454 lines
20 KiB
Markdown
454 lines
20 KiB
Markdown
# Technical Specification — uopi
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## 1. Technology Choices
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### 1.1 Backend — Go
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**Rationale:**
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- Compiles to a single static binary with no runtime dependencies, trivially portable to old Linux targets.
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- `//go:embed` packs the compiled frontend assets into the binary at build time.
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- Goroutine-per-connection model maps naturally onto the fan-out data broker pattern.
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- CGo bindings to EPICS `libca` / `libCom` are straightforward.
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- `gopher-lua` provides an embedded Lua 5.1-compatible interpreter for synthetic signals with zero additional dependencies.
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- Strong standard library: `net/http`, `encoding/xml`, `encoding/json`.
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**Go version:** 1.22+
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**Key dependencies:**
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| Package | Purpose |
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| ---------------------------- | ------------------------------------------------------ |
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| `nhooyr.io/websocket` | WebSocket server (no CGo, more ergonomic than gorilla) |
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| CGo wrapper to `libca` | EPICS Channel Access |
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| `yuin/gopher-lua` | Lua 5.1 runtime for synthetic signals |
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| `BurntSushi/toml` | TOML config parsing |
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| `encoding/xml` (stdlib) | Interface file serialisation |
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| `net/http` (stdlib) | HTTP server and static file serving |
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### 1.2 Frontend — Preact + TypeScript
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**Rationale:**
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- Preact is a 3 kB React-compatible virtual DOM library — small bundle, fast diffing, no extra framework overhead.
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- esbuild (invoked via its Go API) bundles the TypeScript/TSX source in milliseconds with no Node.js or npm dependency at build time.
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- TypeScript catches signal subscription and widget property type errors at build time.
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- All vendor JS/CSS is checked into `web/vendor/` so the repo builds without internet access.
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**Key dependencies (vendored):**
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| Package | Purpose |
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| ---------------- | --------------------------------------------------------------- |
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| `preact` 10 | Virtual DOM UI framework |
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| `uPlot` | Extremely fast time-series/line plot (canvas-based, < 40 kB) |
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| `Apache ECharts` | FFT, waterfall, histogram, bar, logic analyser plots |
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| `uplot.css` | uPlot default stylesheet |
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**Intentionally excluded:** React, Vue, Svelte, Konva, WebGPU, jQuery, npm at runtime.
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---
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## 2. Repository Layout
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```
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uopi/
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├── cmd/uopi/ # main package — CLI flags, wiring
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├── internal/
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│ ├── server/ # HTTP + WebSocket handlers
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│ ├── broker/ # signal fan-out to clients
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│ ├── datasource/
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│ │ ├── iface.go # DataSource interface
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│ │ ├── epics/ # EPICS CA implementation (CGo)
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│ │ └── synthetic/ # synthetic signal engine + DSP bridge
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│ ├── dsp/ # DSP node implementations (lowpass, MA, etc.)
