lbcd/blockmanager.go

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// Copyright (c) 2013 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package main
import (
"container/list"
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"github.com/conformal/btcchain"
"github.com/conformal/btcdb"
"github.com/conformal/btcutil"
"github.com/conformal/btcwire"
"os"
"path/filepath"
"sync"
"sync/atomic"
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"time"
)
const (
chanBufferSize = 50
// blockDbNamePrefix is the prefix for the block database name. The
// database type is appended to this value to form the full block
// database name.
blockDbNamePrefix = "blocks"
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)
// newPeerMsg signifies a newly connected peer to the block handler.
type newPeerMsg struct {
peer *peer
}
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// blockMsg packages a bitcoin block message and the peer it came from together
// so the block handler has access to that information.
type blockMsg struct {
block *btcutil.Block
peer *peer
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}
// invMsg packages a bitcoin inv message and the peer it came from together
// so the block handler has access to that information.
type invMsg struct {
inv *btcwire.MsgInv
peer *peer
}
// donePeerMsg signifies a newly disconnected peer to the block handler.
type donePeerMsg struct {
peer *peer
}
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// txMsg packages a bitcoin tx message and the peer it came from together
// so the block handler has access to that information.
type txMsg struct {
msg *btcwire.MsgTx
peer *peer
}
// blockManager provides a concurrency safe block manager for handling all
// incoming blocks.
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type blockManager struct {
server *server
started int32
shutdown int32
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blockChain *btcchain.BlockChain
blockPeer map[btcwire.ShaHash]*peer
requestedBlocks map[btcwire.ShaHash]bool
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receivedLogBlocks int64
receivedLogTx int64
lastBlockLogTime time.Time
processingReqs bool
syncPeer *peer
msgChan chan interface{}
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wg sync.WaitGroup
quit chan bool
}
// startSync will choose the best peer among the available candidate peers to
// download/sync the blockchain from. When syncing is already running, it
// simply returns. It also examines the candidates for any which are no longer
// candidates and removes them as needed.
func (b *blockManager) startSync(peers *list.List) {
// Return now if we're already syncing.
if b.syncPeer != nil {
return
}
// Find the height of the current known best block.
_, height, err := b.server.db.NewestSha()
if err != nil {
log.Errorf("[BMGR] %v", err)
return
}
var bestPeer *peer
for e := peers.Front(); e != nil; e = e.Next() {
p := e.Value.(*peer)
// Remove sync candidate peers that are no longer candidates due
// to passing their latest known block.
if p.lastBlock <= int32(height) {
peers.Remove(e)
continue
}
// TODO(davec): Use a better algorithm to choose the best peer.
// For now, just pick the first available candidate.
bestPeer = p
}
// Start syncing from the best peer if one was selected.
if bestPeer != nil {
locator, err := b.blockChain.LatestBlockLocator()
if err != nil {
log.Errorf("[BMGR] Failed to get block locator for the "+
"latest block: %v", err)
return
}
log.Infof("[BMGR] Syncing to block height %d from peer %v",
bestPeer.lastBlock, bestPeer.addr)
bestPeer.PushGetBlocksMsg(locator, &zeroHash)
b.syncPeer = bestPeer
}
}
// handleNewPeerMsg deals with new peers that have signalled they may
// be considered as a sync peer (they have already successfully negotiated). It
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// also starts syncing if needed. It is invoked from the syncHandler goroutine.
func (b *blockManager) handleNewPeerMsg(peers *list.List, p *peer) {
// Ignore if in the process of shutting down.
if atomic.LoadInt32(&b.shutdown) != 0 {
return
}
log.Infof("[BMGR] New valid peer %s", p)
// The peer is not a candidate for sync if it's not a full node.
if p.services&btcwire.SFNodeNetwork != btcwire.SFNodeNetwork {
return
}
// Add the peer as a candidate to sync from.
peers.PushBack(p)
// Start syncing by choosing the best candidate if needed.
