101 lines
4.9 KiB
Markdown
101 lines
4.9 KiB
Markdown
# CLAUDE.md
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This file provides guidance to Claude Code (claude.ai/code) when working with code in this repository.
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## Project Overview
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**uopi** is a web-based HMI (Human-Machine Interface) for monitoring and controlling industrial/scientific systems, primarily EPICS-based. It consists of:
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- A **backend** — a single portable binary (targeting old Linux machines) that serves a web UI and REST API, connects to data sources (EPICS, synthetic), and multiplexes live data across multiple clients via WebSocket.
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- A **frontend** — a fast, reactive web UI (no WebGPU) with two modes: **edit** (drag-and-drop interface builder) and **view** (live interaction with HMI panels).
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## Architecture
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### Backend
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- Single self-contained binary with embedded frontend assets.
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- Data sources are plugin-extensible; built-in: **EPICS** and **Synthetic**.
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- Data ingestion uses subscribe/monitor patterns where available; timestamps from the source are authoritative.
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- The same channel data is shared (mutualized) across all connected clients requesting the same signal.
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- Interfaces are stored server-side and serialized as **XML**.
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- REST API for headless/desktop client access alongside the WebSocket push for the web frontend.
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### Data Sources
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**EPICS**: Use Channel Access or PVAccess. Retrieve all metadata from PV name (type, range, enum values, R/W mode, units). Prefer monitors over polling. Support historical data via EPICS Archive Appliance when available.
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**Synthetic**: Compose signals from existing sources (any DS) and math/DSP functions (moving average, bandpass, gain, offset, derivative, custom formula). Support Lua scripting for custom logic.
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### Frontend
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Two primary modes toggled via toolbar:
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- **Edit mode**: resizable signal tree pane (left) + free-form canvas (center) + properties pane (right). Signals are drag-and-dropped from the tree onto the canvas; on drop, compatible widget types are shown. Widget selection shows bounding box with resize handles. Multi-select via Ctrl+click or area select enables group move, delete, and align/distribute. Undo/redo (Ctrl+Z / Ctrl+Shift+Z). Save/load to server; export/import as local XML file.
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- **View mode**: collapsible interface list pane (left) + live HMI canvas. Right-click context menu per widget: signal info, copy signal name, export data to CSV. Optional historical time navigation + "live" button.
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### Widget Types
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- Text view, gauge, vertical/horizontal bar, set-value control, LED (with condition), multi-LED (bitset), button (command/set value).
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- Plot widget (multi-signal): timeseries, FFT, waterfall (multidimensional), histogram, bar chart, logic analyzer.
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## Technology Stack
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- **Backend:** Go 1.22+, single binary, `//go:embed` for frontend assets
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- **Frontend:** Preact 10 + TypeScript; bundled by esbuild Go API (no npm/Node.js); plots via uPlot (time-series) and ECharts (others); all vendor JS/CSS checked into `web/vendor/`
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- **Config:** TOML file + `UOPI_*` env var overrides (`github.com/BurntSushi/toml`)
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- **WebSocket:** `nhooyr.io/websocket` (no CGo)
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- **EPICS:** CGo bindings to `libca`; `gopher-lua` for synthetic signal Lua scripts
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## Repository Layout
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```
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cmd/uopi/ # main — wires config, embed, server
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internal/config/ # TOML config loading
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internal/server/ # HTTP + WebSocket handlers
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internal/broker/ # signal fan-out (Phase 1)
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internal/datasource/# DataSource interface + EPICS + synthetic (Phases 2–3)
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internal/dsp/ # DSP functions for synthetic (Phase 3)
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internal/storage/ # interface XML persistence (Phase 6)
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internal/api/ # REST handlers (Phase 1+)
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web/ # Preact/TSX source; web/embed.go provides embed.FS to Go
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web/src/ # TypeScript/TSX components (Preact)
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web/vendor/ # vendored JS/CSS (preact, uplot, echarts) — no npm required
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tools/buildfrontend/# esbuild Go API bundler (invoked by go generate)
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web/dist/ # built frontend — generated, not committed
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dist/ # compiled binary — generated, not committed
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```
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The embed package lives at `web/embed.go` (not in `cmd/`) because `//go:embed` paths cannot use `..`.
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## Development Commands
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```bash
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# Full build (frontend then backend)
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make all
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# Backend only (frontend must already be built)
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make backend
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# Frontend only
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make frontend
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# Run backend (dev mode, frontend must be running separately)
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go run ./cmd/uopi
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# All tests
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make test
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# Single Go test
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go test ./internal/broker/... -run TestFanOut
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# Go vet
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go vet ./...
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```
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## Key Architectural Notes
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- `web/embed.go` declares `//go:embed dist` and exports `var FS embed.FS`; `main.go` does `fs.Sub(web.FS, "dist")` to get a clean root FS for `http.FileServerFS`.
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- The `DataSource` interface (to be defined in `internal/datasource/iface.go`) is the extension point for new data sources.
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- The signal broker (Phase 1) is the central fan-out: one upstream goroutine per signal, N client channels downstream. Reference-counted subscribe/unsubscribe.
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- WebSocket messages are JSON; protocol defined in `docs/TECHNICAL_SPEC.md §3.3`.
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