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certctl/internal/api/router/router.go
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shankar0123 dc1e0bfbaa crl/ocsp: POST OCSP endpoint (RFC 6960 §A.1.1) + cache integration 
Phase 4 (final phase) of the CRL/OCSP responder bundle. Closes the
backend slice; HTTP layer is now production-ready for relying parties.

What landed:

  * POST /.well-known/pki/ocsp/{issuer_id} (handler.HandleOCSPPost)
    - Accepts binary application/ocsp-request body per RFC 6960 §A.1.1
    - Tolerant of missing Content-Type (some clients omit); validates
      via ocsp.ParseRequest, returns 400 on malformed
    - Returns 415 on explicit wrong Content-Type
    - Reuses the existing service path (h.svc.GetOCSPResponse) — the
      only new logic is body decoding + serial-from-OCSPRequest extraction
    - GET form preserved unchanged for ad-hoc curl + human URL paths
    - Auth-exempt under /.well-known/pki/ prefix (already in
      AuthExemptDispatchPrefixes — no router changes for that)
    - 7 new tests: success, method-not-allowed, wrong content-type,
      missing content-type accepted, malformed body, missing issuer,
      service error propagation

  * router.go: r.Register("POST /.well-known/pki/ocsp/{issuer_id}", ...)

  * CertificateService.GenerateDERCRL — cache-aware:
    - New SetCRLCacheSvc(svc) setter (matches existing SetCAOperationsSvc
      pattern — optional dep)
    - When wired, GenerateDERCRL calls crlCacheSvc.Get → cheap DB read
      on cache hit, singleflight-coalesced regen on miss
    - When unwired, falls back to historical caSvc.GenerateDERCRL path
    - GET /.well-known/pki/crl/{issuer_id} handler unchanged — calls
      the same service method, gets cache benefit transparently when
      the cache service is wired in cmd/server/main.go

Coverage: handler 79.8% (floor 75), service unchanged, scheduler 78%.

What's deferred (intentional scope cut for this session):

  * cmd/server/main.go wiring of CRLCacheService + responder service
    setters into the local issuer factory + scheduler. The wiring is
    mechanical (NewCRLCacheService + scheduler.SetCRLCacheService call
    in the existing wiring block); deferring keeps this commit focused
    on the responder + cache primitives. Operator can wire when ready.
  * Phase 5 (GUI), Phase 6 (e2e test against kind), Phase 7 (release
    prep) — separate follow-up sessions.
  * OCSP cache integration: today's GET/POST OCSP path goes through
    the on-demand SignOCSPResponse (already cheap with the dedicated
    responder cert from Phase 2). A cached-OCSP path is V3-Pro polish.

The bundle's V2 backend slice (Phases 0-4) is complete. All 4 phases
shipped 4 commits + 1 amend on this branch. CI will validate the
testcontainers repository tests on push.
2026-04-29 00:07:27 +00:00

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package router
import (
"net/http"
"github.com/shankar0123/certctl/internal/api/handler"
"github.com/shankar0123/certctl/internal/api/middleware"
)
// Router wraps http.ServeMux and manages route registration with middleware.
type Router struct {
mux *http.ServeMux
middleware []func(http.Handler) http.Handler
}
// New creates a new Router instance.
func New() *Router {
return &Router{
mux: http.NewServeMux(),
middleware: []func(http.Handler) http.Handler{},
}
}
// NewWithMiddleware creates a Router with initial middleware stack.
func NewWithMiddleware(middlewares ...func(http.Handler) http.Handler) *Router {
r := New()
r.middleware = middlewares
return r
}
// ServeHTTP implements http.Handler interface.
func (r *Router) ServeHTTP(w http.ResponseWriter, req *http.Request) {
r.mux.ServeHTTP(w, req)
}
// Register registers a handler for a given path with the middleware chain applied.
func (r *Router) Register(pattern string, handler http.Handler) {
r.mux.Handle(pattern, middleware.Chain(handler, r.middleware...))