b.startSync(peers)
}
// handleDonePeerMsg deals with peers that have signalled they are done. It
// removes the peer as a candidate for syncing and in the case where it was
// the current sync peer, attempts to select a new best peer to sync from. It
// is invoked from the syncHandler goroutine.
func (b *blockManager) handleDonePeerMsg(peers *list.List, p *peer) {
// Remove the peer from the list of candidate peers.
for e := peers.Front(); e != nil; e = e.Next() {
if e.Value == p {
peers.Remove(e)
break
}
}
log.Infof("[BMGR] Lost peer %s", p)
// Attempt to find a new peer to sync from if the quitting peer is the
// sync peer.
if b.syncPeer != nil && b.syncPeer == p {
b.syncPeer = nil
b.startSync(peers)
}
// remove requested blocks from the global map so that they will be
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// fetched from elsewhere next time we get an inv.
// TODO(oga) we could possibly here check which peers have these blocks
// and request them now to speed things up a little.
for k := range p.requestedBlocks {
delete(b.requestedBlocks, k)
}
}
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// logBlockHeight logs a new block height as an information message to show
// progress to the user. In order to prevent spam, it limits logging to one
// message every 10 seconds with duration and totals included.
func (b *blockManager) logBlockHeight(numTx, height int64) {
b.receivedLogBlocks++
b.receivedLogTx += numTx
now := time.Now()
duration := now.Sub(b.lastBlockLogTime)
if duration < time.Second*10 {
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return
}
// Log information about new block height.
blockStr := "blocks"
if b.receivedLogBlocks == 1 {
blockStr = "block"
}
txStr := "transactions"
if b.receivedLogTx == 1 {
txStr = "transaction"
}
log.Infof("[BMGR] Processed %d %s (%d %s) in the last %s - Block "+
"height %d", b.receivedLogBlocks, blockStr, b.receivedLogTx,
txStr, duration, height)
b.receivedLogBlocks = 0
b.receivedLogTx = 0
b.lastBlockLogTime = now
}
// handleBlockMsg handles block messages from all peers.
func (b *blockManager) handleBlockMsg(bmsg *blockMsg) {
// Keep track of which peer the block was sent from so the notification
// handler can request the parent blocks from the appropriate peer.
blockSha, _ := bmsg.block.Sha()
// If we didn't ask for this block then the peer is misbehaving.
if _, ok := bmsg.peer.requestedBlocks[*blockSha]; !ok {
// The regression test intentionally sends some blocks twice
// to test duplicate block insertion fails. Don't disconnect
// the peer or ignore the block when we're in regression test
// mode in this case so the chain code is actually fed the
// duplicate blocks.
if !cfg.RegressionTest {
log.Warnf("[BMGR] Got unrequested block %v from %s -- "+
"disconnecting", blockSha, bmsg.peer.addr)
bmsg.peer.Disconnect()
return
}
}
b.blockPeer[*blockSha] = bmsg.peer
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// Process the block to include validation, best chain selection, orphan
// handling, etc.
err := b.blockChain.ProcessBlock(bmsg.block)
// Remove block from request maps. Either chain knows about it and such
// we shouldn't have any more instances of trying to fetch it, or we
// failed to insert and thus we'll retry next time we get an inv.
delete(bmsg.peer.requestedBlocks, *blockSha)
delete(b.requestedBlocks, *blockSha)
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if err != nil {
delete(b.blockPeer, *blockSha)
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log.Warnf("[BMGR] Failed to process block %v: %v", blockSha, err)
return
}
// Don't keep track of the peer that sent the block any longer if it's
// not an orphan.
if !b.blockChain.IsKnownOrphan(blockSha) {
delete(b.blockPeer, *blockSha)
}
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// Log info about the new block height.
