func pcreate(args []string) (err error) { n := lib.Node{} var filename string if ne(conf.Flags["full"]) { filename = (*conf.Flags["full"]) } else { helpf("pcreate requires file path: -full=<u>") } var filesize int64 fh, err := os.Open(filename) if err != nil { handleString(fmt.Sprintf("Error open file: %s\n", err.Error())) } if fi, _ := fh.Stat(); err == nil { filesize = fi.Size() } chunks := int(filesize / (conf.CHUNK_SIZE)) if filesize%conf.CHUNK_SIZE != 0 { chunks += 1 } if chunks == 1 { opts := lib.Opts{} opts["upload_type"] = "full" opts["full"] = filename if err := n.Create(opts); err != nil { handleString(fmt.Sprintf("Error creating node: %s\n", err.Error())) } else { n.PP() } } else { threads, _ := strconv.Atoi(*conf.Flags["threads"]) if threads == 0 { threads = 1 } //create node opts := lib.Opts{} opts["upload_type"] = "parts" opts["parts"] = strconv.Itoa(chunks) if err := n.Create(opts); err != nil { handleString(fmt.Sprintf("Error creating node: %s\n", err.Error())) } workers := pool.New(threads) workers.Run() for i := 0; i < chunks; i++ { size := int64(conf.CHUNK_SIZE) if size*(int64(i)+1) > filesize { size = filesize - size*(int64(i)) } workers.Add(uploader, n, (i + 1), fh, size) } workers.Wait() maxRetries := 10 for i := 1; i <= maxRetries; i++ { errCount := 0 completed_jobs := workers.Results() for _, job := range completed_jobs { if job.Result != nil { err := job.Result.(error) println("Chunk", job.Args[1].(int), "error:", err.Error()) workers.Add(job.F, job.Args...) errCount++ } } if errCount == 0 { println("All chunks successfully upload.") break } else { println("Retry", i, "of", maxRetries) workers.Wait() } } workers.Stop() n.Get() n.PP() } return }
func main() { if len(os.Args) == 1 || os.Args[1] == "help" { helpf("") } cmd := os.Args[1] args := conf.Initialize(os.Args[2:]) setToken(false) switch cmd { case "create", "update": n := lib.Node{} if cmd == "update" { if len(args) != 1 { helpf("update requires <id>") } else { n.Id = args[0] } } opts := lib.Opts{} if ne(conf.Flags["attributes"]) { opts["attributes"] = (*conf.Flags["attributes"]) } if t, err := fileOptions(conf.Flags); err != nil { helpf(err.Error()) } else { if t == "part" { if cmd == "create" { helpf("part option only usable with update") } if !ne(conf.Flags["file"]) { helpf("part option requires file") } opts["upload_type"] = t opts["part"] = (*conf.Flags["part"]) opts["file"] = (*conf.Flags["file"]) if err := n.Update(opts); err != nil { handleString(fmt.Sprintf("Error updating %s: %s\n", n.Id, err.Error())) } else { n.PP() } } else { if t != "" { opts["upload_type"] = t opts[t] = (*conf.Flags[t]) if cmd == "create" { if err := n.Create(opts); err != nil { handleString(fmt.Sprintf("Error creating node: %s\n", err.Error())) } else { n.PP() } } else { if err := n.Update(opts); err != nil { handleString(fmt.Sprintf("Error updating %s: %s\n", n.Id, err.Error())) } else { n.PP() } } } else { if err := n.Create(opts); err != nil { handleString(fmt.Sprintf("Error creating node: %s\n", err.Error())) } else { n.PP() } } } } case "pcreate": pcreate(args) case "get": if len(args) != 1 { helpf("get requires <id>") } n := lib.Node{Id: args[0]} if err := n.Get(); err != nil { fmt.Printf("Error retrieving %s: %s\n", n.Id, err.Error()) } else { n.PP() } case "download": if len(args) < 1 { helpf("download requires <id>") } index := conf.Flags["index"] parts := conf.Flags["parts"] indexOptions := conf.Flags["index_options"] opts := lib.Opts{} if ne(index) || ne(parts) || ne(indexOptions) { if ne(index) && ne(parts) { opts["index"] = (*index) opts["parts"] = (*parts) if ne(indexOptions) { opts["index_options"] = (*indexOptions) } } else { helpf("index and parts options must be used together") } } n := lib.Node{Id: args[0]} if ih, err := n.Download(opts); err != nil { fmt.Printf("Error downloading %s: %s\n", n.Id, err.Error()) } else { if len(args) == 3 { if oh, err := os.Create(args[1]); err == nil { if s, err := io.Copy(oh, ih); err != nil { handleString(fmt.Sprintf("Error writing output: %s\n", err.Error())) } else { fmt.Printf("Success. Wrote %d bytes\n", s) } } else { handleString(fmt.Sprintf("Error writing output: %s\n", err.Error())) } } else { io.Copy(os.Stdout, ih) } } case "pdownload": if len(args) < 1 { helpf("pdownload requires <id>") } n := lib.Node{Id: args[0]} if err := n.Get(); err != nil { handleString(fmt.Sprintf("Error retrieving %s: %s\n", n.Id, err.Error())) } totalChunk := int(n.File.Size / conf.CHUNK_SIZE) m := n.File.Size % conf.CHUNK_SIZE if m != 0 { totalChunk += 1 } if totalChunk < 1 { totalChunk = 1 } splits := conf.DOWNLOAD_THREADS if ne(conf.Flags["threads"]) { if th, err := strconv.Atoi(*conf.Flags["threads"]); err == nil { splits = th } } if totalChunk < splits { splits = totalChunk } fmt.Printf("downloading using %d threads\n", splits) var filename string if len(args) == 2 { filename = args[1] } else { filename = n.Id } oh, err := os.Create(filename) if err != nil { handleString(fmt.Sprintf("Error creating output file %s: %s\n", filename, err.Error())) return } oh.Close() ch := make(chan int, 1) split_size := totalChunk / splits remainder := totalChunk % splits //splitting, if total chunk is 10, each split will have 3,3,2,2 chunks respectively for i := 0; i < splits; i++ { var start, end int if i < remainder { start = (split_size+1)*i + 1 end = start + split_size } else { start = (split_size+1)*remainder + split_size*(i-remainder) + 1 end = start + split_size - 1 } part_string := fmt.Sprintf("%d-%d", start, end) opts := lib.Opts{} opts["index"] = "size" opts["parts"] = part_string opts["index_options"] = fmt.Sprintf("chunk_size=%d", conf.CHUNK_SIZE) start_offset := (int64(start) - 1) * conf.CHUNK_SIZE go downloadChunk(n, opts, filename, start_offset, ch) } for i := 0; i < splits; i++ { <-ch } case "auth": if len(args) < 1 { helpf("auth requires show/set/set-token/unset") } switch args[0] { case "set": var username, password string fmt.Printf("Please authenticate to store your credentials.\nusername: "******"password: "******"Authenticated but failed to store token: %s\n", err.Error())) } fmt.Printf("Authenticated credentials stored for user %s. Expires in %d days.\n", t.UserName, t.ExpiresInDays()) } else { fmt.Printf("%s\n", err.Error()) } case "set-token": if len(args) != 2 { helpf("auth set-token requires token.") } t := &lib.Token{} if err := json.Unmarshal([]byte(args[1]), &t); err != nil { handleString("Invalid auth token.\n") } if err := t.Store(); err != nil { handleString(fmt.Sprintf("Failed to store token: %s\n", err.Error())) } fmt.Printf("Authenticated credentials stored for user %s. Expires in %d days.\n", t.UserName, t.ExpiresInDays()) case "unset": t := &lib.Token{} if err := t.Delete(); err != nil { fmt.Printf("%s\n", err.Error()) } else { fmt.Printf("Stored authentication credentials have been deleted.\n") } case "show": t := &lib.Token{} if err := t.Load(); err != nil { handleToken(err) } else { fmt.Printf("Authenticated credentials stored for user %s. Expires in %d days.\n", t.UserName, t.ExpiresInDays()) } } case "acl": if len(args) != 4 { helpf("acl requires 4 arguments") } if err := acl(args[0], args[1], args[2], args[3]); err != nil { handle(err) } case "chown": if len(args) != 2 { helpf("chown requires <user> and <id>") } if err := acl("chown", "", args[0], args[1]); err != nil { handle(err) } default: helpf("invalid command") } }
