The core protocol of WoopChain
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woop/hmy/hmy.go

263 lines
9.4 KiB

package hmy
import (
"context"
"encoding/json"
"math/big"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/math"
"github.com/ethereum/go-ethereum/core/bloombits"
"github.com/ethereum/go-ethereum/ethdb"
"github.com/ethereum/go-ethereum/event"
"github.com/ethereum/go-ethereum/params"
"github.com/harmony-one/harmony/api/proto"
"github.com/harmony-one/harmony/block"
"github.com/harmony-one/harmony/core"
"github.com/harmony-one/harmony/core/state"
"github.com/harmony-one/harmony/core/types"
"github.com/harmony-one/harmony/core/vm"
nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
commonRPC "github.com/harmony-one/harmony/rpc/common"
"github.com/harmony-one/harmony/shard"
staking "github.com/harmony-one/harmony/staking/types"
lru "github.com/hashicorp/golang-lru"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/pkg/errors"
"golang.org/x/sync/singleflight"
)
const (
// BloomBitsBlocks is the number of blocks a single bloom bit section vector
// contains on the server side.
BloomBitsBlocks uint64 = 4096
leaderCacheSize = 250 // Approx number of BLS keys in committee
undelegationPayoutsCacheSize = 500 // max number of epochs to store in cache
preStakingBlockRewardsCacheSize = 1024 // max number of block rewards to store in cache
totalStakeCacheDuration = 20 // number of blocks where the returned total stake will remain the same
// max number of blocks for which the map "validator address -> total delegation to validator" is stored
stakeByBlockNumberCacheSize = 250
)
var (
// ErrFinalizedTransaction is returned if the transaction to be submitted is already on-chain
ErrFinalizedTransaction = errors.New("transaction already finalized")
)
// Harmony implements the Harmony full node service.
type Harmony struct {
// Channel for shutting down the service
ShutdownChan chan bool // Channel for shutting down the Harmony
BloomRequests chan chan *bloombits.Retrieval // Channel receiving bloom data retrieval requests
BlockChain core.BlockChain
BeaconChain core.BlockChain
TxPool *core.TxPool
CxPool *core.CxPool // CxPool is used to store the blockHashes of blocks containing cx receipts to be sent
// DB interfaces
BloomIndexer *core.ChainIndexer // Bloom indexer operating during block imports
NodeAPI NodeAPI
// ChainID is used to identify which network we are using
ChainID uint64
// EthCompatibleChainID is used to identify the Ethereum compatible chain ID
EthChainID uint64
// RPCGasCap is the global gas cap for eth-call variants.
RPCGasCap *big.Int `toml:",omitempty"`
ShardID uint32
// Gas price suggestion oracle
gpo *Oracle
// Internals
eventMux *event.TypeMux
chainDb ethdb.Database // Block chain database
// group for units of work which can be executed with duplicate suppression.
group singleflight.Group
// leaderCache to save on recomputation every epoch.
leaderCache *lru.Cache
// undelegationPayoutsCache to save on recomputation every epoch
undelegationPayoutsCache *lru.Cache
// preStakingBlockRewardsCache to save on recomputation for commonly checked blocks in epoch < staking epoch
preStakingBlockRewardsCache *lru.Cache
// totalStakeCache to save on recomputation for `totalStakeCacheDuration` blocks.
totalStakeCache *totalStakeCache
// stakeByBlockNumberCache to save on recomputation for `totalStakeCacheDuration` blocks
stakeByBlockNumberCache *lru.Cache
}
// NodeAPI is the list of functions from node used to call rpc apis.
type NodeAPI interface {
AddPendingStakingTransaction(*staking.StakingTransaction) error
AddPendingTransaction(newTx *types.Transaction) error
Blockchain() core.BlockChain
Beaconchain() core.BlockChain
GetTransactionsHistory(address, txType, order string) ([]common.Hash, error)
GetStakingTransactionsHistory(address, txType, order string) ([]common.Hash, error)
GetTransactionsCount(address, txType string) (uint64, error)
GetStakingTransactionsCount(address, txType string) (uint64, error)
GetTraceResultByHash(hash common.Hash) (json.RawMessage, error)
IsCurrentlyLeader() bool
IsOutOfSync(shardID uint32) bool
SyncStatus(shardID uint32) (bool, uint64, uint64)
SyncPeers() map[string]int
ReportStakingErrorSink() types.TransactionErrorReports
ReportPlainErrorSink() types.TransactionErrorReports
PendingCXReceipts() []*types.CXReceiptsProof
GetNodeBootTime() int64
PeerConnectivity() (int, int, int)
ListPeer(topic string) []peer.ID
