package pipe_test import ( "os" "path/filepath" "sync" "testing" "time" "github.com/restic/restic/pipe" . "github.com/restic/restic/test" ) func isFile(fi os.FileInfo) bool { return fi.Mode()&(os.ModeType|os.ModeCharDevice) == 0 } type stats struct { dirs, files int } func statPath(path string) (stats, error) { var s stats // count files and directories with filepath.Walk() err := filepath.Walk(TestWalkerPath, func(p string, fi os.FileInfo, err error) error { if fi == nil { return err } if fi.IsDir() { s.dirs++ } else { s.files++ } return err }) return s, err } const maxWorkers = 100 func TestPipelineWalkerWithSplit(t *testing.T) { if TestWalkerPath == "" { t.Skipf("walkerpath not set, skipping TestPipelineWalker") } before, err := statPath(TestWalkerPath) OK(t, err) t.Logf("walking path %s with %d dirs, %d files", TestWalkerPath, before.dirs, before.files) // account for top level dir before.dirs++ after := stats{} m := sync.Mutex{} worker := func(wg *sync.WaitGroup, done <-chan struct{}, entCh <-chan pipe.Entry, dirCh <-chan pipe.Dir) { defer wg.Done() for { select { case e, ok := <-entCh: if !ok { // channel is closed return } m.Lock() after.files++ m.Unlock() e.Result() <- true case dir, ok := <-dirCh: if !ok { // channel is closed return } // wait for all content for _, ch := range dir.Entries { <-ch } m.Lock() after.dirs++ m.Unlock() dir.Result() <- true case <-done: // pipeline was cancelled return } } } var wg sync.WaitGroup done := make(chan struct{}) entCh := make(chan pipe.Entry) dirCh := make(chan pipe.Dir) for i := 0; i < maxWorkers; i++ { wg.Add(1) go worker(&wg, done, entCh, dirCh) } jobs := make(chan pipe.Job, 200) wg.Add(1) go func() { pipe.Split(jobs, dirCh, entCh) close(entCh) close(dirCh) wg.Done() }() resCh := make(chan pipe.Result, 1) err = pipe.Walk([]string{TestWalkerPath}, done, jobs, resCh) OK(t, err) // wait for all workers to terminate wg.Wait() // wait for top-level blob <-resCh t.Logf("walked path %s with %d dirs, %d files", TestWalkerPath, after.dirs, after.files) Assert(t, before == after, "stats do not match, expected %v, got %v", before, after) } func TestPipelineWalker(t *testing.T) { if TestWalkerPath == "" { t.Skipf("walkerpath not set, skipping TestPipelineWalker") } before, err := statPath(TestWalkerPath) OK(t, err) t.Logf("walking path %s with %d dirs, %d files", TestWalkerPath, before.dirs, before.files) // account for top level dir before.dirs++ after := stats{} m := sync.Mutex{} worker := func(wg *sync.WaitGroup, done <-chan struct{}, jobs <-chan pipe.Job) { defer wg.Done() for { select { case job, ok := <-jobs: if !ok { // channel is closed return } Assert(t, job != nil, "job is nil") switch j := job.(type) { case pipe.Dir: // wait for all content for _, ch := range j.Entries { <-ch } m.Lock() after.dirs++ m.Unlock() j.Result() <- true case pipe.Entry: m.Lock() after.files++ m.Unlock() j.Result() <- true } case <-done: // pipeline was cancelled return } } } var wg sync.WaitGroup done := make(chan struct{}) jobs := make(chan pipe.Job) for i := 0; i < maxWorkers; i++ { wg.Add(1) go worker(&wg, done, jobs) } resCh := make(chan pipe.Result, 1) err = pipe.Walk([]string{TestWalkerPath}, done, jobs, resCh) OK(t, err) // wait for all workers to terminate wg.Wait() // wait for top-level blob <-resCh t.Logf("walked path %s with %d dirs, %d files", TestWalkerPath, after.dirs, after.files) Assert(t, before == after, "stats do not match, expected %v, got %v", before, after) } func BenchmarkPipelineWalker(b *testing.B) { if TestWalkerPath == "" { b.Skipf("walkerpath not set, skipping BenchPipelineWalker") } var max time.Duration m := sync.Mutex{} fileWorker := func(wg *sync.WaitGroup, done <-chan struct{}, ch <-chan pipe.Entry) { defer wg.Done() for { select { case e, ok := <-ch: if !ok { // channel is closed return } // simulate backup //time.Sleep(10 * time.Millisecond) e.Result() <- true case <-done: // pipeline was cancelled return } } } dirWorker := func(wg *sync.WaitGroup, done <-chan struct{}, ch <-chan pipe.Dir) { defer wg.Done() for { select { case dir, ok := <-ch: if !ok { // channel is closed return } start := time.Now() // wait for all content for _, ch := range dir.Entries { <-ch } d := time.Since(start) m.Lock() if d > max { max = d } m.Unlock() dir.Result() <- true case <-done: // pipeline was cancelled return } } } for i := 0; i < b.N; i++ { max = 0 done := make(chan struct{}) entCh := make(chan pipe.Entry, 200) dirCh := make(chan pipe.Dir, 200) var wg sync.WaitGroup b.Logf("starting %d workers", maxWorkers) for i := 0; i < maxWorkers; i++ { wg.Add(2) go dirWorker(&wg, done, dirCh) go fileWorker(&wg, done, entCh) } jobs := make(chan pipe.Job, 200) wg.Add(1) go func() { pipe.Split(jobs, dirCh, entCh) close(entCh) close(dirCh) wg.Done() }() resCh := make(chan pipe.Result, 1) err := pipe.Walk([]string{TestWalkerPath}, done, jobs, resCh) OK(b, err) // wait for all workers to terminate wg.Wait() // wait for final result <-resCh b.Logf("max duration for a dir: %v", max) } } func TestPipelineWalkerMultiple(t *testing.T) { if TestWalkerPath == "" { t.Skipf("walkerpath not set, skipping TestPipelineWalker") } paths, err := filepath.Glob(filepath.Join(TestWalkerPath, "*")) before, err := statPath(TestWalkerPath) OK(t, err) t.Logf("walking paths %v with %d dirs, %d files", paths, before.dirs, before.files) after := stats{} m := sync.Mutex{} worker := func(wg *sync.WaitGroup, done <-chan struct{}, jobs <-chan pipe.Job) { defer wg.Done() for { select { case job, ok := <-jobs: if !ok { // channel is closed return } Assert(t, job != nil, "job is nil") switch j := job.(type) { case pipe.Dir: // wait for all content for _, ch := range j.Entries { <-ch } m.Lock() after.dirs++ m.Unlock() j.Result() <- true case pipe.Entry: m.Lock() after.files++ m.Unlock() j.Result() <- true } case <-done: // pipeline was cancelled return } } } var wg sync.WaitGroup done := make(chan struct{}) jobs := make(chan pipe.Job) for i := 0; i < maxWorkers; i++ { wg.Add(1) go worker(&wg, done, jobs) } resCh := make(chan pipe.Result, 1) err = pipe.Walk(paths, done, jobs, resCh) OK(t, err) // wait for all workers to terminate wg.Wait() // wait for top-level blob <-resCh t.Logf("walked %d paths with %d dirs, %d files", len(paths), after.dirs, after.files) Assert(t, before == after, "stats do not match, expected %v, got %v", before, after) }