package splitstore import ( "context" "errors" "os" "sync" "sync/atomic" "time" "go.uber.org/multierr" "golang.org/x/xerrors" 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" bstore "github.com/filecoin-project/lotus/blockstore" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/metrics" "go.opencensus.io/stats" ) var ( // baseEpochKey stores the base epoch (last compaction epoch) in the // metadata store. baseEpochKey = dstore.NewKey("/splitstore/baseEpoch") // warmupEpochKey stores whether a hot store warmup has been performed. // On first start, the splitstore will walk the state tree and will copy // all active blocks into the hotstore. warmupEpochKey = dstore.NewKey("/splitstore/warmupEpoch") // markSetSizeKey stores the current estimate for the mark set size. // this is first computed at warmup and updated in every compaction markSetSizeKey = dstore.NewKey("/splitstore/markSetSize") // compactionIndexKey stores the compaction index (serial number) compactionIndexKey = dstore.NewKey("/splitstore/compactionIndex") log = logging.Logger("splitstore") // set this to true if you are debugging the splitstore to enable debug logging enableDebugLog = false // set this to true if you want to track origin stack traces in the write log enableDebugLogWriteTraces = false ) func init() { if os.Getenv("LOTUS_SPLITSTORE_DEBUG_LOG") == "1" { enableDebugLog = true } if os.Getenv("LOTUS_SPLITSTORE_DEBUG_LOG_WRITE_TRACES") == "1" { enableDebugLogWriteTraces = true } } type Config struct { // MarkSetType is the type of mark set to use. // // The default value is "map", which uses an in-memory map-backed markset. // If you are constrained in memory (i.e. compaction runs out of memory), you // can use "badger", which will use a disk-backed markset using badger. // Note that compaction will take quite a bit longer when using the "badger" option, // but that shouldn't really matter (as long as it is under 7.5hrs). MarkSetType string // DiscardColdBlocks indicates whether to skip moving cold blocks to the coldstore. // If the splitstore is running with a noop coldstore then this option is set to true // which skips moving (as it is a noop, but still takes time to read all the cold objects) // and directly purges cold blocks. DiscardColdBlocks bool // HotstoreMessageRetention indicates the hotstore retention policy for messages. // It has the following semantics: // - a value of 0 will only retain messages within the compaction boundary (4 finalities) // - a positive integer indicates the number of finalities, outside the compaction boundary, // for which messages will be retained in the hotstore. HotStoreMessageRetention uint64 // HotstoreFullGCFrequency indicates how frequently (in terms of compactions) to garbage collect // the hotstore using full (moving) GC if supported by the hotstore. // A value of 0 disables full GC entirely. // A positive value is the number of compactions before a full GC is performed; // a value of 1 will perform full GC in every compaction. HotStoreFullGCFrequency uint64 } // ChainAccessor allows the Splitstore to access the chain. It will most likely // be a ChainStore at runtime. type ChainAccessor interface { GetTipsetByHeight(context.Context, abi.ChainEpoch, *types.TipSet, bool) (*types.TipSet, error) GetHeaviestTipSet() *types.TipSet SubscribeHeadChanges(change func(revert []*types.TipSet, apply []*types.TipSet) error) } // hotstore is the interface that must be satisfied by the hot blockstore; it is an extension // of the Blockstore interface with the traits we need for compaction. type hotstore interface { bstore.Blockstore bstore.BlockstoreIterator } type SplitStore struct { compacting int32 // compaction/prune/warmup in progress closing int32 // the splitstore is closing cfg *Config path string mx sync.Mutex warmupEpoch abi.ChainEpoch // protected by mx baseEpoch abi.ChainEpoch // protected by compaction lock headChangeMx sync.Mutex coldPurgeSize int chain ChainAccessor ds dstore.Datastore cold bstore.Blockstore hot hotstore markSetEnv MarkSetEnv markSetSize int64 