}
// RegisterFunc registers a handler function for a given path.
func (r *Router) RegisterFunc(pattern string, handler func(http.ResponseWriter, *http.Request)) {
r.Register(pattern, http.HandlerFunc(handler))
}
// AuthExemptRouterRoutes is the documented allowlist of routes that the
// router itself registers via direct r.mux.Handle calls (NOT via r.Register),
// thereby bypassing the router-level middleware chain — including auth.
//
// Bundle B / Audit M-002 (CWE-862 Authorization Bypass): this is one of the
// two layers where auth-exempt status is decided. The complete picture:
//
// 1. Router layer (this constant) — direct mux.Handle registrations in
// RegisterHandlers below. Used for endpoints that must never carry a
// Bearer token (health probes, auth-info before login, version probe).
//
// 2. Dispatch layer (cmd/server/main.go::buildFinalHandler) — URL-prefix
// dispatch that routes /.well-known/pki/*, /.well-known/est/*, and
// /scep[/...]* through the no-auth handler chain. Those protocols
// authenticate via CSR-embedded credentials (EST/SCEP challenge
// password) or are inherently unauthenticated by RFC (CRL/OCSP relying
// parties).
//
// Every entry in this slice has a justification. Adding a new entry MUST
// include a code comment explaining why the route is safe-without-auth.
// The TestRouter_AuthExemptAllowlist regression test below pins the slice
// to the actual mux.Handle calls — adding an undocumented bypass fails CI.
var AuthExemptRouterRoutes = []string{
"GET /health", // K8s/Docker liveness probe; cannot carry Bearer
"GET /ready", // K8s/Docker readiness probe; cannot carry Bearer
"GET /api/v1/auth/info", // GUI calls before login to detect auth mode
"GET /api/v1/version", // Rollout probes need build identity without key
}
// AuthExemptDispatchPrefixes is the documented allowlist of URL prefixes
// that cmd/server/main.go::buildFinalHandler routes through the no-auth
// handler chain. These are RFC-mandated unauthenticated surfaces (CRL/OCSP)
// or protocols that authenticate via embedded credentials (EST/SCEP).
//
// Bundle B / Audit M-002: complement to AuthExemptRouterRoutes. The
// TestDispatch_AuthExemptPrefixes regression test in cmd/server/main_test.go
// pins this slice to buildFinalHandler's actual dispatch logic.
var AuthExemptDispatchPrefixes = []string{
"/.well-known/pki", // RFC 5280 CRL + RFC 6960 OCSP — relying-party-unauth
"/.well-known/est", // RFC 7030 EST — auth via mTLS or CSR-embedded creds
"/scep", // RFC 8894 SCEP — auth via challengePassword in CSR
}
// HandlerRegistry groups all API handler dependencies for router registration.
type HandlerRegistry struct {
Certificates handler.CertificateHandler
Issuers handler.IssuerHandler
Targets handler.TargetHandler
Agents handler.AgentHandler
Jobs handler.JobHandler
Policies handler.PolicyHandler
Profiles handler.ProfileHandler
Teams handler.TeamHandler
Owners handler.OwnerHandler
AgentGroups handler.AgentGroupHandler
Audit handler.AuditHandler
Notifications handler.NotificationHandler
Stats handler.StatsHandler
Metrics handler.MetricsHandler
Health handler.HealthHandler
Discovery handler.DiscoveryHandler
NetworkScan handler.NetworkScanHandler
Verification handler.VerificationHandler
Export handler.ExportHandler
Digest handler.DigestHandler
HealthChecks *handler.HealthCheckHandler
BulkRevocation handler.BulkRevocationHandler
// L-1 master closure (cat-l-fa0c1ac07ab5 + cat-l-8a1fb258a38a):
// server-side bulk endpoints replace pre-L-1 client-side N×HTTP
// loops in CertificatesPage.tsx. See handler/bulk_renewal.go and
// handler/bulk_reassignment.go.
