d86fe26f67
Co-authored-by: seven <seven@nodereal.io>
437 lines
14 KiB
Go
437 lines
14 KiB
Go
// Copyright 2019 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package les
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import (
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"errors"
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"sync"
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"sync/atomic"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/mclock"
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"github.com/ethereum/go-ethereum/core"
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"github.com/ethereum/go-ethereum/core/forkid"
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"github.com/ethereum/go-ethereum/core/rawdb"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/les/flowcontrol"
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"github.com/ethereum/go-ethereum/light"
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"github.com/ethereum/go-ethereum/log"
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"github.com/ethereum/go-ethereum/metrics"
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"github.com/ethereum/go-ethereum/p2p"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/ethereum/go-ethereum/trie"
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)
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const (
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softResponseLimit = 2 * 1024 * 1024 // Target maximum size of returned blocks, headers or node data.
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estHeaderRlpSize = 500 // Approximate size of an RLP encoded block header
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MaxHeaderFetch = 192 // Amount of block headers to be fetched per retrieval request
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MaxBodyFetch = 32 // Amount of block bodies to be fetched per retrieval request
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MaxReceiptFetch = 128 // Amount of transaction receipts to allow fetching per request
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MaxCodeFetch = 64 // Amount of contract codes to allow fetching per request
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MaxProofsFetch = 64 // Amount of merkle proofs to be fetched per retrieval request
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MaxHelperTrieProofsFetch = 64 // Amount of helper tries to be fetched per retrieval request
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MaxTxSend = 64 // Amount of transactions to be send per request
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MaxTxStatus = 256 // Amount of transactions to queried per request
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)
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var (
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errTooManyInvalidRequest = errors.New("too many invalid requests made")
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)
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// serverHandler is responsible for serving light client and process
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// all incoming light requests.
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type serverHandler struct {
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forkFilter forkid.Filter
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blockchain *core.BlockChain
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chainDb ethdb.Database
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txpool *core.TxPool
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server *LesServer
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closeCh chan struct{} // Channel used to exit all background routines of handler.
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wg sync.WaitGroup // WaitGroup used to track all background routines of handler.
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synced func() bool // Callback function used to determine whether local node is synced.
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// Testing fields
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addTxsSync bool
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}
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func newServerHandler(server *LesServer, blockchain *core.BlockChain, chainDb ethdb.Database, txpool *core.TxPool, synced func() bool) *serverHandler {
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handler := &serverHandler{
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forkFilter: forkid.NewFilter(blockchain),
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server: server,
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blockchain: blockchain,
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chainDb: chainDb,
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txpool: txpool,
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closeCh: make(chan struct{}),
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synced: synced,
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}
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return handler
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}
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// start starts the server handler.
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func (h *serverHandler) start() {
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h.wg.Add(1)
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go h.broadcastLoop()
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}
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// stop stops the server handler.
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func (h *serverHandler) stop() {
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close(h.closeCh)
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h.wg.Wait()
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}
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// runPeer is the p2p protocol run function for the given version.
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func (h *serverHandler) runPeer(version uint, p *p2p.Peer, rw p2p.MsgReadWriter) error {
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peer := newClientPeer(int(version), h.server.config.NetworkId, p, newMeteredMsgWriter(rw, int(version)))
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defer peer.close()
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h.wg.Add(1)
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defer h.wg.Done()
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return h.handle(peer)
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}
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func (h *serverHandler) handle(p *clientPeer) error {
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p.Log().Debug("Light Ethereum peer connected", "name", p.Name())
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// Execute the LES handshake
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var (
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head = h.blockchain.CurrentHeader()
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hash = head.Hash()
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number = head.Number.Uint64()
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td = h.blockchain.GetTd(hash, number)
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forkID = forkid.NewID(h.blockchain.Config(), h.blockchain.Genesis().Hash(), h.blockchain.CurrentBlock().NumberU64())
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)
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if err := p.Handshake(td, hash, number, h.blockchain.Genesis().Hash(), forkID, h.forkFilter, h.server); err != nil {
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p.Log().Debug("Light Ethereum handshake failed", "err", err)
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return err
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}
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// Connected to another server, no messages expected, just wait for disconnection
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if p.server {
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if err := h.server.serverset.register(p); err != nil {
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return err
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}
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_, err := p.rw.ReadMsg()
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h.server.serverset.unregister(p)
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return err
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}
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// Setup flow control mechanism for the peer
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p.fcClient = flowcontrol.NewClientNode(h.server.fcManager, p.fcParams)
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defer p.fcClient.Disconnect()
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// Reject light clients if server is not synced. Put this checking here, so
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// that "non-synced" les-server peers are still allowed to keep the connection.
