package tlstunnel import ( "context" "crypto/tls" "fmt" "io" "log" "net" "strings" "sync/atomic" "git.sr.ht/~emersion/go-scfg" "github.com/caddyserver/certmagic" "github.com/pires/go-proxyproto" "github.com/pires/go-proxyproto/tlvparse" ) type acmeCache struct { config *certmagic.Config cache *certmagic.Cache } func newACMECache() *acmeCache { cache := &acmeCache{} cache.cache = certmagic.NewCache(certmagic.CacheOptions{ GetConfigForCert: func(certmagic.Certificate) (*certmagic.Config, error) { return cache.config, nil }, }) return cache } type Server struct { Listeners map[string]*Listener // indexed by listening address Frontends []*Frontend ManagedNames []string UnmanagedCerts []tls.Certificate ACMEManager *certmagic.ACMEManager ACMEConfig *certmagic.Config acmeCache *acmeCache cancelACME context.CancelFunc } func NewServer() *Server { // Make a copy of the defaults acmeConfig := certmagic.Default acmeManager := certmagic.DefaultACME acmeManager.Agreed = true // We're a TLS server, we don't speak HTTP acmeManager.DisableHTTPChallenge = true return &Server{ Listeners: make(map[string]*Listener), ACMEManager: &acmeManager, ACMEConfig: &acmeConfig, } } func (srv *Server) Load(cfg scfg.Block) error { return parseConfig(srv, cfg) } func (srv *Server) RegisterListener(addr string) *Listener { // TODO: normalize addr with net.LookupPort ln, ok := srv.Listeners[addr] if !ok { ln = newListener(srv, addr) srv.Listeners[addr] = ln } return ln } func (srv *Server) startACME() error { var ctx context.Context ctx, srv.cancelACME = context.WithCancel(context.Background()) srv.ACMEConfig = certmagic.New(srv.acmeCache.cache, *srv.ACMEConfig) srv.ACMEManager = certmagic.NewACMEManager(srv.ACMEConfig, *srv.ACMEManager) srv.ACMEConfig.Issuer = srv.ACMEManager srv.ACMEConfig.Revoker = srv.ACMEManager srv.acmeCache.config = srv.ACMEConfig for _, cert := range srv.UnmanagedCerts { if err := srv.ACMEConfig.CacheUnmanagedTLSCertificate(cert, nil); err != nil { return err } } if err := srv.ACMEConfig.ManageAsync(ctx, srv.ManagedNames); err != nil { return fmt.Errorf("failed to manage TLS certificates: %v", err) } return nil } func (srv *Server) Start() error { srv.acmeCache = newACMECache() if err := srv.startACME(); err != nil { return err } for _, ln := range srv.Listeners { if err := ln.Start(); err != nil { return err } } return nil } func (srv *Server) Stop() { srv.cancelACME() // TODO: clean cached unmanaged certs for _, ln := range srv.Listeners { ln.Stop() } srv.acmeCache.cache.Stop() } // Replace starts the server but takes over existing listeners from an old // Server instance. The old instance keeps running unchanged if Replace // returns an error. func (srv *Server) Replace(old *Server) error { // Try to start new listeners for addr, ln := range srv.Listeners { if _, ok := old.Listeners[addr]; ok { continue } if err := ln.Start(); err != nil { for _, ln2 := range srv.Listeners { ln2.Stop() } return err } } // Steal the old server's ACME cache srv.acmeCache = old.acmeCache // Restart ACME old.cancelACME() if err := srv.startACME(); err != nil { for _, ln2 := range srv.Listeners { ln2.Stop() } return err } // TODO: clean cached unmanaged certs // Take over existing listeners and terminate old ones for addr, oldLn := range old.Listeners { if ln, ok := srv.Listeners[addr]; ok { srv.Listeners[addr] = oldLn.UpdateFrom(ln) } else { oldLn.Stop() } } return nil } type listenerHandles struct { Server *Server Frontends map[string]*Frontend // indexed by server name } type Listener struct { Address string netLn net.Listener atomic atomic.Value } func newListener(srv *Server, addr string) *Listener { ln := &Listener{ Address: addr, } ln.atomic.Store(&listenerHandles{ Server: srv, Frontends: make(map[string]*Frontend), }) return ln } func (ln *Listener) RegisterFrontend(name string, fe *Frontend) error { fes := ln.atomic.Load().(*listenerHandles).Frontends if _, ok := fes[name]; ok { return fmt.Errorf("listener %q: duplicate frontends for server name %q", ln.Address, name) } fes[name] = fe return nil } func (ln *Listener) Start() error { var err error ln.netLn, err = net.Listen("tcp", ln.Address) if err != nil { return err } log.Printf("listening on %q", ln.Address) go func() { if err := ln.serve(); err != nil { log.Fatalf("listener %q: %v", ln.Address, err) } }() return nil } func (ln *Listener) Stop() { ln.netLn.Close() } func (ln *Listener) UpdateFrom(new *Listener) *Listener { ln.atomic.Store(new.atomic.Load()) return ln } func (ln *Listener) serve() error { for { conn, err := ln.netLn.Accept() if err != nil && strings.Contains(err.Error(), "use of closed network connection") { // Listening socket has been closed by Stop() return nil } else if err != nil { return fmt.Errorf("failed to accept connection: %v", err) } go func() { if err := ln.handle(conn); err != nil { log.Printf("listener %q: %v", ln.Address, err) } }() } } func (ln *Listener) handle(conn net.Conn) error { defer conn.Close() srv := ln.atomic.Load().