package api import ( "context" "database/sql" "errors" "fmt" "math/big" "path/filepath" "sync" "time" "github.com/ethereum/go-ethereum/common" gethcommon "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" ethcrypto "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/ethclient" "github.com/ethereum/go-ethereum/event" "github.com/ethereum/go-ethereum/log" gethnode "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/p2p/enode" "github.com/status-im/status-go/account" "github.com/status-im/status-go/appdatabase" "github.com/status-im/status-go/crypto" "github.com/status-im/status-go/logutils" "github.com/status-im/status-go/mailserver/registry" "github.com/status-im/status-go/multiaccounts" "github.com/status-im/status-go/multiaccounts/accounts" "github.com/status-im/status-go/node" "github.com/status-im/status-go/notifications/push/fcm" "github.com/status-im/status-go/params" "github.com/status-im/status-go/rpc" accountssvc "github.com/status-im/status-go/services/accounts" "github.com/status-im/status-go/services/browsers" "github.com/status-im/status-go/services/permissions" "github.com/status-im/status-go/services/personal" "github.com/status-im/status-go/services/rpcfilters" "github.com/status-im/status-go/services/subscriptions" "github.com/status-im/status-go/services/typeddata" "github.com/status-im/status-go/services/wallet" "github.com/status-im/status-go/signal" "github.com/status-im/status-go/transactions" ) const ( //todo(jeka): should be removed fcmServerKey = "AAAAxwa-r08:APA91bFtMIToDVKGAmVCm76iEXtA4dn9MPvLdYKIZqAlNpLJbd12EgdBI9DSDSXKdqvIAgLodepmRhGVaWvhxnXJzVpE6MoIRuKedDV3kfHSVBhWFqsyoLTwXY4xeufL9Sdzb581U-lx" contractQueryTimeout = 1000 * time.Millisecond ) var ( // ErrWhisperClearIdentitiesFailure clearing whisper identities has failed. ErrWhisperClearIdentitiesFailure = errors.New("failed to clear whisper identities") // ErrWhisperIdentityInjectionFailure injecting whisper identities has failed. ErrWhisperIdentityInjectionFailure = errors.New("failed to inject identity into Whisper") // ErrUnsupportedRPCMethod is for methods not supported by the RPC interface ErrUnsupportedRPCMethod = errors.New("method is unsupported by RPC interface") // ErrRPCClientUnavailable is returned if an RPC client can't be retrieved. // This is a normal situation when a node is stopped. ErrRPCClientUnavailable = errors.New("JSON-RPC client is unavailable") ) // StatusBackend implements Status.im service type StatusBackend struct { mu sync.Mutex // rootDataDir is the same for all networks. rootDataDir string appDB *sql.DB statusNode *node.StatusNode personalAPI *personal.PublicAPI rpcFilters *rpcfilters.Service multiaccountsDB *multiaccounts.Database accountManager *account.Manager transactor *transactions.Transactor newNotification fcm.NotificationConstructor connectionState connectionState appState appState log log.Logger allowAllRPC bool // used only for tests, disables api method restrictions } // NewStatusBackend create a new NewStatusBackend instance func NewStatusBackend() *StatusBackend { defer log.Info("Status backend initialized", "version", params.Version, "commit", params.GitCommit) statusNode := node.New() accountManager := account.NewManager() transactor := transactions.NewTransactor() personalAPI := personal.NewAPI() notificationManager := fcm.NewNotification(fcmServerKey) rpcFilters := rpcfilters.New(statusNode) return &StatusBackend{ statusNode: statusNode, accountManager: accountManager, transactor: transactor, personalAPI: personalAPI, rpcFilters: rpcFilters, newNotification: notificationManager, log: log.New("package", "status-go/api.StatusBackend"), } } // StatusNode returns reference to node manager func (b *StatusBackend) StatusNode() *node.StatusNode { return b.statusNode } // AccountManager returns reference to account manager func (b *StatusBackend) AccountManager() *account.Manager { return b.accountManager } // Transactor returns reference to a status transactor func (b *StatusBackend) Transactor() *transactions.Transactor { return b.transactor } // IsNodeRunning confirm that node is running func (b *StatusBackend) IsNodeRunning() bool { return b.statusNode.IsRunning() } // StartNode start Status node, fails if node is already started func (b *StatusBackend) StartNode(config *params.NodeConfig) error { b.mu.Lock() defer b.mu.Unlock() if err := b.startNode(config); err != nil { signal.SendNodeCrashed(err) return err } return nil } func (b *StatusBackend) UpdateRootDataDir(datadir string) { b.mu.Lock() defer b.mu.Unlock() b.rootDataDir = datadir } func (b *StatusBackend) OpenAccounts() error { b.mu.Lock() defer b.mu.Unlock() if b.multiaccountsDB != nil { return nil } db, err := multiaccounts.InitializeDB(filepath.Join(b.rootDataDir, "accounts.sql")) if err != nil { return err } b.multiaccountsDB = db return nil } func (b *StatusBackend) GetAccounts() ([]multiaccounts.Account, error) { b.mu.Lock() defer b.mu.Unlock() if b.multiaccountsDB == nil { return nil, errors.New("accoutns db wasn't initialized") } return b.multiaccountsDB.GetAccounts() } func (b *StatusBackend) SaveAccount(account multiaccounts.Account) error { b.mu.Lock() defer b.mu.Unlock() if b.multiaccountsDB == nil { return errors.New("accoutns db wasn't initialized") } return b.multiaccountsDB.SaveAccount(account) } func (b *StatusBackend) ensureAppDBOpened(account multiaccounts.Account, password string) (err error) { b.mu.Lock() defer b.mu.Unlock() if b.appDB != nil { return nil } if len(b.rootDataDir) == 0 { return errors.New("root datadir wasn't provided") } path := filepath.Join(b.rootDataDir, fmt.Sprintf("app-%x.sql", account.Address)) b.appDB, err = appdatabase.InitializeDB(path, password) if err != nil { return err } return nil } func (b *StatusBackend) StartNodeWithAccount(acc multiaccounts.Account, password string) error { err := b.ensureAppDBOpened(acc, password) if err != nil { return err } conf, err := b.loadNodeConfig() if err != nil { return err } if err := logutils.OverrideRootLogWithConfig(conf, false); err != nil { return err } accountsDB := accounts.NewDB(b.appDB) chatAddr, err := accountsDB.GetChatAddress() if err != nil { return err } walletAddr, err := accountsDB.GetWalletAddress() if err != nil { return err } watchAddrs, err := accountsDB.GetAddresses() if err != nil { return err } login := account.LoginParams{ Password: password, ChatAddress: chatAddr, WatchAddresses: watchAddrs, MainAccount: walletAddr, } err = b.StartNode(conf) if err != nil { return err } err = b.SelectAccount(login) if err != nil { return err } err = b.multiaccountsDB.UpdateAccountTimestamp(acc.Address, time.Now().Unix()) if err != nil { return err } signal.SendLoggedIn() return nil } // StartNodeWithAccountAndConfig is used after account and config was generated. // In current setup account name and config is generated on the client side. Once/if it will be generated on // status-go side this flow can be simplified. func (b *StatusBackend) StartNodeWithAccountAndConfig(account multiaccounts.Account, password string, conf *params.NodeConfig, subaccs []accounts.Account) error { err := b.SaveAccount(account) if err != nil { return err } err = b.ensureAppDBOpened(account, password) if err != nil { return err } err = b.saveNodeConfig(conf) if err != nil { return err } err = accounts.NewDB(b.appDB).SaveAccounts(subaccs) if err != nil { return err } return b.StartNodeWithAccount(account, password) } func (b *StatusBackend) saveNodeConfig(config *params.NodeConfig) error { b.mu.Lock() defer b.mu.Unlock() return accounts.NewDB(b.appDB).SaveConfig(accounts.NodeConfigTag, config) } func (b *StatusBackend) loadNodeConfig() (*params.NodeConfig, error) { b.mu.Lock() defer b.mu.Unlock() conf := params.NodeConfig{} err := accounts.NewDB(b.appDB).GetConfig(accounts.NodeConfigTag, &conf) if err != nil { return nil, err } return &conf, nil } func (b *StatusBackend) rpcFiltersService() gethnode.ServiceConstructor { return func(*gethnode.ServiceContext) (gethnode.Service, error) { return rpcfilters.New(b.statusNode), nil } } func (b *StatusBackend) subscriptionService() gethnode.ServiceConstructor { return func(*gethnode.ServiceContext) (gethnode.Service, error) { return subscriptions.New(b.statusNode), nil } } func (b *StatusBackend) accountsService(accountsFeed *event.Feed) gethnode.ServiceConstructor { return func(*gethnode.ServiceContext) (gethnode.Service, error) { return accountssvc.NewService(accounts.NewDB(b.appDB), b.multiaccountsDB, b.accountManager, accountsFeed), nil } } func (b *StatusBackend) browsersService() gethnode.ServiceConstructor { return func(*gethnode.ServiceContext) (gethnode.Service, error) { return browsers.NewService(browsers.NewDB(b.appDB)), nil } } func (b *StatusBackend) permissionsService() gethnode.ServiceConstructor { return func(*gethnode.ServiceContext) (gethnode.Service, error) { return permissions.NewService(permissions.NewDB(b.appDB)), nil } } func (b *StatusBackend) walletService(network uint64, accountsFeed *event.Feed) gethnode.ServiceConstructor { return func(*gethnode.ServiceContext) (gethnode.Service, error) { return wallet.NewService(wallet.NewDB(b.appDB, network), accountsFeed), nil } } func (b *StatusBackend) startNode(config *params.NodeConfig) (err error) { defer func() { if r := recover(); r != nil { err = fmt.Errorf("node crashed on start: %v", err) } }() // Start by validating configuration if err := config.Validate(); err != nil { return err } accountsFeed := &event.Feed{} services := []gethnode.ServiceConstructor{} services = appendIf(config.UpstreamConfig.Enabled, services, b.rpcFiltersService()) services = append(services, b.subscriptionService()) services = appendIf(b.appDB != nil && b.multiaccountsDB != nil, services, b.accountsService(accountsFeed)) services = appendIf(config.BrowsersConfig.Enabled, services, b.browsersService()) services = appendIf(config.PermissionsConfig.Enabled, services, b.permissionsService()) services = appendIf(config.WalletConfig.Enabled, services, b.walletService(config.NetworkID, accountsFeed)) manager := b.accountManager.GetManager() if manager == nil { return errors.New("ethereum accounts.Manager is nil") } if err = b.statusNode.StartWithOptions(config, node.StartOptions{ Services: services, // The peers discovery protocols are started manually after // `node.ready` signal is sent. // It was discussed in https://github.com/status-im/status-go/pull/1333. StartDiscovery: false, AccountsManager: manager, }); err != nil { return } signal.SendNodeStarted() b.transactor.SetNetworkID(config.NetworkID) b.transactor.SetRPC(b.statusNode.RPCClient(), rpc.DefaultCallTimeout) b.personalAPI.SetRPC(b.statusNode.RPCPrivateClient(), rpc.DefaultCallTimeout) if err = b.registerHandlers(); err != nil { b.log.Error("Handler registration failed", "err", err) return } b.log.Info("Handlers registered") if err = b.reSelectAccount(); err != nil { b.log.Error("Reselect account failed", "err", err) return } b.log.Info("Account reselected") if st, err := b.statusNode.StatusService(); err == nil { st.SetAccountManager(b.AccountManager()) } if st, err := b.statusNode.PeerService(); err == nil { st.SetDiscoverer(b.StatusNode()) } signal.SendNodeReady() if err := b.statusNode.StartDiscovery(); err != nil { return err } return nil } // StopNode stop Status node. Stopped node cannot be resumed. func (b *StatusBackend) StopNode() error { b.mu.Lock() defer b.mu.Unlock() return b.stopNode() } func (b *StatusBackend) stopNode() error { if !b.IsNodeRunning() { return node.ErrNoRunningNode } defer signal.SendNodeStopped() return b.statusNode.Stop() } // RestartNode