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path: root/core/blockchain.go
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// Copyright 2014 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum 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 go-ethereum 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 go-ethereum library. If not, see <http://www.gnu.org/licenses/>.

// Package core implements the Ethereum consensus protocol.
package core

import (
    "errors"
    "fmt"
    "io"
    "math/big"
    mrand "math/rand"
    "sync"
    "sync/atomic"
    "time"

    "github.com/ethereum/go-ethereum/common"
    "github.com/ethereum/go-ethereum/common/mclock"
    "github.com/ethereum/go-ethereum/consensus"
    "github.com/ethereum/go-ethereum/core/state"
    "github.com/ethereum/go-ethereum/core/types"
    "github.com/ethereum/go-ethereum/core/vm"
    "github.com/ethereum/go-ethereum/crypto"
    "github.com/ethereum/go-ethereum/ethdb"
    "github.com/ethereum/go-ethereum/event"
    "github.com/ethereum/go-ethereum/log"
    "github.com/ethereum/go-ethereum/metrics"
    "github.com/ethereum/go-ethereum/params"
    "github.com/ethereum/go-ethereum/rlp"
    "github.com/ethereum/go-ethereum/trie"
    "github.com/hashicorp/golang-lru"
)

var (
    blockInsertTimer = metrics.NewTimer("chain/inserts")

    ErrNoGenesis = errors.New("Genesis not found in chain")
)

const (
    bodyCacheLimit      = 256
    blockCacheLimit     = 256
    maxFutureBlocks     = 256
    maxTimeFutureBlocks = 30
    badBlockLimit       = 10

    // BlockChainVersion ensures that an incompatible database forces a resync from scratch.
    BlockChainVersion = 3
)

// BlockChain represents the canonical chain given a database with a genesis
// block. The Blockchain manages chain imports, reverts, chain reorganisations.
//
// Importing blocks in to the block chain happens according to the set of rules
// defined by the two stage Validator. Processing of blocks is done using the
// Processor which processes the included transaction. The validation of the state
// is done in the second part of the Validator. Failing results in aborting of
// the import.
//
// The BlockChain also helps in returning blocks from **any** chain included
// in the database as well as blocks that represents the canonical chain. It's
// important to note that GetBlock can return any block and does not need to be
// included in the canonical one where as GetBlockByNumber always represents the
// canonical chain.
type BlockChain struct {
    config *params.ChainConfig // chain & network configuration

    hc            *HeaderChain
    chainDb       ethdb.Database
    rmLogsFeed    event.Feed
    chainFeed     event.Feed
    chainSideFeed event.Feed
    chainHeadFeed event.Feed
    logsFeed      event.Feed
    scope         event.SubscriptionScope
    genesisBlock  *types.Block

    mu      sync.RWMutex // global mutex for locking chain operations
    chainmu sync.RWMutex // blockchain insertion lock
    procmu  sync.RWMutex // block processor lock

    checkpoint       int          // checkpoint counts towards the new checkpoint
    currentBlock     *types.Block // Current head of the block chain
    currentFastBlock *types.Block // Current head of the fast-sync chain (may be above the block chain!)

    stateCache   state.Database // State database to reuse between imports (contains state cache)
    bodyCache    *lru.Cache     // Cache for the most recent block bodies
    bodyRLPCache *lru.Cache     // Cache for the most recent block bodies in RLP encoded format
    blockCache   *lru.Cache     // Cache for the most recent entire blocks
    futureBlocks *lru.Cache     // future blocks are blocks added for later processing

    quit    chan struct{} // blockchain quit channel
    running int32         // running must be called atomically
    // procInterrupt must be atomically called
    procInterrupt int32          // interrupt signaler for block processing
    wg            sync.WaitGroup // chain processing wait group for shutting down

    engine    consensus.Engine
    processor Processor // block processor interface
    validator Validator // block and state validator interface
    vmConfig  vm.Config

    badBlocks *lru.Cache // Bad block cache
}

// NewBlockChain returns a fully initialised block chain using information
// available in the database. It initialises the default Ethereum Validator and
// Processor.
func NewBlockChain(chainDb ethdb.Database, config *params.ChainConfig, engine consensus.Engine, vmConfig vm.Config) (*BlockChain, error) {
    bodyCache, _ := lru.New(bodyCacheLimit)
    bodyRLPCache, _ := lru.New(bodyCacheLimit)
    blockCache, _ := lru.New(blockCacheLimit)
    futureBlocks, _ := lru.New(maxFutureBlocks)
    badBlocks, _ := lru.New(badBlockLimit)

    bc := &BlockChain{
        config:       config,
        chainDb:      chainDb,
        stateCache:   state.NewDatabase(chainDb),
        quit:         make(chan struct{}),
        bodyCache:    bodyCache,
        bodyRLPCache: bodyRLPCache,
        blockCache:   blockCache,
        futureBlocks: futureBlocks,
        engine:       engine,
        vmConfig:     vmConfig,
        badBlocks:    badBlocks,
    }
    bc.SetValidator(NewBlockValidator(config, bc, engine))
    bc.SetProcessor(NewStateProcessor(config, bc, engine))

    var err error
    bc.hc, err = NewHeaderChain(chainDb, config, engine, bc.getProcInterrupt)
    if err != nil {
        return nil, err
    }
    bc.genesisBlock = bc.GetBlockByNumber(0)
    if bc.genesisBlock == nil {
        return nil, ErrNoGenesis
    }
    if err := bc.loadLastState(); err != nil {
        return nil, err
    }
    // Check the current state of the block hashes and make sure that we do not have any of the bad blocks in our chain
    for hash := range BadHashes {
        if header := bc.GetHeaderByHash(hash); header != nil {
            // get the canonical block corresponding to the offending header's number
            headerByNumber := bc.GetHeaderByNumber(header.Number.Uint64())
            // make sure the headerByNumber (if present) is in our current canonical chain
            if headerByNumber != nil && headerByNumber.Hash() == header.Hash() {
                log.Error("Found bad hash, rewinding chain", "number", header.Number, "hash", header.ParentHash)
                bc.SetHead(header.Number.Uint64() - 1)
                log.Error("Chain rewind was successful, resuming normal operation")
            }
        }
    }
    // Take ownership of this particular state
    go bc.update()
    return bc, nil
}

func (bc *BlockChain) getProcInterrupt() bool {
    return atomic.LoadInt32(&bc.procInterrupt) == 1
}

