package config import ( "fmt" "io/ioutil" "math/big" "time" "github.com/BurntSushi/toml" ethCommon "github.com/ethereum/go-ethereum/common" "github.com/hermeznetwork/hermez-node/common" "github.com/hermeznetwork/tracerr" "github.com/iden3/go-iden3-crypto/babyjub" "gopkg.in/go-playground/validator.v9" ) // Duration is a wrapper type that parses time duration from text. type Duration struct { time.Duration `validate:"required"` } // UnmarshalText unmarshalls time duration from text. func (d *Duration) UnmarshalText(data []byte) error { duration, err := time.ParseDuration(string(data)) if err != nil { return tracerr.Wrap(err) } d.Duration = duration return nil } // ServerProof is the server proof configuration data. type ServerProof struct { // URL is the server proof API URL URL string `validate:"required"` } // Coordinator is the coordinator specific configuration. type Coordinator struct { // ForgerAddress is the address under which this coordinator is forging ForgerAddress ethCommon.Address `validate:"required"` // FeeAccount is the Hermez account that the coordinator uses to receive fees FeeAccount struct { // Address is the ethereum address of the account to receive fees Address ethCommon.Address `validate:"required"` // BJJ is the baby jub jub public key of the account to receive fees BJJ babyjub.PublicKeyComp `validate:"required"` } `validate:"required"` // ConfirmBlocks is the number of confirmation blocks to wait for sent // ethereum transactions before forgetting about them ConfirmBlocks int64 `validate:"required"` // L1BatchTimeoutPerc is the portion of the range before the L1Batch // timeout that will trigger a schedule to forge an L1Batch L1BatchTimeoutPerc float64 `validate:"required"` // StartSlotBlocksDelay is the number of blocks of delay to wait before // starting the pipeline when we reach a slot in which we can forge. StartSlotBlocksDelay int64 // ScheduleBatchBlocksAheadCheck is the number of blocks ahead in which // the forger address is checked to be allowed to forge (apart from // checking the next block), used to decide when to stop scheduling new // batches (by stopping the pipeline). // For example, if we are at block 10 and ScheduleBatchBlocksAheadCheck // is 5, eventhough at block 11 we canForge, the pipeline will be // stopped if we can't forge at block 15. // This value should be the expected number of blocks it takes between // scheduling a batch and having it mined. ScheduleBatchBlocksAheadCheck int64 // SendBatchBlocksMarginCheck is the number of margin blocks ahead in // which the coordinator is also checked to be allowed to forge, apart // from the next block; used to decide when to stop sending batches to // the smart contract. // For example, if we are at block 10 and SendBatchBlocksMarginCheck is // 5, eventhough at block 11 we canForge, the batch will be discarded // if we can't forge at block 15. SendBatchBlocksMarginCheck int64 // ProofServerPollInterval is the waiting interval between polling the // ProofServer while waiting for a particular status ProofServerPollInterval Duration `validate:"required"` // ForgeRetryInterval is the waiting interval between calls forge a // batch after an error ForgeRetryInterval Duration `validate:"required"` // SyncRetryInterval is the waiting interval between calls to the main // handler of a synced block after an error SyncRetryInterval Duration `validate:"required"` // L2DB is the DB that holds the pool of L2Txs L2DB struct { // SafetyPeriod is the number of batches after which // non-pending L2Txs are deleted from the pool SafetyPeriod common.BatchNum `validate:"required"` // MaxTxs is the number of L2Txs that once reached triggers // deletion of old L2Txs MaxTxs uint32 `validate:"required"` // TTL is the Time To Live for L2Txs in the pool. Once MaxTxs // L2Txs is reached, L2Txs older than TTL will be deleted. TTL Duration `validate:"required"` // PurgeBatchDelay is the delay between batches to purge outdated transactions PurgeBatchDelay int64 `validate:"required"` // InvalidateBatchDelay is the delay between batches to mark invalid transactions InvalidateBatchDelay int64 `validate:"required"` // PurgeBlockDelay is the delay between blocks to purge outdated transactions PurgeBlockDelay int64 `validate:"required"` // InvalidateBlockDelay is the delay between blocks to mark invalid transactions InvalidateBlockDelay int64 `validate:"required"` } `validate:"required"` TxSelector struct { // Path where the TxSelector StateDB is stored Path string `validate:"required"` } `validate:"required"` BatchBuilder struct { // Path where the BatchBuilder StateDB is stored Path string `validate:"required"` } `validate:"required"` ServerProofs []ServerProof `validate:"required"` Circuit struct { // MaxTx is the maximum number of txs supported by the circuit MaxTx int64 `validate:"required"` // NLevels is the maximum number of merkle tree levels // supported by the circuit NLevels int64 `validate:"required"` } `validate:"required"` EthClient struct { // CallGasLimit is the default gas limit set for ethereum // calls, except for methods where a particular gas limit is // harcoded because it's known to be a big value CallGasLimit uint64 `validate:"required"` // MaxGasPrice is the maximum gas price allowed for ethereum // transactions MaxGasPrice *big.Int `validate:"required"` // GasPriceDiv is the gas price division GasPriceDiv uint64 `validate:"required"` // CheckLoopInterval is the waiting interval between receipt // checks of ethereum transactions in the TxManager CheckLoopInterval Duration `validate:"required"` // Attempts is the number of attempts to do an eth client RPC // call before giving up Attempts int `validate:"required"` // AttemptsDelay is delay between attempts do do an eth client // RPC call AttemptsDelay Duration `validate:"required"` // TxResendTimeout is the timeout after which a non-mined // ethereum transaction will be resent (reusing the nonce) with // a newly calculated gas price TxResendTimeout Duration `validate:"required"` // NoReuseNonce disables reusing nonces of pending transactions for // new replacement transactions NoReuseNonce bool // Keystore is the ethereum keystore where private keys are kept Keystore struct { // Path to the keystore Path string `validate:"required"` // Password used to decrypt the keys in the keystore Password string `validate:"required"` } `validate:"required"` } `validate:"required"` API struct { // Coordinator enables the coordinator API endpoints Coordinator bool } `validate:"required"` Debug struct { // BatchPath if set, specifies the path where batchInfo is stored // in JSON in every step/update of the pipeline BatchPath string // LightScrypt if set, uses light parameters for the ethereum // keystore encryption algorithm. LightScrypt bool // RollupVerifierIndex is the index of the verifier to use in // the Rollup smart contract. The verifier chosen by index // must match with the Circuit parameters. RollupVerifierIndex *int } } // Node is the hermez node configuration. type Node struct { PriceUpdater struct { // Interval between price updater calls Interval Duration `valudate:"required"` // URL of the token prices provider URL string `valudate:"required"` // Type of the API of the token prices provider Type string `valudate:"required"` } `validate:"required"` StateDB struct { // Path where the synchronizer StateDB is stored Path string `validate:"required"` // Keep is the number of checkpoints to keep Keep int `validate:"required"` } `validate:"required"` PostgreSQL struct { // Port of the PostgreSQL server Port int `validate:"required"` // Host of the PostgreSQL server Host string `validate:"required"` // User of the PostgreSQL server User string `validate:"required"` // Password of the PostgreSQL server Password string `validate:"required"` // Name of the PostgreSQL server database Name string `validate:"required"` } `validate:"required"` Web3 struct { // URL is the URL of the web3 ethereum-node RPC server URL string `validate:"required"` } `validate:"required"` Synchronizer struct { // SyncLoopInterval is the interval between attempts to // synchronize a new block from an ethereum node SyncLoopInterval Duration `validate:"required"` // StatsRefreshPeriod is the interval between updates of the // synchronizer state Eth parameters (`Eth.LastBlock` and // `Eth.LastBatch`). This value only affects the reported % of // synchronization of blocks and batches, nothing else. StatsRefreshPeriod Duration `validate:"required"` } `validate:"required"` SmartContracts struct { // Rollup is the address of the Hermez.sol smart contract Rollup ethCommon.Address `validate:"required"` // Rollup is the address of the HermezAuctionProtocol.sol smart // contract Auction ethCommon.Address `validate:"required"` // WDelayer is the address of the WithdrawalDelayer.sol smart // contract WDelayer ethCommon.Address `validate:"required"` // TokenHEZ is the address of the HEZTokenFull.sol smart // contract TokenHEZ ethCommon.Address `validate:"required"` // TokenHEZName is the name of the HEZ token deployed at // TokenHEZ address TokenHEZName string `validate:"required"` } `validate:"required"` API struct { // Address where the API will listen if set Address string // Explorer enables the Explorer API endpoints Explorer bool // UpdateMetricsInterval is the interval between updates of the // API metrics UpdateMetricsInterval Duration // UpdateRecommendedFeeInterval is the interval between updates of the // recommended fees UpdateRecommendedFeeInterval Duration // Maximum concurrent connections allowed between API and SQL MaxSQLConnections int `validate:"required"` // SQLConnectionTimeout is the maximum amount of time that an API request // can wait to stablish a SQL connection SQLConnectionTimeout Duration } `validate:"required"` Debug struct { // APIAddress is the address where the debugAPI will listen if // set APIAddress string // MeddlerLogs enables meddler debug mode, where unused columns and struct // fields will be logged MeddlerLogs bool } Coordinator Coordinator `validate:"-"` } // Load loads a generic config. func Load(path string, cfg interface{}) error { bs, err := ioutil.ReadFile(path) //nolint:gosec if err != nil { return tracerr.Wrap(err) } cfgToml := string(bs) if _, err := toml.Decode(cfgToml, cfg); err != nil { return tracerr.Wrap(err) } return nil } // LoadCoordinator loads the Coordinator configuration from path. func LoadCoordinator(path string) (*Node, error) { var cfg Node if err := Load(path, &cfg); err != nil { return nil, tracerr.Wrap(fmt.Errorf("error loading node configuration file: %w", err)) } validate := validator.New() if err := validate.Struct(cfg); err != nil { return nil, tracerr.Wrap(fmt.Errorf("error validating configuration file: %w", err)) } if err := validate.Struct(cfg.Coordinator); err != nil { return nil, tracerr.Wrap(fmt.Errorf("error validating configuration file: %w", err)) } return &cfg, nil } // LoadNode loads the Node configuration from path. func LoadNode(path string) (*Node, error) { var cfg Node if err := Load(path, &cfg); err != nil { return nil, tracerr.Wrap(fmt.Errorf("error loading node configuration file: %w", err)) } validate := validator.New() if err := validate.Struct(cfg); err != nil { return nil, tracerr.Wrap(fmt.Errorf("error validating configuration file: %w", err)) } return &cfg, nil }