plugeth/cmd/utils/flags.go
rjl493456442 59f7b289c3
cmd, core, eth, graphql, trie: no persisted clean trie cache file (#27525)
The clean trie cache is persisted periodically, therefore Geth can
quickly warmup the cache in next restart.

However it will reduce the robustness of system. The assumption is
held in Geth that if the parent trie node is present, then the entire
sub-trie associated with the parent are all prensent.

Imagine the scenario that Geth rewinds itself to a past block and
restart, but Geth finds the root node of "future state" in clean
cache then regard this state is present in disk, while is not in fact.

Another example is offline pruning tool. Whenever an offline pruning
is performed, the clean cache file has to be removed to aviod hitting
the root node of "deleted states" in clean cache.

All in all, compare with the minor performance gain, system robustness
is something we care more.
2023-07-04 10:21:06 +03:00

2172 lines
73 KiB
Go

// 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 <http://www.gnu.org/licenses/>.
// Package utils contains internal helper functions for go-ethereum commands.
package utils
import (
"bytes"
"context"
"crypto/ecdsa"
"encoding/hex"
"errors"
"fmt"
"math"
"math/big"
"net"
"net/http"
"os"
"path/filepath"
godebug "runtime/debug"
"strconv"
"strings"
"time"
"github.com/ethereum/go-ethereum/accounts"
"github.com/ethereum/go-ethereum/accounts/keystore"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/fdlimit"
"github.com/ethereum/go-ethereum/common/hexutil"
"github.com/ethereum/go-ethereum/core"
"github.com/ethereum/go-ethereum/core/rawdb"
"github.com/ethereum/go-ethereum/core/txpool/legacypool"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/core/vm"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/crypto/kzg4844"
"github.com/ethereum/go-ethereum/eth"
ethcatalyst "github.com/ethereum/go-ethereum/eth/catalyst"
"github.com/ethereum/go-ethereum/eth/downloader"
"github.com/ethereum/go-ethereum/eth/ethconfig"
"github.com/ethereum/go-ethereum/eth/filters"
"github.com/ethereum/go-ethereum/eth/gasprice"
"github.com/ethereum/go-ethereum/eth/tracers"
"github.com/ethereum/go-ethereum/ethdb"
"github.com/ethereum/go-ethereum/ethdb/remotedb"
"github.com/ethereum/go-ethereum/ethstats"
"github.com/ethereum/go-ethereum/graphql"
"github.com/ethereum/go-ethereum/internal/ethapi"
"github.com/ethereum/go-ethereum/internal/flags"
"github.com/ethereum/go-ethereum/les"
lescatalyst "github.com/ethereum/go-ethereum/les/catalyst"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/metrics"
"github.com/ethereum/go-ethereum/metrics/exp"
"github.com/ethereum/go-ethereum/metrics/influxdb"
"github.com/ethereum/go-ethereum/miner"
"github.com/ethereum/go-ethereum/node"
"github.com/ethereum/go-ethereum/p2p"
"github.com/ethereum/go-ethereum/p2p/enode"
"github.com/ethereum/go-ethereum/p2p/nat"
"github.com/ethereum/go-ethereum/p2p/netutil"
"github.com/ethereum/go-ethereum/params"
"github.com/ethereum/go-ethereum/rlp"
"github.com/ethereum/go-ethereum/rpc"
pcsclite "github.com/gballet/go-libpcsclite"
gopsutil "github.com/shirou/gopsutil/mem"
"github.com/urfave/cli/v2"
)
// 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 = &flags.DirectoryFlag{
Name: "datadir",
Usage: "Data directory for the databases and keystore",
Value: flags.DirectoryString(node.DefaultDataDir()),
Category: flags.EthCategory,
}
RemoteDBFlag = &cli.StringFlag{
Name: "remotedb",
Usage: "URL for remote database",
Category: flags.LoggingCategory,
}
DBEngineFlag = &cli.StringFlag{
Name: "db.engine",
Usage: "Backing database implementation to use ('pebble' or 'leveldb')",
Value: node.DefaultConfig.DBEngine,
Category: flags.EthCategory,
}
AncientFlag = &flags.DirectoryFlag{
Name: "datadir.ancient",
Usage: "Root directory for ancient data (default = inside chaindata)",
Category: flags.EthCategory,
}
MinFreeDiskSpaceFlag = &flags.DirectoryFlag{
Name: "datadir.minfreedisk",
Usage: "Minimum free disk space in MB, once reached triggers auto shut down (default = --cache.gc converted to MB, 0 = disabled)",
Category: flags.EthCategory,
}
KeyStoreDirFlag = &flags.DirectoryFlag{
Name: "keystore",
Usage: "Directory for the keystore (default = inside the datadir)",
Category: flags.AccountCategory,
}
USBFlag = &cli.BoolFlag{
Name: "usb",
Usage: "Enable monitoring and management of USB hardware wallets",
Category: flags.AccountCategory,
}
SmartCardDaemonPathFlag = &cli.StringFlag{
Name: "pcscdpath",
Usage: "Path to the smartcard daemon (pcscd) socket file",
Value: pcsclite.PCSCDSockName,
Category: flags.AccountCategory,
}
NetworkIdFlag = &cli.Uint64Flag{
Name: "networkid",
Usage: "Explicitly set network id (integer)(For testnets: use --goerli, --sepolia instead)",
Value: ethconfig.Defaults.NetworkId,
Category: flags.EthCategory,
}
MainnetFlag = &cli.BoolFlag{
Name: "mainnet",
Usage: "Ethereum mainnet",
Category: flags.EthCategory,
}
GoerliFlag = &cli.BoolFlag{
Name: "goerli",
Usage: "Görli network: pre-configured proof-of-authority test network",
Category: flags.EthCategory,
}
SepoliaFlag = &cli.BoolFlag{
Name: "sepolia",
Usage: "Sepolia network: pre-configured proof-of-work test network",
Category: flags.EthCategory,
}
// Dev mode
DeveloperFlag = &cli.BoolFlag{
Name: "dev",
Usage: "Ephemeral proof-of-authority network with a pre-funded developer account, mining enabled",
Category: flags.DevCategory,
}
DeveloperPeriodFlag = &cli.IntFlag{
Name: "dev.period",
Usage: "Block period to use in developer mode (0 = mine only if transaction pending)",
Category: flags.DevCategory,
}
DeveloperGasLimitFlag = &cli.Uint64Flag{
Name: "dev.gaslimit",
Usage: "Initial block gas limit",
Value: 11500000,
Category: flags.DevCategory,
}
IdentityFlag = &cli.StringFlag{
Name: "identity",
Usage: "Custom node name",
Category: flags.NetworkingCategory,
}
DocRootFlag = &flags.DirectoryFlag{
Name: "docroot",
Usage: "Document Root for HTTPClient file scheme",
Value: flags.DirectoryString(flags.HomeDir()),
Category: flags.APICategory,
}
ExitWhenSyncedFlag = &cli.BoolFlag{
Name: "exitwhensynced",
Usage: "Exits after block synchronisation completes",
Category: flags.EthCategory,
}
// Dump command options.
