package repository import ( "bytes" "encoding/json" "errors" "fmt" "io" "io/ioutil" "os" "github.com/restic/restic/backend" "github.com/restic/restic/crypto" "github.com/restic/restic/debug" "github.com/restic/restic/pack" ) // Repository is used to access a repository in a backend. type Repository struct { be backend.Backend Config Config key *crypto.Key keyName string idx *MasterIndex *packerManager } // New returns a new repository with backend be. func New(be backend.Backend) *Repository { return &Repository{ be: be, idx: NewMasterIndex(), packerManager: &packerManager{ be: be, }, } } // 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 (r *Repository) Find(t backend.Type, prefix string) (string, error) { return backend.Find(r.be, t, prefix) } // PrefixLength returns the number of bytes required so that all prefixes of // all IDs of type t are unique. func (r *Repository) PrefixLength(t backend.Type) (int, error) { return backend.PrefixLength(r.be, t) } // LoadAndDecrypt loads and decrypts data identified by t and id from the // backend. func (r *Repository) LoadAndDecrypt(t backend.Type, id backend.ID) ([]byte, error) { debug.Log("Repo.Load", "load %v with id %v", t, id.Str()) h := backend.Handle{Type: t, Name: id.String()} buf, err := backend.LoadAll(r.be, h, nil) if err != nil { debug.Log("Repo.Load", "error loading %v: %v", id.Str(), err) return nil, err } if t != backend.Config && !backend.Hash(buf).Equal(id) { return nil, errors.New("invalid data returned") } // decrypt plain, err := r.Decrypt(buf) if err != nil { return nil, err } return plain, nil } // LoadBlob tries to load and decrypt content identified by t and id from a // pack from the backend, the result is stored in plaintextBuf, which must be // large enough to hold the complete blob. func (r *Repository) LoadBlob(t pack.BlobType, id backend.ID, plaintextBuf []byte) ([]byte, error) { debug.Log("Repo.LoadBlob", "load %v with id %v", t, id.Str()) // lookup pack blob, err := r.idx.Lookup(id) if err != nil { debug.Log("Repo.LoadBlob", "id %v not found in index: %v", id.Str(), err) return nil, err } plaintextBufSize := uint(cap(plaintextBuf)) if blob.PlaintextLength() > plaintextBufSize { debug.Log("Repo.LoadBlob", "need to expand buffer: want %d bytes, got %d", blob.PlaintextLength(), plaintextBufSize) plaintextBuf = make([]byte, blob.PlaintextLength()) } if blob.Type != t { debug.Log("Repo.LoadBlob", "wrong type returned for %v: wanted %v, got %v", id.Str(), t, blob.Type) return nil, fmt.Errorf("blob has wrong type %v (wanted: %v)", blob.Type, t) } debug.Log("Repo.LoadBlob", "id %v found: %v", id.Str(), blob) // load blob from pack h := backend.Handle{Type: backend.Data, Name: blob.PackID.String()} ciphertextBuf := make([]byte, blob.Length) n, err := r.be.Load(h, ciphertextBuf, int64(blob.Offset)) if err != nil { debug.Log("Repo.LoadBlob", "error loading blob %v: %v", blob, err) return nil, err } if uint(n) != blob.Length { debug.Log("Repo.LoadBlob", "error loading blob %v: wrong length returned, want %d, got %d", blob.Length, uint(n)) return nil, errors.New("wrong length returned") } // decrypt plaintextBuf, err = r.decryptTo(plaintextBuf, ciphertextBuf) if err != nil { return nil, err } // check hash if !backend.Hash(plaintextBuf).Equal(id) { return nil, errors.New("invalid data returned") } return plaintextBuf, nil } // closeOrErr calls cl.Close() and sets err to the returned error value if // itself is not yet set. func closeOrErr(cl io.Closer, err *error) { e := cl.Close() if *err != nil { return } *err = e } // LoadJSONUnpacked decrypts the data and afterwards calls json.Unmarshal on // the item. func (r *Repository) LoadJSONUnpacked(t backend.Type, id backend.ID, item interface{}) (err error) { buf, err := r.LoadAndDecrypt(t, id) if err != nil { return err } return json.Unmarshal(buf, item) } // LoadJSONPack calls LoadBlob() to load a blob from the backend, decrypt the // data and afterwards call json.Unmarshal on the item. func (r *Repository) LoadJSONPack(t pack.BlobType, id backend.ID, item interface{}) (err error) { buf, err := r.LoadBlob(t, id, nil) if err != nil { return err } return json.Unmarshal(buf, item) } // LookupBlobSize returns the size of blob id. func (r *Repository) LookupBlobSize(id backend.ID) (uint, error) { return r.idx.LookupSize(id) } // SaveAndEncrypt encrypts data and stores it to the backend as type t. If data // is small enough, it will