ListTopic() []string
ListBlockedPeer() []peer.ID
GetConsensusInternal() commonRPC.ConsensusInternal
IsBackup() bool
SetNodeBackupMode(isBackup bool) bool
// debug API
GetConsensusMode() string
GetConsensusPhase() string
GetConsensusViewChangingID() uint64
GetConsensusCurViewID() uint64
GetConfig() commonRPC.Config
ShutDown()
GetLastSigningPower() (float64, error)
GetLastSigningPower2() (float64, error)
}
// New creates a new Harmony object (including the
// initialisation of the common Harmony object)
func New(
nodeAPI NodeAPI, txPool *core.TxPool, cxPool *core.CxPool, shardID uint32,
) *Harmony {
leaderCache, _ := lru.New(leaderCacheSize)
undelegationPayoutsCache, _ := lru.New(undelegationPayoutsCacheSize)
stakeByBlockNumberCache, _ := lru.New(stakeByBlockNumberCacheSize)
preStakingBlockRewardsCache, _ := lru.New(preStakingBlockRewardsCacheSize)
totalStakeCache := newTotalStakeCache(totalStakeCacheDuration)
bloomIndexer := NewBloomIndexer(nodeAPI.Blockchain(), params.BloomBitsBlocks, params.BloomConfirms)
bloomIndexer.Start(nodeAPI.Blockchain())
backend := &Harmony{
ShutdownChan: make(chan bool),
BloomRequests: make(chan chan *bloombits.Retrieval),
BloomIndexer: bloomIndexer,
BlockChain: nodeAPI.Blockchain(),
BeaconChain: nodeAPI.Beaconchain(),
TxPool: txPool,
CxPool: cxPool,
eventMux: new(event.TypeMux),
chainDb: nodeAPI.Blockchain().ChainDb(),
NodeAPI: nodeAPI,
ChainID: nodeAPI.Blockchain().Config().ChainID.Uint64(),
EthChainID: nodeAPI.Blockchain().Config().EthCompatibleChainID.Uint64(),
ShardID: shardID,
leaderCache: leaderCache,
totalStakeCache: totalStakeCache,
undelegationPayoutsCache: undelegationPayoutsCache,
preStakingBlockRewardsCache: preStakingBlockRewardsCache,
stakeByBlockNumberCache: stakeByBlockNumberCache,
}
// Setup gas price oracle
config := nodeAPI.GetConfig().HarmonyConfig.GPO
gpo := NewOracle(backend, &config)
backend.gpo = gpo
return backend
}
// SingleFlightRequest ..
func (hmy *Harmony) SingleFlightRequest(
key string,
fn func() (interface{}, error),
) (interface{}, error) {
res, err, _ := hmy.group.Do(key, fn)
return res, err
}
// SingleFlightForgetKey ...
func (hmy *Harmony) SingleFlightForgetKey(key string) {
hmy.group.Forget(key)
}
// ProtocolVersion ...
func (hmy *Harmony) ProtocolVersion() int {
return proto.ProtocolVersion
}
// IsLeader exposes if node is currently leader.
func (hmy *Harmony) IsLeader() bool {
return hmy.NodeAPI.IsCurrentlyLeader()
}
// GetNodeMetadata returns the node metadata.
func (hmy *Harmony) GetNodeMetadata() commonRPC.NodeMetadata {
var (
header = hmy.CurrentHeader()
cfg = nodeconfig.GetShardConfig(header.ShardID())
blockEpoch *uint64
blsKeys []string
c = commonRPC.C{}
)
if header.ShardID() == shard.BeaconChainShardID {
sched := shard.Schedule.InstanceForEpoch(header.Epoch())
b := sched.BlocksPerEpoch()
blockEpoch = &b
}
if cfg.ConsensusPriKey != nil {
for _, key := range cfg.ConsensusPriKey {
blsKeys = append(blsKeys, key.Pub.Bytes.Hex())
}
}
c.TotalKnownPeers, c.Connected, c.NotConnected = hmy.NodeAPI.PeerConnectivity()
syncPeers := hmy.NodeAPI.SyncPeers()
consensusInternal := hmy.NodeAPI.GetConsensusInternal()
return commonRPC.NodeMetadata{
BLSPublicKey: blsKeys,
Version: nodeconfig.GetVersion(),
NetworkType: string(cfg.GetNetworkType()),
ChainConfig: *hmy.ChainConfig(),
IsLeader: hmy.IsLeader(),
ShardID: hmy.ShardID,
CurrentBlockNum: header.Number().Uint64(),
CurrentEpoch: header.Epoch().Uint64(),
BlocksPerEpoch: blockEpoch,
Role: cfg.Role().String(),
DNSZone: cfg.DNSZone,
Archival: cfg.GetArchival(),
IsBackup: hmy.NodeAPI.IsBackup(),
NodeBootTime: hmy.NodeAPI.GetNodeBootTime(),
PeerID: nodeconfig.GetPeerID(),
Consensus: consensusInternal,
C: c,
SyncPeers: syncPeers,
}
}
// GetEVM returns a new EVM entity
func (hmy *Harmony) GetEVM(ctx context.Context, msg core.Message, state *state.DB, header *block.Header) (*vm.EVM, error) {
state.SetBalance(msg.From(), math.MaxBig256)
vmCtx := core.NewEVMContext(msg, header, hmy.BlockChain, nil)
return vm.NewEVM(vmCtx, state, hmy.BlockChain.Config(), *hmy.BlockChain.GetVMConfig()), nil
}
// ChainDb ..
func (hmy *Harmony) ChainDb() ethdb.Database {
return hmy.chainDb
}
// EventMux ..
func (hmy *Harmony) EventMux() *event.TypeMux {
return hmy.eventMux
}
// BloomStatus ...
// TODO: this is not implemented or verified yet for harmony.
func (hmy *Harmony) BloomStatus() (uint64, uint64) {
sections, _, _ := hmy.BloomIndexer.Sections()
return BloomBitsBlocks, sections
}