IterativeOutputFlag = &cli.BoolFlag{
Name: "iterative",
Usage: "Print streaming JSON iteratively, delimited by newlines",
Value: true,
}
ExcludeStorageFlag = &cli.BoolFlag{
Name: "nostorage",
Usage: "Exclude storage entries (save db lookups)",
}
IncludeIncompletesFlag = &cli.BoolFlag{
Name: "incompletes",
Usage: "Include accounts for which we don't have the address (missing preimage)",
}
ExcludeCodeFlag = &cli.BoolFlag{
Name: "nocode",
Usage: "Exclude contract code (save db lookups)",
}
StartKeyFlag = &cli.StringFlag{
Name: "start",
Usage: "Start position. Either a hash or address",
Value: "0x0000000000000000000000000000000000000000000000000000000000000000",
}
DumpLimitFlag = &cli.Uint64Flag{
Name: "limit",
Usage: "Max number of elements (0 = no limit)",
Value: 0,
}
defaultSyncMode = ethconfig.Defaults.SyncMode
SyncModeFlag = &flags.TextMarshalerFlag{
Name: "syncmode",
Usage: `Blockchain sync mode ("snap", "full" or "light")`,
Value: &defaultSyncMode,
Category: flags.EthCategory,
}
GCModeFlag = &cli.StringFlag{
Name: "gcmode",
Usage: `Blockchain garbage collection mode ("full", "archive")`,
Value: "full",
Category: flags.EthCategory,
}
SnapshotFlag = &cli.BoolFlag{
Name: "snapshot",
Usage: `Enables snapshot-database mode (default = enable)`,
Value: true,
Category: flags.EthCategory,
}
TxLookupLimitFlag = &cli.Uint64Flag{
Name: "txlookuplimit",
Usage: "Number of recent blocks to maintain transactions index for (default = about one year, 0 = entire chain)",
Value: ethconfig.Defaults.TxLookupLimit,
Category: flags.EthCategory,
}
LightKDFFlag = &cli.BoolFlag{
Name: "lightkdf",
Usage: "Reduce key-derivation RAM & CPU usage at some expense of KDF strength",
Category: flags.AccountCategory,
}
EthRequiredBlocksFlag = &cli.StringFlag{
Name: "eth.requiredblocks",
Usage: "Comma separated block number-to-hash mappings to require for peering (<number>=<hash>)",
Category: flags.EthCategory,
}
LegacyWhitelistFlag = &cli.StringFlag{
Name: "whitelist",
Usage: "Comma separated block number-to-hash mappings to enforce (<number>=<hash>) (deprecated in favor of --eth.requiredblocks)",
Category: flags.DeprecatedCategory,
}
BloomFilterSizeFlag = &cli.Uint64Flag{
Name: "bloomfilter.size",
Usage: "Megabytes of memory allocated to bloom-filter for pruning",
Value: 2048,
Category: flags.EthCategory,
}
OverrideCancun = &cli.Uint64Flag{
Name: "override.cancun",
Usage: "Manually specify the Cancun fork timestamp, overriding the bundled setting",
Category: flags.EthCategory,
}
OverrideVerkle = &cli.Uint64Flag{
Name: "override.verkle",
Usage: "Manually specify the Verkle fork timestamp, overriding the bundled setting",
Category: flags.EthCategory,
}
// Light server and client settings
LightServeFlag = &cli.IntFlag{
Name: "light.serve",
Usage: "Maximum percentage of time allowed for serving LES requests (multi-threaded processing allows values over 100)",
Value: ethconfig.Defaults.LightServ,
Category: flags.LightCategory,
}
LightIngressFlag = &cli.IntFlag{
Name: "light.ingress",
Usage: "Incoming bandwidth limit for serving light clients (kilobytes/sec, 0 = unlimited)",
Value: ethconfig.Defaults.LightIngress,
Category: flags.LightCategory,
}
LightEgressFlag = &cli.IntFlag{
Name: "light.egress",
Usage: "Outgoing bandwidth limit for serving light clients (kilobytes/sec, 0 = unlimited)",
Value: ethconfig.Defaults.LightEgress,
Category: flags.LightCategory,
}
LightMaxPeersFlag = &cli.IntFlag{
Name: "light.maxpeers",
Usage: "Maximum number of light clients to serve, or light servers to attach to",
Value: ethconfig.Defaults.LightPeers,
Category: flags.LightCategory,
}
UltraLightServersFlag = &cli.StringFlag{
Name: "ulc.servers",
Usage: "List of trusted ultra-light servers",
Value: strings.Join(ethconfig.Defaults.UltraLightServers, ","),
Category: flags.LightCategory,
}
UltraLightFractionFlag = &cli.IntFlag{
Name: "ulc.fraction",
Usage: "Minimum % of trusted ultra-light servers required to announce a new head",
Value: ethconfig.Defaults.UltraLightFraction,
Category: flags.LightCategory,
}
UltraLightOnlyAnnounceFlag = &cli.BoolFlag{
Name: "ulc.onlyannounce",
Usage: "Ultra light server sends announcements only",
Category: flags.LightCategory,
}
LightNoPruneFlag = &cli.BoolFlag{
Name: "light.nopruning",
Usage: "Disable ancient light chain data pruning",
Category: flags.LightCategory,
}
LightNoSyncServeFlag = &cli.BoolFlag{
Name: "light.nosyncserve",
Usage: "Enables serving light clients before syncing",
Category: flags.LightCategory,
}
// Transaction pool settings
TxPoolLocalsFlag = &cli.StringFlag{
Name: "txpool.locals",
Usage: "Comma separated accounts to treat as locals (no flush, priority inclusion)",
Category: flags.TxPoolCategory,
}
TxPoolNoLocalsFlag = &cli.BoolFlag{
Name: "txpool.nolocals",
Usage: "Disables price exemptions for locally submitted transactions",
Category: flags.TxPoolCategory,
}
TxPoolJournalFlag = &cli.StringFlag{
Name: "txpool.journal",
Usage: "Disk journal for local transaction to survive node restarts",
Value: ethconfig.Defaults.TxPool.Journal,
Category: flags.TxPoolCategory,
}
TxPoolRejournalFlag = &cli.DurationFlag{
Name: "txpool.rejournal",
Usage: "Time interval to regenerate the local transaction journal",
Value: ethconfig.Defaults.TxPool.Rejournal,
Category: flags.TxPoolCategory,
}
TxPoolPriceLimitFlag = &cli.Uint64Flag{
Name: "txpool.pricelimit",
Usage: "Minimum gas price tip to enforce for acceptance into the pool",
Value: ethconfig.Defaults.TxPool.PriceLimit,
Category: flags.TxPoolCategory,
}
TxPoolPriceBumpFlag = &cli.Uint64Flag{
Name: "txpool.pricebump",
Usage: "Price bump percentage to replace an already existing transaction",
Value: ethconfig.Defaults.TxPool.PriceBump,
Category: flags.TxPoolCategory,
}
TxPoolAccountSlotsFlag = &cli.Uint64Flag{
Name: "txpool.accountslots",
Usage: "Minimum number of executable transaction slots guaranteed per account",
Value: ethconfig.Defaults.TxPool.AccountSlots,
Category: flags.TxPoolCategory,
}
TxPoolGlobalSlotsFlag = &cli.Uint64Flag{
Name: "txpool.globalslots",
Usage: "Maximum number of executable transaction slots for all accounts",
Value: ethconfig.Defaults.TxPool.GlobalSlots,
Category: flags.TxPoolCategory,
}
TxPoolAccountQueueFlag = &cli.Uint64Flag{
Name: "txpool.accountqueue",
Usage: "Maximum number of non-executable transaction slots permitted per account",
Value: ethconfig.Defaults.TxPool.AccountQueue,
Category: flags.TxPoolCategory,
}
TxPoolGlobalQueueFlag = &cli.Uint64Flag{
Name: "txpool.globalqueue",
Usage: "Maximum number of non-executable transaction slots for all accounts",
Value: ethconfig.Defaults.TxPool.GlobalQueue,
Category: flags.TxPoolCategory,
}
TxPoolLifetimeFlag = &cli.DurationFlag{
Name: "txpool.lifetime",
Usage: "Maximum amount of time non-executable transaction are queued",
Value: ethconfig.Defaults.TxPool.Lifetime,
Category: flags.TxPoolCategory,
}
// Performance tuning settings
CacheFlag = &cli.IntFlag{
Name: "cache",
Usage: "Megabytes of memory allocated to internal caching (default = 4096 mainnet full node, 128 light mode)",
Value: 1024,
Category: flags.PerfCategory,
}
CacheDatabaseFlag = &cli.IntFlag{
Name: "cache.database",
Usage: "Percentage of cache memory allowance to use for database io",
Value: 50,
Category: flags.PerfCategory,
}
CacheTrieFlag = &cli.IntFlag{
Name: "cache.trie",
Usage: "Percentage of cache memory allowance to use for trie caching (default = 15% full mode, 30% archive mode)",
Value: 15,
Category: flags.PerfCategory,
}
CacheGCFlag = &cli.IntFlag{
Name: "cache.gc",
Usage: "Percentage of cache memory allowance to use for trie pruning (default = 25% full mode, 0% archive mode)",
Value: 25,
Category: flags.PerfCategory,
}
CacheSnapshotFlag = &cli.IntFlag{
Name: "cache.snapshot",
Usage: "Percentage of cache memory allowance to use for snapshot caching (default = 10% full mode, 20% archive mode)",
Value: 10,
Category: flags.PerfCategory,
}
CacheNoPrefetchFlag = &cli.BoolFlag{
Name: "cache.noprefetch",
Usage: "Disable heuristic state prefetch during block import (less CPU and disk IO, more time waiting for data)",
Category: flags.PerfCategory,
}
CachePreimagesFlag = &cli.BoolFlag{
Name: "cache.preimages",
Usage: "Enable recording the SHA3/keccak preimages of trie keys",
Category: flags.PerfCategory,
}
CacheLogSizeFlag = &cli.IntFlag{
Name: "cache.blocklogs",
Usage: "Size (in number of blocks) of the log cache for filtering",
Category: flags.PerfCategory,
Value: ethconfig.Defaults.FilterLogCacheSize,
}
FDLimitFlag = &cli.IntFlag{
Name: "fdlimit",
Usage: "Raise the open file descriptor resource limit (default = system fd limit)",
Category: flags.PerfCategory,
}
CryptoKZGFlag = &cli.StringFlag{
Name: "crypto.kzg",
Usage: "KZG library implementation to use; gokzg (recommended) or ckzg",
Value: "gokzg",
Category: flags.PerfCategory,
}
// Miner settings
MiningEnabledFlag = &cli.BoolFlag{
Name: "mine",
Usage: "Enable mining",
Category: flags.MinerCategory,
}
MinerGasLimitFlag = &cli.Uint64Flag{
Name: "miner.gaslimit",
Usage: "Target gas ceiling for mined blocks",
Value: ethconfig.Defaults.Miner.GasCeil,
Category: flags.MinerCategory,
}
MinerGasPriceFlag = &flags.BigFlag{
Name: "miner.gasprice",
Usage: "Minimum gas price for mining a transaction",
Value: ethconfig.Defaults.Miner.GasPrice,
Category: flags.MinerCategory,
}
MinerEtherbaseFlag = &cli.StringFlag{
Name: "miner.etherbase",
Usage: "0x prefixed public address for block mining rewards",
Category: flags.MinerCategory,
}
MinerExtraDataFlag = &cli.StringFlag{
Name: "miner.extradata",
Usage: "Block extra data set by the miner (default = client version)",
Category: flags.MinerCategory,
}
MinerRecommitIntervalFlag = &cli.DurationFlag{
Name: "miner.recommit",
Usage: "Time interval to recreate the block being mined",
Value: ethconfig.Defaults.Miner.Recommit,
Category: flags.MinerCategory,
}
MinerNewPayloadTimeout = &cli.DurationFlag{
Name: "miner.newpayload-timeout",
Usage: "Specify the maximum time allowance for creating a new payload",
Value: ethconfig.Defaults.Miner.NewPayloadTimeout,
Category: flags.MinerCategory,
}
// Account settings
UnlockedAccountFlag = &cli.StringFlag{
Name: "unlock",
Usage: "Comma separated list of accounts to unlock",
Value: "",
Category: flags.AccountCategory,
}
PasswordFileFlag = &cli.PathFlag{
Name: "password",
Usage: "Password file to use for non-interactive password input",
TakesFile: true,
Category: flags.AccountCategory,
}
ExternalSignerFlag = &cli.StringFlag{
Name: "signer",
Usage: "External signer (url or path to ipc file)",
Value: "",
Category: flags.AccountCategory,
}
InsecureUnlockAllowedFlag = &cli.BoolFlag{
Name: "allow-insecure-unlock",
Usage: "Allow insecure account unlocking when account-related RPCs are exposed by http",
Category: flags.AccountCategory,
}
// EVM settings
VMEnableDebugFlag = &cli.BoolFlag{
Name: "vmdebug",
Usage: "Record information useful for VM and contract debugging",
Category: flags.VMCategory,
}
// API options.
