mirror of
https://github.com/caddyserver/caddy.git
synced 2024-12-01 21:24:23 +08:00
553 lines
16 KiB
Go
553 lines
16 KiB
Go
// Package httpserver implements an HTTP server on top of Caddy.
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package httpserver
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import (
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"crypto/tls"
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"fmt"
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"io"
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"log"
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"net"
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"net/http"
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"os"
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"runtime"
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"strings"
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"sync"
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"time"
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"github.com/lucas-clemente/quic-go/h2quic"
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"github.com/mholt/caddy"
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"github.com/mholt/caddy/caddyhttp/staticfiles"
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"github.com/mholt/caddy/caddytls"
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)
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// Server is the HTTP server implementation.
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type Server struct {
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Server *http.Server
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quicServer *h2quic.Server
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listener net.Listener
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listenerMu sync.Mutex
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sites []*SiteConfig
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connTimeout time.Duration // max time to wait for a connection before force stop
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connWg sync.WaitGroup // one increment per connection
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tlsGovChan chan struct{} // close to stop the TLS maintenance goroutine
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vhosts *vhostTrie
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}
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// ensure it satisfies the interface
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var _ caddy.GracefulServer = new(Server)
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// NewServer creates a new Server instance that will listen on addr
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// and will serve the sites configured in group.
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func NewServer(addr string, group []*SiteConfig) (*Server, error) {
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s := &Server{
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Server: makeHTTPServer(addr, group),
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vhosts: newVHostTrie(),
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sites: group,
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connTimeout: GracefulTimeout,
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}
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s.Server.Handler = s // this is weird, but whatever
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s.Server.ConnState = func(c net.Conn, cs http.ConnState) {
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if cs == http.StateIdle {
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s.listenerMu.Lock()
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// server stopped, close idle connection
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if s.listener == nil {
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c.Close()
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}
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s.listenerMu.Unlock()
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}
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}
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// Disable HTTP/2 if desired
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if !HTTP2 {
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s.Server.TLSNextProto = make(map[string]func(*http.Server, *tls.Conn, http.Handler))
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}
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// Enable QUIC if desired
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if QUIC {
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s.quicServer = &h2quic.Server{Server: s.Server}
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s.Server.Handler = s.wrapWithSvcHeaders(s.Server.Handler)
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}
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// We have to bound our wg with one increment
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// to prevent a "race condition" that is hard-coded
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// into sync.WaitGroup.Wait() - basically, an add
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// with a positive delta must be guaranteed to
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// occur before Wait() is called on the wg.
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// In a way, this kind of acts as a safety barrier.
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s.connWg.Add(1)
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// Set up TLS configuration
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var tlsConfigs []*caddytls.Config
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for _, site := range group {
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tlsConfigs = append(tlsConfigs, site.TLS)
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}
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var err error
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s.Server.TLSConfig, err = caddytls.MakeTLSConfig(tlsConfigs)
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if err != nil {
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return nil, err
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}
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// As of Go 1.7, HTTP/2 is enabled only if NextProtos includes the string "h2"
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if HTTP2 && s.Server.TLSConfig != nil && len(s.Server.TLSConfig.NextProtos) == 0 {
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s.Server.TLSConfig.NextProtos = []string{"h2"}
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}
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// Compile custom middleware for every site (enables virtual hosting)
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for _, site := range group {
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stack := Handler(staticfiles.FileServer{Root: http.Dir(site.Root), Hide: site.HiddenFiles})
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for i := len(site.middleware) - 1; i >= 0; i-- {
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stack = site.middleware[i](stack)
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}
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site.middlewareChain = stack
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s.vhosts.Insert(site.Addr.VHost(), site)
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}
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return s, nil
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}
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func (s *Server) wrapWithSvcHeaders(previousHandler http.Handler) http.HandlerFunc {
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return func(w http.ResponseWriter, r *http.Request) {
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s.quicServer.SetQuicHeaders(w.Header())
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previousHandler.ServeHTTP(w, r)
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}
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}
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// Listen creates an active listener for s that can be
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// used to serve requests.
