979b3cfa66
Vorher: Free-Text-Input ('127.0.0.1, ::1, 10.10.20.3') — Operator
musste Werte tippen + auf Format aufpassen.
Jetzt: Multi-Select (mode='tags') das die IPs aus /system/interfaces
+ vier Spezial-Werte (0.0.0.0, ::, 127.0.0.1, ::1) anbietet. Optionen
zeigen IP + Iface-Name + Family ('10.0.20.26 — ens19 (IPv4)'). Tag-
Mode lässt zusätzlich freie Eingabe zu, falls eine geplante VIP noch
nicht im Kernel ist.
Convertierung Form↔Wire: UI Array ↔ DB Comma-CSV.
Version 1.0.35.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
337 lines
13 KiB
Go
337 lines
13 KiB
Go
// Command edgeguard-api serves the management REST API on
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// 127.0.0.1:9443. HAProxy (or a dev curl) terminates TLS in front of
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// it; this process is plain HTTP behind that.
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package main
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import (
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"context"
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"crypto/rand"
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"log"
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"log/slog"
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"net/http"
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"os"
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"path/filepath"
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"strings"
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"time"
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"github.com/gin-gonic/gin"
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"github.com/jackc/pgx/v5/pgxpool"
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"git.netcell-it.de/projekte/edgeguard-native/internal/cluster"
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"git.netcell-it.de/projekte/edgeguard-native/internal/database"
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firewallrender "git.netcell-it.de/projekte/edgeguard-native/internal/firewall"
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"git.netcell-it.de/projekte/edgeguard-native/internal/haproxy"
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"git.netcell-it.de/projekte/edgeguard-native/internal/handlers"
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squidrender "git.netcell-it.de/projekte/edgeguard-native/internal/squid"
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unboundrender "git.netcell-it.de/projekte/edgeguard-native/internal/unbound"
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wgrender "git.netcell-it.de/projekte/edgeguard-native/internal/wireguard"
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"git.netcell-it.de/projekte/edgeguard-native/internal/handlers/response"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/acme"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/audit"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/backends"
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dnssvc "git.netcell-it.de/projekte/edgeguard-native/internal/services/dns"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/domains"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/firewall"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/forwardproxy"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/ipaddresses"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/networkifs"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/routingrules"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/secrets"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/session"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/setup"
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"git.netcell-it.de/projekte/edgeguard-native/internal/services/tlscerts"
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wgsvc "git.netcell-it.de/projekte/edgeguard-native/internal/services/wireguard"
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)
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var version = "1.0.35"
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func main() {
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addr := os.Getenv("EDGEGUARD_API_ADDR")
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if addr == "" {
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addr = "127.0.0.1:9443"
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}
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dataDir := os.Getenv("EDGEGUARD_DATA_DIR")
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if dataDir == "" {
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dataDir = setup.DefaultDir
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}
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setupStore := setup.NewStore(dataDir)
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signer, err := session.NewSignerFromPath("")
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if err != nil {
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// /var/lib/edgeguard not writable in dev → fall back to a
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// process-local secret so `go run` works without sudo. Tokens
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// won't survive a restart, which is fine for an unprivileged
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// developer machine.
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slog.Warn("session signer: persisted secret unavailable, using ephemeral",
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"error", err)
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signer = session.NewSigner(randomEphemeralSecret(), nil, 0)
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}
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gin.SetMode(gin.ReleaseMode)
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r := gin.New()
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r.Use(handlers.Recover())
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// Health endpoints are mounted *before* SetupGate so they answer
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// 200 even on a virgin box. UI uses /api/v1/system/health for the
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// post-upgrade version-flip poll.
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r.GET("/healthz", func(c *gin.Context) {
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response.OK(c, gin.H{"status": "ok", "version": version})
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})
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r.GET("/api/health", func(c *gin.Context) {
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response.OK(c, gin.H{"status": "ok", "version": version})
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})
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// ACME HTTP-01 webroot — HAProxy proxies these through pre-setup
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// so certbot can issue the first cert. Webroot location matches
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// certbot's default; override via EDGEGUARD_ACME_WEBROOT for
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// dev/tests.
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acmeWebroot := os.Getenv("EDGEGUARD_ACME_WEBROOT")
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handlers.NewACMEHandler(acmeWebroot).Register(r)
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v1 := r.Group("/api/v1")
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v1.Use(handlers.SetupGate(setupStore))
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requireAuth := handlers.RequireAuth(signer)
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handlers.NewSetupHandler(setupStore).Register(v1)
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handlers.NewSystemHandler(version).Register(v1)
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handlers.NewAuthHandler(setupStore, signer).Register(v1, requireAuth)
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// Open the DB pool best-effort. Without a reachable PG, CRUD
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// handlers stay unregistered and only Auth/Setup/System answer —
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// good enough for `go run` on a developer machine that has no
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// postgres-16 yet.