RPCGlobalGasCapFlag = &cli.Uint64Flag{
Name: "rpc.gascap",
Usage: "Sets a cap on gas that can be used in eth_call/estimateGas (0=infinite)",
Value: ethconfig.Defaults.RPCGasCap,
Category: flags.APICategory,
}
RPCGlobalEVMTimeoutFlag = &cli.DurationFlag{
Name: "rpc.evmtimeout",
Usage: "Sets a timeout used for eth_call (0=infinite)",
Value: ethconfig.Defaults.RPCEVMTimeout,
Category: flags.APICategory,
}
RPCGlobalTxFeeCapFlag = &cli.Float64Flag{
Name: "rpc.txfeecap",
Usage: "Sets a cap on transaction fee (in ether) that can be sent via the RPC APIs (0 = no cap)",
Value: ethconfig.Defaults.RPCTxFeeCap,
Category: flags.APICategory,
}
// Authenticated RPC HTTP settings
AuthListenFlag = &cli.StringFlag{
Name: "authrpc.addr",
Usage: "Listening address for authenticated APIs",
Value: node.DefaultConfig.AuthAddr,
Category: flags.APICategory,
}
AuthPortFlag = &cli.IntFlag{
Name: "authrpc.port",
Usage: "Listening port for authenticated APIs",
Value: node.DefaultConfig.AuthPort,
Category: flags.APICategory,
}
AuthVirtualHostsFlag = &cli.StringFlag{
Name: "authrpc.vhosts",
Usage: "Comma separated list of virtual hostnames from which to accept requests (server enforced). Accepts '*' wildcard.",
Value: strings.Join(node.DefaultConfig.AuthVirtualHosts, ","),
Category: flags.APICategory,
}
JWTSecretFlag = &flags.DirectoryFlag{
Name: "authrpc.jwtsecret",
Usage: "Path to a JWT secret to use for authenticated RPC endpoints",
Category: flags.APICategory,
}
// Logging and debug settings
EthStatsURLFlag = &cli.StringFlag{
Name: "ethstats",
Usage: "Reporting URL of a ethstats service (nodename:secret@host:port)",
Category: flags.MetricsCategory,
}
NoCompactionFlag = &cli.BoolFlag{
Name: "nocompaction",
Usage: "Disables db compaction after import",
Category: flags.LoggingCategory,
}
// MISC settings
SyncTargetFlag = &cli.PathFlag{
Name: "synctarget",
Usage: `File for containing the hex-encoded block-rlp as sync target(dev feature)`,
TakesFile: true,
Category: flags.MiscCategory,
}
// RPC settings
IPCDisabledFlag = &cli.BoolFlag{
Name: "ipcdisable",
Usage: "Disable the IPC-RPC server",
Category: flags.APICategory,
}
IPCPathFlag = &flags.DirectoryFlag{
Name: "ipcpath",
Usage: "Filename for IPC socket/pipe within the datadir (explicit paths escape it)",
Category: flags.APICategory,
}
HTTPEnabledFlag = &cli.BoolFlag{
Name: "http",
Usage: "Enable the HTTP-RPC server",
Category: flags.APICategory,
}
HTTPListenAddrFlag = &cli.StringFlag{
Name: "http.addr",
Usage: "HTTP-RPC server listening interface",
Value: node.DefaultHTTPHost,
Category: flags.APICategory,
}
HTTPPortFlag = &cli.IntFlag{
Name: "http.port",
Usage: "HTTP-RPC server listening port",
Value: node.DefaultHTTPPort,
Category: flags.APICategory,
}
HTTPCORSDomainFlag = &cli.StringFlag{
Name: "http.corsdomain",
Usage: "Comma separated list of domains from which to accept cross origin requests (browser enforced)",
Value: "",
Category: flags.APICategory,
}
HTTPVirtualHostsFlag = &cli.StringFlag{
Name: "http.vhosts",
Usage: "Comma separated list of virtual hostnames from which to accept requests (server enforced). Accepts '*' wildcard.",
Value: strings.Join(node.DefaultConfig.HTTPVirtualHosts, ","),
Category: flags.APICategory,
}
HTTPApiFlag = &cli.StringFlag{
Name: "http.api",
Usage: "API's offered over the HTTP-RPC interface",
Value: "",
Category: flags.APICategory,
}
HTTPPathPrefixFlag = &cli.StringFlag{
Name: "http.rpcprefix",
Usage: "HTTP path path prefix on which JSON-RPC is served. Use '/' to serve on all paths.",
Value: "",
Category: flags.APICategory,
}
GraphQLEnabledFlag = &cli.BoolFlag{
Name: "graphql",
Usage: "Enable GraphQL on the HTTP-RPC server. Note that GraphQL can only be started if an HTTP server is started as well.",
Category: flags.APICategory,
}
GraphQLCORSDomainFlag = &cli.StringFlag{
Name: "graphql.corsdomain",
Usage: "Comma separated list of domains from which to accept cross origin requests (browser enforced)",
Value: "",
Category: flags.APICategory,
}
GraphQLVirtualHostsFlag = &cli.StringFlag{
Name: "graphql.vhosts",
Usage: "Comma separated list of virtual hostnames from which to accept requests (server enforced). Accepts '*' wildcard.",
Value: strings.Join(node.DefaultConfig.GraphQLVirtualHosts, ","),
Category: flags.APICategory,
}
WSEnabledFlag = &cli.BoolFlag{
Name: "ws",
Usage: "Enable the WS-RPC server",
Category: flags.APICategory,
}
WSListenAddrFlag = &cli.StringFlag{
Name: "ws.addr",
Usage: "WS-RPC server listening interface",
Value: node.DefaultWSHost,
Category: flags.APICategory,
}
WSPortFlag = &cli.IntFlag{
Name: "ws.port",
Usage: "WS-RPC server listening port",
Value: node.DefaultWSPort,
Category: flags.APICategory,
}
WSApiFlag = &cli.StringFlag{
Name: "ws.api",
Usage: "API's offered over the WS-RPC interface",
Value: "",
Category: flags.APICategory,
}
WSAllowedOriginsFlag = &cli.StringFlag{
Name: "ws.origins",
Usage: "Origins from which to accept websockets requests",
Value: "",
Category: flags.APICategory,
}
WSPathPrefixFlag = &cli.StringFlag{
Name: "ws.rpcprefix",
Usage: "HTTP path prefix on which JSON-RPC is served. Use '/' to serve on all paths.",
Value: "",
Category: flags.APICategory,
}
ExecFlag = &cli.StringFlag{
Name: "exec",
Usage: "Execute JavaScript statement",
Category: flags.APICategory,
}
PreloadJSFlag = &cli.StringFlag{
Name: "preload",
Usage: "Comma separated list of JavaScript files to preload into the console",
Category: flags.APICategory,
}
AllowUnprotectedTxs = &cli.BoolFlag{
Name: "rpc.allow-unprotected-txs",
Usage: "Allow for unprotected (non EIP155 signed) transactions to be submitted via RPC",
Category: flags.APICategory,
}
BatchRequestLimit = &cli.IntFlag{
Name: "rpc.batch-request-limit",
Usage: "Maximum number of requests in a batch",
Value: node.DefaultConfig.BatchRequestLimit,
Category: flags.APICategory,
}
BatchResponseMaxSize = &cli.IntFlag{
Name: "rpc.batch-response-max-size",
Usage: "Maximum number of bytes returned from a batched call",
Value: node.DefaultConfig.BatchResponseMaxSize,
Category: flags.APICategory,
}
EnablePersonal = &cli.BoolFlag{
Name: "rpc.enabledeprecatedpersonal",
Usage: "Enables the (deprecated) personal namespace",
Category: flags.APICategory,
}
// Network Settings
MaxPeersFlag = &cli.IntFlag{
Name: "maxpeers",
Usage: "Maximum number of network peers (network disabled if set to 0)",
Value: node.DefaultConfig.P2P.MaxPeers,
Category: flags.NetworkingCategory,
}
MaxPendingPeersFlag = &cli.IntFlag{
Name: "maxpendpeers",
Usage: "Maximum number of pending connection attempts (defaults used if set to 0)",
Value: node.DefaultConfig.P2P.MaxPendingPeers,
Category: flags.NetworkingCategory,
}
ListenPortFlag = &cli.IntFlag{
Name: "port",
Usage: "Network listening port",
Value: 30303,
Category: flags.NetworkingCategory,
}
BootnodesFlag = &cli.StringFlag{
Name: "bootnodes",
Usage: "Comma separated enode URLs for P2P discovery bootstrap",
Value: "",
Category: flags.NetworkingCategory,
}
NodeKeyFileFlag = &cli.StringFlag{
Name: "nodekey",
Usage: "P2P node key file",
Category: flags.NetworkingCategory,
}
NodeKeyHexFlag = &cli.StringFlag{
Name: "nodekeyhex",
Usage: "P2P node key as hex (for testing)",
Category: flags.NetworkingCategory,
}
NATFlag = &cli.StringFlag{
Name: "nat",
Usage: "NAT port mapping mechanism (any|none|upnp|pmp|pmp:<IP>|extip:<IP>)",
Value: "any",
Category: flags.NetworkingCategory,
}
NoDiscoverFlag = &cli.BoolFlag{
Name: "nodiscover",
Usage: "Disables the peer discovery mechanism (manual peer addition)",
Category: flags.NetworkingCategory,
}
DiscoveryV5Flag = &cli.BoolFlag{
Name: "v5disc",
Usage: "Enables the experimental RLPx V5 (Topic Discovery) mechanism",
Category: flags.NetworkingCategory,
}
NetrestrictFlag = &cli.StringFlag{
Name: "netrestrict",
Usage: "Restricts network communication to the given IP networks (CIDR masks)",
Category: flags.NetworkingCategory,
}
DNSDiscoveryFlag = &cli.StringFlag{
Name: "discovery.dns",
Usage: "Sets DNS discovery entry points (use \"\" to disable DNS)",
Category: flags.NetworkingCategory,
}
DiscoveryPortFlag = &cli.IntFlag{
Name: "discovery.port",
Usage: "Use a custom UDP port for P2P discovery",
Value: 30303,
Category: flags.NetworkingCategory,
}
// Console
JSpathFlag = &flags.DirectoryFlag{
Name: "jspath",
Usage: "JavaScript root path for `loadScript`",
Value: flags.DirectoryString("."),
Category: flags.APICategory,
}
HttpHeaderFlag = &cli.StringSliceFlag{
Name: "header",
Aliases: []string{"H"},
Usage: "Pass custom headers to the RPC server when using --" + RemoteDBFlag.Name + " or the geth attach console. This flag can be given multiple times.",
Category: flags.APICategory,
}
// Gas price oracle settings
GpoBlocksFlag = &cli.IntFlag{
Name: "gpo.blocks",
Usage: "Number of recent blocks to check for gas prices",
Value: ethconfig.Defaults.GPO.Blocks,
Category: flags.GasPriceCategory,
}
GpoPercentileFlag = &cli.IntFlag{
Name: "gpo.percentile",
Usage: "Suggested gas price is the given percentile of a set of recent transaction gas prices",
Value: ethconfig.Defaults.GPO.Percentile,
Category: flags.GasPriceCategory,
}
GpoMaxGasPriceFlag = &cli.Int64Flag{
Name: "gpo.maxprice",
Usage: "Maximum transaction priority fee (or gasprice before London fork) to be recommended by gpo",
Value: ethconfig.Defaults.GPO.MaxPrice.Int64(),
Category: flags.GasPriceCategory,
}
GpoIgnoreGasPriceFlag = &cli.Int64Flag{
Name: "gpo.ignoreprice",
Usage: "Gas price below which gpo will ignore transactions",
Value: ethconfig.Defaults.GPO.IgnorePrice.Int64(),
Category: flags.GasPriceCategory,
}
// Metrics flags
MetricsEnabledFlag = &cli.BoolFlag{
Name: "metrics",
Usage: "Enable metrics collection and reporting",
Category: flags.MetricsCategory,
}
MetricsEnabledExpensiveFlag = &cli.BoolFlag{
Name: "metrics.expensive",
Usage: "Enable expensive metrics collection and reporting",
Category: flags.MetricsCategory,
}
// MetricsHTTPFlag defines the endpoint for a stand-alone metrics HTTP endpoint.