BulkRenewal handler.BulkRenewalHandler
BulkReassignment handler.BulkReassignmentHandler
RenewalPolicies handler.RenewalPolicyHandler
// Version handles GET /api/v1/version (U-3 ride-along,
// cat-u-no_version_endpoint). Wired through the no-auth dispatch in
// cmd/server/main.go so probes and rollout systems can read build
// identity without Bearer credentials. See handler/version.go.
Version handler.VersionHandler
}
// RegisterHandlers sets up all API routes with their handlers.
func (r *Router) RegisterHandlers(reg HandlerRegistry) {
// Health endpoints (no auth middleware — must always be accessible)
r.mux.Handle("GET /health", middleware.Chain(
http.HandlerFunc(reg.Health.Health),
middleware.CORS,
middleware.ContentType,
))
r.mux.Handle("GET /ready", middleware.Chain(
http.HandlerFunc(reg.Health.Ready),
middleware.CORS,
middleware.ContentType,
))
// Auth info endpoint (no auth middleware — GUI needs this before login)
r.mux.Handle("GET /api/v1/auth/info", middleware.Chain(
http.HandlerFunc(reg.Health.AuthInfo),
middleware.CORS,
middleware.ContentType,
))
// Version endpoint (no auth middleware — used by rollout probes that
// don't carry Bearer tokens; the dispatch layer in cmd/server/main.go
// also routes /api/v1/version through the no-auth chain). U-3 ride-along
// (cat-u-no_version_endpoint, P2). The handler reads
// runtime/debug.BuildInfo for VCS attribution; ldflags-supplied Version
// is preferred when present.
r.mux.Handle("GET /api/v1/version", middleware.Chain(
reg.Version,
middleware.CORS,
middleware.ContentType,
))
// Auth check endpoint (uses full middleware chain via r.Register)
r.Register("GET /api/v1/auth/check", http.HandlerFunc(reg.Health.AuthCheck))
// Certificates routes: /api/v1/certificates
// Bulk operations MUST register before {id} routes — Go 1.22 ServeMux
// gives literal segments precedence over pattern-var segments, but
// listing the bulk paths first makes the precedence operator-visible
// and prevents a future refactor from accidentally inverting it. All
// three bulk endpoints share the same envelope shape (criteria/IDs
// in, {total_matched, total_<verb>, total_skipped, total_failed,
// errors[]} out). L-1 master added bulk-renew + bulk-reassign
// alongside the pre-existing bulk-revoke.
r.Register("POST /api/v1/certificates/bulk-revoke", http.HandlerFunc(reg.BulkRevocation.BulkRevoke))
r.Register("POST /api/v1/certificates/bulk-renew", http.HandlerFunc(reg.BulkRenewal.BulkRenew))
r.Register("POST /api/v1/certificates/bulk-reassign", http.HandlerFunc(reg.BulkReassignment.BulkReassign))
r.Register("GET /api/v1/certificates", http.HandlerFunc(reg.Certificates.ListCertificates))
r.Register("POST /api/v1/certificates", http.HandlerFunc(reg.Certificates.CreateCertificate))
r.Register("GET /api/v1/certificates/{id}", http.HandlerFunc(reg.Certificates.GetCertificate))
r.Register("PUT /api/v1/certificates/{id}", http.HandlerFunc(reg.Certificates.UpdateCertificate))
r.Register("DELETE /api/v1/certificates/{id}", http.HandlerFunc(reg.Certificates.ArchiveCertificate))
r.Register("GET /api/v1/certificates/{id}/versions", http.HandlerFunc(reg.Certificates.GetCertificateVersions))
r.Register("GET /api/v1/certificates/{id}/deployments", http.HandlerFunc(reg.Certificates.GetCertificateDeployments))
r.Register("POST /api/v1/certificates/{id}/renew", http.HandlerFunc(reg.Certificates.TriggerRenewal))
r.Register("POST /api/v1/certificates/{id}/deploy", http.HandlerFunc(reg.Certificates.TriggerDeployment))
r.Register("POST /api/v1/certificates/{id}/revoke", http.HandlerFunc(reg.Certificates.RevokeCertificate))
// Export endpoints: /api/v1/certificates/{id}/export/{format}
r.Register("GET /api/v1/certificates/{id}/export/pem", http.HandlerFunc(reg.Export.ExportPEM))
r.Register("POST /api/v1/certificates/{id}/export/pkcs12", http.HandlerFunc(reg.Export.ExportPKCS12))
// NOTE: RFC 5280 CRL and RFC 6960 OCSP endpoints are registered separately
// via RegisterPKIHandlers under /.well-known/pki/ so relying parties can
// fetch them without presenting certctl API credentials. The legacy
// /api/v1/crl and /api/v1/ocsp paths have been retired (see M-006).
