package params import ( "bytes" "crypto/ecdsa" "encoding/json" "errors" "fmt" "io/ioutil" "os" "path/filepath" "strings" "github.com/ethereum/go-ethereum/core" "github.com/ethereum/go-ethereum/crypto" "github.com/status-im/status-go/geth/log" "github.com/status-im/status-go/static" ) // default node configuration options var ( UseMainnetFlag = "false" // to be overridden via -ldflags '-X geth/params.UseMainnetFlag' UseMainnet = false ) func init() { if UseMainnetFlag == "true" { // set at compile time, here we make sure to set corresponding boolean flag UseMainnet = true } } // errors var ( ErrMissingDataDir = errors.New("missing required 'DataDir' parameter") ErrMissingNetworkID = errors.New("missing required 'NetworkID' parameter") ErrEmptyPasswordFile = errors.New("password file cannot be empty") ErrNoPasswordFileValueSet = errors.New("password file path not set") ErrNoIdentityFileValueSet = errors.New("identity file path not set") ErrEmptyIdentityFile = errors.New("identity file cannot be empty") ErrEmptyAuthorizationKeyFile = errors.New("authorization key file cannot be empty") ErrAuthorizationKeyFileNotSet = errors.New("authorization key file is not set") ) // LightEthConfig holds LES-related configuration // Status nodes are always lightweight clients (due to mobile platform constraints) type LightEthConfig struct { // Enabled flag specifies whether protocol is enabled Enabled bool // Genesis is JSON to seed the chain database with Genesis string // DatabaseCache is memory (in MBs) allocated to internal caching (min 16MB / database forced) DatabaseCache int } // FirebaseConfig holds FCM-related configuration type FirebaseConfig struct { // AuthorizationKeyFile file path that contains FCM authorization key AuthorizationKeyFile string // NotificationTriggerURL URL used to send push notification requests to NotificationTriggerURL string } // ReadAuthorizationKeyFile reads and loads FCM authorization key func (c *FirebaseConfig) ReadAuthorizationKeyFile() ([]byte, error) { if len(c.AuthorizationKeyFile) == 0 { return nil, ErrAuthorizationKeyFileNotSet } key, err := ioutil.ReadFile(c.AuthorizationKeyFile) if err != nil { return nil, err } key = bytes.TrimRight(key, "\n") if len(key) == 0 { return nil, ErrEmptyAuthorizationKeyFile } return key, nil } // WhisperConfig holds SHH-related configuration type WhisperConfig struct { // Enabled flag specifies whether protocol is enabled Enabled bool // IdentityFile path to private key, that will be loaded as identity into Whisper IdentityFile string // PasswordFile path to password file, for non-interactive password entry // (if no account file selected, then this password is used for symmetric encryption) PasswordFile string // EchoMode if mode is on, prints some arguments for diagnostics EchoMode bool // BootstrapNode whether node doesn't actively connect to peers, and waits for incoming connections BootstrapNode bool // ForwarderNode is mode when node only forwards messages, neither sends nor decrypts messages ForwarderNode bool // MailServerNode is mode when node is capable of delivering expired messages on demand MailServerNode bool // NotificationServerNode is mode when node is capable of sending Push (and probably other kinds) Notifications NotificationServerNode bool // DataDir is the file system folder Whisper should use for any data storage needs. DataDir string // Port Whisper node's listening port Port int // MinimumPoW minimum PoW for Whisper messages MinimumPoW float64 // TTL time to live for messages, in seconds TTL int // FirebaseConfig extra configuration for Firebase Cloud Messaging FirebaseConfig *FirebaseConfig `json:"FirebaseConfig,"` } // ReadPasswordFile reads and returns content of the password file func (c *WhisperConfig) ReadPasswordFile() ([]byte, error) { if len(c.PasswordFile) == 0 { return nil, ErrNoPasswordFileValueSet } password, err := ioutil.ReadFile(c.PasswordFile) if err != nil { return nil, err } password = bytes.TrimRight(password, "\n") if len(password) == 0 { return nil, ErrEmptyPasswordFile } return password, nil } // ReadIdentityFile reads and loads identity private key func (c *WhisperConfig) ReadIdentityFile() (*ecdsa.PrivateKey, error) { if len(c.IdentityFile) == 0 { return nil, ErrNoIdentityFileValueSet } identity, err := crypto.LoadECDSA(c.IdentityFile) if