// Since the pprof service enables sensitive/vulnerable behavior, this allows a user
// to enable a public-OK metrics endpoint without having to worry about ALSO exposing
// other profiling behavior or information.
MetricsHTTPFlag = &cli.StringFlag{
Name: "metrics.addr",
Usage: `Enable stand-alone metrics HTTP server listening interface.`,
Category: flags.MetricsCategory,
}
MetricsPortFlag = &cli.IntFlag{
Name: "metrics.port",
Usage: `Metrics HTTP server listening port.
Please note that --` + MetricsHTTPFlag.Name + ` must be set to start the server.`,
Value: metrics.DefaultConfig.Port,
Category: flags.MetricsCategory,
}
MetricsEnableInfluxDBFlag = &cli.BoolFlag{
Name: "metrics.influxdb",
Usage: "Enable metrics export/push to an external InfluxDB database",
Category: flags.MetricsCategory,
}
MetricsInfluxDBEndpointFlag = &cli.StringFlag{
Name: "metrics.influxdb.endpoint",
Usage: "InfluxDB API endpoint to report metrics to",
Value: metrics.DefaultConfig.InfluxDBEndpoint,
Category: flags.MetricsCategory,
}
MetricsInfluxDBDatabaseFlag = &cli.StringFlag{
Name: "metrics.influxdb.database",
Usage: "InfluxDB database name to push reported metrics to",
Value: metrics.DefaultConfig.InfluxDBDatabase,
Category: flags.MetricsCategory,
}
MetricsInfluxDBUsernameFlag = &cli.StringFlag{
Name: "metrics.influxdb.username",
Usage: "Username to authorize access to the database",
Value: metrics.DefaultConfig.InfluxDBUsername,
Category: flags.MetricsCategory,
}
MetricsInfluxDBPasswordFlag = &cli.StringFlag{
Name: "metrics.influxdb.password",
Usage: "Password to authorize access to the database",
Value: metrics.DefaultConfig.InfluxDBPassword,
Category: flags.MetricsCategory,
}
// 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: metrics.DefaultConfig.InfluxDBTags,
Category: flags.MetricsCategory,
}
MetricsEnableInfluxDBV2Flag = &cli.BoolFlag{
Name: "metrics.influxdbv2",
Usage: "Enable metrics export/push to an external InfluxDB v2 database",
Category: flags.MetricsCategory,
}
MetricsInfluxDBTokenFlag = &cli.StringFlag{
Name: "metrics.influxdb.token",
Usage: "Token to authorize access to the database (v2 only)",
Value: metrics.DefaultConfig.InfluxDBToken,
Category: flags.MetricsCategory,
}
MetricsInfluxDBBucketFlag = &cli.StringFlag{
Name: "metrics.influxdb.bucket",
Usage: "InfluxDB bucket name to push reported metrics to (v2 only)",
Value: metrics.DefaultConfig.InfluxDBBucket,
Category: flags.MetricsCategory,
}
MetricsInfluxDBOrganizationFlag = &cli.StringFlag{
Name: "metrics.influxdb.organization",
Usage: "InfluxDB organization name (v2 only)",
Value: metrics.DefaultConfig.InfluxDBOrganization,
Category: flags.MetricsCategory,
}
)
var (
// TestnetFlags is the flag group of all built-in supported testnets.
TestnetFlags = []cli.Flag{
GoerliFlag,
SepoliaFlag,
}
// NetworkFlags is the flag group of all built-in supported networks.
NetworkFlags = append([]cli.Flag{MainnetFlag}, TestnetFlags...)
// DatabasePathFlags is the flag group of all database path flags.
DatabasePathFlags = []cli.Flag{
DataDirFlag,
AncientFlag,
RemoteDBFlag,
HttpHeaderFlag,
}
)
func init() {
if rawdb.PebbleEnabled {
DatabasePathFlags = append(DatabasePathFlags, DBEngineFlag)
}
}
// MakeDataDir retrieves the currently requested data directory, terminating
// if none (or the empty string) is specified. If the node is starting a testnet,
// then a subdirectory of the specified datadir will be used.
func MakeDataDir(ctx *cli.Context) string {
if path := ctx.String(DataDirFlag.Name); path != "" {
if ctx.Bool(GoerliFlag.Name) {
return filepath.Join(path, "goerli")
}
if ctx.Bool(SepoliaFlag.Name) {
return filepath.Join(path, "sepolia")
}
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.String(NodeKeyHexFlag.Name)
file = ctx.String(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.String(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.IsSet(BootnodesFlag.Name):
urls = SplitAndTrim(ctx.String(BootnodesFlag.Name))
case ctx.Bool(SepoliaFlag.Name):
urls = params.SepoliaBootnodes
case ctx.Bool(GoerliFlag.Name):
urls = params.GoerliBootnodes
}
// don't apply defaults if BootstrapNodes is already set
if cfg.BootstrapNodes != nil {
return
}
cfg.BootstrapNodes = make([]*enode.Node, 0, len(urls))
for _, url := range urls {
if url != "" {
node, err := enode.Parse(enode.ValidSchemes, url)
if err != nil {
log.Crit("Bootstrap URL invalid", "enode", url, "err", err)
continue
}
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.V5Bootnodes
switch {
case ctx.IsSet(BootnodesFlag.Name):
urls = SplitAndTrim(ctx.String(BootnodesFlag.Name))
case cfg.BootstrapNodesV5 != nil:
return // already set, don't apply defaults.
}
cfg.BootstrapNodesV5 = make([]*enode.Node, 0, len(urls))
for _, url := range urls {
if url != "" {
node, err := enode.Parse(enode.ValidSchemes, url)
if err != nil {
log.Error("Bootstrap URL invalid", "enode", url, "err", err)
continue
}
cfg.BootstrapNodesV5 = append(cfg.BootstrapNodesV5, node)
}
}
}
// setListenAddress creates TCP/UDP listening address strings from set command
// line flags
func setListenAddress(ctx *cli.Context, cfg *p2p.Config) {
if ctx.IsSet(ListenPortFlag.Name) {
cfg.ListenAddr = fmt.Sprintf(":%d", ctx.Int(ListenPortFlag.Name))
}
if ctx.IsSet(DiscoveryPortFlag.Name) {
cfg.DiscAddr = fmt.Sprintf(":%d", ctx.Int(DiscoveryPortFlag.Name))
}
}
// setNAT creates a port mapper from command line flags.