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if !h.synced() {
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p.Log().Debug("Light server not synced, rejecting peer")
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return p2p.DiscRequested
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}
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// Register the peer into the peerset and clientpool
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if err := h.server.peers.register(p); err != nil {
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return err
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}
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if p.balance = h.server.clientPool.Register(p); p.balance == nil {
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h.server.peers.unregister(p.ID())
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p.Log().Debug("Client pool already closed")
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return p2p.DiscRequested
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}
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p.connectedAt = mclock.Now()
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var wg sync.WaitGroup // Wait group used to track all in-flight task routines.
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defer func() {
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wg.Wait() // Ensure all background task routines have exited.
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h.server.clientPool.Unregister(p)
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h.server.peers.unregister(p.ID())
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p.balance = nil
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connectionTimer.Update(time.Duration(mclock.Now() - p.connectedAt))
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}()
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// Mark the peer as being served.
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atomic.StoreUint32(&p.serving, 1)
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defer atomic.StoreUint32(&p.serving, 0)
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// Spawn a main loop to handle all incoming messages.
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for {
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select {
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case err := <-p.errCh:
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p.Log().Debug("Failed to send light ethereum response", "err", err)
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return err
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default:
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}
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if err := h.handleMsg(p, &wg); err != nil {
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p.Log().Debug("Light Ethereum message handling failed", "err", err)
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return err
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}
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}
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}
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// beforeHandle will do a series of prechecks before handling message.
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func (h *serverHandler) beforeHandle(p *clientPeer, reqID, responseCount uint64, msg p2p.Msg, reqCnt uint64, maxCount uint64) (*servingTask, uint64) {
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// Ensure that the request sent by client peer is valid
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inSizeCost := h.server.costTracker.realCost(0, msg.Size, 0)
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if reqCnt == 0 || reqCnt > maxCount {
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p.fcClient.OneTimeCost(inSizeCost)
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return nil, 0
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}
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// Ensure that the client peer complies with the flow control
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// rules agreed by both sides.
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if p.isFrozen() {
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p.fcClient.OneTimeCost(inSizeCost)
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return nil, 0
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}
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maxCost := p.fcCosts.getMaxCost(msg.Code, reqCnt)
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accepted, bufShort, priority := p.fcClient.AcceptRequest(reqID, responseCount, maxCost)
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if !accepted {
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p.freeze()
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p.Log().Error("Request came too early", "remaining", common.PrettyDuration(time.Duration(bufShort*1000000/p.fcParams.MinRecharge)))
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p.fcClient.OneTimeCost(inSizeCost)
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return nil, 0
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}
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// Create a multi-stage task, estimate the time it takes for the task to
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// execute, and cache it in the request service queue.
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factor := h.server.costTracker.globalFactor()
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if factor < 0.001 {
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factor = 1
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p.Log().Error("Invalid global cost factor", "factor", factor)
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}
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maxTime := uint64(float64(maxCost) / factor)
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task := h.server.servingQueue.newTask(p, maxTime, priority)
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if !task.start() {
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p.fcClient.RequestProcessed(reqID, responseCount, maxCost, inSizeCost)
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return nil, 0
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}
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return task, maxCost
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}
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// Afterhandle will perform a series of operations after message handling,
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// such as updating flow control data, sending reply, etc.