err != nil { return nil, err } if identity == nil { return nil, ErrEmptyIdentityFile } return identity, nil } // String dumps config object as nicely indented JSON func (c *WhisperConfig) String() string { data, _ := json.MarshalIndent(c, "", " ") return string(data) } // SwarmConfig holds Swarm-related configuration type SwarmConfig struct { // Enabled flag specifies whether protocol is enabled Enabled bool } // String dumps config object as nicely indented JSON func (c *SwarmConfig) String() string { data, _ := json.MarshalIndent(c, "", " ") return string(data) } // BootClusterConfig holds configuration for supporting boot cluster, which is a temporary // means for mobile devices to get connected to Ethereum network (UDP-based discovery // may not be available, so we need means to discover the network manually). type BootClusterConfig struct { // Enabled flag specifies whether feature is enabled Enabled bool // RootNumber CHT root number RootNumber int // RootHash is hash of CHT root for a given root number RootHash string // BootNodes list of bootstrap nodes for a given network (Ropsten, Rinkeby, Homestead), // for a given mode (production vs development) BootNodes []string } // String dumps config object as nicely indented JSON func (c *BootClusterConfig) String() string { data, _ := json.MarshalIndent(c, "", " ") return string(data) } //===================================================================================== // UpstreamRPCConfig stores configuration for upstream rpc connection. type UpstreamRPCConfig struct { // Enabled flag specifies whether feature is enabled Enabled bool // URL sets the rpc upstream host address for communication with // a non-local infura endpoint. URL string } //===================================================================================== // NodeConfig stores configuration options for a node type NodeConfig struct { // DevMode is true when given configuration is to be used during development. // For production, this flag should be turned off, so that more strict requirements // are applied to node's configuration DevMode bool // NetworkID sets network to use for selecting peers to connect to NetworkID uint64 `json:"NetworkId" validate:"required"` // DataDir is the file system folder the node should use for any data storage needs. DataDir string `validate:"required"` // KeyStoreDir is the file system folder that contains private keys. // If KeyStoreDir is empty, the default location is the "keystore" subdirectory of DataDir. KeyStoreDir string // PrivateKeyFile is a filename with node ID (private key) // This file should contain a valid secp256k1 private key that will be used for both // remote peer identification as well as network traffic encryption. NodeKeyFile string // Name sets the instance name of the node. It must not contain the / character. Name string `validate:"excludes=/"` // Version exposes program's version. It is used in the devp2p node identifier. Version string // APIModules is a comma-separated list of API modules exposed via *any* (HTTP/WS/IPC) RPC interface. APIModules string // HTTPHost is the host interface on which to start the HTTP RPC server. // Pass empty string if no HTTP RPC interface needs to be started. HTTPHost string // RPCEnabled specifies whether the http RPC server is to be enabled by default. RPCEnabled bool // HTTPPort is the TCP port number on which to start the Geth's HTTP RPC server. HTTPPort int // WSHost is a host interface for the WebSocket RPC server WSHost string // WSPort is the TCP port number on which to start the Geth's WebSocket RPC server. WSPort int // WSEnabled specifies whether WS-RPC Server is enabled or not WSEnabled bool // IPCFile is filename of exposed IPC RPC Server IPCFile string // IPCEnabled specifies whether IPC-RPC Server is enabled or not IPCEnabled bool // TLSEnabled specifies whether TLS support should be enabled on node or not // TLS support is only planned in go-ethereum, so we are using our own patch. TLSEnabled bool // MaxPeers is the maximum number of (global) peers that can be connected. // Set to zero, if only static or trusted peers are allowed to connect. MaxPeers int // MaxPendingPeers is the maximum number of peers that can be pending in the // handshake phase, counted separately for inbound and outbound