do?
Zeroboot VM Sandbox
Skill by ara.so — Daily 2026 Skills collection.
Zeroboot provides sub-millisecond KVM virtual machine sandboxes for AI agents using copy-on-write forking. Each sandbox is a real hardware-isolated VM (via Firecracker + KVM), not a container. A template VM is snapshotted once, then forked in ~0.8ms per execution using mmap(MAP_PRIVATE) CoW semantics.
How It Works
Firecracker snapshot ──► mmap(MAP_PRIVATE) ──► KVM VM + restored CPU state
(copy-on-write) (~0.8ms)
- Template: Firecracker boots once, pre-loads your runtime, snapshots memory + CPU state
- Fork (~0.8ms): New KVM VM maps snapshot memory as CoW, restores CPU state
- Isolation: Each fork is a separate KVM VM with hardware-enforced memory isolation
Installation
Python SDK
pip install zeroboot
Node/TypeScript SDK
npm install @zeroboot/sdk
# or
pnpm add @zeroboot/sdk
Authentication
Set your API key as an environment variable:
export ZEROBOOT_API_KEY="zb_live_your_key_here"
Never hardcode keys in source files.
Quick Start
REST API (cURL)
curl -X POST https://api.zeroboot.dev/v1/exec \
-H 'Content-Type: application/json' \
-H "Authorization: Bearer $ZEROBOOT_API_KEY" \
-d '{"code":"import numpy as np; print(np.random.rand(3))"}'
Python
import os
from zeroboot import Sandbox
# Initialize with API key from environment
sb = Sandbox(os.environ["ZEROBOOT_API_KEY"])
# Run Python code
result = sb.run("print(1 + 1)")
print(result) # "2"
# Run multi-line code
result = sb.run("""
import numpy as np
arr = np.arange(10)
print(arr.mean())
""")
print(result)
TypeScript / Node.js
import { Sandbox } from "@zeroboot/sdk";
const apiKey = process.env.ZEROBOOT_API_KEY!;
const sb = new Sandbox(apiKey);
// Run JavaScript/Node code
const result = await sb.run("console.log(1 + 1)");
console.log(result); // "2"
// Run async code
const output = await sb.run(`
const data = [1, 2, 3, 4, 5];
const sum = data.reduce((a, b) => a + b, 0);
console.log(sum / data.length);
`);
console.log(output);
Common Patterns
AI Agent Code Execution Loop (Python)
import os
from zeroboot import Sandbox
def execute_agent_code(code: str) -> dict:
"""Execute LLM-generated code in an isolated VM sandbox."""
sb = Sandbox(os.environ["ZEROBOOT_API_KEY"])
try:
result = sb.run(code)
return {"success": True, "output": result}
except Exception as e:
return {"success": False, "error": str(e)}
# Example: running agent-generated code safely
agent_code = """
import json
data = {"agent": "result", "value": 42}
print(json.dumps(data))
"""
response = execute_agent_code(agent_code)
print(response)
Concurrent Sandbox Execution (Python)
import os
import asyncio
from zeroboot import Sandbox
async def run_sandbox(code: str, index: int) -> str:
sb = Sandbox(os.environ["ZEROBOOT_API_KEY"])
result = await asyncio.to_thread(sb.run, code)
return f"[{index}] {result}"
async def run_concurrent(snippets: list[str]):
tasks = [run_sandbox(code, i) for i, code in enumerate(snippets)]
results = await asyncio.gather(*tasks)
return results
# Run 10 sandboxes concurrently
codes = [f"print({i} ** 2)" for i in range(10)]
outputs = asyncio.run(run_concurrent(codes))
for out in outputs:
print(out)
TypeScript: Agent Tool Integration
import { Sandbox } from "@zeroboot/sdk";
interface ExecutionResult {
success: boolean;
output?: string;
error?: string;
}
async function runInSandbox(code: string): Promise<ExecutionResult> {
const sb = new Sandbox(process.env.ZEROBOOT_API_KEY!);
try {
const output = await sb.run(code);
return { success: true, output };
} catch (err) {
return { success: false, error: String(err) };
}
}
// Integrate as a tool for an LLM agent
const tool = {
name: "execute_code",
description: "Run code in an isolated VM sandbox",
execute: async ({ code }: { code: string }) => runInSandbox(code),
};
REST API with fetch (TypeScript)
const API_BASE = "https://api.zeroboot.dev/v1";
async function execCode(code: string): Promise<string> {
const res = await fetch(`${API_BASE}/exec`, {
method: "POST",
headers: {
"Content-Type": "application/json",
Authorization: `Bearer ${process.env.ZEROBOOT_API_KEY}`,
},
body: JSON.stringify({ code }),
});
if (!res.ok) {
const err = await res.text();
throw new Error(`Zeroboot error ${res.status}: ${err}`);
}
const data = await res.json();
return data.output;
}
Health Check
curl https://api.zeroboot.dev/v1/health
API Reference
POST /v1/exec
Execute code in a fresh sandbox fork.
Request:
{
"code": "print('hello')"
}
Headers:
Authorization: Bearer <ZEROBOOT_API_KEY>
Content-Type: application/json
Response:
{
"output": "hello\n",
"duration_ms": 0.79
}
Performance Characteristics
| Metric | Value |
|---|---|
| Spawn latency p50 | ~0.79ms |
| Spawn latency p99 | ~1.74ms |
| Memory per sandbox | ~265KB |
| Fork + exec Python | ~8ms |
| 1000 concurrent forks | ~815ms |
- Each sandbox is a real KVM VM — not a container or process jail
- Memory isolation is hardware-enforced (not software)
- CoW means only pages written by your code consume extra RAM
Self-Hosting / Deployment
See docs/DEPLOYMENT.md in the repo. Requirements:
- Linux host with KVM support (
/dev/kvmaccessible) - Firecracker binary
- Rust 2021 edition toolchain
# Check KVM availability
ls /dev/kvm
# Clone and build
git clone https://github.com/adammiribyan/zeroboot
cd zeroboot
cargo build --release
Architecture Notes
- Snapshot layer: Firecracker VM boots once per runtime template, memory + vCPU state saved to disk
- Fork layer (Rust):
mmap(MAP_PRIVATE)on snapshot file → kernel handles CoW page faults per VM - Isolation: Each fork has its own KVM VM file descriptors, vCPU, and page table — fully hardware-separated
- No shared kernel: Unlike containers, each sandbox runs its own kernel instance
Troubleshooting
/dev/kvm not found (self-hosted)
# Enable KVM kernel module
sudo modprobe kvm
sudo modprobe kvm_intel # or kvm_amd
API returns 401 Unauthorized
- Verify
ZEROBOOT_API_KEYis set and starts withzb_live_ - Check the key is not expired in your dashboard
Timeout on execution
- Default execution timeout is enforced server-side
- Break large computations into smaller chunks
- Avoid infinite loops or blocking I/O in sandbox code
High memory usage (self-hosted)
- Each VM fork starts at ~265KB CoW overhead
- Pages are allocated on write — memory grows with sandbox activity
- Tune concurrent fork limits based on available RAM
Resources
How can the creator link this skill?
Add the canonical catalog link to the repository README so users can inspect current installs and available audits. The publishing guide covers the complete discovery path.
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