// Issuers routes: /api/v1/issuers
r.Register("GET /api/v1/issuers", http.HandlerFunc(reg.Issuers.ListIssuers))
r.Register("POST /api/v1/issuers", http.HandlerFunc(reg.Issuers.CreateIssuer))
r.Register("GET /api/v1/issuers/{id}", http.HandlerFunc(reg.Issuers.GetIssuer))
r.Register("PUT /api/v1/issuers/{id}", http.HandlerFunc(reg.Issuers.UpdateIssuer))
r.Register("DELETE /api/v1/issuers/{id}", http.HandlerFunc(reg.Issuers.DeleteIssuer))
r.Register("POST /api/v1/issuers/{id}/test", http.HandlerFunc(reg.Issuers.TestConnection))
// Targets routes: /api/v1/targets
r.Register("GET /api/v1/targets", http.HandlerFunc(reg.Targets.ListTargets))
r.Register("POST /api/v1/targets", http.HandlerFunc(reg.Targets.CreateTarget))
r.Register("GET /api/v1/targets/{id}", http.HandlerFunc(reg.Targets.GetTarget))
r.Register("PUT /api/v1/targets/{id}", http.HandlerFunc(reg.Targets.UpdateTarget))
r.Register("DELETE /api/v1/targets/{id}", http.HandlerFunc(reg.Targets.DeleteTarget))
r.Register("POST /api/v1/targets/{id}/test", http.HandlerFunc(reg.Targets.TestTargetConnection))
// Agents routes: /api/v1/agents
//
// I-004 soft-retirement surface:
// * GET /api/v1/agents/retired — opt-in listing of retired agents.
// MUST be registered before /agents/{id} so Go 1.22 ServeMux's
// literal-beats-pattern-var precedence routes the `retired` literal
// to ListRetiredAgents instead of treating "retired" as a {id}
// parameter value against GetAgent.
// * DELETE /api/v1/agents/{id} — RetireAgent. Replaces the pre-I-004
// hard-delete; the underlying repo does a soft-retire with
// optional cascade.
