package params import ( "fmt" "math/big" "github.com/ethereum/go-ethereum/common" ) // Well-known chain IDs. var ( MainnetChainID = big.NewInt(1) TestnetChainID = big.NewInt(2) PangaeaChainID = big.NewInt(3) TestChainID = big.NewInt(99) // not a real network AllProtocolChangesChainID = big.NewInt(100) // not a real network ) // EpochTBD is a large, “not anytime soon” epoch. It used as a placeholder // until the exact epoch is decided. var EpochTBD = big.NewInt(10000000) var ( // MainnetChainConfig is the chain parameters to run a node on the main network. MainnetChainConfig = &ChainConfig{ ChainID: MainnetChainID, CrossTxEpoch: big.NewInt(28), CrossLinkEpoch: EpochTBD, StakingEpoch: EpochTBD, EIP155Epoch: big.NewInt(28), S3Epoch: big.NewInt(28), } // TestnetChainConfig contains the chain parameters to run a node on the harmony test network. TestnetChainConfig = &ChainConfig{ ChainID: TestnetChainID, CrossTxEpoch: big.NewInt(0), CrossLinkEpoch: big.NewInt(0), StakingEpoch: EpochTBD, EIP155Epoch: big.NewInt(0), S3Epoch: big.NewInt(0), } // PangaeaChainConfig contains the chain parameters for the Pangaea network. // All features except for CrossLink are enabled at launch. PangaeaChainConfig = &ChainConfig{ ChainID: PangaeaChainID, CrossTxEpoch: big.NewInt(0), CrossLinkEpoch: EpochTBD, StakingEpoch: EpochTBD, EIP155Epoch: big.NewInt(0), S3Epoch: big.NewInt(0), } // AllProtocolChanges ... // This configuration is intentionally not using keyed fields to force anyone // adding flags to the config to also have to set these fields. AllProtocolChanges = &ChainConfig{ AllProtocolChangesChainID, // ChainID big.NewInt(0), // CrossTxEpoch big.NewInt(0), // CrossLinkEpoch big.NewInt(0), // StakingEpoch big.NewInt(0), // EIP155Epoch big.NewInt(0), // S3Epoch } // TestChainConfig ... // This configuration is intentionally not using keyed fields to force anyone // adding flags to the config to also have to set these fields. TestChainConfig = &ChainConfig{ TestChainID, // ChainID big.NewInt(0), // CrossTxEpoch big.NewInt(0), // CrossLinkEpoch big.NewInt(0), // StakingEpoch big.NewInt(0), // EIP155Epoch big.NewInt(0), // S3Epoch } // TestRules ... TestRules = TestChainConfig.Rules(new(big.Int)) ) // TrustedCheckpoint represents a set of post-processed trie roots (CHT and // BloomTrie) associated with the appropriate section index and head hash. It is // used to start light syncing from this checkpoint and avoid downloading the // entire header chain while still being able to securely access old headers/logs. type TrustedCheckpoint struct { Name string `json:"-"` SectionIndex uint64 `json:"sectionIndex"` SectionHead common.Hash `json:"sectionHead"` CHTRoot common.Hash `json:"chtRoot"` BloomRoot common.Hash `json:"bloomRoot"` } // ChainConfig is the core config which determines the blockchain settings. // // ChainConfig is stored in the database on a per block basis. This means // that any network, identified by its genesis block, can have its own // set of configuration options. type ChainConfig struct { ChainID *big.Int `json:"chainId"` // chainId identifies the current chain and is used for replay protection // CrossTxEpoch is the epoch where cross-shard transaction starts being // processed. CrossTxEpoch *big.Int `json:"crossTxEpoch,omitempty"` // CrossLinkEpoch is the epoch where beaconchain starts containing // cross-shard links. CrossLinkEpoch *big.Int `json:"crossLinkEpoch,omitempty"` // StakingEpoch is the epoch we allow staking transactions StakingEpoch *big.Int `json:"stakingEpoch,omitempty"` EIP155Epoch *big.Int `json:"eip155Epoch,omitempty"` // EIP155 hard fork epoch (include EIP158 too) S3Epoch *big.Int `json:"s3Epoch,omitempty"` // S3 epoch is the first epoch containing S3 mainnet and all ethereum update up to Constantinople } // String implements the fmt.Stringer interface. func (c *ChainConfig) String() string { return fmt.Sprintf("{ChainID: %v EIP155: %v CrossTx: %v Staking: %v CrossLink: %v}", c.ChainID, c.EIP155Epoch, c.CrossTxEpoch, c.StakingEpoch, c.CrossLinkEpoch, ) } // IsEIP155 returns whether epoch is either equal to the EIP155 fork epoch or greater. func (c *ChainConfig) IsEIP155(epoch *big.Int) bool { return isForked(c.EIP155Epoch, epoch) } // IsCrossTx returns whether cross-shard transaction is enabled in the given // epoch. // // Note that this is different from comparing epoch against CrossTxEpoch. // Cross-shard transaction is enabled from CrossTxEpoch+1 and on, in order to // allow for all shards to roll into CrossTxEpoch and become able to handle // ingress