lotus/chain/sync.go

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package chain
import (
"bytes"
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"context"
"errors"
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"fmt"
"sort"
"sync"
"time"
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"github.com/Gurpartap/async"
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"github.com/hashicorp/go-multierror"
blocks "github.com/ipfs/go-block-format"
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"github.com/ipfs/go-cid"
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cbor "github.com/ipfs/go-ipld-cbor"
ipld "github.com/ipfs/go-ipld-format"
logging "github.com/ipfs/go-log/v2"
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"github.com/libp2p/go-libp2p/core/connmgr"
"github.com/libp2p/go-libp2p/core/peer"
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cbg "github.com/whyrusleeping/cbor-gen"
"go.opencensus.io/stats"
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"go.opencensus.io/trace"
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"golang.org/x/xerrors"
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"github.com/filecoin-project/go-state-types/crypto"
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"github.com/filecoin-project/pubsub"
"github.com/filecoin-project/lotus/chain/consensus"
"github.com/filecoin-project/lotus/node/modules/dtypes"
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// named msgarray here to make it clear that these are the types used by
// messages, regardless of specs-actors version.
blockadt "github.com/filecoin-project/specs-actors/actors/util/adt"
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"github.com/filecoin-project/lotus/api"
bstore "github.com/filecoin-project/lotus/blockstore"
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"github.com/filecoin-project/lotus/build"
"github.com/filecoin-project/lotus/chain/beacon"
"github.com/filecoin-project/lotus/chain/exchange"
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"github.com/filecoin-project/lotus/chain/stmgr"
"github.com/filecoin-project/lotus/chain/store"
"github.com/filecoin-project/lotus/chain/types"
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"github.com/filecoin-project/lotus/chain/vm"
"github.com/filecoin-project/lotus/metrics"
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)
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var (
// LocalIncoming is the _local_ pubsub (unrelated to libp2p pubsub) topic
// where the Syncer publishes candidate chain heads to be synced.
LocalIncoming = "incoming"
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log = logging.Logger("chain")
concurrentSyncRequests = exchange.ShufflePeersPrefix
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syncRequestBatchSize = 8
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syncRequestRetries = 5
)
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// Syncer is in charge of running the chain synchronization logic. As such, it
// is tasked with these functions, amongst others:
//
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// - Fast-forwards the chain as it learns of new TipSets from the network via
// the SyncManager.
// - Applies the fork choice rule to select the correct side when confronted
// with a fork in the network.
// - Requests block headers and messages from other peers when not available
// in our BlockStore.
// - Tracks blocks marked as bad in a cache.
// - Keeps the BlockStore and ChainStore consistent with our view of the world,
// the latter of which in turn informs other components when a reorg has been
// committed.
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//
// The Syncer does not run workers itself. It's mainly concerned with
// ensuring a consistent state of chain consensus. The reactive and network-
// interfacing processes are part of other components, such as the SyncManager
// (which owns the sync scheduler and sync workers), ChainExchange, the HELLO
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// protocol, and the gossipsub block propagation layer.
//
// {hint/concept} The fork-choice rule as it currently stands is: "pick the
// chain with the heaviest weight, so long as it hasnt deviated one finality
// threshold from our head (900 epochs, parameter determined by spec-actors)".
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type Syncer struct {
// The interface for accessing and putting tipsets into local storage
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store *store.ChainStore
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// handle to the random beacon for verification
beacon beacon.Schedule
// the state manager handles making state queries
sm *stmgr.StateManager
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consensus consensus.Consensus
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// The known Genesis tipset
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Genesis *types.TipSet
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// TipSets known to be invalid
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bad *BadBlockCache
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// handle to the block sync service
Exchange exchange.Client
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self peer.ID
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syncmgr SyncManager
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connmgr connmgr.ConnManager
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incoming *pubsub.PubSub
receiptTracker *blockReceiptTracker
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tickerCtxCancel context.CancelFunc
ds dtypes.MetadataDS
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}
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type SyncManagerCtor func(syncFn SyncFunc) SyncManager
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type Genesis *types.TipSet
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func LoadGenesis(ctx context.Context, sm *stmgr.StateManager) (Genesis, error) {
gen, err := sm.ChainStore().GetGenesis(ctx)
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if err != nil {
return nil, xerrors.Errorf("getting genesis block: %w", err)
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}
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return types.NewTipSet([]*types.BlockHeader{gen})
}
// NewSyncer creates a new Syncer object.
