package config import ( "fmt" "path/filepath" "time" "github.com/tendermint/tendermint/types" ) type Config struct { // Top level options use an anonymous struct BaseConfig `mapstructure:",squash"` // Options for services RPC *RPCConfig `mapstructure:"rpc"` P2P *P2PConfig `mapstructure:"p2p"` Mempool *MempoolConfig `mapstructure:"mempool"` Consensus *ConsensusConfig `mapstructure:"consensus"` } func DefaultConfig() *Config { return &Config{ BaseConfig: DefaultBaseConfig(), RPC: DefaultRPCConfig(), P2P: DefaultP2PConfig(), Mempool: DefaultMempoolConfig(), Consensus: DefaultConsensusConfig(), } } func TestConfig() *Config { return &Config{ BaseConfig: TestBaseConfig(), RPC: TestRPCConfig(), P2P: TestP2PConfig(), Mempool: DefaultMempoolConfig(), Consensus: TestConsensusConfig(), } } // Set the RootDir for all Config structs func (cfg *Config) SetRoot(root string) *Config { cfg.BaseConfig.RootDir = root cfg.RPC.RootDir = root cfg.P2P.RootDir = root cfg.Mempool.RootDir = root cfg.Consensus.RootDir = root return cfg } //----------------------------------------------------------------------------- // BaseConfig // BaseConfig struct for a Tendermint node type BaseConfig struct { // The root directory for all data. // This should be set in viper so it can unmarshal into this struct RootDir string `mapstructure:"home"` // The ID of the chain to join (should be signed with every transaction and vote) ChainID string `mapstructure:"chain_id"` // A JSON file containing the initial validator set and other meta data Genesis string `mapstructure:"genesis_file"` // A JSON file containing the private key to use as a validator in the consensus protocol PrivValidator string `mapstructure:"priv_validator_file"` // A custom human readable name for this node Moniker string `mapstructure:"moniker"` // TCP or UNIX socket address of the ABCI application, // or the name of an ABCI application compiled in with the Tendermint binary ProxyApp string `mapstructure:"proxy_app"` // Mechanism to connect to the ABCI application: socket | grpc ABCI string `mapstructure:"abci"` // Output level for logging LogLevel string `mapstructure:"log_level"` // TCP or UNIX socket address for the profiling server to listen on ProfListenAddress string `mapstructure:"prof_laddr"` // If this node is many blocks behind the tip of the chain, FastSync // allows them to catchup quickly by downloading blocks in parallel // and verifying their commits FastSync bool `mapstructure:"fast_sync"` // If true, query the ABCI app on connecting to a new peer // so the app can decide if we should keep the connection or not FilterPeers bool `mapstructure:"filter_peers"` // false // What indexer to use for transactions TxIndex string `mapstructure:"tx_index"` // Database backend: leveldb | memdb DBBackend string `mapstructure:"db_backend"` // Database directory DBPath string `mapstructure:"db_dir"` } func DefaultBaseConfig() BaseConfig { return BaseConfig{ Genesis: "genesis.json", PrivValidator: "priv_validator.json", Moniker: "anonymous", ProxyApp: "tcp://127.0.0.1:46658", ABCI: "socket", LogLevel: DefaultPackageLogLevels(), ProfListenAddress: "", FastSync: true, FilterPeers: false, TxIndex: "kv", DBBackend: "leveldb", DBPath: "data", } } func TestBaseConfig() BaseConfig { conf := DefaultBaseConfig() conf.ChainID = "tendermint_test" conf.ProxyApp = "dummy" conf.FastSync = false conf.DBBackend = "memdb" return conf } func (b BaseConfig) GenesisFile() string { return rootify(b.Genesis, b.RootDir) } func (b BaseConfig) PrivValidatorFile() string { return rootify(b.PrivValidator, b.RootDir) } func (b BaseConfig) DBDir() string { return rootify(b.DBPath, b.RootDir) } func DefaultLogLevel() string { return "error" } func DefaultPackageLogLevels() string { return fmt.Sprintf("state:info,*:%s", DefaultLogLevel()) } //----------------------------------------------------------------------------- // RPCConfig type RPCConfig struct { RootDir string `mapstructure:"home"` // TCP or UNIX socket address for the RPC server to listen on ListenAddress string `mapstructure:"laddr"` // TCP or UNIX socket address for the gRPC server to listen on // NOTE: This server only supports /broadcast_tx_commit GRPCListenAddress string `mapstructure:"grpc_laddr"` // Activate unsafe RPC commands like /dial_seeds and /unsafe_flush_mempool Unsafe bool `mapstructure:"unsafe"` } func DefaultRPCConfig() *RPCConfig { return &RPCConfig{ ListenAddress: "tcp://0.0.0.0:46657", GRPCListenAddress: "", Unsafe: false, } } func TestRPCConfig() *RPCConfig { conf := DefaultRPCConfig() conf.ListenAddress = "tcp://0.0.0.0:36657" conf.GRPCListenAddress = "tcp://0.0.0.0:36658" conf.Unsafe = true return conf } //----------------------------------------------------------------------------- // P2PConfig