func main() { client.AddFlags() flag.Parse() if *cmdmain.FlagHelp { flag.PrintDefaults() } if *flagVersion { fmt.Fprintf(os.Stderr, "camget version: %s\n", buildinfo.Version()) return } if *cmdmain.FlagLegal { cmdmain.PrintLicenses() return } if *flagGraph && flag.NArg() != 1 { log.Fatalf("The --graph option requires exactly one parameter.") } var cl *client.Client var items []blob.Ref optTransportConfig := client.OptionTransportConfig(&client.TransportConfig{ Verbose: *flagHTTP, }) if *flagShared != "" { if client.ExplicitServer() != "" { log.Fatal("Can't use --shared with an explicit blobserver; blobserver is implicit from the --shared URL.") } if flag.NArg() != 0 { log.Fatal("No arguments permitted when using --shared") } cl1, target, err := client.NewFromShareRoot(*flagShared, client.OptionInsecure(*flagInsecureTLS), client.OptionTrustedCert(*flagTrustedCert), optTransportConfig, ) if err != nil { log.Fatal(err) } cl = cl1 items = append(items, target) } else { if *flagTrustedCert != "" { log.Fatal("Can't use --cert without --shared.") } cl = client.NewOrFail(client.OptionInsecure(*flagInsecureTLS), optTransportConfig) for n := 0; n < flag.NArg(); n++ { arg := flag.Arg(n) br, ok := blob.Parse(arg) if !ok { log.Fatalf("Failed to parse argument %q as a blobref.", arg) } items = append(items, br) } } httpStats := cl.HTTPStats() diskCacheFetcher, err := cacher.NewDiskCache(cl) if err != nil { log.Fatalf("Error setting up local disk cache: %v", err) } defer diskCacheFetcher.Clean() if *flagVerbose { log.Printf("Using temp blob cache directory %s", diskCacheFetcher.Root) } if *flagShared != "" { diskCacheFetcher.SetCacheHitHook(func(br blob.Ref, rc io.ReadCloser) (io.ReadCloser, error) { var buf bytes.Buffer if err := cl.UpdateShareChain(br, io.TeeReader(rc, &buf)); err != nil { rc.Close() return nil, err } return struct { io.Reader io.Closer }{io.MultiReader(&buf, rc), rc}, nil }) } for _, br := range items { if *flagGraph { printGraph(diskCacheFetcher, br) return } if *flagCheck { // TODO: do HEAD requests checking if the blobs exists. log.Fatal("not implemented") return } if *flagOutput == "-" { var rc io.ReadCloser var err error if *flagContents { rc, err = schema.NewFileReader(diskCacheFetcher, br) if err == nil { rc.(*schema.FileReader).LoadAllChunks() } } else { rc, err = fetch(diskCacheFetcher, br) } if err != nil { log.Fatal(err) } defer rc.Close() if _, err := io.Copy(os.Stdout, rc); err != nil { log.Fatalf("Failed reading %q: %v", br, err) } } else { if err := smartFetch(diskCacheFetcher, *flagOutput, br); err != nil { log.Fatal(err) } } } if *flagVerbose { log.Printf("HTTP requests: %d\n", httpStats.Requests()) h1, h2 := httpStats.ProtoVersions() log.Printf(" responses: %d (h1), %d (h2)\n", h1, h2) } }
func main() { var conn *fuse.Conn // Scans the arg list and sets up flags client.AddFlags() flag.Usage = usage flag.Parse() if *cmdmain.FlagLegal { cmdmain.PrintLicenses() return } if *cmdmain.FlagHelp { usage() } narg := flag.NArg() if narg > 2 { usage() } var mountPoint string var err error if narg > 0 { mountPoint = flag.Arg(0) } else { mountPoint, err = ioutil.TempDir("", "cammount") if err != nil { log.Fatal(err) } log.Printf("No mount point given. Using: %s", mountPoint) defer os.Remove(mountPoint) } errorf := func(msg string, args ...interface{}) { fmt.Fprintf(os.Stderr, msg, args...) fmt.Fprint(os.Stderr, "\n") usage() } var ( cl *client.Client root blob.Ref // nil if only one arg camfs *fs.CamliFileSystem ) if narg == 2 { rootArg := flag.Arg(1) // not trying very hard since NewFromShareRoot will do it better with a regex if strings.HasPrefix(rootArg, "http://") || strings.HasPrefix(rootArg, "https://") { if client.ExplicitServer() != "" { errorf("Can't use an explicit blobserver with a share URL; the blobserver is implicit from the share URL.") } var err error cl, root, err = client.NewFromShareRoot(rootArg) if err != nil { log.Fatal(err) } } else { cl = client.NewOrFail() // automatic from flags var ok bool root, ok = blob.Parse(rootArg) if !ok { // not a blobref, check for root name instead req := &search.WithAttrRequest{N: 1, Attr: "camliRoot", Value: rootArg} wres, err := cl.GetPermanodesWithAttr(req) if err != nil { log.Fatal("could not query search") } if wres.WithAttr != nil { root = wres.WithAttr[0].Permanode } else { log.Fatalf("root specified is not a blobref or name of a root: %q\n", rootArg) } } } } else { cl = client.NewOrFail() // automatic from flags } diskCacheFetcher, err := cacher.NewDiskCache(cl) if err != nil { log.Fatalf("Error setting up local disk cache: %v", err) } defer diskCacheFetcher.Clean() if root.Valid() { var err error camfs, err = fs.NewRootedCamliFileSystem(cl, diskCacheFetcher, root) if err != nil { log.Fatalf("Error creating root with %v: %v", root, err) } } else { camfs = fs.NewDefaultCamliFileSystem(cl, diskCacheFetcher) } if *debug { fuse.Debug = func(msg interface{}) { log.Print(msg) } // TODO: set fs's logger } // This doesn't appear to work on OS X: sigc := make(chan os.Signal, 1) conn, err = fuse.Mount(mountPoint, fuse.VolumeName(filepath.Base(mountPoint))) if err != nil { if err == fuse.ErrOSXFUSENotFound { log.Fatal("FUSE not available; install from http://osxfuse.github.io/") } log.Fatalf("Mount: %v", err) } xtermDone := make(chan bool, 1) if *xterm { cmd := exec.Command("xterm") cmd.Dir = mountPoint if err := cmd.Start(); err != nil { log.Printf("Error starting xterm: %v", err) } else { go func() { cmd.Wait() xtermDone <- true }() defer cmd.Process.Kill() } } if *open { if runtime.GOOS == "darwin" { go exec.Command("open", mountPoint).Run() } } if *term { if runtime.GOOS == "darwin" { if osutil.DirExists("/Applications/iTerm.app/") { go exec.Command("open", "-a", "iTerm", mountPoint).Run() } else { log.Printf("TODO: iTerm not installed. Figure out how to open with Terminal.app instead.") } } } signal.Notify(sigc, syscall.SIGQUIT, syscall.SIGTERM, syscall.SIGINT) doneServe := make(chan error, 1) go func() { doneServe <- fusefs.Serve(conn, camfs) }() quitKey := make(chan bool, 1) go awaitQuitKey(quitKey) select { case err := <-doneServe: log.Printf("conn.Serve returned %v", err) // check if the mount process has an error to report <-conn.Ready if err := conn.MountError; err != nil { log.Printf("conn.MountError: %v", err) } case sig := <-sigc: log.Printf("Signal %s received, shutting down.", sig) case <-quitKey: log.Printf("Quit key pressed. Shutting down.") case <-xtermDone: log.Printf("xterm done") } time.AfterFunc(2*time.Second, func() { os.Exit(1) }) log.Printf("Unmounting...") err = fs.Unmount(mountPoint) log.Printf("Unmount = %v", err) log.Printf("cammount FUSE process ending.") }