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// Copyright 2018 The dexon-consensus Authors
// This file is part of the dexon-consensus library.
//
// The dexon-consensus library is free software: you can redistribute it
// and/or modify it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation, either version 3 of the License,
// or (at your option) any later version.
//
// The dexon-consensus library is distributed in the hope that it will be
// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser
// General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the dexon-consensus library. If not, see
// <http://www.gnu.org/licenses/>.
package dex
import (
"fmt"
"math/big"
"sync"
"time"
coreCommon "github.com/dexon-foundation/dexon-consensus/common"
coreTypes "github.com/dexon-foundation/dexon-consensus/core/types"
"github.com/dexon-foundation/dexon/common"
"github.com/dexon-foundation/dexon/core"
"github.com/dexon-foundation/dexon/core/types"
"github.com/dexon-foundation/dexon/ethdb"
"github.com/dexon-foundation/dexon/log"
"github.com/dexon-foundation/dexon/rlp"
)
const (
verifyBlockMaxRetries = 4
)
// DexconApp implements the DEXON consensus core application interface.
type DexconApp struct {
txPool *core.TxPool
blockchain *core.BlockChain
gov *DexconGovernance
chainDB ethdb.Database
config *Config
chainLocksInitMu sync.Mutex
chainLocks map[uint32]*sync.RWMutex
chainLatestRoot sync.Map
}
type witnessData struct {
Root common.Hash
TxHash common.Hash
ReceiptHash common.Hash
}
func NewDexconApp(txPool *core.TxPool, blockchain *core.BlockChain, gov *DexconGovernance,
chainDB ethdb.Database, config *Config) *DexconApp {
return &DexconApp{
txPool: txPool,
blockchain: blockchain,
gov: gov,
chainDB: chainDB,
config: config,
chainLocks: make(map[uint32]*sync.RWMutex),
}
}
func (d *DexconApp) addrBelongsToChain(address common.Address, chainSize, chainID *big.Int) bool {
return new(big.Int).Mod(address.Big(), chainSize).Cmp(chainID) == 0
}
func (d *DexconApp) chainLockInit(chainID uint32) {
d.chainLocksInitMu.Lock()
defer d.chainLocksInitMu.Unlock()
_, exist := d.chainLocks[chainID]
if !exist {
d.chainLocks[chainID] = &sync.RWMutex{}
}
}
func (d *DexconApp) chainLock(chainID uint32) {
d.chainLockInit(chainID)
d.chainLocks[chainID].Lock()
}
func (d *DexconApp) chainUnlock(chainID uint32) {
d.chainLocks[chainID].Unlock()
}
func (d *DexconApp) chainRLock(chainID uint32) {
d.chainLockInit(chainID)
d.chainLocks[chainID].RLock()
}
func (d *DexconApp) chainRUnlock(chainID uint32) {
d.chainLocks[chainID].RUnlock()
}
// validateNonce check if nonce is in order and return first nonce of every address.
func (d *DexconApp) validateNonce(txs types.Transactions) (map[common.Address]uint64, error) {
addressFirstNonce := map[common.Address]uint64{}
addressNonce := map[common.Address]uint64{}
for _, tx := range txs {
msg, err := tx.AsMessage(types.MakeSigner(d.blockchain.Config(), new(big.Int)))
if err != nil {
return nil, err
}
if _, exist := addressFirstNonce[msg.From()]; exist {
if addressNonce[msg.From()]+1 != msg.Nonce() {
return nil, fmt.Errorf("address nonce check error: expect %v actual %v",
addressNonce[msg.From()]+1, msg.Nonce())
}
addressNonce[msg.From()] = msg.Nonce()
} else {
addressNonce[msg.From()] = msg.Nonce()
addressFirstNonce[msg.From()] = msg.Nonce()
}
}
return addressFirstNonce, nil
}
// PreparePayload is called when consensus core is preparing payload for block.
func (d *DexconApp) PreparePayload(position coreTypes.Position) (payload []byte, err error) {
d.chainRLock(position.ChainID)
defer d.chainRUnlock(position.ChainID)
if position.Height != 0 {
// Check if chain block height is strictly increamental.