func NewSyncer(ds dtypes.MetadataDS,
sm *stmgr.StateManager,
exchange exchange.Client,
syncMgrCtor SyncManagerCtor,
connmgr connmgr.ConnManager,
self peer.ID,
beacon beacon.Schedule,
gent Genesis,
consensus consensus.Consensus) (*Syncer, error) {
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s := &Syncer{
ds: ds,
beacon: beacon,
bad: NewBadBlockCache(),
Genesis: gent,
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consensus: consensus,
Exchange: exchange,
store: sm.ChainStore(),
sm: sm,
self: self,
receiptTracker: newBlockReceiptTracker(),
connmgr: connmgr,
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incoming: pubsub.New(50),
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}
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s.syncmgr = syncMgrCtor(s.Sync)
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return s, nil
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}
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func (syncer *Syncer) Start() {
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tickerCtx, tickerCtxCancel := context.WithCancel(context.Background())
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syncer.syncmgr.Start()
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syncer.tickerCtxCancel = tickerCtxCancel
go syncer.runMetricsTricker(tickerCtx)
}
func (syncer *Syncer) runMetricsTricker(tickerCtx context.Context) {
genesisTime := time.Unix(int64(syncer.Genesis.MinTimestamp()), 0)
ticker := build.Clock.Ticker(time.Duration(build.BlockDelaySecs) * time.Second)
defer ticker.Stop()
for {
select {
case <-ticker.C:
sinceGenesis := build.Clock.Now().Sub(genesisTime)
expectedHeight := int64(sinceGenesis.Seconds()) / int64(build.BlockDelaySecs)
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stats.Record(tickerCtx, metrics.ChainNodeHeightExpected.M(expectedHeight))
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case <-tickerCtx.Done():
return
}
}
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}
func (syncer *Syncer) Stop() {
syncer.syncmgr.Stop()
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syncer.tickerCtxCancel()
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}
// InformNewHead informs the syncer about a new potential tipset
// This should be called when connecting to new peers, and additionally
// when receiving new blocks from the network
func (syncer *Syncer) InformNewHead(from peer.ID, fts *store.FullTipSet) bool {
defer func() {
if err := recover(); err != nil {
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log.Errorf("panic in InformNewHead: %s", err)
}
}()
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ctx := context.Background()
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if fts == nil {
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log.Errorf("got nil tipset in InformNewHead")
return false
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}
if !syncer.consensus.IsEpochInConsensusRange(fts.TipSet().Height()) {
log.Infof("received block outside of consensus range at height %d", fts.TipSet().Height())
return false
}
for _, b := range fts.Blocks {
if reason, ok := syncer.bad.Has(b.Cid()); ok {
log.Warnf("InformNewHead called on block marked as bad: %s (reason: %s)", b.Cid(), reason)
return false
}
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if err := syncer.ValidateMsgMeta(b); err != nil {
log.Warnf("invalid block received: %s", err)
return false
}
}
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syncer.incoming.Pub(fts.TipSet().Blocks(), LocalIncoming)
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// TODO: IMPORTANT(GARBAGE) this needs to be put in the 'temporary' side of
// the blockstore
if err := syncer.store.PersistTipsets(ctx, []*types.TipSet{fts.TipSet()}); err != nil {
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log.Warn("failed to persist incoming block header: ", err)
return false
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}
syncer.Exchange.AddPeer(from)
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hts := syncer.store.GetHeaviestTipSet()
bestPweight := hts.ParentWeight()
targetWeight := fts.TipSet().ParentWeight()
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if targetWeight.LessThan(bestPweight) {
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var miners []string
for _, blk := range fts.TipSet().Blocks() {
miners = append(miners, blk.Miner.String())
}
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log.Debugw("incoming tipset does not appear to be better than our best chain, ignoring for now", "miners", miners, "bestPweight", bestPweight, "bestTS", hts.Cids(), "incomingWeight", targetWeight, "incomingTS", fts.TipSet().Cids())
return false
}
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syncer.syncmgr.SetPeerHead(ctx, from, fts.TipSet())
return true
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}
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// IncomingBlocks spawns a goroutine that subscribes to the local eventbus to
// receive new block headers as they arrive from the network, and sends them to
// the returned channel.
//
// These blocks have not necessarily been incorporated to our view of the chain.
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func (syncer *Syncer) IncomingBlocks(ctx context.Context) (<-chan *types.BlockHeader, error) {
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sub := syncer.incoming.Sub(LocalIncoming)
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out := make(chan *types.BlockHeader, 10)
go func() {
defer syncer.incoming.Unsub(sub)
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for {
select {
case r := <-sub:
hs := r.([]*types.BlockHeader)
for _, h := range hs {
select {
case out <- h:
case <-ctx.Done():
return
}
}
case <-ctx.Done():
return
}
}
}()
return out, nil
}
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// ValidateMsgMeta performs structural and content hash validation of the
// messages within this block. If validation passes, it stores the messages in
// the underlying IPLD block store.
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func (syncer *Syncer) ValidateMsgMeta(fblk *types.FullBlock) error {
if msgc := len(fblk.BlsMessages) + len(fblk.SecpkMessages); msgc > build.BlockMessageLimit {
return xerrors.Errorf("block %s has too many messages (%d)", fblk.Header.Cid(), msgc)
}
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// TODO: IMPORTANT(GARBAGE). These message puts and the msgmeta
// computation need to go into the 'temporary' side of the blockstore when
// we implement that
// We use a temporary bstore here to avoid writing intermediate pieces
// into the blockstore.
blockstore := bstore.NewMemory()
cst := cbor.NewCborStore(blockstore)
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ctx := context.Background()
var bcids, scids []cid.Cid
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for _, m := range fblk.BlsMessages {
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c, err := store.PutMessage(ctx, blockstore, m)
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if err != nil {
return xerrors.Errorf("putting bls message to blockstore after msgmeta computation: %w", err)
}
bcids = append(bcids, c)
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}
for _, m := range fblk.SecpkMessages {
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c, err := store.PutMessage(ctx, blockstore, m)
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if err != nil {
return xerrors.Errorf("putting bls message to blockstore after msgmeta computation: %w", err)
}
scids = append(scids, c)
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}
// Compute the root CID of the combined message trie.
smroot, err := computeMsgMeta(cst, bcids, scids)
if err != nil {
return xerrors.Errorf("validating msgmeta, compute failed: %w", err)
}
// Check that the message trie root matches with what's in the block.