restart running Status node, fails if node is not running func (b *StatusBackend) RestartNode() error { b.mu.Lock() defer b.mu.Unlock() if !b.IsNodeRunning() { return node.ErrNoRunningNode } newcfg := *(b.statusNode.Config()) if err := b.stopNode(); err != nil { return err } return b.startNode(&newcfg) } // ResetChainData remove chain data from data directory. // Node is stopped, and new node is started, with clean data directory. func (b *StatusBackend) ResetChainData() error { b.mu.Lock() defer b.mu.Unlock() newcfg := *(b.statusNode.Config()) if err := b.stopNode(); err != nil { return err } // config is cleaned when node is stopped if err := b.statusNode.ResetChainData(&newcfg); err != nil { return err } signal.SendChainDataRemoved() return b.startNode(&newcfg) } // CallRPC executes public RPC requests on node's in-proc RPC server. func (b *StatusBackend) CallRPC(inputJSON string) (string, error) { client := b.statusNode.RPCClient() if client == nil { return "", ErrRPCClientUnavailable } return client.CallRaw(inputJSON), nil } // GetNodesFromContract returns a list of nodes from the contract func (b *StatusBackend) GetNodesFromContract(rpcEndpoint string, contractAddress string) ([]string, error) { var response []string ctx, cancel := context.WithTimeout(context.Background(), contractQueryTimeout) defer cancel() ethclient, err := ethclient.DialContext(ctx, rpcEndpoint) if err != nil { return response, err } contract, err := registry.NewNodes(gethcommon.HexToAddress(contractAddress), ethclient) if err != nil { return response, err } nodeCount, err := contract.NodeCount(nil) if err != nil { return response, err } one := big.NewInt(1) for i := big.NewInt(0); i.Cmp(nodeCount) < 0; i.Add(i, one) { node, err := contract.Nodes(nil, i) if err != nil { return response, err } response = append(response, node) } return response, nil } // CallPrivateRPC executes public and private RPC requests on node's in-proc RPC server. func (b *StatusBackend) CallPrivateRPC(inputJSON string) (string, error) { client := b.statusNode.RPCPrivateClient() if client == nil { return "", ErrRPCClientUnavailable } return client.CallRaw(inputJSON), nil } // SendTransaction creates a new transaction and waits until it's complete. func (b *StatusBackend) SendTransaction(sendArgs transactions.SendTxArgs, password string) (hash gethcommon.Hash, err error) { verifiedAccount, err := b.getVerifiedWalletAccount(sendArgs.From.String(), password) if err != nil { return hash, err } hash, err = b.transactor.SendTransaction(sendArgs, verifiedAccount) if err != nil { return } go b.rpcFilters.TriggerTransactionSentToUpstreamEvent(hash) return } func (b *StatusBackend) SendTransactionWithSignature(sendArgs transactions.SendTxArgs, sig []byte) (hash gethcommon.Hash, err error) { hash, err = b.transactor.SendTransactionWithSignature(sendArgs, sig) if err != nil { return } go b.rpcFilters.TriggerTransactionSentToUpstreamEvent(hash) return } // HashTransaction validate the transaction and returns new sendArgs and the transaction hash. func (b *StatusBackend) HashTransaction(sendArgs transactions.SendTxArgs) (transactions.SendTxArgs, gethcommon.Hash, error) { return b.transactor.HashTransaction(sendArgs) } // SignMessage checks the pwd vs the selected account and passes on the signParams // to personalAPI for message signature func (b *StatusBackend) SignMessage(rpcParams personal.SignParams) (hexutil.Bytes, error) { verifiedAccount, err := b.getVerifiedWalletAccount(rpcParams.Address, rpcParams.Password) if err != nil { return hexutil.Bytes{}, err } return b.personalAPI.Sign(rpcParams, verifiedAccount) } // Recover calls the personalAPI to return address associated with the private // key that was used to calculate the signature in the message func (b *StatusBackend) Recover(rpcParams personal.RecoverParams) (gethcommon.Address, error) { return