r.Register("GET /api/v1/agents", http.HandlerFunc(reg.Agents.ListAgents))
r.Register("POST /api/v1/agents", http.HandlerFunc(reg.Agents.RegisterAgent))
r.Register("GET /api/v1/agents/retired", http.HandlerFunc(reg.Agents.ListRetiredAgents))
r.Register("GET /api/v1/agents/{id}", http.HandlerFunc(reg.Agents.GetAgent))
r.Register("DELETE /api/v1/agents/{id}", http.HandlerFunc(reg.Agents.RetireAgent))
r.Register("POST /api/v1/agents/{id}/heartbeat", http.HandlerFunc(reg.Agents.Heartbeat))
r.Register("POST /api/v1/agents/{id}/csr", http.HandlerFunc(reg.Agents.AgentCSRSubmit))
r.Register("GET /api/v1/agents/{id}/certificates/{cert_id}", http.HandlerFunc(reg.Agents.AgentCertificatePickup))
r.Register("GET /api/v1/agents/{id}/work", http.HandlerFunc(reg.Agents.AgentGetWork))
r.Register("POST /api/v1/agents/{id}/jobs/{job_id}/status", http.HandlerFunc(reg.Agents.AgentReportJobStatus))
// Jobs routes: /api/v1/jobs
r.Register("GET /api/v1/jobs", http.HandlerFunc(reg.Jobs.ListJobs))
r.Register("GET /api/v1/jobs/{id}", http.HandlerFunc(reg.Jobs.GetJob))
r.Register("POST /api/v1/jobs/{id}/cancel", http.HandlerFunc(reg.Jobs.CancelJob))
r.Register("POST /api/v1/jobs/{id}/approve", http.HandlerFunc(reg.Jobs.ApproveJob))
r.Register("POST /api/v1/jobs/{id}/reject", http.HandlerFunc(reg.Jobs.RejectJob))
// Policies routes: /api/v1/policies
r.Register("GET /api/v1/policies", http.HandlerFunc(reg.Policies.ListPolicies))
r.Register("POST /api/v1/policies", http.HandlerFunc(reg.Policies.CreatePolicy))
r.Register("GET /api/v1/policies/{id}", http.HandlerFunc(reg.Policies.GetPolicy))
r.Register("PUT /api/v1/policies/{id}", http.HandlerFunc(reg.Policies.UpdatePolicy))
r.Register("DELETE /api/v1/policies/{id}", http.HandlerFunc(reg.Policies.DeletePolicy))
r.Register("GET /api/v1/policies/{id}/violations", http.HandlerFunc(reg.Policies.ListViolations))
// Renewal Policies routes: /api/v1/renewal-policies
// G-1: fixes frontend FK drift — OnboardingWizard + CertificatesPage dropdowns
// were previously populating renewal_policy_id from /api/v1/policies (compliance
// rules, pol-* IDs), violating FK managed_certificates.renewal_policy_id →
// renewal_policies(id) ON DELETE RESTRICT. This block is the backend half; the
// frontend half swaps getPolicies → getRenewalPolicies at 3 call sites.
r.Register("GET /api/v1/renewal-policies", http.HandlerFunc(reg.RenewalPolicies.ListRenewalPolicies))
r.Register("POST /api/v1/renewal-policies", http.HandlerFunc(reg.RenewalPolicies.CreateRenewalPolicy))
r.Register("GET /api/v1/renewal-policies/{id}", http.HandlerFunc(reg.RenewalPolicies.GetRenewalPolicy))
r.Register("PUT /api/v1/renewal-policies/{id}", http.HandlerFunc(reg.RenewalPolicies.UpdateRenewalPolicy))
r.Register("DELETE /api/v1/renewal-policies/{id}", http.HandlerFunc(reg.RenewalPolicies.DeleteRenewalPolicy))
// Profiles routes: /api/v1/profiles
r.Register("GET /api/v1/profiles", http.HandlerFunc(reg.Profiles.ListProfiles))
r.Register("POST /api/v1/profiles", http.HandlerFunc(reg.Profiles.CreateProfile))
r.Register("GET /api/v1/profiles/{id}", http.HandlerFunc(reg.Profiles.GetProfile))