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func (h *serverHandler) afterHandle(p *clientPeer, reqID, responseCount uint64, msg p2p.Msg, maxCost uint64, reqCnt uint64, task *servingTask, reply *reply) {
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if reply != nil {
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task.done()
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}
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p.responseLock.Lock()
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defer p.responseLock.Unlock()
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// Short circuit if the client is already frozen.
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if p.isFrozen() {
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realCost := h.server.costTracker.realCost(task.servingTime, msg.Size, 0)
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p.fcClient.RequestProcessed(reqID, responseCount, maxCost, realCost)
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return
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}
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// Positive correction buffer value with real cost.
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var replySize uint32
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if reply != nil {
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replySize = reply.size()
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}
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var realCost uint64
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if h.server.costTracker.testing {
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realCost = maxCost // Assign a fake cost for testing purpose
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} else {
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realCost = h.server.costTracker.realCost(task.servingTime, msg.Size, replySize)
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if realCost > maxCost {
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realCost = maxCost
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}
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}
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bv := p.fcClient.RequestProcessed(reqID, responseCount, maxCost, realCost)
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if reply != nil {
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// Feed cost tracker request serving statistic.
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h.server.costTracker.updateStats(msg.Code, reqCnt, task.servingTime, realCost)
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// Reduce priority "balance" for the specific peer.
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p.balance.RequestServed(realCost)
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p.queueSend(func() {
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if err := reply.send(bv); err != nil {
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select {
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case p.errCh <- err:
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default:
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}
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}
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})
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}
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}
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// handleMsg is invoked whenever an inbound message is received from a remote
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// peer. The remote connection is torn down upon returning any error.
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func (h *serverHandler) handleMsg(p *clientPeer, wg *sync.WaitGroup) error {
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// Read the next message from the remote peer, and ensure it's fully consumed
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msg, err := p.rw.ReadMsg()
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if err != nil {
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return err
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}
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p.Log().Trace("Light Ethereum message arrived", "code", msg.Code, "bytes", msg.Size)
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// Discard large message which exceeds the limitation.
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if msg.Size > ProtocolMaxMsgSize {
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clientErrorMeter.Mark(1)
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return errResp(ErrMsgTooLarge, "%v > %v", msg.Size, ProtocolMaxMsgSize)
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}
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defer msg.Discard()
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// Lookup the request handler table, ensure it's supported
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// message type by the protocol.
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req, ok := Les3[msg.Code]
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if !ok {
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p.Log().Trace("Received invalid message", "code", msg.Code)
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clientErrorMeter.Mark(1)
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return errResp(ErrInvalidMsgCode, "%v", msg.Code)
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}
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p.Log().Trace("Received " + req.Name)
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// Decode the p2p message, resolve the concrete handler for it.
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serve, reqID, reqCnt, err := req.Handle(msg)
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if err != nil {
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clientErrorMeter.Mark(1)
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return errResp(ErrDecode, "%v: %v", msg, err)
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}
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if metrics.EnabledExpensive {
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req.InPacketsMeter.Mark(1)
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req.InTrafficMeter.Mark(int64(msg.Size))
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}
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p.responseCount++
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responseCount := p.responseCount
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// First check this client message complies all rules before
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// handling it and return a processor if all checks are passed.
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task, maxCost := h.beforeHandle(p, reqID, responseCount, msg, reqCnt, req.MaxCount)
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if task == nil {
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return nil
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}
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wg.Add(1)
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go func() {
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defer wg.Done()
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reply := serve(h, p, task.waitOrStop)
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h.afterHandle(p, reqID, responseCount, msg, maxCost, reqCnt, task, reply)
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if metrics.EnabledExpensive {
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size := uint32(0)
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if reply != nil {
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size = reply.size()
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}
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req.OutPacketsMeter.Mark(1)
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req.OutTrafficMeter.Mark(int64(size))
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req.ServingTimeMeter.Update(time.Duration(task.servingTime))
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}
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}()
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// If the client has made too much invalid request(e.g. request a non-existent data),
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// reject them to prevent SPAM attack.