_, height, err := b.server.db.NewestSha()
if err != nil {
log.Warnf("[BMGR] Failed to obtain latest sha - %v", err)
return
}
b.logBlockHeight(int64(len(bmsg.block.MsgBlock().Transactions)), height)
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// Sync the db to disk.
b.server.db.Sync()
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}
// handleInvMsg handles inv messages from all peers.
// We examine the inventory advertised by the remote peer and act accordingly.
//
// NOTE: This will need to have tx handling added as well when they are
// supported.
func (b *blockManager) handleInvMsg(imsg *invMsg) {
// Ignore invs from peers that aren't the sync if we are not current.
// Helps prevent fetching a mass of orphans.
if imsg.peer != b.syncPeer && !b.blockChain.IsCurrent() {
return
}
// Attempt to find the final block in the inventory list. There may
// not be one.
lastBlock := -1
invVects := imsg.inv.InvList
for i := len(invVects) - 1; i >= 0; i-- {
if invVects[i].Type == btcwire.InvVect_Block {
lastBlock = i
break
}
}
// Request the advertised inventory if we don't already have it. Also,
// request parent blocks of orphans if we receive one we already have.
// Finally, attempt to detect potential stalls due to long side chains
// we already have and request more blocks to prevent them.
for i, iv := range invVects {
switch iv.Type {
case btcwire.InvVect_Block:
// Add the inventory to the cache of known inventory
// for the peer.
imsg.peer.addKnownInventory(iv)
// Request the inventory if we don't already have it.
if !b.blockChain.HaveInventory(iv) {
// Add it to the request queue.
imsg.peer.requestQueue.PushBack(iv)
continue
}
// The block is an orphan block that we already have.
// When the existing orphan was processed, it requested
// the missing parent blocks. When this scenario
// happens, it means there were more blocks missing
// than are allowed into a single inventory message. As
// a result, once this peer requested the final
// advertised block, the remote peer noticed and is now
// resending the orphan block as an available block
// to signal there are more missing blocks that need to
// be requested.
if b.blockChain.IsKnownOrphan(&iv.Hash) {
// Request blocks starting at the latest known
// up to the root of the orphan that just came
// in.
orphanRoot := b.blockChain.GetOrphanRoot(
&iv.Hash)
locator, err := b.blockChain.LatestBlockLocator()
if err != nil {
log.Errorf("[PEER] Failed to get block "+
"locator for the latest block: "+
"%v", err)
continue
}
imsg.peer.PushGetBlocksMsg(locator, orphanRoot)
continue
}
// We already have the final block advertised by this
// inventory message, so force a request for more. This
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// should only happen if we're on a really long side
// chain.
if i == lastBlock {
// Request blocks after this one up to the
// final one the remote peer knows about (zero
// stop hash).
locator := b.blockChain.BlockLocatorFromHash(
&iv.Hash)
imsg.peer.PushGetBlocksMsg(locator, &zeroHash)
}
// Ignore unsupported inventory types.
default:
continue
}
}
// Request as much as possible at once. Anything that won't fit into
// the request will be requested on the next inv message.
numRequested := 0
gdmsg := btcwire.NewMsgGetData()
for e := imsg.peer.requestQueue.Front(); e != nil; e = imsg.peer.requestQueue.Front() {
iv := e.Value.(*btcwire.InvVect)
imsg.peer.requestQueue.Remove(e)
// check that no one else has asked for this. if so we don't
// need to ask.
if _, exists := b.requestedBlocks[iv.Hash]; !exists {
b.requestedBlocks[iv.Hash] = true
imsg.peer.requestedBlocks[iv.Hash] = true
gdmsg.AddInvVect(iv)
numRequested++
}
if numRequested >= btcwire.MaxInvPerMsg {
break
}
}
if len(gdmsg.InvList) > 0 {
imsg.peer.QueueMessage(gdmsg)
}
}
// blockHandler is the main handler for the block manager. It must be run
// as a goroutine. It processes block and inv messages in a separate goroutine
// from the peer handlers so the block (MsgBlock) and tx (MsgTx) messages are
// handled by a single thread without needing to lock memory data structures.
