package main import ( "bytes" "fmt" "io/ioutil" "os" "path" "regexp" "sort" "strings" "testing" "git.curoverse.com/arvados.git/sdk/go/arvadostest" ) var TestBlock = []byte("The quick brown fox jumps over the lazy dog.") var TestHash = "e4d909c290d0fb1ca068ffaddf22cbd0" var TestHashPutResp = "e4d909c290d0fb1ca068ffaddf22cbd0+44\n" var TestBlock2 = []byte("Pack my box with five dozen liquor jugs.") var TestHash2 = "f15ac516f788aec4f30932ffb6395c39" var TestBlock3 = []byte("Now is the time for all good men to come to the aid of their country.") var TestHash3 = "eed29bbffbc2dbe5e5ee0bb71888e61f" // BadBlock is used to test collisions and corruption. // It must not match any test hashes. var BadBlock = []byte("The magic words are squeamish ossifrage.") // Empty block var EmptyHash = "d41d8cd98f00b204e9800998ecf8427e" var EmptyBlock = []byte("") // TODO(twp): Tests still to be written // // * TestPutBlockFull // - test that PutBlock returns 503 Full if the filesystem is full. // (must mock FreeDiskSpace or Statfs? use a tmpfs?) // // * TestPutBlockWriteErr // - test the behavior when Write returns an error. // - Possible solutions: use a small tmpfs and a high // MIN_FREE_KILOBYTES to trick PutBlock into attempting // to write a block larger than the amount of space left // - use an interface to mock ioutil.TempFile with a File // object that always returns an error on write // // ======================================== // GetBlock tests. // ======================================== // TestGetBlock // Test that simple block reads succeed. // func TestGetBlock(t *testing.T) { defer teardown() // Prepare two test Keep volumes. Our block is stored on the second volume. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() vols := KeepVM.AllReadable() if err := vols[1].Put(TestHash, TestBlock); err != nil { t.Error(err) } // Check that GetBlock returns success. buf := make([]byte, BlockSize) size, err := GetBlock(TestHash, buf, nil) if err != nil { t.Errorf("GetBlock error: %s", err) } if bytes.Compare(buf[:size], TestBlock) != 0 { t.Errorf("got %v, expected %v", buf[:size], TestBlock) } } // TestGetBlockMissing // GetBlock must return an error when the block is not found. // func TestGetBlockMissing(t *testing.T) { defer teardown() // Create two empty test Keep volumes. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() // Check that GetBlock returns failure. buf := make([]byte, BlockSize) size, err := GetBlock(TestHash, buf, nil) if err != NotFoundError { t.Errorf("Expected NotFoundError, got %v, err %v", buf[:size], err) } } // TestGetBlockCorrupt // GetBlock must return an error when a corrupted block is requested // (the contents of the file do not checksum to its hash). // func TestGetBlockCorrupt(t *testing.T) { defer teardown() // Create two test Keep volumes and store a corrupt block in one. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() vols := KeepVM.AllReadable() vols[0].Put(TestHash, BadBlock) // Check that GetBlock returns failure. buf := make([]byte, BlockSize) size, err := GetBlock(TestHash, buf, nil) if err != DiskHashError { t.Errorf("Expected DiskHashError, got %v (buf: %v)", err, buf[:size]) } } // ======================================== // PutBlock tests // ======================================== // TestPutBlockOK // PutBlock can perform a simple block write and returns success. // func TestPutBlockOK(t *testing.T) { defer teardown() // Create two test Keep volumes. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() // Check that PutBlock stores the data as expected. if n, err := PutBlock(TestBlock, TestHash); err != nil || n < 1 { t.Fatalf("PutBlock: n %d err %v", n, err) } vols := KeepVM.AllReadable() buf := make([]byte, BlockSize) n, err := vols[1].Get(TestHash, buf) if err != nil { t.Fatalf("Volume #0 Get returned error: %v", err) } if string(buf[:n]) != string(TestBlock) { t.Fatalf("PutBlock stored '%s', Get retrieved '%s'", string(TestBlock), string(buf[:n])) } } // TestPutBlockOneVol // PutBlock still returns success even when only one of the known // volumes is online. // func TestPutBlockOneVol(t *testing.T) { defer teardown() // Create two test Keep volumes, but cripple one of them. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() vols := KeepVM.AllWritable() vols[0].(*MockVolume).Bad = true // Check that PutBlock stores the data as expected. if n, err := PutBlock(TestBlock, TestHash); err != nil || n < 1 { t.Fatalf("PutBlock: n %d err %v", n, err) } buf := make([]byte, BlockSize) size, err := GetBlock(TestHash, buf, nil) if err != nil { t.Fatalf("GetBlock: %v", err) } if bytes.Compare(buf[:size], TestBlock) != 0 { t.Fatalf("PutBlock stored %+q, GetBlock retrieved %+q", TestBlock, buf[:size]) } } // TestPutBlockMD5Fail // Check that PutBlock returns an error if passed a block and hash that // do not match. // func TestPutBlockMD5Fail(t *testing.T) { defer teardown() // Create two test Keep volumes. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() // Check that PutBlock returns the expected error when the hash does // not match the block. if _, err := PutBlock(BadBlock, TestHash); err != RequestHashError { t.Errorf("Expected RequestHashError, got %v", err) } // Confirm that GetBlock fails to return anything. if result, err := GetBlock(TestHash, make([]byte, BlockSize), nil); err != NotFoundError { t.Errorf("GetBlock succeeded after a corrupt block store (result = %s, err = %v)", string(result), err) } } // TestPutBlockCorrupt // PutBlock should overwrite corrupt blocks on disk when given // a PUT request with a good block. // func TestPutBlockCorrupt(t *testing.T) { defer teardown() // Create two test Keep volumes. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() // Store a corrupted block under TestHash. vols := KeepVM.AllWritable() vols[0].Put(TestHash, BadBlock) if n, err := PutBlock(TestBlock, TestHash); err != nil || n < 1 { t.Errorf("PutBlock: n %d err %v", n, err) } // The block on disk should now match TestBlock. buf := make([]byte, BlockSize) if size, err := GetBlock(TestHash, buf, nil); err != nil { t.Errorf("GetBlock: %v", err) } else if bytes.Compare(buf[:size], TestBlock) != 0 { t.Errorf("Got %+q, expected %+q", buf[:size], TestBlock) } } // TestPutBlockCollision // PutBlock returns a 400 Collision error when attempting to // store a block that collides with another block on disk. // func TestPutBlockCollision(t *testing.T) { defer teardown() // These blocks both hash to the MD5 digest cee9a457e790cf20d4bdaa6d69f01e41. b1 := arvadostest.MD5CollisionData[0] b2 := arvadostest.MD5CollisionData[1] locator := arvadostest.MD5CollisionMD5 // Prepare two test Keep volumes. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() // Store one block, then attempt to store the other. Confirm that // PutBlock reported a CollisionError. if _, err := PutBlock(b1, locator); err != nil { t.Error(err) } if _, err := PutBlock(b2, locator); err == nil { t.Error("PutBlock did not report a collision") } else if err != CollisionError { t.Errorf("PutBlock returned %v", err) } } // TestPutBlockTouchFails // When PutBlock is asked to PUT an existing block, but cannot // modify the timestamp, it should write a second block. // func TestPutBlockTouchFails(t *testing.T) { defer teardown() // Prepare two test Keep volumes. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() vols := KeepVM.AllWritable() // Store a block and then make the underlying volume bad, // so a subsequent attempt to update the file timestamp // will fail. vols[0].Put(TestHash, BadBlock) oldMtime, err := vols[0].Mtime(TestHash) if err != nil { t.Fatalf("vols[0].Mtime(%s): %s\n", TestHash, err) } // vols[0].Touch will fail on the next call, so the volume // manager will store a copy on vols[1] instead. vols[0].(*MockVolume).Touchable = false if n, err := PutBlock(TestBlock, TestHash); err != nil || n < 1 { t.Fatalf("PutBlock: n %d err %v", n, err) } vols[0].