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│ ├── storage/ # interface XML read/write
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│ └── api/ # REST handler functions
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├── web/
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│ ├── embed.go # //go:embed dist — exports FS to Go
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│ ├── src/ # TypeScript/TSX source (Preact)
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│ │ ├── lib/
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│ │ │ ├── ws.ts # WebSocket client + subscription manager
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│ │ │ ├── stores.ts # signal value + metadata stores
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│ │ │ ├── types.ts # shared TypeScript interfaces
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│ │ │ ├── xml.ts # interface XML parse/serialize
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│ │ │ └── format.ts # value formatting helpers
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│ │ ├── widgets/ # one .tsx file per widget type
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│ │ ├── App.tsx # top-level component, mode routing
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│ │ ├── ViewMode.tsx # view mode layout + tabs
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│ │ ├── EditMode.tsx # edit mode layout + toolbar
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│ │ ├── Canvas.tsx # live HMI canvas (view mode)
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│ │ ├── EditCanvas.tsx # free-form widget editor canvas
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│ │ ├── PlotPanel.tsx # live plot side-panel (Plot tab)
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│ │ ├── InfoPanel.tsx # signal info side-panel
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│ │ ├── ZoomControl.tsx # UI zoom A-/A+ control
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│ │ ├── SyntheticWizard.tsx # new synthetic signal dialog
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│ │ ├── SyntheticEditor.tsx # edit existing synthetic signal
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│ │ ├── LuaEditor.tsx # Lua code editor with syntax highlight
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│ │ └── styles.css # all component styles
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│ ├── vendor/ # vendored JS/CSS (preact, uplot, echarts)
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│ └── dist/ # built frontend — generated, not committed
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├── tools/buildfrontend/ # esbuild Go API bundler (go generate)
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├── docs/ # specs, work plan
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├── CLAUDE.md
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└── README.md
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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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---
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## 3. Backend Architecture
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### 3.1 DataSource Interface
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```go
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type Value struct {
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Timestamp time.Time
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Data any // float64 | []float64 | string | int64 | bool
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Quality Quality // Good | Bad | Uncertain
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}
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type Metadata struct {
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Name string
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Type DataType
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Unit string
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DisplayLow float64
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DisplayHigh float64
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DriveHigh float64
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DriveLow float64
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EnumStrings []string
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Writable bool
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}
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type DataSource interface {
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Name() string
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Connect(ctx context.Context) error
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ListSignals(ctx context.Context) ([]Metadata, error)
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GetMetadata(ctx context.Context, signal string) (Metadata, error)
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Subscribe(ctx context.Context, signal string, ch chan<- Value) (CancelFunc, error)
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Write(ctx context.Context, signal string, value any) error
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History(ctx context.Context, signal string, start, end time.Time, maxPoints int) ([]Value, error)
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}
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```
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New data sources are registered at startup via `datasource.Register(name string, ds DataSource)`.
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### 3.2 Signal Broker
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The broker is the central fan-out component:
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```
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DataSource ──subscribe──► rawCh ──► Broker ──► [clientCh1, clientCh2, ...]
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```
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- One goroutine per active signal subscription to the underlying data source.
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- Per-signal subscriber list protected by a sync.RWMutex.
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- When the last client unsubscribes, the broker cancels the upstream subscription.
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- No data is buffered in the broker; clients receive the latest value at the moment they subscribe and all subsequent updates.
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### 3.3 WebSocket Protocol
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Framing: JSON messages over a single persistent WebSocket connection per client.
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**Client → Server messages:**
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```jsonc
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// Subscribe to one or more signals
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{ "type": "subscribe", "signals": ["EPICS:PV1", "synth:mySignal"] }
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// Unsubscribe
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{ "type": "unsubscribe", "signals": ["EPICS:PV1"] }
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// Write a value
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{ "type": "write", "signal": "EPICS:PV1", "value": 3.14 }
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// Request historical data
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{ "type": "history", "signal": "EPICS:PV1", "start": "2026-01-01T00:00:00Z", "end": "2026-01-02T00:00:00Z", "maxPoints": 5000 }
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```
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**Server → Client messages:**
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```jsonc
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// Live value update
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{ "type": "update", "signal": "EPICS:PV1", "ts": "2026-04-24T12:00:00.123Z", "value": 42.7, "quality": "good" }
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// Metadata (sent once on first subscribe)
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{ "type": "meta", "signal": "EPICS:PV1", "meta": { "unit": "A", "displayLow": 0, "displayHigh": 100, ... } }
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// Historical data response
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{ "type": "history", "signal": "EPICS:PV1", "points": [ { "ts": "...", "value": 1.2 }, ... ] }
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// Error
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{ "type": "error", "code": "NOT_FOUND", "message": "Signal not found" }
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```
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### 3.4 REST API
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Base path: `/api/v1`
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| Method | Path | Description |
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| ------ | ------------------------- | -------------------------------------------- |
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| GET | `/datasources` | List connected data sources and their status |
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| GET | `/signals?ds=epics` | List signals for a data source |
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| GET | `/signals/:ds/:name/meta` | Get full metadata for a signal |
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| GET | `/interfaces` | List saved interfaces |
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| POST | `/interfaces` | Create a new interface (body: XML) |
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| GET | `/interfaces/:id` | Download interface XML |
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| PUT | `/interfaces/:id` | Update interface XML |
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| DELETE | `/interfaces/:id` | Delete interface |
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| POST | `/interfaces/:id/clone` | Clone an interface |
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### 3.5 EPICS Data Source
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- Uses CGo bindings to EPICS Base `libca` (Channel Access).