receipts. In other words, cross-shard transaction fields are // introduced at CrossTxEpoch, but these fields are not used until // CrossTxEpoch+1, when cross-shard transactions are actually accepted by the // network. func (c *ChainConfig) IsCrossTx(epoch *big.Int) bool { crossTxEpoch := new(big.Int).Add(c.CrossTxEpoch, common.Big1) return isForked(crossTxEpoch, epoch) } // IsStaking determines whether it is staking epoch func (c *ChainConfig) IsStaking(epoch *big.Int) bool { return isForked(c.StakingEpoch, epoch) } // IsCrossLink returns whether epoch is either equal to the CrossLink fork epoch or greater. func (c *ChainConfig) IsCrossLink(epoch *big.Int) bool { return isForked(c.CrossLinkEpoch, epoch) } // IsS3 returns whether epoch is either equal to the S3 fork epoch or greater. func (c *ChainConfig) IsS3(epoch *big.Int) bool { return isForked(c.S3Epoch, epoch) } // GasTable returns the gas table corresponding to the current phase (homestead or homestead reprice). // // The returned GasTable's fields shouldn't, under any circumstances, be changed. func (c *ChainConfig) GasTable(epoch *big.Int) GasTable { if epoch == nil { return GasTableR3 } switch { case c.IsS3(epoch): return GasTableS3 default: return GasTableR3 } } // CheckCompatible checks whether scheduled fork transitions have been imported // with a mismatching chain configuration. func (c *ChainConfig) CheckCompatible(newcfg *ChainConfig, height uint64) *ConfigCompatError { bhead := new(big.Int).SetUint64(height) // Iterate checkCompatible to find the lowest conflict. var lasterr *ConfigCompatError for { err := c.checkCompatible(newcfg, bhead) if err == nil || (lasterr != nil && err.RewindTo == lasterr.RewindTo) { break } lasterr = err bhead.SetUint64(err.RewindTo) } return lasterr } func (c *ChainConfig) checkCompatible(newcfg *ChainConfig, head *big.Int) *ConfigCompatError { // TODO: check compatibility and reversion based on epochs. //if isForkIncompatible(c.EIP155Epoch, newcfg.EIP155Epoch, head) { // return newCompatError("EIP155 fork block", c.EIP155Epoch, newcfg.EIP155Epoch) //} //if isForkIncompatible(c.CrossLinkEpoch, newcfg.CrossLinkEpoch, head) { // return newCompatError("CrossLink fork block", c.CrossLinkEpoch, newcfg.CrossLinkEpoch) //} //if isForkIncompatible(c.S3Epoch, newcfg.S3Epoch, head) { // return newCompatError("S3 fork block", c.S3Epoch, newcfg.S3Epoch) //} return nil } // isForkIncompatible returns true if a fork scheduled at s1 cannot be rescheduled to // epoch s2 because head is already past the fork. func isForkIncompatible(s1, s2, epoch *big.Int) bool { return (isForked(s1, epoch) || isForked(s2, epoch)) && !configNumEqual(s1, s2) } // isForked returns whether a fork scheduled at epoch s is active at the given head epoch. func isForked(s, epoch *big.Int) bool { if s == nil || epoch == nil { return false } return s.Cmp(epoch) <= 0 } func configNumEqual(x, y *big.Int) bool { if x == nil { return y == nil } if y == nil { return x == nil } return x.Cmp(y) == 0 } // ConfigCompatError is raised if the locally-stored blockchain is initialised with a // ChainConfig that would alter the past. type ConfigCompatError struct { What string // block numbers of the stored and new configurations StoredConfig, NewConfig *big.Int // the block number to which the local chain must be rewound to correct the error RewindTo uint64 } func newCompatError(what string, storedblock, newblock *big.Int) *ConfigCompatError { var rew *big.Int switch { case storedblock == nil: rew = newblock case newblock == nil || storedblock.Cmp(newblock) < 0: rew = storedblock default: rew = newblock } err := &ConfigCompatError{what, storedblock, newblock, 0} if rew != nil && rew.Sign() > 0 { err.RewindTo = rew.Uint64() - 1 } return err } func (err *ConfigCompatError) Error() string { return fmt.Sprintf("mismatching %s in database (have %d, want %d, rewindto %d)", err.What, err.StoredConfig, err.NewConfig, err.RewindTo) } // Rules wraps ChainConfig and is merely syntactic sugar or can be used for functions // that do not have or require information about the block. // // Rules is a one time interface meaning that it shouldn't be used in between transition // phases. type Rules struct { ChainID *big.Int IsCrossLink, IsEIP155, IsS3 bool } // Rules ensures c's ChainID is not nil. func (c *ChainConfig) Rules(epoch *big.Int) Rules { chainID := c.ChainID if chainID == nil { chainID = new(big.Int) } return Rules{ ChainID: new(big.Int).Set(chainID), IsCrossLink: c.IsCrossLink(epoch), IsEIP155: c.IsEIP155(epoch), IsS3: c.IsS3(epoch), } }