Files
3x-ui/frontend
MHSanaei 43500a5470 feat(mtproto): per-client ad-tags, management-API auth, and record secret sync
Catch the panel up to the mtg-multi README (v1.14.0):

- Each client can now carry its own 32-hex advertising tag overriding the
  inbound-level one. The tag lives on the client (settings JSON is the
  source of truth, clients.ad_tag is the UI projection), is rendered into
  the fork's [secret-ad-tags] section for active secrets only (mtg rejects
  a config whose override names an unknown secret), is pushed per entry
  through PUT /secrets, and is part of the reload fingerprint so a tag
  edit hot-applies without dropping connections.
- The loopback management API can replace the whole secret set, so every
  mtg process now gets a random per-process api-token; the manager sends
  it as a bearer token on PUT /secrets and GET /stats and reuses it across
  config rewrites, because mtg reads the token only at startup.
- Malformed tags are rejected at every save path and additionally dropped
  in InstanceFromInbound: one bad tag would otherwise fail the whole
  generated config and take every client of the inbound down with it.
- SyncInbound never copied a re-keyed mtproto secret into the canonical
  clients table, so the clients page and subscription links kept serving
  the old secret, which mtg then rejects. It is now guarded-copied like
  the other credentials.
2026-07-07 12:00:43 +02:00
..

3x-ui frontend

React 19 + Ant Design 6 + TypeScript + Vite 8. Three SPA bundles — index.html (admin panel SPA, all /panel/* routes), login.html (login + 2FA), and subpage.html (public subscription viewer). All three are built into ../internal/web/dist/ and embedded into the Go binary via embed.FS.

State is split between local useState, TanStack Query for server state, and useTheme / useWebSocket contexts. Form validation, API parsing, and the xray config model all run through a single shared Zod schema tree (see Schemas).

Dev

npm install
npm run dev

Vite serves on http://localhost:5173/. API calls and /panel/* routes proxy to the Go panel at http://localhost:2053/, so start the Go panel first (go run main.go) and then Vite. The proxy auto-rewrites /panel, /panel/settings, /panel/inbounds, /panel/xray to the matching Vite-served HTML, so the sidebar's production-style links work without round-tripping through Go.

Scripts

Command What
npm run dev Vite dev server with API + WS proxy to Go
npm run build Regenerates OpenAPI + Zod, then builds into ../internal/web/dist/
npm run preview Serve the built bundle locally
npm run typecheck tsc --noEmit (strict, no emit)
npm run lint ESLint flat config (@typescript-eslint + react-hooks)
npm run test Vitest single run (schema fixtures, link parsers, …)
npm run test:watch Vitest watch mode
npm run gen:api Build public/openapi.json from pages/api-docs/endpoints.ts
npm run gen:zod Run the Go-side openapigen tool → src/generated/{zod,types}.ts

CI runs typecheck, lint, test, and build on every PR (see ../.github/workflows/ci.yml).

One-off: scan for deprecated APIs

Run this command to sweep the codebase for usages of APIs marked with the JSDoc @deprecated tag (AntD prop renames, Zod renames, removed Web APIs, etc.):

npx eslint --config eslint.deprecated.config.js src

It's a type-aware ESLint run against eslint.deprecated.config.js and is not wired into npm run lint because typed linting triples the wall-clock time.

Production build

npm run build

Outputs to ../internal/web/dist/ (HTML at the root, hashed JS/CSS under assets/). manualChunks splits AntD, icons, codemirror, and react-query into separate vendor bundles to keep the per-page initial JS small. The Go binary embeds this directory at compile time and internal/web/controller/dist.go serves the per-page HTML.