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func (s *Server) Listen() (net.Listener, error) {
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if s.Server == nil {
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return nil, fmt.Errorf("Server field is nil")
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}
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ln, err := net.Listen("tcp", s.Server.Addr)
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if err != nil {
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var succeeded bool
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if runtime.GOOS == "windows" {
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// Windows has been known to keep sockets open even after closing the listeners.
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// Tests reveal this error case easily because they call Start() then Stop()
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// in succession. TODO: Better way to handle this? And why limit this to Windows?
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for i := 0; i < 20; i++ {
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time.Sleep(100 * time.Millisecond)
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ln, err = net.Listen("tcp", s.Server.Addr)
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if err == nil {
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succeeded = true
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break
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}
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}
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}
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if !succeeded {
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return nil, err
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}
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}
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// Very important to return a concrete caddy.Listener
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// implementation for graceful restarts.
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return ln.(*net.TCPListener), nil
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}
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// ListenPacket is a noop to implement the Server interface.
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func (s *Server) ListenPacket() (net.PacketConn, error) { return nil, nil }
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// Serve serves requests on ln. It blocks until ln is closed.
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func (s *Server) Serve(ln net.Listener) error {
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if tcpLn, ok := ln.(*net.TCPListener); ok {
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ln = tcpKeepAliveListener{TCPListener: tcpLn}
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}
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ln = newGracefulListener(ln, &s.connWg)
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s.listenerMu.Lock()
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s.listener = ln
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s.listenerMu.Unlock()
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if s.Server.TLSConfig != nil {
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// Create TLS listener - note that we do not replace s.listener
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// with this TLS listener; tls.listener is unexported and does
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// not implement the File() method we need for graceful restarts
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// on POSIX systems.
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// TODO: Is this ^ still relevant anymore? Maybe we can now that it's a net.Listener...
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ln = tls.NewListener(ln, s.Server.TLSConfig)
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// Rotate TLS session ticket keys
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s.tlsGovChan = caddytls.RotateSessionTicketKeys(s.Server.TLSConfig)
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}
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if QUIC {
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go func() {
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err := s.quicServer.ListenAndServe()
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if err != nil {
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log.Printf("[ERROR] listening for QUIC connections: %v", err)
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}
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}()
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}
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err := s.Server.Serve(ln)
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if QUIC {
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s.quicServer.Close()
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}
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return err
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}
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// ServePacket is a noop to implement the Server interface.
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func (s *Server) ServePacket(pc net.PacketConn) error { return nil }
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// ServeHTTP is the entry point of all HTTP requests.
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func (s *Server) ServeHTTP(w http.ResponseWriter, r *http.Request) {
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defer func() {
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// We absolutely need to be sure we stay alive up here,
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// even though, in theory, the errors middleware does this.
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if rec := recover(); rec != nil {
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log.Printf("[PANIC] %v", rec)
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DefaultErrorFunc(w, r, http.StatusInternalServerError)
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}
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}()
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w.Header().Set("Server", "Caddy")
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sanitizePath(r)
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status, _ := s.serveHTTP(w, r)
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// Fallback error response in case error handling wasn't chained in
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if status >= 400 {
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DefaultErrorFunc(w, r, status)
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}
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}
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func (s *Server) serveHTTP(w http.ResponseWriter, r *http.Request) (int, error) {
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// strip out the port because it's not used in virtual
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// hosting; the port is irrelevant because each listener
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// is on a different port.
