package splitstore import ( "context" "encoding/binary" "errors" "sync" "sync/atomic" "time" "golang.org/x/xerrors" "github.com/ledgerwatch/lmdb-go/lmdb" blocks "github.com/ipfs/go-block-format" cid "github.com/ipfs/go-cid" dstore "github.com/ipfs/go-datastore" logging "github.com/ipfs/go-log/v2" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/store" "github.com/filecoin-project/lotus/chain/types" bstore "github.com/filecoin-project/lotus/lib/blockstore" ) const ( CompactionThreshold = 5 * build.Finality CompactionCold = build.Finality ) var baseEpochKey = dstore.NewKey("baseEpoch") var log = logging.Logger("splitstore") func init() { // TODO temporary for debugging purposes; to be removed for merge. logging.SetLogLevel("splitstore", "DEBUG") } type Config struct { // TrackingStore type; bolt (default) or lmdb TrackingStoreType string // LiveSet type; bloom (default), bolt, or lmdb LiveSetType string // perform full reachability analysis (expensive) for compaction // You should enable this option if you plan to use the splitstore without a backing coldstore EnableFullCompaction bool // EXPERIMENTAL enable pruning of unreachable objects. // This has not been sufficiently tested yet; only enable if you know what you are doing. // Only applies if you enable full compaction. EnableGC bool // full archival nodes should enable this if EnableFullCompaction is enabled // do NOT enable this if you synced from a snapshot. // Only applies if you enabled full compaction Archival bool } type SplitStore struct { compacting int32 fullCompaction bool enableGC bool skipOldMsgs bool skipMsgReceipts bool baseEpoch abi.ChainEpoch mx sync.Mutex curTs *types.TipSet cs *store.ChainStore ds dstore.Datastore hot bstore.Blockstore cold bstore.Blockstore snoop TrackingStore env LiveSetEnv } var _ bstore.Blockstore = (*SplitStore)(nil) // NewSplitStore creates a new SplitStore instance, given a path for the hotstore dbs and a cold // blockstore. The SplitStore must be attached to the ChainStore with Start in order to trigger // compaction. func NewSplitStore(path string, ds dstore.Datastore, cold, hot bstore.Blockstore, cfg *Config) (*SplitStore, error) { // the tracking store snoop, err := NewTrackingStore(path, cfg.TrackingStoreType) if err != nil { return nil, err } // the liveset env env, err := NewLiveSetEnv(path, cfg.LiveSetType) if err != nil { snoop.Close() //nolint:errcheck return nil, err } // and now we can make a SplitStore ss := &SplitStore{ ds: ds, hot: hot, cold: cold, snoop: snoop, env: env, fullCompaction: cfg.EnableFullCompaction, enableGC: cfg.EnableGC, skipOldMsgs: !(cfg.EnableFullCompaction && cfg.Archival), skipMsgReceipts: !(cfg.EnableFullCompaction && cfg.Archival), } return ss, nil } // Blockstore interface func (s *SplitStore) DeleteBlock(cid cid.Cid) error { // afaict we don't seem to be using this method, so it's not implemented return errors.New("DeleteBlock not implemented on SplitStore; don't do this Luke!") //nolint } func (s *SplitStore) Has(cid cid.Cid) (bool, error) { has, err := s.hot.Has(cid) if err != nil || has { return has, err } return s.cold.Has(cid) } func (s *SplitStore) Get(cid cid.Cid) (blocks.Block, error) { blk, err := s.hot.Get(cid) switch err { case nil: return blk, nil case bstore.ErrNotFound: return s.cold.Get(cid) default: return nil, err } } func (s *SplitStore) GetSize(cid cid.Cid) (int, error) { size, err := s.hot.GetSize(cid) switch err { case nil: return size, nil case bstore.ErrNotFound: return s.cold.GetSize(cid) default: return 0, err } } func (s *SplitStore) Put(blk blocks.Block) error { s.mx.Lock() if