if fblk.Header.Messages != smroot {
return xerrors.Errorf("messages in full block did not match msgmeta root in header (%s != %s)", fblk.Header.Messages, smroot)
}
// Finally, flush.
return vm.Copy(context.TODO(), blockstore, syncer.store.ChainBlockstore(), smroot)
}
func (syncer *Syncer) LocalPeer() peer.ID {
return syncer.self
}
func (syncer *Syncer) ChainStore() *store.ChainStore {
return syncer.store
}
func (syncer *Syncer) InformNewBlock(from peer.ID, blk *types.FullBlock) bool {
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// TODO: search for other blocks that could form a tipset with this block
// and then send that tipset to InformNewHead
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fts := &store.FullTipSet{Blocks: []*types.FullBlock{blk}}
return syncer.InformNewHead(from, fts)
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}
func copyBlockstore(ctx context.Context, from, to bstore.Blockstore) error {
ctx, span := trace.StartSpan(ctx, "copyBlockstore")
defer span.End()
cids, err := from.AllKeysChan(ctx)
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if err != nil {
return err
}
// TODO: should probably expose better methods on the blockstore for this operation
var blks []blocks.Block
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for c := range cids {
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b, err := from.Get(ctx, c)
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if err != nil {
return err
}
blks = append(blks, b)
}
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if err := to.PutMany(ctx, blks); err != nil {
return err
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}
return nil
}
// TODO: this function effectively accepts unchecked input from the network,
// either validate it here, or ensure that its validated elsewhere (maybe make
// sure the blocksync code checks it?)
// maybe this code should actually live in blocksync??
func zipTipSetAndMessages(bs cbor.IpldStore, ts *types.TipSet, allbmsgs []*types.Message, allsmsgs []*types.SignedMessage, bmi, smi [][]uint64) (*store.FullTipSet, error) {
if len(ts.Blocks()) != len(smi) || len(ts.Blocks()) != len(bmi) {
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return nil, fmt.Errorf("msgincl length didnt match tipset size")
}
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if err := checkMsgMeta(ts, allbmsgs, allsmsgs, bmi, smi); err != nil {
return nil, err
}
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fts := &store.FullTipSet{}
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for bi, b := range ts.Blocks() {
var smsgs []*types.SignedMessage
for _, m := range smi[bi] {
smsgs = append(smsgs, allsmsgs[m])
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}
var bmsgs []*types.Message
for _, m := range bmi[bi] {
bmsgs = append(bmsgs, allbmsgs[m])
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}
fb := &types.FullBlock{
Header: b,
BlsMessages: bmsgs,
SecpkMessages: smsgs,
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}
fts.Blocks = append(fts.Blocks, fb)
}
return fts, nil
}
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// computeMsgMeta computes the root CID of the combined arrays of message CIDs
// of both types (BLS and Secpk).
func computeMsgMeta(bs cbor.IpldStore, bmsgCids, smsgCids []cid.Cid) (cid.Cid, error) {
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// block headers use adt0
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store := blockadt.WrapStore(context.TODO(), bs)
bmArr := blockadt.MakeEmptyArray(store)
smArr := blockadt.MakeEmptyArray(store)
for i, m := range bmsgCids {
c := cbg.CborCid(m)
if err := bmArr.Set(uint64(i), &c); err != nil {
return cid.Undef, err
}
}
for i, m := range smsgCids {
c := cbg.CborCid(m)
if err := smArr.Set(uint64(i), &c); err != nil {
return cid.Undef, err
}
}
bmroot, err := bmArr.Root()
if err != nil {
return cid.Undef, err
}
smroot, err := smArr.Root()
if err != nil {
return cid.Undef, err
}
mrcid, err := store.Put(store.Context(), &types.MsgMeta{
BlsMessages: bmroot,
SecpkMessages: smroot,
})
if err != nil {
return cid.Undef, xerrors.Errorf("failed to put msgmeta: %w", err)
}
return mrcid, nil
}
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// FetchTipSet tries to load the provided tipset from the store, and falls back
// to the network (client) by querying the supplied peer if not found
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// locally.
//
// {hint/usage} This is used from the HELLO protocol, to fetch the greeting
// peer's heaviest tipset if we don't have it.
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func (syncer *Syncer) FetchTipSet(ctx context.Context, p peer.ID, tsk types.TipSetKey) (*store.FullTipSet, error) {
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if fts, err := syncer.tryLoadFullTipSet(ctx, tsk); err == nil {
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return fts, nil
}
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// fall back to the network.
return syncer.Exchange.GetFullTipSet(ctx, p, tsk)
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}
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// tryLoadFullTipSet queries the tipset in the ChainStore, and returns a full
// representation of it containing FullBlocks. If ALL blocks are not found
// locally, it errors entirely with blockstore.ErrNotFound.
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func (syncer *Syncer) tryLoadFullTipSet(ctx context.Context, tsk types.TipSetKey) (*store.FullTipSet, error) {
ts, err := syncer.store.LoadTipSet(ctx, tsk)
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if err != nil {
return nil, err
}
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fts := &store.FullTipSet{}
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for _, b := range ts.Blocks() {
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bmsgs, smsgs, err := syncer.store.MessagesForBlock(ctx, b)
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if err != nil {
return nil, err
}
fb := &types.FullBlock{
Header: b,
BlsMessages: bmsgs,
SecpkMessages: smsgs,
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}
fts.Blocks = append(fts.Blocks, fb)
}
return fts, nil
}
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// Sync tries to advance our view of the chain to `maybeHead`. It does nothing
// if our current head is heavier than the requested tipset, or if we're already
// at the requested head, or if the head is the genesis.