be packed together with other small blobs. func (r *Repository) SaveAndEncrypt(t pack.BlobType, data []byte, id *backend.ID) (backend.ID, error) { if id == nil { // compute plaintext hash hashedID := backend.Hash(data) id = &hashedID } debug.Log("Repo.Save", "save id %v (%v, %d bytes)", id.Str(), t, len(data)) // get buf from the pool ciphertext := getBuf() defer freeBuf(ciphertext) // encrypt blob ciphertext, err := r.Encrypt(ciphertext, data) if err != nil { return backend.ID{}, err } // find suitable packer and add blob packer, err := r.findPacker(uint(len(ciphertext))) if err != nil { return backend.ID{}, err } // save ciphertext _, err = packer.Add(t, *id, bytes.NewReader(ciphertext)) if err != nil { return backend.ID{}, err } // if the pack is not full enough and there are less than maxPackers // packers, put back to the list if packer.Size() < minPackSize && r.countPacker() < maxPackers { debug.Log("Repo.Save", "pack is not full enough (%d bytes)", packer.Size()) r.insertPacker(packer) return *id, nil } // else write the pack to the backend return *id, r.savePacker(packer) } // SaveFrom encrypts data read from rd and stores it in a pack in the backend as type t. func (r *Repository) SaveFrom(t pack.BlobType, id *backend.ID, length uint, rd io.Reader) error { debug.Log("Repo.SaveFrom", "save id %v (%v, %d bytes)", id.Str(), t, length) if id == nil { return errors.New("id is nil") } buf, err := ioutil.ReadAll(rd) if err != nil { return err } _, err = r.SaveAndEncrypt(t, buf, id) if err != nil { return err } return nil } // SaveJSON serialises item as JSON and encrypts and saves it in a pack in the // backend as type t. func (r *Repository) SaveJSON(t pack.BlobType, item interface{}) (backend.ID, error) { debug.Log("Repo.SaveJSON", "save %v blob", t) buf := getBuf()[:0] defer freeBuf(buf) wr := bytes.NewBuffer(buf) enc := json.NewEncoder(wr) err := enc.Encode(item) if err != nil { return backend.ID{}, fmt.Errorf("json.Encode: %v", err) } buf = wr.Bytes() return r.SaveAndEncrypt(t, buf, nil) } // SaveJSONUnpacked serialises item as JSON and encrypts and saves it in the // backend as type t, without a pack. It returns the storage hash. func (r *Repository) SaveJSONUnpacked(t backend.Type, item interface{}) (backend.ID, error) { debug.Log("Repo.SaveJSONUnpacked", "save new blob %v", t) plaintext, err := json.Marshal(item) if err != nil { return backend.ID{}, fmt.Errorf("json.Encode: %v", err) } return r.SaveUnpacked(t, plaintext) } // SaveUnpacked encrypts data and stores it in the backend. Returned is the // storage hash. func (r *Repository) SaveUnpacked(t backend.Type, p []byte) (id backend.ID, err error) { ciphertext := make([]byte, len(p)+crypto.Extension) ciphertext, err = r.Encrypt(ciphertext, p) if err != nil { return backend.ID{}, err } id = backend.Hash(ciphertext) h := backend.Handle{Type: t, Name: id.String()} err = r.be.Save(h, ciphertext) if err != nil { debug.Log("Repo.SaveJSONUnpacked", "error saving blob %v: %v", h, err) return backend.ID{}, err } debug.Log("Repo.SaveJSONUnpacked", "blob %v saved", h) return id, nil } // Flush saves all remaining packs. func (r *Repository) Flush() error { r.pm.Lock() defer r.pm.Unlock() debug.Log("Repo.Flush", "manually flushing %d packs", len(r.packs)) for _, p := range r.packs { err := r.savePacker(p) if err != nil { return err } } r.packs = r.packs[:0] return nil } // Backend returns the backend for the repository. func (r *Repository) Backend() backend.Backend { return r.be } // Index returns the currently used MasterIndex. func (r *Repository) Index() *MasterIndex { return r.idx } // SetIndex instructs the repository to use the given index. func (r *Repository) SetIndex(i *MasterIndex) { r.idx = i } // SaveIndex saves an index in the repository. func SaveIndex(repo *Repository, index *Index) (backend.ID, error) { buf := bytes.NewBuffer(nil) err := index.Finalize(buf) if err != nil { return backend.ID{}, err } return repo.SaveUnpacked(backend.Index, buf.Bytes()) } // saveIndex saves all indexes in the backend. func (r *Repository) saveIndex(indexes ...