// Copyright 2015 The go-ethereum Authors // This file is part of go-ethereum. // // go-ethereum is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // go-ethereum is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with go-ethereum. If not, see . // Package utils contains internal helper functions for go-ethereum commands. package utils import ( "crypto/ecdsa" "fmt" "io/ioutil" "math/big" "os" "path/filepath" "strconv" "strings" "time" "github.com/dexon-foundation/dexon/accounts" "github.com/dexon-foundation/dexon/accounts/keystore" "github.com/dexon-foundation/dexon/common" "github.com/dexon-foundation/dexon/common/fdlimit" "github.com/dexon-foundation/dexon/consensus" "github.com/dexon-foundation/dexon/consensus/clique" "github.com/dexon-foundation/dexon/consensus/ethash" "github.com/dexon-foundation/dexon/core" "github.com/dexon-foundation/dexon/core/state" "github.com/dexon-foundation/dexon/core/vm" "github.com/dexon-foundation/dexon/crypto" "github.com/dexon-foundation/dexon/dashboard" "github.com/dexon-foundation/dexon/dex" "github.com/dexon-foundation/dexon/dex/gasprice" "github.com/dexon-foundation/dexon/eth" "github.com/dexon-foundation/dexon/eth/downloader" "github.com/dexon-foundation/dexon/ethdb" "github.com/dexon-foundation/dexon/ethstats" "github.com/dexon-foundation/dexon/les" "github.com/dexon-foundation/dexon/log" "github.com/dexon-foundation/dexon/metrics" "github.com/dexon-foundation/dexon/metrics/influxdb" "github.com/dexon-foundation/dexon/node" "github.com/dexon-foundation/dexon/p2p" "github.com/dexon-foundation/dexon/p2p/discv5" "github.com/dexon-foundation/dexon/p2p/enode" "github.com/dexon-foundation/dexon/p2p/nat" "github.com/dexon-foundation/dexon/p2p/netutil" "github.com/dexon-foundation/dexon/params" whisper "github.com/dexon-foundation/dexon/whisper/whisperv6" cli "gopkg.in/urfave/cli.v1" ) var ( CommandHelpTemplate = `{{.cmd.Name}}{{if .cmd.Subcommands}} command{{end}}{{if .cmd.Flags}} [command options]{{end}} [arguments...] {{if .cmd.Description}}{{.cmd.Description}} {{end}}{{if .cmd.Subcommands}} SUBCOMMANDS: {{range .cmd.Subcommands}}{{.Name}}{{with .ShortName}}, {{.}}{{end}}{{ "\t" }}{{.Usage}} {{end}}{{end}}{{if .categorizedFlags}} {{range $idx, $categorized := .categorizedFlags}}{{$categorized.Name}} OPTIONS: {{range $categorized.Flags}}{{"\t"}}{{.}} {{end}} {{end}}{{end}}` ) func init() { cli.AppHelpTemplate = `{{.Name}} {{if .Flags}}[global options] {{end}}command{{if .Flags}} [command options]{{end}} [arguments...] VERSION: {{.Version}} COMMANDS: {{range .Commands}}{{.Name}}{{with .ShortName}}, {{.}}{{end}}{{ "\t" }}{{.Usage}} {{end}}{{if .Flags}} GLOBAL OPTIONS: {{range .Flags}}{{.}} {{end}}{{end}} ` cli.CommandHelpTemplate = CommandHelpTemplate } // NewApp creates an app with sane defaults. func NewApp(gitCommit, usage string) *cli.App { app := cli.NewApp() app.Name = filepath.Base(os.Args[0]) app.Author = "" //app.Authors = nil app.Email = "" app.Version = params.VersionWithMeta if len(gitCommit) >= 8 { app.Version += "-" + gitCommit[:8] } app.Usage = usage return app } // These are all the command line flags we support. // If you add to this list, please remember to include the // flag in the appropriate command definition. // // The flags are defined here so their names and help texts // are the same for all commands. var ( // General settings DataDirFlag = DirectoryFlag{ Name: "datadir", Usage: "Data directory for the databases and keystore", Value: DirectoryString{node.DefaultDataDir()}, } KeyStoreDirFlag = DirectoryFlag{ Name: "keystore", Usage: "Directory for the keystore (default = inside the datadir)", } NoUSBFlag = cli.BoolFlag{ Name: "nousb", Usage: "Disables monitoring for and managing USB hardware wallets", } NetworkIdFlag = cli.Uint64Flag{ Name: "networkid", Usage: "Network identifier (integer, 237=Mainnet, 238=Testnet) (default: 237)", Value: eth.DefaultConfig.NetworkId, } TestnetFlag = cli.BoolFlag{ Name: "testnet", Usage: "Ropsten network: pre-configured proof-of-work test network", } ConstantinopleOverrideFlag = cli.Uint64Flag{ Name: "override.constantinople", Usage: "Manually specify constantinople fork-block, overriding the bundled setting", } DeveloperFlag = cli.BoolFlag{ Name: "dev", Usage: "Ephemeral proof-of-authority network with a pre-funded developer account, mining enabled", } DeveloperPeriodFlag = cli.IntFlag{ Name: "dev.period", Usage: "Block period to use in developer mode (0 = mine only if transaction pending)", } IdentityFlag = cli.StringFlag{ Name: "identity", Usage: "Custom node name", } DocRootFlag = DirectoryFlag{ Name: "docroot", Usage: "Document Root for HTTPClient file scheme", Value: DirectoryString{homeDir()}, } defaultSyncMode = eth.DefaultConfig.SyncMode SyncModeFlag = TextMarshalerFlag{ Name: "syncmode", Usage: `Blockchain sync mode ("fast", "full", or "light")`, Value: &defaultSyncMode, } GCModeFlag = cli.StringFlag{ Name: "gcmode", Usage: `Blockchain garbage collection mode ("full", "archive")`, Value: "full", } LightServFlag = cli.IntFlag{ Name: "lightserv", Usage: "Maximum percentage of time allowed for serving LES requests (0-90)", Value: 0, } LightPeersFlag = cli.IntFlag{ Name: "lightpeers", Usage: "Maximum number of LES client peers", Value: eth.DefaultConfig.LightPeers, } LightKDFFlag = cli.BoolFlag{ Name: "lightkdf", Usage: "Reduce key-derivation RAM & CPU usage at some expense of KDF strength", } WhitelistFlag = cli.StringFlag{ Name: "whitelist", Usage: "Comma separated block number-to-hash mappings to enforce (=)", } // Dashboard settings DashboardEnabledFlag = cli.BoolFlag{ Name: metrics.DashboardEnabledFlag, Usage: "Enable the dashboard", } DashboardAddrFlag = cli.StringFlag{ Name: "dashboard.addr", Usage: "Dashboard listening interface", Value: dashboard.DefaultConfig.Host, } DashboardPortFlag = cli.IntFlag{ Name: "dashboard.host", Usage: "Dashboard listening port", Value: dashboard.DefaultConfig.Port, } DashboardRefreshFlag = cli.DurationFlag{ Name: "dashboard.refresh", Usage: "Dashboard metrics collection refresh rate", Value: dashboard.DefaultConfig.Refresh, } // Ethash settings EthashCacheDirFlag = DirectoryFlag{ Name: "ethash.cachedir", Usage: "Directory to store the ethash verification caches (default = inside the datadir)", } EthashCachesInMemoryFlag = cli.IntFlag{ Name: "ethash.cachesinmem", Usage: "Number of recent ethash caches to keep in memory (16MB each)", Value: eth.DefaultConfig.Ethash.CachesInMem, } EthashCachesOnDiskFlag = cli.IntFlag{ Name: "ethash.cachesondisk", Usage: "Number of recent ethash caches to keep on disk (16MB each)", Value: eth.DefaultConfig.Ethash.CachesOnDisk, } EthashDatasetDirFlag = DirectoryFlag{ Name: "ethash.dagdir", Usage: "Directory to store the ethash mining DAGs (default = inside home folder)", Value: DirectoryString{eth.DefaultConfig.Ethash.DatasetDir}, } EthashDatasetsInMemoryFlag = cli.IntFlag{ Name: "ethash.dagsinmem", Usage: "Number of recent ethash mining DAGs to keep in memory (1+GB each)", Value: eth.DefaultConfig.Ethash.DatasetsInMem, } EthashDatasetsOnDiskFlag = cli.IntFlag{ Name: "ethash.dagsondisk", Usage: "Number of recent ethash mining DAGs to keep on disk (1+GB each)", Value: eth.DefaultConfig.Ethash.DatasetsOnDisk, } // Transaction pool settings TxPoolLocalsFlag = cli.StringFlag{ Name: "txpool.locals", Usage: "Comma separated accounts to treat as locals (no flush, priority inclusion)", } TxPoolNoLocalsFlag = cli.BoolFlag{ Name: "txpool.nolocals", Usage: "Disables price exemptions for locally submitted transactions", } TxPoolJournalFlag = cli.StringFlag{ Name: "txpool.journal", Usage: "Disk journal for local transaction to survive node restarts", Value: core.DefaultTxPoolConfig.Journal, } TxPoolRejournalFlag = cli.DurationFlag{ Name: "txpool.rejournal", Usage: "Time interval to regenerate the local transaction journal", Value: core.DefaultTxPoolConfig.Rejournal, } TxPoolPriceLimitFlag = cli.Uint64Flag{ Name: "txpool.pricelimit", Usage: "Minimum gas price limit to enforce for acceptance into the pool", Value: eth.DefaultConfig.TxPool.PriceLimit, } TxPoolPriceBumpFlag = cli.Uint64Flag{ Name: "txpool.pricebump", Usage: "Price bump percentage to replace an already existing transaction", Value: eth.DefaultConfig.TxPool.PriceBump, } TxPoolAccountSlotsFlag = cli.Uint64Flag{ Name: "txpool.accountslots", Usage: "Minimum number of executable transaction slots guaranteed per account", Value: eth.DefaultConfig.TxPool.AccountSlots, } TxPoolGlobalSlotsFlag = cli.Uint64Flag{ Name: "txpool.globalslots", Usage: "Maximum number of executable transaction slots for all accounts", Value: eth.DefaultConfig.TxPool.GlobalSlots, } TxPoolAccountQueueFlag = cli.Uint64Flag{ Name: "txpool.accountqueue", Usage: "Maximum number of non-executable transaction slots permitted per account", Value: eth.DefaultConfig.TxPool.AccountQueue, } TxPoolGlobalQueueFlag = cli.Uint64Flag{ Name: "txpool.globalqueue", Usage: "Maximum number of non-executable transaction slots for all accounts", Value: eth.DefaultConfig.TxPool.GlobalQueue, } TxPoolLifetimeFlag = cli.DurationFlag{ Name: "txpool.lifetime", Usage: "Maximum amount of time non-executable transaction are queued", Value: eth.DefaultConfig.TxPool.Lifetime, } // Performance tuning settings CacheFlag = cli.IntFlag{ Name: "cache", Usage: "Megabytes of memory allocated to internal caching", Value: 1024, } CacheDatabaseFlag = cli.IntFlag{ Name: "cache.database", Usage: "Percentage of cache memory allowance to use for database io", Value: 50, } CacheTrieFlag = cli.IntFlag{ Name: "cache.trie", Usage: "Percentage of cache memory allowance to use for trie caching", Value: 25, } CacheGCFlag = cli.IntFlag{ Name: "cache.gc", Usage: "Percentage of cache memory allowance to use for trie pruning", Value: 25, } TrieCacheGenFlag = cli.IntFlag{ Name: "trie-cache-gens", Usage: "Number of trie node generations to keep in memory", Value: int(state.MaxTrieCacheGen), } // Miner settings MiningEnabledFlag = cli.BoolFlag{ Name: "mine", Usage: "Enable mining", } MinerThreadsFlag = cli.IntFlag{ Name: "miner.threads", Usage: "Number of CPU threads to use for mining", Value: 0, } MinerLegacyThreadsFlag = cli.IntFlag{ Name: "minerthreads", Usage: "Number of CPU threads to use for mining (deprecated, use --miner.threads)", Value: 0, } MinerNotifyFlag = cli.StringFlag{ Name: "miner.notify", Usage: "Comma separated HTTP URL list to notify of new work packages", } MinerGasTargetFlag = cli.Uint64Flag{ Name: "miner.gastarget", Usage: "Target gas floor for mined blocks", Value: eth.DefaultConfig.MinerGasFloor, } MinerLegacyGasTargetFlag = cli.Uint64Flag{ Name: "targetgaslimit", Usage: "Target gas floor for mined blocks (deprecated, use --miner.gastarget)", Value: eth.DefaultConfig.MinerGasFloor, } MinerGasLimitFlag = cli.Uint64Flag{ Name: "miner.gaslimit", Usage: "Target gas ceiling for mined blocks", Value: eth.DefaultConfig.MinerGasCeil, } MinerGasPriceFlag = BigFlag{ Name: "miner.gasprice", Usage: "Minimum gas price for mining a transaction", Value: eth.DefaultConfig.MinerGasPrice, } MinerLegacyGasPriceFlag = BigFlag{ Name: "gasprice", Usage: "Minimum gas price for mining a transaction (deprecated, use --miner.gasprice)", Value: eth.DefaultConfig.MinerGasPrice, } MinerEtherbaseFlag = cli.StringFlag{ Name: "miner.etherbase", Usage: "Public address for block mining rewards (default = first account)", Value: "0", } MinerLegacyEtherbaseFlag = cli.StringFlag{ Name: "etherbase", Usage: "Public address for block mining rewards (default = first account, deprecated, use --miner.etherbase)", Value: "0", } MinerExtraDataFlag = cli.StringFlag{ Name: "miner.extradata", Usage: "Block extra data set by the miner (default = client version)", } MinerLegacyExtraDataFlag = cli.StringFlag{ Name: "extradata", Usage: "Block extra data set by the miner (default = client version, deprecated, use --miner.extradata)", } MinerRecommitIntervalFlag = cli.DurationFlag{ Name: "miner.recommit", Usage: "Time interval to recreate the block being mined", Value: eth.DefaultConfig.MinerRecommit, } MinerNoVerfiyFlag = cli.BoolFlag{ Name: "miner.noverify", Usage: "Disable remote sealing verification", } // Account settings UnlockedAccountFlag = cli.StringFlag{ Name: "unlock", Usage: "Comma separated list of accounts to unlock", Value: "", } PasswordFileFlag = cli.StringFlag{ Name: "password", Usage: "Password file to use for non-interactive password input", Value: "", } VMEnableDebugFlag = cli.BoolFlag{ Name: "vmdebug", Usage: "Record information useful for VM and contract debugging", } RPCGlobalGasCap = cli.Uint64Flag{ Name: "rpc.gascap", Usage: "Sets a cap on gas that can be used in eth_call/estimateGas", } // Logging and debug settings EthStatsURLFlag = cli.StringFlag{ Name: "ethstats", Usage: "Reporting URL of a ethstats service (nodename:secret@host:port)", } FakePoWFlag = cli.BoolFlag{ Name: "fakepow", Usage: "Disables proof-of-work verification", } NoCompactionFlag = cli.BoolFlag{ Name: "nocompaction", Usage: "Disables db compaction after import", } // RPC settings RPCEnabledFlag = cli.BoolFlag{ Name: "rpc", Usage: "Enable the HTTP-RPC server", } RPCListenAddrFlag = cli.StringFlag{ Name: "rpcaddr", Usage: "HTTP-RPC server listening interface", Value: node.DefaultHTTPHost, } RPCPortFlag = cli.IntFlag{ Name: "rpcport", Usage: "HTTP-RPC server listening port", Value: node.DefaultHTTPPort, } RPCCORSDomainFlag = cli.StringFlag{ Name: "rpccorsdomain", Usage: "Comma separated list of domains from which to accept cross origin requests (browser enforced)", Value: "", } RPCVirtualHostsFlag = cli.StringFlag{ Name: "rpcvhosts", Usage: "Comma separated list of virtual hostnames from which to accept requests (server enforced). Accepts '*' wildcard.", Value: strings.Join(node.DefaultConfig.HTTPVirtualHosts, ","), } RPCApiFlag = cli.StringFlag{ Name: "rpcapi", Usage: "API's offered over the HTTP-RPC interface", Value: "", } IPCDisabledFlag = cli.BoolFlag{ Name: "ipcdisable", Usage: "Disable the IPC-RPC server", } IPCPathFlag = DirectoryFlag{ Name: "ipcpath", Usage: "Filename for IPC socket/pipe within the datadir (explicit paths escape it)", } WSEnabledFlag = cli.BoolFlag{ Name: "ws", Usage: "Enable the WS-RPC server", } WSListenAddrFlag = cli.StringFlag{ Name: "wsaddr", Usage: "WS-RPC server listening interface", Value: node.DefaultWSHost, } WSPortFlag = cli.IntFlag{ Name: "wsport", Usage: "WS-RPC server listening port", Value: node.DefaultWSPort, } WSApiFlag = cli.StringFlag{ Name: "wsapi", Usage: "API's offered over the WS-RPC interface", Value: "", } WSAllowedOriginsFlag = cli.StringFlag{ Name: "wsorigins", Usage: "Origins from which to accept websockets requests", Value: "", } ExecFlag = cli.StringFlag{ Name: "exec", Usage: "Execute JavaScript statement", } PreloadJSFlag = cli.StringFlag{ Name: "preload", Usage: "Comma separated list of JavaScript files to preload into the console", } // Network Settings MaxPeersFlag = cli.IntFlag{ Name: "maxpeers", Usage: "Maximum number of network peers (network disabled if set to 0)", Value: 25, } MaxPendingPeersFlag = cli.IntFlag{ Name: "maxpendpeers", Usage: "Maximum number of pending connection attempts (defaults used if set to 0)", Value: 0, } ListenPortFlag = cli.IntFlag{ Name: "port", Usage: "Network listening port", Value: 30303, } BootnodesFlag = cli.StringFlag{ Name: "bootnodes", Usage: "Comma separated enode URLs for P2P discovery bootstrap (set v4+v5 instead for light servers)", Value: "", } BootnodesV4Flag = cli.StringFlag{ Name: "bootnodesv4", Usage: "Comma separated enode URLs for P2P v4 discovery bootstrap (light server, full nodes)", Value: "", } BootnodesV5Flag = cli.StringFlag{ Name: "bootnodesv5", Usage: "Comma separated enode URLs for P2P v5 discovery bootstrap (light server, light nodes)", Value: "", } NodeKeyFileFlag = cli.StringFlag{ Name: "nodekey", Usage: "P2P node key file", } NodeKeyHexFlag = cli.StringFlag{ Name: "nodekeyhex", Usage: "P2P node key as hex (for testing)", } NATFlag = cli.StringFlag{ Name: "nat", Usage: "NAT port mapping mechanism (any|none|upnp|pmp|extip:)", Value: "any", } NoDiscoverFlag = cli.BoolFlag{ Name: "nodiscover", Usage: "Disables the peer discovery mechanism (manual peer addition)", } DiscoveryV5Flag = cli.BoolFlag{ Name: "v5disc", Usage: "Enables the experimental RLPx V5 (Topic Discovery) mechanism", } NetrestrictFlag = cli.StringFlag{ Name: "netrestrict", Usage: "Restricts network communication to the given IP networks (CIDR masks)", } // ATM the url is left to the user and deployment to JSpathFlag = cli.StringFlag{ Name: "jspath", Usage: "JavaScript root path for `loadScript`", Value: ".", } // Gas price oracle settings GpoBlocksFlag = cli.IntFlag{ Name: "gpoblocks", Usage: "Number of recent blocks to check for gas prices", Value: eth.DefaultConfig.GPO.Blocks, } GpoPercentileFlag = cli.IntFlag{ Name: "gpopercentile", Usage: "Suggested gas price is the given percentile of a set of recent transaction gas prices", Value: eth.DefaultConfig.GPO.Percentile, } WhisperEnabledFlag = cli.BoolFlag{ Name: "shh", Usage: "Enable Whisper", } WhisperMaxMessageSizeFlag = cli.IntFlag{ Name: "shh.maxmessagesize", Usage: "Max message size accepted", Value: int(whisper.DefaultMaxMessageSize), } WhisperMinPOWFlag = cli.Float64Flag{ Name: "shh.pow", Usage: "Minimum POW accepted", Value: whisper.DefaultMinimumPoW, } WhisperRestrictConnectionBetweenLightClientsFlag = cli.BoolFlag{ Name: "shh.restrict-light", Usage: "Restrict connection between two whisper light clients", } // Metrics flags MetricsEnabledFlag = cli.BoolFlag{ Name: metrics.MetricsEnabledFlag, Usage: "Enable metrics collection and reporting", } MetricsEnableInfluxDBFlag = cli.BoolFlag{ Name: "metrics.influxdb", Usage: "Enable metrics export/push to an external InfluxDB database", } MetricsInfluxDBEndpointFlag = cli.StringFlag{ Name: "metrics.influxdb.endpoint", Usage: "InfluxDB API endpoint to report metrics to", Value: "http://localhost:8086", } MetricsInfluxDBDatabaseFlag = cli.StringFlag{ Name: "metrics.influxdb.database", Usage: "InfluxDB database name to push reported metrics to", Value: "geth", } MetricsInfluxDBUsernameFlag = cli.StringFlag{ Name: "metrics.influxdb.username", Usage: "Username to authorize access to the database", Value: "test", } MetricsInfluxDBPasswordFlag = cli.StringFlag{ Name: "metrics.influxdb.password", Usage: "Password to authorize access to the database", Value: "test", } // Tags are part of every measurement sent to InfluxDB. Queries on tags are faster in InfluxDB. // For example `host` tag could be used so that we can group all nodes and average a measurement // across all of them, but also so that we can select a specific node and inspect its measurements. // https://docs.influxdata.com/influxdb/v1.4/concepts/key_concepts/#tag-key MetricsInfluxDBTagsFlag = cli.StringFlag{ Name: "metrics.influxdb.tags", Usage: "Comma-separated InfluxDB tags (key/values) attached to all measurements", Value: "host=localhost", } EWASMInterpreterFlag = cli.StringFlag{ Name: "vm.ewasm", Usage: "External ewasm configuration (default = built-in interpreter)", Value: "", } EVMInterpreterFlag = cli.StringFlag{ Name: "vm.evm", Usage: "External EVM configuration (default = built-in interpreter)", Value: "", } ) // MakeDataDir retrieves the currently requested data directory, terminating // if none (or the empty string) is specified. If the node is starting a testnet, // the a subdirectory of the specified datadir will be used. func MakeDataDir(ctx *cli.Context) string { if path := ctx.GlobalString(DataDirFlag.Name); path != "" { if ctx.GlobalBool(TestnetFlag.Name) { return filepath.Join(path, "testnet") } return path } Fatalf("Cannot determine default data directory, please set manually (--datadir)") return "" } // setNodeKey creates a node key from set command line flags, either loading it // from a file or as a specified hex value. If neither flags were provided, this // method returns nil and an emphemeral key is to be generated. func setNodeKey(ctx *cli.Context, cfg *p2p.Config) { var ( hex = ctx.GlobalString(NodeKeyHexFlag.Name) file = ctx.GlobalString(NodeKeyFileFlag.Name) key *ecdsa.PrivateKey err error ) switch { case file != "" && hex != "": Fatalf("Options %q and %q are mutually exclusive", NodeKeyFileFlag.Name, NodeKeyHexFlag.Name) case file != "": if key, err = crypto.LoadECDSA(file); err != nil { Fatalf("Option %q: %v", NodeKeyFileFlag.Name, err) } cfg.PrivateKey = key case hex != "": if key, err = crypto.HexToECDSA(hex); err != nil { Fatalf("Option %q: %v", NodeKeyHexFlag.Name, err) } cfg.PrivateKey = key } } // setNodeUserIdent creates the user identifier from CLI flags. func setNodeUserIdent(ctx *cli.Context, cfg *node.Config) { if identity := ctx.GlobalString(IdentityFlag.Name); len(identity) > 0 { cfg.UserIdent = identity } } // setBootstrapNodes creates a list of bootstrap nodes from the command line // flags, reverting to pre-configured ones if none have been specified. func setBootstrapNodes(ctx *cli.Context, cfg *p2p.Config) { urls := params.MainnetBootnodes switch { case ctx.GlobalIsSet(BootnodesFlag.Name) || ctx.GlobalIsSet(BootnodesV4Flag.Name): if ctx.GlobalIsSet(BootnodesV4Flag.Name) { urls = strings.Split(ctx.GlobalString(BootnodesV4Flag.Name), ",") } else { urls = strings.Split(ctx.GlobalString(BootnodesFlag.Name), ",") } case ctx.GlobalBool(TestnetFlag.Name): urls = params.TestnetBootnodes case cfg.BootstrapNodes != nil: return // already set, don't apply defaults. } cfg.BootstrapNodes = make([]*enode.Node, 0, len(urls)) for _, url := range urls { node, err := enode.ParseV4(url) if err != nil { log.Crit("Bootstrap URL invalid", "enode", url, "err", err) } cfg.BootstrapNodes = append(cfg.BootstrapNodes, node) } } // setBootstrapNodesV5 creates a list of bootstrap nodes from the command line // flags, reverting to pre-configured ones if none have been specified. func setBootstrapNodesV5(ctx *cli.Context, cfg *p2p.Config) { urls := params.DiscoveryV5Bootnodes switch { case ctx.GlobalIsSet(BootnodesFlag.Name) || ctx.GlobalIsSet(BootnodesV5Flag.Name): if ctx.GlobalIsSet(BootnodesV5Flag.Name) { urls = strings.Split(ctx.GlobalString(BootnodesV5Flag.Name), ",") } else { urls = strings.Split(ctx.GlobalString(BootnodesFlag.Name), ",") } case cfg.BootstrapNodesV5 != nil: return // already set, don't apply defaults. } cfg.BootstrapNodesV5 = make([]*discv5.Node, 0, len(urls)) for _, url := range urls { node, err := discv5.ParseNode(url) if err != nil { log.Error("Bootstrap URL invalid", "enode", url, "err", err) continue } cfg.BootstrapNodesV5 = append(cfg.BootstrapNodesV5, node) } } // setListenAddress creates a TCP listening address string from set command // line flags. func setListenAddress(ctx *cli.Context, cfg *p2p.Config) { if ctx.GlobalIsSet(ListenPortFlag.Name) { cfg.ListenAddr = fmt.Sprintf(":%d", ctx.GlobalInt(ListenPortFlag.Name)) } } // setNAT creates a port mapper from command line flags. func setNAT(ctx *cli.Context, cfg *p2p.Config) { if ctx.GlobalIsSet(NATFlag.Name) { natif, err := nat.Parse(ctx.GlobalString(NATFlag.Name)) if err != nil { Fatalf("Option %s: %v", NATFlag.Name, err) } cfg.NAT = natif } } // splitAndTrim splits input separated by a comma // and trims excessive white space from the substrings. func splitAndTrim(input string) []string { result := strings.Split(input, ",") for i, r := range result { result[i] = strings.TrimSpace(r) } return result } // setHTTP creates the HTTP RPC listener interface string from the set // command line flags, returning empty if the HTTP endpoint is disabled. func setHTTP(ctx *cli.Context, cfg *node.Config) { if ctx.GlobalBool(RPCEnabledFlag.Name) && cfg.HTTPHost == "" { cfg.HTTPHost = "127.0.0.1" if ctx.GlobalIsSet(RPCListenAddrFlag.Name) { cfg.HTTPHost = ctx.GlobalString(RPCListenAddrFlag.Name) } } if ctx.GlobalIsSet(RPCPortFlag.Name) { cfg.HTTPPort = ctx.GlobalInt(RPCPortFlag.Name) } if ctx.GlobalIsSet(RPCCORSDomainFlag.Name) { cfg.HTTPCors = splitAndTrim(ctx.GlobalString(RPCCORSDomainFlag.Name)) } if ctx.GlobalIsSet(RPCApiFlag.Name) { cfg.HTTPModules = splitAndTrim(ctx.GlobalString(RPCApiFlag.Name)) } if ctx.GlobalIsSet(RPCVirtualHostsFlag.Name) { cfg.HTTPVirtualHosts = splitAndTrim(ctx.GlobalString(RPCVirtualHostsFlag.Name)) } } // setWS creates the WebSocket RPC listener interface string from the set // command line flags, returning empty if the HTTP endpoint is disabled. func setWS(ctx *cli.Context, cfg *node.Config) { if ctx.GlobalBool(WSEnabledFlag.Name) && cfg.WSHost == "" { cfg.WSHost = "127.0.0.1" if ctx.GlobalIsSet(WSListenAddrFlag.Name) { cfg.WSHost = ctx.GlobalString(WSListenAddrFlag.Name) } } if ctx.GlobalIsSet(WSPortFlag.Name) { cfg.WSPort = ctx.GlobalInt(WSPortFlag.Name) } if ctx.GlobalIsSet(WSAllowedOriginsFlag.Name) { cfg.WSOrigins = splitAndTrim(ctx.GlobalString(WSAllowedOriginsFlag.Name)) } if ctx.GlobalIsSet(WSApiFlag.Name) { cfg.WSModules = splitAndTrim(ctx.GlobalString(WSApiFlag.Name)) } } // setIPC creates an IPC path configuration from the set command line flags, // returning an empty string if IPC was explicitly disabled, or the set path. func setIPC(ctx *cli.Context, cfg *node.Config) { checkExclusive(ctx, IPCDisabledFlag, IPCPathFlag) switch { case ctx.GlobalBool(IPCDisabledFlag.Name): cfg.IPCPath = "" case ctx.GlobalIsSet(IPCPathFlag.Name): cfg.IPCPath = ctx.GlobalString(IPCPathFlag.Name) } } // makeDatabaseHandles raises out the number of allowed file handles per process // for Geth and returns half of the allowance to assign to the database. func makeDatabaseHandles() int { limit, err := fdlimit.Maximum() if err != nil { Fatalf("Failed to retrieve file descriptor allowance: %v", err) } raised, err := fdlimit.Raise(uint64(limit)) if err != nil { Fatalf("Failed to raise file descriptor allowance: %v", err) } return int(raised / 2) // Leave half for networking and other stuff } // MakeAddress converts an account specified directly as a hex encoded string or // a key index in the key store to an internal account representation. func MakeAddress(ks *keystore.KeyStore, account string) (accounts.Account, error) { // If the specified account is a valid address, return it if common.IsHexAddress(account) { return accounts.Account{Address: common.HexToAddress(account)}, nil } // Otherwise try to interpret the account as a keystore index index, err := strconv.Atoi(account) if err != nil || index < 0 { return accounts.Account{}, fmt.Errorf("invalid account address or index %q", account) } log.Warn("-------------------------------------------------------------------") log.Warn("Referring to accounts by order in the keystore folder is dangerous!") log.Warn("This functionality is deprecated and will be removed in the future!") log.Warn("Please use explicit addresses! (can search via `geth account list`)") log.Warn("-------------------------------------------------------------------") accs := ks.Accounts() if len(accs) <= index { return accounts.Account{}, fmt.Errorf("index %d higher than number of accounts %d", index, len(accs)) } return accs[index], nil } // setEtherbase retrieves the etherbase either from the directly specified // command line flags or from the keystore if CLI indexed. func setEtherbase(ctx *cli.Context, ks *keystore.KeyStore, cfg *eth.Config) { // Extract the current etherbase, new flag overriding legacy one var etherbase string if ctx.GlobalIsSet(MinerLegacyEtherbaseFlag.Name) { etherbase = ctx.GlobalString(MinerLegacyEtherbaseFlag.Name) } if ctx.GlobalIsSet(MinerEtherbaseFlag.Name) { etherbase = ctx.GlobalString(MinerEtherbaseFlag.Name) } // Convert the etherbase into an address and configure it if etherbase != "" { account, err := MakeAddress(ks, etherbase) if err != nil { Fatalf("Invalid miner etherbase: %v", err) } cfg.Etherbase = account.Address } } // MakePasswordList reads password lines from the file specified by the global --password flag. func MakePasswordList(ctx *cli.Context) []string { path := ctx.GlobalString(PasswordFileFlag.Name) if path == "" { return nil } text, err := ioutil.ReadFile(path) if err != nil { Fatalf("Failed to read password file: %v", err) } lines := strings.Split(string(text), "\n") // Sanitise DOS line endings. for i := range lines { lines[i] = strings.TrimRight(lines[i], "\r") } return lines } func SetP2PConfig(ctx *cli.Context, cfg *p2p.Config) { setNodeKey(ctx, cfg) setNAT(ctx, cfg) setListenAddress(ctx, cfg) setBootstrapNodes(ctx, cfg) setBootstrapNodesV5(ctx, cfg) lightClient := ctx.GlobalString(SyncModeFlag.Name) == "light" lightServer := ctx.GlobalInt(LightServFlag.Name) != 0 lightPeers := ctx.GlobalInt(LightPeersFlag.Name) if ctx.GlobalIsSet(MaxPeersFlag.Name) { cfg.MaxPeers = ctx.GlobalInt(MaxPeersFlag.Name) if lightServer && !ctx.GlobalIsSet(LightPeersFlag.Name) { cfg.MaxPeers += lightPeers } } else { if lightServer { cfg.MaxPeers += lightPeers } if lightClient && ctx.GlobalIsSet(LightPeersFlag.Name) && cfg.MaxPeers < lightPeers { cfg.MaxPeers = lightPeers } } if !