hzhang
5cf4302d50
The backend no longer broadcasts topic lifecycle events to Fabric. The
new model (per design discussion 2026-05-23 evening):
- Proposing agent posts a single recruitment fabric-send-message
immediately after creating a topic (carries topic_id + signup
window + debate window + title).
- Downstream agents that decide to participate book a HF on_call
slot covering the debate window via `hf calendar schedule on_call
<time> <duration> --job DEBATE-<topic_id>`.
- HF wakes the agent naturally at slot start; the wake payload
carries event_data with the DEBATE-<topic_id> code so the agent
knows why it was woken.
- The backend stays a pure data + state-machine service and doesn't
know about Fabric.
Code removed:
- internal/fabric/announce.go (entire file + empty dir)
- ticker.go: broadcastLifecycle + broadcastAnnouncement + topicTarget
helpers; announcer field on Ticker; announce field/arg on NewTicker
- models/topic.go: AnnounceGuildBaseURL + AnnounceChannelID fields
- store/topic_store.go: same fields on CreateTopicInput + INSERT
- handlers/topics.go: same fields on createTopicBody + validation +
parameter passing to store
- handlers/verdict.go: announcer field + lifecycle broadcast on
verdict submit
- config/config.go: FabricSystemAPIKey field + DIALECTIC_FABRIC_SYSTEM_API_KEY
env read
- main.go + routes.go: announcer wiring
Database:
- migrations/003_drop_topic_announce_target.sql drops the two columns
added by migration 002. Counterpart commit on the deployment side
needs DIALECTIC_FABRIC_SYSTEM_API_KEY env removed from
docker-compose.yml; harmless if left as the backend no longer
reads it.
Pairs with:
- Dialectic.OpenclawPlugin: rip announce_* params from
dialectic_propose_topic (next commit)
- Fabric.Backend.Center: rip serviceEndpoint field + cli
- Fabric.Backend.Guild: rip system-key bypass on ApiKeyGuard and
announce-only-system limit on messaging.controller
- ClawSkills: rewrite participate-debate + analyze-intel step 4 +
delete rotate-fabric-system-key workflow
195 lines
6.6 KiB
Go
195 lines
6.6 KiB
Go
package httpapi
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import (
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"net/http"
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"time"
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"github.com/go-chi/chi/v5"
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chimw "github.com/go-chi/chi/v5/middleware"
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"github.com/go-chi/cors"
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"github.com/jmoiron/sqlx"
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"git.hangman-lab.top/hzhang/Dialectic.Backend/internal/auth"
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"git.hangman-lab.top/hzhang/Dialectic.Backend/internal/config"
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"git.hangman-lab.top/hzhang/Dialectic.Backend/internal/httpapi/handlers"
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"git.hangman-lab.top/hzhang/Dialectic.Backend/internal/store"
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)
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// Mount returns the root router with all v2 endpoints wired. Owners of
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// individual middleware chains:
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//
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// - /api/healthz : public (no auth)
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// - /api/topics : mixed — list/get optional auth (anon
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// sees public only); create requires CallerAgent or CallerUser
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// - /api/topics/{id}/signups : agent-only (CallerAgent)
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//
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// Browser-side OIDC and agent-side bearer middlewares co-exist on the
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// same route by being "optional auth" — if either succeeds, Caller is
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// attached; otherwise the handler sees anonymous and decides whether
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// to 401 or fall through to public behavior.
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func Mount(cfg *config.Config, db *sqlx.DB, version string) http.Handler {
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r := chi.NewRouter()
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// Boilerplate middleware — these run on every request.
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r.Use(chimw.RealIP)
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r.Use(chimw.RequestID)
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r.Use(chimw.Logger)
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r.Use(chimw.Recoverer)
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r.Use(chimw.Timeout(30 * time.Second))
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r.Use(cors.Handler(cors.Options{
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AllowedOrigins: cfg.CORSAllowOrigins,
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AllowedMethods: []string{"GET", "POST", "PUT", "DELETE", "OPTIONS"},
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AllowedHeaders: []string{"Accept", "Authorization", "Content-Type", "x-dev-bypass"},
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ExposedHeaders: []string{},
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AllowCredentials: true,
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MaxAge: 300,
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}))
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// Auth middlewares — composed as "try agent, then user, else pass anonymous".
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optionalAuth := optionalAuthChain(db, cfg)
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requireAgent := auth.AgentAPIKey(db, cfg.AgentAPIKeyPepper) // strict bearer
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requireAnyAuth := requireAnyAuthChain(db, cfg)
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// Handler instances.
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topicStore := store.NewTopicStore(db)
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signupStore := store.NewSignupStore(db)
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campStore := store.NewCampStore(db)
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roundStore := store.NewRoundStore(db)
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argStore := store.NewArgumentStore(db)
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verdictStore := store.NewVerdictStore(db)
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health := handlers.NewHealthHandler(db, version)
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topicsH := handlers.NewTopicsHandler(topicStore, campStore)
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signupsH := handlers.NewSignupsHandler(topicStore, signupStore)
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argsH := handlers.NewArgumentsHandler(topicStore, campStore, roundStore, argStore)
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verdictH := handlers.NewVerdictHandler(topicStore, campStore, verdictStore)
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adminH := handlers.NewAdminHandler(db, cfg.AgentAPIKeyPepper, cfg.DialecticAdminAPIKey)
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// Routes.