func setNAT(ctx *cli.Context, cfg *p2p.Config) {
if ctx.IsSet(NATFlag.Name) {
natif, err := nat.Parse(ctx.String(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) (ret []string) {
l := strings.Split(input, ",")
for _, r := range l {
if r = strings.TrimSpace(r); r != "" {
ret = append(ret, r)
}
}
return ret
}
// 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.Bool(HTTPEnabledFlag.Name) && cfg.HTTPHost == "" {
cfg.HTTPHost = "127.0.0.1"
if ctx.IsSet(HTTPListenAddrFlag.Name) {
cfg.HTTPHost = ctx.String(HTTPListenAddrFlag.Name)
}
}
if ctx.IsSet(HTTPPortFlag.Name) {
cfg.HTTPPort = ctx.Int(HTTPPortFlag.Name)
}
if ctx.IsSet(AuthListenFlag.Name) {
cfg.AuthAddr = ctx.String(AuthListenFlag.Name)
}
if ctx.IsSet(AuthPortFlag.Name) {
cfg.AuthPort = ctx.Int(AuthPortFlag.Name)
}
if ctx.IsSet(AuthVirtualHostsFlag.Name) {
cfg.AuthVirtualHosts = SplitAndTrim(ctx.String(AuthVirtualHostsFlag.Name))
}
if ctx.IsSet(HTTPCORSDomainFlag.Name) {
cfg.HTTPCors = SplitAndTrim(ctx.String(HTTPCORSDomainFlag.Name))
}
if ctx.IsSet(HTTPApiFlag.Name) {
cfg.HTTPModules = SplitAndTrim(ctx.String(HTTPApiFlag.Name))
}
if ctx.IsSet(HTTPVirtualHostsFlag.Name) {
cfg.HTTPVirtualHosts = SplitAndTrim(ctx.String(HTTPVirtualHostsFlag.Name))
}
if ctx.IsSet(HTTPPathPrefixFlag.Name) {
cfg.HTTPPathPrefix = ctx.String(HTTPPathPrefixFlag.Name)
}
if ctx.IsSet(AllowUnprotectedTxs.Name) {
cfg.AllowUnprotectedTxs = ctx.Bool(AllowUnprotectedTxs.Name)
}
if ctx.IsSet(BatchRequestLimit.Name) {
cfg.BatchRequestLimit = ctx.Int(BatchRequestLimit.Name)
}
if ctx.IsSet(BatchResponseMaxSize.Name) {
cfg.BatchResponseMaxSize = ctx.Int(BatchResponseMaxSize.Name)
}
}
// setGraphQL creates the GraphQL listener interface string from the set
// command line flags, returning empty if the GraphQL endpoint is disabled.
func setGraphQL(ctx *cli.Context, cfg *node.Config) {
if ctx.IsSet(GraphQLCORSDomainFlag.Name) {
cfg.GraphQLCors = SplitAndTrim(ctx.String(GraphQLCORSDomainFlag.Name))
}
if ctx.IsSet(GraphQLVirtualHostsFlag.Name) {
cfg.GraphQLVirtualHosts = SplitAndTrim(ctx.String(GraphQLVirtualHostsFlag.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.Bool(WSEnabledFlag.Name) && cfg.WSHost == "" {
cfg.WSHost = "127.0.0.1"
if ctx.IsSet(WSListenAddrFlag.Name) {
cfg.WSHost = ctx.String(WSListenAddrFlag.Name)
}
}
if ctx.IsSet(WSPortFlag.Name) {
cfg.WSPort = ctx.Int(WSPortFlag.Name)
}
if ctx.IsSet(WSAllowedOriginsFlag.Name) {
cfg.WSOrigins = SplitAndTrim(ctx.String(WSAllowedOriginsFlag.Name))
}
if ctx.IsSet(WSApiFlag.Name) {
cfg.WSModules = SplitAndTrim(ctx.String(WSApiFlag.Name))
}
if ctx.IsSet(WSPathPrefixFlag.Name) {
cfg.WSPathPrefix = ctx.String(WSPathPrefixFlag.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.Bool(IPCDisabledFlag.Name):
cfg.IPCPath = ""
case ctx.IsSet(IPCPathFlag.Name):
cfg.IPCPath = ctx.String(IPCPathFlag.Name)
}
}
// setLes configures the les server and ultra light client settings from the command line flags.
func setLes(ctx *cli.Context, cfg *ethconfig.Config) {
if ctx.IsSet(LightServeFlag.Name) {
cfg.LightServ = ctx.Int(LightServeFlag.Name)
}
if ctx.IsSet(LightIngressFlag.Name) {
cfg.LightIngress = ctx.Int(LightIngressFlag.Name)
}
if ctx.IsSet(LightEgressFlag.Name) {
cfg.LightEgress = ctx.Int(LightEgressFlag.Name)
}
if ctx.IsSet(LightMaxPeersFlag.Name) {
cfg.LightPeers = ctx.Int(LightMaxPeersFlag.Name)
}
if ctx.IsSet(UltraLightServersFlag.Name) {
cfg.UltraLightServers = strings.Split(ctx.String(UltraLightServersFlag.Name), ",")
}
if ctx.IsSet(UltraLightFractionFlag.Name) {
cfg.UltraLightFraction = ctx.Int(UltraLightFractionFlag.Name)
}
if cfg.UltraLightFraction <= 0 && cfg.UltraLightFraction > 100 {
log.Error("Ultra light fraction is invalid", "had", cfg.UltraLightFraction, "updated", ethconfig.Defaults.UltraLightFraction)
cfg.UltraLightFraction = ethconfig.Defaults.UltraLightFraction
}
if ctx.IsSet(UltraLightOnlyAnnounceFlag.Name) {
cfg.UltraLightOnlyAnnounce = ctx.Bool(UltraLightOnlyAnnounceFlag.Name)
}
if ctx.IsSet(LightNoPruneFlag.Name) {
cfg.LightNoPrune = ctx.Bool(LightNoPruneFlag.Name)
}
if ctx.IsSet(LightNoSyncServeFlag.Name) {
cfg.LightNoSyncServe = ctx.Bool(LightNoSyncServeFlag.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(max int) int {
limit, err := fdlimit.Maximum()
if err != nil {
Fatalf("Failed to retrieve file descriptor allowance: %v", err)
}
switch {
case max == 0:
// User didn't specify a meaningful value, use system limits
case max < 128:
// User specified something unhealthy, just use system defaults
log.Error("File descriptor limit invalid (<128)", "had", max, "updated", limit)
case max > limit:
// User requested more than the OS allows, notify that we can't allocate it
log.Warn("Requested file descriptors denied by OS", "req", max, "limit", limit)
default:
// User limit is meaningful and within allowed range, use that
limit = max
}
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 from the directly specified command line flags.
func setEtherbase(ctx *cli.Context, cfg *ethconfig.Config) {
if !ctx.IsSet(MinerEtherbaseFlag.Name) {
return
}
addr := ctx.String(MinerEtherbaseFlag.Name)
if strings.HasPrefix(addr, "0x") || strings.HasPrefix(addr, "0X") {
addr = addr[2:]
}
b, err := hex.DecodeString(addr)
if err != nil || len(b) != common.AddressLength {
Fatalf("-%s: invalid etherbase address %q", MinerEtherbaseFlag.Name, addr)
return
}
cfg.Miner.Etherbase = common.BytesToAddress(b)
}
// MakePasswordList reads password lines from the file specified by the global --password flag.
func MakePasswordList(ctx *cli.Context) []string {
path := ctx.Path(PasswordFileFlag.Name)
if path == "" {
return nil
}
text, err := os.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.String(SyncModeFlag.Name) == "light"
lightServer := (ctx.Int(LightServeFlag.Name) != 0)
lightPeers := ctx.Int(LightMaxPeersFlag.Name)
if lightClient && !ctx.IsSet(LightMaxPeersFlag.Name) {
// dynamic default - for clients we use 1/10th of the default for servers
lightPeers /= 10
}
if ctx.IsSet(MaxPeersFlag.Name) {
cfg.MaxPeers = ctx.Int(MaxPeersFlag.Name)
if lightServer && !ctx.IsSet(LightMaxPeersFlag.Name) {
cfg.MaxPeers += lightPeers
}
} else {
if lightServer {
cfg.MaxPeers += lightPeers
}
if lightClient && ctx.IsSet(LightMaxPeersFlag.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.IsSet(MaxPendingPeersFlag.Name) {
cfg.MaxPendingPeers = ctx.Int(MaxPendingPeersFlag.Name)
}
if ctx.IsSet(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.Bool(NoDiscoverFlag.Name)
if ctx.IsSet(DiscoveryV5Flag.Name) {
cfg.DiscoveryV5 = ctx.Bool(DiscoveryV5Flag.Name)
} else if forceV5Discovery {
cfg.DiscoveryV5 = true
}
if netrestrict := ctx.String(NetrestrictFlag.Name); netrestrict != "" {
list, err := netutil.ParseNetlist(netrestrict)
if err != nil {
Fatalf("Option %q: %v", NetrestrictFlag.Name, err)
}
cfg.NetRestrict = list
}
if ctx.Bool(DeveloperFlag.Name) {
// --dev mode can't use p2p networking.
cfg.MaxPeers = 0
cfg.ListenAddr = ""
cfg.NoDial = true
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)
setGraphQL(ctx, cfg)
setWS(ctx, cfg)
setNodeUserIdent(ctx, cfg)
SetDataDir(ctx, cfg)
setSmartCard(ctx, cfg)
if ctx.IsSet(JWTSecretFlag.Name) {
cfg.JWTSecret = ctx.String(JWTSecretFlag.Name)
}
if ctx.IsSet(EnablePersonal.Name) {
cfg.EnablePersonal = true
}
if ctx.IsSet(ExternalSignerFlag.Name) {
cfg.ExternalSigner = ctx.String(ExternalSignerFlag.Name)
}
if ctx.IsSet(KeyStoreDirFlag.Name) {
cfg.KeyStoreDir = ctx.String(KeyStoreDirFlag.Name)
}
if ctx.IsSet(DeveloperFlag.Name) {
cfg.UseLightweightKDF = true
}
if ctx.IsSet(LightKDFFlag.Name) {
cfg.UseLightweightKDF = ctx.Bool(LightKDFFlag.Name)
}
if ctx.IsSet(NoUSBFlag.Name) || cfg.NoUSB {
log.Warn("Option nousb is deprecated and USB is deactivated by default. Use --usb to enable")
}
if ctx.IsSet(USBFlag.Name) {
cfg.USB = ctx.Bool(USBFlag.Name)
}
if ctx.IsSet(InsecureUnlockAllowedFlag.Name) {
cfg.InsecureUnlockAllowed = ctx.Bool(InsecureUnlockAllowedFlag.Name)
}
if ctx.IsSet(DBEngineFlag.Name) {
dbEngine := ctx.String(DBEngineFlag.Name)
if dbEngine != "leveldb" && dbEngine != "pebble" {
Fatalf("Invalid choice for db.engine '%s', allowed 'leveldb' or 'pebble'", dbEngine)
}
log.Info(fmt.Sprintf("Using %s as db engine", dbEngine))
cfg.DBEngine = dbEngine
}
}
func setSmartCard(ctx *cli.Context, cfg *node.Config) {
// Skip enabling smartcards if no path is set
path := ctx.String(SmartCardDaemonPathFlag.Name)
if path == "" {
return
}
// Sanity check that the smartcard path is valid
fi, err := os.Stat(path)
if err != nil {
log.Info("Smartcard socket not found, disabling", "err", err)
return
}
if fi.Mode()&os.ModeType != os.ModeSocket {
log.Error("Invalid smartcard daemon path", "path", path, "type", fi.Mode().String())
return
}
// Smartcard daemon path exists and is a socket, enable it
cfg.SmartCardDaemonPath = path
}
func SetDataDir(ctx *cli.Context, cfg *node.Config) {
switch {
case ctx.IsSet(DataDirFlag.Name):
cfg.DataDir = ctx.String(DataDirFlag.Name)
case ctx.Bool(DeveloperFlag.Name):
cfg.DataDir = "" // unless explicitly requested, use memory databases
case ctx.Bool(GoerliFlag.Name) && cfg.DataDir == node.DefaultDataDir():
cfg.DataDir = filepath.Join(node.DefaultDataDir(), "goerli")
case ctx.Bool(SepoliaFlag.Name) && cfg.DataDir == node.DefaultDataDir():
cfg.DataDir = filepath.Join(node.DefaultDataDir(), "sepolia")
}
}
func setGPO(ctx *cli.Context, cfg *gasprice.Config, light bool) {
// If we are running the light client, apply another group
// settings for gas oracle.