b.personalAPI.Recover(rpcParams) } // SignTypedData accepts data and password. Gets verified account and signs typed data. func (b *StatusBackend) SignTypedData(typed typeddata.TypedData, address string, password string) (hexutil.Bytes, error) { account, err := b.getVerifiedWalletAccount(address, password) if err != nil { return hexutil.Bytes{}, err } chain := new(big.Int).SetUint64(b.StatusNode().Config().NetworkID) sig, err := typeddata.Sign(typed, account.AccountKey.PrivateKey, chain) if err != nil { return hexutil.Bytes{}, err } return hexutil.Bytes(sig), err } // HashTypedData generates the hash of TypedData. func (b *StatusBackend) HashTypedData(typed typeddata.TypedData) (common.Hash, error) { chain := new(big.Int).SetUint64(b.StatusNode().Config().NetworkID) hash, err := typeddata.ValidateAndHash(typed, chain) if err != nil { return common.Hash{}, err } return hash, err } func (b *StatusBackend) getVerifiedWalletAccount(address, password string) (*account.SelectedExtKey, error) { config := b.StatusNode().Config() var validAddress bool addresses := b.accountManager.WatchAddresses() mainAccountAddress, err := b.accountManager.MainAccountAddress() if err != nil { return nil, err } addresses = append(addresses, mainAccountAddress) for _, a := range addresses { if a.String() == address { validAddress = true break } } if !validAddress { b.log.Error("failed to get a selected account", "err", transactions.ErrInvalidTxSender) return nil, transactions.ErrInvalidTxSender } key, err := b.accountManager.VerifyAccountPassword(config.KeyStoreDir, address, password) if err != nil { b.log.Error("failed to verify account", "account", address, "error", err) return nil, err } return &account.SelectedExtKey{ Address: key.Address, AccountKey: key, }, nil } // registerHandlers attaches Status callback handlers to running node func (b *StatusBackend) registerHandlers() error { var clients []*rpc.Client if c := b.StatusNode().RPCClient(); c != nil { clients = append(clients, c) } else { return errors.New("RPC client unavailable") } if c := b.StatusNode().RPCPrivateClient(); c != nil { clients = append(clients, c) } else { return errors.New("RPC private client unavailable") } for _, client := range clients { client.RegisterHandler( params.AccountsMethodName, func(context.Context, ...interface{}) (interface{}, error) { return b.AccountManager().Accounts() }, ) if b.allowAllRPC { // this should only happen in unit-tests, this variable is not available outside this package continue } client.RegisterHandler(params.SendTransactionMethodName, unsupportedMethodHandler) client.RegisterHandler(params.PersonalSignMethodName, unsupportedMethodHandler) client.RegisterHandler(params.PersonalRecoverMethodName, unsupportedMethodHandler) } return nil } func unsupportedMethodHandler(ctx context.Context, rpcParams ...interface{}) (interface{}, error) { return nil, ErrUnsupportedRPCMethod } // ConnectionChange handles network state changes logic. func (b *StatusBackend) ConnectionChange(typ string, expensive bool) { b.mu.Lock() defer b.mu.Unlock() state := connectionState{ Type: newConnectionType(typ), Expensive: expensive, } if typ == none { state.Offline = true } b.log.Info("Network state change", "old", b.connectionState, "new", state) b.connectionState = state // logic of handling state changes here // restart node? force peers reconnect? etc } // AppStateChange handles app state changes (background/foreground). // state values: see https://facebook.github.io/react-native/docs/appstate.html func (b *StatusBackend) AppStateChange(state string) { s, err := parseAppState(state) if err != nil { log.Error("AppStateChange failed, ignoring", "error", err) return // and do nothing } b.log.Info("App State changed", "new-state", s) b.appState = s // TODO: put node in low-power mode if the app is in background (or inactive) // and normal