// loadLastState loads the last known chain state from the database. This method
// assumes that the chain manager mutex is held.
func (bc *BlockChain) loadLastState() error {
    // Restore the last known head block
    head := GetHeadBlockHash(bc.chainDb)
    if head == (common.Hash{}) {
        // Corrupt or empty database, init from scratch
        log.Warn("Empty database, resetting chain")
        return bc.Reset()
    }
    // Make sure the entire head block is available
    currentBlock := bc.GetBlockByHash(head)
    if currentBlock == nil {
        // Corrupt or empty database, init from scratch
        log.Warn("Head block missing, resetting chain", "hash", head)
        return bc.Reset()
    }
    // Make sure the state associated with the block is available
    if _, err := state.New(currentBlock.Root(), bc.stateCache); err != nil {
        // Dangling block without a state associated, init from scratch
        log.Warn("Head state missing, resetting chain", "number", currentBlock.Number(), "hash", currentBlock.Hash())
        return bc.Reset()
    }
    // Everything seems to be fine, set as the head block
    bc.currentBlock = currentBlock

    // Restore the last known head header
    currentHeader := bc.currentBlock.Header()
    if head := GetHeadHeaderHash(bc.chainDb); head != (common.Hash{}) {
        if header := bc.GetHeaderByHash(head); header != nil {
            currentHeader = header
        }
    }
    bc.hc.SetCurrentHeader(currentHeader)

    // Restore the last known head fast block
    bc.currentFastBlock = bc.currentBlock
    if head := GetHeadFastBlockHash(bc.chainDb); head != (common.Hash{}) {
        if block := bc.GetBlockByHash(head); block != nil {
            bc.currentFastBlock = block
        }
    }

    // Issue a status log for the user
    headerTd := bc.GetTd(currentHeader.Hash(), currentHeader.Number.Uint64())
    blockTd := bc.GetTd(bc.currentBlock.Hash(), bc.currentBlock.NumberU64())
    fastTd := bc.GetTd(bc.currentFastBlock.Hash(), bc.currentFastBlock.NumberU64())

    log.Info("Loaded most recent local header", "number", currentHeader.Number, "hash", currentHeader.Hash(), "td", headerTd)
    log.Info("Loaded most recent local full block", "number", bc.currentBlock.Number(), "hash", bc.currentBlock.Hash(), "td", blockTd)
    log.Info("Loaded most recent local fast block", "number", bc.currentFastBlock.Number(), "hash", bc.currentFastBlock.Hash(), "td", fastTd)

    return nil
}

// SetHead rewinds the local chain to a new head. In the case of headers, everything
// above the new head will be deleted and the new one set. In the case of blocks
// though, the head may be further rewound if block bodies are missing (non-archive
// nodes after a fast sync).
func (bc *BlockChain) SetHead(head uint64) error {
    log.Warn("Rewinding blockchain", "target", head)

    bc.mu.Lock()
    defer bc.mu.Unlock()

    // Rewind the header chain, deleting all block bodies until then
    delFn := func(hash common.Hash, num uint64) {
        DeleteBody(bc.chainDb, hash, num)
    }
    bc.hc.SetHead(head, delFn)
    currentHeader := bc.hc.CurrentHeader()

    // Clear out any stale content from the caches
    bc.bodyCache.Purge()
    bc.bodyRLPCache.Purge()
    bc.blockCache.Purge()
    bc.futureBlocks.Purge()

    // Rewind the block chain, ensuring we don't end up with a stateless head block
    if bc.currentBlock != nil && currentHeader.Number.Uint64() < bc.currentBlock.NumberU64() {
        bc.currentBlock = bc.GetBlock(currentHeader.Hash(), currentHeader.Number.Uint64())
    }
    if bc.currentBlock != nil {
        if _, err := state.New(bc.currentBlock.Root(), bc.stateCache); err != nil {
            // Rewound state missing, rolled back to before pivot, reset to genesis
            bc.currentBlock = nil
        }
    }
    // Rewind the fast block in a simpleton way to the target head
    if bc.currentFastBlock != nil && currentHeader.Number.Uint64() < bc.currentFastBlock.NumberU64() {
        bc.currentFastBlock = bc.GetBlock(currentHeader.Hash(), currentHeader.Number.Uint64())
    }
    // If either blocks reached nil, reset to the genesis state
    if bc.currentBlock == nil {
        bc.currentBlock = bc.genesisBlock
    }
    if bc.currentFastBlock == nil {
        bc.currentFastBlock = bc.genesisBlock
    }
    if err := WriteHeadBlockHash(bc.chainDb, bc.currentBlock.Hash()); err != nil {
        log.Crit("Failed to reset head full block", "err", err)
    }
    if err := WriteHeadFastBlockHash(bc.chainDb, bc.currentFastBlock.Hash()); err != nil {
        log.Crit("Failed to reset head fast block", "err", err)
    }
    return bc.loadLastState()
}

// FastSyncCommitHead sets the current head block to the one defined by the hash
// irrelevant what the chain contents were prior.
func (bc *BlockChain) FastSyncCommitHead(hash common.Hash) error {
    // Make sure that both the block as well at its state trie exists
    block := bc.GetBlockByHash(hash)
    if block == nil {
        return fmt.Errorf("non existent block [%x…]", hash[:4])
    }
    if _, err := trie.NewSecure(block.Root(), bc.chainDb, 0); err != nil {
        return err
    }
    // If all checks out, manually set the head block
    bc.mu.Lock()
    bc.currentBlock = block
    bc.mu.Unlock()

    log.Info("Committed new head block", "number", block.Number(), "hash", hash)
    return nil
}

// GasLimit returns the gas limit of the current HEAD block.
func (bc *BlockChain) GasLimit() *big.Int {
    bc.mu.RLock()
    defer bc.mu.RUnlock()

    return bc.currentBlock.GasLimit()
}

// LastBlockHash return the hash of the HEAD block.
func (bc *BlockChain) LastBlockHash() common.Hash {
    bc.mu.RLock()
    defer bc.mu.RUnlock()

    return bc.currentBlock.Hash()
}

// CurrentBlock retrieves the current head block of the canonical chain. The
// block is retrieved from the blockchain's internal cache.
func (bc *BlockChain) CurrentBlock() *types.Block {
    bc.mu.RLock()
    defer bc.mu.RUnlock()

    return bc.currentBlock
}

// CurrentFastBlock retrieves the current fast-sync head block of the canonical
// chain. The block is retrieved from the blockchain's internal cache.
func (bc *BlockChain) CurrentFastBlock() *types.Block {
    bc.mu.RLock()
    defer bc.mu.RUnlock()

    return bc.currentFastBlock
}

// Status returns status information about the current chain such as the HEAD Td,
// the HEAD hash and the hash of the genesis block.
func (bc *BlockChain) Status() (td *big.Int, currentBlock common.Hash, genesisBlock common.Hash) {
    bc.mu.RLock()
    defer bc.mu.RUnlock()

    return bc.GetTd(bc.currentBlock.Hash(), bc.currentBlock.NumberU64()), bc.currentBlock.Hash(), bc.genesisBlock.Hash()
}