chainLastHeight := d.blockchain.GetChainLastConfirmedHeight(position.ChainID)
if chainLastHeight != position.Height-1 {
log.Error("Check confirmed block height fail",
"chain", position.ChainID, "height", position.Height-1, "cache height", chainLastHeight)
return nil, fmt.Errorf("check confirmed block height fail")
}
}
var root *common.Hash
value, ok := d.chainLatestRoot.Load(position.ChainID)
if ok {
root = value.(*common.Hash)
} else {
currentRoot := d.blockchain.CurrentBlock().Root()
root = ¤tRoot
}
// Set state to the chain latest height.
latestState, err := d.blockchain.StateAt(*root)
if err != nil {
log.Error("Get pending state", "error", err)
return nil, fmt.Errorf("get pending state error: %v", err)
}
txsMap, err := d.txPool.Pending()
if err != nil {
return
}
chainID := new(big.Int).SetUint64(uint64(position.ChainID))
chainNums := new(big.Int).SetUint64(uint64(d.gov.GetNumChains(position.Round)))
blockGasLimit := new(big.Int).SetUint64(d.blockchain.CurrentBlock().GasLimit())
blockGasUsed := new(big.Int)
allTxs := make([]*types.Transaction, 0, 3000)
addressMap:
for address, txs := range txsMap {
// TX hash need to be slot to the given chain in order to be included in the block.
if !d.addrBelongsToChain(address, chainNums, chainID) {
continue
}
balance := latestState.GetBalance(address)
cost, exist := d.blockchain.GetCostInConfirmedBlocks(position.ChainID, address)
if exist {
balance = new(big.Int).Sub(balance, cost)
}
var expectNonce uint64
lastConfirmedNonce, exist := d.blockchain.GetLastNonceInConfirmedBlocks(position.ChainID, address)
if !exist {
expectNonce = latestState.GetNonce(address)
} else {
expectNonce = lastConfirmedNonce + 1
}
if len(txs) == 0 {
continue
}
firstNonce := txs[0].Nonce()
startIndex := int(expectNonce - firstNonce)
for i := startIndex; i < len(txs); i++ {
tx := txs[i]
intrGas, err := core.IntrinsicGas(tx.Data(), tx.To() == nil, true)
if err != nil {
log.Error("Failed to calculate intrinsic gas", "error", err)
return nil, fmt.Errorf("calculate intrinsic gas error: %v", err)
}
if tx.Gas() < intrGas {
log.Error("Intrinsic gas too low", "txHash", tx.Hash().String())
break
}
balance = new(big.Int).Sub(balance, tx.Cost())
if balance.Cmp(big.NewInt(0)) < 0 {
log.Warn("Insufficient funds for gas * price + value", "txHash", tx.Hash().String())
break
}
blockGasUsed = new(big.Int).Add(blockGasUsed, big.NewInt(int64(tx.Gas())))
if blockGasUsed.Cmp(blockGasLimit) > 0 {
break addressMap
}
allTxs = append(allTxs, tx)
}
}
return rlp.EncodeToBytes(&allTxs)
}
// PrepareWitness will return the witness data no lower than consensusHeight.
func (d *DexconApp) PrepareWitness(consensusHeight uint64) (witness coreTypes.Witness, err error) {
var witnessBlock *types.Block
lastPendingHeight := d.blockchain.GetPendingHeight()
if lastPendingHeight == 0 && consensusHeight == 0 {
witnessBlock = d.blockchain.CurrentBlock()
} else if lastPendingHeight >= consensusHeight {
witnessBlock = d.blockchain.PendingBlock()
} else {
log.Error("last pending height too low", "lastPendingHeight", lastPendingHeight,
"consensusHeight", consensusHeight)
return witness, fmt.Errorf("last pending height < consensus height")
}
witnessData, err := rlp.EncodeToBytes(&witnessData{
Root: witnessBlock.Root(),
TxHash: witnessBlock.TxHash(),
ReceiptHash: witnessBlock.ReceiptHash(),
})
if err != nil {
return
}
return coreTypes.Witness{
Height: witnessBlock.NumberU64(),
Data: witnessData,
}, nil
}
// VerifyBlock verifies if the payloads are valid.