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hostname, _, err := net.SplitHostPort(r.Host)
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if err != nil {
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hostname = r.Host
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}
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// look up the virtualhost; if no match, serve error
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vhost, pathPrefix := s.vhosts.Match(hostname + r.URL.Path)
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if vhost == nil {
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// check for ACME challenge even if vhost is nil;
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// could be a new host coming online soon
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if caddytls.HTTPChallengeHandler(w, r, "localhost", caddytls.DefaultHTTPAlternatePort) {
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return 0, nil
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}
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// otherwise, log the error and write a message to the client
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remoteHost, _, err := net.SplitHostPort(r.RemoteAddr)
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if err != nil {
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remoteHost = r.RemoteAddr
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}
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WriteTextResponse(w, http.StatusNotFound, "No such site at "+s.Server.Addr)
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log.Printf("[INFO] %s - No such site at %s (Remote: %s, Referer: %s)",
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hostname, s.Server.Addr, remoteHost, r.Header.Get("Referer"))
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return 0, nil
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}
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// we still check for ACME challenge if the vhost exists,
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// because we must apply its HTTP challenge config settings
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if s.proxyHTTPChallenge(vhost, w, r) {
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return 0, nil
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}
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// trim the path portion of the site address from the beginning of
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// the URL path, so a request to example.com/foo/blog on the site
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// defined as example.com/foo appears as /blog instead of /foo/blog.
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if pathPrefix != "/" {
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r.URL.Path = strings.TrimPrefix(r.URL.Path, pathPrefix)
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if !strings.HasPrefix(r.URL.Path, "/") {
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r.URL.Path = "/" + r.URL.Path
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}
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}
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// Apply the path-based request body size limit
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// The error returned by MaxBytesReader is meant to be handled
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// by whichever middleware/plugin that receives it when calling
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// .Read() or a similar method on the request body
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if r.Body != nil {
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for _, pathlimit := range vhost.MaxRequestBodySizes {
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if Path(r.URL.Path).Matches(pathlimit.Path) {
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r.Body = MaxBytesReader(w, r.Body, pathlimit.Limit)
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break
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}
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}
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}
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return vhost.middlewareChain.ServeHTTP(w, r)
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}
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// proxyHTTPChallenge solves the ACME HTTP challenge if r is the HTTP
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// request for the challenge. If it is, and if the request has been
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// fulfilled (response written), true is returned; false otherwise.
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// If you don't have a vhost, just call the challenge handler directly.
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func (s *Server) proxyHTTPChallenge(vhost *SiteConfig, w http.ResponseWriter, r *http.Request) bool {
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if vhost.Addr.Port != caddytls.HTTPChallengePort {
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return false
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}
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if vhost.TLS != nil && vhost.TLS.Manual {
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return false
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}
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altPort := caddytls.DefaultHTTPAlternatePort
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if vhost.TLS != nil && vhost.TLS.AltHTTPPort != "" {
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altPort = vhost.TLS.AltHTTPPort
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}
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return caddytls.HTTPChallengeHandler(w, r, vhost.ListenHost, altPort)
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}
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// Address returns the address s was assigned to listen on.
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func (s *Server) Address() string {
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return s.Server.Addr
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}
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// Stop stops s gracefully (or forcefully after timeout) and
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// closes its listener.
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func (s *Server) Stop() (err error) {
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s.Server.SetKeepAlivesEnabled(false)
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if runtime.GOOS != "windows" {
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// force connections to close after timeout
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done := make(chan struct{})
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go func() {
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s.connWg.Done() // decrement our initial increment used as a barrier
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s.connWg.Wait()
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close(done)
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}()
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// Wait for remaining connections to finish or
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// force them all to close after timeout
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select {
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case <-time.After(s.connTimeout):
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case <-done:
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}
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}
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// Close the listener now; this stops the server without delay
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s.listenerMu.Lock()
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if s.listener != nil {
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err = s.listener.Close()
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s.listener = nil
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}
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s.listenerMu.Unlock()
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// Closing this signals any TLS governor goroutines to exit
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if s.tlsGovChan != nil {
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close(s.tlsGovChan)
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}
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return
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}
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// sanitizePath collapses any ./ ../ /// madness
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// which helps prevent path traversal attacks.
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// Note to middleware: use URL.RawPath If you need
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// the "original" URL.Path value.