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- Channel connections are lazy: connected on first Subscribe, disconnected when the broker releases it.
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- On connect, a `ca_get` retrieves full DBR_CTRL metadata (units, limits, enum strings).
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- `ca_add_event` sets up the monitor. Update callbacks push into the broker's raw channel.
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- Multiple PV subscriptions share one CA context per data source instance (thread-safe with `ca_attach_context`).
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- EPICS Archive Appliance is queried via its JSON HTTP API for history requests.
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### 3.6 Synthetic Data Source
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- Each synthetic signal is defined as a directed acyclic graph (DAG) of processing nodes.
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- Processing nodes are re-evaluated whenever any upstream signal emits a new value.
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- Definitions are stored in a configurable JSON/TOML file alongside server configuration.
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- The `dsp_bridge.go` file maps node type names to `dsp.Node` implementations.
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**Built-in node types:**
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| Node type | Parameters | Description |
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| ------------ | ----------------------------------- | ------------------------------------------------ |
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| `source` | `ds`, `name` | Reads a signal from any data source |
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| `gain` | `factor` | Multiplies by a constant |
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| `offset` | `value` | Adds a constant |
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| `moving_avg` | `window` (samples) | Rolling mean |
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| `lowpass` | `freq` (Hz), `order` (1–8) | Cascaded IIR Butterworth-style low-pass filter |
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| `formula` | `expr` | Inline math expression (variables: `a`, `b`, …) |
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| `lua` | `script` | Arbitrary Lua 5.1 code with persistent state |
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**Low-pass filter implementation:** Cascaded first-order IIR sections. Each stage computes `y = y_prev + α·(x − y_prev)` where `α = dt / (RC + dt)` and `RC = 1/(2π·fc)`. `dt` is computed per sample from source timestamps so the filter is correct for event-driven (non-uniform) data.
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**Lua node:** Receives `inputs` table (indexed by signal name) and a persistent `state` table across calls. The `os`, `io`, `package`, and `debug` libraries are disabled.
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### 3.7 Interface Storage
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Interfaces are stored as XML files in a configurable directory on the server.
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```xml
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<interface name="My Panel" version="1" created="2026-04-24T12:00:00Z">
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<widget id="w1" type="plot" x="100" y="200" w="600" h="300">
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<signal ds="epics" name="EPICS:CURRENT" color="#ff0000"/>
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<signal ds="epics" name="EPICS:VOLTAGE" color="#0000ff"/>
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<option key="plotType" value="timeseries"/>
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<option key="yMin" value="auto"/>
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<option key="yMax" value="auto"/>
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<option key="timeWindow" value="60"/>
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<option key="legend" value="bottom"/>
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</widget>
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<widget id="w2" type="led" x="50" y="50" w="80" h="80">
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<signal ds="epics" name="EPICS:STATUS"/>
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<option key="condition" value="value > 0"/>
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<option key="colorTrue" value="#00ff00"/>
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<option key="colorFalse" value="#ff0000"/>
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<option key="label" value="OK"/>
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</widget>
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</interface>
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```
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---
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## 4. Frontend Architecture
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### 4.1 WebSocket Client (`lib/ws.ts`)
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- Singleton WebSocket connection, reconnects with exponential back-off.