func (d *DexconApp) VerifyBlock(block *coreTypes.Block) coreTypes.BlockVerifyStatus {
var witnessData witnessData
err := rlp.DecodeBytes(block.Witness.Data, &witnessData)
if err != nil {
log.Error("failed to RLP decode witness data", "error", err)
return coreTypes.VerifyInvalidBlock
}
// Wait until the witnessed root is seen on our local chain.
for i := 0; i < verifyBlockMaxRetries; i++ {
if d.blockchain.GetPendingHeight() < block.Witness.Height {
log.Debug("Pending height < witness height")
time.Sleep(500 * time.Millisecond)
continue
}
b := d.blockchain.GetPendingBlockByNumber(block.Witness.Height)
if b == nil {
b = d.blockchain.GetBlockByNumber(block.Witness.Height)
if b == nil {
log.Error("Can not get block by height %v", block.Witness.Height)
return coreTypes.VerifyInvalidBlock
}
}
if b.Root() != witnessData.Root {
log.Error("Witness root not correct expect %v but %v", b.Root(), witnessData.Root)
return coreTypes.VerifyInvalidBlock
}
if b.ReceiptHash() != witnessData.ReceiptHash {
log.Error("Witness receipt hash not correct expect %v but %v", b.ReceiptHash(), witnessData.ReceiptHash)
return coreTypes.VerifyInvalidBlock
}
_, err = d.blockchain.StateAt(witnessData.Root)
if err != nil {
log.Error("Get state by root %v error: %v", witnessData.Root, err)
return coreTypes.VerifyInvalidBlock
}
break
}
d.chainRLock(block.Position.ChainID)
defer d.chainRUnlock(block.Position.ChainID)
if block.Position.Height != 0 {
// Check if target block is the next height to be verified, we can only
// verify the next block in a given chain.
chainLastHeight := d.blockchain.GetChainLastConfirmedHeight(block.Position.ChainID)
if chainLastHeight != block.Position.Height-1 {
log.Error("Check confirmed block height fail", "chain", block.Position.ChainID,
"height", block.Position.Height-1, "cache height", chainLastHeight)
return coreTypes.VerifyRetryLater
}
}
// Find the latest state for the given block height.
var root *common.Hash
value, ok := d.chainLatestRoot.Load(block.Position.ChainID)
if ok {
root = value.(*common.Hash)
} else {
currentRoot := d.blockchain.CurrentBlock().Root()
root = ¤tRoot
}
latestState, err := d.blockchain.StateAt(*root)
if err != nil {
log.Error("Failed to get pending state", "error", err)
return coreTypes.VerifyInvalidBlock
}
var transactions types.Transactions
err = rlp.DecodeBytes(block.Payload, &transactions)
if err != nil {
log.Error("Payload rlp decode", "error", err)
return coreTypes.VerifyInvalidBlock
}
_, err = types.GlobalSigCache.Add(types.NewEIP155Signer(d.blockchain.Config().ChainID), transactions)
if err != nil {
log.Error("Failed to calculate sender", "error", err)
return coreTypes.VerifyInvalidBlock
}
addressNonce, err := d.validateNonce(transactions)
if err != nil {
log.Error("Validate nonce failed", "error", err)
return coreTypes.VerifyInvalidBlock
}
// Check if nonce is strictly increasing for every address.
chainID := big.NewInt(int64(block.Position.ChainID))
chainNums := big.NewInt(int64(d.gov.GetNumChains(block.Position.Round)))
for address, firstNonce := range addressNonce {
if !d.addrBelongsToChain(address, chainNums, chainID) {
log.Error("Address does not belong to given chain ID", "address", address, "chainD", chainID)
return coreTypes.VerifyInvalidBlock
}
var expectNonce uint64
lastConfirmedNonce, exist := d.blockchain.GetLastNonceInConfirmedBlocks(block.Position.ChainID, address)
if exist {
expectNonce = lastConfirmedNonce + 1
} else {
expectNonce = latestState.GetNonce(address)
}
if expectNonce != firstNonce {
log.Error("Nonce check error", "expect", expectNonce, "firstNonce", firstNonce)
return coreTypes.VerifyInvalidBlock
}
}
// Calculate balance in last state (including pending state).