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if p.getInvalid() > maxRequestErrors {
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clientErrorMeter.Mark(1)
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return errTooManyInvalidRequest
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}
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return nil
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}
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// BlockChain implements serverBackend
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func (h *serverHandler) BlockChain() *core.BlockChain {
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return h.blockchain
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}
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// TxPool implements serverBackend
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func (h *serverHandler) TxPool() *core.TxPool {
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return h.txpool
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}
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// ArchiveMode implements serverBackend
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func (h *serverHandler) ArchiveMode() bool {
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return h.server.archiveMode
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}
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// AddTxsSync implements serverBackend
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func (h *serverHandler) AddTxsSync() bool {
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return h.addTxsSync
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}
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// getAccount retrieves an account from the state based on root.
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func getAccount(triedb *trie.Database, root, hash common.Hash) (types.StateAccount, error) {
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trie, err := trie.New(trie.StateTrieID(root), triedb)
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if err != nil {
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return types.StateAccount{}, err
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}
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blob, err := trie.TryGet(hash[:])
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if err != nil {
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return types.StateAccount{}, err
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}
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var acc types.StateAccount
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if err = rlp.DecodeBytes(blob, &acc); err != nil {
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return types.StateAccount{}, err
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}
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return acc, nil
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}
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// GetHelperTrie returns the post-processed trie root for the given trie ID and section index
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func (h *serverHandler) GetHelperTrie(typ uint, index uint64) *trie.Trie {
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var (
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root common.Hash
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prefix string
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)
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switch typ {
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case htCanonical:
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sectionHead := rawdb.ReadCanonicalHash(h.chainDb, (index+1)*h.server.iConfig.ChtSize-1)
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root, prefix = light.GetChtRoot(h.chainDb, index, sectionHead), string(rawdb.ChtTablePrefix)
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case htBloomBits:
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sectionHead := rawdb.ReadCanonicalHash(h.chainDb, (index+1)*h.server.iConfig.BloomTrieSize-1)
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root, prefix = light.GetBloomTrieRoot(h.chainDb, index, sectionHead), string(rawdb.BloomTrieTablePrefix)
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}
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if root == (common.Hash{}) {
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return nil
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}
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trie, _ := trie.New(trie.TrieID(root), trie.NewDatabase(rawdb.NewTable(h.chainDb, prefix)))
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return trie
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}
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// broadcastLoop broadcasts new block information to all connected light
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// clients. According to the agreement between client and server, server should
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// only broadcast new announcement if the total difficulty is higher than the
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// last one. Besides server will add the signature if client requires.
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func (h *serverHandler) broadcastLoop() {
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defer h.wg.Done()
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headCh := make(chan core.ChainHeadEvent, 10)
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headSub := h.blockchain.SubscribeChainHeadEvent(headCh)
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defer headSub.Unsubscribe()
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var (
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lastHead = h.blockchain.CurrentHeader()
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lastTd = common.Big0
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)
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for {
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select {
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case ev := <-headCh:
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header := ev.Block.Header()
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hash, number := header.Hash(), header.Number.Uint64()
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td := h.blockchain.GetTd(hash, number)
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if td == nil || td.Cmp(lastTd) <= 0 {
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continue
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}
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var reorg uint64
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if lastHead != nil {
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// If a setHead has been performed, the common ancestor can be nil.
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if ancestor := rawdb.FindCommonAncestor(h.chainDb, header, lastHead); ancestor != nil {
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reorg = lastHead.Number.Uint64() - ancestor.Number.Uint64()
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}
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}
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lastHead, lastTd = header, td
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log.Debug("Announcing block to peers", "number", number, "hash", hash, "td", td, "reorg", reorg)
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h.server.peers.broadcast(announceData{Hash: hash, Number: number, Td: td, ReorgDepth: reorg})
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case <-h.closeCh:
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return
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}
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}
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}
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