Layout

frontend/
├── index.html, login.html, subpage.html  # 3 Vite entries
├── tsconfig.json
├── eslint.config.js
├── eslint.deprecated.config.js           # On-demand type-aware lint config that flags
│                                         #   usages of APIs marked with JSDoc @deprecated
├── vitest.config.ts
├── vite.config.js
├── scripts/
│   └── build-openapi.mjs                 # endpoints.ts → openapi.json
└── src/
    ├── entries/         # Per-page bootstrap (createRoot + render)
    ├── main.tsx         # Shared root for the admin SPA (index.html)
    ├── routes.tsx       # react-router routes mounted under /panel/
    ├── pages/           # One folder per route, page component + helpers
    │   ├── index/, login/, inbounds/, clients/, xray/, nodes/,
    │   ├── settings/, api-docs/, sub/
    ├── layouts/         # AdminLayout (sidebar + header + outlet)
    ├── components/      # Cross-page React components
    ├── hooks/           # useClients, useTheme, useWebSocket, …
    ├── api/             # Axios + CSRF interceptor, TanStack Query bridge,
    │                    #   WebSocket client + queryClient.ts
    ├── i18n/            # react-i18next init (locales in internal/web/translation/)
    ├── lib/xray/        # Pure functions: link generation, defaults,
    │                    #   form ⇄ wire adapters, protocol capabilities
    ├── schemas/         # Zod source-of-truth (see "Schemas" below)
    ├── generated/       # Code-generated zod + ts types from Go
    │                    #   (DO NOT hand-edit — regenerated by gen:zod)
    ├── models/          # Thin legacy types still in transit
    │                    #   (DBInbound, Status, AllSetting)
    ├── styles/          # Shared CSS modules
    ├── test/            # Vitest specs + golden fixtures
    │   ├── *.test.ts
    │   ├── __snapshots__/
    │   └── golden/fixtures/  # Per-(protocol × network × security) JSON
    └── utils/           # HttpUtil, ClipboardManager, SizeFormatter, …

Schemas

src/schemas/ is the single source of truth for the xray configuration model. Every API response is parsed through it, every form field is validated against it, and TypeScript types are inferred via z.infer<typeof X> — never hand-written.

schemas/
├── primitives/      # Atomic reusable schemas (port, protocol, sniffing, …)
├── api/             # Backend response shapes (e.g. SlimInboundSchema)
├── forms/           # User-facing form shapes (narrower than api/)
├── protocols/
│   ├── inbound/     # Per-protocol settings (vmess, vless, trojan, …)
│   ├── outbound/
│   ├── stream/      # Network transports (tcp, ws, grpc, xhttp, kcp, …)
│   └── security/    # TLS, Reality, none
├── client.ts, dns.ts, routing.ts, setting.ts, status.ts, xray.ts
└── _envelope.ts     # Generic `Msg<T>` envelope wrapper

Patterns:

  • Discriminated unions for polymorphic data — inbound settings is z.discriminatedUnion('protocol', […]), same for stream and security.
  • Three validation layers, non-overlapping:
    • API boundary: parseMsg(msg, schema, ctx) inside TanStack Query queryFn — warn-only in prod, throws in dev
    • Form input: antdRule(schema.shape.field) on every <Form.Item> — blocks submit + per-field inline error
    • Wire request: Schema.parse(payload) inside mutationFn — throws, because a malformed payload here is always a developer bug
  • No .loose() or [key: string]: any in production schemas. @typescript-eslint/no-explicit-any: error is enforced.

Form pattern (Pattern A)

All non-trivial modals use this single pattern:

const [form] = Form.useForm<InboundFormValues>();

const onFinish = async () => {
  const values = await form.validateFields();
  await createInbound.mutateAsync(values);
};

<Form form={form} onFinish={onFinish}>
  <Form.Item
    name="port"
    label="Port"
    rules={[antdRule(InboundFormSchema.shape.port, t)]}
  >
    <InputNumber min={1} max={65535} />
  </Form.Item>
</Form>

No safeParse-on-submit handlers, no useRef<any> for form references, no inline z.string().min(1) in rules. Conditional fields use <Form.Item dependencies={...} shouldUpdate> with the nested protocol schema.

Testing

Vitest runs everything under src/test/. Schemas have golden fixture suites — one JSON per (protocol × network × security) combination round-tripped through schema.parse → link generator → snapshot. Regenerate snapshots after intentional changes:

npx vitest run -u

Fixtures live in src/test/golden/fixtures/ and are auto-discovered via import.meta.glob.

Adding a new page

Most new routes go inside the admin SPA (index.html) via routes.tsx — no new HTML or Vite entry needed.

  1. Add the page component under src/pages/<page>/.
  2. Register it in src/routes.tsx under the /panel/... tree.
  3. If you need a brand-new top-level bundle (login-style standalone page), add the HTML at frontend/<page>.html, an entry at src/entries/<page>.tsx, and register it in rollupOptions.input in vite.config.js. Then add the Go controller call to serveDistPage(c, "<page>.html").