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- Subscription reference counting: multiple widgets subscribing to the same signal result in one server subscription message.
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- Incoming updates are dispatched to per-signal stores.
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- `wsClient.history(sig, start, end, maxPoints)` returns a Promise resolving to timestamped point arrays.
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### 4.2 Signal Stores (`lib/stores.ts`)
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```typescript
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// One nanostores atom per subscribed signal
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const signalStores = new Map<string, SignalStore>();
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export function getSignalStore(ref: SignalRef): SignalStore { ... }
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export function getMetaStore(ref: SignalRef): MetaStore { ... }
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```
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Widgets subscribe to stores directly; store updates trigger re-renders only in the consuming component.
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### 4.3 Edit Mode Canvas (`EditCanvas.tsx`)
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The edit canvas is a free-form HTML div with absolutely positioned widget components:
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- Each widget renders as an absolutely positioned `<div>` at `(x, y)` with `(w, h)` dimensions.
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- Selection shows a CSS-outlined bounding box with 8 resize handles rendered as small squares.
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- Drag-and-drop from the signal tree uses the HTML Drag-and-Drop API; on drop, the canvas coordinate is computed from the drop event offset.
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- Undo/redo uses an array of past interface snapshots (max depth 50).
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- Align/distribute operations compute target positions geometrically and generate a single undo entry.
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- Multi-select via Ctrl+click or rubber-band area select.
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### 4.4 Widget Rendering in View Mode (`Canvas.tsx`)
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View mode renders widgets as absolutely positioned Preact components on a scrollable canvas div:
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- Each widget subscribes to its signal store(s) in a `useEffect` and re-renders only when values change.
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- uPlot (time series) and ECharts (histogram, bar, FFT, waterfall, logic analyser) manage their own canvas elements inside their widget component.
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- Plot widgets maintain a rolling ring buffer of 200,000 samples per signal for smooth long-window display.
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- Step-hold interpolation: when multiple signals at different update rates share a plot, the most recent value is carried forward to fill the shared time axis correctly.
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### 4.5 Plot Panel (`PlotPanel.tsx`)
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A live multi-signal plot panel accessible from the "Plot" tab in View mode:
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- Signals are added by right-clicking any widget and choosing "Plot".
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- Supports configurable time window (10s to 1h).
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- Per-signal style editor: color picker, line width (0 = hidden), line dash (solid/dashed/dotted), marker size (none/S/M/L).
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- Statistics table per signal: last, min, max, mean over the current time window.
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- Uses a `requestAnimationFrame` loop limited to ≤1 redraw/second when data is not changing.
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- Chart fills its container; `ResizeObserver` keeps the uPlot canvas sized correctly.
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### 4.6 Resizable Panels
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Both edit and view modes support mouse-drag panel resizing:
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- **View mode**: drag handle between the interface list pane and the main content area.
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- **Edit mode**: drag handles on both sides of the central canvas (signal tree ↔ canvas, canvas ↔ properties pane).
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- Handle width: 5 px, cursor changes to `ew-resize` on hover.
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- Minimum panel widths enforced to prevent collapse below usable size.
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### 4.7 HiDPI / Zoom Support
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- `html { font-size: clamp(13px, 1.5vh, 18px); }` — base font scales with viewport height, making the UI naturally larger on 4K screens where the browser zoom level is 100%.
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- Key structural heights (toolbar, panel headers, tab bar, plot toolbar) are expressed in `rem` so they scale with the base font.
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- **ZoomControl** (A− / % / A+) in the toolbar lets users manually override the zoom level in 11 steps from 50% to 250%. The preference is persisted in `localStorage` (`uopi:ui-zoom`) and applied by setting `document.documentElement.style.fontSize` on load.
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- Canvas pixel rendering (uPlot, ECharts) reads `window.devicePixelRatio` and sizes canvases accordingly.