// SetProcessor sets the processor required for making state modifications.
func (bc *BlockChain) SetProcessor(processor Processor) {
    bc.procmu.Lock()
    defer bc.procmu.Unlock()
    bc.processor = processor
}

// SetValidator sets the validator which is used to validate incoming blocks.
func (bc *BlockChain) SetValidator(validator Validator) {
    bc.procmu.Lock()
    defer bc.procmu.Unlock()
    bc.validator = validator
}

// Validator returns the current validator.
func (bc *BlockChain) Validator() Validator {
    bc.procmu.RLock()
    defer bc.procmu.RUnlock()
    return bc.validator
}

// Processor returns the current processor.
func (bc *BlockChain) Processor() Processor {
    bc.procmu.RLock()
    defer bc.procmu.RUnlock()
    return bc.processor
}

// State returns a new mutable state based on the current HEAD block.
func (bc *BlockChain) State() (*state.StateDB, error) {
    return bc.StateAt(bc.CurrentBlock().Root())
}

// StateAt returns a new mutable state based on a particular point in time.
func (bc *BlockChain) StateAt(root common.Hash) (*state.StateDB, error) {
    return state.New(root, bc.stateCache)
}

// Reset purges the entire blockchain, restoring it to its genesis state.
func (bc *BlockChain) Reset() error {
    return bc.ResetWithGenesisBlock(bc.genesisBlock)
}

// ResetWithGenesisBlock purges the entire blockchain, restoring it to the
// specified genesis state.
func (bc *BlockChain) ResetWithGenesisBlock(genesis *types.Block) error {
    // Dump the entire block chain and purge the caches
    if err := bc.SetHead(0); err != nil {
        return err
    }
    bc.mu.Lock()
    defer bc.mu.Unlock()

    // Prepare the genesis block and reinitialise the chain
    if err := bc.hc.WriteTd(genesis.Hash(), genesis.NumberU64(), genesis.Difficulty()); err != nil {
        log.Crit("Failed to write genesis block TD", "err", err)
    }
    if err := WriteBlock(bc.chainDb, genesis); err != nil {
        log.Crit("Failed to write genesis block", "err", err)
    }
    bc.genesisBlock = genesis
    bc.insert(bc.genesisBlock)
    bc.currentBlock = bc.genesisBlock
    bc.hc.SetGenesis(bc.genesisBlock.Header())
    bc.hc.SetCurrentHeader(bc.genesisBlock.Header())
    bc.currentFastBlock = bc.genesisBlock

    return nil
}

// Export writes the active chain to the given writer.
func (bc *BlockChain) Export(w io.Writer) error {
    return bc.ExportN(w, uint64(0), bc.currentBlock.NumberU64())
}

// ExportN writes a subset of the active chain to the given writer.
func (bc *BlockChain) ExportN(w io.Writer, first uint64, last uint64) error {
    bc.mu.RLock()
    defer bc.mu.RUnlock()

    if first > last {
        return fmt.Errorf("export failed: first (%d) is greater than last (%d)", first, last)
    }
    log.Info("Exporting batch of blocks", "count", last-first+1)

    for nr := first; nr <= last; nr++ {
        block := bc.GetBlockByNumber(nr)
        if block == nil {
            return fmt.Errorf("export failed on #%d: not found", nr)
        }

        if err := block.EncodeRLP(w); err != nil {
            return err
        }
    }

    return nil
}

// insert injects a new head block into the current block chain. This method
// assumes that the block is indeed a true head. It will also reset the head
// header and the head fast sync block to this very same block if they are older
// or if they are on a different side chain.
//
// Note, this function assumes that the `mu` mutex is held!
func (bc *BlockChain) insert(block *types.Block) {
    // If the block is on a side chain or an unknown one, force other heads onto it too
    updateHeads := GetCanonicalHash(bc.chainDb, block.NumberU64()) != block.Hash()

    // Add the block to the canonical chain number scheme and mark as the head
    if err := WriteCanonicalHash(bc.chainDb, block.Hash(), block.NumberU64()); err != nil {
        log.Crit("Failed to insert block number", "err", err)
    }
    if err := WriteHeadBlockHash(bc.chainDb, block.Hash()); err != nil {
        log.Crit("Failed to insert head block hash", "err", err)
    }
    bc.currentBlock = block

    // If the block is better than out head or is on a different chain, force update heads
    if updateHeads {
        bc.hc.SetCurrentHeader(block.Header())

        if err := WriteHeadFastBlockHash(bc.chainDb, block.Hash()); err != nil {
            log.Crit("Failed to insert head fast block hash", "err", err)
        }
        bc.currentFastBlock = block
    }
}

// Genesis retrieves the chain's genesis block.
func (bc *BlockChain) Genesis() *types.Block {
    return bc.genesisBlock
}

// GetBody retrieves a block body (transactions and uncles) from the database by
// hash, caching it if found.
func (bc *BlockChain) GetBody(hash common.Hash) *types.Body {
    // Short circuit if the body's already in the cache, retrieve otherwise
    if cached, ok := bc.bodyCache.Get(hash); ok {
        body := cached.(*types.Body)
        return body
    }
    body := GetBody(bc.chainDb, hash, bc.hc.GetBlockNumber(hash))
    if body == nil {
        return nil
    }
    // Cache the found body for next time and return
    bc.bodyCache.Add(hash, body)
    return body
}

// GetBodyRLP retrieves a block body in RLP encoding from the database by hash,
// caching it if found.
func (bc *BlockChain) GetBodyRLP(hash common.Hash) rlp.RawValue {
    // Short circuit if the body's already in the cache, retrieve otherwise
    if cached, ok := bc.bodyRLPCache.Get(hash); ok {
        return cached.(rlp.RawValue)
    }
    body := GetBodyRLP(bc.chainDb, hash, bc.hc.GetBlockNumber(hash))
    if len(body) == 0 {
        return nil
    }
    // Cache the found body for next time and return
    bc.bodyRLPCache.Add(hash, body)
    return body
}

// HasBlock checks if a block is fully present in the database or not.
func (bc *BlockChain) HasBlock(hash common.Hash, number uint64) bool {
    if bc.blockCache.Contains(hash) {
        return true
    }
    ok, _ := bc.chainDb.Has(blockBodyKey(hash, number))
    return ok
}

// HasBlockAndState checks if a block and associated state trie is fully present
// in the database or not, caching it if present.
func (bc *BlockChain) HasBlockAndState(hash common.Hash) bool {
    // Check first that the block itself is known
    block := bc.GetBlockByHash(hash)
    if block == nil {
        return false
    }
    // Ensure the associated state is also present
    _, err := bc.stateCache.OpenTrie(block.Root())
    return err == nil
}

