92a03aeafd
页面 / PWA 关闭、或桌面窗口非前台时,收到文件、消息、传输完成 / 失败以系统通知提醒。
判定统一为「页面打开走应用内提示,否则系统通知」,三端各自落地;网页端的判定直接复用
Hub.SendTo 的投递结果,零额外状态。
- Web Push(VAPID,账号无关):服务端 internal/push.Sender 在事件未经 SSE 投递到目标
设备时(即该设备页面已关)发推送,文案按订阅 locale 在服务端渲染(中简 / 中繁 / 英)、
404 / 410 自动清理死订阅;新增 push_subscriptions 表(含 locale,主键为 endpoint 的
SHA-256 以幂等 upsert)+ /api/push/{vapid-key, subscribe POST/DELETE} 端点
- 事件挂接:transfer:incoming / message(离线返 202,文本随推送送达)/ transfer:state
DONE|FAILED,均未投递才推
- 配置 CDROP_VAPID_PUBLIC_KEY / CDROP_VAPID_PRIVATE_KEY(半对即拒启动,都空则推送惰性
关闭)+ just vapid-keygen 生成工具(cmd/vapidgen)
- 前端:service worker 加 push / notificationclick(仍不拦截 /api 与导航);net/push.ts
订阅管理 + push store slice + 设置页「推送通知」面板(仅浏览器 / PWA);登录后 resyncPush
把既有订阅重新登记到当前用户,换用户 / endpoint 轮换 / 切换语言皆自愈
- 桌面原生通知:platform/notify_{darwin,windows,other}.go + notify_darwin.m,仅窗口非
前台时弹原生通知(macOS UNUserNotificationCenter,未签名时安全空操作、待签名后显示;
Windows go-toast 即用);app.go ShowNotification 绑定,前端 notifyNativeIfBackground
复用 hub 事件分发 + 客户端本地化
- 文档:README / .env.example / compose 模板补 CDROP_VAPID_* 配置
注:sqlc v1.31.1 对 query 文件里的多字节字符会错位偏移、生成损坏 SQL,故 query 注释保持纯
ASCII(文件内留有警示)。
232 lines
8.0 KiB
Go
232 lines
8.0 KiB
Go
package httpapi
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import (
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"context"
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"database/sql"
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"encoding/json"
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"log/slog"
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"net/http"
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"sync"
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"time"
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"github.com/go-chi/chi/v5"
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"github.com/go-chi/chi/v5/middleware"
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"github.com/go-chi/httprate"
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"commilitia.net/cdrop/internal/calls"
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"commilitia.net/cdrop/internal/clipboard"
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"commilitia.net/cdrop/internal/config"
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"commilitia.net/cdrop/internal/db"
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"commilitia.net/cdrop/internal/hub"
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"commilitia.net/cdrop/internal/jwtauth"
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"commilitia.net/cdrop/internal/push"
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"commilitia.net/cdrop/internal/relay"
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"commilitia.net/cdrop/internal/transfer"
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"commilitia.net/cdrop/internal/webui"
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)
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type Server struct {
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cfg *config.Config
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db *sql.DB
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queries *db.Queries
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auth *jwtauth.Authenticator
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hub *hub.Hub
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transfers *transfer.Service
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relay *relay.Manager
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calls *calls.Provider // optional; nil → STUN-only fallback
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clipboard *clipboard.Service // optional; nil → 503 on /api/clipboard
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push *push.Sender // inert when VAPID keys unset → push endpoints 503
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mux *chi.Mux
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// sessionKey encrypts browser refresh_tokens at rest (web_sessions); nil when
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// CDROP_SESSION_SECRET is unset (dev), which disables passwordless re-login.
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// siteOrigin is the deployment's scheme://host, used for the CSRF Origin check.
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sessionKey []byte
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siteOrigin string
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// refreshLocks serialise concurrent refreshes of the same web session (all of
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// a user's browser tabs share one cookie → one refresh_token). Striped so the
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// lock set stays bounded; collisions just serialise unrelated sessions, which
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// is harmless. Prevents a multi-tab race from spending a one-time-use
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// refresh_token twice and logging the user out everywhere.
