package blockstore import ( "context" "github.com/ipfs/go-cid" ds "github.com/ipfs/go-datastore" blockstore "github.com/ipfs/go-ipfs-blockstore" logging "github.com/ipfs/go-log/v2" ) var log = logging.Logger("blockstore") // Blockstore is the blockstore interface used by Lotus. It is the union // of the basic go-ipfs blockstore, with other capabilities required by Lotus, // e.g. View or Sync. type Blockstore interface { blockstore.Blockstore blockstore.Viewer BatchDeleter } // BasicBlockstore is an alias to the original IPFS Blockstore. type BasicBlockstore = blockstore.Blockstore type Viewer = blockstore.Viewer type BatchDeleter interface { DeleteMany(ctx context.Context, cids []cid.Cid) error } // BlockstoreIterator is a trait for efficient iteration type BlockstoreIterator interface { ForEachKey(func(cid.Cid) error) error } // BlockstoreGC is a trait for blockstores that support online garbage collection type BlockstoreGC interface { CollectGarbage(ctx context.Context, options ...BlockstoreGCOption) error } // BlockstoreGCOnce is a trait for a blockstore that supports incremental online garbage collection type BlockstoreGCOnce interface { GCOnce(ctx context.Context, options ...BlockstoreGCOption) error } // BlockstoreGCOption is a functional interface for controlling blockstore GC options type BlockstoreGCOption = func(*BlockstoreGCOptions) error // BlockstoreGCOptions is a struct with GC options type BlockstoreGCOptions struct { FullGC bool // fraction of garbage in badger vlog before its worth processing in online GC Threshold float64 } func WithFullGC(fullgc bool) BlockstoreGCOption { return func(opts *BlockstoreGCOptions) error { opts.FullGC = fullgc return nil } } func WithThreshold(threshold float64) BlockstoreGCOption { return func(opts *BlockstoreGCOptions) error { opts.Threshold = threshold return nil } } // BlockstoreSize is a trait for on-disk blockstores that can report their size type BlockstoreSize interface { Size() (int64, error) } // WrapIDStore wraps the underlying blockstore in an "identity" blockstore. // The ID store filters out all puts for blocks with CIDs using the "identity" // hash function. It also extracts inlined blocks from CIDs using the identity // hash function and returns them on get/has, ignoring the contents of the // blockstore. func WrapIDStore(bstore blockstore.Blockstore) Blockstore { if is, ok := bstore.(*idstore); ok { // already wrapped return is } if bs, ok := bstore.(Blockstore); ok { // we need to wrap our own because we don't want to neuter the DeleteMany method // the underlying blockstore has implemented an (efficient) DeleteMany return NewIDStore(bs) } // The underlying blockstore does not implement DeleteMany, so we need to shim it. // This is less efficient as it'll iterate and perform single deletes. return NewIDStore(Adapt(bstore)) } // FromDatastore creates a new blockstore backed by the given datastore. func FromDatastore(dstore ds.Batching) Blockstore { return WrapIDStore(blockstore.NewBlockstore(dstore)) } type adaptedBlockstore struct { blockstore.Blockstore } var _ Blockstore = (*adaptedBlockstore)(nil) func (a *adaptedBlockstore) View(ctx context.Context, cid cid.Cid, callback func([]byte) error) error { blk, err := a.Get(ctx, cid) if err != nil { return err } return callback(blk.RawData()) } func (a *adaptedBlockstore) DeleteMany(ctx context.Context, cids []cid.Cid) error { for _, cid := range cids { err := a.DeleteBlock(ctx, cid) if err != nil { return err } } return nil } // Adapt adapts a standard blockstore to a Lotus blockstore by // enriching it with the extra methods that Lotus requires (e.g. View, Sync). // // View proxies over to Get and calls the callback with the value supplied by Get. // Sync noops. func Adapt(bs blockstore.Blockstore) Blockstore { if ret, ok := bs.(Blockstore); ok { return ret } return &adaptedBlockstore{bs} }