You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 

408 lines
16 KiB

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"`
}
// ForgeBatchGasCost is the costs associated to a ForgeBatch transaction, split
// into different parts to be used in a formula.
type ForgeBatchGasCost struct {
Fixed uint64 `validate:"required"`
L1UserTx uint64 `validate:"required"`
L1CoordTx uint64 `validate:"required"`
L2Tx uint64 `validate:"required"`
}
// CoordinatorAPI specifies the configuration parameters of the API in mode
// coordinator
type CoordinatorAPI struct {
// Coordinator enables the coordinator API endpoints
Coordinator bool
}
// Coordinator is the coordinator specific configuration.
type Coordinator struct {
// ForgerAddress is the address under which this coordinator is forging
ForgerAddress ethCommon.Address `validate:"required"`
// MinimumForgeAddressBalance is the minimum balance the forger address
// needs to start the coordinator in wei. Of set to 0, the coordinator
// will not check the balance before starting.
MinimumForgeAddressBalance *big.Int
// 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"`
// ForgeDelay is the delay after which a batch is forged if the slot is
// already committed. If set to 0s, the coordinator will continuously
// forge at the maximum rate.
ForgeDelay Duration `validate:"-"`
// ForgeNoTxsDelay is the delay after which a batch is forged even if
// there are no txs to forge if the slot is already committed. If set
// to 0s, the coordinator will continuously forge even if the batches
// are empty.
ForgeNoTxsDelay Duration `validate:"-"`
// SyncRetryInterval is the waiting interval between calls to the main
// handler of a synced block after an error
SyncRetryInterval Duration `validate:"required"`
// PurgeByExtDelInterval is the waiting interval between calls
// to the PurgeByExternalDelete function of the l2db which deletes
// pending txs externally marked by the column `external_delete`
PurgeByExtDelInterval 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 maximum number of pending L2Txs that can be
// stored in the pool. Once this number of pending L2Txs is
// reached, inserts to the pool will be denied until some of
// the pending txs are forged.
MaxTxs uint32 `validate:"required"`
// MinFeeUSD is the minimum fee in USD that a tx must pay in
// order to be accepted into the pool. Txs with lower than
// minimum fee will be rejected at the API level.
MinFeeUSD float64
// 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. Oudated L2Txs are those that have
// been forged or marked as invalid for longer than the
// SafetyPeriod and pending L2Txs that have been in the pool
// for longer than TTL once there are MaxTxs.
PurgeBatchDelay int64 `validate:"required"`
// InvalidateBatchDelay is the delay between batches to mark
// invalid transactions due to nonce lower than the account
// nonce.
InvalidateBatchDelay int64 `validate:"required"`
// PurgeBlockDelay is the delay between blocks to purge
// outdated transactions. Oudated L2Txs are those that have
// been forged or marked as invalid for longer than the
// SafetyPeriod and pending L2Txs that have been in the pool
// for longer than TTL once there are MaxTxs.
PurgeBlockDelay int64 `validate:"required"`
// InvalidateBlockDelay is the delay between blocks to mark
// invalid transactions due to nonce lower than the account
// nonce.
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 {
// MaxGasPrice is the maximum gas price allowed for ethereum
// transactions
MaxGasPrice *big.Int `validate:"required"`
// GasPriceIncPerc is the percentage increase of gas price set
// in an ethereum transaction from the suggested gas price by
// the ehtereum node
GasPriceIncPerc int64
// 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"`
// ForgeBatchGasCost contains the cost of each action in the
// ForgeBatch transaction.
ForgeBatchGasCost ForgeBatchGasCost `validate:"required"`
} `validate:"required"`
API CoordinatorAPI `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
}
}
// NodeAPI specifies the configuration parameters of the API
type NodeAPI 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
}
// It's possible to use diferentiated SQL connections for read/write.
// If the read configuration is not provided, the write one it's going to be used
// for both reads and writes
type PostgreSQL struct {
// Port of the PostgreSQL write server
PortWrite int `validate:"required"`
// Host of the PostgreSQL write server
HostWrite string `validate:"required"`
// User of the PostgreSQL write server
UserWrite string `validate:"required"`
// Password of the PostgreSQL write server
PasswordWrite string `validate:"required"`
// Name of the PostgreSQL write server database
NameWrite string `validate:"required"`
// Port of the PostgreSQL read server
PortRead int
// Host of the PostgreSQL read server
HostRead string
// User of the PostgreSQL read server
UserRead string
// Password of the PostgreSQL read server
PasswordRead string
// Name of the PostgreSQL read server database
NameRead string
}
// NodeDebug specifies debug configuration parameters
type NodeDebug 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
// GinDebugMode sets Gin-Gonic (the web framework) to run in
// debug mode
GinDebugMode bool
}
// 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 PostgreSQL `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 NodeAPI `validate:"required"`
Debug NodeDebug `validate:"required"`
Coordinator Coordinator `validate:"-"`
}
type APIServer struct {
API NodeAPI `validate:"required"`
PostgreSQL PostgreSQL `validate:"required"`
Coordinator struct {
API struct {
// Coordinator enables the coordinator API endpoints
Coordinator bool
} `validate:"required"`
} `validate:"required"`
L2DB struct {
// MaxTxs is the maximum number of pending L2Txs that can be
// stored in the pool. Once this number of pending L2Txs is
// reached, inserts to the pool will be denied until some of
// the pending txs are forged.
MaxTxs uint32 `validate:"required"`
// MinFeeUSD is the minimum fee in USD that a tx must pay in
// order to be accepted into the pool. Txs with lower than
// minimum fee will be rejected at the API level.
MinFeeUSD float64
} `validate:"required"`
Debug NodeDebug `validate:"required"`
}
// 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
}
// LoadAPIServer loads the APIServer configuration from path.
func LoadAPIServer(path string) (*APIServer, error) {
var cfg APIServer
if err := Load(path, &cfg); err != nil {
return nil, tracerr.Wrap(fmt.Errorf("error loading apiServer 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
}