# RemoteTerm for MeshCore
Backend server + browser interface for MeshCore mesh radio networks. Connect your radio over Serial, TCP, or BLE, and then you can:
* Send and receive DMs and channel messages
* Cache all received packets, decrypting as you gain keys
* Run multiple Python bots that can analyze messages and respond to DMs and channels
* Monitor unlimited contacts and channels (radio limits don't apply -- packets are decrypted server-side)
* Access your radio remotely over your network or VPN
* Search for hashtag room names for channels you don't have keys for yet
* Forward decrypted packets to MQTT brokers (both private and community aggregators like LetsMesh.net)
* Visualize the mesh as a map or node set, view repeater stats, and more!
**Warning:** This app has no auth, and is for trusted environments only. _Do not put this on an untrusted network, or open it to the public._ The bots can execute arbitrary Python code which means anyone on your network can, too. If you need access control, consider using a reverse proxy like Nginx, or extending FastAPI; access control and user management are outside the scope of this app.
## Disclaimer
This is developed with very heavy agentic assistance -- there is no warranty of fitness for any purpose. It's been lovingly guided by an engineer with a passion for clean code and good tests, but it's still mostly LLM output, so you may find some bugs.
If extending, have your LLM read the three `AGENTS.md` files: `./AGENTS.md`, `./frontend/AGENTS.md`, and `./app/AGENTS.md`.
## Requirements
- Python 3.10+
- Node.js 18+
- [UV](https://astral.sh/uv) package manager: `curl -LsSf https://astral.sh/uv/install.sh | sh`
- MeshCore radio connected via USB serial, TCP, or BLE
Finding your serial port
```bash
#######
# Linux
#######
ls /dev/ttyUSB* /dev/ttyACM*
#######
# macOS
#######
ls /dev/cu.usbserial-* /dev/cu.usbmodem*
######
# WSL2
######
# Run this in an elevated PowerShell (not WSL) window
winget install usbipd
# restart console
# then find device ID
usbipd list
# make device shareable
usbipd bind --busid 3-8 # (or whatever the right ID is)
# attach device to WSL (run this each time you plug in the device)
usbipd attach --wsl --busid 3-8
# device will appear in WSL as /dev/ttyUSB0 or /dev/ttyACM0
```
## Quick Start
**This approach is recommended over Docker due to intermittent serial communications issues I've seen on \*nix systems.**
```bash
git clone https://github.com/jkingsman/Remote-Terminal-for-MeshCore.git
cd Remote-Terminal-for-MeshCore
# Install backend dependencies
uv sync
# Build frontend
cd frontend && npm install && npm run build && cd ..
# Run server
uv run uvicorn app.main:app --host 0.0.0.0 --port 8000
```
The server auto-detects the serial port. To specify a transport manually:
```bash
# Serial (explicit port)
MESHCORE_SERIAL_PORT=/dev/ttyUSB0 uv run uvicorn app.main:app --host 0.0.0.0 --port 8000
# TCP (e.g. via wifi-enabled firmware)
MESHCORE_TCP_HOST=192.168.1.100 MESHCORE_TCP_PORT=4000 uv run uvicorn app.main:app --host 0.0.0.0 --port 8000
# BLE (address and PIN both required)
MESHCORE_BLE_ADDRESS=AA:BB:CC:DD:EE:FF MESHCORE_BLE_PIN=123456 uv run uvicorn app.main:app --host 0.0.0.0 --port 8000
```
Access at http://localhost:8000
> **Note:** WebGPU cracking requires HTTPS when not on localhost. See the HTTPS section under Additional Setup.
## Docker Compose
> **Warning:** Docker has intermittent issues with serial event subscriptions. The native method above is more reliable.
> **Note:** BLE-in-docker is outside the scope of this README, but the env vars should all still work.
Edit `docker-compose.yaml` to set a serial device for passthrough, or uncomment your transport (serial or TCP). Then:
```bash
docker compose up -d
```
The database is stored in `./data/` (bind-mounted), so the container shares the same database as the native app. To rebuild after pulling updates:
```bash
docker compose up -d --build
```
To use the prebuilt Docker Hub image instead of building locally, replace:
```yaml
build: .
```
with:
```yaml
image: jkingsman/remoteterm-meshcore:latest
```
Then run:
```bash
docker compose pull
docker compose up -d
```
The container runs as root by default for maximum serial passthrough compatibility across host setups. On Linux, if you switch between native and Docker runs, `./data` can end up root-owned. If you do not need that compatibility behavior, you can enable the optional `user: "${UID:-1000}:${GID:-1000}"` line in `docker-compose.yaml` to keep ownership aligned with your host user.
To stop:
```bash
docker compose down
```
## Development
### Backend
```bash
uv sync
uv run uvicorn app.main:app --reload # autodetects serial port
# Or with explicit serial port
MESHCORE_SERIAL_PORT=/dev/ttyUSB0 uv run uvicorn app.main:app --reload
```
### Frontend
```bash
cd frontend
npm install
npm run dev # Dev server at http://localhost:5173 (proxies API to :8000)
npm run build # Production build to dist/
```
Run both the backend and `npm run dev` for hot-reloading frontend development.