if light {
*cfg = ethconfig.LightClientGPO
}
if ctx.IsSet(GpoBlocksFlag.Name) {
cfg.Blocks = ctx.Int(GpoBlocksFlag.Name)
}
if ctx.IsSet(GpoPercentileFlag.Name) {
cfg.Percentile = ctx.Int(GpoPercentileFlag.Name)
}
if ctx.IsSet(GpoMaxGasPriceFlag.Name) {
cfg.MaxPrice = big.NewInt(ctx.Int64(GpoMaxGasPriceFlag.Name))
}
if ctx.IsSet(GpoIgnoreGasPriceFlag.Name) {
cfg.IgnorePrice = big.NewInt(ctx.Int64(GpoIgnoreGasPriceFlag.Name))
}
}
func setTxPool(ctx *cli.Context, cfg *legacypool.Config) {
if ctx.IsSet(TxPoolLocalsFlag.Name) {
locals := strings.Split(ctx.String(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.IsSet(TxPoolNoLocalsFlag.Name) {
cfg.NoLocals = ctx.Bool(TxPoolNoLocalsFlag.Name)
}
if ctx.IsSet(TxPoolJournalFlag.Name) {
cfg.Journal = ctx.String(TxPoolJournalFlag.Name)
}
if ctx.IsSet(TxPoolRejournalFlag.Name) {
cfg.Rejournal = ctx.Duration(TxPoolRejournalFlag.Name)
}
if ctx.IsSet(TxPoolPriceLimitFlag.Name) {
cfg.PriceLimit = ctx.Uint64(TxPoolPriceLimitFlag.Name)
}
if ctx.IsSet(TxPoolPriceBumpFlag.Name) {
cfg.PriceBump = ctx.Uint64(TxPoolPriceBumpFlag.Name)
}
if ctx.IsSet(TxPoolAccountSlotsFlag.Name) {
cfg.AccountSlots = ctx.Uint64(TxPoolAccountSlotsFlag.Name)
}
if ctx.IsSet(TxPoolGlobalSlotsFlag.Name) {
cfg.GlobalSlots = ctx.Uint64(TxPoolGlobalSlotsFlag.Name)
}
if ctx.IsSet(TxPoolAccountQueueFlag.Name) {
cfg.AccountQueue = ctx.Uint64(TxPoolAccountQueueFlag.Name)
}
if ctx.IsSet(TxPoolGlobalQueueFlag.Name) {
cfg.GlobalQueue = ctx.Uint64(TxPoolGlobalQueueFlag.Name)
}
if ctx.IsSet(TxPoolLifetimeFlag.Name) {
cfg.Lifetime = ctx.Duration(TxPoolLifetimeFlag.Name)
}
}
func setMiner(ctx *cli.Context, cfg *miner.Config) {
if ctx.IsSet(MinerExtraDataFlag.Name) {
cfg.ExtraData = []byte(ctx.String(MinerExtraDataFlag.Name))
}
if ctx.IsSet(MinerGasLimitFlag.Name) {
cfg.GasCeil = ctx.Uint64(MinerGasLimitFlag.Name)
}
if ctx.IsSet(MinerGasPriceFlag.Name) {
cfg.GasPrice = flags.GlobalBig(ctx, MinerGasPriceFlag.Name)
}
if ctx.IsSet(MinerRecommitIntervalFlag.Name) {
cfg.Recommit = ctx.Duration(MinerRecommitIntervalFlag.Name)
}
if ctx.IsSet(MinerNewPayloadTimeout.Name) {
cfg.NewPayloadTimeout = ctx.Duration(MinerNewPayloadTimeout.Name)
}
}
func setRequiredBlocks(ctx *cli.Context, cfg *ethconfig.Config) {
requiredBlocks := ctx.String(EthRequiredBlocksFlag.Name)
if requiredBlocks == "" {
if ctx.IsSet(LegacyWhitelistFlag.Name) {
log.Warn("The flag --whitelist is deprecated and will be removed, please use --eth.requiredblocks")
requiredBlocks = ctx.String(LegacyWhitelistFlag.Name)
} else {
return
}
}
cfg.RequiredBlocks = make(map[uint64]common.Hash)
for _, entry := range strings.Split(requiredBlocks, ",") {
parts := strings.Split(entry, "=")
if len(parts) != 2 {
Fatalf("Invalid required block entry: %s", entry)
}
number, err := strconv.ParseUint(parts[0], 0, 64)
if err != nil {
Fatalf("Invalid required block number %s: %v", parts[0], err)
}
var hash common.Hash
if err = hash.UnmarshalText([]byte(parts[1])); err != nil {
Fatalf("Invalid required block hash %s: %v", parts[1], err)
}
cfg.RequiredBlocks[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.Names()[0]
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.String(flag.Names()[0]) == 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.IsSet(flag.Names()[0]) {
set = append(set, "--"+name)
}
}
if len(set) > 1 {
Fatalf("Flags %v can't be used at the same time", strings.Join(set, ", "))
}
}
// SetEthConfig applies eth-related command line flags to the config.
func SetEthConfig(ctx *cli.Context, stack *node.Node, cfg *ethconfig.Config) {
// Avoid conflicting network flags
CheckExclusive(ctx, MainnetFlag, DeveloperFlag, GoerliFlag, SepoliaFlag)
CheckExclusive(ctx, LightServeFlag, SyncModeFlag, "light")
CheckExclusive(ctx, DeveloperFlag, ExternalSignerFlag) // Can't use both ephemeral unlocked and external signer
if ctx.String(GCModeFlag.Name) == "archive" && ctx.Uint64(TxLookupLimitFlag.Name) != 0 {
ctx.Set(TxLookupLimitFlag.Name, "0")
log.Warn("Disable transaction unindexing for archive node")
}
if ctx.IsSet(LightServeFlag.Name) && ctx.Uint64(TxLookupLimitFlag.Name) != 0 {
log.Warn("LES server cannot serve old transaction status and cannot connect below les/4 protocol version if transaction lookup index is limited")
}
setEtherbase(ctx, cfg)
setGPO(ctx, &cfg.GPO, ctx.String(SyncModeFlag.Name) == "light")
setTxPool(ctx, &cfg.TxPool)
setMiner(ctx, &cfg.Miner)
setRequiredBlocks(ctx, cfg)
setLes(ctx, cfg)
// Cap the cache allowance and tune the garbage collector
mem, err := gopsutil.VirtualMemory()
if err == nil {
if 32<<(^uintptr(0)>>63) == 32 && mem.Total > 2*1024*1024*1024 {
log.Warn("Lowering memory allowance on 32bit arch", "available", mem.Total/1024/1024, "addressable", 2*1024)
mem.Total = 2 * 1024 * 1024 * 1024
}
allowance := int(mem.Total / 1024 / 1024 / 3)
if cache := ctx.Int(CacheFlag.Name); cache > allowance {
log.Warn("Sanitizing cache to Go's GC limits", "provided", cache, "updated", allowance)
ctx.Set(CacheFlag.Name, strconv.Itoa(allowance))
}
}
// Ensure Go's GC ignores the database cache for trigger percentage
cache := ctx.Int(CacheFlag.Name)
gogc := math.Max(20, math.Min(100, 100/(float64(cache)/1024)))
log.Debug("Sanitizing Go's GC trigger", "percent", int(gogc))
godebug.SetGCPercent(int(gogc))
if ctx.IsSet(SyncModeFlag.Name) {
cfg.SyncMode = *flags.GlobalTextMarshaler(ctx, SyncModeFlag.Name).(*downloader.SyncMode)
}
if ctx.IsSet(NetworkIdFlag.Name) {
cfg.NetworkId = ctx.Uint64(NetworkIdFlag.Name)
}
if ctx.IsSet(CacheFlag.Name) || ctx.IsSet(CacheDatabaseFlag.Name) {
cfg.DatabaseCache = ctx.Int(CacheFlag.Name) * ctx.Int(CacheDatabaseFlag.Name) / 100
}
cfg.DatabaseHandles = MakeDatabaseHandles(ctx.Int(FDLimitFlag.Name))
if ctx.IsSet(AncientFlag.Name) {
cfg.DatabaseFreezer = ctx.String(AncientFlag.Name)
}
if gcmode := ctx.String(GCModeFlag.Name); gcmode != "full" && gcmode != "archive" {
Fatalf("--%s must be either 'full' or 'archive'", GCModeFlag.Name)
}
if ctx.IsSet(GCModeFlag.Name) {
cfg.NoPruning = ctx.String(GCModeFlag.Name) == "archive"
}
if ctx.IsSet(CacheNoPrefetchFlag.Name) {
cfg.NoPrefetch = ctx.Bool(CacheNoPrefetchFlag.Name)
}
// Read the value from the flag no matter if it's set or not.