s.curTs == nil { s.mx.Unlock() return s.cold.Put(blk) } epoch := s.curTs.Height() s.mx.Unlock() err := s.snoop.Put(blk.Cid(), epoch) if err != nil && !lmdb.IsErrno(err, lmdb.KeyExist) { log.Errorf("error tracking CID in hotstore: %s; falling back to coldstore", err) return s.cold.Put(blk) } return s.hot.Put(blk) } func (s *SplitStore) PutMany(blks []blocks.Block) error { s.mx.Lock() if s.curTs == nil { s.mx.Unlock() return s.cold.PutMany(blks) } epoch := s.curTs.Height() s.mx.Unlock() batch := make([]cid.Cid, 0, len(blks)) for _, blk := range blks { batch = append(batch, blk.Cid()) } err := s.snoop.PutBatch(batch, epoch) if err != nil { if lmdb.IsErrno(err, lmdb.KeyExist) { // a write is duplicate, but we don't know which; write each block separately for _, blk := range blks { err = s.Put(blk) if err != nil { return err } } return nil } log.Errorf("error tracking CIDs in hotstore: %s; falling back to coldstore", err) return s.cold.PutMany(blks) } return s.hot.PutMany(blks) } func (s *SplitStore) AllKeysChan(ctx context.Context) (<-chan cid.Cid, error) { ctx, cancel := context.WithCancel(ctx) chHot, err := s.hot.AllKeysChan(ctx) if err != nil { cancel() return nil, err } chCold, err := s.cold.AllKeysChan(ctx) if err != nil { cancel() return nil, err } ch := make(chan cid.Cid) go func() { defer cancel() defer close(ch) for _, in := range []<-chan cid.Cid{chHot, chCold} { for cid := range in { select { case ch <- cid: case <-ctx.Done(): return } } } }() return ch, nil } func (s *SplitStore) HashOnRead(enabled bool) { s.hot.HashOnRead(enabled) s.cold.HashOnRead(enabled) } func (s *SplitStore) View(cid cid.Cid, cb func([]byte) error) error { err := s.hot.View(cid, cb) switch err { case bstore.ErrNotFound: return s.cold.View(cid, cb) default: return err } } // State tracking func (s *SplitStore) Start(cs *store.ChainStore) error { s.cs = cs s.curTs = cs.GetHeaviestTipSet() // load base epoch from metadata ds // if none, then use current epoch because it's a fresh start bs, err := s.ds.Get(baseEpochKey) switch err { case nil: s.baseEpoch = bytesToEpoch(bs) case dstore.ErrNotFound: if s.curTs == nil { // this can happen in some tests break } err = s.setBaseEpoch(s.curTs.Height()) if err != nil { return err } default: return err } // watch the chain cs.SubscribeHeadChanges(s.HeadChange) return nil } func (s *SplitStore) Close() error { if atomic.LoadInt32(&s.compacting) == 1 { log.Warn("ongoing compaction; waiting for it to finish...") for atomic.LoadInt32(&s.compacting) == 1 { time.Sleep(time.Second) } } return s.env.Close() } func (s *SplitStore) HeadChange(revert, apply []*types.TipSet) error { s.mx.Lock() s.curTs = apply[len(apply)-1] epoch := s.curTs.Height() s.mx.Unlock() if !atomic.CompareAndSwapInt32(&s.compacting, 0, 1) { // we are currently compacting, do nothing and wait for the next head change return nil } if epoch-s.baseEpoch > CompactionThreshold { go func() { defer atomic.StoreInt32(&s.compacting, 0) log.Info("compacting splitstore") start := time.Now() s.compact() log.Infow("compaction done", "took", time.Since(start)) }() } else { // no compaction necessary atomic.StoreInt32(&s.compacting, 0) } return nil } // Compaction/GC Algorithm func (s *SplitStore) compact() { if s.fullCompaction { s.compactFull() } else { s.compactSimple() } } func (s *SplitStore) compactSimple() { s.mx.Lock() curTs := s.curTs s.mx.Unlock() coldEpoch := s.baseEpoch + CompactionCold log.Infow("running simple compaction", "currentEpoch", curTs.Height(), "baseEpoch", s.baseEpoch, "coldEpoch", coldEpoch) coldSet, err := s.env.NewLiveSet("cold") if err != nil { // TODO do something better here panic(err) } defer coldSet.Close() //nolint:errcheck // 1. mark reachable cold objects by looking at the objects reachable only from the cold epoch log.Info("marking reachable cold objects") startMark := time.Now() coldTs, err := s.cs.GetTipsetByHeight(context.Background(), coldEpoch, curTs, true) if err != nil { // TODO do something better here panic(err) } err = s.cs.WalkSnapshot(context.Background(), coldTs, 1, s.skipOldMsgs, s.skipMsgReceipts, func(cid cid.Cid) error { return coldSet.Mark(cid) }) if err != nil { // TODO do something better here panic(err) } log.Infow("marking done", "took", time.Since(startMark)) // 2. move cold unreachable objects to the coldstore log.Info("collecting cold objects") startCollect := time.Now() cold := make(map[cid.Cid]struct{}) // some stats for logging var stHot, stCold int // 2.1 iterate through the snoop and collect unreachable cold objects err = s.snoop.ForEach(func(cid cid.Cid, wrEpoch abi.ChainEpoch) error { // is the object stil hot? if wrEpoch > coldEpoch { // yes, stay in the hotstore stHot++ return nil } // check whether it is reachable in the cold boundary mark, err := coldSet.Has(cid) if err != nil { return xerrors.Errorf("error checkiing cold set for %s: %w", cid, err) } if mark { stHot++ return nil } // it's cold, mark it for move cold[cid] = struct{}{} stCold++ return nil }) if err != nil { // TODO do something better here panic(err) } log.Infow("collection done", "took", time.Since(startCollect)) log.Infow("compaction stats", "hot", stHot, "cold", stCold) // 2.2 copy the cold objects to the coldstore log.Info("moving cold objects to the coldstore") startMove := time.Now() const batchSize = 1024 batch := make([]blocks.Block, 0, batchSize) for cid := range cold { blk, err := s.hot.Get(cid) if err != nil { if err == dstore.ErrNotFound { // this can happen if the node is killed after we have deleted the block from the hotstore // but before we have deleted it from the snoop; just delete the snoop. err = s.snoop.Delete(cid) if err != nil { log.Errorf("error deleting cid %s from snoop: %s", cid, err) // TODO do something better here -- just continue? panic(err) } } else { log.Errorf("error retrieving tracked block %s from hotstore: %s", cid, err) // TODO do something better here -- just continue? panic(err) } continue } batch = append(batch, blk) if len(batch) == batchSize { err = s.cold.PutMany(batch) if err != nil { log.Errorf("error putting cold batch to coldstore: %s", err) // TODO do something better here -- just continue? panic(err) } batch = batch[:0] } } if len(batch) > 0 { err = s.cold.PutMany(batch) if err != nil { log.Errorf("error putting cold batch to coldstore: %s", err) // TODO do something better here -- just continue? panic(err) } } log.Infow("moving done", "took", time.Since(startMove)) // 2.3 delete cold objects from the hotstore // TODO we really want batching for this! log.Info("purging cold objects from the hotstore") purgeStart := time.Now() for cid := range cold { // delete the object from the hotstore err = s.hot.DeleteBlock(cid) if err != nil { log.Errorf("error deleting block %s from hotstore: %s", cid, err) // TODO do something better here -- just continue? panic(err) } } log.Infow("purging cold from hotstore done", "took", time.Since(purgeStart)) // 2.4 remove the snoop tracking for cold objects purgeStart = time.Now() log.Info("purging cold objects from snoop") err = s.snoop.DeleteBatch(cold) if err != nil { log.Errorf("error purging cold objects from snoop: %s", err) // TODO do something better here -- just continue? panic(err) } log.Infow("purging