package http import ( "fmt" "html/template" "log" "net/http" "path" "strconv" "strings" "github.com/ncw/rclone/cmd" "github.com/ncw/rclone/fs" "github.com/ncw/rclone/vfs" "github.com/ncw/rclone/vfs/vfsflags" "github.com/spf13/cobra" ) // Globals var ( bindAddress = "localhost:8080" ) func init() { Command.Flags().StringVarP(&bindAddress, "addr", "", bindAddress, "IPaddress:Port to bind server to.") vfsflags.AddFlags(Command.Flags()) } // Command definition for cobra var Command = &cobra.Command{ Use: "http remote:path", Short: `Serve the remote over HTTP.`, Long: `rclone serve http implements a basic web server to serve the remote over HTTP. This can be viewed in a web browser or you can make a remote of type http read from it. 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 the filter flags (eg --include, --exclude) to control what is served. The server will log errors. Use -v to see access logs. --bwlimit will be respected for file transfers. Use --stats to control the stats printing. ` + vfs.Help, Run: func(command *cobra.Command, args []string) { cmd.CheckArgs(1, 1, command, args) f := cmd.NewFsSrc(args) cmd.Run(false, true, command, func() error { s := newServer(f, bindAddress) s.serve() return nil }) }, } // server contains everything to run the server type server struct { f fs.Fs bindAddress string vfs *vfs.VFS } func newServer(f fs.Fs, bindAddress string) *server { s := &server{ f: f, bindAddress: bindAddress, vfs: vfs.New(f, &vfsflags.Opt), } return s } // serve creates the http server func (s *server) serve() { mux := http.NewServeMux() mux.HandleFunc("/", s.handler) // FIXME make a transport? httpServer := &http.Server{ Addr: s.bindAddress, Handler: mux, MaxHeaderBytes: 1 << 20, } initServer(httpServer) fs.Logf(s.f, "Serving on http://%s/", bindAddress) log.Fatal(httpServer.ListenAndServe()) } // handler reads incoming requests and dispatches them func (s *server) handler(w http.ResponseWriter, r *http.Request) { if r.Method != "GET" && r.Method != "HEAD" { http.Error(w, "Method not allowed", http.StatusMethodNotAllowed) return } w.Header().Set("Accept-Ranges", "bytes") w.Header().Set("Server", "rclone/"+fs.Version) urlPath := r.URL.Path isDir := strings.HasSuffix(urlPath, "/") remote := strings.Trim(urlPath, "/") if isDir { s.serveDir(w, r, remote) } else { s.serveFile(w, r, remote) } } // entry is a directory entry type entry struct { remote string URL string Leaf string } // entries represents a directory type entries []entry // indexPage is a directory listing template var indexPage = ` {{ .Title }}

{{ .Title }}

{{ range $i := .Entries }}{{ $i.Leaf }}
{{ end }} ` // indexTemplate is the instantiated indexPage var indexTemplate = template.Must(template.New("index").Parse(indexPage)) // indexData is used to fill in the indexTemplate type indexData struct { Title string Entries entries } // error returns an http.StatusInternalServerError and logs the error func internalError(what interface{}, w http.ResponseWriter, text string, err error) { fs.Stats.Error(err) fs.Errorf(what, "%s: %v", text, err) http.Error(w, text+".", http.StatusInternalServerError) } // serveDir serves a directory index at dirRemote func (s *server) serveDir(w http.ResponseWriter, r *http.Request, dirRemote string) { // List the directory node, err := s.vfs.Stat(dirRemote) if err == vfs.ENOENT { http.Error(w, "Directory not found", http.StatusNotFound) return } else if err != nil { internalError(dirRemote, w, "Failed to list directory", err) return } if !node.IsDir() { http.Error(w, "Not a directory", http.StatusNotFound) return } dir := node.(*vfs.Dir) dirEntries, err := dir.ReadDirAll() if err != nil { internalError(dirRemote, w, "Failed to list directory", err) return } var out entries for _, node := range dirEntries { remote := node.Path() leaf := node.Name() urlRemote := leaf if node.IsDir() { leaf += "/" urlRemote += "/" } out = append(out, entry{remote: remote, URL: urlRemote, Leaf: leaf}) } // Account the transfer fs.Stats.Transferring(dirRemote) defer fs.Stats.DoneTransferring(dirRemote, true) fs.Infof(dirRemote, "%s: Serving directory", r.RemoteAddr) err = indexTemplate.Execute(w, indexData{ Entries: out, Title: fmt.Sprintf("Directory listing of /%s", dirRemote), }) if err != nil { internalError(dirRemote, w, "Failed to render template", err) return } } // serveFile serves a file object at remote func (s *server) serveFile(w http.ResponseWriter, r *http.Request, remote string) { node, err := s.vfs.Stat(remote) if err == vfs.ENOENT { fs.Infof(remote, "%s: File not found", r.RemoteAddr) http.Error(w, "File not found", http.StatusNotFound) return } else if err != nil { internalError(remote, w, "Failed to find file", err) return } if !node.IsFile() { http.Error(w, "Not a file", http.StatusNotFound) return } entry := node.DirEntry() if entry == nil { http.Error(w, "Can't open file being written", http.StatusNotFound) return } obj := entry.(fs.Object) file := node.(*vfs.File) // Set content length since we know how long the object is w.Header().Set("Content-Length", strconv.FormatInt(node.Size(), 10)) // Set content type mimeType := fs.MimeType(obj) if mimeType == "application/octet-stream" && path.Ext(remote) == "" { // Leave header blank so http server guesses } else { w.Header().Set("Content-Type", mimeType) } // If HEAD no need to read the object since we have set the headers if r.Method == "HEAD" { return } // open the object in, err := file.OpenRead() if err != nil { internalError(remote, w, "Failed to open file", err) return } defer func() { err := in.Close() if err != nil { fs.Errorf(remote, "Failed to close file: %v", err) } }() // Account the transfer fs.Stats.Transferring(remote) defer fs.Stats.DoneTransferring(remote, true) // FIXME in = fs.NewAccount(in, obj).WithBuffer() // account the transfer // Serve the file http.ServeContent(w, r, remote, node.ModTime(), in) }