compactionIndex int64 ctx context.Context cancel func() debug *debugLog // transactional protection for concurrent read/writes during compaction txnLk sync.RWMutex txnViewsMx sync.Mutex txnViewsCond sync.Cond txnViews int txnViewsWaiting bool txnActive bool txnRefsMx sync.Mutex txnRefs map[cid.Cid]struct{} txnMissing map[cid.Cid]struct{} // registered protectors protectors []func(func(cid.Cid) error) error } var _ bstore.Blockstore = (*SplitStore)(nil) // Open opens an existing splistore, or creates a new splitstore. The splitstore // is backed by the provided hot and cold stores. The returned SplitStore MUST be // attached to the ChainStore with Start in order to trigger compaction. func Open(path string, ds dstore.Datastore, hot, cold bstore.Blockstore, cfg *Config) (*SplitStore, error) { // hot blockstore must support the hotstore interface hots, ok := hot.(hotstore) if !ok { // be specific about what is missing if _, ok := hot.(bstore.BlockstoreIterator); !ok { return nil, xerrors.Errorf("hot blockstore does not support efficient iteration: %T", hot) } return nil, xerrors.Errorf("hot blockstore does not support the necessary traits: %T", hot) } // the markset env markSetEnv, err := OpenMarkSetEnv(path, cfg.MarkSetType) if err != nil { return nil, err } // and now we can make a SplitStore ss := &SplitStore{ cfg: cfg, path: path, ds: ds, cold: cold, hot: hots, markSetEnv: markSetEnv, coldPurgeSize: defaultColdPurgeSize, } ss.txnViewsCond.L = &ss.txnViewsMx ss.ctx, ss.cancel = context.WithCancel(context.Background()) if enableDebugLog { ss.debug, err = openDebugLog(path) if err != nil { return nil, err } } return ss, nil } // Blockstore interface func (s *SplitStore) DeleteBlock(_ 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) DeleteMany(_ []cid.Cid) error { // afaict we don't seem to be using this method, so it's not implemented return errors.New("DeleteMany not implemented on SplitStore; don't do this Luke!") //nolint } func (s *SplitStore) Has(cid cid.Cid) (bool, error) { if isIdentiyCid(cid) { return true, nil } s.txnLk.RLock() defer s.txnLk.RUnlock() has, err := s.hot.Has(cid) if err != nil { return has, err } if has { s.trackTxnRef(cid) return true, nil } return s.cold.Has(cid) } func (s *SplitStore) Get(cid cid.Cid) (blocks.Block, error) { if isIdentiyCid(cid) { data, err := decodeIdentityCid(cid) if err != nil { return nil, err } return blocks.NewBlockWithCid(data, cid) } s.txnLk.RLock() defer s.txnLk.RUnlock() blk, err := s.hot.Get(cid) switch err { case nil: s.trackTxnRef(cid) return blk, nil case bstore.ErrNotFound: if s.isWarm() { s.debug.LogReadMiss(cid) } blk, err = s.cold.Get(cid) if err == nil { stats.Record(s.ctx, metrics.SplitstoreMiss.M(1)) } return blk, err default: return nil, err } } func (s *SplitStore) GetSize(cid cid.Cid) (int, error) { if isIdentiyCid(cid) { data, err := decodeIdentityCid(cid) if err != nil { return 0, err } return len(data), nil } s.txnLk.RLock() defer s.txnLk.RUnlock() size, err := s.hot.GetSize(cid) switch err { case nil: s.trackTxnRef(cid) return size, nil case bstore.ErrNotFound: if s.isWarm() { s.debug.LogReadMiss(cid) } size, err = s.cold.GetSize(cid) if err == nil { stats.Record(s.ctx, metrics.SplitstoreMiss.M(1)) } return size, err default: return 0, err } } func (s *SplitStore) Put(blk blocks.Block) error { if isIdentiyCid(blk.Cid()) { return nil } s.txnLk.RLock() defer s.txnLk.RUnlock() err := s.hot.Put(blk) if err != nil { return err } s.debug.LogWrite(blk) s.trackTxnRef(blk.Cid()) return nil } func (s *SplitStore) PutMany(blks []blocks.Block) error { // filter identites idcids := 0 for _, blk := range blks { if isIdentiyCid(blk.Cid()) { idcids++ } } if idcids > 0 { if idcids == len(blks) { // it's all identities return nil } filtered := make([]blocks.Block, 0, len(blks)-idcids) for _, blk := range blks { if isIdentiyCid(blk.Cid()) { continue } filtered = append(filtered, blk) } blks = filtered } batch := make([]cid.Cid, 0, len(blks)) for _, blk := range blks { batch = append(batch, blk.Cid()) } s.txnLk.RLock() defer s.txnLk.RUnlock() err := s.hot.PutMany(blks) if err != nil { return err } s.debug.LogWriteMany(blks) s.trackTxnRefMany(batch) return nil } 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 } seen := cid.NewSet() ch := make(chan cid.Cid, 8) // buffer is arbitrary, just enough to avoid context switches go func() { defer cancel() defer close(ch) for _, in := range []<-chan cid.Cid{chHot, chCold} { for c := range in { // ensure we only emit each key once if !seen.Visit(c) { continue } select { case ch <- c: 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 { if isIdentiyCid(cid) { data, err := decodeIdentityCid(cid) if err != nil { return err } return cb(data) } // views are (optimistically) protected two-fold: // - if there is an active transaction, then the reference is protected. // - if there is no active transaction, active views are tracked in a // wait group and compaction is inhibited from starting until they // have all completed. this is necessary to ensure that a (very) long-running // view can't have its data pointer deleted, which would be catastrophic. // Note that we can't just RLock for the duration of the view, as this could // lead to deadlock with recursive views. s.protectView(cid) defer s.viewDone() err := s.hot.View(cid, cb) switch err { case bstore.ErrNotFound: if s.isWarm() { s.debug.LogReadMiss(cid) } err = s.cold.View(cid, cb) if err == nil { stats.Record(s.ctx, metrics.SplitstoreMiss.M(1)) } return err default: return err } } func (s *SplitStore) isWarm() bool { s.mx.Lock() defer s.mx.Unlock() return s.warmupEpoch > 0 } // State tracking func (s *SplitStore) Start(chain ChainAccessor) error { s.chain = chain curTs := chain.GetHeaviestTipSet() // should we warmup warmup := false // 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 curTs == nil { // this can happen in some tests break } err = s.setBaseEpoch(curTs.Height()) if err != nil { return xerrors.Errorf("error saving base epoch: %w", err) } default: return xerrors.Errorf("error loading base epoch: %w", err) } // load warmup epoch from metadata ds bs, err = s.ds.Get(warmupEpochKey) switch err { case nil: s.warmupEpoch = bytesToEpoch(bs) case dstore.ErrNotFound: warmup = true default: return xerrors.Errorf("error loading warmup epoch: %w", err) } // load markSetSize from metadata ds to provide a size hint for marksets bs, err = s.ds.Get(markSetSizeKey) switch err { case nil: s.markSetSize = bytesToInt64(bs) case dstore.ErrNotFound: default: return xerrors.Errorf("error loading mark set size: %w", err) } // load compactionIndex from metadata ds to provide a hint as to when to perform moving gc bs, err = s.ds.Get(compactionIndexKey) switch err { case nil: s.compactionIndex = bytesToInt64(bs) case dstore.ErrNotFound: // this is potentially an upgrade from splitstore v0; schedule a warmup as v0 has // some issues with hot references leaking into the coldstore. warmup = true default: return xerrors.Errorf("error loading compaction index: %w", err) } log.Infow("starting splitstore", "baseEpoch", s.baseEpoch, "warmupEpoch", s.warmupEpoch) if warmup { err = s.warmup(curTs) if err != nil { return xerrors.Errorf("error starting warmup: %w", err) } } // watch the chain chain.SubscribeHeadChanges(s.HeadChange) return nil } func (s *SplitStore) AddProtector(protector func(func(cid.Cid) error) error) { s.mx.Lock() defer s.mx.Unlock() s.protectors = append(s.protectors, protector) } func (s *SplitStore) Close() error { if !atomic.CompareAndSwapInt32(&s.closing, 0, 1) { // already closing return nil } if atomic.LoadInt32(&s.compacting) == 1 { log.Warn("close with ongoing compaction in progress; waiting for it to finish...") for atomic.LoadInt32(&s.compacting) == 1 { time.Sleep(time.Second) } } s.cancel() return multierr.Combine(s.markSetEnv.Close(), s.debug.Close()) } func (s *SplitStore) checkClosing() error { if atomic.LoadInt32(&s.closing) == 1 { return xerrors.Errorf("splitstore is closing") } return nil } func (s *SplitStore) setBaseEpoch(epoch abi.ChainEpoch) error { s.baseEpoch = epoch return s.ds.Put(baseEpochKey, epochToBytes(epoch)) }