package vfscache // FIXME need to test async writeback here import ( "context" "fmt" "io" "math/rand" "os" "sync" "testing" "time" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fstest" "github.com/rclone/rclone/lib/random" "github.com/rclone/rclone/lib/readers" "github.com/rclone/rclone/vfs/vfscommon" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) var zeroes = string(make([]byte, 100)) func newItemTestCache(t *testing.T) (r *fstest.Run, c *Cache) { opt := vfscommon.Opt // Disable the cache cleaner as it interferes with these tests opt.CachePollInterval = 0 // Disable synchronous write opt.WriteBack = 0 return newTestCacheOpt(t, opt) } // Check the object has contents func checkObject(t *testing.T, r *fstest.Run, remote string, contents string) { obj, err := r.Fremote.NewObject(context.Background(), remote) require.NoError(t, err) in, err := obj.Open(context.Background()) require.NoError(t, err) buf, err := io.ReadAll(in) require.NoError(t, err) require.NoError(t, in.Close()) assert.Equal(t, contents, string(buf)) } func newFileLength(t *testing.T, r *fstest.Run, c *Cache, remote string, length int) (contents string, obj fs.Object, item *Item) { contents = random.String(length) r.WriteObject(context.Background(), remote, contents, time.Now()) item, _ = c.get(remote) obj, err := r.Fremote.NewObject(context.Background(), remote) require.NoError(t, err) return } func newFile(t *testing.T, r *fstest.Run, c *Cache, remote string) (contents string, obj fs.Object, item *Item) { return newFileLength(t, r, c, remote, 100) } func TestItemExists(t *testing.T) { _, c := newItemTestCache(t) item, _ := c.get("potato") assert.False(t, item.Exists()) require.NoError(t, item.Open(nil)) assert.True(t, item.Exists()) require.NoError(t, item.Close(nil)) assert.True(t, item.Exists()) item.remove("test") assert.False(t, item.Exists()) } func TestItemGetSize(t *testing.T) { r, c := newItemTestCache(t) item, _ := c.get("potato") require.NoError(t, item.Open(nil)) size, err := item.GetSize() require.NoError(t, err) assert.Equal(t, int64(0), size) n, err := item.WriteAt([]byte("hello"), 0) require.NoError(t, err) assert.Equal(t, 5, n) size, err = item.GetSize() require.NoError(t, err) assert.Equal(t, int64(5), size) require.NoError(t, item.Close(nil)) checkObject(t, r, "potato", "hello") } func TestItemDirty(t *testing.T) { r, c := newItemTestCache(t) item, _ := c.get("potato") require.NoError(t, item.Open(nil)) assert.Equal(t, false, item.IsDirty()) n, err := item.WriteAt([]byte("hello"), 0) require.NoError(t, err) assert.Equal(t, 5, n) assert.Equal(t, true, item.IsDirty()) require.NoError(t, item.Close(nil)) // Sync writeback so expect clean here assert.Equal(t, false, item.IsDirty()) item.Dirty() assert.Equal(t, true, item.IsDirty()) checkObject(t, r, "potato", "hello") } func TestItemSync(t *testing.T) { _, c := newItemTestCache(t) item, _ := c.get("potato") require.Error(t, item.Sync()) require.NoError(t, item.Open(nil)) require.NoError(t, item.Sync()) require.NoError(t, item.Close(nil)) } func TestItemTruncateNew(t *testing.T) { r, c := newItemTestCache(t) item, _ := c.get("potato") require.Error(t, item.Truncate(0)) require.NoError(t, item.Open(nil)) require.NoError(t, item.Truncate(100)) size, err := item.GetSize() require.NoError(t, err) assert.Equal(t, int64(100), size) // Check the Close callback works callbackCalled := false callback := func(o fs.Object) { callbackCalled = true