// GetBlock retrieves a block from the database by hash and number,
// caching it if found.
func (bc *BlockChain) GetBlock(hash common.Hash, number uint64) *types.Block {
    // Short circuit if the block's already in the cache, retrieve otherwise
    if block, ok := bc.blockCache.Get(hash); ok {
        return block.(*types.Block)
    }
    block := GetBlock(bc.chainDb, hash, number)
    if block == nil {
        return nil
    }
    // Cache the found block for next time and return
    bc.blockCache.Add(block.Hash(), block)
    return block
}

// GetBlockByHash retrieves a block from the database by hash, caching it if found.
func (bc *BlockChain) GetBlockByHash(hash common.Hash) *types.Block {
    return bc.GetBlock(hash, bc.hc.GetBlockNumber(hash))
}

// GetBlockByNumber retrieves a block from the database by number, caching it
// (associated with its hash) if found.
func (bc *BlockChain) GetBlockByNumber(number uint64) *types.Block {
    hash := GetCanonicalHash(bc.chainDb, number)
    if hash == (common.Hash{}) {
        return nil
    }
    return bc.GetBlock(hash, number)
}

// GetBlocksFromHash returns the block corresponding to hash and up to n-1 ancestors.
// [deprecated by eth/62]
func (bc *BlockChain) GetBlocksFromHash(hash common.Hash, n int) (blocks []*types.Block) {
    number := bc.hc.GetBlockNumber(hash)
    for i := 0; i < n; i++ {
        block := bc.GetBlock(hash, number)
        if block == nil {
            break
        }
        blocks = append(blocks, block)
        hash = block.ParentHash()
        number--
    }
    return
}

// GetUnclesInChain retrieves all the uncles from a given block backwards until
// a specific distance is reached.
func (bc *BlockChain) GetUnclesInChain(block *types.Block, length int) []*types.Header {
    uncles := []*types.Header{}
    for i := 0; block != nil && i < length; i++ {
        uncles = append(uncles, block.Uncles()...)
        block = bc.GetBlock(block.ParentHash(), block.NumberU64()-1)
    }
    return uncles
}

// Stop stops the blockchain service. If any imports are currently in progress
// it will abort them using the procInterrupt.
func (bc *BlockChain) Stop() {
    if !atomic.CompareAndSwapInt32(&bc.running, 0, 1) {
        return
    }
    // Unsubscribe all subscriptions registered from blockchain
    bc.scope.Close()
    close(bc.quit)
    atomic.StoreInt32(&bc.procInterrupt, 1)

    bc.wg.Wait()
    log.Info("Blockchain manager stopped")
}

func (bc *BlockChain) procFutureBlocks() {
    blocks := make([]*types.Block, 0, bc.futureBlocks.Len())
    for _, hash := range bc.futureBlocks.Keys() {
        if block, exist := bc.futureBlocks.Peek(hash); exist {
            blocks = append(blocks, block.(*types.Block))
        }
    }
    if len(blocks) > 0 {
        types.BlockBy(types.Number).Sort(blocks)

        // Insert one by one as chain insertion needs contiguous ancestry between blocks
        for i := range blocks {
            bc.InsertChain(blocks[i : i+1])
        }
    }
}

// WriteStatus status of write
type WriteStatus byte

const (
    NonStatTy WriteStatus = iota
    CanonStatTy
    SideStatTy
)

// Rollback is designed to remove a chain of links from the database that aren't
// certain enough to be valid.
func (bc *BlockChain) Rollback(chain []common.Hash) {
    bc.mu.Lock()
    defer bc.mu.Unlock()

    for i := len(chain) - 1; i >= 0; i-- {
        hash := chain[i]

        currentHeader := bc.hc.CurrentHeader()
        if currentHeader.Hash() == hash {
            bc.hc.SetCurrentHeader(bc.GetHeader(currentHeader.ParentHash, currentHeader.Number.Uint64()-1))
        }
        if bc.currentFastBlock.Hash() == hash {
            bc.currentFastBlock = bc.GetBlock(bc.currentFastBlock.ParentHash(), bc.currentFastBlock.NumberU64()-1)
            WriteHeadFastBlockHash(bc.chainDb, bc.currentFastBlock.Hash())
        }
        if bc.currentBlock.Hash() == hash {
            bc.currentBlock = bc.GetBlock(bc.currentBlock.ParentHash(), bc.currentBlock.NumberU64()-1)
            WriteHeadBlockHash(bc.chainDb, bc.currentBlock.Hash())
        }
    }
}

// SetReceiptsData computes all the non-consensus fields of the receipts
func SetReceiptsData(config *params.ChainConfig, block *types.Block, receipts types.Receipts) {
    signer := types.MakeSigner(config, block.Number())

    transactions, logIndex := block.Transactions(), uint(0)

    for j := 0; j < len(receipts); j++ {
        // The transaction hash can be retrieved from the transaction itself
        receipts[j].TxHash = transactions[j].Hash()

        // The contract address can be derived from the transaction itself
        if transactions[j].To() == nil {
            // Deriving the signer is expensive, only do if it's actually needed
            from, _ := types.Sender(signer, transactions[j])
            receipts[j].ContractAddress = crypto.CreateAddress(from, transactions[j].Nonce())
        }
        // The used gas can be calculated based on previous receipts
        if j == 0 {
            receipts[j].GasUsed = new(big.Int).Set(receipts[j].CumulativeGasUsed)
        } else {
            receipts[j].GasUsed = new(big.Int).Sub(receipts[j].CumulativeGasUsed, receipts[j-1].CumulativeGasUsed)
        }
        // The derived log fields can simply be set from the block and transaction
        for k := 0; k < len(receipts[j].Logs); k++ {
            receipts[j].Logs[k].BlockNumber = block.NumberU64()
            receipts[j].Logs[k].BlockHash = block.Hash()
            receipts[j].Logs[k].TxHash = receipts[j].TxHash
            receipts[j].Logs[k].TxIndex = uint(j)
            receipts[j].Logs[k].Index = logIndex
            logIndex++
        }
    }
}

// InsertReceiptChain attempts to complete an already existing header chain with
// transaction and receipt data.
func (bc *BlockChain) InsertReceiptChain(blockChain types.Blocks, receiptChain []types.Receipts) (int, error) {
    bc.wg.Add(1)
    defer bc.wg.Done()

