package geth import ( "errors" "fmt" "os" "os/signal" "path/filepath" "strings" "sync" "github.com/ethereum/go-ethereum/accounts" "github.com/ethereum/go-ethereum/accounts/keystore" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/les" "github.com/ethereum/go-ethereum/logger" "github.com/ethereum/go-ethereum/logger/glog" "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/p2p/discover" "github.com/ethereum/go-ethereum/rpc" whisper "github.com/ethereum/go-ethereum/whisper/whisperv2" "github.com/status-im/status-go/geth/params" ) // SelectedExtKey is a container for currently selected (logged in) account type SelectedExtKey struct { Address common.Address AccountKey *keystore.Key SubAccounts []accounts.Account } // NodeManager manages Status node (which abstracts contained geth node) type NodeManager struct { node *Node // reference to Status node services *NodeServiceStack // default stack of services running on geth node api *node.PrivateAdminAPI // exposes collection of administrative API methods SelectedAccount *SelectedExtKey // account that was processed during the last call to SelectAccount() } // NodeServiceStack contains "standard" node services (which are always available) type NodeServiceStack struct { lightEthereum *les.LightEthereum // LES service whisperService *whisper.Whisper // Whisper service rpcClient *rpc.Client // RPC client jailedRequestQueue *JailedRequestQueue // bridge via which jail notifies node of incoming requests } var ( ErrInvalidGethNode = errors.New("no running geth node detected") ErrInvalidAccountManager = errors.New("could not retrieve account manager") ErrInvalidWhisperService = errors.New("whisper service is unavailable") ErrInvalidLightEthereumService = errors.New("can not retrieve LES service") ErrInvalidClient = errors.New("RPC client is not properly initialized") ErrInvalidJailedRequestQueue = errors.New("jailed request queue is not properly initialized") ErrNodeMakeFailure = errors.New("error creating p2p node") ErrNodeStartFailure = errors.New("error starting p2p node") ErrInvalidNodeAPI = errors.New("no node API connected") ErrAccountKeyStoreMissing = errors.New("account key store is not set") ) var ( nodeManagerInstance *NodeManager createOnce sync.Once ) // CreateAndRunNode creates and starts running Geth node locally (exposing given RPC port along the way) func CreateAndRunNode(config *params.NodeConfig) error { defer HaltOnPanic() nodeManager := NewNodeManager(config) if nodeManager.NodeInited() { nodeManager.RunNode() nodeManager.WaitNodeStarted() return nil } return ErrNodeStartFailure } // NewNodeManager makes new instance of node manager func NewNodeManager(config *params.NodeConfig) *NodeManager { createOnce.Do(func() { nodeManagerInstance = &NodeManager{ services: &NodeServiceStack{ jailedRequestQueue: NewJailedRequestsQueue(), }, } nodeManagerInstance.node = MakeNode(config) }) return nodeManagerInstance } // NodeManagerInstance exposes node manager instance func NodeManagerInstance() *NodeManager { return nodeManagerInstance } // RunNode starts Geth node func (m *NodeManager) RunNode() { go func() { defer HaltOnPanic() m.StartNode() if _, err := m.AccountManager(); err != nil { glog.V(logger.Warn).Infoln(ErrInvalidAccountManager) } if err := m.node.geth.Service(&m.services.whisperService); err != nil { glog.V(logger.Warn).Infoln("cannot get whisper service:", err) } if err := m.node.geth.Service(&m.services.lightEthereum); err != nil { glog.V(logger.Warn).Infoln("cannot get light ethereum service:", err) } // setup handlers lightEthereum, err := m.LightEthereumService() if err != nil { panic("service stack misses LES") } lightEthereum.StatusBackend.SetTransactionQueueHandler(onSendTransactionRequest) lightEthereum.StatusBackend.SetAccountsFilterHandler(onAccountsListRequest) lightEthereum.StatusBackend.SetTransactionReturnHandler(onSendTransactionReturn) m.services.rpcClient, err = m.node.geth.Attach() if err != nil { glog.V(logger.Warn).Infoln("cannot get RPC client service:", ErrInvalidClient) } // expose API m.api = node.NewPrivateAdminAPI(m.node.geth) m.PopulateStaticPeers() m.onNodeStarted() // node started, notify listeners m.node.geth.Wait() glog.V(logger.Info).Infoln("node stopped") }() } // StartNode starts running P2P node func (m *NodeManager) StartNode() { if m == nil || !m.NodeInited() { panic(ErrInvalidGethNode) } if err := m.node.geth.Start(); err != nil { panic(fmt.Sprintf("%v: %v", ErrNodeStartFailure, err)) } // allow interrupting running nodes go func() { sigc := make(chan os.Signal, 1) signal.Notify(sigc, os.Interrupt) defer signal.Stop(sigc) <-sigc glog.V(logger.Info).Infoln("Got interrupt, shutting down...") go m.node.geth.Stop() for i := 3; i > 0; i-- { <-sigc if i > 1 { glog.V(logger.Info).Infof("Already shutting down, interrupt %d more times for panic.", i-1) } } panic("interrupted!") }() } // StopNode stops running P2P node func (m *NodeManager) StopNode() error { if m == nil || !m.NodeInited() { return ErrInvalidGethNode } m.node.geth.Stop() m.node.started = make(chan struct{}) return nil } // RestartNode restarts P2P node func (m *NodeManager) RestartNode() error { if m == nil || !m.NodeInited() { return ErrInvalidGethNode } m.StopNode() m.RunNode() m.WaitNodeStarted() return nil } // ResumeNode resumes previously stopped P2P node func (m *NodeManager) ResumeNode() error { if m == nil || !m.NodeInited() { return ErrInvalidGethNode } m.RunNode() m.WaitNodeStarted() // re-select the previously selected account if err := ReSelectAccount(); err != nil { return err } return nil } // ResetChainData purges chain data (by removing data directory). Safe to apply on running P2P node. func (m *NodeManager) ResetChainData() error { if m == nil || !m.NodeInited() { return ErrInvalidGethNode } if err := m.StopNode(); err != nil { return err } chainDataDir := filepath.Join(m.node.gethConfig.DataDir, m.node.gethConfig.Name, "lightchaindata") if _, err := os.Stat(chainDataDir); os.IsNotExist(err) { return err } if err := os.RemoveAll(chainDataDir); err != nil { return err } if err := m.ResumeNode(); err != nil { return err } return nil } func (m *NodeManager) StartNodeRPCServer() (bool, error) { if m == nil || !m.NodeInited() { return false, ErrInvalidGethNode } if m.api == nil { return false, ErrInvalidNodeAPI } config := m.node.gethConfig modules := strings.Join(config.HTTPModules, ",") return m.api.StartRPC(&config.HTTPHost, &config.HTTPPort, &config.HTTPCors, &modules) } // StopNodeRPCServer stops HTTP RPC service attached to node func (m *NodeManager) StopNodeRPCServer() (bool, error) { if m == nil || !m.NodeInited() { return false, ErrInvalidGethNode } if m.api == nil { return false, ErrInvalidNodeAPI } return m.api.StopRPC() } // HasNode checks whether manager has initialized node attached func (m *NodeManager) NodeInited() bool { if m == nil || !m.node.Inited() { return false } return true } // AccountManager exposes reference to accounts manager func (m *NodeManager) AccountManager() (*accounts.Manager, error) { if m == nil || !m.NodeInited() { return nil, ErrInvalidGethNode } return m.node.geth.AccountManager(), nil } // AccountKeyStore exposes reference to accounts key store func (m *NodeManager) AccountKeyStore() (*keystore.KeyStore, error) { if m == nil || !m.NodeInited() { return nil, ErrInvalidGethNode } accountManager, err := m.AccountManager() if err != nil { return nil, err } backends := accountManager.Backends(keystore.KeyStoreType) if len(backends) == 0 { return nil, ErrAccountKeyStoreMissing } keyStore, ok := backends[0].(*keystore.KeyStore) if !ok { return nil, ErrAccountKeyStoreMissing } return keyStore, nil } // LightEthereumService exposes LES func (m *NodeManager) LightEthereumService() (*les.LightEthereum, error) { if m == nil || !m.NodeInited() { return nil, ErrInvalidGethNode } if m.services.lightEthereum == nil { return nil, ErrInvalidLightEthereumService } return m.services.lightEthereum, nil } // WhisperService exposes Whisper service func (m *NodeManager) WhisperService() (*whisper.Whisper, error) { if m == nil || !m.NodeInited() { return nil, ErrInvalidGethNode } if m.services.whisperService == nil { return nil, ErrInvalidWhisperService } return m.services.whisperService, nil } // RPCClient exposes Geth's RPC client func (m *NodeManager) RPCClient() (*rpc.Client, error) { if m == nil || !m.NodeInited() { return nil, ErrInvalidGethNode } if m.services.rpcClient == nil { return nil, ErrInvalidClient } return m.services.rpcClient, nil } // JailedRequestQueue exposes reference to queue of jailed requests func (m *NodeManager) JailedRequestQueue() (*JailedRequestQueue, error) { if m == nil || !m.NodeInited() { return nil, ErrInvalidGethNode } if m.services.jailedRequestQueue == nil { return nil, ErrInvalidJailedRequestQueue } return m.services.jailedRequestQueue, nil } // AddPeer adds new peer node func (m *NodeManager) AddPeer(url string) (bool, error) { if m == nil || !m.NodeInited() { return false, ErrInvalidGethNode } server := m.node.geth.Server() if server == nil { return false, ErrInvalidGethNode } // Try to add the url as a static peer and return parsedNode, err := discover.ParseNode(url) if err != nil { return false, fmt.Errorf("invalid enode: %v", err) } server.AddPeer(parsedNode) return true, nil } // WaitNodeStarted blocks until node is started (start channel gets notified) func (m *NodeManager) WaitNodeStarted() { <-m.node.started // block until node is started } // onNodeStarted sends upward notification letting the app know that Geth node is ready to be used func (m *NodeManager) onNodeStarted() { // notify local listener m.node.started <- struct{}{} close(m.node.started) // send signal up to native app SendSignal(SignalEnvelope{ Type: EventNodeStarted, Event: struct{}{}, }) } // PopulateStaticPeers connects current node with our publicly available LES/SHH/Swarm cluster func (m *NodeManager) PopulateStaticPeers() { for _, enode := range params.TestnetBootnodes { m.AddPeer(enode) } } func (k *SelectedExtKey) Hex() string { if k == nil { return "0x0" } return k.Address.Hex() }