type P2PConfig struct { RootDir string `mapstructure:"home"` ListenAddress string `mapstructure:"laddr"` Seeds string `mapstructure:"seeds"` SkipUPNP bool `mapstructure:"skip_upnp"` AddrBook string `mapstructure:"addr_book_file"` AddrBookStrict bool `mapstructure:"addr_book_strict"` PexReactor bool `mapstructure:"pex"` MaxNumPeers int `mapstructure:"max_num_peers"` } func DefaultP2PConfig() *P2PConfig { return &P2PConfig{ ListenAddress: "tcp://0.0.0.0:46656", AddrBook: "addrbook.json", AddrBookStrict: true, MaxNumPeers: 50, } } func TestP2PConfig() *P2PConfig { conf := DefaultP2PConfig() conf.ListenAddress = "tcp://0.0.0.0:36656" conf.SkipUPNP = true return conf } func (p *P2PConfig) AddrBookFile() string { return rootify(p.AddrBook, p.RootDir) } //----------------------------------------------------------------------------- // MempoolConfig type MempoolConfig struct { RootDir string `mapstructure:"home"` Recheck bool `mapstructure:"recheck"` RecheckEmpty bool `mapstructure:"recheck_empty"` Broadcast bool `mapstructure:"broadcast"` WalPath string `mapstructure:"wal_dir"` } func DefaultMempoolConfig() *MempoolConfig { return &MempoolConfig{ Recheck: true, RecheckEmpty: true, Broadcast: true, WalPath: "data/mempool.wal", } } func (m *MempoolConfig) WalDir() string { return rootify(m.WalPath, m.RootDir) } //----------------------------------------------------------------------------- // ConsensusConfig // ConsensusConfig holds timeouts and details about the WAL, the block structure, // and timeouts in the consensus protocol. type ConsensusConfig struct { RootDir string `mapstructure:"home"` WalPath string `mapstructure:"wal_file"` WalLight bool `mapstructure:"wal_light"` walFile string // overrides WalPath if set // All timeouts are in ms TimeoutPropose int `mapstructure:"timeout_propose"` TimeoutProposeDelta int `mapstructure:"timeout_propose_delta"` TimeoutPrevote int `mapstructure:"timeout_prevote"` TimeoutPrevoteDelta int `mapstructure:"timeout_prevote_delta"` TimeoutPrecommit int `mapstructure:"timeout_precommit"` TimeoutPrecommitDelta int `mapstructure:"timeout_precommit_delta"` TimeoutCommit int `mapstructure:"timeout_commit"` // Make progress as soon as we have all the precommits (as if TimeoutCommit = 0) SkipTimeoutCommit bool `mapstructure:"skip_timeout_commit"` // BlockSize MaxBlockSizeTxs int `mapstructure:"max_block_size_txs"` MaxBlockSizeBytes int `mapstructure:"max_block_size_bytes"` // TODO: This probably shouldn't be exposed but it makes it // easy to write tests for the wal/replay BlockPartSize int `mapstructure:"block_part_size"` } // Wait this long for a proposal func (cfg *ConsensusConfig) Propose(round int) time.Duration { return time.Duration(cfg.TimeoutPropose+cfg.TimeoutProposeDelta*round) * time.Millisecond } // After receiving any +2/3 prevote, wait this long for stragglers func (cfg *ConsensusConfig) Prevote(round int) time.Duration { return time.Duration(cfg.TimeoutPrevote+cfg.TimeoutPrevoteDelta*round) * time.Millisecond } // After receiving any +2/3 precommits, wait this long for stragglers func (cfg *ConsensusConfig) Precommit(round int) time.Duration { return time.Duration(cfg.TimeoutPrecommit+cfg.TimeoutPrecommitDelta*round) * time.Millisecond } // After receiving +2/3 precommits for a single block (a commit), wait this long for stragglers in the next height's RoundStepNewHeight func (cfg *ConsensusConfig) Commit(t time.Time) time.Time { return t.Add(time.Duration(cfg.TimeoutCommit) * time.Millisecond) } func DefaultConsensusConfig() *ConsensusConfig { return &ConsensusConfig{ WalPath: "data/cs.wal/wal", WalLight: false, TimeoutPropose: 3000, TimeoutProposeDelta: 500, TimeoutPrevote: 1000, TimeoutPrevoteDelta: 500, TimeoutPrecommit: 1000, TimeoutPrecommitDelta: 500, TimeoutCommit: 1000, SkipTimeoutCommit: false, MaxBlockSizeTxs: 10000, MaxBlockSizeBytes: 1, // TODO BlockPartSize: types.DefaultBlockPartSize, // TODO: we shouldnt be importing types } } func TestConsensusConfig() *ConsensusConfig { config := DefaultConsensusConfig() config.TimeoutPropose = 2000 config.TimeoutProposeDelta = 1 config.TimeoutPrevote = 10 config.TimeoutPrevoteDelta = 1 config.TimeoutPrecommit = 10 config.TimeoutPrecommitDelta = 1 config.TimeoutCommit = 10 config.SkipTimeoutCommit = true return config } func (c *ConsensusConfig) WalFile() string { if c.walFile != "" { return c.walFile } return rootify(c.WalPath, c.RootDir) } func (c *ConsensusConfig) SetWalFile(walFile string) { c.walFile = walFile } //----------------------------------------------------------------------------- // Utils // helper function to make config creation independent of root dir func rootify(path, root string) string { if filepath.IsAbs(path) { return path } return filepath.Join(root, path) }