package restic import ( "crypto/sha256" "encoding/json" "errors" "fmt" "io" "io/ioutil" "sync" "github.com/restic/restic/backend" "github.com/restic/restic/chunker" "github.com/restic/restic/crypto" "github.com/restic/restic/debug" ) type Server struct { be backend.Backend key *Key } func NewServer(be backend.Backend) Server { return Server{be: be} } func (s *Server) SetKey(k *Key) { s.key = k } // ChunkerPolynomial returns the secret polynomial used for content defined chunking. func (s *Server) ChunkerPolynomial() chunker.Pol { return chunker.Pol(s.key.Master().ChunkerPolynomial) } // Find loads the list of all blobs of type t and searches for names which start // with prefix. If none is found, nil and ErrNoIDPrefixFound is returned. If // more than one is found, nil and ErrMultipleIDMatches is returned. func (s Server) Find(t backend.Type, prefix string) (string, error) { return backend.Find(s.be, t, prefix) } // FindSnapshot takes a string and tries to find a snapshot whose ID matches // the string as closely as possible. func (s Server) FindSnapshot(name string) (string, error) { return backend.FindSnapshot(s.be, name) } // PrefixLength returns the number of bytes required so that all prefixes of // all IDs of type t are unique. func (s Server) PrefixLength(t backend.Type) (int, error) { return backend.PrefixLength(s.be, t) } // Load tries to load and decrypt content identified by t and blob from the // backend. If the blob specifies an ID, the decrypted plaintext is checked // against this ID. The same goes for blob.Size and blob.StorageSize: If they // are set to a value > 0, this value is checked. func (s Server) Load(t backend.Type, blob Blob) ([]byte, error) { // load data rd, err := s.be.Get(t, blob.Storage.String()) if err != nil { return nil, err } buf, err := ioutil.ReadAll(rd) if err != nil { return nil, err } // check hash if !backend.Hash(buf).Equal(blob.Storage) { return nil, errors.New("invalid data returned") } // check length if blob.StorageSize > 0 && len(buf) != int(blob.StorageSize) { return nil, errors.New("Invalid storage length") } // decrypt buf, err = s.Decrypt(buf) if err != nil { return nil, err } // check length if blob.Size > 0 && len(buf) != int(blob.Size) { return nil, errors.New("Invalid length") } // check SHA256 sum if blob.ID != nil { id := backend.Hash(buf) if !blob.ID.Equal(id) { return nil, fmt.Errorf("load %v: expected plaintext hash %v, got %v", blob.Storage, blob.ID, id) } } return buf, nil } // Load tries to load and decrypt content identified by t and id from the backend. func (s Server) LoadID(t backend.Type, storageID backend.ID) ([]byte, error) { return s.Load(t, Blob{Storage: storageID}) } // LoadJSON calls Load() to get content from the backend and afterwards calls // json.Unmarshal on the item. func (s Server) LoadJSON(t backend.Type, blob Blob, item interface{}) error { buf, err := s.Load(t, blob) if err != nil { return err } return json.Unmarshal(buf, item) } // LoadJSONID calls Load() to get content from the backend and afterwards calls // json.Unmarshal on the item. func (s Server) LoadJSONID(t backend.Type, id backend.ID, item interface{}) error { // read rd, err := s.be.Get(t, id.String()) if err != nil { return err } defer rd.Close() // decrypt decryptRd, err := s.key.DecryptFrom(rd) defer decryptRd.Close() if err != nil { return err } // decode decoder := json.NewDecoder(decryptRd) err = decoder.Decode(item) if err != nil { return err } return nil } // Save encrypts data and stores it to the backend as type t. func (s Server) Save(t backend.Type, data []byte, id backend.ID) (Blob, error) { if id == nil { // compute plaintext hash id = backend.Hash(data) } // create a new blob blob := Blob{ ID: id, Size: uint64(len(data)), } var ciphertext []byte // if the data is small enough, use a slice from the pool if len(data) <= maxCiphertextSize-crypto.Extension { ciphertext = GetChunkBuf("ch.Save()") defer FreeChunkBuf("ch.Save()", ciphertext) } else { l := len(data) + crypto.Extension debug.Log("Server.Save", "create large slice of %d bytes for ciphertext", l) // use a new slice ciphertext = make([]byte, l) } // encrypt blob ciphertext, err := s.Encrypt(ciphertext, data) if err != nil { return Blob{}, err } // compute ciphertext hash sid := backend.Hash(ciphertext) // save blob backendBlob, err := s.be.Create() if err != nil { return Blob{}, err } _, err = backendBlob.Write(ciphertext) if err != nil { return Blob{}, err } err = backendBlob.Finalize(t, sid.String()) if err != nil { return Blob{}, err } blob.Storage = sid blob.StorageSize = uint64(len(ciphertext)) return blob, nil } // SaveFrom encrypts data read from rd and stores it to the backend as type t. func (s Server) SaveFrom(t backend.Type, id backend.ID, length uint, rd io.Reader) (Blob, error) { if id == nil { return Blob{}, errors.New("id is nil") } backendBlob, err := s.be.Create() if err != nil { return Blob{}, err } hw := backend.NewHashingWriter(backendBlob, sha256.New()) encWr := s.key.EncryptTo(hw) _, err = io.Copy(encWr, rd) if err != nil { return Blob{}, err } // finish encryption err = encWr.Close() if err != nil { return Blob{}, fmt.Errorf("EncryptedWriter.Close(): %v", err) } // finish backend blob sid := backend.ID(hw.Sum(nil)) err = backendBlob.Finalize(t, sid.String()) if err != nil { return Blob{}, fmt.Errorf("backend.Blob.Close(): %v", err) } return Blob{ ID: id, Size: uint64(length), Storage: sid, StorageSize: uint64(backendBlob.Size()), }, nil } // SaveJSON serialises item as JSON and encrypts and saves it in the backend as // type t. func (s Server) SaveJSON(t backend.Type, item interface{}) (Blob, error) { backendBlob, err := s.be.Create() if err != nil { return Blob{}, fmt.Errorf("Create: %v", err) } storagehw := backend.NewHashingWriter(backendBlob, sha256.New()) encWr := s.key.EncryptTo(storagehw) plainhw := backend.NewHashingWriter(encWr, sha256.New()) enc := json.NewEncoder(plainhw) err = enc.Encode(item) if err != nil { return Blob{}, fmt.Errorf("json.NewEncoder: %v", err) } // finish encryption err = encWr.Close() if err != nil { return Blob{}, fmt.Errorf("EncryptedWriter.Close(): %v", err) } // finish backend blob sid := backend.ID(storagehw.Sum(nil)) err = backendBlob.Finalize(t, sid.String()) if err != nil { return Blob{}, fmt.Errorf("backend.Blob.Close(): %v", err) } id := backend.ID(plainhw.Sum(nil)) return Blob{ ID: id, Size: uint64(plainhw.Size()), Storage: sid, StorageSize: uint64(backendBlob.Size()), }, nil } // Returns the backend used for this server. func (s Server) Backend() backend.Backend { return s.be } func (s *Server) SearchKey(password string) error { key, err := SearchKey(*s, password) if err != nil { return err } s.key = key return nil } func (s Server) Decrypt(ciphertext []byte) ([]byte, error) { if s.key == nil { return nil, errors.New("key for server not set") } return s.key.Decrypt([]byte{}, ciphertext) } func (s Server) Encrypt(ciphertext, plaintext []byte) ([]byte, error) { if s.key == nil { return nil, errors.New("key for server not set") } return s.key.Encrypt(ciphertext, plaintext) } func (s Server) Key() *Key { return s.key } type ServerStats struct { Blobs, Trees uint } // Stats returns statistics for this backend and the server. func (s Server) Stats() (ServerStats, error) { blobs := backend.NewIDSet() // load all trees, in parallel worker := func(wg *sync.WaitGroup, b <-chan Blob) { for blob := range b { tree, err := LoadTree(s, blob) // ignore error and advance to next tree if err != nil { return } for _, id := range tree.Map.StorageIDs() { blobs.Insert(id) } } wg.Done() } blobCh := make(chan Blob) // start workers var wg sync.WaitGroup for i := 0; i < maxConcurrency; i++ { wg.Add(1) go worker(&wg, blobCh) } // list ids trees := 0 done := make(chan struct{}) defer close(done) for name := range s.List(backend.Tree, done) { trees++ id, err := backend.ParseID(name) if err != nil { debug.Log("Server.Stats", "unable to parse name %v as id: %v", name, err) continue } blobCh <- Blob{Storage: id} } close(blobCh) // wait for workers wg.Wait() return ServerStats{Blobs: uint(blobs.Len()), Trees: uint(trees)}, nil } // Count returns the number of blobs of a given type in the backend. func (s Server) Count(t backend.Type) (n int) { for _ = range s.List(t, nil) { n++ } return } // Proxy methods to backend func (s Server) List(t backend.Type, done <-chan struct{}) <-chan string { return s.be.List(t, done) } func (s Server) Test(t backend.Type, name string) (bool, error) { return s.be.Test(t, name) } func (s Server) Remove(t backend.Type, name string) error { return s.be.Remove(t, name) } func (s Server) Close() error { return s.be.Close() } func (s Server) Delete() error { if b, ok := s.be.(backend.Deleter); ok { return b.Delete() } return errors.New("Delete() called for backend that does not implement this method") } func (s Server) ID() string { return s.be.ID() } func (s Server) Location() string { return s.be.Location() }