(*listenerHandles).Server // TODO: setup timeouts tlsConfig := srv.ACMEConfig.TLSConfig() getConfigForClient := tlsConfig.GetConfigForClient tlsConfig.GetConfigForClient = func(hello *tls.ClientHelloInfo) (*tls.Config, error) { // Call previous GetConfigForClient function, if any var tlsConfig *tls.Config if getConfigForClient != nil { var err error tlsConfig, err = getConfigForClient(hello) if err != nil { return nil, err } } else { tlsConfig = srv.ACMEConfig.TLSConfig() } fe, err := ln.matchFrontend(hello.ServerName) if err != nil { return nil, err } tlsConfig.NextProtos = fe.Protocols return tlsConfig, nil } tlsConn := tls.Server(conn, tlsConfig) if err := tlsConn.Handshake(); err != nil { return err } tlsState := tlsConn.ConnectionState() fe, err := ln.matchFrontend(tlsState.ServerName) if err != nil { return err } return fe.handle(tlsConn, &tlsState) } func (ln *Listener) matchFrontend(serverName string) (*Frontend, error) { fes := ln.atomic.Load().(*listenerHandles).Frontends fe, ok := fes[serverName] if !ok { // Match wildcard certificates, allowing only a single, non-partial // wildcard, in the left-most label i := strings.IndexByte(serverName, '.') // Don't allow wildcards with only a TLD (e.g. *.com) if i >= 0 && strings.IndexByte(serverName[i+1:], '.') >= 0 { fe, ok = fes["*"+serverName[i:]] } } if !ok { fe, ok = fes[""] } if !ok { return nil, fmt.Errorf("can't find frontend for server name %q", serverName) } return fe, nil } type Frontend struct { Backend Backend Protocols []string } func (fe *Frontend) handle(downstream net.Conn, tlsState *tls.ConnectionState) error { defer downstream.Close() be := &fe.Backend upstream, err := net.Dial(be.Network, be.Address) if err != nil { return fmt.Errorf("failed to dial backend: %v", err) } if be.TLSConfig != nil { upstream = tls.Client(upstream, be.TLSConfig) } defer upstream.Close() if be.Proxy { h := proxyproto.HeaderProxyFromAddrs(2, downstream.RemoteAddr(), downstream.LocalAddr()) var tlvs []proxyproto.TLV if tlsState.ServerName != "" { tlvs = append(tlvs, authorityTLV(tlsState.ServerName)) } if tlsState.NegotiatedProtocol != "" { tlvs = append(tlvs, alpnTLV(tlsState.NegotiatedProtocol)) } if tlv, err := sslTLV(tlsState); err != nil { return fmt.Errorf("failed to set PROXY protocol header SSL TLV: %v", err) } else { tlvs = append(tlvs, tlv) } if err := h.SetTLVs(tlvs); err != nil { return fmt.Errorf("failed to set PROXY protocol header TLVs: %v", err) } if _, err := h.WriteTo(upstream); err != nil { return fmt.Errorf("failed to write PROXY protocol header: %v", err) } } return duplexCopy(upstream, downstream) } type Backend struct { Network string Address string Proxy bool TLSConfig *tls.Config // nil if no TLS } func duplexCopy(a, b io.ReadWriter) error { done := make(chan error, 2) go func() { _, err := io.Copy(a, b) done <- err }() go func() { _, err := io.Copy(b, a) done <- err }() return <-done } func authorityTLV(name string) proxyproto.TLV { return proxyproto.TLV{ Type: proxyproto.PP2_TYPE_AUTHORITY, Value: []byte(name), } } func alpnTLV(proto string) proxyproto.TLV { return proxyproto.TLV{ Type: proxyproto.PP2_TYPE_ALPN, Value: []byte(proto), } } func sslTLV(state *tls.ConnectionState) (proxyproto.TLV, error) { pp2ssl := tlvparse.PP2SSL{ Client: tlvparse.PP2_BITFIELD_CLIENT_SSL, // all of our connections are TLS Verify: 1, // we haven't checked the client cert } var version string switch state.Version { case tls.VersionTLS10: version = "TLSv1.0" case tls.VersionTLS11: version = "TLSv1.1" case tls.VersionTLS12: version = "TLSv1.2" case tls.VersionTLS13: version = "TLSv1.3" } if version != "" { versionTLV := proxyproto.TLV{ Type: proxyproto.PP2_SUBTYPE_SSL_VERSION, Value: []byte(version), } pp2ssl.TLV = append(pp2ssl.TLV, versionTLV) } // TODO: add PP2_SUBTYPE_SSL_CIPHER, PP2_SUBTYPE_SSL_SIG_ALG, PP2_SUBTYPE_SSL_KEY_ALG // TODO: check client-provided cert, if any return pp2ssl.Marshal() }