//
// Most of the heavy-lifting logic happens in syncer#collectChain. Refer to the
// godocs on that method for a more detailed view.
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func (syncer *Syncer) Sync(ctx context.Context, maybeHead *types.TipSet) error {
ctx, span := trace.StartSpan(ctx, "chain.Sync")
defer span.End()
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if span.IsRecordingEvents() {
span.AddAttributes(
trace.StringAttribute("tipset", fmt.Sprint(maybeHead.Cids())),
trace.Int64Attribute("height", int64(maybeHead.Height())),
)
}
hts := syncer.store.GetHeaviestTipSet()
if hts.ParentWeight().GreaterThan(maybeHead.ParentWeight()) {
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return nil
}
if syncer.Genesis.Equals(maybeHead) || hts.Equals(maybeHead) {
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return nil
}
if err := syncer.collectChain(ctx, maybeHead, hts, false); err != nil {
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span.AddAttributes(trace.StringAttribute("col_error", err.Error()))
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span.SetStatus(trace.Status{
Code: 13,
Message: err.Error(),
})
return xerrors.Errorf("collectChain failed: %w", err)
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}
// At this point we have accepted and synced to the new `maybeHead`
// (`StageSyncComplete`).
if err := syncer.store.RefreshHeaviestTipSet(ctx, maybeHead.Height()); err != nil {
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span.AddAttributes(trace.StringAttribute("put_error", err.Error()))
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span.SetStatus(trace.Status{
Code: 13,
Message: err.Error(),
})
return xerrors.Errorf("failed to put synced tipset to chainstore: %w", err)
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}
peers := syncer.receiptTracker.GetPeers(maybeHead)
if len(peers) > 0 {
syncer.connmgr.TagPeer(peers[0], "new-block", 40)
for _, p := range peers[1:] {
syncer.connmgr.TagPeer(p, "new-block", 25)
}
}
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return nil
}
func isPermanent(err error) bool {
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return !errors.Is(err, consensus.ErrTemporal)
}
func (syncer *Syncer) ValidateTipSet(ctx context.Context, fts *store.FullTipSet, useCache bool) error {
ctx, span := trace.StartSpan(ctx, "validateTipSet")
defer span.End()
span.AddAttributes(trace.Int64Attribute("height", int64(fts.TipSet().Height())))
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ts := fts.TipSet()
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if ts.Equals(syncer.Genesis) {
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return nil
}
var futures []async.ErrorFuture
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for _, b := range fts.Blocks {
b := b // rebind to a scoped variable
futures = append(futures, async.Err(func() error {
if err := syncer.ValidateBlock(ctx, b, useCache); err != nil {
if isPermanent(err) {
syncer.bad.Add(b.Cid(), NewBadBlockReason([]cid.Cid{b.Cid()}, err.Error()))
}
return xerrors.Errorf("validating block %s: %w", b.Cid(), err)
}
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if err := syncer.sm.ChainStore().AddToTipSetTracker(ctx, b.Header); err != nil {
return xerrors.Errorf("failed to add validated header to tipset tracker: %w", err)
}
return nil
}))
}
for _, f := range futures {
if err := f.AwaitContext(ctx); err != nil {
return err
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}
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}
return nil
}
// ValidateBlock should match up with 'Semantical Validation' in validation.md in the spec
func (syncer *Syncer) ValidateBlock(ctx context.Context, b *types.FullBlock, useCache bool) (err error) {
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defer func() {
// b.Cid() could panic for empty blocks that are used in tests.
if rerr := recover(); rerr != nil {
err = xerrors.Errorf("validate block panic: %w", rerr)
return
}
}()
if useCache {
isValidated, err := syncer.store.IsBlockValidated(ctx, b.Cid())
if err != nil {
return xerrors.Errorf("check block validation cache %s: %w", b.Cid(), err)
}
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if isValidated {
return nil
}
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}
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validationStart := build.Clock.Now()
defer func() {
stats.Record(ctx, metrics.BlockValidationDurationMilliseconds.M(metrics.SinceInMilliseconds(validationStart)))
log.Infow("block validation", "took", time.Since(validationStart), "height", b.Header.Height, "age", time.Since(time.Unix(int64(b.Header.Timestamp), 0)))
}()
ctx, span := trace.StartSpan(ctx, "validateBlock")
defer span.End()
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if err := syncer.consensus.ValidateBlock(ctx, b); err != nil {
return err
}
if useCache {
if err := syncer.store.MarkBlockAsValidated(ctx, b.Cid()); err != nil {
return xerrors.Errorf("caching block validation %s: %w", b.Cid(), err)
}
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}
return nil
}
type syncStateKey struct{}
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func extractSyncState(ctx context.Context) *SyncerState {
v := ctx.Value(syncStateKey{})
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if v != nil {
return v.(*SyncerState)
}
return nil
}
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// collectHeaders collects the headers from the blocks between any two tipsets.
//
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// `incoming` is the heaviest/projected/target tipset we have learned about, and
// `known` is usually an anchor tipset we already have in our view of the chain
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// (which could be the genesis).