mode if the app is in foreground. } // Logout clears whisper identities. func (b *StatusBackend) Logout() error { b.mu.Lock() defer b.mu.Unlock() err := b.cleanupServices() if err != nil { return err } err = b.closeAppDB() if err != nil { return err } b.AccountManager().Logout() return nil } // cleanupServices stops parts of services that doesn't managed by a node and removes injected data from services. func (b *StatusBackend) cleanupServices() error { whisperService, err := b.statusNode.WhisperService() switch err { case node.ErrServiceUnknown: // Whisper was never registered case nil: if err := whisperService.DeleteKeyPairs(); err != nil { return fmt.Errorf("%s: %v", ErrWhisperClearIdentitiesFailure, err) } default: return err } if b.statusNode.Config().WalletConfig.Enabled { wallet, err := b.statusNode.WalletService() switch err { case node.ErrServiceUnknown: case nil: err = wallet.StopReactor() if err != nil { return err } default: return err } } return nil } func (b *StatusBackend) closeAppDB() error { if b.appDB != nil { err := b.appDB.Close() if err != nil { return err } b.appDB = nil return nil } return nil } // reSelectAccount selects previously selected account, often, after node restart. func (b *StatusBackend) reSelectAccount() error { b.AccountManager().RemoveOnboarding() selectedChatAccount, err := b.AccountManager().SelectedChatAccount() if selectedChatAccount == nil || err == account.ErrNoAccountSelected { return nil } whisperService, err := b.statusNode.WhisperService() switch err { case node.ErrServiceUnknown: // Whisper was never registered case nil: if err := whisperService.SelectKeyPair(selectedChatAccount.AccountKey.PrivateKey); err != nil { return ErrWhisperIdentityInjectionFailure } default: return err } return nil } // SelectAccount selects current wallet and chat accounts, by verifying that each address has corresponding account which can be decrypted // using provided password. Once verification is done, the decrypted chat key is injected into Whisper (as a single identity, // all previous identities are removed). func (b *StatusBackend) SelectAccount(loginParams account.LoginParams) error { b.mu.Lock() defer b.mu.Unlock() b.AccountManager().RemoveOnboarding() err := b.accountManager.SelectAccount(loginParams) if err != nil { return err } chatAccount, err := b.accountManager.SelectedChatAccount() if err != nil { return err } whisperService, err := b.statusNode.WhisperService() switch err { case node.ErrServiceUnknown: // Whisper was never registered case nil: if err := whisperService.SelectKeyPair(chatAccount.AccountKey.PrivateKey); err != nil { return ErrWhisperIdentityInjectionFailure } default: return err } if whisperService != nil { st, err := b.statusNode.ShhExtService() if err != nil { return err } if err := st.InitProtocol(b.appDB); err != nil { return err } } return b.startWallet(loginParams.Password) } func (b *StatusBackend) startWallet(password string) error { if !b.statusNode.Config().WalletConfig.Enabled { return nil } wallet, err := b.statusNode.WalletService() if err != nil { return err } watchAddresses := b.accountManager.WatchAddresses() mainAccountAddress, err := b.accountManager.MainAccountAddress() if err != nil { return err } allAddresses := make([]common.Address, len(watchAddresses)+1) allAddresses[0] = mainAccountAddress copy(allAddresses[1:], watchAddresses) return wallet.StartReactor( b.statusNode.RPCClient().Ethclient(), allAddresses, new(big.Int).SetUint64(b.statusNode.Config().NetworkID)) } // SendDataNotification sends data push notifications to users. // dataPayloadJSON is a JSON string that looks like this: // { // "data": { // "msg-v2": { // "from": "0x2cea3bd5", // hash of sender (first 10 characters/4 bytes of sha3 hash) // "to": "0xb1f89744", // hash of recipient (first 10 characters/4 bytes of sha3 hash) // "id": "0x872653ad", // message