    // Do a sanity check that the provided chain is actually ordered and linked
    for i := 1; i < len(blockChain); i++ {
        if blockChain[i].NumberU64() != blockChain[i-1].NumberU64()+1 || blockChain[i].ParentHash() != blockChain[i-1].Hash() {
            log.Error("Non contiguous receipt insert", "number", blockChain[i].Number(), "hash", blockChain[i].Hash(), "parent", blockChain[i].ParentHash(),
                "prevnumber", blockChain[i-1].Number(), "prevhash", blockChain[i-1].Hash())
            return 0, fmt.Errorf("non contiguous insert: item %d is #%d [%x…], item %d is #%d [%x…] (parent [%x…])", i-1, blockChain[i-1].NumberU64(),
                blockChain[i-1].Hash().Bytes()[:4], i, blockChain[i].NumberU64(), blockChain[i].Hash().Bytes()[:4], blockChain[i].ParentHash().Bytes()[:4])
        }
    }

    var (
        stats = struct{ processed, ignored int32 }{}
        start = time.Now()
        bytes = 0
        batch = bc.chainDb.NewBatch()
    )
    for i, block := range blockChain {
        receipts := receiptChain[i]
        // Short circuit insertion if shutting down or processing failed
        if atomic.LoadInt32(&bc.procInterrupt) == 1 {
            return 0, nil
        }
        // Short circuit if the owner header is unknown
        if !bc.HasHeader(block.Hash(), block.NumberU64()) {
            return i, fmt.Errorf("containing header #%d [%x…] unknown", block.Number(), block.Hash().Bytes()[:4])
        }
        // Skip if the entire data is already known
        if bc.HasBlock(block.Hash(), block.NumberU64()) {
            stats.ignored++
            continue
        }
        // Compute all the non-consensus fields of the receipts
        SetReceiptsData(bc.config, block, receipts)
        // Write all the data out into the database
        if err := WriteBody(batch, block.Hash(), block.NumberU64(), block.Body()); err != nil {
            return i, fmt.Errorf("failed to write block body: %v", err)
        }
        if err := WriteBlockReceipts(batch, block.Hash(), block.NumberU64(), receipts); err != nil {
            return i, fmt.Errorf("failed to write block receipts: %v", err)
        }
        if err := WriteTxLookupEntries(batch, block); err != nil {
            return i, fmt.Errorf("failed to write lookup metadata: %v", err)
        }
        stats.processed++

        if batch.ValueSize() >= ethdb.IdealBatchSize {
            if err := batch.Write(); err != nil {
                return 0, err
            }
            bytes += batch.ValueSize()
            batch = bc.chainDb.NewBatch()
        }
    }
    if batch.ValueSize() > 0 {
        bytes += batch.ValueSize()
        if err := batch.Write(); err != nil {
            return 0, err
        }
    }

    // Update the head fast sync block if better
    bc.mu.Lock()
    head := blockChain[len(blockChain)-1]
    if td := bc.GetTd(head.Hash(), head.NumberU64()); td != nil { // Rewind may have occurred, skip in that case
        if bc.GetTd(bc.currentFastBlock.Hash(), bc.currentFastBlock.NumberU64()).Cmp(td) < 0 {
            if err := WriteHeadFastBlockHash(bc.chainDb, head.Hash()); err != nil {
                log.Crit("Failed to update head fast block hash", "err", err)
            }
            bc.currentFastBlock = head
        }
    }
    bc.mu.Unlock()

    log.Info("Imported new block receipts",
        "count", stats.processed,
        "elapsed", common.PrettyDuration(time.Since(start)),
        "bytes", bytes,
        "number", head.Number(),
        "hash", head.Hash(),
        "ignored", stats.ignored)
    return 0, nil
}

// WriteBlock writes the block to the chain.
func (bc *BlockChain) WriteBlockAndState(block *types.Block, receipts []*types.Receipt, state *state.StateDB) (status WriteStatus, err error) {
    bc.wg.Add(1)
    defer bc.wg.Done()

    // Calculate the total difficulty of the block
    ptd := bc.GetTd(block.ParentHash(), block.NumberU64()-1)
    if ptd == nil {
        return NonStatTy, consensus.ErrUnknownAncestor
    }
    // Make sure no inconsistent state is leaked during insertion
    bc.mu.Lock()
    defer bc.mu.Unlock()

    if bc.HasBlock(block.Hash(), block.NumberU64()) {
        log.Trace("Block existed", "hash", block.Hash())
        return
    }

    localTd := bc.GetTd(bc.currentBlock.Hash(), bc.currentBlock.NumberU64())
    externTd := new(big.Int).Add(block.Difficulty(), ptd)

    // Irrelevant of the canonical status, write the block itself to the database
    if err := bc.hc.WriteTd(block.Hash(), block.NumberU64(), externTd); err != nil {
        return NonStatTy, err
    }
    // Write other block data using a batch.
    batch := bc.chainDb.NewBatch()
    if err := WriteBlock(batch, block); err != nil {
        return NonStatTy, err
    }
    if _, err := state.CommitTo(batch, bc.config.IsEIP158(block.Number())); err != nil {
        return NonStatTy, err
    }
    if err := WriteBlockReceipts(batch, block.Hash(), block.NumberU64(), receipts); err != nil {
        return NonStatTy, err
    }

    // If the total difficulty is higher than our known, add it to the canonical chain
    // Second clause in the if statement reduces the vulnerability to selfish mining.
    // Please refer to http://www.cs.cornell.edu/~ie53/publications/btcProcFC.pdf
    if externTd.Cmp(localTd) > 0 || (externTd.Cmp(localTd) == 0 && mrand.Float64() < 0.5) {
        // Reorganise the chain if the parent is not the head block
        if block.ParentHash() != bc.currentBlock.Hash() {
            if err := bc.reorg(bc.currentBlock, block); err != nil {
                return NonStatTy, err
            }
        }
        // Write the positional metadata for transaction and receipt lookups
        if err := WriteTxLookupEntries(batch, block); err != nil {
            return NonStatTy, err
        }
        // Write hash preimages
        if err := WritePreimages(bc.chainDb, block.NumberU64(), state.Preimages()); err != nil {
            return NonStatTy, err
        }
        status = CanonStatTy
    } else {
        status = SideStatTy
    }
    if err := batch.Write(); err != nil {
        return NonStatTy, err
    }

    // Set new head.
    if status == CanonStatTy {
        bc.insert(block)
    }
    bc.futureBlocks.Remove(block.Hash())
    return status, nil
}

// InsertChain attempts to insert the given batch of blocks in to the canonical
// chain or, otherwise, create a fork. If an error is returned it will return
// the index number of the failing block as well an error describing what went
// wrong.
//
// After insertion is done, all accumulated events will be fired.
func (bc *BlockChain) InsertChain(chain types.Blocks) (int, error) {
    n, events, logs, err := bc.insertChain(chain)
    bc.PostChainEvents(events, logs)
    return n, err
}