//
// collectHeaders checks if portions of the chain are in our ChainStore; falling
// down to the network to retrieve the missing parts. If during the process, any
// portion we receive is in our denylist (bad list), we short-circuit.
//
// {hint/usage}: This is used by collectChain, which is in turn called from the
// main Sync method (Syncer#Sync), so it's a pretty central method.
//
// {hint/logic}: The logic of this method is as follows:
//
// 1. Check that the from tipset is not linked to a parent block known to be
// bad.
// 2. Check the consistency of beacon entries in the from tipset. We check
// total equality of the BeaconEntries in each block.
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// 3. Traverse the chain backwards, for each tipset:
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// 3a. Load it from the chainstore; if found, it move on to its parent.
// 3b. Query our peers via client in batches, requesting up to a
// maximum of 500 tipsets every time.
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//
// Once we've concluded, if we find a mismatching tipset at the height where the
// anchor tipset should be, we are facing a fork, and we invoke Syncer#syncFork
// to resolve it. Refer to the godocs there.
//
// All throughout the process, we keep checking if the received blocks are in
// the deny list, and short-circuit the process if so.
func (syncer *Syncer) collectHeaders(ctx context.Context, incoming *types.TipSet, known *types.TipSet, ignoreCheckpoint bool) ([]*types.TipSet, error) {
ctx, span := trace.StartSpan(ctx, "collectHeaders")
defer span.End()
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ss := extractSyncState(ctx)
span.AddAttributes(
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trace.Int64Attribute("incomingHeight", int64(incoming.Height())),
trace.Int64Attribute("knownHeight", int64(known.Height())),
)
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// Check if the parents of the from block are in the denylist.
// i.e. if a fork of the chain has been requested that we know to be bad.
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for _, pcid := range incoming.Parents().Cids() {
if reason, ok := syncer.bad.Has(pcid); ok {
newReason := reason.Linked("linked to %s", pcid)
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for _, b := range incoming.Cids() {
syncer.bad.Add(b, newReason)
}
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return nil, xerrors.Errorf("chain linked to block marked previously as bad (%s, %s) (reason: %s)", incoming.Cids(), pcid, reason)
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}
}
{
// ensure consistency of beacon entires
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targetBE := incoming.Blocks()[0].BeaconEntries
sorted := sort.SliceIsSorted(targetBE, func(i, j int) bool {
return targetBE[i].Round < targetBE[j].Round
})
if !sorted {
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syncer.bad.Add(incoming.Cids()[0], NewBadBlockReason(incoming.Cids(), "wrong order of beacon entires"))
return nil, xerrors.Errorf("wrong order of beacon entires")
}
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for _, bh := range incoming.Blocks()[1:] {
if len(targetBE) != len(bh.BeaconEntries) {
// cannot mark bad, I think @Kubuxu
return nil, xerrors.Errorf("tipset contained different number for beacon entires")
}
for i, be := range bh.BeaconEntries {
if targetBE[i].Round != be.Round || !bytes.Equal(targetBE[i].Data, be.Data) {
// cannot mark bad, I think @Kubuxu
return nil, xerrors.Errorf("tipset contained different beacon entires")
}
}
}
}
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blockSet := []*types.TipSet{incoming}
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// Parent of the new (possibly better) tipset that we need to fetch next.
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at := incoming.Parents()
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// we want to sync all the blocks until the height above our
// best tipset so far
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untilHeight := known.Height() + 1
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ss.SetHeight(blockSet[len(blockSet)-1].Height())
var acceptedBlocks []cid.Cid
loop:
for blockSet[len(blockSet)-1].Height() > untilHeight {
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for _, bc := range at.Cids() {
if reason, ok := syncer.bad.Has(bc); ok {
newReason := reason.Linked("change contained %s", bc)
for _, b := range acceptedBlocks {
syncer.bad.Add(b, newReason)
}
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return nil, xerrors.Errorf("chain contained block marked previously as bad (%s, %s) (reason: %s)", incoming.Cids(), bc, reason)
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}
}
// If, for some reason, we have a suffix of the chain locally, handle that here
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ts, err := syncer.store.LoadTipSet(ctx, at)
if err == nil {
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acceptedBlocks = append(acceptedBlocks, at.Cids()...)
blockSet = append(blockSet, ts)
at = ts.Parents()
continue
}
if !ipld.IsNotFound(err) {
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log.Warnf("loading local tipset: %s", err)
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}
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// NB: GetBlocks validates that the blocks are in-fact the ones we
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// requested, and that they are correctly linked to one another. It does
// not validate any state transitions.
window := 500
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if gap := int(blockSet[len(blockSet)-1].Height() - untilHeight); gap < window {
window = gap
}
blks, err := syncer.Exchange.GetBlocks(ctx, at, window)
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if err != nil {
// Most likely our peers aren't fully synced yet, but forwarded
// new block message (ideally we'd find better peers)
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log.Errorf("failed to get blocks: %+v", err)
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span.AddAttributes(trace.StringAttribute("error", err.Error()))
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// This error will only be logged above,
return nil, xerrors.Errorf("failed to get blocks: %w", err)
}
log.Info("Got blocks: ", blks[0].Height(), len(blks))
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// Check that the fetched segment of the chain matches what we already
// have. Since we fetch from the head backwards our reassembled chain
// is sorted in reverse here: we have a child -> parent order, our last
// tipset then should be child of the first tipset retrieved.