cfg.Preimages = ctx.Bool(CachePreimagesFlag.Name)
if cfg.NoPruning && !cfg.Preimages {
cfg.Preimages = true
log.Info("Enabling recording of key preimages since archive mode is used")
}
if ctx.IsSet(TxLookupLimitFlag.Name) {
cfg.TxLookupLimit = ctx.Uint64(TxLookupLimitFlag.Name)
}
if ctx.IsSet(CacheFlag.Name) || ctx.IsSet(CacheTrieFlag.Name) {
cfg.TrieCleanCache = ctx.Int(CacheFlag.Name) * ctx.Int(CacheTrieFlag.Name) / 100
}
if ctx.IsSet(CacheFlag.Name) || ctx.IsSet(CacheGCFlag.Name) {
cfg.TrieDirtyCache = ctx.Int(CacheFlag.Name) * ctx.Int(CacheGCFlag.Name) / 100
}
if ctx.IsSet(CacheFlag.Name) || ctx.IsSet(CacheSnapshotFlag.Name) {
cfg.SnapshotCache = ctx.Int(CacheFlag.Name) * ctx.Int(CacheSnapshotFlag.Name) / 100
}
if ctx.IsSet(CacheLogSizeFlag.Name) {
cfg.FilterLogCacheSize = ctx.Int(CacheLogSizeFlag.Name)
}
if !ctx.Bool(SnapshotFlag.Name) {
// If snap-sync is requested, this flag is also required
if cfg.SyncMode == downloader.SnapSync {
log.Info("Snap sync requested, enabling --snapshot")
} else {
cfg.TrieCleanCache += cfg.SnapshotCache
cfg.SnapshotCache = 0 // Disabled
}
}
if ctx.IsSet(DocRootFlag.Name) {
cfg.DocRoot = ctx.String(DocRootFlag.Name)
}
if ctx.IsSet(VMEnableDebugFlag.Name) {
// TODO(fjl): force-enable this in --dev mode
cfg.EnablePreimageRecording = ctx.Bool(VMEnableDebugFlag.Name)
}
if ctx.IsSet(RPCGlobalGasCapFlag.Name) {
cfg.RPCGasCap = ctx.Uint64(RPCGlobalGasCapFlag.Name)
}
if cfg.RPCGasCap != 0 {
log.Info("Set global gas cap", "cap", cfg.RPCGasCap)
} else {
log.Info("Global gas cap disabled")
}
if ctx.IsSet(RPCGlobalEVMTimeoutFlag.Name) {
cfg.RPCEVMTimeout = ctx.Duration(RPCGlobalEVMTimeoutFlag.Name)
}
if ctx.IsSet(RPCGlobalTxFeeCapFlag.Name) {
cfg.RPCTxFeeCap = ctx.Float64(RPCGlobalTxFeeCapFlag.Name)
}
if ctx.IsSet(NoDiscoverFlag.Name) {
cfg.EthDiscoveryURLs, cfg.SnapDiscoveryURLs = []string{}, []string{}
} else if ctx.IsSet(DNSDiscoveryFlag.Name) {
urls := ctx.String(DNSDiscoveryFlag.Name)
if urls == "" {
cfg.EthDiscoveryURLs = []string{}
} else {
cfg.EthDiscoveryURLs = SplitAndTrim(urls)
}
}
// Override any default configs for hard coded networks.
switch {
case ctx.Bool(MainnetFlag.Name):
if !ctx.IsSet(NetworkIdFlag.Name) {
cfg.NetworkId = 1
}
cfg.Genesis = core.DefaultGenesisBlock()
SetDNSDiscoveryDefaults(cfg, params.MainnetGenesisHash)
case ctx.Bool(SepoliaFlag.Name):
if !ctx.IsSet(NetworkIdFlag.Name) {
cfg.NetworkId = 11155111
}
cfg.Genesis = core.DefaultSepoliaGenesisBlock()
SetDNSDiscoveryDefaults(cfg, params.SepoliaGenesisHash)
case ctx.Bool(GoerliFlag.Name):
if !ctx.IsSet(NetworkIdFlag.Name) {
cfg.NetworkId = 5
}
cfg.Genesis = core.DefaultGoerliGenesisBlock()
SetDNSDiscoveryDefaults(cfg, params.GoerliGenesisHash)
case ctx.Bool(DeveloperFlag.Name):
if !ctx.IsSet(NetworkIdFlag.Name) {
cfg.NetworkId = 1337
}
cfg.SyncMode = downloader.FullSync
// Create new developer account or reuse existing one
var (
developer accounts.Account
passphrase string
err error
)
if list := MakePasswordList(ctx); len(list) > 0 {
// Just take the first value. Although the function returns a possible multiple values and
// some usages iterate through them as attempts, that doesn't make sense in this setting,
// when we're definitely concerned with only one account.
passphrase = list[0]
}
// Unlock the developer account by local keystore.
var ks *keystore.KeyStore
if keystores := stack.AccountManager().Backends(keystore.KeyStoreType); len(keystores) > 0 {
ks = keystores[0].(*keystore.KeyStore)
}
if ks == nil {
Fatalf("Keystore is not available")
}
// Figure out the dev account address.
// setEtherbase has been called above, configuring the miner address from command line flags.
if cfg.Miner.Etherbase != (common.Address{}) {
developer = accounts.Account{Address: cfg.Miner.Etherbase}
} else if accs := ks.Accounts(); len(accs) > 0 {
developer = ks.Accounts()[0]
} else {
developer, err = ks.NewAccount(passphrase)
if err != nil {
Fatalf("Failed to create developer account: %v", err)
}
}
// Make sure the address is configured as fee recipient, otherwise
// the miner will fail to start.
cfg.Miner.Etherbase = developer.Address
if err := ks.Unlock(developer, passphrase); err != nil {
Fatalf("Failed to unlock developer account: %v", err)
}
log.Info("Using developer account", "address", developer.Address)
// Create a new developer genesis block or reuse existing one
cfg.Genesis = core.DeveloperGenesisBlock(uint64(ctx.Int(DeveloperPeriodFlag.Name)), ctx.Uint64(DeveloperGasLimitFlag.Name), developer.Address)
if ctx.IsSet(DataDirFlag.Name) {
// If datadir doesn't exist we need to open db in write-mode
// so leveldb can create files.
readonly := true
if !common.FileExist(stack.ResolvePath("chaindata")) {
readonly = false
}
// Check if we have an already initialized chain and fall back to
// that if so. Otherwise we need to generate a new genesis spec.
chaindb := MakeChainDatabase(ctx, stack, readonly)
if rawdb.ReadCanonicalHash(chaindb, 0) != (common.Hash{}) {
cfg.Genesis = nil // fallback to db content
}
chaindb.Close()
}
if !ctx.IsSet(MinerGasPriceFlag.Name) {
cfg.Miner.GasPrice = big.NewInt(1)
}
default:
if cfg.NetworkId == 1 {
SetDNSDiscoveryDefaults(cfg, params.MainnetGenesisHash)
}
}
// Set any dangling config values
if ctx.String(CryptoKZGFlag.Name) != "gokzg" && ctx.String(CryptoKZGFlag.Name) != "ckzg" {
Fatalf("--%s flag must be 'gokzg' or 'ckzg'", CryptoKZGFlag.Name)
}
log.Info("Initializing the KZG library", "backend", ctx.String(CryptoKZGFlag.Name))
if err := kzg4844.UseCKZG(ctx.String(CryptoKZGFlag.Name) == "ckzg"); err != nil {
Fatalf("Failed to set KZG library implementation to %s: %v", ctx.String(CryptoKZGFlag.Name), err)
}
}
// SetDNSDiscoveryDefaults configures DNS discovery with the given URL if
// no URLs are set.
func SetDNSDiscoveryDefaults(cfg *ethconfig.Config, genesis common.Hash) {
if cfg.EthDiscoveryURLs != nil {
return // already set through flags/config
}
protocol := "all"
if cfg.SyncMode == downloader.LightSync {
protocol = "les"
}
if url := params.KnownDNSNetwork(genesis, protocol); url != "" {
cfg.EthDiscoveryURLs = []string{url}
cfg.SnapDiscoveryURLs = cfg.EthDiscoveryURLs
}
}
// RegisterEthService adds an Ethereum client to the stack.
// The second return value is the full node instance, which may be nil if the
// node is running as a light client.
func RegisterEthService(stack *node.Node, cfg *ethconfig.Config) (ethapi.Backend, *eth.Ethereum) {
if cfg.SyncMode == downloader.LightSync {
backend, err := les.New(stack, cfg)
if err != nil {
Fatalf("Failed to register the Ethereum service: %v", err)
}
stack.RegisterAPIs(tracers.APIs(backend.ApiBackend))
if err := lescatalyst.Register(stack, backend); err != nil {
Fatalf("Failed to register the Engine API service: %v", err)
}
return backend.ApiBackend, nil
}
backend, err := eth.New(stack, cfg)
if err != nil {
Fatalf("Failed to register the Ethereum service: %v", err)
}
if cfg.LightServ > 0 {
_, err := les.NewLesServer(stack, backend, cfg)
if err != nil {
Fatalf("Failed to create the LES server: %v", err)
}
}
if err := ethcatalyst.Register(stack, backend); err != nil {
Fatalf("Failed to register the Engine API service: %v", err)
}
stack.RegisterAPIs(tracers.APIs(backend.APIBackend))
return backend.APIBackend, backend
}
// RegisterEthStatsService configures the Ethereum Stats daemon and adds it to the node.
func RegisterEthStatsService(stack *node.Node, backend ethapi.Backend, url string) {
if err := ethstats.New(stack, backend, backend.Engine(), url); err != nil {
Fatalf("Failed to register the Ethereum Stats service: %v", err)
}
}
// RegisterGraphQLService adds the GraphQL API to the node.