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pool, err := openDBBestEffort()
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if err != nil {
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slog.Warn("DB pool unavailable, CRUD endpoints disabled",
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"error", err)
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} else {
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slog.Info("DB pool open, registering CRUD handlers")
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nodeID, nodeErr := cluster.EnsureNodeID("")
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if nodeErr != nil {
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slog.Warn("node-id not persisted, using ephemeral",
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"id", nodeID, "error", nodeErr)
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}
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clusterStore := cluster.NewStore(pool)
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// Self-register in ha_nodes — only if setup is complete
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// (we want the operator-defined FQDN, not the OS hostname,
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// to land in api_url). Failures are logged but non-fatal.
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ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
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st, _ := setupStore.Load()
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if st != nil && st.Completed {
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if _, err := cluster.EnsureSelfRegistered(ctx, clusterStore, st.FQDN, "primary"); err != nil {
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slog.Warn("self-register in ha_nodes failed", "error", err)
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}
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}
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cancel()
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auditRepo := audit.New(pool)
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domainsRepo := domains.New(pool)
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backendsRepo := backends.New(pool)
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routingRepo := routingrules.New(pool)
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ifsRepo := networkifs.New(pool)
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ipsRepo := ipaddresses.New(pool)
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tlsRepo := tlscerts.New(pool)
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fwZones := firewall.NewZonesRepo(pool)
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fwAddrObj := firewall.NewAddressObjectsRepo(pool)
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fwAddrGrp := firewall.NewAddressGroupsRepo(pool)
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fwSvc := firewall.NewServicesRepo(pool)
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fwSvcGrp := firewall.NewServiceGroupsRepo(pool)
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fwRules := firewall.NewRulesRepo(pool)
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fwNAT := firewall.NewNATRulesRepo(pool)
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secretsBox := secrets.New("")
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wgIfaces := wgsvc.NewInterfacesRepo(pool)
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wgPeers := wgsvc.NewPeersRepo(pool)
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fwdProxyRepo := forwardproxy.New(pool)
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dnsRepo := dnssvc.New(pool)
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// ACME (Let's Encrypt). Email comes from setup.json — the
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// wizard collects acme_email and the issuer registers an
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// account on first /tls-certs/issue call.
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var acmeService handlers.LetsEncryptIssuer
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if st != nil && st.ACMEEmail != "" {
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acmeService = acme.New(st.ACMEEmail)
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}
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// HAProxy reload — re-rendert haproxy.cfg + sudo systemctl
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// reload haproxy. Wird in Domains/Backends/RoutingRules-Handler
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// injiziert, damit jede Änderung ohne expliziten render-config-
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// Aufruf live geht. Errors werden geloggt, nicht failed
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// (Row schon committed, Operator kann manuell re-triggern).
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haproxyReloader := func(ctx context.Context) error {
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return haproxy.New(pool).Render(ctx)
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}
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authed := v1.Group("")
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authed.Use(requireAuth)
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handlers.NewDomainsHandler(domainsRepo, routingRepo, auditRepo, nodeID, haproxyReloader).Register(authed)
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handlers.NewBackendsHandler(backendsRepo, auditRepo, nodeID, haproxyReloader).Register(authed)
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handlers.NewRoutingRulesHandler(routingRepo, auditRepo, nodeID, haproxyReloader).Register(authed)
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handlers.NewNetworksHandler(ifsRepo, ipsRepo, fwZones, auditRepo, nodeID).Register(authed)
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handlers.NewIPAddressesHandler(ipsRepo, auditRepo, nodeID).Register(authed)
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handlers.NewClusterHandler(clusterStore, nodeID).Register(authed)
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handlers.NewTLSCertsHandler(tlsRepo, auditRepo, nodeID, acmeService).Register(authed)
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// Firewall reload: nach jeder Mutation den Renderer neu fahren
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// (writes ruleset.nft + sudo nft -f). Errors loggen, nicht failen.
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fwReloader := func(ctx context.Context) error {
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return firewallrender.New(pool).Render(ctx)
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}
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handlers.NewFirewallHandler(fwZones, fwAddrObj, fwAddrGrp, fwSvc, fwSvcGrp, fwRules, fwNAT, auditRepo, nodeID, fwReloader).Register(authed)
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// WireGuard reload: re-render /etc/edgeguard/wireguard/*.conf
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// + restart wg-quick@<iface>. Same pattern as the haproxy +
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// firewall reloaders.
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wgReloader := func(ctx context.Context) error {
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return wgrender.New(pool, secretsBox).Render(ctx)
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}
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handlers.NewWireguardHandler(wgIfaces, wgPeers, secretsBox, auditRepo, nodeID, wgReloader).Register(authed)
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// Squid forward-proxy reload — re-render squid.conf + reload
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// squid.service. sudoers im postinst whitelistet das.
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squidReloader := func(ctx context.Context) error {
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return squidrender.New(pool).Render(ctx)
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}
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handlers.NewForwardProxyHandler(fwdProxyRepo, auditRepo, nodeID, squidReloader).Register(authed)
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// Unbound DNS reload — re-render edgeguard.conf + reload
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// unbound.service.
