Go to file

Leopere 40451b7d4c Camera TRNG: webcam-based true random number generator MIT with attribution (see LICENSE). Docker: build locally, no registry. Co-authored-by: Cursor <cursoragent@cursor.com>		2026-02-05 15:46:26 -05:00
man	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
scripts	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
src	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
.cursorignore	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
.gitignore	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
.woodpecker.yml	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
Cargo.lock	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
Cargo.toml	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
Dockerfile	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
LICENSE	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
README.md	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
RESEARCH.md	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
TECHNICAL.md	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00
openssl-camera-qrng.cnf	Camera TRNG: webcam-based true random number generator	2026-02-05 15:46:26 -05:00

README.md

Camera TRNG

TL;DR: Turn any webcam into a true random number generator. Cover the lens, run the server, get random bytes.

What is this?

Your webcam generates electrical noise even when the lens is covered. This noise comes from quantum effects in the sensor. This tool captures that noise and turns it into random numbers - the same approach used by LavaRnd.

Quick Start

1. Install

# Clone and build
git clone https://git.nixc.us/colin/camera-trng.git
cd camera-trng
cargo build --release

Or use Docker (build locally):

docker build -t camera-trng .

2. Cover Your Camera Lens

Use tape, a lens cap, or put the camera in a dark box. The camera should see nothing but blackness.

3. Run

./target/release/camera-qrng

Server starts at http://localhost:8787

4. Get Random Bytes

# Get 32 random bytes (hex)
curl "http://localhost:8787/random?bytes=32&hex=true"

# Get 1KB of raw random data
curl "http://localhost:8787/random?bytes=1024" -o random.bin

# Continuous stream
curl -N "http://localhost:8787/stream"

Is it actually random?

Yes. This tool passes all NIST SP 800-22 statistical tests for randomness:

# Run the built-in test suite
./scripts/test-randomness.py --server http://localhost:8787

The output is cryptographic quality - suitable for generating encryption keys, secure tokens, etc.

API

Endpoint	Description
`GET /random?bytes=N`	Get N random bytes (max 1024)
`GET /random?bytes=N&hex=true`	Get N random bytes as hex string
`GET /stream`	Continuous stream of random bytes
`GET /health`	Health check

Troubleshooting

macOS "Camera in use" error:

./scripts/release-camera.sh
./target/release/camera-qrng

Docker (Linux):

docker run -d --device /dev/video0 -p 8787:8787 camera-trng

More Info

TECHNICAL.md - Full API docs, CI/CD, configuration options
RESEARCH.md - The science behind camera-based random number generation

License

CC-BY 4.0. See LICENSE.