addressesBalance := map[common.Address]*big.Int{}
for address := range addressNonce {
cost, exist := d.blockchain.GetCostInConfirmedBlocks(block.Position.ChainID, address)
if exist {
addressesBalance[address] = new(big.Int).Sub(latestState.GetBalance(address), cost)
} else {
addressesBalance[address] = latestState.GetBalance(address)
}
}
// Validate if balance is enough for TXs in this block.
blockGasLimit := new(big.Int).SetUint64(d.blockchain.CurrentBlock().GasLimit())
blockGasUsed := new(big.Int)
for _, tx := range transactions {
msg, err := tx.AsMessage(types.MakeSigner(d.blockchain.Config(), new(big.Int)))
if err != nil {
log.Error("Failed to convert tx to message", "error", err)
return coreTypes.VerifyInvalidBlock
}
balance := addressesBalance[msg.From()]
intrGas, err := core.IntrinsicGas(msg.Data(), msg.To() == nil, true)
if err != nil {
log.Error("Failed to calculate intrinsic gas", "err", err)
return coreTypes.VerifyInvalidBlock
}
if tx.Gas() < intrGas {
log.Error("Intrinsic gas too low", "txHash", tx.Hash().String(), "intrinsic", intrGas, "gas", tx.Gas())
return coreTypes.VerifyInvalidBlock
}
balance = new(big.Int).Sub(balance, tx.Cost())
if balance.Cmp(big.NewInt(0)) < 0 {
log.Error("Insufficient funds for gas * price + value", "txHash", tx.Hash().String())
return coreTypes.VerifyInvalidBlock
}
blockGasUsed = new(big.Int).Add(blockGasUsed, new(big.Int).SetUint64(tx.Gas()))
if blockGasUsed.Cmp(blockGasLimit) > 0 {
log.Error("Reach block gas limit", "gasUsed", blockGasUsed)
return coreTypes.VerifyInvalidBlock
}
addressesBalance[msg.From()] = balance
}
return coreTypes.VerifyOK
}
// BlockDelivered is called when a block is add to the compaction chain.
func (d *DexconApp) BlockDelivered(
blockHash coreCommon.Hash,
blockPosition coreTypes.Position,
result coreTypes.FinalizationResult) {
chainID := blockPosition.ChainID
d.chainLock(chainID)
defer d.chainUnlock(chainID)
block, txs := d.blockchain.GetConfirmedBlockByHash(chainID, blockHash)
if block == nil {
panic("Can not get confirmed block")
}
block.Payload = nil
dexconMeta, err := rlp.EncodeToBytes(block)
if err != nil {
panic(err)
}
newBlock := types.NewBlock(&types.Header{
Number: new(big.Int).SetUint64(result.Height),
Time: big.NewInt(result.Timestamp.UnixNano() / 1000000),
Coinbase: common.BytesToAddress(block.ProposerID.Bytes()),
GasLimit: d.gov.DexconConfiguration(block.Position.Round).BlockGasLimit,
Difficulty: big.NewInt(1),
Round: block.Position.Round,
DexconMeta: dexconMeta,
Randomness: result.Randomness,
}, txs, nil, nil)
root, err := d.blockchain.ProcessPendingBlock(newBlock, &block.Witness)
if err != nil {
log.Error("Failed to process pending block", "error", err)
panic(err)
}
d.chainLatestRoot.Store(block.Position.ChainID, root)
d.blockchain.RemoveConfirmedBlock(chainID, blockHash)
}
// BlockConfirmed is called when a block is confirmed and added to lattice.
func (d *DexconApp) BlockConfirmed(block coreTypes.Block) {
d.chainLock(block.Position.ChainID)
defer d.chainUnlock(block.Position.ChainID)
if err := d.blockchain.AddConfirmedBlock(&block); err != nil {
panic(err)
}
}
|