package storage import ( "bytes" "crypto/rand" "io" mrand "math/rand" "os" "testing" "github.com/docker/distribution/digest" "github.com/docker/distribution/storagedriver/inmemory" ) func TestSimpleRead(t *testing.T) { content := make([]byte, 1<<20) n, err := rand.Read(content) if err != nil { t.Fatalf("unexpected error building random data: %v", err) } if n != len(content) { t.Fatalf("random read did't fill buffer") } dgst, err := digest.FromReader(bytes.NewReader(content)) if err != nil { t.Fatalf("unexpected error digesting random content: %v", err) } driver := inmemory.New() path := "/random" if err := driver.PutContent(path, content); err != nil { t.Fatalf("error putting patterned content: %v", err) } fr, err := newFileReader(driver, path) if err != nil { t.Fatalf("error allocating file reader: %v", err) } verifier := digest.NewDigestVerifier(dgst) io.Copy(verifier, fr) if !verifier.Verified() { t.Fatalf("unable to verify read data") } } func TestFileReaderSeek(t *testing.T) { driver := inmemory.New() pattern := "01234567890ab" // prime length block repititions := 1024 path := "/patterned" content := bytes.Repeat([]byte(pattern), repititions) if err := driver.PutContent(path, content); err != nil { t.Fatalf("error putting patterned content: %v", err) } fr, err := newFileReader(driver, path) if err != nil { t.Fatalf("unexpected error creating file reader: %v", err) } // Seek all over the place, in blocks of pattern size and make sure we get // the right data. for _, repitition := range mrand.Perm(repititions - 1) { targetOffset := int64(len(pattern) * repitition) // Seek to a multiple of pattern size and read pattern size bytes offset, err := fr.Seek(targetOffset, os.SEEK_SET) if err != nil { t.Fatalf("unexpected error seeking: %v", err) } if offset != targetOffset { t.Fatalf("did not seek to correct offset: %d != %d", offset, targetOffset) } p := make([]byte, len(pattern)) n, err := fr.Read(p) if err != nil { t.Fatalf("error reading pattern: %v", err) } if n != len(pattern) { t.Fatalf("incorrect read length: %d != %d", n, len(pattern)) } if string(p) != pattern { t.Fatalf("incorrect read content: %q != %q", p, pattern) } // Check offset current, err := fr.Seek(0, os.SEEK_CUR) if err != nil { t.Fatalf("error checking current offset: %v", err) } if current != targetOffset+int64(len(pattern)) { t.Fatalf("unexpected offset after read: %v", err) } } start, err := fr.Seek(0, os.SEEK_SET) if err != nil { t.Fatalf("error seeking to start: %v", err) } if start != 0 { t.Fatalf("expected to seek to start: %v != 0", start) } end, err := fr.Seek(0, os.SEEK_END) if err != nil { t.Fatalf("error checking current offset: %v", err) } if end != int64(len(content)) { t.Fatalf("expected to seek to end: %v != %v", end, len(content)) } // 4. Seek past end and before start, ensure error. // seek before start before, err := fr.Seek(-1, os.SEEK_SET) if err == nil { t.Fatalf("error expected, returned offset=%v", before) } after, err := fr.Seek(int64(len(content)+1), os.SEEK_END) if err == nil { t.Fatalf("error expected, returned offset=%v", after) } } // TestLayerReadErrors covers the various error return type for different // conditions that can arise when reading a layer. func TestFileReaderErrors(t *testing.T) { // TODO(stevvooe): We need to cover error return types, driven by the // errors returned via the HTTP API. For now, here is a incomplete list: // // 1. Layer Not Found: returned when layer is not found or access is // denied. // 2. Layer Unavailable: returned when link references are unresolved, // but layer is known to the registry. // 3. Layer Invalid: This may more split into more errors, but should be // returned when name or tarsum does not reference a valid error. We // may also need something to communication layer verification errors // for the inline tarsum check. // 4. Timeout: timeouts to backend. Need to better understand these // failure cases and how the storage driver propagates these errors // up the stack. }