// Package http provides a registration interface for http services package http import ( "context" "crypto/tls" "crypto/x509" "errors" "fmt" "io/ioutil" "log" "net" "net/http" "strings" "sync" "time" "github.com/go-chi/chi/v5" "github.com/rclone/rclone/fs/config/flags" "github.com/spf13/pflag" ) // Help contains text describing the http server to add to the command // help. var Help = ` ### Server options Use --addr to specify which IP address and port the server should listen on, eg --addr 1.2.3.4:8000 or --addr :8080 to listen to all IPs. By default it only listens on localhost. You can use port :0 to let the OS choose an available port. If you set --addr to listen on a public or LAN accessible IP address then using Authentication is advised - see the next section for info. --server-read-timeout and --server-write-timeout can be used to control the timeouts on the server. Note that this is the total time for a transfer. --max-header-bytes controls the maximum number of bytes the server will accept in the HTTP header. --baseurl controls the URL prefix that rclone serves from. By default rclone will serve from the root. If you used --baseurl "/rclone" then rclone would serve from a URL starting with "/rclone/". This is useful if you wish to proxy rclone serve. Rclone automatically inserts leading and trailing "/" on --baseurl, so --baseurl "rclone", --baseurl "/rclone" and --baseurl "/rclone/" are all treated identically. #### SSL/TLS By default this will serve over http. If you want you can serve over https. You will need to supply the --cert and --key flags. If you wish to do client side certificate validation then you will need to supply --client-ca also. --cert should be a either a PEM encoded certificate or a concatenation of that with the CA certificate. --key should be the PEM encoded private key and --client-ca should be the PEM encoded client certificate authority certificate. ` // Middleware function signature required by chi.Router.Use() type Middleware func(http.Handler) http.Handler // Options contains options for the http Server type Options struct { ListenAddr string // Port to listen on BaseURL string // prefix to strip from URLs ServerReadTimeout time.Duration // Timeout for server reading data ServerWriteTimeout time.Duration // Timeout for server writing data MaxHeaderBytes int // Maximum size of request header SslCert string // Path to SSL PEM key (concatenation of certificate and CA certificate) SslKey string // Path to SSL PEM Private key SslCertBody []byte // SSL PEM key (concatenation of certificate and CA certificate) body, ignores SslCert SslKeyBody []byte // SSL PEM Private key body, ignores SslKey ClientCA string // Client certificate authority to verify clients with } // DefaultOpt is the default values used for Options var DefaultOpt = Options{ ListenAddr: "127.0.0.1:8080", ServerReadTimeout: 1 * time.Hour, ServerWriteTimeout: 1 * time.Hour, MaxHeaderBytes: 4096, } // Server interface of http server type Server interface { Router() chi.Router Route(pattern string, fn func(r chi.Router)) chi.Router Mount(pattern string, h http.Handler) Shutdown() error } type server struct { addrs []net.Addr tlsAddrs []net.Addr listeners []net.Listener tlsListeners []net.Listener httpServer *http.Server baseRouter chi.Router closing *sync.WaitGroup useSSL bool } var ( defaultServer *server defaultServerOptions = DefaultOpt defaultServerMutex sync.Mutex ) func useSSL(opt Options) bool { return opt.SslKey != "" || len(opt.SslKeyBody) > 0 } // NewServer instantiates a new http server using provided listeners and options // This function is provided if the default http server does not meet a services requirements and should not generally be used // A http server can listen using multiple listeners. For example, a listener for port 80, and a listener for port 443. // tlsListeners are ignored if opt.SslKey is not provided func NewServer(listeners, tlsListeners []net.Listener, opt