// FIXME: The reassembly logic should be part of the `client`
// service, the consumer should not be concerned with the
// `MaxRequestLength` limitation, it should just be able to request
// an segment of arbitrary length. The same burden is put on
// `syncFork()` which needs to be aware this as well.
if blockSet[len(blockSet)-1].IsChildOf(blks[0]) == false {
return nil, xerrors.Errorf("retrieved segments of the chain are not connected at heights %d/%d",
blockSet[len(blockSet)-1].Height(), blks[0].Height())
// A successful `GetBlocks()` call is guaranteed to fetch at least
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// one tipset so the access `blks[0]` is safe.
}
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for _, b := range blks {
if b.Height() < untilHeight {
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break loop
}
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for _, bc := range b.Cids() {
if reason, ok := syncer.bad.Has(bc); ok {
newReason := reason.Linked("change contained %s", bc)
for _, b := range acceptedBlocks {
syncer.bad.Add(b, newReason)
}
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return nil, xerrors.Errorf("chain contained block marked previously as bad (%s, %s) (reason: %s)", incoming.Cids(), bc, reason)
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}
}
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blockSet = append(blockSet, b)
}
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acceptedBlocks = append(acceptedBlocks, at.Cids()...)
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ss.SetHeight(blks[len(blks)-1].Height())
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at = blks[len(blks)-1].Parents()
}
base := blockSet[len(blockSet)-1]
if base.Equals(known) {
blockSet = blockSet[:len(blockSet)-1]
base = blockSet[len(blockSet)-1]
}
if base.IsChildOf(known) {
// common case: receiving blocks that are building on top of our best tipset
return blockSet, nil
}
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knownParent, err := syncer.store.LoadTipSet(ctx, known.Parents())
if err != nil {
return nil, xerrors.Errorf("failed to load next local tipset: %w", err)
}
if base.IsChildOf(knownParent) {
// common case: receiving a block that's potentially part of the same tipset as our best block
return blockSet, nil
}
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// We have now ascertained that this is *not* a 'fast forward'
log.Warnf("(fork detected) synced header chain (%s - %d) does not link to our best block (%s - %d)", incoming.Cids(), incoming.Height(), known.Cids(), known.Height())
fork, err := syncer.syncFork(ctx, base, known, ignoreCheckpoint)
if err != nil {
if xerrors.Is(err, ErrForkTooLong) || xerrors.Is(err, ErrForkCheckpoint) {
// TODO: we're marking this block bad in the same way that we mark invalid blocks bad. Maybe distinguish?
log.Warn("adding forked chain to our bad tipset cache")
for _, b := range incoming.Blocks() {
syncer.bad.Add(b.Cid(), NewBadBlockReason(incoming.Cids(), "fork past finality"))
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}
}
return nil, xerrors.Errorf("failed to sync fork: %w", err)
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}
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blockSet = append(blockSet, fork...)
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return blockSet, nil
}
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var ErrForkTooLong = fmt.Errorf("fork longer than threshold")
var ErrForkCheckpoint = fmt.Errorf("fork would require us to diverge from checkpointed block")
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// syncFork tries to obtain the chain fragment that links a fork into a common
// ancestor in our view of the chain.
//
// If the fork is too long (build.ForkLengthThreshold), or would cause us to diverge from the checkpoint (ErrForkCheckpoint),
// we add the entire subchain to the denylist. Else, we find the common ancestor, and add the missing chain
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// fragment until the fork point to the returned []TipSet.
func (syncer *Syncer) syncFork(ctx context.Context, incoming *types.TipSet, known *types.TipSet, ignoreCheckpoint bool) ([]*types.TipSet, error) {
var chkpt *types.TipSet
if !ignoreCheckpoint {
chkpt = syncer.store.GetCheckpoint()
if known.Equals(chkpt) {
return nil, ErrForkCheckpoint
}
}
// TODO: Does this mean we always ask for ForkLengthThreshold blocks from the network, even if we just need, like, 2? Yes.
// Would it not be better to ask in smaller chunks, given that an ~ForkLengthThreshold is very rare?
tips, err := syncer.Exchange.GetBlocks(ctx, incoming.Parents(), int(build.ForkLengthThreshold))
if err != nil {
return nil, err
}
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nts, err := syncer.store.LoadTipSet(ctx, known.Parents())
if err != nil {
return nil, xerrors.Errorf("failed to load next local tipset: %w", err)
}
// Track the fork length on our side of the synced chain to enforce
// `ForkLengthThreshold`. Initialized to 1 because we already walked back
// one tipset from `known` (our synced head).
forkLengthInHead := 1
for cur := 0; cur < len(tips); {
if nts.Height() == 0 {
if !syncer.Genesis.Equals(nts) {
return nil, xerrors.Errorf("somehow synced chain that linked back to a different genesis (bad genesis: %s)", nts.Key())
}
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return nil, xerrors.Errorf("synced chain forked at genesis, refusing to sync; incoming: %s", incoming.Cids())
}
if nts.Equals(tips[cur]) {
return tips[:cur+1], nil
}
if nts.Height() < tips[cur].Height() {
cur++
} else {
// Walk back one block in our synced chain to try to meet the fork's
// height.