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r.Route("/api", func(r chi.Router) {
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r.Get("/healthz", health.Healthz)
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// Topics: list+get optional-auth (visibility-gated by handler);
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// create+visibility-flip require any auth.
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r.Group(func(r chi.Router) {
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r.Use(optionalAuth)
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r.Get("/topics", topicsH.List)
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r.Get("/topics/{id}", topicsH.Get)
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r.Get("/topics/{id}/arguments", argsH.List)
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r.Get("/topics/{id}/verdict", verdictH.Get)
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})
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r.Group(func(r chi.Router) {
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r.Use(requireAnyAuth)
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r.Post("/topics", topicsH.Create)
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r.Put("/topics/{id}/visibility", topicsH.SetVisibility)
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})
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// Signups, arguments, verdict POST: agent-only.
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r.Group(func(r chi.Router) {
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r.Use(requireAgent)
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r.Post("/topics/{id}/signups", signupsH.Create)
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r.Post("/topics/{id}/arguments", argsH.Post)
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r.Post("/topics/{id}/verdict", verdictH.Submit)
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})
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// List signups: any authenticated caller.
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r.Group(func(r chi.Router) {
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r.Use(requireAnyAuth)
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r.Get("/topics/{id}/signups", signupsH.List)
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})
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// Admin: provision an agent api key. Auth is its own header
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// (x-dialectic-admin-key against env DIALECTIC_ADMIN_API_KEY),
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// not bearer — admin lifecycle is separate from agent identity.
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r.Post("/admin/agent-keys", adminH.ProvisionAgentKey)
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})
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return r
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}
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// optionalAuthChain: if either auth method succeeds, attach Caller;
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// otherwise let the request through anonymous. Handlers decide what
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// to do with anonymous (typically: serve public subset, hide private).
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func optionalAuthChain(db *sqlx.DB, cfg *config.Config) func(http.Handler) http.Handler {
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agent := auth.AgentAPIKey(db, cfg.AgentAPIKeyPepper)
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oidc := auth.OIDCBrowser(cfg.IsDev(), cfg.OIDCDevBypassToken)
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return func(next http.Handler) http.Handler {
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return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
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// Bearer present → try agent path; on success it ServeHTTPs next.
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// On failure it 401s, which we want to demote to "anonymous" for
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// optional auth. The pattern is: capture the response; if it's
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// 401, fall through to OIDC; if OIDC also 401s, finally fall
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// through to next (anonymous).
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if r.Header.Get("authorization") != "" {
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rw := &captureWriter{ResponseWriter: w}
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agent(next).ServeHTTP(rw, r)
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if rw.status != http.StatusUnauthorized {
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return
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}
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// reset captured state and try anon path (since OIDC
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// won't apply if there's no cookie / bypass header)
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}
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if r.Header.Get("x-dev-bypass") != "" {
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rw := &captureWriter{ResponseWriter: w}
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oidc(next).ServeHTTP(rw, r)
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if rw.status != http.StatusUnauthorized {
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return
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}
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}
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// Anonymous — call next with no Caller attached.
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next.ServeHTTP(w, r)
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})
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}
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}
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// requireAnyAuthChain: 401 if neither agent nor user auth succeeds.
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func requireAnyAuthChain(db *sqlx.DB, cfg *config.Config) func(http.Handler) http.Handler {
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agent := auth.AgentAPIKey(db, cfg.AgentAPIKeyPepper)
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oidc := auth.OIDCBrowser(cfg.IsDev(), cfg.OIDCDevBypassToken)
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return func(next http.Handler) http.Handler {
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return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
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if r.Header.Get("authorization") != "" {
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rw := &captureWriter{ResponseWriter: w}
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agent(next).ServeHTTP(rw, r)
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if rw.status != http.StatusUnauthorized {
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return
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}
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}
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oidc(next).ServeHTTP(w, r)
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})
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}
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}
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// captureWriter records the status so the optional-auth chain can
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// distinguish "401 from inner middleware (try next)" from "actual
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// response from handler (deliver)". Body bytes are passed through
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// when status != 401.
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type captureWriter struct {
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http.ResponseWriter
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status int
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wroteHeader bool
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suppressing bool
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}
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func (c *captureWriter) WriteHeader(s int) {
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c.status = s
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c.wroteHeader = true
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if s == http.StatusUnauthorized {
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// don't actually write — we may fall through
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c.suppressing = true
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return
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}
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c.ResponseWriter.WriteHeader(s)
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}
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func (c *captureWriter) Write(b []byte) (int, error) {
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if c.suppressing {
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// swallow; caller will fall through to next chain step
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return len(b), nil
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}
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if !c.wroteHeader {
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c.ResponseWriter.WriteHeader(http.StatusOK)
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c.wroteHeader = true
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}
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return c.ResponseWriter.Write(b)
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}
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