9ce28f080e
The app card and details view previously used a pair of Start/Stop buttons whose labels were driven off isAppLoading(), a client-side "I just clicked the button" flag. When the backend's graceful stop took longer than the RPC round-trip (up to 600s on bitcoin-core), the flag cleared while the container was still shutting down, the UI flipped back to "Running" as soon as the next 10s scan saw the still-alive container, and the user had no indication the stop was still in flight. Now that the backend flips PackageState to Stopping / Starting / Restarting / Installing / Updating / Removing for the duration of each lifecycle operation and the scan loop preserves those states, the UI can drive its label off the container state itself. A single full-width primary button replaces the Start/Stop pair. Its label, color, and disabled state come from getAppVisualState(), which collapses resting states (exited/created/paused/installed) into "stopped" and passes transitional states through untouched. Changes: - container-client.ts: widen ContainerStatus.state union to include the six transitional variants plus "installed". Add restartContainer() calling the new container-restart RPC. - stores/container.ts: add getAppVisualState() computed and the restartContainer() action. - ContainerApps.vue: single primary button (Start / Stop / Starting / Stopping / Restarting etc.) plus a separate circular Restart button visible only when running. Critically, handleStartApp and handleStopApp now route through store.startContainer and stopContainer (which call container-start / container-stop, the async RPCs) instead of the legacy synchronous bundled-app-start / bundled-app-stop path. Transitional-state polling widened from just "created" to the full set of transitional variants. - ContainerAppDetails.vue: same single-button pattern, Restart button now calls container-restart instead of the old stop-sleep-start sequence, added 2s polling interval for transitional states. - components/ContainerStatus.vue: widen state prop to match the shared union, render transitional labels with a trailing ellipsis and a yellow dot. No new tests — this is presentation logic. Manual verification on .228 will confirm the end-to-end async path: click Stop on LND, button becomes "Stopping" in under a second, stays that way for roughly 5 minutes, then flips to "Start" with a grey dot. The UI must never revert to "Running" mid-stop.
Archipelago
Self-Sovereign Bitcoin Node OS
Archipelago is a bootable personal server OS. Flash it to a USB drive, install on any x86_64 or ARM64 machine, and manage Bitcoin infrastructure, self-hosted apps, and decentralized identity through a glassmorphism web UI.
Features
Bitcoin Infrastructure
- Bitcoin Knots full node with pruning support
- LND Lightning Network daemon with channel management
- ElectrumX Electrum server for wallet connectivity
- BTCPay Server for accepting Bitcoin payments
- Mempool block explorer and fee estimator
- Fedimint federation guardian and gateway
Self-Hosted Apps (30)
Bitcoin (ThunderHub), Storage (FileBrowser, Immich, Nextcloud), Productivity (Penpot, OnlyOffice, Vaultwarden), Media (Jellyfin, PhotoPrism), Search (SearXNG), AI (Ollama), Network (Tailscale, Nginx Proxy Manager), Home (Home Assistant), Nostr (nostr-rs-relay, Nostrudel), Dev (Grafana, Portainer), and more.
Decentralized Identity
- Ed25519 node identity with DID Documents (did:key)
- Multi-identity management (Personal/Business/Anonymous)
- W3C Verifiable Credentials issuance and verification
- Decentralized Web Node (DWN) with bidirectional sync over Tor
- Nostr relay integration and NIP-07 signing for iframe apps
Multi-Node Federation
- Invite-based node joining over Tor hidden services
- Trust levels (Trusted/Verified/Untrusted) with DID-based auth
- Bidirectional DWN state sync between federated nodes
- File sharing with access controls (free/peers-only/paid)
Mesh Networking
- LoRa radio communication via Meshcore protocol
- Device discovery and mesh routing
- Off-grid Bitcoin balance checks (planned)
System Updates
- OTA updates from self-hosted Gitea (git.tx1138.com) with SHA256 verification
- Three update modes: Manual, Daily Check, Auto Apply (3 AM window)
- Rollback support with automatic backup before applying
- Full UI for update management in Settings
Security
- ChaCha20-Poly1305 encrypted secrets at rest, Argon2id password hashing
- Rootless Podman: read-only root, cap-drop ALL, non-root user, no-new-privileges
- TOTP two-factor authentication
- Per-endpoint rate limiting, CSRF protection, input validation
- AppArmor profiles for container confinement
- Tor hidden services for all inter-node communication
- All crypto and container dependencies pinned to exact versions
- Full penetration test completed (33 findings, all remediated)
Quick Start
Install from ISO
- Download the ISO for your architecture (x86_64 or ARM64)
- Flash to USB drive with Balena Etcher or
dd - Boot from USB on target hardware
- Follow the automated installer
- Access the web UI at
http://<device-ip> - Set your password and start the onboarding wizard
Supported Hardware
| Platform | Examples | Minimum |
|---|---|---|
| x86_64 | Intel NUC, mini PCs, any 64-bit PC | 4GB RAM, 32GB storage |
| ARM64 | Raspberry Pi 5, ARM64 SBCs | 4GB RAM, 32GB storage |
Recommended: 8GB+ RAM, 1TB+ NVMe SSD (for full Bitcoin node)
Development
Prerequisites
- macOS or Linux for frontend development
- Linux dev server (Debian 13) for backend builds — never build Rust on macOS for Linux
- Node.js 20+, Rust stable toolchain
Frontend Development
cd neode-ui
npm install
npm start # Dev server on http://localhost:8100 (mock backend on :5959)
npm run type-check # TypeScript validation
npm run build # Production build → web/dist/neode-ui/
Deploy to Server
./scripts/deploy-to-target.sh --live # Deploy to primary dev server
./scripts/deploy-to-target.sh --both # Deploy to both LAN servers
Build ISO
ssh archipelago@<server>
cd ~/archy/image-recipe
sudo ./build-auto-installer-iso.sh
Architecture
Debian 13 (Trixie)
├── Rootless Podman (30 containers, archy-net DNS)
├── Nginx (reverse proxy, security headers, rate limiting)
├── Rust Backend (JSON-RPC API on 127.0.0.1:5678)
│ ├── core/archipelago/ — RPC endpoints, auth, identity, federation, mesh
│ ├── core/container/ — PodmanClient (REST API socket), manifests, health
│ ├── core/security/ — AppArmor, secrets, Cosign image verification
│ └── 6 more crates — models, helpers, js-engine, performance, etc.
├── Vue 3 Frontend (Composition API + TypeScript strict + Pinia + Tailwind)
└── System Tor (hidden services, SOCKS5 proxy)
~49,000 lines of Rust | ~47,000 lines of TypeScript/Vue | 78 shell scripts | 30 container apps
Documentation
| Doc | Purpose |
|---|---|
| Architecture | System design, codebase stats, data paths |
| Architecture Review (HTML) | Interactive guide with diagrams and learning path |
| Developer Guide | Dev setup, workflow, code conventions |
| API Reference | Complete RPC endpoint reference |
| App Developer Guide | Building and publishing apps |
| User Walkthrough | End-user installation and usage guide |
| Troubleshooting | Diagnostic scenarios and solutions |
| Operations Runbook | Ops commands and emergency recovery |
| Security Audit | Penetration test findings |
| Master Plan | Phased roadmap and task tracking |
Contributing
- Fork the repository
- Create a feature branch (
feature/description) - Follow the coding standards in CLAUDE.md
- Submit a pull request