forkLengthInHead++
if forkLengthInHead > int(build.ForkLengthThreshold) {
return nil, ErrForkTooLong
}
// We will be forking away from nts, check that it isn't checkpointed
if nts.Equals(chkpt) {
return nil, ErrForkCheckpoint
}
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nts, err = syncer.store.LoadTipSet(ctx, nts.Parents())
if err != nil {
return nil, xerrors.Errorf("loading next local tipset: %w", err)
}
}
}
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return nil, ErrForkTooLong
}
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func (syncer *Syncer) syncMessagesAndCheckState(ctx context.Context, headers []*types.TipSet) error {
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ss := extractSyncState(ctx)
ss.SetHeight(headers[len(headers)-1].Height())
return syncer.iterFullTipsets(ctx, headers, func(ctx context.Context, fts *store.FullTipSet) error {
log.Debugw("validating tipset", "height", fts.TipSet().Height(), "size", len(fts.TipSet().Cids()))
if err := syncer.ValidateTipSet(ctx, fts, true); err != nil {
log.Errorf("failed to validate tipset: %+v", err)
return xerrors.Errorf("message processing failed: %w", err)
}
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stats.Record(ctx, metrics.ChainNodeWorkerHeight.M(int64(fts.TipSet().Height())))
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ss.SetHeight(fts.TipSet().Height())
return nil
})
}
// fills out each of the given tipsets with messages and calls the callback with it
func (syncer *Syncer) iterFullTipsets(ctx context.Context, headers []*types.TipSet, cb func(context.Context, *store.FullTipSet) error) error {
ss := extractSyncState(ctx)
ctx, span := trace.StartSpan(ctx, "iterFullTipsets")
defer span.End()
span.AddAttributes(trace.Int64Attribute("num_headers", int64(len(headers))))
for i := len(headers) - 1; i >= 0; {
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fts, err := syncer.store.TryFillTipSet(ctx, headers[i])
if err != nil {
return err
}
if fts != nil {
if err := cb(ctx, fts); err != nil {
return err
}
i--
continue
}
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2020-09-16 18:04:44 +00:00
batchSize := concurrentSyncRequests * syncRequestBatchSize
if i < batchSize {
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batchSize = i + 1
}
ss.SetStage(api.StageFetchingMessages)
startOffset := i + 1 - batchSize
bstout, batchErr := syncer.fetchMessages(ctx, headers[startOffset:startOffset+batchSize], startOffset)
ss.SetStage(api.StageMessages)
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if batchErr != nil {
return xerrors.Errorf("failed to fetch messages: %w", batchErr)
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}
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for bsi := 0; bsi < len(bstout); bsi++ {
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// temp storage so we don't persist data we dont want to
bs := bstore.NewMemory()
blks := cbor.NewCborStore(bs)
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this := headers[i-bsi]
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bstip := bstout[len(bstout)-(bsi+1)]
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fts, err := zipTipSetAndMessages(blks, this, bstip.Bls, bstip.Secpk, bstip.BlsIncludes, bstip.SecpkIncludes)
if err != nil {
log.Warnw("zipping failed", "error", err, "bsi", bsi, "i", i,
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"height", this.Height(),
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"next-height", i+batchSize)
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return xerrors.Errorf("message processing failed: %w", err)
}
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if err := cb(ctx, fts); err != nil {
return err
}
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if err := persistMessages(ctx, bs, bstip); err != nil {
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return err
}
if err := copyBlockstore(ctx, bs, syncer.store.ChainBlockstore()); err != nil {
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return xerrors.Errorf("message processing failed: %w", err)
}
2019-07-05 14:29:17 +00:00
}
i -= batchSize
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}
2019-07-05 14:29:17 +00:00
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return nil
}
2019-07-05 14:29:17 +00:00
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func checkMsgMeta(ts *types.TipSet, allbmsgs []*types.Message, allsmsgs []*types.SignedMessage, bmi, smi [][]uint64) error {
for bi, b := range ts.Blocks() {
if msgc := len(bmi[bi]) + len(smi[bi]); msgc > build.BlockMessageLimit {
return fmt.Errorf("block %q has too many messages (%d)", b.Cid(), msgc)
}
var smsgCids []cid.Cid
for _, m := range smi[bi] {
smsgCids = append(smsgCids, allsmsgs[m].Cid())
}
var bmsgCids []cid.Cid
for _, m := range bmi[bi] {
bmsgCids = append(bmsgCids, allbmsgs[m].Cid())
}
mrcid, err := computeMsgMeta(cbor.NewCborStore(bstore.NewMemory()), bmsgCids, smsgCids)
if err != nil {
return err
}
if b.Messages != mrcid {
return fmt.Errorf("messages didnt match message root in header for ts %s", ts.Key())
}
}
return nil
}
func (syncer *Syncer) fetchMessages(ctx context.Context, headers []*types.TipSet, startOffset int) ([]*exchange.CompactedMessages, error) {
batchSize := len(headers)
batch := make([]*exchange.CompactedMessages, batchSize)
var wg sync.WaitGroup
var mx sync.Mutex
var batchErr error
start := build.Clock.Now()
for j := 0; j < batchSize; j += syncRequestBatchSize {
wg.Add(1)
go func(j int) {
defer wg.Done()
nreq := syncRequestBatchSize
if j+nreq > batchSize {
nreq = batchSize - j
}
failed := false
for offset := 0; !failed && offset < nreq; {
nextI := j + offset
lastI := j + nreq
var requestErr error
var requestResult []*exchange.CompactedMessages
for retry := 0; requestResult == nil && retry < syncRequestRetries; retry++ {
if retry > 0 {
log.Infof("fetching messages at %d (retry %d)", startOffset+nextI, retry)
} else {
log.Infof("fetching messages at %d", startOffset+nextI)
}
result, err := syncer.Exchange.GetChainMessages(ctx, headers[nextI:lastI])
if err != nil {
requestErr = multierror.Append(requestErr, err)
} else {
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isGood := true
for index, cm := range result {
