11038cdcc9
Adds a per-message transport badge to archy↔archy mesh chats and fixes the
long-broken E2E badge — both meshcore and meshtastic, styled like the existing
E2E pill.
Transport pill:
- New `MeshMessage.transport` ("lora"/"fips"/"tor"), surfaced in the UI beside
the E2E badge (Mesh.vue transportLabel() → Mesh/FIPS/Tor, mesh-styles.css).
- Sent LoRa → "lora"; sent federation → finalized to the real leg ("fips"/"tor")
once the background send resolves (req.send_json transport), via an id-keyed
store update.
- Received: a post-dispatch stamp on handle_typed_envelope_direct's output
(monotonic ids) tags both transports without threading through all 20 typed-
dispatch sites — radio wrapper stamps "lora", federation injector stamps the
peer's last_transport ("fips"/"tor", default tor; the inbound HTTP carries no
FIPS-vs-Tor signal).
- Plain native/channel LoRa frames → "lora"; channel broadcasts stay non-E2E.
E2E pill fix:
- `encrypted` was hardcoded false at every MeshMessage construction site, so the
UI badge (Mesh.vue `v-if="msg.encrypted"`) never showed. Now: federation
envelopes are E2E (identity-signed over an encrypted transport); the meshcore
native-DM receive path already had a real `encrypted` flag (now also tagged
with transport). meshtastic-PKI radio E2E flag threading is a noted follow-up.
Backend cargo check + frontend vue-tsc build both green. Needs a live radio +
multi-transport pass on .116/.228 to confirm end-to-end (see
project_transport_pill / project_meshtastic_parity).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Archipelago Web UI
Vue 3 + TypeScript + Vite + Tailwind CSS + Pinia
The web interface for Archipelago — a self-sovereign Bitcoin Node OS.
Quick Start
cd neode-ui
npm install
npm start
Visit http://localhost:8100 — login with password: password123
This starts:
- Mock backend on port 5959 (no Docker required)
- Vite dev server on port 8100 with HMR
Stop with npm stop.
Architecture
neode-ui/
├── src/
│ ├── api/ # RPC client (rpc-client.ts), WebSocket, container client
│ ├── stores/ # Pinia stores (app, container, appLauncher, monitoring)
│ ├── views/ # Page components (Dashboard, Marketplace, Settings, etc.)
│ ├── components/ # Reusable components (SplashScreen, AppSession, etc.)
│ ├── router/ # Vue Router configuration
│ ├── types/ # TypeScript type definitions
│ └── style.css # Global styles + Tailwind utilities
├── public/assets/ # Static assets (images, fonts, app icons, audio)
├── mock-backend.js # Mock backend server (simulates Rust backend)
├── docker/ # Docker configs (nginx, entrypoint)
└── vite.config.ts # Vite config with backend proxy
Dev Modes
The mock backend supports multiple startup modes via VITE_DEV_MODE:
| Mode | Command | Behavior |
|---|---|---|
| default | npm start |
Fully set up, login screen |
| existing | VITE_DEV_MODE=existing npm run dev:mock |
Same as default |
| setup | VITE_DEV_MODE=setup npm run dev:mock |
First-time password setup flow |
| onboarding | VITE_DEV_MODE=onboarding npm run dev:mock |
Post-setup onboarding flow |
| boot | npm run dev:boot |
25s simulated boot sequence |
Mock Backend
The mock backend (mock-backend.js) simulates the full Rust backend for local development:
Pre-installed apps (always visible in My Apps):
- Bitcoin Core, LND, Electrs, Mempool, FileBrowser, LoraBell, Fedimint
Marketplace: 30+ curated apps with Docker images, install/uninstall simulation
Features simulated:
- Authentication (login, password change, TOTP 2FA)
- System metrics (CPU, memory, disk — randomized for realism)
- Node identity (DID, Nostr pubkey, Tor address)
- Federation (3 mock nodes with apps, metrics, trust levels)
- Mesh networking (4 LoRa peers, encrypted messaging, invoices)
- Peer-to-peer messaging
- FileBrowser API (mock file system with Music, Documents, Photos, Videos)
- DWN sync status
- Transport layer (mesh/LAN/Tor routing)
- Notifications (5 realistic entries)
- Claude AI chat proxy (requires
ANTHROPIC_API_KEY)
Container runtime: If Docker/Podman is available, the mock backend will run real containers for installed apps. Otherwise, it simulates them.
Demo Deployment (Portainer)
Deploy the demo via Docker Compose for showcasing:
docker compose -f docker-compose.demo.yml build
docker compose -f docker-compose.demo.yml up -d
Or deploy through Portainer Stacks:
- Stacks > Add stack > name:
archy-demo - Web editor: paste
docker-compose.demo.ymlcontents - Add environment variable:
ANTHROPIC_API_KEY(for Claude chat) - Deploy
Access at http://your-host:4848 — password: password123
Development Commands
npm start # Start mock backend + Vite (recommended)
npm stop # Stop all servers
npm run dev:mock # Same as start, without port cleanup
npm run dev:boot # Boot mode (simulated startup delay)
npm run backend:mock # Mock backend only
npm run dev # Vite only (needs backend running separately)
npm run dev:real # Vite with real Rust backend
npm run build # Production build (outputs to ../web/dist/neode-ui/)
npm run build:docker # Build for Docker (no type checking)
npm run type-check # TypeScript type checking
npm test # Run tests
Design System
Glass Classes
| Class | Use |
|---|---|
.glass-card |
Content containers, modals, panels |
.glass-button |
ALL buttons (primary and secondary) |
.path-option-card |
Interactive cards with hover lift |
.info-card |
Status badges, metric displays |
Tokens
- Font: Avenir Next (primary), Montserrat (
font-archipelago) - Glass:
bg: rgba(0,0,0,0.60),blur: 24px,border: rgba(255,255,255,0.22) - Accent:
#fb923c(Bitcoin orange),#4ade80(green),#ef4444(red) - Text:
rgba(255,255,255,0.9)primary,rgba(255,255,255,0.6)muted
Rules
- Global CSS classes in
style.cssonly — never inline Tailwind in components .gradient-buttonis banned — use.glass-button- All components use
<script setup lang="ts">
API
import { rpcClient } from '@/api/rpc-client'
await rpcClient.login('password')
await rpcClient.startPackage('bitcoin')
const metrics = await rpcClient.getMetrics()
State management via Pinia stores. WebSocket patches applied automatically.
Build Output
- Dev build:
../web/dist/neode-ui/ - Docker build:
dist/(deployed to nginx) - Production deploy: via
scripts/deploy-to-target.sh --live
License
MIT