assert.Equal(t, "potato", o.Remote()) assert.Equal(t, int64(100), o.Size()) } require.NoError(t, item.Close(callback)) assert.True(t, callbackCalled) checkObject(t, r, "potato", zeroes) } func TestItemTruncateExisting(t *testing.T) { r, c := newItemTestCache(t) contents, obj, item := newFile(t, r, c, "existing") require.Error(t, item.Truncate(40)) checkObject(t, r, "existing", contents) require.NoError(t, item.Open(obj)) require.NoError(t, item.Truncate(40)) require.NoError(t, item.Truncate(60)) require.NoError(t, item.Close(nil)) checkObject(t, r, "existing", contents[:40]+zeroes[:20]) } func TestItemReadAt(t *testing.T) { r, c := newItemTestCache(t) contents, obj, item := newFile(t, r, c, "existing") buf := make([]byte, 10) _, err := item.ReadAt(buf, 10) require.Error(t, err) require.NoError(t, item.Open(obj)) n, err := item.ReadAt(buf, 10) assert.Equal(t, 10, n) require.NoError(t, err) assert.Equal(t, contents[10:20], string(buf[:n])) n, err = item.ReadAt(buf, 95) assert.Equal(t, 5, n) assert.Equal(t, io.EOF, err) assert.Equal(t, contents[95:], string(buf[:n])) n, err = item.ReadAt(buf, 1000) assert.Equal(t, 0, n) assert.Equal(t, io.EOF, err) assert.Equal(t, contents[:0], string(buf[:n])) n, err = item.ReadAt(buf, -1) assert.Equal(t, 0, n) assert.Equal(t, io.EOF, err) assert.Equal(t, contents[:0], string(buf[:n])) require.NoError(t, item.Close(nil)) } func TestItemWriteAtNew(t *testing.T) { r, c := newItemTestCache(t) item, _ := c.get("potato") buf := make([]byte, 10) _, err := item.WriteAt(buf, 10) require.Error(t, err) require.NoError(t, item.Open(nil)) assert.Equal(t, int64(0), item.getDiskSize()) n, err := item.WriteAt([]byte("HELLO"), 10) require.NoError(t, err) assert.Equal(t, 5, n) // FIXME we account for the sparse data we've "written" to // disk here so this is actually 5 bytes higher than expected assert.Equal(t, int64(15), item.getDiskSize()) n, err = item.WriteAt([]byte("THEND"), 20) require.NoError(t, err) assert.Equal(t, 5, n) assert.Equal(t, int64(25), item.getDiskSize()) require.NoError(t, item.Close(nil)) checkObject(t, r, "potato", zeroes[:10]+"HELLO"+zeroes[:5]+"THEND") } func TestItemWriteAtExisting(t *testing.T) { r, c := newItemTestCache(t) contents, obj, item := newFile(t, r, c, "existing") require.NoError(t, item.Open(obj)) n, err := item.WriteAt([]byte("HELLO"), 10) require.NoError(t, err) assert.Equal(t, 5, n) n, err = item.WriteAt([]byte("THEND"), 95) require.NoError(t, err) assert.Equal(t, 5, n) n, err = item.WriteAt([]byte("THEVERYEND"), 120) require.NoError(t, err) assert.Equal(t, 10, n) require.NoError(t, item.Close(nil)) checkObject(t, r, "existing", contents[:10]+"HELLO"+contents[15:95]+"THEND"+zeroes[:20]+"THEVERYEND") } func TestItemLoadMeta(t *testing.T) { r, c := newItemTestCache(t) contents, obj, item := newFile(t, r, c, "existing") _ = contents // Open the object to create metadata for it require.NoError(t, item.Open(obj)) require.NoError(t, item.Close(nil)) info := item.info // Remove the item from the cache c.mu.Lock() delete(c.item, item.name) c.mu.Unlock() // Reload the item so we have to load the metadata item2, _ := c._get("existing") require.NoError(t, item2.Open(obj)) info2 := item.info require.NoError(t, item2.Close(nil)) // Check that the item is different assert.NotEqual(t, item, item2) // ... but the info is the same assert.Equal(t, info, info2) } func TestItemReload(t *testing.T) { r, c := newItemTestCache(t) contents, obj, item := newFile(t, r, c, "existing") _ = contents // Open the object to create metadata for it require.NoError(t, item.Open(obj)) // Make it dirty n, err := item.WriteAt([]byte("THEENDMYFRIEND"), 95) require.NoError(t, err) assert.Equal(t, 14, n) assert.True(t, item.IsDirty()) // Close the file to pacify Windows, but don't call item.Close() item.mu.Lock() require.NoError(t, item.fd.Close()) item.fd = nil item.mu.Unlock() // Remove the item from the cache c.mu.Lock() delete(c.item, item.name) c.mu.Unlock() // Reload the item so we have to load the metadata and restart // the transfer item2, _ := c._get("existing") require.NoError(t, item2.reload(context.Background())) assert.False(t, item2.IsDirty()) // Check that the item is different assert.NotEqual(t, item, item2) // And check the contents got written back to the remote checkObject(t, r, "existing", contents[:95]+"THEENDMYFRIEND") // And check that AddVirtual was called assert.Equal(t, []avInfo{ {Remote: "existing", Size: 109, IsDir: false}, }, avInfos) } func TestItemReloadRemoteGone(t *testing.T) { r, c := newItemTestCache(t) contents, obj, item := newFile(t, r, c, "existing") _ = contents // Open the object to create metadata for it require.NoError(t, item.Open(obj)) size, err := item.GetSize() require.NoError(t, err) assert.Equal(t, int64(100), size) // Read something to instantiate the cache file buf := make([]byte, 10) _, err = item.ReadAt(buf, 10) require.NoError(t, err) // Test cache file present _, err = os.Stat(item.c.toOSPath(item.name)) require.NoError(t, err) require.NoError(t, item.Close(nil)) // Remove the remote object require.NoError(t, obj.Remove(context.Background())) // Re-open with no object require.NoError(t, item.Open(nil)) // Check size is now 0 size, err = item.GetSize() require.NoError(t, err) assert.Equal(t, int64(0), size) // Test cache file is now empty fi, err := os.Stat(item.c.toOSPath(item.name)) require.NoError(t, err) assert.Equal(t, int64(0), fi.Size()) require.NoError(t, item.Close(nil)) } func TestItemReloadCacheStale(t *testing.T) { r, c := newItemTestCache(t) contents, obj, item := newFile(t, r, c, "existing") // Open the object to create metadata for it require.NoError(t, item.Open(obj)) size, err := item.GetSize() require.NoError(t, err) assert.Equal(t, int64(100), size) // Read something to instantiate the cache file buf := make([]byte, 10) _, err = item.ReadAt(buf, 10) require.NoError(t, err) // Test cache file present _, err = os.Stat(item.c.toOSPath(item.name)) require.NoError(t, err) require.NoError(t, item.Close(nil)) // Update the remote to something different contents2, obj, item := newFileLength(t, r, c, "existing", 110) assert.NotEqual(t, contents, contents2) // Re-open with updated object oldFingerprint := item.info.Fingerprint assert.NotEqual(t, "", oldFingerprint) require.NoError(t, item.Open(obj)) // Make sure fingerprint was updated assert.NotEqual(t, oldFingerprint, item.info.Fingerprint) assert.NotEqual(t, "", item.info.Fingerprint) // Check size is now 110 size, err = item.GetSize() require.NoError(t, err) assert.Equal(t, int64(110), size) // Test cache file is now correct size fi, err := os.Stat(item.c.toOSPath(item.name)) require.NoError(t, err) assert.Equal(t, int64(110), fi.Size()) // Write to the file to make it dirty // This checks we aren't re-using stale data n, err := item.WriteAt([]byte("HELLO"), 0) require.NoError(t, err) assert.Equal(t, 5, n) assert.Equal(t, true, item.IsDirty()) require.NoError(t, item.Close(nil)) // Now check with all that swizzling stuff around that the // object is correct checkObject(t, r, "existing", "HELLO"+contents2[5:]) } func TestItemReadWrite(t *testing.T) { r, c := newItemTestCache(t) const ( size = 50*1024*1024 + 123 fileName = "large" ) item, _ := c.get(fileName) require.NoError(t, item.Open(nil)) // Create the test file in := readers.NewPatternReader(size) buf := make([]byte, 1024*1024) buf2 := make([]byte, 1024*1024) offset := int64(0) for { n, err := in.Read(buf) n2, err2 := item.WriteAt(buf[:n], offset) offset += int64(n2) require.NoError(t, err2) require.Equal(t, n, n2) if err == io.EOF { break } require.NoError(t, err) } // Check it is the right size readSize, err := item.GetSize() require.NoError(t, err) assert.Equal(t, int64(size), readSize) require.NoError(t, item.Close(nil)) assert.False(t, item.remove(fileName)) obj, err := r.Fremote.NewObject(context.Background(), fileName) require.NoError(t, err) assert.Equal(t, int64(size), obj.Size()) // read and check a block of size N at offset // It returns eof true if the end of file has been reached readCheckBuf := func(t *testing.T, in io.ReadSeeker, buf, buf2 []byte, item *Item, offset int64, N int) (n int, eof bool) { what := fmt.Sprintf("buf=%p, buf2=%p, item=%p, offset=%d, N=%d", buf, buf2, item, offset, N) n, err := item.ReadAt(buf, offset) _, err2 := in.Seek(offset, io.SeekStart) require.NoError(t, err2, what) n2, err2 := in.Read(buf2[:n]) require.Equal(t, n, n2, what) assert.Equal(t, buf[:n], buf2[:n2], what) assert.Equal(t, buf[:n], buf2[:n2], what) if err == io.EOF { return n, true } require.NoError(t, err, what) require.NoError(t, err2, what) return n, false } readCheck := func(t *testing.T, item *Item, offset int64, N int) (n int, eof bool) { return readCheckBuf(t, in, buf, buf2, item, offset, N) } // Read it back sequentially t.Run("Sequential", func(t *testing.T) { require.NoError(t, item.Open(obj)) assert.False(t, item.present()) offset := int64(0) for { n, eof := readCheck(t, item, offset, len(buf)) offset += int64(n) if eof { break } } assert.Equal(t, int64(size), offset) require.NoError(t, item.Close(nil)) assert.False(t, item.remove(fileName)) }) // Read it back randomly t.Run("Random", func(t *testing.T) { require.NoError(t, item.Open(obj)) assert.False(t, item.present()) for !item.present() { blockSize := rand.Intn(len(buf)) offset := rand.Int63n(size+2*int64(blockSize)) - int64(blockSize) if offset < 0 { offset = 0 } _, _ = readCheck(t, item, offset, blockSize) } require.NoError(t, item.Close(nil)) assert.False(t, item.remove(fileName)) }) // Read it back randomly concurrently t.Run("RandomConcurrent", func(t *testing.T) { require.NoError(t, item.Open(obj)) assert.False(t, item.present()) var wg sync.WaitGroup for i := 0; i < 8; i++ { wg.Add(1) go func() { defer wg.Done() in := readers.NewPatternReader(size) buf := make([]byte, 1024*1024) buf2 := make([]byte, 1024*1024) for !item.present() { blockSize := rand.Intn(len(buf)) offset := rand.Int63n(size+2*int64(blockSize)) - int64(blockSize) if offset < 0 { offset = 0 } _, _ = readCheckBuf(t, in, buf, buf2, item, offset, blockSize) } }() } wg.Wait() require.NoError(t, item.Close(nil)) assert.False(t, item.remove(fileName)) }) // Read it back in reverse which creates the maximum number of // downloaders t.Run("Reverse", func(t *testing.T) { require.NoError(t, item.Open(obj)) assert.False(t, item.present()) offset := int64(size) for { blockSize := len(buf) offset -= int64(blockSize) if offset < 0 { offset = 0 blockSize += int(offset) } _, _ = readCheck(t, item, offset, blockSize) if offset == 0 { break } } require.NoError(t, item.Close(nil)) assert.False(t, item.remove(fileName)) }) }