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unboundReloader := func(ctx context.Context) error {
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return unboundrender.New(pool).Render(ctx)
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}
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handlers.NewDNSHandler(dnsRepo, auditRepo, nodeID, unboundReloader).Register(authed)
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}
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mountUI(r)
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log.Printf("edgeguard-api %s listening on %s", version, addr)
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srv := &http.Server{Addr: addr, Handler: r}
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if err := srv.ListenAndServe(); err != nil && err != http.ErrServerClosed {
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log.Fatalf("edgeguard-api: %v", err)
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}
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}
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// mountUI serves the management UI — Vite-built static assets under
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// /usr/share/edgeguard/ui/ — with SPA fallback (any path that isn't
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// /api/* or /healthz and isn't a real file → index.html). When the
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// dist directory is missing (dev box without `bun run build`), a
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// placeholder HTML page is served at /.
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func mountUI(r *gin.Engine) {
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uiDir := os.Getenv("EDGEGUARD_UI_DIR")
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if uiDir == "" {
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uiDir = "/usr/share/edgeguard/ui"
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}
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indexPath := filepath.Join(uiDir, "index.html")
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if _, err := os.Stat(indexPath); err != nil {
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slog.Warn("UI dist not found, serving placeholder",
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"ui_dir", uiDir, "error", err)
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r.NoRoute(func(c *gin.Context) {
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path := c.Request.URL.Path
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if isAPIPath(path) {
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c.Status(http.StatusNotFound)
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return
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}
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c.Data(http.StatusOK, "text/html; charset=utf-8", []byte(uiPlaceholder))
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})
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return
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}
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r.NoRoute(func(c *gin.Context) {
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path := c.Request.URL.Path
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if isAPIPath(path) {
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c.Status(http.StatusNotFound)
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return
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}
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// Serve real file when one exists for the requested path.
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// filepath.Clean blocks `..` traversal; the join still pins
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// the result inside uiDir even with shenanigans.
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clean := filepath.Clean(path)
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if !strings.HasPrefix(clean, "/") {
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clean = "/" + clean
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}
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full := filepath.Join(uiDir, clean)
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if !strings.HasPrefix(full, uiDir) {
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c.Status(http.StatusForbidden)
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return
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}
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if info, err := os.Stat(full); err == nil && !info.IsDir() {
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c.File(full)
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return
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}
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// SPA fallback — React Router renders the right page.
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c.File(indexPath)
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})
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}
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// isAPIPath returns true for paths the API owns; UI serves
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// everything else. /healthz and /api/health are technically API
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// surfaces but don't need to fall through to index.html either.
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func isAPIPath(p string) bool {
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return strings.HasPrefix(p, "/api/") || p == "/healthz" || p == "/api/health"
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}
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const uiPlaceholder = `<!doctype html>
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<html lang="en"><head><meta charset="utf-8"><title>EdgeGuard</title></head>
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<body style="font-family: -apple-system, sans-serif; max-width: 640px; margin: 4em auto; line-height: 1.5;">
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<h1>EdgeGuard</h1>
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<p>The management UI has not been built yet. From the project root, run:</p>
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<pre style="background:#f4f4f4;padding:12px;border-radius:4px;">cd management-ui && bun install && bun run build</pre>
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<p>Then the same URL will serve the React SPA. The REST API is fully functional at
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<code>/api/v1/*</code> regardless.</p>
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</body></html>`
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// openDBBestEffort opens the pool with a 3s timeout. Returns the
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// non-nil error so callers can decide whether to register CRUD or
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// degrade gracefully.
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func openDBBestEffort() (*pgxpoolPool, error) {
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ctx, cancel := context.WithTimeout(context.Background(), 3*time.Second)
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defer cancel()
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dsn := database.ConnStringFromEnv()
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return database.Open(ctx, dsn)
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}
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// pgxpoolPool aliases the concrete pool type so we don't import it in
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// main.go on every platform — keeps the import block lean.
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type pgxpoolPool = pgxpool.Pool
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// nodeIDOrHostname returns the node identifier audit_log entries are
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// stamped with. v1 just uses /etc/machine-id (or the hostname on dev
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// machines without one). Phase 3's cluster store will replace this.
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func nodeIDOrHostname() string {
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if b, err := os.ReadFile("/etc/machine-id"); err == nil {
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s := string(b)
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s = stripTrailingNewline(s)
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if s != "" {
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return s
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}
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}
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if h, err := os.Hostname(); err == nil {
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return h
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}
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return "unknown"
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}
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func stripTrailingNewline(s string) string {
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for len(s) > 0 && (s[len(s)-1] == '\n' || s[len(s)-1] == '\r') {
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s = s[:len(s)-1]
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}
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return s
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}
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// randomEphemeralSecret is the fallback for dev environments where
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// /var/lib/edgeguard isn't writable. Tokens issued with this secret
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// die on restart — production reads/writes the persistent file via
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// session.NewSignerFromPath.
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func randomEphemeralSecret() []byte {
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b := make([]byte, 32)
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if _, err := rand.Read(b); err != nil {
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// Should never happen on a sane Linux box; fall back to a
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// time-based filler so the process can at least start.
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log.Printf("WARN: crypto/rand read failed: %v", err)
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}
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return b
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}
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