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func sanitizePath(r *http.Request) {
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if r.URL.Path == "/" {
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return
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}
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cleanedPath := CleanPath(r.URL.Path)
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if cleanedPath == "." {
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r.URL.Path = "/"
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} else {
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if !strings.HasPrefix(cleanedPath, "/") {
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cleanedPath = "/" + cleanedPath
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}
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if strings.HasSuffix(r.URL.Path, "/") && !strings.HasSuffix(cleanedPath, "/") {
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cleanedPath = cleanedPath + "/"
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}
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r.URL.Path = cleanedPath
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}
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}
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// OnStartupComplete lists the sites served by this server
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// and any relevant information, assuming caddy.Quiet == false.
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func (s *Server) OnStartupComplete() {
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if caddy.Quiet {
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return
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}
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for _, site := range s.sites {
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output := site.Addr.String()
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if caddy.IsLoopback(s.Address()) && !caddy.IsLoopback(site.Addr.Host) {
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output += " (only accessible on this machine)"
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}
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fmt.Println(output)
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log.Println(output)
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}
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}
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// defaultTimeouts stores the default timeout values to use
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// if left unset by user configuration. Default timeouts,
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// especially for ReadTimeout, are important for mitigating
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// slowloris attacks.
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var defaultTimeouts = Timeouts{
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ReadTimeout: 10 * time.Second,
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ReadHeaderTimeout: 10 * time.Second,
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WriteTimeout: 20 * time.Second,
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IdleTimeout: 2 * time.Minute,
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}
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// makeHTTPServer makes an http.Server from the group of configs
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// in a way that configures timeouts (or, if not set, it uses the
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// default timeouts) and other http.Server properties by combining
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// the configuration of each SiteConfig in the group. (Timeouts
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// are important for mitigating slowloris attacks.)
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func makeHTTPServer(addr string, group []*SiteConfig) *http.Server {
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s := &http.Server{Addr: addr}
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// find the minimum duration configured for each timeout
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var min Timeouts
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for _, cfg := range group {
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if cfg.Timeouts.ReadTimeoutSet &&
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(!min.ReadTimeoutSet || cfg.Timeouts.ReadTimeout < min.ReadTimeout) {
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min.ReadTimeoutSet = true
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min.ReadTimeout = cfg.Timeouts.ReadTimeout
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}
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if cfg.Timeouts.ReadHeaderTimeoutSet &&
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(!min.ReadHeaderTimeoutSet || cfg.Timeouts.ReadHeaderTimeout < min.ReadHeaderTimeout) {
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min.ReadHeaderTimeoutSet = true
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min.ReadHeaderTimeout = cfg.Timeouts.ReadHeaderTimeout
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}
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if cfg.Timeouts.WriteTimeoutSet &&
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(!min.WriteTimeoutSet || cfg.Timeouts.WriteTimeout < min.WriteTimeout) {
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min.WriteTimeoutSet = true
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min.WriteTimeout = cfg.Timeouts.WriteTimeout
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}
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if cfg.Timeouts.IdleTimeoutSet &&
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(!min.IdleTimeoutSet || cfg.Timeouts.IdleTimeout < min.IdleTimeout) {
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min.IdleTimeoutSet = true
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min.IdleTimeout = cfg.Timeouts.IdleTimeout
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}
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}
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// for the values that were not set, use defaults
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if !min.ReadTimeoutSet {
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min.ReadTimeout = defaultTimeouts.ReadTimeout
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}
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if !min.ReadHeaderTimeoutSet {
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min.ReadHeaderTimeout = defaultTimeouts.ReadHeaderTimeout
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}
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if !min.WriteTimeoutSet {
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min.WriteTimeout = defaultTimeouts.WriteTimeout
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}
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if !min.IdleTimeoutSet {
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min.IdleTimeout = defaultTimeouts.IdleTimeout
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}
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// set the final values on the server
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// TODO: ReadHeaderTimeout and IdleTimeout require Go 1.8
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s.ReadTimeout = min.ReadTimeout
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// s.ReadHeaderTimeout = min.ReadHeaderTimeout
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s.WriteTimeout = min.WriteTimeout
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// s.IdleTimeout = min.IdleTimeout
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return s
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}
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// tcpKeepAliveListener sets TCP keep-alive timeouts on accepted
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// connections. It's used by ListenAndServe and ListenAndServeTLS so
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// dead TCP connections (e.g. closing laptop mid-download) eventually
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// go away.