(lightClient || lightServer) { lightPeers = 0 } ethPeers := cfg.MaxPeers - lightPeers if lightClient { ethPeers = 0 } log.Info("Maximum peer count", "ETH", ethPeers, "LES", lightPeers, "total", cfg.MaxPeers) if ctx.GlobalIsSet(MaxPendingPeersFlag.Name) { cfg.MaxPendingPeers = ctx.GlobalInt(MaxPendingPeersFlag.Name) } if ctx.GlobalIsSet(NoDiscoverFlag.Name) || lightClient { cfg.NoDiscovery = true } // if we're running a light client or server, force enable the v5 peer discovery // unless it is explicitly disabled with --nodiscover note that explicitly specifying // --v5disc overrides --nodiscover, in which case the later only disables v4 discovery forceV5Discovery := (lightClient || lightServer) && !ctx.GlobalBool(NoDiscoverFlag.Name) if ctx.GlobalIsSet(DiscoveryV5Flag.Name) { cfg.DiscoveryV5 = ctx.GlobalBool(DiscoveryV5Flag.Name) } else if forceV5Discovery { cfg.DiscoveryV5 = true } if netrestrict := ctx.GlobalString(NetrestrictFlag.Name); netrestrict != "" { list, err := netutil.ParseNetlist(netrestrict) if err != nil { Fatalf("Option %q: %v", NetrestrictFlag.Name, err) } cfg.NetRestrict = list } if ctx.GlobalBool(DeveloperFlag.Name) { // --dev mode can't use p2p networking. cfg.MaxPeers = 0 cfg.ListenAddr = ":0" cfg.NoDiscovery = true cfg.DiscoveryV5 = false } } // SetNodeConfig applies node-related command line flags to the config. func SetNodeConfig(ctx *cli.Context, cfg *node.Config) { SetP2PConfig(ctx, &cfg.P2P) setIPC(ctx, cfg) setHTTP(ctx, cfg) setWS(ctx, cfg) setNodeUserIdent(ctx, cfg) setDataDir(ctx, cfg) if ctx.GlobalIsSet(KeyStoreDirFlag.Name) { cfg.KeyStoreDir = ctx.GlobalString(KeyStoreDirFlag.Name) } if ctx.GlobalIsSet(LightKDFFlag.Name) { cfg.UseLightweightKDF = ctx.GlobalBool(LightKDFFlag.Name) } if ctx.GlobalIsSet(NoUSBFlag.Name) { cfg.NoUSB = ctx.GlobalBool(NoUSBFlag.Name) } } func setDataDir(ctx *cli.Context, cfg *node.Config) { switch { case ctx.GlobalIsSet(DataDirFlag.Name): cfg.DataDir = ctx.GlobalString(DataDirFlag.Name) case ctx.GlobalBool(DeveloperFlag.Name): cfg.DataDir = "" // unless explicitly requested, use memory databases case ctx.GlobalBool(TestnetFlag.Name): cfg.DataDir = filepath.Join(node.DefaultDataDir(), "testnet") } } func setGPO(ctx *cli.Context, cfg *gasprice.Config) { if ctx.GlobalIsSet(GpoBlocksFlag.Name) { cfg.Blocks = ctx.GlobalInt(GpoBlocksFlag.Name) } if ctx.GlobalIsSet(GpoPercentileFlag.Name) { cfg.Percentile = ctx.GlobalInt(GpoPercentileFlag.Name) } } func setTxPool(ctx *cli.Context, cfg *core.TxPoolConfig) { if ctx.GlobalIsSet(TxPoolLocalsFlag.Name) { locals := strings.Split(ctx.GlobalString(TxPoolLocalsFlag.Name), ",") for _, account := range locals { if trimmed := strings.TrimSpace(account); !common.IsHexAddress(trimmed) { Fatalf("Invalid account in --txpool.locals: %s", trimmed) } else { cfg.Locals = append(cfg.Locals, common.HexToAddress(account)) } } } if ctx.GlobalIsSet(TxPoolNoLocalsFlag.Name) { cfg.NoLocals = ctx.GlobalBool(TxPoolNoLocalsFlag.Name) } if ctx.GlobalIsSet(TxPoolJournalFlag.Name) { cfg.Journal = ctx.GlobalString(TxPoolJournalFlag.Name) } if ctx.GlobalIsSet(TxPoolRejournalFlag.Name) { cfg.Rejournal = ctx.GlobalDuration(TxPoolRejournalFlag.Name) } if ctx.GlobalIsSet(TxPoolPriceLimitFlag.Name) { cfg.PriceLimit = ctx.GlobalUint64(TxPoolPriceLimitFlag.Name) } if ctx.GlobalIsSet(TxPoolPriceBumpFlag.Name) { cfg.PriceBump = ctx.GlobalUint64(TxPoolPriceBumpFlag.Name) } if ctx.GlobalIsSet(TxPoolAccountSlotsFlag.Name) { cfg.AccountSlots = ctx.GlobalUint64(TxPoolAccountSlotsFlag.Name) } if ctx.GlobalIsSet(TxPoolGlobalSlotsFlag.Name) { cfg.GlobalSlots = ctx.GlobalUint64(TxPoolGlobalSlotsFlag.Name) } if ctx.GlobalIsSet(TxPoolAccountQueueFlag.Name) { cfg.AccountQueue = ctx.GlobalUint64(TxPoolAccountQueueFlag.Name) } if ctx.GlobalIsSet(TxPoolGlobalQueueFlag.Name) { cfg.GlobalQueue = ctx.GlobalUint64(TxPoolGlobalQueueFlag.Name) } if ctx.GlobalIsSet(TxPoolLifetimeFlag.Name) { cfg.Lifetime = ctx.GlobalDuration(TxPoolLifetimeFlag.Name) } } func setEthash(ctx *cli.Context, cfg *eth.Config) { if ctx.GlobalIsSet(EthashCacheDirFlag.Name) { cfg.Ethash.CacheDir = ctx.GlobalString(EthashCacheDirFlag.Name) } if ctx.GlobalIsSet(EthashDatasetDirFlag.Name) { cfg.Ethash.DatasetDir = ctx.GlobalString(EthashDatasetDirFlag.Name) } if ctx.GlobalIsSet(EthashCachesInMemoryFlag.Name) { cfg.Ethash.CachesInMem = ctx.GlobalInt(EthashCachesInMemoryFlag.Name) } if ctx.GlobalIsSet(EthashCachesOnDiskFlag.Name) { cfg.Ethash.CachesOnDisk = ctx.GlobalInt(EthashCachesOnDiskFlag.Name) } if ctx.GlobalIsSet(EthashDatasetsInMemoryFlag.Name) { cfg.Ethash.DatasetsInMem = ctx.GlobalInt(EthashDatasetsInMemoryFlag.Name) } if ctx.GlobalIsSet(EthashDatasetsOnDiskFlag.Name) { cfg.Ethash.DatasetsOnDisk = ctx.GlobalInt(EthashDatasetsOnDiskFlag.Name) } } func setWhitelist(ctx *cli.Context, cfg *eth.Config) { whitelist := ctx.GlobalString(WhitelistFlag.Name) if whitelist == "" { return } cfg.Whitelist = make(map[uint64]common.Hash) for _, entry := range strings.Split(whitelist, ",") { parts := strings.Split(entry, "=") if len(parts) != 2 { Fatalf("Invalid whitelist entry: %s", entry) } number, err := strconv.ParseUint(parts[0], 0, 64) if err != nil { Fatalf("Invalid whitelist block number %s: %v", parts[0], err) } var hash common.Hash if err = hash.UnmarshalText([]byte(parts[1])); err != nil { Fatalf("Invalid whitelist hash %s: %v", parts[1], err) } cfg.Whitelist[number] = hash } } // checkExclusive verifies that only a single instance of the provided flags was // set by the user. Each flag might optionally be followed by a string type to // specialize it further. func checkExclusive(ctx *cli.Context, args ...interface{}) { set := make([]string, 0, 1) for i := 0; i < len(args); i++ { // Make sure the next argument is a flag and skip if not set flag, ok := args[i].