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Sanaei
adc64bb804
* fix(nodes): keep cloned nodes (shared panelGuid) in separate attribution buckets
#4983 keys online/inbound attribution by panelGuid, assuming it is globally unique. Cloned node servers ship an identical panelGuid in their copied settings, so the master collapsed several physical nodes into one bucket: GetMergedNodeTrees merged their online sets under one key and every inbound on those nodes (same origin_node_guid) read that merged set, so the inbound page showed online cross-attributed and counts inflated.
Fall back to the node-unique synthNodeGuid(node.Id) whenever a node's panelGuid is shared by another of the master's direct nodes. Applied consistently at originGuidFor (origin_node_guid write), the online-tree key plus a self-key remap for nodes that report a GUID-keyed tree, effectiveNodeGuid, and recountByGuid's inbound bucketing. sharedNodeGuids computes the collision set. Online now works without node changes; making panelGuids unique restores real-GUID identity and also fixes GUID-keyed IP attribution.
* fix(nodes): extend duplicate-GUID hardening to master collisions, IP attribution, and a heartbeat warning
Builds on the node-vs-node fix: a node's GUID is now also treated as ambiguous when it equals the master's own panelGuid (a node cloned from the master), so the master's local clients and that node can't merge. Centralized as ambiguousNodeGuids(nodes, selfGuid) + effectiveNodeKey(node).
Applied the same node-unique fallback to the GUID-keyed IP attribution that #4983 added but the prior commit left collapsing: MergeClientIpsByGuid remaps a cloned node's own subtree to its node-unique key, nodeGuidNameMap resolves names by that key, and node deletion purges both keys. Added a throttled heartbeat warning so the operator is told to regenerate a duplicate panelGuid. Tests cover master-collision, effectiveNodeKey, and the IP remap.
* fix(node-sync): log the client-IP-attribution 404 once per node, not every cycle
Old-build nodes lack panel/api/clients/clientIpsByGuid and answer 404 on every IP-sync cycle (~10s), which floods the debug log now that the IP phase actually runs. Note the missing endpoint once per node (re-armed if the node later recovers or is upgraded) and keep logging genuine fetch errors.
* fix(nodes): remap a cloned node's own-panelGuid origin so the inbound page shows online
These nodes report their OWN inbounds with their own panelGuid as OriginNodeGuid, so originGuidFor returned the shared GUID verbatim and never remapped it. origin_node_guid stayed the shared GUID while online was keyed under the node-unique key, so the inbound page (which reads the stored origin_node_guid) looked up an empty bucket and showed everyone offline — even though the Nodes page (which derives the key live) was correct. Treat an origin equal to the node's own panelGuid as the node's own inbound and resolve it through selfKey; keep only a genuinely different (descendant) origin across hops.
* fix(node-sync): don't delete a node's central inbounds when its snapshot is empty
The central-inbound sweep deletes any central inbound whose tag is absent from the node's snapshot, with no guard for an empty snapshot. A node mid-restart or with a transient DB error (e.g. Postgres 57P01) can return an empty inbound list with success=true, which wiped all of that node's central inbounds and their clients (and reset traffic history on re-create) — observed on the Germany node: 0 clients but still 44 online (online survives because it comes from the snapshot's online tree, not the central inbound). Skip the sweep entirely when the snapshot reports zero inbounds; a real per-inbound deletion still sweeps via a non-empty snapshot that omits one tag.
* fix(email): stay silent when SMTP notifications are disabled
The event subscriber is registered unconditionally and only checked the per-event list (smtpEnabledEvents, default login.attempt,cpu.high) — not the smtpEnable master toggle. Login events are always published, so a panel with smtpEnable=false still attempted a send on every login and logged 'email subscriber: send failed: smtp host not configured'. Gate HandleEvent on GetSmtpEnable() so a disabled-SMTP panel does nothing, matching the comment where the subscriber is registered.
* fix(nodes): count only expired/exhausted as 'ended', not disabled clients
The per-node depleted (ended) count folded disabled clients in with expired/exhausted (expired || exhausted || !Enable), so the Nodes page 'ended' chip was inflated and inconsistent with the inbound page, where disabled and depleted are separate buckets. Count only expired/exhausted in both GetAll and recountByGuid so 'ended' means the same thing on both pages.