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//
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// Borrowed from the Go standard library.
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type tcpKeepAliveListener struct {
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*net.TCPListener
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}
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// Accept accepts the connection with a keep-alive enabled.
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func (ln tcpKeepAliveListener) Accept() (c net.Conn, err error) {
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tc, err := ln.AcceptTCP()
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if err != nil {
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return
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}
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tc.SetKeepAlive(true)
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tc.SetKeepAlivePeriod(3 * time.Minute)
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return tc, nil
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}
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// File implements caddy.Listener; it returns the underlying file of the listener.
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func (ln tcpKeepAliveListener) File() (*os.File, error) {
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return ln.TCPListener.File()
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}
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// MaxBytesExceeded is the error type returned by MaxBytesReader
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// when the request body exceeds the limit imposed
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type MaxBytesExceeded struct{}
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func (err MaxBytesExceeded) Error() string {
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return "http: request body too large"
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}
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// MaxBytesReader and its associated methods are borrowed from the
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// Go Standard library (comments intact). The only difference is that
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// it returns a MaxBytesExceeded error instead of a generic error message
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// when the request body has exceeded the requested limit
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func MaxBytesReader(w http.ResponseWriter, r io.ReadCloser, n int64) io.ReadCloser {
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return &maxBytesReader{w: w, r: r, n: n}
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}
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type maxBytesReader struct {
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w http.ResponseWriter
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r io.ReadCloser // underlying reader
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n int64 // max bytes remaining
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err error // sticky error
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}
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func (l *maxBytesReader) Read(p []byte) (n int, err error) {
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if l.err != nil {
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return 0, l.err
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}
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if len(p) == 0 {
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return 0, nil
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}
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// If they asked for a 32KB byte read but only 5 bytes are
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// remaining, no need to read 32KB. 6 bytes will answer the
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// question of the whether we hit the limit or go past it.
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if int64(len(p)) > l.n+1 {
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p = p[:l.n+1]
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}
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n, err = l.r.Read(p)
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if int64(n) <= l.n {
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l.n -= int64(n)
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l.err = err
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return n, err
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}
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|
|
|
n = int(l.n)
|
|
l.n = 0
|
|
|
|
// The server code and client code both use
|
|
// maxBytesReader. This "requestTooLarge" check is
|
|
// only used by the server code. To prevent binaries
|
|
// which only using the HTTP Client code (such as
|
|
// cmd/go) from also linking in the HTTP server, don't
|
|
// use a static type assertion to the server
|
|
// "*response" type. Check this interface instead:
|
|
type requestTooLarger interface {
|
|
requestTooLarge()
|
|
}
|
|
if res, ok := l.w.(requestTooLarger); ok {
|
|
res.requestTooLarge()
|
|
}
|
|
l.err = MaxBytesExceeded{}
|
|
return n, l.err
|
|
}
|
|
|
|
func (l *maxBytesReader) Close() error {
|
|
return l.r.Close()
|
|
}
|
|
|
|
// DefaultErrorFunc responds to an HTTP request with a simple description
|
|
// of the specified HTTP status code.
|
|
func DefaultErrorFunc(w http.ResponseWriter, r *http.Request, status int) {
|
|
WriteTextResponse(w, status, fmt.Sprintf("%d %s\n", status, http.StatusText(status)))
|
|
}
|
|
|
|
// WriteTextResponse writes body with code status to w. The body will
|
|
// be interpreted as plain text.
|
|
func WriteTextResponse(w http.ResponseWriter, status int, body string) {
|
|
w.Header().Set("Content-Type", "text/plain; charset=utf-8")
|
|
w.Header().Set("X-Content-Type-Options", "nosniff")
|
|
w.WriteHeader(status)
|
|
w.Write([]byte(body))
|
|
}
|