ts := headers[nextI+index]
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if err := checkMsgMeta(ts, cm.Bls, cm.Secpk, cm.BlsIncludes, cm.SecpkIncludes); err != nil {
log.Errorf("fetched messages not as expected: %s", err)
isGood = false
break
}
}
if isGood {
requestResult = result
}
}
}
mx.Lock()
if requestResult != nil {
copy(batch[j+offset:], requestResult)
offset += len(requestResult)
} else {
log.Errorf("error fetching messages at %d: %s", nextI, requestErr)
batchErr = multierror.Append(batchErr, requestErr)
failed = true
}
mx.Unlock()
}
}(j)
}
wg.Wait()
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if batchErr != nil {
return nil, batchErr
2019-07-31 07:13:49 +00:00
}
2019-07-05 14:29:17 +00:00
2020-09-17 14:35:40 +00:00
log.Infof("fetching messages for %d tipsets at %d done; took %s", batchSize, startOffset, build.Clock.Since(start))
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return batch, nil
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}
2019-07-05 14:29:17 +00:00
func persistMessages(ctx context.Context, bs bstore.Blockstore, bst *exchange.CompactedMessages) error {
_, span := trace.StartSpan(ctx, "persistMessages")
defer span.End()
2020-07-27 15:31:36 +00:00
for _, m := range bst.Bls {
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//log.Infof("putting BLS message: %s", m.Cid())
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if _, err := store.PutMessage(ctx, bs, m); err != nil {
log.Errorf("failed to persist messages: %+v", err)
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return xerrors.Errorf("BLS message processing failed: %w", err)
}
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}
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for _, m := range bst.Secpk {
if m.Signature.Type != crypto.SigTypeSecp256k1 && m.Signature.Type != crypto.SigTypeDelegated {
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return xerrors.Errorf("unknown signature type on message %s: %q", m.Cid(), m.Signature.Type)
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}
//log.Infof("putting secp256k1 message: %s", m.Cid())
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if _, err := store.PutMessage(ctx, bs, m); err != nil {
log.Errorf("failed to persist messages: %+v", err)
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return xerrors.Errorf("secp256k1 message processing failed: %w", err)
}
}
return nil
}
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// collectChain tries to advance our view of the chain to the purported head.
//
// It goes through various stages:
//
// 1. StageHeaders: we proceed in the sync process by requesting block headers
// from our peers, moving back from their heads, until we reach a tipset
// that we have in common (such a common tipset must exist, thought it may
// simply be the genesis block).
//
// If the common tipset is our head, we treat the sync as a "fast-forward",
// else we must drop part of our chain to connect to the peer's head
// (referred to as "forking").
//
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// 2. StagePersistHeaders: now that we've collected the missing headers,
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// augmented by those on the other side of a fork, we persist them to the
// BlockStore.
//
// 3. StageMessages: having acquired the headers and found a common tipset,
// we then move forward, requesting the full blocks, including the messages.
func (syncer *Syncer) collectChain(ctx context.Context, ts *types.TipSet, hts *types.TipSet, ignoreCheckpoint bool) error {
ctx, span := trace.StartSpan(ctx, "collectChain")
defer span.End()
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ss := extractSyncState(ctx)
ss.Init(hts, ts)
headers, err := syncer.collectHeaders(ctx, ts, hts, ignoreCheckpoint)
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if err != nil {
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ss.Error(err)
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return err
}
span.AddAttributes(trace.Int64Attribute("syncChainLength", int64(len(headers))))
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if !headers[0].Equals(ts) {
return xerrors.Errorf("collectChain synced %s, wanted to sync %s", headers[0].Cids(), ts.Cids())
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}
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ss.SetStage(api.StagePersistHeaders)
// Write tipsets from oldest to newest.
if err := syncer.store.PersistTipsets(ctx, headers); err != nil {
err = xerrors.Errorf("failed to persist synced tipset to the chainstore: %w", err)
ss.Error(err)
return err
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}
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ss.SetStage(api.StageMessages)
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if err := syncer.syncMessagesAndCheckState(ctx, headers); err != nil {
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err = xerrors.Errorf("collectChain syncMessages: %w", err)
ss.Error(err)
return err
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}
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ss.SetStage(api.StageSyncComplete)
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log.Debugw("new tipset", "height", ts.Height(), "tipset", types.LogCids(ts.Cids()))
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return nil
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}
func (syncer *Syncer) State() []SyncerStateSnapshot {
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return syncer.syncmgr.State()
}
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// MarkBad manually adds a block to the "bad blocks" cache.
func (syncer *Syncer) MarkBad(blk cid.Cid) {
syncer.bad.Add(blk, NewBadBlockReason([]cid.Cid{blk}, "manually marked bad"))
}
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// UnmarkBad manually adds a block to the "bad blocks" cache.
func (syncer *Syncer) UnmarkBad(blk cid.Cid) {
syncer.bad.Remove(blk)
}
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func (syncer *Syncer) UnmarkAllBad() {
syncer.bad.Purge()
}
func (syncer *Syncer) CheckBadBlockCache(blk cid.Cid) (string, bool) {
bbr, ok := syncer.bad.Has(blk)
return bbr.String(), ok
}