cold from snoop done", "took", time.Since(purgeStart)) // we are done; do some housekeeping err = s.snoop.Sync() if err != nil { // TODO do something better here panic(err) } err = s.setBaseEpoch(coldEpoch) if err != nil { // TODO do something better here panic(err) } } func (s *SplitStore) compactFull() { s.mx.Lock() curTs := s.curTs s.mx.Unlock() epoch := curTs.Height() coldEpoch := s.baseEpoch + CompactionCold log.Infow("running full compaction", "currentEpoch", curTs.Height(), "baseEpoch", s.baseEpoch, "coldEpoch", coldEpoch) // create two live sets, one for marking the cold finality region // and one for marking the hot region hotSet, err := s.env.NewLiveSet("hot") if err != nil { // TODO do something better here panic(err) } defer hotSet.Close() //nolint:errcheck coldSet, err := s.env.NewLiveSet("cold") if err != nil { // TODO do something better here panic(err) } defer coldSet.Close() //nolint:errcheck // Phase 1: marking log.Info("marking live objects") startMark := time.Now() // Phase 1a: mark all reachable CIDs in the hot range err = s.cs.WalkSnapshot(context.Background(), curTs, epoch-coldEpoch, s.skipOldMsgs, s.skipMsgReceipts, func(cid cid.Cid) error { return hotSet.Mark(cid) }) if err != nil { // TODO do something better here panic(err) } // Phase 1b: mark all reachable CIDs in the cold range coldTs, err := s.cs.GetTipsetByHeight(context.Background(), coldEpoch, curTs, true) if err != nil { // TODO do something better here panic(err) } err = s.cs.WalkSnapshot(context.Background(), coldTs, CompactionCold, s.skipOldMsgs, s.skipMsgReceipts, func(cid cid.Cid) error { return coldSet.Mark(cid) }) if err != nil { // TODO do something better here panic(err) } log.Infow("marking done", "took", time.Since(startMark)) // Phase 2: sweep cold objects: // - If a cold object is reachable in the hot range, it stays in the hotstore. // - If a cold object is reachable in the cold range, it is moved to the coldstore. // - If a cold object is unreachable, it is deleted if GC is enabled, otherwise moved to the coldstore. startSweep := time.Now() log.Info("sweeping cold objects") // some stats for logging var stHot, stCold, stDead int cold := make(map[cid.Cid]struct{}) dead := make(map[cid.Cid]struct{}) // 2.1 iterate through the snoop and collect cold and dead objects err = s.snoop.ForEach(func(cid cid.Cid, wrEpoch abi.ChainEpoch) error { // is the object stil hot? if wrEpoch > coldEpoch { // yes, stay in the hotstore stHot++ return nil } // the object is cold -- check whether it is reachable in the hot range mark, err := hotSet.Has(cid) if err != nil { return xerrors.Errorf("error checking live mark for %s: %w", cid, err) } if mark { // the object is reachable in the hot range, stay in the hotstore stHot++ return nil } // check whether it is reachable in the cold range mark, err = coldSet.Has(cid) if err != nil { return xerrors.Errorf("error checkiing cold set for %s: %w", cid, err) } if s.enableGC { if mark { // the object is reachable in the cold range, move it to the cold store cold[cid] = struct{}{} stCold++ } else { // the object is dead and will be deleted dead[cid] = struct{}{} stDead++ } } else { // if GC is disabled, we move both cold and dead objects to the coldstore cold[cid] = struct{}{} if mark { stCold++ } else { stDead++ } } return nil }) if err != nil { // TODO do something better here panic(err) } log.Infow("compaction stats", "hot", stHot, "cold", stCold, "dead", stDead) // 2.2 copy the cold objects to the coldstore log.Info("moving cold objects to the coldstore") startMove := time.Now() const batchSize = 1024 batch := make([]blocks.Block, 0, batchSize) for cid := range cold { blk, err := s.hot.Get(cid) if err != nil { if err == dstore.ErrNotFound { // this can happen if the node is killed after we have deleted the block from the hotstore // but before we have deleted it from the snoop; just delete the snoop. err = s.snoop.Delete(cid) if err != nil { log.Errorf("error deleting cid %s from snoop: %s", cid, err) // TODO do something better here -- just continue? panic(err) } } else { log.Errorf("error retrieving tracked block %s from hotstore: %s", cid, err) // TODO do something better here -- just continue? panic(err) } continue } batch = append(batch, blk) if len(batch) == batchSize { err = s.cold.PutMany(batch) if err != nil { log.Errorf("error putting cold batch to coldstore: %s", err) // TODO do something better here -- just continue? panic(err) } batch = batch[:0] } } if len(batch) > 0 { err = s.cold.PutMany(batch) if err != nil { log.Errorf("error putting cold batch to coldstore: %s", err) // TODO do something better here -- just continue? panic(err) } } log.Infow("moving done", "took", time.Since(startMove)) // 2.3 delete cold objects from the hotstore // TODO we really want batching for this! log.Info("purging cold objects from the hotstore") purgeStart := time.Now() for cid := range cold { // delete the object from the hotstore err = s.hot.DeleteBlock(cid) if err != nil { log.Errorf("error deleting block %s from hotstore: %s", cid, err) // TODO do something better here -- just continue? panic(err) } } log.Infow("purging cold from hotstore done", "took", time.Since(purgeStart)) // 2.4 remove the snoop tracking for cold objects purgeStart = time.Now() log.Info("purging cold objects from snoop") err = s.snoop.DeleteBatch(cold) if err != nil { log.Errorf("error purging cold objects from snoop: %s", err) // TODO do something better here -- just continue? panic(err) } log.Infow("purging cold from snoop done", "took", time.Since(purgeStart)) // 3. if we have dead objects, delete them from the hotstore and remove the tracking if len(dead) > 0 { log.Info("deleting dead objects") purgeStart = time.Now() log.Info("purging dead objects from the hotstore") // TODO we really want batching for this! for cid := range dead { // delete the object from the hotstore err = s.hot.DeleteBlock(cid) if err != nil { log.Errorf("error deleting block %s from hotstore: %s", cid, err) // TODO do something better here -- just continue? panic(err) } } log.Infow("purging dead from hotstore done", "took", time.Since(purgeStart)) // remove the snoop tracking purgeStart := time.Now() log.Info("purging dead objects from snoop") err = s.snoop.DeleteBatch(dead) if err != nil { log.Errorf("error purging dead objects from snoop: %s", err) // TODO do something better here -- just continue? panic(err) } log.Infow("purging dead from snoop done", "took", time.Since(purgeStart)) } log.Infow("sweeping done", "took", time.Since(startSweep)) // we are done; do some housekeeping err = s.snoop.Sync() if err != nil { // TODO do something better here panic(err) } err = s.setBaseEpoch(coldEpoch) if err != nil { // TODO do something better here panic(err) } } func (s *SplitStore) setBaseEpoch(epoch abi.ChainEpoch) error { s.baseEpoch = epoch // write to datastore return s.ds.Put(baseEpochKey, epochToBytes(epoch)) } func epochToBytes(epoch abi.ChainEpoch) []byte { buf := make([]byte, 16) n := binary.PutUvarint(buf, uint64(epoch)) return buf[:n] } func bytesToEpoch(buf []byte) abi.ChainEpoch { epoch, n := binary.Uvarint(buf) if n < 0 { panic("bogus base epoch bytes") } return abi.ChainEpoch(epoch) }