connections. MaxPendingPeers int // LogFile is filename where exposed logs get written to LogFile string // LogLevel defines minimum log level. Valid names are "ERROR", "WARNING", "INFO", "DEBUG", and "TRACE". LogLevel string `validate:"eq=ERROR|eq=WARNING|eq=INFO|eq=DEBUG|eq=TRACE"` // LogToStderr defines whether logged info should also be output to os.Stderr LogToStderr bool // UpstreamConfig extra config for providing upstream infura server. UpstreamConfig UpstreamRPCConfig `json:"UpstreamConfig"` // BootClusterConfig extra configuration for supporting cluster BootClusterConfig *BootClusterConfig `json:"BootClusterConfig," validate:"structonly"` // LightEthConfig extra configuration for LES LightEthConfig *LightEthConfig `json:"LightEthConfig," validate:"structonly"` // WhisperConfig extra configuration for SHH WhisperConfig *WhisperConfig `json:"WhisperConfig," validate:"structonly"` // SwarmConfig extra configuration for Swarm and ENS SwarmConfig *SwarmConfig `json:"SwarmConfig," validate:"structonly"` } // NewNodeConfig creates new node configuration object func NewNodeConfig(dataDir string, networkID uint64, devMode bool) (*NodeConfig, error) { nodeConfig := &NodeConfig{ DevMode: devMode, NetworkID: networkID, DataDir: dataDir, Name: ClientIdentifier, Version: Version, RPCEnabled: RPCEnabledDefault, HTTPHost: HTTPHost, HTTPPort: HTTPPort, APIModules: APIModules, WSHost: WSHost, WSPort: WSPort, MaxPeers: MaxPeers, MaxPendingPeers: MaxPendingPeers, IPCFile: IPCFile, LogFile: LogFile, LogLevel: LogLevel, LogToStderr: LogToStderr, BootClusterConfig: &BootClusterConfig{ Enabled: true, BootNodes: []string{}, }, LightEthConfig: &LightEthConfig{ Enabled: true, DatabaseCache: DatabaseCache, }, WhisperConfig: &WhisperConfig{ Enabled: true, Port: WhisperPort, MinimumPoW: WhisperMinimumPoW, TTL: WhisperTTL, FirebaseConfig: &FirebaseConfig{ NotificationTriggerURL: FirebaseNotificationTriggerURL, }, }, SwarmConfig: &SwarmConfig{}, } // adjust dependent values if err := nodeConfig.updateConfig(); err != nil { return nil, err } return nodeConfig, nil } // LoadNodeConfig parses incoming JSON and returned it as Config func LoadNodeConfig(configJSON string) (*NodeConfig, error) { nodeConfig, err := loadNodeConfig(configJSON) if err != nil { return nil, err } if err := nodeConfig.Validate(); err != nil { return nil, err } return nodeConfig, nil } func loadNodeConfig(configJSON string) (*NodeConfig, error) { nodeConfig, err := NewNodeConfig("", 0, true) if err != nil { return nil, err } decoder := json.NewDecoder(strings.NewReader(configJSON)) // override default configuration with values by JSON input if err := decoder.Decode(&nodeConfig); err != nil { return nil, err } // repopulate if err := nodeConfig.updateConfig(); err != nil { return nil, err } return nodeConfig, nil } // Validate checks if NodeConfig fields have valid values. // // It returns nil if there are no errors, otherwise one or more errors // can be returned. Multiple errors are joined with a new line. // // A single error for a struct: // // type TestStruct struct { // TestField string `validate:"required"` // } // // has the following format: // // Key: 'TestStruct.TestField' Error:Field validation for 'TestField' failed on the 'required' tag // func (c *NodeConfig) Validate() error { validate := NewValidator() if err := validate.Struct(c); err != nil { return err } if c.BootClusterConfig.Enabled { if err := validate.Struct(c.BootClusterConfig); err != nil { return err } } if c.LightEthConfig.Enabled { if err := validate.Struct(c.LightEthConfig); err != nil { return err } } if c.WhisperConfig.Enabled { if err := validate.Struct(c.WhisperConfig); err != nil { return err } } if c.SwarmConfig.Enabled { if err := validate.Struct(c.SwarmConfig); err != nil { return err } } return nil } // Save dumps configuration to the disk func (c *NodeConfig) Save() error { data, err := json.MarshalIndent(c, "", " ") if err != nil { return err } if err := os.MkdirAll(c.DataDir, os.ModePerm); err != nil { return err } configFilePath := filepath.Join(c.DataDir, "config.json") if err := ioutil.WriteFile(configFilePath, data, os.ModePerm); err != nil { return err } log.Info(fmt.Sprintf("config file saved: %v", configFilePath)) return nil } // updateConfig traverses configuration and adjusts dependent fields // (we