r.Register("PUT /api/v1/profiles/{id}", http.HandlerFunc(reg.Profiles.UpdateProfile))
r.Register("DELETE /api/v1/profiles/{id}", http.HandlerFunc(reg.Profiles.DeleteProfile))
// Teams routes: /api/v1/teams
r.Register("GET /api/v1/teams", http.HandlerFunc(reg.Teams.ListTeams))
r.Register("POST /api/v1/teams", http.HandlerFunc(reg.Teams.CreateTeam))
r.Register("GET /api/v1/teams/{id}", http.HandlerFunc(reg.Teams.GetTeam))
r.Register("PUT /api/v1/teams/{id}", http.HandlerFunc(reg.Teams.UpdateTeam))
r.Register("DELETE /api/v1/teams/{id}", http.HandlerFunc(reg.Teams.DeleteTeam))
// Owners routes: /api/v1/owners
r.Register("GET /api/v1/owners", http.HandlerFunc(reg.Owners.ListOwners))
r.Register("POST /api/v1/owners", http.HandlerFunc(reg.Owners.CreateOwner))
r.Register("GET /api/v1/owners/{id}", http.HandlerFunc(reg.Owners.GetOwner))
r.Register("PUT /api/v1/owners/{id}", http.HandlerFunc(reg.Owners.UpdateOwner))
r.Register("DELETE /api/v1/owners/{id}", http.HandlerFunc(reg.Owners.DeleteOwner))
// Agent Groups routes: /api/v1/agent-groups
r.Register("GET /api/v1/agent-groups", http.HandlerFunc(reg.AgentGroups.ListAgentGroups))
r.Register("POST /api/v1/agent-groups", http.HandlerFunc(reg.AgentGroups.CreateAgentGroup))
r.Register("GET /api/v1/agent-groups/{id}", http.HandlerFunc(reg.AgentGroups.GetAgentGroup))
r.Register("PUT /api/v1/agent-groups/{id}", http.HandlerFunc(reg.AgentGroups.UpdateAgentGroup))
r.Register("DELETE /api/v1/agent-groups/{id}", http.HandlerFunc(reg.AgentGroups.DeleteAgentGroup))
r.Register("GET /api/v1/agent-groups/{id}/members", http.HandlerFunc(reg.AgentGroups.ListAgentGroupMembers))
// Audit routes: /api/v1/audit
r.Register("GET /api/v1/audit", http.HandlerFunc(reg.Audit.ListAuditEvents))
r.Register("GET /api/v1/audit/{id}", http.HandlerFunc(reg.Audit.GetAuditEvent))
// Notifications routes: /api/v1/notifications
r.Register("GET /api/v1/notifications", http.HandlerFunc(reg.Notifications.ListNotifications))
r.Register("GET /api/v1/notifications/{id}", http.HandlerFunc(reg.Notifications.GetNotification))
r.Register("POST /api/v1/notifications/{id}/read", http.HandlerFunc(reg.Notifications.MarkAsRead))
// I-005: requeue a dead notification back to pending so the retry sweep
// picks it up again. Go 1.22 ServeMux resolves the literal /requeue segment
// before falling back to the {id} path-variable route above.
r.Register("POST /api/v1/notifications/{id}/requeue", http.HandlerFunc(reg.Notifications.RequeueNotification))
// Stats routes: /api/v1/stats
r.Register("GET /api/v1/stats/summary", http.HandlerFunc(reg.Stats.GetDashboardSummary))
r.Register("GET /api/v1/stats/certificates-by-status", http.HandlerFunc(reg.Stats.GetCertificatesByStatus))
r.Register("GET /api/v1/stats/expiration-timeline", http.HandlerFunc(reg.Stats.GetExpirationTimeline))
r.Register("GET /api/v1/stats/job-trends", http.HandlerFunc(reg.Stats.GetJobTrends))
r.Register("GET /api/v1/stats/issuance-rate", http.HandlerFunc(reg.Stats.GetIssuanceRate))
// Metrics routes: /api/v1/metrics
r.Register("GET /api/v1/metrics", http.HandlerFunc(reg.Metrics.GetMetrics))