*Index) error { for i, idx := range indexes { debug.Log("Repo.SaveIndex", "Saving index %d", i) sid, err := SaveIndex(r, idx) if err != nil { return err } debug.Log("Repo.SaveIndex", "Saved index %d as %v", i, sid.Str()) } return nil } // SaveIndex saves all new indexes in the backend. func (r *Repository) SaveIndex() error { return r.saveIndex(r.idx.NotFinalIndexes()...) } // SaveFullIndex saves all full indexes in the backend. func (r *Repository) SaveFullIndex() error { return r.saveIndex(r.idx.FullIndexes()...) } const loadIndexParallelism = 20 // LoadIndex loads all index files from the backend in parallel and stores them // in the master index. The first error that occurred is returned. func (r *Repository) LoadIndex() error { debug.Log("Repo.LoadIndex", "Loading index") errCh := make(chan error, 1) indexes := make(chan *Index) worker := func(id string, done <-chan struct{}) error { idx, err := LoadIndex(r, id) if err != nil { return err } select { case indexes <- idx: case <-done: } return nil } go func() { defer close(indexes) errCh <- FilesInParallel(r.be, backend.Index, loadIndexParallelism, worker) }() for idx := range indexes { r.idx.Insert(idx) } if err := <-errCh; err != nil { return err } return nil } // LoadIndex loads the index id from backend and returns it. func LoadIndex(repo *Repository, id string) (*Index, error) { idx, err := LoadIndexWithDecoder(repo, id, DecodeIndex) if err == nil { return idx, nil } if err == ErrOldIndexFormat { fmt.Fprintf(os.Stderr, "index %v has old format\n", id[:10]) return LoadIndexWithDecoder(repo, id, DecodeOldIndex) } return nil, err } // SearchKey finds a key with the supplied password, afterwards the config is // read and parsed. func (r *Repository) SearchKey(password string) error { key, err := SearchKey(r, password) if err != nil { return err } r.key = key.master r.packerManager.key = key.master r.keyName = key.Name() r.Config, err = LoadConfig(r) return err } // Init creates a new master key with the supplied password, initializes and // saves the repository config. func (r *Repository) Init(password string) error { has, err := r.be.Test(backend.Config, "") if err != nil { return err } if has { return errors.New("repository master key and config already initialized") } key, err := createMasterKey(r, password) if err != nil { return err } r.key = key.master r.packerManager.key = key.master r.keyName = key.Name() r.Config, err = CreateConfig(r) return err } // Decrypt authenticates and decrypts ciphertext and returns the plaintext. func (r *Repository) Decrypt(ciphertext []byte) ([]byte, error) { return r.decryptTo(nil, ciphertext) } // decrypt authenticates and decrypts ciphertext and stores the result in // plaintext. func (r *Repository) decryptTo(plaintext, ciphertext []byte) ([]byte, error) { if r.key == nil { return nil, errors.New("key for repository not set") } return crypto.Decrypt(r.key, nil, ciphertext) } // Encrypt encrypts and authenticates the plaintext and saves the result in // ciphertext. func (r *Repository) Encrypt(ciphertext, plaintext []byte) ([]byte, error) { if r.key == nil { return nil, errors.New("key for repository not set") } return crypto.Encrypt(r.key, ciphertext, plaintext) } // Key returns the current master key. func (r *Repository) Key() *crypto.Key { return r.key } // KeyName returns the name of the current key in the backend. func (r *Repository) KeyName() string { return r.keyName } // Count returns the number of blobs of a given type in the backend. func (r *Repository) Count(t backend.Type) (n uint) { for _ = range r.be.List(t, nil) { n++ } return } func (r *Repository) list(t backend.Type, done <-chan struct{}, out chan<- backend.ID) { defer close(out) in := r.be.List(t, done) var ( // disable sending on the outCh until we received a job outCh chan<- backend.ID // enable receiving from in inCh = in id backend.ID err error ) for { select { case <-done: return case strID, ok := <-inCh: if !ok { // input channel closed, we're done return } id, err = backend.ParseID(strID) if err != nil { // ignore invalid IDs continue } inCh = nil outCh = out case outCh <- id: outCh = nil inCh = in } } } // List returns a channel that yields all IDs of type t in the backend. func (r *Repository) List(t backend.Type, done <-chan struct{}) <-chan backend.ID { outCh := make(chan backend.ID) go r.list(t, done, outCh) return outCh } // Delete calls backend.Delete() if implemented, and returns an error // otherwise. func (r *Repository) Delete() error { if b, ok := r.be.(backend.Deleter); ok { return b.Delete() } return errors.New("Delete() called for backend that does not implement this method") } // Close closes the repository by closing the backend. func (r *Repository) Close() error { return r.be.Close() }