have a development/production and mobile/full node dependent configurations) func (c *NodeConfig) updateConfig() error { if err := c.updateGenesisConfig(); err != nil { return err } if err := c.updateUpstreamConfig(); err != nil { return err } if err := c.updateBootClusterConfig(); err != nil { return err } if err := c.updateRelativeDirsConfig(); err != nil { return err } return nil } // updateGenesisConfig does necessary adjustments to config object (depending on network node will be running on) func (c *NodeConfig) updateGenesisConfig() error { var genesis *core.Genesis switch c.NetworkID { case MainNetworkID: genesis = core.DefaultGenesisBlock() case RopstenNetworkID: genesis = core.DefaultTestnetGenesisBlock() case RinkebyNetworkID: genesis = core.DefaultRinkebyGenesisBlock() case StatusChainNetworkID: var err error genesis, err = c.DefaultStatusChainGenesisBlock() if err != nil { return err } default: return nil } // encode the genesis into JSON enc, err := json.Marshal(genesis) if err != nil { return err } c.LightEthConfig.Genesis = string(enc) return nil } // DefaultStatusChainGenesisBlock returns the StatusChain network genesis block. func (c *NodeConfig) DefaultStatusChainGenesisBlock() (*core.Genesis, error) { genesisJSON, err := static.Asset("config/status-chain-genesis.json") if err != nil { return nil, fmt.Errorf("status-chain-genesis.json could not be loaded: %s", err) } var genesis *core.Genesis if err := json.Unmarshal([]byte(genesisJSON), &genesis); err != nil { return nil, fmt.Errorf("cannot unmarshal status-chain-genesis.json: %s", err) } return genesis, nil } // updateUpstreamConfig sets the proper UpstreamConfig.URL for the network id being used. func (c *NodeConfig) updateUpstreamConfig() error { // If we have a URL already set then keep URL incase // of custom server. if c.UpstreamConfig.URL != "" { return nil } switch c.NetworkID { case MainNetworkID: c.UpstreamConfig.URL = UpstreamMainNetEthereumNetworkURL case RopstenNetworkID: c.UpstreamConfig.URL = UpstreamRopstenEthereumNetworkURL case RinkebyNetworkID: c.UpstreamConfig.URL = UpstreamRinkebyEthereumNetworkURL } return nil } // updateBootClusterConfig loads boot nodes and CHT for a given network and mode. // This is necessary until we have LES protocol support CHT sync, and better node // discovery on mobile devices) func (c *NodeConfig) updateBootClusterConfig() error { if !c.BootClusterConfig.Enabled { return nil } // TODO: Remove this thing as this is an ugly hack. // Once CHT sync sub-protocol is working in LES, we will rely on it, as it provides // decentralized solution. For now, in order to avoid forcing users to long sync times // we use central static resource type subClusterConfig struct { Number int `json:"number"` Hash string `json:"hash"` BootNodes []string `json:"bootnodes"` } type clusterConfig struct { NetworkID int `json:"networkID"` GenesisHash string `json:"genesisHash"` Prod subClusterConfig `json:"prod"` Dev subClusterConfig `json:"dev"` } chtFile, err := static.Asset("config/cht.json") if err != nil { return fmt.Errorf("cht.json could not be loaded: %s", err) } var clusters []clusterConfig err = json.Unmarshal(chtFile, &clusters) if err != nil { return fmt.Errorf("failed to unmarshal cht.json: %s", err) } for _, cluster := range clusters { if cluster.NetworkID == int(c.NetworkID) { c.BootClusterConfig.RootNumber = cluster.Prod.Number c.BootClusterConfig.RootHash = cluster.Prod.Hash c.BootClusterConfig.BootNodes = cluster.Prod.BootNodes if c.DevMode { c.BootClusterConfig.RootNumber = cluster.Dev.Number c.BootClusterConfig.RootHash = cluster.Dev.Hash c.BootClusterConfig.BootNodes = cluster.Dev.BootNodes } break } } return nil } // updateRelativeDirsConfig updates directories that should be wrt to DataDir func (c *NodeConfig) updateRelativeDirsConfig() error { makeSubDirPath := func(baseDir, subDir string) string { if len(baseDir) == 0 { return "" } return filepath.Join(baseDir, subDir) } if len(c.KeyStoreDir) == 0 { c.KeyStoreDir = makeSubDirPath(c.DataDir, KeyStoreDir) } if len(c.WhisperConfig.DataDir) == 0 { c.WhisperConfig.DataDir = makeSubDirPath(c.DataDir, WhisperDataDir) } return nil } // String dumps config object as nicely indented JSON func (c *NodeConfig) String() string { data, _ := json.MarshalIndent(c, "", " ") return string(data) }