func main() { args := flag.Args() if *conf.Examples { helpf("Coming soon.") } if len(args) == 0 { helpf("") } switch args[0] { case "create", "update": n := lib.Node{} if args[0] == "update" { if len(args) != 2 { helpf("update requires <id>") } else { n.Id = args[1] } } opts := lib.Opts{} if ne(conf.Flags["attributes"]) { opts["attributes"] = (*conf.Flags["attributes"]) } if t, err := fileOptions(conf.Flags); err != nil { helpf(err.Error()) } else { if t == "part" { if args[0] == "create" { helpf("part option only usable with update") } if !ne(conf.Flags["file"]) { helpf("part option requires file") } opts["upload_type"] = t opts["part"] = (*conf.Flags["part"]) opts["file"] = (*conf.Flags["file"]) if err := n.Update(opts); err != nil { fmt.Printf("Error updating %s: %s\n", n.Id, err.Error()) } else { n.PP() } } else { if t != "" { opts["upload_type"] = t opts[t] = (*conf.Flags[t]) if args[0] == "create" { if err := n.Create(opts); err != nil { fmt.Printf("Error creating node: %s\n", err.Error()) } else { n.PP() } } else { if err := n.Update(opts); err != nil { fmt.Printf("Error updating %s: %s\n", n.Id, err.Error()) } else { n.PP() } } } else { if err := n.Create(opts); err != nil { fmt.Printf("Error creating node: %s\n", err.Error()) } else { n.PP() } } } } case "get": if len(args) != 2 { helpf("get requires <id>") } n := lib.Node{Id: args[1]} if err := n.Get(); err != nil { fmt.Printf("Error retrieving %s: %s\n", n.Id, err.Error()) } else { n.PP() } case "download": if len(args) < 2 { helpf("download requires <id>") } index := conf.Flags["index"] parts := conf.Flags["parts"] indexOptions := conf.Flags["index_options"] opts := lib.Opts{} if ne(index) || ne(parts) || ne(indexOptions) { if ne(index) && ne(parts) { opts["index"] = (*index) opts["parts"] = (*parts) if ne(indexOptions) { opts["index_options"] = (*indexOptions) } } else { helpf("index and parts options must be used together") } } n := lib.Node{Id: args[1]} if ih, err := n.Download(opts); err != nil { fmt.Printf("Error downloading %s: %s\n", n.Id, err.Error()) } else { if len(args) == 3 { if oh, err := os.Create(args[2]); err == nil { if s, err := io.Copy(oh, ih); err != nil { fmt.Printf("Error writing output: %s\n", err.Error()) } else { fmt.Printf("Success. Wrote %d bytes\n", s) } } else { fmt.Printf("Error writing output: %s\n", err.Error()) } } else { io.Copy(os.Stdout, ih) } } case "auth": if len(args) != 2 { helpf("auth requires show/set/unset") } switch args[1] { case "set": var username, password string fmt.Printf("Please authenticate to store your credentials.\nusername: "******"password: "******"Authenticated but failed to store token: %s\n", err.Error()) } fmt.Printf("Authenticated credentials stored for user %s. Expires in %d days.\n", t.UserName, t.ExpiresInDays()) } else { fmt.Printf("%s\n", err.Error()) } case "unset": t := &lib.Token{} if err := t.Delete(); err != nil { fmt.Printf("%s\n", err.Error()) } else { fmt.Printf("Stored authentication credentials have been deleted.\n") } case "show": t := &lib.Token{} if err := t.Load(); err != nil { handleToken(err) } else { fmt.Printf("Authenticated credentials stored for user %s. Expires in %d days.\n", t.UserName, t.ExpiresInDays()) } } case "acl": if len(args) != 5 { helpf("acl requires 4 arguments") } setToken(true) if err := acl(args[1], args[2], args[3], args[4]); err != nil { handle(err) } case "chown": if len(args) != 3 { helpf("chown requires <user> and <id>") } setToken(true) if err := acl("chown", "", args[1], args[2]); err != nil { handle(err) } default: helpf("invalid command") } }