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### 4.8 Lua Editor (`LuaEditor.tsx`)
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A syntax-highlighted code editor for Lua scripts in the Synthetic signal wizard:
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- Implemented as a `<textarea>` overlaid on a `<pre>` element; the textarea has `color: transparent; caret-color: #e2e8f0` so only the caret is visible — the `<pre>` provides the coloured text behind it.
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- Tokeniser handles: `--` line comments, `"..."` / `'...'` string literals, `[[...]]` long strings, hex and float numeric literals, and all Lua 5.1 keywords.
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- Scroll position is synchronised between textarea and pre on every scroll event.
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---
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## 5. Build System
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### 5.1 Backend
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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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# 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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EPICS `libca.a` is statically linked via `CGO_LDFLAGS` in `internal/datasource/epics/cgo.go`.
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### 5.2 Frontend
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The frontend is built by a Go tool in `tools/buildfrontend/` that invokes the esbuild Go API:
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```bash
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make frontend
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# or equivalently:
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go generate ./web/...
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```
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No Node.js, npm, or any JS build tool is required on the host. The bundler:
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- Reads entry point `web/src/main.tsx`.
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- Resolves `preact`, `uplot`, and `echarts` imports from `web/vendor/`.
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- Outputs `web/dist/main.js` and `web/dist/main.css`.
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- Copies `web/dist/index.html`, vendor CSS, and other static assets.
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### 5.3 Combined Build
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```makefile
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.PHONY: all frontend backend clean
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all: frontend backend
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frontend:
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go run ./tools/buildfrontend
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backend:
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CGO_ENABLED=1 go build -ldflags="-s -w" -o dist/uopi ./cmd/uopi
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test:
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go test ./...
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clean:
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rm -rf dist/ web/dist/
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```
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The backend's `//go:embed dist` directive in `web/embed.go` picks up the built frontend automatically. `main.go` does `fs.Sub(web.FS, "dist")` to serve a clean root.
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---
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## 6. Configuration
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Server is configured via a TOML file (default: `uopi.toml`, overridable via `--config` flag):
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```toml
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[server]
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listen = ":8080"
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storage_dir = "./interfaces"
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[datasource.epics]
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enabled = true
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ca_addr_list = "" # EPICS_CA_ADDR_LIST override
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archive_url = "" # EPICS Archive Appliance URL
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[datasource.synthetic]
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enabled = true
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definitions_file = "./synthetic.toml"
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```
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All settings can also be overridden with `UOPI_*` environment variables (e.g. `UOPI_SERVER_LISTEN`, `UOPI_EPICS_CA_ADDR_LIST`).
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---
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## 7. Testing Strategy
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| Layer | Approach |
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| ------------------ | --------------------------------------------------------------------------------- |
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| Broker | Unit tests with mock data source; verify fan-out, subscribe/unsubscribe lifecycle |
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| Synthetic DSP | Table-driven unit tests against known signal inputs/outputs |
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| Low-pass filter | Unit tests: step response, frequency attenuation vs. analytical expectation |
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| Lua sandbox | Unit tests for sandbox isolation and API surface |
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| REST API | `httptest` integration tests |
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| WebSocket protocol | Integration tests with a test client |
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| EPICS data source | Integration tests against a local SoftIOC (optional, CI-gated) |
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---
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## 8. Security Considerations
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- Lua sandbox: disable `os`, `io`, `package`, `debug` libraries; restrict `math` and `string` to safe subsets.
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- WebSocket write operations: validate that the target signal is writable before forwarding to the data source.
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- Interface XML parsing: use strict schema validation to prevent XXE.
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- No authentication in v1; intended for trusted LAN / SSH-tunnel deployment.
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---
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## 9. Non-goals (v1)
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- User authentication and authorisation.
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- TLS termination (expected to be handled by SSH tunnel or a reverse proxy).
|
||
- Windows or macOS server binary.
|
||
- Mobile-optimised frontend layout.
|
||
- Remote plugin loading (plugins compiled in at build time only).
|