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refreshLocks [refreshLockStripes]sync.Mutex
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}
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func New(
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cfg *config.Config,
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dbConn *sql.DB,
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queries *db.Queries,
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auth *jwtauth.Authenticator,
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h *hub.Hub,
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transfers *transfer.Service,
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rm *relay.Manager,
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cp *calls.Provider,
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clip *clipboard.Service,
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pushSender *push.Sender,
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) *Server {
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s := &Server{
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cfg: cfg,
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db: dbConn,
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queries: queries,
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auth: auth,
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hub: h,
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transfers: transfers,
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relay: rm,
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calls: cp,
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clipboard: clip,
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push: pushSender,
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mux: chi.NewRouter(),
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sessionKey: deriveSessionKey(cfg.SessionSecret),
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siteOrigin: deriveSiteOrigin(cfg.OIDCRedirectURI),
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}
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s.routes()
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return s
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}
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func (s *Server) Handler() http.Handler { return s.mux }
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func (s *Server) routes() {
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s.mux.Use(middleware.RequestID)
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s.mux.Use(middleware.RealIP)
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s.mux.Use(middleware.Recoverer)
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s.mux.Get("/healthz", s.handleHealth)
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// Anything not matched below falls through to the embedded frontend bundle.
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// In Docker the binary serves the SPA itself; in local dev the embed FS is
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// empty and this 404s — vite dev on :5173 handles the UI instead.
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s.mux.NotFound(webui.Handler().ServeHTTP)
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s.mux.Route("/api", func(r chi.Router) {
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// Public OIDC PKCE plumbing — no auth required (it bootstraps it).
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r.Get("/auth/config", s.handleAuthConfig)
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// Rate-limit the credential-bearing OAuth endpoints (G4): they proxy to
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// the IdP, so without a cap cdrop is a brute-force / token-pivot relay.
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// Per-IP (RealIP is mounted above); 60/min is ample for real logins and
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// hourly refresh even behind a shared NAT, while choking a scripted flood.
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r.Group(func(r chi.Router) {
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r.Use(httprate.LimitByIP(60, time.Minute))
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r.Post("/auth/exchange", s.handleAuthExchange)
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r.Post("/auth/refresh", s.handleAuthRefresh)
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// Cookie-authenticated (no bearer): the HttpOnly session cookie is the
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// only credential. logout drops the server session; device persists
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// this browser's name into the session for PWA-eviction recovery.
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r.Post("/auth/logout", s.handleAuthLogout)
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r.Post("/auth/device", s.handleAuthDevice)
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})
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// Protected routes. gzip / compress is intentionally NOT mounted —
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// it would buffer the SSE stream.
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r.Group(func(r chi.Router) {
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r.Use(s.auth.Middleware)
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// Clipboard is the one capability a scoped shortcut token may reach
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// (iOS Shortcut sync) — it must carry the "clipboard" scope. Full
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// login sessions pass requireScope unconditionally.
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r.Group(func(r chi.Router) {
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r.Use(requireScope(shortcutScope))
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r.Get("/clipboard", s.handleClipboardGet)
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r.Put("/clipboard", s.handleClipboardPut)
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// Lightweight version probe — no content; lets pollers (iOS
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// Shortcut) detect change cheaply before fetching the full body.
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r.Get("/clipboard/version", s.handleClipboardVersion)
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})
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// Everything else requires a full login session; scoped shortcut
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// tokens are rejected, so a leaked token's blast radius stays the
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// clipboard and nothing more (including token self-management).
