func (command *commandUploadDir) Execute(resource *handler.Resource) { params := resource.Params.(*paramsUploadDir) stat, err := os.Stat(params.dir) if err != nil { resource.Err = err return } if !stat.IsDir() { resource.Err = fmt.Errorf("%s is not a directory, ignoring", params.dir) return } // bump thread count to number of available CPUs runtime.GOMAXPROCS(runtime.NumCPU()) jobs := make(chan string) results := make(chan *handler.Resource) var wg sync.WaitGroup var totalSize uint64 var totalFiles int64 start := time.Now() for i := 0; i < params.concurrency; i++ { wg.Add(1) go func(totalSize *uint64, totalFiles *int64) { for p := range jobs { var re *handler.Resource ticker := backoff.NewTicker(backoff.NewExponentialBackOff()) for _ = range ticker.C { re = command.handle(p, params) if re.Err != nil { continue } ticker.Stop() break } fi, err := os.Stat(p) if err == nil { *totalSize += uint64(fi.Size()) *totalFiles++ } if !params.quiet { command.Ctx.Results <- re } } wg.Done() }(&totalSize, &totalFiles) } filepath.Walk(params.dir, func(path string, info os.FileInfo, err error) error { pathSep := string(os.PathSeparator) parent := filepath.Clean(params.dir) if !params.recurse && strings.Contains(strings.TrimPrefix(path, parent+pathSep), pathSep) { return nil } if !info.IsDir() { jobs <- path } return nil }) close(jobs) wg.Wait() close(results) resource.Result = fmt.Sprintf("Finished! Uploaded %s %s totaling %s in %s", humanize.Comma(totalFiles), util.Pluralize("object", totalFiles), humanize.Bytes(totalSize), humanize.RelTime(start, time.Now(), "", "")) }
func handleEmpty(command handler.Commander, resource *handler.Resource, params *handleEmptyParams) { var totalFiles int64 var wg sync.WaitGroup // bump thread count to number of available CPUs runtime.GOMAXPROCS(runtime.NumCPU()) // get the names of all the objects in the container allPages, err := objects.List(command.Context().ServiceClient, params.container, nil).AllPages() if err != nil { resource.Err = err return } names, err := objects.ExtractNames(allPages) if err != nil { resource.Err = err return } // send the object names into the `jobs` channel jobs := make(chan string, len(names)) for i := 0; i < len(names); i++ { wg.Add(1) jobs <- names[i] } close(jobs) // default the number of goroutines to spawn if the `concurrency` flag // wasn't provided if params.concurrency == 0 { params.concurrency = 100 } start := time.Now() for i := 0; i < params.concurrency; i++ { go func(totalFiles *int64) { for objectName := range jobs { ticker := backoff.NewTicker(backoff.NewExponentialBackOff()) for _ = range ticker.C { rawResponse := objects.Delete(command.Context().ServiceClient, params.container, objectName, nil) if rawResponse.Err != nil { continue } ticker.Stop() break } *totalFiles++ if !params.quiet { re := &handler.Resource{ Result: fmt.Sprintf("Successfully deleted object [%s] from container [%s]\n", objectName, params.container), } command.Context().Results <- re } wg.Done() } }(&totalFiles) } wg.Wait() resource.Result = fmt.Sprintf("Finished! Deleted %s %s in %s", humanize.Comma(totalFiles), util.Pluralize("object", totalFiles), humanize.RelTime(start, time.Now(), "", "")) }