// This is important because the block manager controls which blocks are needed
// and how the fetching should proceed.
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//
// NOTE: Tx messages need to be handled here too.
// (either that or block and tx need to be handled in separate threads)
func (b *blockManager) blockHandler() {
candidatePeers := list.New()
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out:
for {
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select {
case m := <-b.msgChan:
switch msg := m.(type) {
case *newPeerMsg:
b.handleNewPeerMsg(candidatePeers, msg.peer)
case *blockMsg:
b.handleBlockMsg(msg)
msg.peer.blockProcessed <- true
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case *invMsg:
b.handleInvMsg(msg)
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case *donePeerMsg:
b.handleDonePeerMsg(candidatePeers, msg.peer)
default:
// bitch and whine.
}
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case <-b.quit:
break out
}
}
b.wg.Done()
log.Trace("[BMGR] Block handler done")
}
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// handleNotifyMsg handles notifications from btcchain. It does things such
// as request orphan block parents and relay accepted blocks to connected peers.
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func (b *blockManager) handleNotifyMsg(notification *btcchain.Notification) {
switch notification.Type {
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// An orphan block has been accepted by the block chain. Request
// its parents from the peer that sent it.
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case btcchain.NTOrphanBlock:
orphanHash := notification.Data.(*btcwire.ShaHash)
if peer, exists := b.blockPeer[*orphanHash]; exists {
orphanRoot := b.blockChain.GetOrphanRoot(orphanHash)
locator, err := b.blockChain.LatestBlockLocator()
if err != nil {
log.Errorf("[BMGR] Failed to get block locator "+
"for the latest block: %v", err)
break
}
peer.PushGetBlocksMsg(locator, orphanRoot)
delete(b.blockPeer, *orphanRoot)
} else {
log.Warnf("Notification for orphan %v with no peer",
orphanHash)
}
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// A block has been accepted into the block chain. Relay it to other
// peers.
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case btcchain.NTBlockAccepted:
// Don't relay if we are not current. Other peers that are
// current should already know about it.
if !b.blockChain.IsCurrent() {
return
}
block, ok := notification.Data.(*btcutil.Block)
if !ok {
log.Warnf("[BMGR] Chain notification type not a block.")
break
}
// It's ok to ignore the error here since the notification is
// coming from the chain code which has already cached the hash.
hash, _ := block.Sha()
// Generate the inventory vector and relay it.
iv := btcwire.NewInvVect(btcwire.InvVect_Block, hash)
b.server.RelayInventory(iv)
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}
}
// NewPeer informs the blockmanager of a newly active peer.
func (b *blockManager) NewPeer(p *peer) {
// Ignore if we are shutting down.
if atomic.LoadInt32(&b.shutdown) != 0 {
return
}
b.msgChan <- &newPeerMsg{peer: p}
}
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// QueueBlock adds the passed block message and peer to the block handling queue.
func (b *blockManager) QueueBlock(block *btcutil.Block, p *peer) {
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// Don't accept more blocks if we're shutting down.
if atomic.LoadInt32(&b.shutdown) != 0 {
p.blockProcessed <- false
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return
}
bmsg := blockMsg{block: block, peer: p}
b.msgChan <- &bmsg
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}
// QueueInv adds the passed inv message and peer to the block handling queue.
func (b *blockManager) QueueInv(inv *btcwire.MsgInv, p *peer) {
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// No channel handling here because peers do not need to block on inv
// messages.
if atomic.LoadInt32(&b.shutdown) != 0 {
return
}
imsg := invMsg{inv: inv, peer: p}
b.msgChan <- &imsg
}
// DonePeer informs the blockmanager that a peer has disconnected.
func (b *blockManager) DonePeer(p *peer) {
// Ignore if we are shutting down.