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r.Group(func(r chi.Router) {
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r.Use(rejectScoped)
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r.Get("/me", s.handleMe)
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r.Post("/me/disconnect", s.handleDisconnect)
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r.Get("/hub/events", s.handleEvents)
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r.Post("/hub/signal", s.handleSignal)
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r.Post("/message", s.handleMessage)
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r.Get("/devices", s.handleDevices)
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r.Delete("/devices/{name}", s.handleDeleteDevice)
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r.Get("/push/vapid-key", s.handlePushVAPIDKey)
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r.Post("/push/subscribe", s.handlePushSubscribe)
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r.Delete("/push/subscribe", s.handlePushUnsubscribe)
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r.Get("/calls/credentials", s.handleCallsCredentials)
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r.Post("/shortcut/issue", s.handleShortcutIssue)
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r.Get("/shortcut", s.handleShortcutList)
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r.Delete("/shortcut/{jti}", s.handleShortcutRevoke)
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r.Route("/transfer", func(r chi.Router) {
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r.Post("/initiate", s.handleTransferInit)
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r.Post("/{id}/accept", s.transitionHandler(transfer.StateAccepted, ""))
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r.Post("/{id}/cancel", s.transitionHandler(transfer.StateCancelled, ""))
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r.Post("/{id}/p2p", s.transitionHandler(transfer.StateP2PActive, transfer.ModeP2P))
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r.Post("/{id}/fallback", s.transitionHandler(transfer.StateRelayActive, transfer.ModeRelay))
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r.Post("/{id}/done", s.transitionHandler(transfer.StateDone, ""))
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r.Post("/{id}/fail", s.transitionHandler(transfer.StateFailed, ""))
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})
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r.Route("/relay/{id}", func(r chi.Router) {
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r.Post("/chunk", s.handleRelayChunk)
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r.Get("/stream", s.handleRelayStream)
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})
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})
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})
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})
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}
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type healthResp struct {
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Status string `json:"status"`
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AuthMode string `json:"auth_mode"`
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DBOK bool `json:"db_ok"`
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}
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func (s *Server) handleHealth(w http.ResponseWriter, r *http.Request) {
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ctx, cancel := context.WithTimeout(r.Context(), 2*time.Second)
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defer cancel()
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resp := healthResp{Status: "ok", AuthMode: s.cfg.AuthMode, DBOK: true}
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if err := s.db.PingContext(ctx); err != nil {
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resp.Status = "degraded"
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resp.DBOK = false
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slog.Error("healthz db ping failed", "err", err)
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}
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writeJSON(w, http.StatusOK, resp)
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}
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type meResp struct {
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UserID string `json:"user_id"`
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Groups []string `json:"groups"`
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DeviceName string `json:"device_name"`
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}
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func (s *Server) handleMe(w http.ResponseWriter, r *http.Request) {
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claims, ok := jwtauth.ClaimsFromContext(r.Context())
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if !ok {
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writeJSON(w, http.StatusInternalServerError, map[string]string{"error": "claims missing"})
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return
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}
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device, _ := jwtauth.DeviceNameFromContext(r.Context())
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writeJSON(w, http.StatusOK, meResp{
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UserID: claims.UserID,
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Groups: claims.Groups,
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DeviceName: device,
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})
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}
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// handleDisconnect 是用户主动告知"本机要下线"的轻量信号(登出 / 关页前)。
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// auth 中间件会先 UPSERT device 把 last_seen 更新,本 handler 再 Kick 关闭
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// SSE + 立刻广播 presence,让对端不必等 30s 宽限期就看到本设备离线。
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func (s *Server) handleDisconnect(w http.ResponseWriter, r *http.Request) {
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claims, _ := jwtauth.ClaimsFromContext(r.Context())
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deviceName, _ := jwtauth.DeviceNameFromContext(r.Context())
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if deviceName == "" {
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writeJSON(w, http.StatusBadRequest, map[string]string{"error": "missing device"})
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return
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}
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s.hub.Kick(claims.UserID, deviceName)
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s.hub.PublishPresence(r.Context(), claims.UserID)
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w.WriteHeader(http.StatusNoContent)
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}
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func writeJSON(w http.ResponseWriter, status int, v any) {
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w.Header().Set("Content-Type", "application/json; charset=utf-8")
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w.WriteHeader(status)
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_ = json.NewEncoder(w).Encode(v)
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}
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