r.Register("GET /api/v1/metrics/prometheus", http.HandlerFunc(reg.Metrics.GetPrometheusMetrics))
// Discovery routes: /api/v1/discovered-certificates, /api/v1/discovery-scans
r.Register("POST /api/v1/agents/{id}/discoveries", http.HandlerFunc(reg.Discovery.SubmitDiscoveryReport))
r.Register("GET /api/v1/discovered-certificates", http.HandlerFunc(reg.Discovery.ListDiscovered))
r.Register("GET /api/v1/discovered-certificates/{id}", http.HandlerFunc(reg.Discovery.GetDiscovered))
r.Register("POST /api/v1/discovered-certificates/{id}/claim", http.HandlerFunc(reg.Discovery.ClaimDiscovered))
r.Register("POST /api/v1/discovered-certificates/{id}/dismiss", http.HandlerFunc(reg.Discovery.DismissDiscovered))
r.Register("GET /api/v1/discovery-scans", http.HandlerFunc(reg.Discovery.ListScans))
r.Register("GET /api/v1/discovery-summary", http.HandlerFunc(reg.Discovery.GetDiscoverySummary))
// Network scan routes: /api/v1/network-scan-targets
r.Register("GET /api/v1/network-scan-targets", http.HandlerFunc(reg.NetworkScan.ListNetworkScanTargets))
r.Register("POST /api/v1/network-scan-targets", http.HandlerFunc(reg.NetworkScan.CreateNetworkScanTarget))
r.Register("GET /api/v1/network-scan-targets/{id}", http.HandlerFunc(reg.NetworkScan.GetNetworkScanTarget))
r.Register("PUT /api/v1/network-scan-targets/{id}", http.HandlerFunc(reg.NetworkScan.UpdateNetworkScanTarget))
r.Register("DELETE /api/v1/network-scan-targets/{id}", http.HandlerFunc(reg.NetworkScan.DeleteNetworkScanTarget))
r.Register("POST /api/v1/network-scan-targets/{id}/scan", http.HandlerFunc(reg.NetworkScan.TriggerNetworkScan))
// Verification routes: /api/v1/jobs/{id}/verify and /api/v1/jobs/{id}/verification
r.Register("POST /api/v1/jobs/{id}/verify", http.HandlerFunc(reg.Verification.VerifyDeployment))
r.Register("GET /api/v1/jobs/{id}/verification", http.HandlerFunc(reg.Verification.GetVerificationStatus))
// Digest routes: /api/v1/digest
r.Register("GET /api/v1/digest/preview", http.HandlerFunc(reg.Digest.PreviewDigest))
r.Register("POST /api/v1/digest/send", http.HandlerFunc(reg.Digest.SendDigest))
// Health check routes: /api/v1/health-checks
// Summary endpoint must be registered before {id} routes
r.Register("GET /api/v1/health-checks/summary", http.HandlerFunc(reg.HealthChecks.GetHealthCheckSummary))
r.Register("GET /api/v1/health-checks", http.HandlerFunc(reg.HealthChecks.ListHealthChecks))
r.Register("POST /api/v1/health-checks", http.HandlerFunc(reg.HealthChecks.CreateHealthCheck))
r.Register("GET /api/v1/health-checks/{id}", http.HandlerFunc(reg.HealthChecks.GetHealthCheck))
r.Register("PUT /api/v1/health-checks/{id}", http.HandlerFunc(reg.HealthChecks.UpdateHealthCheck))
r.Register("DELETE /api/v1/health-checks/{id}", http.HandlerFunc(reg.HealthChecks.DeleteHealthCheck))
r.Register("GET /api/v1/health-checks/{id}/history", http.HandlerFunc(reg.HealthChecks.GetHealthCheckHistory))
r.Register("POST /api/v1/health-checks/{id}/acknowledge", http.HandlerFunc(reg.HealthChecks.AcknowledgeHealthCheck))
}
// RegisterESTHandlers sets up EST (RFC 7030) routes under /.well-known/est/.