// insertChain will execute the actual chain insertion and event aggregation. The
// only reason this method exists as a separate one is to make locking cleaner
// with deferred statements.
func (bc *BlockChain) insertChain(chain types.Blocks) (int, []interface{}, []*types.Log, error) {
    // Do a sanity check that the provided chain is actually ordered and linked
    for i := 1; i < len(chain); i++ {
        if chain[i].NumberU64() != chain[i-1].NumberU64()+1 || chain[i].ParentHash() != chain[i-1].Hash() {
            // Chain broke ancestry, log a messge (programming error) and skip insertion
            log.Error("Non contiguous block insert", "number", chain[i].Number(), "hash", chain[i].Hash(),
                "parent", chain[i].ParentHash(), "prevnumber", chain[i-1].Number(), "prevhash", chain[i-1].Hash())

            return 0, nil, nil, fmt.Errorf("non contiguous insert: item %d is #%d [%x…], item %d is #%d [%x…] (parent [%x…])", i-1, chain[i-1].NumberU64(),
                chain[i-1].Hash().Bytes()[:4], i, chain[i].NumberU64(), chain[i].Hash().Bytes()[:4], chain[i].ParentHash().Bytes()[:4])
        }
    }
    // Pre-checks passed, start the full block imports
    bc.wg.Add(1)
    defer bc.wg.Done()

    bc.chainmu.Lock()
    defer bc.chainmu.Unlock()

    // A queued approach to delivering events. This is generally
    // faster than direct delivery and requires much less mutex
    // acquiring.
    var (
        stats         = insertStats{startTime: mclock.Now()}
        events        = make([]interface{}, 0, len(chain))
        lastCanon     *types.Block
        coalescedLogs []*types.Log
    )
    // Start the parallel header verifier
    headers := make([]*types.Header, len(chain))
    seals := make([]bool, len(chain))

    for i, block := range chain {
        headers[i] = block.Header()
        seals[i] = true
    }
    abort, results := bc.engine.VerifyHeaders(bc, headers, seals)
    defer close(abort)

    // Iterate over the blocks and insert when the verifier permits
    for i, block := range chain {
        // If the chain is terminating, stop processing blocks
        if atomic.LoadInt32(&bc.procInterrupt) == 1 {
            log.Debug("Premature abort during blocks processing")
            break
        }
        // If the header is a banned one, straight out abort
        if BadHashes[block.Hash()] {
            bc.reportBlock(block, nil, ErrBlacklistedHash)
            return i, events, coalescedLogs, ErrBlacklistedHash
        }
        // Wait for the block's verification to complete
        bstart := time.Now()

        err := <-results
        if err == nil {
            err = bc.Validator().ValidateBody(block)
        }
        if err != nil {
            if err == ErrKnownBlock {
                stats.ignored++
                continue
            }

            if err == consensus.ErrFutureBlock {
                // Allow up to MaxFuture second in the future blocks. If this limit
                // is exceeded the chain is discarded and processed at a later time
                // if given.
                max := big.NewInt(time.Now().Unix() + maxTimeFutureBlocks)
                if block.Time().Cmp(max) > 0 {
                    return i, events, coalescedLogs, fmt.Errorf("future block: %v > %v", block.Time(), max)
                }
                bc.futureBlocks.Add(block.Hash(), block)
                stats.queued++
                continue
            }

            if err == consensus.ErrUnknownAncestor && bc.futureBlocks.Contains(block.ParentHash()) {
                bc.futureBlocks.Add(block.Hash(), block)
                stats.queued++
                continue
            }

            bc.reportBlock(block, nil, err)
            return i, events, coalescedLogs, err
        }
        // Create a new statedb using the parent block and report an
        // error if it fails.
        var parent *types.Block
        if i == 0 {
            parent = bc.GetBlock(block.ParentHash(), block.NumberU64()-1)
        } else {
            parent = chain[i-1]
        }
        state, err := state.New(parent.Root(), bc.stateCache)
        if err != nil {
            return i, events, coalescedLogs, err
        }
        // Process block using the parent state as reference point.
        receipts, logs, usedGas, err := bc.processor.Process(block, state, bc.vmConfig)
        if err != nil {
            bc.reportBlock(block, receipts, err)
            return i, events, coalescedLogs, err
        }
        // Validate the state using the default validator
        err = bc.Validator().ValidateState(block, parent, state, receipts, usedGas)
        if err != nil {
            bc.reportBlock(block, receipts, err)
            return i, events, coalescedLogs, err
        }
        // Write the block to the chain and get the status.
        status, err := bc.WriteBlockAndState(block, receipts, state)
        if err != nil {
            return i, events, coalescedLogs, err
        }
        switch status {
        case CanonStatTy:
            log.Debug("Inserted new block", "number", block.Number(), "hash", block.Hash(), "uncles", len(block.Uncles()),
                "txs", len(block.Transactions()), "gas", block.GasUsed(), "elapsed", common.PrettyDuration(time.Since(bstart)))

            coalescedLogs = append(coalescedLogs, logs...)
            blockInsertTimer.UpdateSince(bstart)
            events = append(events, ChainEvent{block, block.Hash(), logs})
            lastCanon = block

        case SideStatTy:
            log.Debug("Inserted forked block", "number", block.Number(), "hash", block.Hash(), "diff", block.Difficulty(), "elapsed",
                common.PrettyDuration(time.Since(bstart)), "txs", len(block.Transactions()), "gas", block.GasUsed(), "uncles", len(block.Uncles()))

            blockInsertTimer.UpdateSince(bstart)
            events = append(events, ChainSideEvent{block})
        }
        stats.processed++
        stats.usedGas += usedGas.Uint64()
        stats.report(chain, i)
    }
    // Append a single chain head event if we've progressed the chain
    if lastCanon != nil && bc.LastBlockHash() == lastCanon.Hash() {
        events = append(events, ChainHeadEvent{lastCanon})
    }
    return 0, events, coalescedLogs, nil
}

// insertStats tracks and reports on block insertion.
type insertStats struct {
    queued, processed, ignored int
    usedGas                    uint64
    lastIndex                  int
    startTime                  mclock.AbsTime
}

// statsReportLimit is the time limit during import after which we always print
// out progress. This avoids the user wondering what's going on.
const statsReportLimit = 8 * time.Second

// report prints statistics if some number of blocks have been processed
// or more than a few seconds have passed since the last message.
func (st *insertStats) report(chain []*types.Block, index int) {
    // Fetch the timings for the batch
    var (
        now     = mclock.Now()
        elapsed = time.Duration(now) - time.Duration(st.startTime)
    )
    // If we're at the last block of the batch or report period reached, log
    if index == len(chain)-1 || elapsed >= statsReportLimit {
        var (
            end = chain[index]
            txs = countTransactions(chain[st.lastIndex : index+1])
        )
        context := []interface{}{
            "blocks", st.processed, "txs", txs, "mgas", float64(st.usedGas) / 1000000,
            "elapsed", common.PrettyDuration(elapsed), "mgasps", float64(st.usedGas) * 1000 / float64(elapsed),
            "number", end.Number(), "hash", end.Hash(),
        }
        if st.queued > 0 {
            context = append(context, []interface{}{"queued", st.queued}...)
        }
        if st.ignored > 0 {
            context = append(context, []interface{}{"ignored", st.ignored}...)
        }
        log.Info("Imported new chain segment", context...)

