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