### Code Quality & Tests
Please test, lint, format, and quality check your code before PRing or committing. At the least, run a lint + autoformat + pyright check on the backend, and a lint + autoformat on the frontend.
Run everything at once (parallelized):
```bash
./scripts/all_quality.sh
```
Or run individual checks
```bash
# python
uv run ruff check app/ tests/ --fix # lint + auto-fix
uv run ruff format app/ tests/ # format (always writes)
uv run pyright app/ # type checking
PYTHONPATH=. uv run pytest tests/ -v # backend tests
# frontend
cd frontend
npm run lint:fix # esLint + auto-fix
npm run test:run # run tests
npm run format # prettier (always writes)
npm run build # build the frontend
```
## Configuration
| Variable | Default | Description |
|----------|---------|-------------|
| `MESHCORE_SERIAL_PORT` | (auto-detect) | Serial port path |
| `MESHCORE_SERIAL_BAUDRATE` | 115200 | Serial baud rate |
| `MESHCORE_TCP_HOST` | | TCP host (mutually exclusive with serial/BLE) |
| `MESHCORE_TCP_PORT` | 4000 | TCP port |
| `MESHCORE_BLE_ADDRESS` | | BLE device address (mutually exclusive with serial/TCP) |
| `MESHCORE_BLE_PIN` | | BLE PIN (required when BLE address is set) |
| `MESHCORE_LOG_LEVEL` | INFO | DEBUG, INFO, WARNING, ERROR |
| `MESHCORE_DATABASE_PATH` | data/meshcore.db | SQLite database path |
Only one transport may be active at a time. If multiple are set, the server will refuse to start.
## Additional Setup
HTTPS (Required for WebGPU room-finding outside localhost)
WebGPU requires a secure context. When not on `localhost`, serve over HTTPS:
```bash
openssl req -x509 -newkey rsa:4096 -keyout key.pem -out cert.pem -days 365 -nodes -subj '/CN=localhost'
uv run uvicorn app.main:app --host 0.0.0.0 --port 8000 --ssl-keyfile=key.pem --ssl-certfile=cert.pem
```
For Docker Compose, generate the cert and add the volume mounts and command override to `docker-compose.yaml`:
```bash
# generate snakeoil TLS cert
openssl req -x509 -newkey rsa:4096 -keyout key.pem -out cert.pem -days 365 -nodes -subj '/CN=localhost'
```
Then add the key and cert to the `remoteterm` service in `docker-compose.yaml`, and add an explicit launch command that uses them:
```yaml
volumes:
- ./data:/app/data
- ./cert.pem:/app/cert.pem:ro
- ./key.pem:/app/key.pem:ro
command: uv run uvicorn app.main:app --host 0.0.0.0 --port 8000 --ssl-keyfile=/app/key.pem --ssl-certfile=/app/cert.pem
```
Accept the browser warning, or use [mkcert](https://github.com/FiloSottile/mkcert) for locally-trusted certs.
Systemd Service (Linux)
Assumes you're running from `/opt/remoteterm`; update commands and `remoteterm.service` if you're running elsewhere.
```bash
# Create service user
sudo useradd -r -m -s /bin/false remoteterm
# Install to /opt/remoteterm
sudo mkdir -p /opt/remoteterm
sudo cp -r . /opt/remoteterm/
sudo chown -R remoteterm:remoteterm /opt/remoteterm
# Install dependencies
cd /opt/remoteterm
sudo -u remoteterm uv venv
sudo -u remoteterm uv sync
# Build frontend (required for the backend to serve the web UI)
cd /opt/remoteterm/frontend
sudo -u remoteterm npm install
sudo -u remoteterm npm run build
# Install and start service
sudo cp /opt/remoteterm/remoteterm.service /etc/systemd/system/
sudo systemctl daemon-reload
sudo systemctl enable --now remoteterm
# Check status
sudo systemctl status remoteterm
sudo journalctl -u remoteterm -f
```
Edit `/etc/systemd/system/remoteterm.service` to set `MESHCORE_SERIAL_PORT` if needed.
Testing
**Backend:**
```bash
PYTHONPATH=. uv run pytest tests/ -v
```
**Frontend:**
```bash
cd frontend
npm run test:run
```
**E2E:**
Warning: these tests are only guaranteed to run correctly in a narrow subset of environments; they require a busy mesh with messages arriving constantly. E2E tests are generally not necessary to run for normal development work.
```bash
cd tests/e2e
npx playwright test # headless
npx playwright test --headed # show the browser window
```
## API Documentation
With the backend running: http://localhost:8000/docs
## Debugging & Bug Reports
If you're experiencing issues or opening a bug report, please start the backend with debug logging enabled. Debug mode provides a much more detailed breakdown of radio communication, packet processing, and other internal operations, which makes it significantly easier to diagnose problems.
To start the server with debug logging:
```bash
MESHCORE_LOG_LEVEL=DEBUG uv run uvicorn app.main:app --host 0.0.0.0 --port 8000
```
Please include the relevant debug log output when filing an issue on GitHub.