        *st = insertStats{startTime: now, lastIndex: index + 1}
    }
}

func countTransactions(chain []*types.Block) (c int) {
    for _, b := range chain {
        c += len(b.Transactions())
    }
    return c
}

// reorgs takes two blocks, an old chain and a new chain and will reconstruct the blocks and inserts them
// to be part of the new canonical chain and accumulates potential missing transactions and post an
// event about them
func (bc *BlockChain) reorg(oldBlock, newBlock *types.Block) error {
    var (
        newChain    types.Blocks
        oldChain    types.Blocks
        commonBlock *types.Block
        deletedTxs  types.Transactions
        deletedLogs []*types.Log
        // collectLogs collects the logs that were generated during the
        // processing of the block that corresponds with the given hash.
        // These logs are later announced as deleted.
        collectLogs = func(h common.Hash) {
            // Coalesce logs and set 'Removed'.
            receipts := GetBlockReceipts(bc.chainDb, h, bc.hc.GetBlockNumber(h))
            for _, receipt := range receipts {
                for _, log := range receipt.Logs {
                    del := *log
                    del.Removed = true
                    deletedLogs = append(deletedLogs, &del)
                }
            }
        }
    )

    // first reduce whoever is higher bound
    if oldBlock.NumberU64() > newBlock.NumberU64() {
        // reduce old chain
        for ; oldBlock != nil && oldBlock.NumberU64() != newBlock.NumberU64(); oldBlock = bc.GetBlock(oldBlock.ParentHash(), oldBlock.NumberU64()-1) {
            oldChain = append(oldChain, oldBlock)
            deletedTxs = append(deletedTxs, oldBlock.Transactions()...)

            collectLogs(oldBlock.Hash())
        }
    } else {
        // reduce new chain and append new chain blocks for inserting later on
        for ; newBlock != nil && newBlock.NumberU64() != oldBlock.NumberU64(); newBlock = bc.GetBlock(newBlock.ParentHash(), newBlock.NumberU64()-1) {
            newChain = append(newChain, newBlock)
        }
    }
    if oldBlock == nil {
        return fmt.Errorf("Invalid old chain")
    }
    if newBlock == nil {
        return fmt.Errorf("Invalid new chain")
    }

    for {
        if oldBlock.Hash() == newBlock.Hash() {
            commonBlock = oldBlock
            break
        }

        oldChain = append(oldChain, oldBlock)
        newChain = append(newChain, newBlock)
        deletedTxs = append(deletedTxs, oldBlock.Transactions()...)
        collectLogs(oldBlock.Hash())

        oldBlock, newBlock = bc.GetBlock(oldBlock.ParentHash(), oldBlock.NumberU64()-1), bc.GetBlock(newBlock.ParentHash(), newBlock.NumberU64()-1)
        if oldBlock == nil {
            return fmt.Errorf("Invalid old chain")
        }
        if newBlock == nil {
            return fmt.Errorf("Invalid new chain")
        }
    }
    // Ensure the user sees large reorgs
    if len(oldChain) > 0 && len(newChain) > 0 {
        logFn := log.Debug
        if len(oldChain) > 63 {
            logFn = log.Warn
        }
        logFn("Chain split detected", "number", commonBlock.Number(), "hash", commonBlock.Hash(),
            "drop", len(oldChain), "dropfrom", oldChain[0].Hash(), "add", len(newChain), "addfrom", newChain[0].Hash())
    } else {
        log.Error("Impossible reorg, please file an issue", "oldnum", oldBlock.Number(), "oldhash", oldBlock.Hash(), "newnum", newBlock.Number(), "newhash", newBlock.Hash())
    }
    var addedTxs types.Transactions
    // insert blocks. Order does not matter. Last block will be written in ImportChain itself which creates the new head properly
    for _, block := range newChain {
        // insert the block in the canonical way, re-writing history
        bc.insert(block)
        // write lookup entries for hash based transaction/receipt searches
        if err := WriteTxLookupEntries(bc.chainDb, block); err != nil {
            return err
        }
        addedTxs = append(addedTxs, block.Transactions()...)
    }

    // calculate the difference between deleted and added transactions
    diff := types.TxDifference(deletedTxs, addedTxs)
    // When transactions get deleted from the database that means the
    // receipts that were created in the fork must also be deleted
    for _, tx := range diff {
        DeleteTxLookupEntry(bc.chainDb, tx.Hash())
    }
    if len(deletedLogs) > 0 {
        go bc.rmLogsFeed.Send(RemovedLogsEvent{deletedLogs})
    }
    if len(oldChain) > 0 {
        go func() {
            for _, block := range oldChain {
                bc.chainSideFeed.Send(ChainSideEvent{Block: block})
            }
        }()
    }

    return nil
}

// PostChainEvents iterates over the events generated by a chain insertion and
// posts them into the event feed.
// TODO: Should not expose PostChainEvents. The chain events should be posted in WriteBlock.
func (bc *BlockChain) PostChainEvents(events []interface{}, logs []*types.Log) {
    // post event logs for further processing
    if logs != nil {
        bc.logsFeed.Send(logs)
    }
    for _, event := range events {
        switch ev := event.(type) {
        case ChainEvent:
            bc.chainFeed.Send(ev)

        case ChainHeadEvent:
            bc.chainHeadFeed.Send(ev)

        case ChainSideEvent:
            bc.chainSideFeed.Send(ev)
        }
    }
}

func (bc *BlockChain) update() {
    futureTimer := time.Tick(5 * time.Second)
    for {
        select {
        case <-futureTimer:
            bc.procFutureBlocks()
        case <-bc.quit:
            return
        }
    }
}

// BadBlockArgs represents the entries in the list returned when bad blocks are queried.
type BadBlockArgs struct {
    Hash   common.Hash   `json:"hash"`
    Header *types.Header `json:"header"`
}