ID hash (first 10 characters/4 bytes of sha3 hash) // } // } // } func (b *StatusBackend) SendDataNotification(dataPayloadJSON string, tokens ...string) error { log.Debug("sending data push notification") err := b.newNotification().Send(dataPayloadJSON, tokens...) if err != nil { b.log.Error("SendDataNotification failed", "dataPayloadJSON", dataPayloadJSON, "error", err) } return err } // InjectChatAccount selects the current chat account using chatKeyHex and injects the key into whisper. func (b *StatusBackend) InjectChatAccount(chatKeyHex, encryptionKeyHex string) error { b.mu.Lock() defer b.mu.Unlock() b.accountManager.Logout() chatKey, err := ethcrypto.HexToECDSA(chatKeyHex) if err != nil { return err } b.accountManager.SetChatAccount(chatKey) chatAccount, err := b.accountManager.SelectedChatAccount() if err != nil { return err } whisperService, err := b.statusNode.WhisperService() switch err { case node.ErrServiceUnknown: // Whisper was never registered case nil: if err := whisperService.SelectKeyPair(chatAccount.AccountKey.PrivateKey); err != nil { return ErrWhisperIdentityInjectionFailure } default: return err } if whisperService != nil { st, err := b.statusNode.ShhExtService() if err != nil { return err } if err := st.InitProtocol(b.appDB); err != nil { return err } } return nil } func appendIf(condition bool, services []gethnode.ServiceConstructor, service gethnode.ServiceConstructor) []gethnode.ServiceConstructor { if !condition { return services } return append(services, service) } // ExtractGroupMembershipSignatures extract signatures from tuples of content/signature func (b *StatusBackend) ExtractGroupMembershipSignatures(signaturePairs [][2]string) ([]string, error) { return crypto.ExtractSignatures(signaturePairs) } // SignGroupMembership signs a piece of data containing membership information func (b *StatusBackend) SignGroupMembership(content string) (string, error) { selectedChatAccount, err := b.AccountManager().SelectedChatAccount() if err != nil { return "", err } return crypto.Sign(content, selectedChatAccount.AccountKey.PrivateKey) } // EnableInstallation enables an installation for multi-device sync. func (b *StatusBackend) EnableInstallation(installationID string) error { st, err := b.statusNode.ShhExtService() if err != nil { return err } if err := st.EnableInstallation(installationID); err != nil { b.log.Error("error enabling installation", "err", err) return err } return nil } // DisableInstallation disables an installation for multi-device sync. func (b *StatusBackend) DisableInstallation(installationID string) error { st, err := b.statusNode.ShhExtService() if err != nil { return err } if err := st.DisableInstallation(installationID); err != nil { b.log.Error("error disabling installation", "err", err) return err } return nil } // UpdateMailservers on ShhExtService. func (b *StatusBackend) UpdateMailservers(enodes []string) error { st, err := b.statusNode.ShhExtService() if err != nil { return err } nodes := make([]*enode.Node, len(enodes)) for i, rawurl := range enodes { node, err := enode.ParseV4(rawurl) if err != nil { return err } nodes[i] = node } return st.UpdateMailservers(nodes) } // SignHash exposes vanilla ECDSA signing for signing a message for Swarm func (b *StatusBackend) SignHash(hexEncodedHash string) (string, error) { hash, err := hexutil.Decode(hexEncodedHash) if err != nil { return "", fmt.Errorf("SignHash: could not unmarshal the input: %v", err) } chatAccount, err := b.AccountManager().SelectedChatAccount() if err != nil { return "", fmt.Errorf("SignHash: could not select account: %v", err.Error()) } signature, err := ethcrypto.Sign(hash, chatAccount.AccountKey.PrivateKey) if err != nil { return "", fmt.Errorf("SignHash: could not sign the hash: %v", err) } hexEncodedSignature := hexutil.Encode(signature) return hexEncodedSignature, nil }