(*MockVolume).Touchable = true // Now the mtime on the block on vols[0] should be unchanged, and // there should be a copy of the block on vols[1]. newMtime, err := vols[0].Mtime(TestHash) if err != nil { t.Fatalf("vols[0].Mtime(%s): %s\n", TestHash, err) } if !newMtime.Equal(oldMtime) { t.Errorf("mtime was changed on vols[0]:\noldMtime = %v\nnewMtime = %v\n", oldMtime, newMtime) } buf := make([]byte, BlockSize) n, err := vols[1].Get(TestHash, buf) if err != nil { t.Fatalf("vols[1]: %v", err) } if bytes.Compare(buf[:n], TestBlock) != 0 { t.Errorf("new block does not match test block\nnew block = %v\n", buf[:n]) } } func TestDiscoverTmpfs(t *testing.T) { var tempVols [4]string var err error // Create some directories suitable for using as keep volumes. for i := range tempVols { if tempVols[i], err = ioutil.TempDir("", "findvol"); err != nil { t.Fatal(err) } defer os.RemoveAll(tempVols[i]) tempVols[i] = tempVols[i] + "/keep" if err = os.Mkdir(tempVols[i], 0755); err != nil { t.Fatal(err) } } // Set up a bogus ProcMounts file. f, err := ioutil.TempFile("", "keeptest") if err != nil { t.Fatal(err) } defer os.Remove(f.Name()) for i, vol := range tempVols { // Add readonly mount points at odd indexes. var opts string switch i % 2 { case 0: opts = "rw,nosuid,nodev,noexec" case 1: opts = "nosuid,nodev,noexec,ro" } fmt.Fprintf(f, "tmpfs %s tmpfs %s 0 0\n", path.Dir(vol), opts) } f.Close() ProcMounts = f.Name() cfg := &Config{} added := (&unixVolumeAdder{cfg}).Discover() if added != len(cfg.Volumes) { t.Errorf("Discover returned %d, but added %d volumes", added, len(cfg.Volumes)) } if added != len(tempVols) { t.Errorf("Discover returned %d but we set up %d volumes", added, len(tempVols)) } for i, tmpdir := range tempVols { if tmpdir != cfg.Volumes[i].(*UnixVolume).Root { t.Errorf("Discover returned %s, expected %s\n", cfg.Volumes[i].(*UnixVolume).Root, tmpdir) } if expectReadonly := i%2 == 1; expectReadonly != cfg.Volumes[i].(*UnixVolume).ReadOnly { t.Errorf("Discover added %s with readonly=%v, should be %v", tmpdir, !expectReadonly, expectReadonly) } } } func TestDiscoverNone(t *testing.T) { defer teardown() // Set up a bogus ProcMounts file with no Keep vols. f, err := ioutil.TempFile("", "keeptest") if err != nil { t.Fatal(err) } defer os.Remove(f.Name()) fmt.Fprintln(f, "rootfs / rootfs opts 0 0") fmt.Fprintln(f, "sysfs /sys sysfs opts 0 0") fmt.Fprintln(f, "proc /proc proc opts 0 0") fmt.Fprintln(f, "udev /dev devtmpfs opts 0 0") fmt.Fprintln(f, "devpts /dev/pts devpts opts 0 0") f.Close() ProcMounts = f.Name() cfg := &Config{} added := (&unixVolumeAdder{cfg}).Discover() if added != 0 || len(cfg.Volumes) != 0 { t.Fatalf("got %d, %v; expected 0, []", added, cfg.Volumes) } } // TestIndex // Test an /index request. func TestIndex(t *testing.T) { defer teardown() // Set up Keep volumes and populate them. // Include multiple blocks on different volumes, and // some metadata files. KeepVM = MakeTestVolumeManager(2) defer KeepVM.Close() vols := KeepVM.AllReadable() vols[0].Put(TestHash, TestBlock) vols[1].Put(TestHash2, TestBlock2) vols[0].Put(TestHash3, TestBlock3) vols[0].Put(TestHash+".meta", []byte("metadata")) vols[1].Put(TestHash2+".meta", []byte("metadata")) buf := new(bytes.Buffer) vols[0].IndexTo("", buf) vols[1].IndexTo("", buf) indexRows := strings.Split(string(buf.Bytes()), "\n") sort.Strings(indexRows) sortedIndex := strings.Join(indexRows, "\n") expected := `^\n` + TestHash + `\+\d+ \d+\n` + TestHash3 + `\+\d+ \d+\n` + TestHash2 + `\+\d+ \d+$` match, err := regexp.MatchString(expected, sortedIndex) if err == nil { if !match { t.Errorf("IndexLocators returned:\n%s", string(buf.Bytes())) } } else { t.Errorf("regexp.MatchString: %s", err) } } // ======================================== // Helper functions for unit tests. // ======================================== // MakeTestVolumeManager returns a RRVolumeManager with the specified // number of MockVolumes. func MakeTestVolumeManager(numVolumes int) VolumeManager { vols := make([]Volume, numVolumes) for i := range vols { vols[i] = CreateMockVolume() } return MakeRRVolumeManager(vols) } // teardown cleans up after each test. func teardown() { theConfig.systemAuthToken = "" theConfig.RequireSignatures = false theConfig.blobSigningKey = nil KeepVM = nil }