// BadBlocks returns a list of the last 'bad blocks' that the client has seen on the network
func (bc *BlockChain) BadBlocks() ([]BadBlockArgs, error) {
    headers := make([]BadBlockArgs, 0, bc.badBlocks.Len())
    for _, hash := range bc.badBlocks.Keys() {
        if hdr, exist := bc.badBlocks.Peek(hash); exist {
            header := hdr.(*types.Header)
            headers = append(headers, BadBlockArgs{header.Hash(), header})
        }
    }
    return headers, nil
}

// addBadBlock adds a bad block to the bad-block LRU cache
func (bc *BlockChain) addBadBlock(block *types.Block) {
    bc.badBlocks.Add(block.Header().Hash(), block.Header())
}

// reportBlock logs a bad block error.
func (bc *BlockChain) reportBlock(block *types.Block, receipts types.Receipts, err error) {
    bc.addBadBlock(block)

    var receiptString string
    for _, receipt := range receipts {
        receiptString += fmt.Sprintf("\t%v\n", receipt)
    }
    log.Error(fmt.Sprintf(`
########## BAD BLOCK #########
Chain config: %v

Number: %v
Hash: 0x%x
%v

Error: %v
##############################
`, bc.config, block.Number(), block.Hash(), receiptString, err))
}

// InsertHeaderChain attempts to insert the given header chain in to the local
// chain, possibly creating a reorg. If an error is returned, it will return the
// index number of the failing header as well an error describing what went wrong.
//
// The verify parameter can be used to fine tune whether nonce verification
// should be done or not. The reason behind the optional check is because some
// of the header retrieval mechanisms already need to verify nonces, as well as
// because nonces can be verified sparsely, not needing to check each.
func (bc *BlockChain) InsertHeaderChain(chain []*types.Header, checkFreq int) (int, error) {
    start := time.Now()
    if i, err := bc.hc.ValidateHeaderChain(chain, checkFreq); err != nil {
        return i, err
    }

    // Make sure only one thread manipulates the chain at once
    bc.chainmu.Lock()
    defer bc.chainmu.Unlock()

    bc.wg.Add(1)
    defer bc.wg.Done()

    whFunc := func(header *types.Header) error {
        bc.mu.Lock()
        defer bc.mu.Unlock()

        _, err := bc.hc.WriteHeader(header)
        return err
    }

    return bc.hc.InsertHeaderChain(chain, whFunc, start)
}

// writeHeader writes a header into the local chain, given that its parent is
// already known. If the total difficulty of the newly inserted header becomes
// greater than the current known TD, the canonical chain is re-routed.
//
// Note: This method is not concurrent-safe with inserting blocks simultaneously
// into the chain, as side effects caused by reorganisations cannot be emulated
// without the real blocks. Hence, writing headers directly should only be done
// in two scenarios: pure-header mode of operation (light clients), or properly
// separated header/block phases (non-archive clients).
func (bc *BlockChain) writeHeader(header *types.Header) error {
    bc.wg.Add(1)
    defer bc.wg.Done()

    bc.mu.Lock()
    defer bc.mu.Unlock()

    _, err := bc.hc.WriteHeader(header)
    return err
}

// CurrentHeader retrieves the current head header of the canonical chain. The
// header is retrieved from the HeaderChain's internal cache.
func (bc *BlockChain) CurrentHeader() *types.Header {
    bc.mu.RLock()
    defer bc.mu.RUnlock()

    return bc.hc.CurrentHeader()
}

// GetTd retrieves a block's total difficulty in the canonical chain from the
// database by hash and number, caching it if found.
func (bc *BlockChain) GetTd(hash common.Hash, number uint64) *big.Int {
    return bc.hc.GetTd(hash, number)
}

// GetTdByHash retrieves a block's total difficulty in the canonical chain from the
// database by hash, caching it if found.
func (bc *BlockChain) GetTdByHash(hash common.Hash) *big.Int {
    return bc.hc.GetTdByHash(hash)
}

// GetHeader retrieves a block header from the database by hash and number,
// caching it if found.
func (bc *BlockChain) GetHeader(hash common.Hash, number uint64) *types.Header {
    return bc.hc.GetHeader(hash, number)
}

// GetHeaderByHash retrieves a block header from the database by hash, caching it if
// found.
func (bc *BlockChain) GetHeaderByHash(hash common.Hash) *types.Header {
    return bc.hc.GetHeaderByHash(hash)
}

// HasHeader checks if a block header is present in the database or not, caching
// it if present.
func (bc *BlockChain) HasHeader(hash common.Hash, number uint64) bool {
    return bc.hc.HasHeader(hash, number)
}

// GetBlockHashesFromHash retrieves a number of block hashes starting at a given
// hash, fetching towards the genesis block.
func (bc *BlockChain) GetBlockHashesFromHash(hash common.Hash, max uint64) []common.Hash {
    return bc.hc.GetBlockHashesFromHash(hash, max)
}

// GetHeaderByNumber retrieves a block header from the database by number,
// caching it (associated with its hash) if found.
func (bc *BlockChain) GetHeaderByNumber(number uint64) *types.Header {
    return bc.hc.GetHeaderByNumber(number)
}

// Config retrieves the blockchain's chain configuration.
func (bc *BlockChain) Config() *params.ChainConfig { return bc.config }

// Engine retrieves the blockchain's consensus engine.
func (bc *BlockChain) Engine() consensus.Engine { return bc.engine }

// SubscribeRemovedLogsEvent registers a subscription of RemovedLogsEvent.
func (bc *BlockChain) SubscribeRemovedLogsEvent(ch chan<- RemovedLogsEvent) event.Subscription {
    return bc.scope.Track(bc.rmLogsFeed.Subscribe(ch))
}

// SubscribeChainEvent registers a subscription of ChainEvent.
func (bc *BlockChain) SubscribeChainEvent(ch chan<- ChainEvent) event.Subscription {
    return bc.scope.Track(bc.chainFeed.Subscribe(ch))
}

// SubscribeChainHeadEvent registers a subscription of ChainHeadEvent.
func (bc *BlockChain) SubscribeChainHeadEvent(ch chan<- ChainHeadEvent) event.Subscription {
    return bc.scope.Track(bc.chainHeadFeed.Subscribe(ch))
}

// SubscribeChainSideEvent registers a subscription of ChainSideEvent.
func (bc *BlockChain) SubscribeChainSideEvent(ch chan<- ChainSideEvent) event.Subscription {
    return bc.scope.Track(bc.chainSideFeed.Subscribe(ch))
}

// SubscribeLogsEvent registers a subscription of []*types.Log.
func (bc *BlockChain) SubscribeLogsEvent(ch chan<- []*types.Log) event.Subscription {
    return bc.scope.Track(bc.logsFeed.Subscribe(ch))
}