بنقرة واحدة
quip-node-manager
Desktop GUI and CLI app for running and monitoring Quip Network nodes, built with Tauri v2 and Rust
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القائمة
Desktop GUI and CLI app for running and monitoring Quip Network nodes, built with Tauri v2 and Rust
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
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| name | quip-node-manager |
| description | Desktop GUI and CLI app for running and monitoring Quip Network nodes, built with Tauri v2 and Rust |
| triggers | ["manage quip network node","run quip node with GUI","quip node manager setup","configure quip node docker","quip node manager tauri","monitor quip network node","quip node GPU configuration","install quip node manager"] |
Skill by ara.so — Daily 2026 Skills collection.
Quip Node Manager is a cross-platform desktop application (macOS, Linux, Windows) built with Tauri v2 + Rust that lets you run, configure, and monitor Quip Network nodes. It supports two execution modes — Docker (default on Windows/Linux) and Native binary (default on macOS) — with a GUI front-end and an optional terminal UI (--cli flag).
curl -fsSL https://gitlab.com/quip.network/quip-node-manager/-/raw/main/scripts/install.sh | sh
irm https://gitlab.com/quip.network/quip-node-manager/-/raw/main/scripts/install.ps1 | iex
| Platform | Format | Steps |
|---|---|---|
| macOS | .dmg | Open DMG, drag to /Applications, then run xattr -dr com.apple.quarantine "/Applications/Quip Node Manager.app" |
| Linux | .AppImage | chmod +x quip-node-manager-linux-x86_64.AppImage && ./quip-node-manager-linux-x86_64.AppImage |
| Linux | .deb | sudo dpkg -i quip-node-manager-linux-x86_64.deb |
| Windows | .exe | Run installer; click More info → Run anyway if SmartScreen warns |
git clone https://gitlab.com/quip.network/quip-node-manager.git
cd quip-node-manager
bun install # Install JS dependencies
bun run dev # Launch hot-reloading dev build (opens desktop window)
bun run build # Production build for current platform
cd src-tauri
cargo check # Fast type-check
cargo clippy # Lint with suggestions
cargo test # Run unit tests
quip-node-manager/
├── src/ # Frontend: vanilla HTML/CSS/JS
│ ├── index.html
│ ├── main.js # Tauri IPC calls (window.__TAURI__)
│ └── styles.css
├── src-tauri/
│ ├── src/
│ │ ├── main.rs # App entry point
│ │ ├── commands.rs # Tauri IPC command handlers
│ │ ├── node.rs # Node process management
│ │ ├── config.rs # TOML config generation
│ │ ├── docker.rs # Docker mode logic
│ │ ├── updater.rs # Background update monitor
│ │ └── gpu.rs # CUDA/Metal device detection
│ ├── Cargo.toml
│ └── tauri.conf.json
├── scripts/
│ ├── install.sh
│ └── install.ps1
└── AGENTS.md # Detailed architecture docs
Data directory: ~/quip-data/ — stores settings, TOML config, secrets, downloaded binaries, and trust database.
| Mode | Default On | How it works |
|---|---|---|
| Docker | Windows, Linux | Pulls/manages a container image via Docker daemon |
| Native | macOS | Downloads a standalone quip-protocol binary |
Before starting the node, the manager verifies:
~/quip-data/The frontend calls Rust commands via window.__TAURI__.core.invoke. Key commands:
const { invoke } = window.__TAURI__.core;
// Get current node status
const status = await invoke('get_node_status');
// Returns: { running: bool, mode: 'docker'|'native', uptime_secs: number }
// Start the node
await invoke('start_node');
// Stop the node
await invoke('stop_node');
// Get configuration
const config = await invoke('get_config');
// Save configuration
await invoke('save_config', { config: { /* see config schema below */ } });
// Run pre-flight checks
const checks = await invoke('run_preflight');
// Returns: { docker: bool, secret: bool, public_ip: string, port_open: bool, firewall: bool }
// Get GPU devices
const gpus = await invoke('get_gpu_devices');
// Returns: [{ id: string, name: string, type: 'cuda'|'metal', enabled: bool, utilization: number }]
// Check for updates
const update = await invoke('check_for_updates');
// Returns: { app: string|null, node: string|null, docker_image: string|null }
The app generates a TOML config written to ~/quip-data/config.toml matching the quip-protocol format:
[node]
mode = "native" # or "docker"
secret_path = "/Users/you/quip-data/secret"
data_dir = "/Users/you/quip-data"
[network]
public_ip = "1.2.3.4"
port = 9000
tls_cert = "/path/to/cert.pem" # optional
tls_key = "/path/to/key.pem" # optional
[gpu]
enabled = true
devices = ["0", "1"]
utilization = 80 # percent
yield_mode = false
[dwave]
enabled = false
token = "" # set via env: DWAVE_TOKEN
daily_budget_seconds = 60
[updates]
auto_restart_on_image_update = true
check_interval_secs = 1800
// src-tauri/src/commands.rs
use tauri::State;
use crate::node::NodeManager;
#[tauri::command]
pub async fn get_node_status(
manager: State<'_, NodeManager>,