if atomic.LoadInt32(&b.shutdown) != 0 {
return
}
b.msgChan <- &donePeerMsg{peer: p}
}
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// Start begins the core block handler which processes block and inv messages.
func (b *blockManager) Start() {
// Already started?
if atomic.AddInt32(&b.started, 1) != 1 {
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return
}
log.Trace("[BMGR] Starting block manager")
b.wg.Add(1)
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go b.blockHandler()
}
// Stop gracefully shuts down the block manager by stopping all asynchronous
// handlers and waiting for them to finish.
func (b *blockManager) Stop() error {
if atomic.AddInt32(&b.shutdown, 1) != 1 {
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log.Warnf("[BMGR] Block manager is already in the process of " +
"shutting down")
return nil
}
log.Infof("[BMGR] Block manager shutting down")
close(b.quit)
b.wg.Wait()
return nil
}
// newBlockManager returns a new bitcoin block manager.
// Use Start to begin processing asynchronous block and inv updates.
func newBlockManager(s *server) (*blockManager, error) {
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bm := blockManager{
server: s,
blockPeer: make(map[btcwire.ShaHash]*peer),
requestedBlocks: make(map[btcwire.ShaHash]bool),
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lastBlockLogTime: time.Now(),
msgChan: make(chan interface{}, cfg.MaxPeers*3),
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quit: make(chan bool),
}
bm.blockChain = btcchain.New(s.db, s.btcnet, bm.handleNotifyMsg)
log.Infof("[BMGR] Generating initial block node index. This may " +
"take a while...")
err := bm.blockChain.GenerateInitialIndex()
if err != nil {
return nil, err
}
log.Infof("[BMGR] Block index generation complete")
return &bm, nil
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}
// removeRegressionDB removes the existing regression test database if running
// in regression test mode and it already exists.
func removeRegressionDB(dbPath string) error {
// Dont do anything if not in regression test mode.
if !cfg.RegressionTest {
return nil
}
// Remove the old regression test database if it already exists.
fi, err := os.Stat(dbPath)
if err == nil {
log.Infof("[BMGR] Removing regression test database from '%s'", dbPath)
if fi.IsDir() {
err := os.RemoveAll(dbPath)
if err != nil {
return err
}
} else {
err := os.Remove(dbPath)
if err != nil {
return err
}
}
}
return nil
}
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// loadBlockDB opens the block database and returns a handle to it.
func loadBlockDB() (btcdb.Db, error) {
// The database name is based on the database type.
dbName := blockDbNamePrefix + "_" + cfg.DbType
if cfg.DbType == "sqlite" {
dbName = dbName + ".db"
}
dbPath := filepath.Join(cfg.DataDir, dbName)
// The regression test is special in that it needs a clean database for
// each run, so remove it now if it already exists.
removeRegressionDB(dbPath)
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log.Infof("[BMGR] Loading block database from '%s'", dbPath)
db, err := btcdb.OpenDB(cfg.DbType, dbPath)
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if err != nil {
// Return the error if it's not because the database doesn't
// exist.
if err != btcdb.DbDoesNotExist {
return nil, err
}
// Create the db if it does not exist.
err = os.MkdirAll(cfg.DataDir, 0700)
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if err != nil {
return nil, err
}
db, err = btcdb.CreateDB(cfg.DbType, dbPath)
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if err != nil {
return nil, err
}
}
// Get the latest block height from the database.
_, height, err := db.NewestSha()
if err != nil {
db.Close()
return nil, err
}
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// Insert the appropriate genesis block for the bitcoin network being
// connected to if needed.
if height == -1 {
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genesis := btcutil.NewBlock(activeNetParams.genesisBlock)
_, err := db.InsertBlock(genesis)
if err != nil {
db.Close()
return nil, err
}
log.Infof("[BMGR] Inserted genesis block %v",
activeNetParams.genesisHash)
height = 0
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}
log.Infof("[BMGR] Block database loaded with block height %d", height)
return db, nil
}