Options) (Server, error) { // Validate input if len(listeners) == 0 && len(tlsListeners) == 0 { return nil, errors.New("Can't create server without listeners") } // Prepare TLS config var tlsConfig *tls.Config useSSL := useSSL(opt) if (len(opt.SslCertBody) > 0) != (len(opt.SslKeyBody) > 0) { err := errors.New("Need both SslCertBody and SslKeyBody to use SSL") log.Fatalf(err.Error()) return nil, err } if (opt.SslCert != "") != (opt.SslKey != "") { err := errors.New("Need both -cert and -key to use SSL") log.Fatalf(err.Error()) return nil, err } if useSSL { var cert tls.Certificate var err error if len(opt.SslCertBody) > 0 { cert, err = tls.X509KeyPair(opt.SslCertBody, opt.SslKeyBody) } else { cert, err = tls.LoadX509KeyPair(opt.SslCert, opt.SslKey) } if err != nil { log.Fatal(err) } tlsConfig = &tls.Config{ MinVersion: tls.VersionTLS10, // disable SSL v3.0 and earlier Certificates: []tls.Certificate{cert}, } } else if len(listeners) == 0 && len(tlsListeners) != 0 { return nil, errors.New("No SslKey or non-tlsListeners") } if opt.ClientCA != "" { if !useSSL { err := errors.New("Can't use --client-ca without --cert and --key") log.Fatalf(err.Error()) return nil, err } certpool := x509.NewCertPool() pem, err := ioutil.ReadFile(opt.ClientCA) if err != nil { log.Fatalf("Failed to read client certificate authority: %v", err) return nil, err } if !certpool.AppendCertsFromPEM(pem) { err := errors.New("Can't parse client certificate authority") log.Fatalf(err.Error()) return nil, err } tlsConfig.ClientCAs = certpool tlsConfig.ClientAuth = tls.RequireAndVerifyClientCert } // Ignore passing "/" for BaseURL opt.BaseURL = strings.Trim(opt.BaseURL, "/") if opt.BaseURL != "" { opt.BaseURL = "/" + opt.BaseURL } // Build base router var router chi.Router = chi.NewRouter() router.MethodNotAllowed(func(w http.ResponseWriter, _ *http.Request) { http.Error(w, http.StatusText(http.StatusMethodNotAllowed), http.StatusMethodNotAllowed) }) router.NotFound(func(w http.ResponseWriter, _ *http.Request) { http.Error(w, http.StatusText(http.StatusNotFound), http.StatusNotFound) }) handler := router.(http.Handler) if opt.BaseURL != "" { handler = http.StripPrefix(opt.BaseURL, handler) } // Serve on listeners httpServer := &http.Server{ Handler: handler, ReadTimeout: opt.ServerReadTimeout, WriteTimeout: opt.ServerWriteTimeout, MaxHeaderBytes: opt.MaxHeaderBytes, ReadHeaderTimeout: 10 * time.Second, // time to send the headers IdleTimeout: 60 * time.Second, // time to keep idle connections open TLSConfig: tlsConfig, } addrs, tlsAddrs := make([]net.Addr, len(listeners)), make([]net.Addr, len(tlsListeners)) wg := &sync.WaitGroup{} for i, l := range listeners { addrs[i] = l.Addr() } if useSSL { for i, l := range tlsListeners { tlsAddrs[i] = l.Addr() } } return &server{addrs, tlsAddrs, listeners, tlsListeners, httpServer, router, wg, useSSL}, nil } func (s *server) Serve() { serve := func(l net.Listener, tls bool) { defer s.closing.Done() var err error if tls { err = s.httpServer.ServeTLS(l, "", "") } else { err = s.httpServer.Serve(l) } if err != http.ErrServerClosed && err != nil { log.Fatalf(err.Error()) } } s.closing.Add(len(s.listeners)) for _, l := range s.listeners { go serve(l, false) } if s.useSSL { s.closing.Add(len(s.tlsListeners)) for _, l := range s.tlsListeners { go serve(l, true) } } } // Wait blocks while the server is serving requests func (s *server) Wait() { s.closing.Wait() } // Router returns the server base router func (s *server) Router() chi.Router { return s.baseRouter } // Route mounts a sub-Router along a `pattern` string. func (s *server) Route(pattern string, fn func(r chi.Router)) chi.Router { return s.baseRouter.Route(pattern, fn) } // Mount attaches another http.Handler along ./pattern/* func (s *server) Mount(pattern string, h http.Handler) { s.baseRouter.Mount(pattern, h) } // Shutdown gracefully shuts down the server func (s *server) Shutdown() error { if err := s.httpServer.Shutdown(context.Background()); err != nil { return err } s.closing.Wait() return nil } //---- Default HTTP server convenience functions ---- // Router returns the server base router func Router() (chi.Router, error) { if err := start(); err != nil { return nil, err } return defaultServer.baseRouter, nil } // Route mounts a sub-Router along a `pattern` string. func Route(pattern string, fn func(r chi.Router)) (chi.Router, error) { if err := start(); err != nil { return nil, err } return defaultServer.Route(pattern, fn), nil } // Mount attaches another http.Handler along ./pattern/* func Mount(pattern string, h http.Handler) error { if err := start(); err != nil { return err } defaultServer.Mount(pattern, h) return nil } // Restart or start the default http server using the default options and no handlers func Restart() error { if e := Shutdown(); e != nil { return e } return start() } // Wait blocks while the default http server is serving requests func Wait() { defaultServer.Wait() } // Start the default server func start() error { defaultServerMutex.Lock() defer defaultServerMutex.Unlock() if defaultServer != nil { // Server already started, do nothing return nil } var err error var l net.Listener l, err = net.Listen("tcp", defaultServerOptions.ListenAddr) if err != nil { return err } var s Server if useSSL(defaultServerOptions) { s, err = NewServer([]net.Listener{}, []net.Listener{l}, defaultServerOptions) } else { s, err = NewServer([]net.Listener{l}, []net.Listener{}, defaultServerOptions) } if err != nil { return err } defaultServer = s.(*server) defaultServer.Serve() return nil } // Shutdown gracefully shuts down the default http server func Shutdown() error { defaultServerMutex.Lock() defer defaultServerMutex.Unlock() if defaultServer != nil { s := defaultServer defaultServer = nil return s.Shutdown() } return nil } // GetOptions thread safe getter for the default server options func GetOptions() Options { defaultServerMutex.Lock() defer defaultServerMutex.Unlock() return defaultServerOptions } // SetOptions thread safe setter for the default server options func SetOptions(opt Options) { defaultServerMutex.Lock() defer defaultServerMutex.Unlock() defaultServerOptions = opt } //---- Utility functions ---- // URL of default http server func URL() string { if defaultServer == nil { panic("Server not running") } for _, a := range defaultServer.addrs { return fmt.Sprintf("http://%s%s/", a.String(), defaultServerOptions.BaseURL) } for _, a := range defaultServer.tlsAddrs { return fmt.Sprintf("https://%s%s/", a.String(), defaultServerOptions.BaseURL) } panic("Server is running with no listener") } //---- Command line flags ---- // AddFlagsPrefix adds flags for the httplib func AddFlagsPrefix(flagSet *pflag.FlagSet, prefix string, Opt *Options) { flags.StringVarP(flagSet, &Opt.ListenAddr, prefix+"addr", "", Opt.ListenAddr, "IPaddress:Port or :Port to bind server to") flags.DurationVarP(flagSet, &Opt.ServerReadTimeout, prefix+"server-read-timeout", "", Opt.ServerReadTimeout, "Timeout for server reading data") flags.DurationVarP(flagSet, &Opt.ServerWriteTimeout, prefix+"server-write-timeout", "", Opt.ServerWriteTimeout, "Timeout for server writing data") flags.IntVarP(flagSet, &Opt.MaxHeaderBytes, prefix+"max-header-bytes", "", Opt.MaxHeaderBytes, "Maximum size of request header") flags.StringVarP(flagSet, &Opt.SslCert, prefix+"cert", "", Opt.SslCert, "SSL PEM key (concatenation of certificate and CA certificate)") flags.StringVarP(flagSet, &Opt.SslKey, prefix+"key", "", Opt.SslKey, "SSL PEM Private key") flags.StringVarP(flagSet, &Opt.ClientCA, prefix+"client-ca", "", Opt.ClientCA, "Client certificate authority to verify clients with") flags.StringVarP(flagSet, &Opt.BaseURL, prefix+"baseurl", "", Opt.BaseURL, "Prefix for URLs - leave blank for root") } // AddFlags adds flags for the httplib func AddFlags(flagSet *pflag.FlagSet) { AddFlagsPrefix(flagSet, "", &defaultServerOptions) }