package mem import ( "bytes" "context" "io" "io/ioutil" "restic" "sync" "restic/errors" "restic/debug" ) type memMap map[restic.Handle][]byte // make sure that MemoryBackend implements backend.Backend var _ restic.Backend = &MemoryBackend{} var errNotFound = errors.New("not found") // MemoryBackend is a mock backend that uses a map for storing all data in // memory. This should only be used for tests. type MemoryBackend struct { data memMap m sync.Mutex } // New returns a new backend that saves all data in a map in memory. func New() *MemoryBackend { be := &MemoryBackend{ data: make(memMap), } debug.Log("created new memory backend") return be } // Test returns whether a file exists. func (be *MemoryBackend) Test(ctx context.Context, h restic.Handle) (bool, error) { be.m.Lock() defer be.m.Unlock() debug.Log("Test %v", h) if _, ok := be.data[h]; ok { return true, nil } return false, nil } // IsNotExist returns true if the file does not exist. func (be *MemoryBackend) IsNotExist(err error) bool { return errors.Cause(err) == errNotFound } // Save adds new Data to the backend. func (be *MemoryBackend) Save(ctx context.Context, h restic.Handle, rd io.Reader) error { if err := h.Valid(); err != nil { return err } be.m.Lock() defer be.m.Unlock() if h.Type == restic.ConfigFile { h.Name = "" } if _, ok := be.data[h]; ok { return errors.New("file already exists") } buf, err := ioutil.ReadAll(rd) if err != nil { return err } be.data[h] = buf debug.Log("saved %v bytes at %v", len(buf), h) return nil } // Load returns a reader that yields the contents of the file at h at the // given offset. If length is nonzero, only a portion of the file is // returned. rd must be closed after use. func (be *MemoryBackend) Load(ctx context.Context, h restic.Handle, length int, offset int64) (io.ReadCloser, error) { if err := h.Valid(); err != nil { return nil, err } be.m.Lock() defer be.m.Unlock() if h.Type == restic.ConfigFile { h.Name = "" } debug.Log("Load %v offset %v len %v", h, offset, length) if offset < 0 { return nil, errors.New("offset is negative") } if _, ok := be.data[h]; !ok { return nil, errNotFound } buf := be.data[h] if offset > int64(len(buf)) { return nil, errors.New("offset beyond end of file") } buf = buf[offset:] if length > 0 && len(buf) > length { buf = buf[:length] } return ioutil.NopCloser(bytes.NewReader(buf)), nil } // Stat returns information about a file in the backend. func (be *MemoryBackend) Stat(ctx context.Context, h restic.Handle) (restic.FileInfo, error) { be.m.Lock() defer be.m.Unlock() if err := h.Valid(); err != nil { return restic.FileInfo{}, err } if h.Type == restic.ConfigFile { h.Name = "" } debug.Log("stat %v", h) e, ok := be.data[h] if !ok { return restic.FileInfo{}, errNotFound } return restic.FileInfo{Size: int64(len(e))}, nil } // Remove deletes a file from the backend. func (be *MemoryBackend) Remove(ctx context.Context, h restic.Handle) error { be.m.Lock() defer be.m.Unlock() debug.Log("Remove %v", h) if _, ok := be.data[h]; !ok { return errNotFound } delete(be.data, h) return nil } // List returns a channel which yields entries from the backend. func (be *MemoryBackend) List(ctx context.Context, t restic.FileType) <-chan string { be.m.Lock() defer be.m.Unlock() ch := make(chan string) var ids []string for entry := range be.data { if entry.Type != t { continue } ids = append(ids, entry.Name) } debug.Log("list %v: %v", t, ids) go func() { defer close(ch) for _, id := range ids { select { case ch <- id: case <-ctx.Done(): return } } }() return ch } // Location returns the location of the backend (RAM). func (be *MemoryBackend) Location() string { return "RAM" } // Delete removes all data in the backend. func (be *MemoryBackend) Delete(ctx context.Context) error { be.m.Lock() defer be.m.Unlock() be.data = make(memMap) return nil } // Close closes the backend. func (be *MemoryBackend) Close() error { return nil }