package cryptostore import keys "github.com/tendermint/go-crypto/keys" // Manager combines encyption and storage implementation to provide // a full-featured key manager type Manager struct { es encryptedStorage } func New(coder Encoder, store keys.Storage) Manager { return Manager{ es: encryptedStorage{ coder: coder, store: store, }, } } // exists just to make sure we fulfill the Signer interface func (s Manager) assertSigner() keys.Signer { return s } // exists just to make sure we fulfill the Manager interface func (s Manager) assertKeyManager() keys.Manager { return s } // Create adds a new key to the storage engine, returning error if // another key already stored under this name // // algo must be a supported go-crypto algorithm: // func (s Manager) Create(name, passphrase, algo string) (keys.Info, string, error) { gen, err := getGenerator(algo) if err != nil { return keys.Info{}, "", err } key := gen.Generate() err = s.es.Put(name, passphrase, key) // TODO return info(name, key), "", err } func (s Manager) Recover(name, passphrase, seedphrase string) (keys.Info, error) { // TODO return keys.Info{}, nil } // List loads the keys from the storage and enforces alphabetical order func (s Manager) List() (keys.Infos, error) { res, err := s.es.List() res.Sort() return res, err } // Get returns the public information about one key func (s Manager) Get(name string) (keys.Info, error) { _, info, err := s.es.store.Get(name) return info, err } // Sign will modify the Signable in order to attach a valid signature with // this public key // // If no key for this name, or the passphrase doesn't match, returns an error func (s Manager) Sign(name, passphrase string, tx keys.Signable) error { key, _, err := s.es.Get(name, passphrase) if err != nil { return err } sig := key.Sign(tx.SignBytes()) pubkey := key.PubKey() return tx.Sign(pubkey, sig) } // Export decodes the private key with the current password, encodes // it with a secure one-time password and generates a sequence that can be // Imported by another Manager // // This is designed to copy from one device to another, or provide backups // during version updates. func (s Manager) Export(name, oldpass, transferpass string) ([]byte, error) { key, _, err := s.es.Get(name, oldpass) if err != nil { return nil, err } res, err := s.es.coder.Encrypt(key, transferpass) return res, err } // Import accepts bytes generated by Export along with the same transferpass // If they are valid, it stores the password under the given name with the // new passphrase. func (s Manager) Import(name, newpass, transferpass string, data []byte) error { key, err := s.es.coder.Decrypt(data, transferpass) if err != nil { return err } return s.es.Put(name, newpass, key) } // Delete removes key forever, but we must present the // proper passphrase before deleting it (for security) func (s Manager) Delete(name, passphrase string) error { // verify we have the proper password before deleting _, _, err := s.es.Get(name, passphrase) if err != nil { return err } return s.es.Delete(name) } // Update changes the passphrase with which a already stored key is encoded. // // oldpass must be the current passphrase used for encoding, newpass will be // the only valid passphrase from this time forward func (s Manager) Update(name, oldpass, newpass string) error { key, _, err := s.es.Get(name, oldpass) if err != nil { return err } // we must delete first, as Putting over an existing name returns an error s.Delete(name, oldpass) return s.es.Put(name, newpass, key) }