//
// EST endpoints are intentionally unauthenticated at the HTTP layer. Per RFC 7030
// §3.2.3, authentication and authorization for enrollment are deployment-specific;
// certctl relies on CSR signature verification, profile policy enforcement (allowed
// key types, max TTL, permitted EKUs), and the underlying issuer connector's own
// policy. Per RFC 7030 §4.1.1, /.well-known/est/cacerts is explicitly anonymous.
//
// cmd/server/main.go's finalHandler dispatches /.well-known/est/* to a dedicated
// no-auth middleware chain (RequestID, structuredLogger, Recovery only) so EST
// clients — IoT devices, 802.1X supplicants, MDM-enrolled laptops — never hit the
// Bearer-token auth middleware they cannot satisfy. See M-001 audit 2026-04-19
// (option D): prior builds routed EST through the authenticated apiHandler chain,
// which reduced every enrollment to a 401 before the handler was reached.
func (r *Router) RegisterESTHandlers(est handler.ESTHandler) {
// EST endpoints per RFC 7030 Section 3.2.2
r.Register("GET /.well-known/est/cacerts", http.HandlerFunc(est.CACerts))
r.Register("POST /.well-known/est/simpleenroll", http.HandlerFunc(est.SimpleEnroll))
r.Register("POST /.well-known/est/simplereenroll", http.HandlerFunc(est.SimpleReEnroll))
r.Register("GET /.well-known/est/csrattrs", http.HandlerFunc(est.CSRAttrs))
}
// RegisterSCEPHandlers sets up SCEP (RFC 8894) routes.
// SCEP uses a single endpoint with operation-based dispatch via query parameters.
// Authentication is via the challengePassword attribute in the PKCS#10 CSR, not
// via HTTP Bearer tokens or TLS client certs. cmd/server/main.go's finalHandler
// routes /scep* through the no-auth middleware chain (M-001 audit 2026-04-19,
// option D), and Config.Validate() refuses to start the server if SCEP is enabled
// without a non-empty CERTCTL_SCEP_CHALLENGE_PASSWORD (H-2, CWE-306).
func (r *Router) RegisterSCEPHandlers(scep handler.SCEPHandler) {
// SCEP uses a single path; the handler dispatches on ?operation= query param
r.Register("GET /scep", http.HandlerFunc(scep.HandleSCEP))
r.Register("POST /scep", http.HandlerFunc(scep.HandleSCEP))
}
// RegisterPKIHandlers sets up RFC 5280 CRL and RFC 6960 OCSP routes under
// /.well-known/pki/. These endpoints are intentionally unauthenticated so
// relying parties (browsers, OpenSSL, OCSP stapling sidecars, mTLS clients)
// can fetch revocation data without presenting certctl API credentials.
// The response bodies are DER-encoded and carry the IANA-registered content
// types application/pkix-crl and application/ocsp-response.
//
// Precedent: EST (RFC 7030) and SCEP (RFC 8894) follow the same pattern —
// standards-defined wire formats served via a dedicated router registration
// that cmd/server wires into a no-auth middleware chain.
func (r *Router) RegisterPKIHandlers(pki handler.CertificateHandler) {
r.Register("GET /.well-known/pki/crl/{issuer_id}", http.HandlerFunc(pki.GetDERCRL))
r.Register("GET /.well-known/pki/ocsp/{issuer_id}/{serial}", http.HandlerFunc(pki.HandleOCSP))
// RFC 6960 §A.1.1 standard POST form. The binary OCSPRequest body
// carries the serial; the URL only needs the issuer ID. Most
// production OCSP clients use POST exclusively (see CRL/OCSP-Responder
// Phase 4 prompt for the full client compatibility matrix).
r.Register("POST /.well-known/pki/ocsp/{issuer_id}", http.HandlerFunc(pki.HandleOCSPPost))
}
// GetMux returns the underlying http.ServeMux for direct access if needed.
func (r *Router) GetMux() *http.ServeMux {
return r.mux
}
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