func RegisterGraphQLService(stack *node.Node, backend ethapi.Backend, filterSystem *filters.FilterSystem, cfg *node.Config) {
err := graphql.New(stack, backend, filterSystem, cfg.GraphQLCors, cfg.GraphQLVirtualHosts)
if err != nil {
Fatalf("Failed to register the GraphQL service: %v", err)
}
}
// RegisterFilterAPI adds the eth log filtering RPC API to the node.
func RegisterFilterAPI(stack *node.Node, backend ethapi.Backend, ethcfg *ethconfig.Config) *filters.FilterSystem {
isLightClient := ethcfg.SyncMode == downloader.LightSync
filterSystem := filters.NewFilterSystem(backend, filters.Config{
LogCacheSize: ethcfg.FilterLogCacheSize,
})
stack.RegisterAPIs([]rpc.API{{
Namespace: "eth",
Service: filters.NewFilterAPI(filterSystem, isLightClient),
}})
return filterSystem
}
// RegisterFullSyncTester adds the full-sync tester service into node.
func RegisterFullSyncTester(stack *node.Node, eth *eth.Ethereum, path string) {
blob, err := os.ReadFile(path)
if err != nil {
Fatalf("Failed to read block file: %v", err)
}
rlpBlob, err := hexutil.Decode(string(bytes.TrimRight(blob, "\r\n")))
if err != nil {
Fatalf("Failed to decode block blob: %v", err)
}
var block types.Block
if err := rlp.DecodeBytes(rlpBlob, &block); err != nil {
Fatalf("Failed to decode block: %v", err)
}
ethcatalyst.RegisterFullSyncTester(stack, eth, &block)
log.Info("Registered full-sync tester", "number", block.NumberU64(), "hash", block.Hash())
}
func SetupMetrics(ctx *cli.Context) {
if metrics.Enabled {
log.Info("Enabling metrics collection")
var (
enableExport = ctx.Bool(MetricsEnableInfluxDBFlag.Name)
enableExportV2 = ctx.Bool(MetricsEnableInfluxDBV2Flag.Name)
)
if enableExport || enableExportV2 {
CheckExclusive(ctx, MetricsEnableInfluxDBFlag, MetricsEnableInfluxDBV2Flag)
v1FlagIsSet := ctx.IsSet(MetricsInfluxDBUsernameFlag.Name) ||
ctx.IsSet(MetricsInfluxDBPasswordFlag.Name)
v2FlagIsSet := ctx.IsSet(MetricsInfluxDBTokenFlag.Name) ||
ctx.IsSet(MetricsInfluxDBOrganizationFlag.Name) ||
ctx.IsSet(MetricsInfluxDBBucketFlag.Name)
if enableExport && v2FlagIsSet {
Fatalf("Flags --influxdb.metrics.organization, --influxdb.metrics.token, --influxdb.metrics.bucket are only available for influxdb-v2")
} else if enableExportV2 && v1FlagIsSet {
Fatalf("Flags --influxdb.metrics.username, --influxdb.metrics.password are only available for influxdb-v1")
}
}
var (
endpoint = ctx.String(MetricsInfluxDBEndpointFlag.Name)
database = ctx.String(MetricsInfluxDBDatabaseFlag.Name)
username = ctx.String(MetricsInfluxDBUsernameFlag.Name)
password = ctx.String(MetricsInfluxDBPasswordFlag.Name)
token = ctx.String(MetricsInfluxDBTokenFlag.Name)
bucket = ctx.String(MetricsInfluxDBBucketFlag.Name)
organization = ctx.String(MetricsInfluxDBOrganizationFlag.Name)
)
if enableExport {
tagsMap := SplitTagsFlag(ctx.String(MetricsInfluxDBTagsFlag.Name))
log.Info("Enabling metrics export to InfluxDB")
go influxdb.InfluxDBWithTags(metrics.DefaultRegistry, 10*time.Second, endpoint, database, username, password, "geth.", tagsMap)
} else if enableExportV2 {
tagsMap := SplitTagsFlag(ctx.String(MetricsInfluxDBTagsFlag.Name))
log.Info("Enabling metrics export to InfluxDB (v2)")
go influxdb.InfluxDBV2WithTags(metrics.DefaultRegistry, 10*time.Second, endpoint, token, bucket, organization, "geth.", tagsMap)
}
if ctx.IsSet(MetricsHTTPFlag.Name) {
address := net.JoinHostPort(ctx.String(MetricsHTTPFlag.Name), fmt.Sprintf("%d", ctx.Int(MetricsPortFlag.Name)))
log.Info("Enabling stand-alone metrics HTTP endpoint", "address", address)
exp.Setup(address)
} else if ctx.IsSet(MetricsPortFlag.Name) {
log.Warn(fmt.Sprintf("--%s specified without --%s, metrics server will not start.", MetricsPortFlag.Name, MetricsHTTPFlag.Name))
}
}
}
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, readonly bool) ethdb.Database {
var (
cache = ctx.Int(CacheFlag.Name) * ctx.Int(CacheDatabaseFlag.Name) / 100
handles = MakeDatabaseHandles(ctx.Int(FDLimitFlag.Name))
err error
chainDb ethdb.Database
)
switch {
case ctx.IsSet(RemoteDBFlag.Name):
log.Info("Using remote db", "url", ctx.String(RemoteDBFlag.Name), "headers", len(ctx.StringSlice(HttpHeaderFlag.Name)))
client, err := DialRPCWithHeaders(ctx.String(RemoteDBFlag.Name), ctx.StringSlice(HttpHeaderFlag.Name))
if err != nil {
break
}
chainDb = remotedb.New(client)
case ctx.String(SyncModeFlag.Name) == "light":
chainDb, err = stack.OpenDatabase("lightchaindata", cache, handles, "", readonly)
default:
chainDb, err = stack.OpenDatabaseWithFreezer("chaindata", cache, handles, ctx.String(AncientFlag.Name), "", readonly)
}
if err != nil {
Fatalf("Could not open database: %v", err)
}
return chainDb
}
func IsNetworkPreset(ctx *cli.Context) bool {
for _, flag := range NetworkFlags {
bFlag, _ := flag.(*cli.BoolFlag)
if ctx.IsSet(bFlag.Name) {
return true
}
}
return false
}
func DialRPCWithHeaders(endpoint string, headers []string) (*rpc.Client, error) {
if endpoint == "" {
return nil, errors.New("endpoint must be specified")
}
if strings.HasPrefix(endpoint, "rpc:") || strings.HasPrefix(endpoint, "ipc:") {
// Backwards compatibility with geth < 1.5 which required
// these prefixes.
endpoint = endpoint[4:]
}
var opts []rpc.ClientOption
if len(headers) > 0 {
var customHeaders = make(http.Header)
for _, h := range headers {
kv := strings.Split(h, ":")
if len(kv) != 2 {
return nil, fmt.Errorf("invalid http header directive: %q", h)
}
customHeaders.Add(kv[0], kv[1])
}
opts = append(opts, rpc.WithHeaders(customHeaders))
}
return rpc.DialOptions(context.Background(), endpoint, opts...)
}
func MakeGenesis(ctx *cli.Context) *core.Genesis {
var genesis *core.Genesis
switch {
case ctx.Bool(MainnetFlag.Name):
genesis = core.DefaultGenesisBlock()
case ctx.Bool(SepoliaFlag.Name):
genesis = core.DefaultSepoliaGenesisBlock()
case ctx.Bool(GoerliFlag.Name):
genesis = core.DefaultGoerliGenesisBlock()
case ctx.Bool(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, readonly bool) (*core.BlockChain, ethdb.Database) {
var (
gspec = MakeGenesis(ctx)
chainDb = MakeChainDatabase(ctx, stack, readonly)
)
config, err := core.LoadChainConfig(chainDb, gspec)
if err != nil {
Fatalf("%v", err)
}
engine, err := ethconfig.CreateConsensusEngine(config, chainDb)
if err != nil {
Fatalf("%v", err)
}
if gcmode := ctx.String(GCModeFlag.Name); gcmode != "full" && gcmode != "archive" {
Fatalf("--%s must be either 'full' or 'archive'", GCModeFlag.Name)
}
cache := &core.CacheConfig{
TrieCleanLimit: ethconfig.Defaults.TrieCleanCache,
TrieCleanNoPrefetch: ctx.Bool(CacheNoPrefetchFlag.Name),
TrieDirtyLimit: ethconfig.Defaults.TrieDirtyCache,
TrieDirtyDisabled: ctx.String(GCModeFlag.Name) == "archive",
TrieTimeLimit: ethconfig.Defaults.TrieTimeout,
SnapshotLimit: ethconfig.Defaults.SnapshotCache,
Preimages: ctx.Bool(CachePreimagesFlag.Name),
}
if cache.TrieDirtyDisabled && !cache.Preimages {
cache.Preimages = true
log.Info("Enabling recording of key preimages since archive mode is used")
}
if !ctx.Bool(SnapshotFlag.Name) {
cache.SnapshotLimit = 0 // Disabled
}
// If we're in readonly, do not bother generating snapshot data.
if readonly {
cache.SnapshotNoBuild = true
}
if ctx.IsSet(CacheFlag.Name) || ctx.IsSet(CacheTrieFlag.Name) {
cache.TrieCleanLimit = ctx.Int(CacheFlag.Name) * ctx.Int(CacheTrieFlag.Name) / 100
}
if ctx.IsSet(CacheFlag.Name) || ctx.IsSet(CacheGCFlag.Name) {
cache.TrieDirtyLimit = ctx.Int(CacheFlag.Name) * ctx.Int(CacheGCFlag.Name) / 100
}
vmcfg := vm.Config{EnablePreimageRecording: ctx.Bool(VMEnableDebugFlag.Name)}
// Disable transaction indexing/unindexing by default.
chain, err := core.NewBlockChain(chainDb, cache, gspec, nil, engine, vmcfg, nil, 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.String(PreloadJSFlag.Name) == "" {
return nil
}
// Otherwise resolve absolute paths and return them
var preloads []string
for _, file := range strings.Split(ctx.String(PreloadJSFlag.Name), ",") {
preloads = append(preloads, strings.TrimSpace(file))
}
return preloads
}