* feat(nodes): show live speed for node-hosted inbounds
Inbound speed is computed on the dashboard from a 'traffics' delta feed, which only the local Xray poll produced — so node-hosted inbounds showed no speed. The node sync now diffs successive per-inbound cumulative totals (it polls @5s, same as the local poll) and broadcasts the byte deltas as a separate 'nodeTraffics' field, keyed by the central tag the dashboard already matches. The frontend applies 'traffics' to local inbounds and 'nodeTraffics' to node inbounds within their own scope, so the two 5s polls don't clobber each other and idle inbounds still clear. Deltas clamp to 0 on a reset; a node that fails to sync keeps a stale total so its delta is 0 (no phantom speed).
* fix(nodes): normalize node-inbound speed by elapsed time to avoid recovery spikes
Adversarial review found that a node's cumulative inbound counter keeps climbing while the master can't reach it, so the first delta after a gap (node outage, skipped poll, slow node) spans more than one 5s window but was still divided by the dashboard's fixed 5s — rendering an impossible one-tick speed spike on recovery (and a 2x over-report after a skipped poll). Now each delta is normalized to the fixed window using the real elapsed time since the inbound's counter last changed, so a backlog shows the true average rate over the gap. The change timestamp advances only on actual movement, so idle stretches average correctly when traffic resumes; resets rebaseline. Also moves the maybePushGlobals doc comment back onto its function.
* fix(inbounds): keep last speed across page navigation instead of blanking
Speed is delta-derived, so it can't be recomputed until the first poll after mount. The websocket subscription and speed state are page-scoped (useWebSocket lives in InboundsPage), so leaving to another page and returning blanked the Speed column for up to one 5s poll. Cache the last speed map across mounts (module scope, 15s recency guard) and seed the state from it, so returning shows the last throughput immediately and the next poll refreshes it. Applies to both local and node-hosted inbound speed.
* fix(inbounds): rebalance table column widths so it fills width without gaps
Inbound list columns had small fixed widths summing far below the table's
full width, so AntD spread the leftover space evenly into wide empty gaps.
Widen the content-heavy columns (protocol, clients, traffic, node) so the
slack lands there, keep the small ones (id, port, enable) tight, and make
scroll.x track the visible columns' total so the table never collapses
below content and adapts when conditional columns are hidden.
* feat(nodes): show active/disabled client counts on the nodes page like inbounds
The nodes page only showed total/online/ended, and (since ended now excludes disabled) disabled clients were invisible there. Compute per-node active and disabled counts — in both GetAll and recountByGuid, with the same depleted-wins-over-disabled precedence the inbound page uses so the buckets stay mutually exclusive — and render total/active/disabled/ended/online chips matching the inbound page (table column + mobile stats modal).
* fix(nodes): count active/disabled/ended by client email, not stale inbound_id
The per-node client breakdown filtered client_traffics by inbound_id, but that column goes stale after an inbound is delete+recreated (e.g. the Germany node), so almost every traffic row pointed at a dead inbound id and the counts collapsed — active showed ~5 instead of ~1100. Classify each node client via client_inbounds -> clients joined to client_traffics by EMAIL (the reliable key), deduped per node/guid, in both GetAll and recountByGuid. Now active/disabled/ended on the nodes page match the inbound page. Added a regression test that proves matching works with a deliberately stale inbound_id.
* style(nodes): widen Clients column so the count chips fit one tidy line
After adding the active/disabled chips, the 5 chips (total/active/disabled/ended/online) no longer fit the 160px Clients column and wrapped to two lines. Widen it to 220 and drop the Space wrap so they render on a single line like the inbound page, and zero the total tag's margin for even spacing. Same principle as 79ff283 (give the content column enough width).
* style(nodes): tighten Clients chip spacing to match the inbound page
AntD's default tag side-padding (~8px) put a wide gap between the count chips. Apply the inbound page's compact padding ('0 2px') + client-count-tag (tabular-nums) to each chip and narrow the column to 180 so the numbers sit close together like the inbound list instead of floating apart.
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, reality-targets)
├── 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
settingsisz.discriminatedUnion('protocol', […]), same for stream and security. - Three validation layers, non-overlapping:
- API boundary:
parseMsg(msg, schema, ctx)inside TanStack QueryqueryFn— 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)insidemutationFn— throws, because a malformed payload here is always a developer bug
- API boundary:
- No
.loose()or[key: string]: anyin production schemas.@typescript-eslint/no-explicit-any: erroris 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.
- Add the page component under
src/pages/<page>/. - Register it in
src/routes.tsxunder the/panel/...tree. - If you need a brand-new top-level bundle (login-style standalone
page), add the HTML at
frontend/<page>.html, an entry atsrc/entries/<page>.tsx, and register it inrollupOptions.inputinvite.config.js. Then add the Go controller call toserveDistPage(c, "<page>.html").