(cli.Flag) if !ok { panic(fmt.Sprintf("invalid argument, not cli.Flag type: %T", args[i])) } // Check if next arg extends current and expand its name if so name := flag.GetName() if i+1 < len(args) { switch option := args[i+1].(type) { case string: // Extended flag check, make sure value set doesn't conflict with passed in option if ctx.GlobalString(flag.GetName()) == option { name += "=" + option set = append(set, "--"+name) } // shift arguments and continue i++ continue case cli.Flag: default: panic(fmt.Sprintf("invalid argument, not cli.Flag or string extension: %T", args[i+1])) } } // Mark the flag if it's set if ctx.GlobalIsSet(flag.GetName()) { set = append(set, "--"+name) } } if len(set) > 1 { Fatalf("Flags %v can't be used at the same time", strings.Join(set, ", ")) } } // SetShhConfig applies shh-related command line flags to the config. func SetShhConfig(ctx *cli.Context, stack *node.Node, cfg *whisper.Config) { if ctx.GlobalIsSet(WhisperMaxMessageSizeFlag.Name) { cfg.MaxMessageSize = uint32(ctx.GlobalUint(WhisperMaxMessageSizeFlag.Name)) } if ctx.GlobalIsSet(WhisperMinPOWFlag.Name) { cfg.MinimumAcceptedPOW = ctx.GlobalFloat64(WhisperMinPOWFlag.Name) } if ctx.GlobalIsSet(WhisperRestrictConnectionBetweenLightClientsFlag.Name) { cfg.RestrictConnectionBetweenLightClients = true } } // SetDexConfig applies eth-related command line flags to the config. func SetDexConfig(ctx *cli.Context, stack *node.Node, cfg *dex.Config) { // Avoid conflicting network flags checkExclusive(ctx, DeveloperFlag, TestnetFlag) checkExclusive(ctx, LightServFlag, SyncModeFlag, "light") ks := stack.AccountManager().Backends(keystore.KeyStoreType)[0].(*keystore.KeyStore) setGPO(ctx, &cfg.GPO) setTxPool(ctx, &cfg.TxPool) if ctx.GlobalIsSet(SyncModeFlag.Name) { cfg.SyncMode = *GlobalTextMarshaler(ctx, SyncModeFlag.Name).(*downloader.SyncMode) } if ctx.GlobalIsSet(LightServFlag.Name) { cfg.LightServ = ctx.GlobalInt(LightServFlag.Name) } if ctx.GlobalIsSet(LightPeersFlag.Name) { cfg.LightPeers = ctx.GlobalInt(LightPeersFlag.Name) } if ctx.GlobalIsSet(NetworkIdFlag.Name) { cfg.NetworkId = ctx.GlobalUint64(NetworkIdFlag.Name) } if ctx.GlobalIsSet(CacheFlag.Name) || ctx.GlobalIsSet(CacheDatabaseFlag.Name) { cfg.DatabaseCache = ctx.GlobalInt(CacheFlag.Name) * ctx.GlobalInt(CacheDatabaseFlag.Name) / 100 } cfg.DatabaseHandles = makeDatabaseHandles() if gcmode := ctx.GlobalString(GCModeFlag.Name); gcmode != "full" && gcmode != "archive" { Fatalf("--%s must be either 'full' or 'archive'", GCModeFlag.Name) } cfg.NoPruning = ctx.GlobalString(GCModeFlag.Name) == "archive" if ctx.GlobalIsSet(CacheFlag.Name) || ctx.GlobalIsSet(CacheTrieFlag.Name) { cfg.TrieCleanCache = ctx.GlobalInt(CacheFlag.Name) * ctx.GlobalInt(CacheTrieFlag.Name) / 100 } if ctx.GlobalIsSet(CacheFlag.Name) || ctx.GlobalIsSet(CacheGCFlag.Name) { cfg.TrieDirtyCache = ctx.GlobalInt(CacheFlag.Name) * ctx.GlobalInt(CacheGCFlag.Name) / 100 } if ctx.GlobalIsSet(DocRootFlag.Name) { cfg.DocRoot = ctx.GlobalString(DocRootFlag.Name) } if ctx.GlobalIsSet(VMEnableDebugFlag.Name) { // TODO(fjl): force-enable this in --dev mode cfg.EnablePreimageRecording = ctx.GlobalBool(VMEnableDebugFlag.Name) } if ctx.GlobalIsSet(EWASMInterpreterFlag.Name) { cfg.EWASMInterpreter = ctx.GlobalString(EWASMInterpreterFlag.Name) } if ctx.GlobalIsSet(EVMInterpreterFlag.Name) { cfg.EVMInterpreter = ctx.GlobalString(EVMInterpreterFlag.Name) } if ctx.GlobalIsSet(RPCGlobalGasCap.Name) { cfg.RPCGasCap = new(big.Int).SetUint64(ctx.GlobalUint64(RPCGlobalGasCap.Name)) } // Override any default configs for hard coded networks. switch { case ctx.GlobalBool(TestnetFlag.Name): if !ctx.GlobalIsSet(NetworkIdFlag.Name) { cfg.NetworkId = 238 } cfg.Genesis = core.DefaultTestnetGenesisBlock() case ctx.GlobalBool(DeveloperFlag.Name): if !ctx.GlobalIsSet(NetworkIdFlag.Name) { cfg.NetworkId = 1337 } // Create new developer account or reuse existing one var ( developer accounts.Account err error ) if accs := ks.Accounts(); len(accs) > 0 { developer = ks.Accounts()[0] } else { developer, err = ks.NewAccount("") if err != nil { Fatalf("Failed to create developer account: %v", err) } } if err := ks.Unlock(developer, ""); err != nil { Fatalf("Failed to unlock developer account: %v", err) } log.Info("Using developer account", "address", developer.Address) cfg.Genesis = core.DeveloperGenesisBlock(uint64(ctx.GlobalInt(DeveloperPeriodFlag.Name)), developer.Address) } // TODO(fjl): move trie cache generations into config if gen := ctx.GlobalInt(TrieCacheGenFlag.Name); gen > 0 { state.MaxTrieCacheGen = uint16(gen) } } // SetDashboardConfig applies dashboard related command line flags to the config. func SetDashboardConfig(ctx *cli.Context, cfg *dashboard.Config) { cfg.Host = ctx.GlobalString(DashboardAddrFlag.Name) cfg.Port = ctx.GlobalInt(DashboardPortFlag.Name) cfg.Refresh = ctx.GlobalDuration(DashboardRefreshFlag.Name) } // RegisterDexService adds an Dexon client to the stack. func RegisterDexService(stack *node.Node, cfg *dex.Config) { var err error if cfg.SyncMode == downloader.LightSync { //err = stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { // return les.New(ctx, cfg) //}) } else { err = stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { cfg.PrivateKey = ctx.ServerConfig.PrivateKey fullNode, err := dex.New(ctx, cfg) //if fullNode != nil && cfg.LightServ > 0 { // ls, _ := les.NewLesServer(fullNode, cfg) // fullNode.AddLesServer(ls) //} return fullNode, err }) } if err != nil { Fatalf("Failed to register the Ethereum service: %v", err) } } // RegisterDashboardService adds a dashboard to the stack. func RegisterDashboardService(stack *node.Node, cfg *dashboard.Config, commit string) { stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { return dashboard.New(cfg, commit, ctx.ResolvePath("logs")), nil }) } // RegisterShhService configures Whisper and