) -> Result<NodeStatus, String> {
manager.status().await.map_err(|e| e.to_string())
}
#[tauri::command]
pub async fn start_node(
manager: State<'_, NodeManager>,
) -> Result<(), String> {
manager.start().await.map_err(|e| e.to_string())
}
Register in main.rs:
// src-tauri/src/main.rs
fn main() {
tauri::Builder::default()
.manage(NodeManager::new())
.invoke_handler(tauri::generate_handler![
commands::get_node_status,
commands::start_node,
commands::stop_node,
commands::get_config,
commands::save_config,
commands::run_preflight,
commands::get_gpu_devices,
commands::check_for_updates,
])
.run(tauri::generate_context!())
.expect("error while running tauri application");
}
// src-tauri/src/node.rs
use tauri::{AppHandle, Emitter};
pub async fn stream_logs(app: AppHandle, mut reader: impl AsyncBufRead + Unpin) {
let mut line = String::new();
loop {
line.clear();
match reader.read_line(&mut line).await {
Ok(0) => break, // EOF
Ok(_) => {
app.emit("node-log-line", line.trim().to_string())
.unwrap_or_default();
}
Err(e) => {
app.emit("node-log-error", e.to_string()).unwrap_or_default();
break;
}
}
}
}
Listen in the frontend:
const { listen } = window.__TAURI__.event;
const unlisten = await listen('node-log-line', (event) => {
appendToLogDrawer(event.payload);
});
// Cleanup when drawer closes:
unlisten();
// src-tauri/src/docker.rs
use std::process::Command;
pub fn pull_image(image: &str) -> Result<(), String> {
let status = Command::new("docker")
.args(["pull", image])
.status()
.map_err(|e| format!("docker not found: {e}"))?;
if status.success() { Ok(()) } else { Err("docker pull failed".into()) }
}
pub fn run_node_container(image: &str, data_dir: &str, port: u16) -> Result<String, String> {
let output = Command::new("docker")
.args([
"run", "-d",
"--name", "quip-node",
"-p", &format!("{port}:{port}"),
"-v", &format!("{data_dir}:/quip-data"),
image,
])
.output()
.map_err(|e| e.to_string())?;
if output.status.success() {
Ok(String::from_utf8_lossy(&output.stdout).trim().to_string())
} else {
Err(String::from_utf8_lossy(&output.stderr).to_string())
}
}
// src-tauri/src/gpu.rs
#[derive(serde::Serialize)]
pub struct GpuDevice {
pub id: String,
pub name: String,
pub device_type: String, // "cuda" or "metal"
pub enabled: bool,
pub utilization: u8,
}
pub fn detect_gpus() -> Vec<GpuDevice> {
let mut devices = Vec::new();
// CUDA detection via nvidia-smi
if let Ok(output) = std::process::Command::new("nvidia-smi")
.args(["--query-gpu=index,name", "--format=csv,noheader"])
.output()
{
for line in String::from_utf8_lossy(&output.stdout).lines() {
let parts: Vec<&str> = line.splitn(2, ',').collect();
if parts.len() == 2 {
devices.push(GpuDevice {
id: parts[0].trim().to_string(),
name: parts[1].trim().to_string(),
device_type: "cuda".into(),
enabled: true,
utilization: 80,
});
}
}
}
// macOS Metal: presence of Metal framework implies GPU
#[cfg(target_os = "macos")]
devices.push(GpuDevice {
id: "0".into(),
name: "Apple Metal GPU".into(),
device_type: "metal".into(),
enabled: true,
utilization: 80,
});
devices
}
quip-node-manager --cli
Launches a terminal UI (TUI) instead of the desktop window — useful for headless servers.
The GUI includes a built-in walkthrough. For scripted setup:
Let's Encrypt (certbot):
sudo certbot certonly --standalone -d your.domain.com
# Certs written to /etc/letsencrypt/live/your.domain.com/
Then set in config:
[network]
tls_cert = "/etc/letsencrypt/live/your.domain.com/fullchain.pem"
tls_key = "/etc/letsencrypt/live/your.domain.com/privkey.pem"
Self-signed (openssl):
openssl req -x509 -newkey rsa:4096 -keyout ~/quip-data/key.pem \
-out ~/quip-data/cert.pem -days 365 -nodes \
-subj "/CN=quip-node"
| Variable | Purpose |
|---|---|
DWAVE_TOKEN | D-Wave QPU API token (never hard-code) |
QUIP_DATA_DIR | Override default ~/quip-data/ location |
QUIP_NODE_IMAGE | Override Docker image tag |
RUST_LOG | Logging level (e.g. debug, info) |
The app checks every 30 minutes for:
Configure in config.toml:
[updates]
check_interval_secs = 1800
auto_restart_on_image_update = true # restarts node on new Docker image
| Problem | Fix |
|---|---|
| macOS "app is damaged" | Run xattr -dr com.apple.quarantine "/Applications/Quip Node Manager.app" |
| Windows SmartScreen block | Click More info → Run anyway |
| Docker not found | Install Docker Desktop and ensure daemon is running |
| Pre-flight: port closed | Forward UDP/TCP port 9000 on router; check ufw/iptables |
| Node won't start (native) | Check ~/quip-data/ for secret file; re-run preflight |
| Blank GUI window (dev) | Run bun install then bun run dev; check Tauri prerequisites |
cargo clippy errors | Run rustup update stable to ensure latest stable Rust |
| Logs not streaming | Ensure node-log-line event listener registered before start_node invoke |
https://gitlab.com/quip.network/quip-node-managercargo clippy and bun run build before submitting