adds it to the given node. func RegisterShhService(stack *node.Node, cfg *whisper.Config) { if err := stack.Register(func(n *node.ServiceContext) (node.Service, error) { return whisper.New(cfg), nil }); err != nil { Fatalf("Failed to register the Whisper service: %v", err) } } // RegisterEthStatsService configures the Ethereum Stats daemon and adds it to // the given node. func RegisterEthStatsService(stack *node.Node, url string) { if err := stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { // Retrieve both eth and les services var ethServ *eth.Ethereum ctx.Service(ðServ) var lesServ *les.LightEthereum ctx.Service(&lesServ) return ethstats.New(url, ethServ, lesServ) }); err != nil { Fatalf("Failed to register the Ethereum Stats service: %v", err) } } func SetupMetrics(ctx *cli.Context) { if metrics.Enabled { log.Info("Enabling metrics collection") var ( enableExport = ctx.GlobalBool(MetricsEnableInfluxDBFlag.Name) endpoint = ctx.GlobalString(MetricsInfluxDBEndpointFlag.Name) database = ctx.GlobalString(MetricsInfluxDBDatabaseFlag.Name) username = ctx.GlobalString(MetricsInfluxDBUsernameFlag.Name) password = ctx.GlobalString(MetricsInfluxDBPasswordFlag.Name) ) if enableExport { tagsMap := SplitTagsFlag(ctx.GlobalString(MetricsInfluxDBTagsFlag.Name)) log.Info("Enabling metrics export to InfluxDB") go influxdb.InfluxDBWithTags(metrics.DefaultRegistry, 10*time.Second, endpoint, database, username, password, "geth.", tagsMap) } } } func SplitTagsFlag(tagsFlag string) map[string]string { tags := strings.Split(tagsFlag, ",") tagsMap := map[string]string{} for _, t := range tags { if t != "" { kv := strings.Split(t, "=") if len(kv) == 2 { tagsMap[kv[0]] = kv[1] } } } return tagsMap } // MakeChainDatabase open an LevelDB using the flags passed to the client and will hard crash if it fails. func MakeChainDatabase(ctx *cli.Context, stack *node.Node) ethdb.Database { var ( cache = ctx.GlobalInt(CacheFlag.Name) * ctx.GlobalInt(CacheDatabaseFlag.Name) / 100 handles = makeDatabaseHandles() ) name := "chaindata" if ctx.GlobalString(SyncModeFlag.Name) == "light" { name = "lightchaindata" } chainDb, err := stack.OpenDatabase(name, cache, handles) if err != nil { Fatalf("Could not open database: %v", err) } return chainDb } func MakeGenesis(ctx *cli.Context) *core.Genesis { var genesis *core.Genesis switch { case ctx.GlobalBool(TestnetFlag.Name): genesis = core.DefaultTestnetGenesisBlock() case ctx.GlobalBool(DeveloperFlag.Name): Fatalf("Developer chains are ephemeral") } return genesis } // MakeChain creates a chain manager from set command line flags. func MakeChain(ctx *cli.Context, stack *node.Node) (chain *core.BlockChain, chainDb ethdb.Database) { var err error chainDb = MakeChainDatabase(ctx, stack) config, _, err := core.SetupGenesisBlock(chainDb, MakeGenesis(ctx)) if err != nil { Fatalf("%v", err) } var engine consensus.Engine if config.Clique != nil { engine = clique.New(config.Clique, chainDb) } else { engine = ethash.NewFaker() if !ctx.GlobalBool(FakePoWFlag.Name) { engine = ethash.New(ethash.Config{ CacheDir: stack.ResolvePath(eth.DefaultConfig.Ethash.CacheDir), CachesInMem: eth.DefaultConfig.Ethash.CachesInMem, CachesOnDisk: eth.DefaultConfig.Ethash.CachesOnDisk, DatasetDir: stack.ResolvePath(eth.DefaultConfig.Ethash.DatasetDir), DatasetsInMem: eth.DefaultConfig.Ethash.DatasetsInMem, DatasetsOnDisk: eth.DefaultConfig.Ethash.DatasetsOnDisk, }, nil, false) } } if gcmode := ctx.GlobalString(GCModeFlag.Name); gcmode != "full" && gcmode != "archive" { Fatalf("--%s must be either 'full' or 'archive'", GCModeFlag.Name) } cache := &core.CacheConfig{ Disabled: ctx.GlobalString(GCModeFlag.Name) == "archive", TrieCleanLimit: eth.DefaultConfig.TrieCleanCache, TrieDirtyLimit: eth.DefaultConfig.TrieDirtyCache, TrieTimeLimit: eth.DefaultConfig.TrieTimeout, } if ctx.GlobalIsSet(CacheFlag.Name) || ctx.GlobalIsSet(CacheTrieFlag.Name) { cache.TrieCleanLimit = ctx.GlobalInt(CacheFlag.Name) * ctx.GlobalInt(CacheTrieFlag.Name) / 100 } if ctx.GlobalIsSet(CacheFlag.Name) || ctx.GlobalIsSet(CacheGCFlag.Name) { cache.TrieDirtyLimit = ctx.GlobalInt(CacheFlag.Name) * ctx.GlobalInt(CacheGCFlag.Name) / 100 } vmcfg := vm.Config{EnablePreimageRecording: ctx.GlobalBool(VMEnableDebugFlag.Name)} chain, err = core.NewBlockChain(chainDb, cache, config, engine, vmcfg, nil) if err != nil { Fatalf("Can't create BlockChain: %v", err) } return chain, chainDb } // MakeConsolePreloads retrieves the absolute paths for the console JavaScript // scripts to preload before starting. func MakeConsolePreloads(ctx *cli.Context) []string { // Skip preloading if there's nothing to preload if ctx.GlobalString(PreloadJSFlag.Name) == "" { return nil } // Otherwise resolve absolute paths and return them preloads := []string{} assets := ctx.GlobalString(JSpathFlag.Name) for _, file := range strings.Split(ctx.GlobalString(PreloadJSFlag.Name), ",") { preloads = append(preloads, common.AbsolutePath(assets, strings.TrimSpace(file))) } return preloads } // MigrateFlags sets the global flag from a local flag when it's set. // This is a temporary function used for migrating old command/flags to the // new format. // // e.g. geth account new --keystore /tmp/mykeystore --lightkdf // // is equivalent after calling this method with: // // geth --keystore /tmp/mykeystore --lightkdf account new // // This allows the use of the existing configuration functionality. // When all flags are migrated this function can be removed and the existing // configuration functionality must be changed that is uses local flags func MigrateFlags(action func(ctx *cli.Context) error) func(*cli.Context) error { return func(ctx *cli.Context) error { for _, name := range ctx.FlagNames() { if ctx.IsSet(name) { ctx.GlobalSet(name, ctx.String(name)) } } return action(ctx) } }