lotus/blockstore/blockstore.go
Jorropo 6c01310728
chore: migrate to boxo
This migrates everything except the `go-car` librairy: https://github.com/ipfs/boxo/issues/218#issuecomment-1529922103

I didn't migrated everything in the previous release because all the boxo code wasn't compatible with the go-ipld-prime one due to a an in flight (/ aftermath) revert of github.com/ipfs/go-block-format. go-block-format has been unmigrated since slight bellow absolutely everything depends on it that would have required everything to be moved on boxo or everything to optin into using boxo which were all deal breakers for different groups.

This worked fine because lotus's codebase could live hapely on the first multirepo setup however boost is now trying to use boxo's code with lotus's (still on multirepo) setup: https://filecoinproject.slack.com/archives/C03AQ3QAUG1/p1685022344779649

The alternative would be for boost to write shim types which just forward calls and return with the different interface definitions.

Btw why is that an issue in the first place is because unlike what go's duck typing model suggest interfaces are not transparent https://github.com/golang/go/issues/58112, interfaces are strongly typed but they have implicit narrowing. The issue is if you return an interface from an interface Go does not have a function definition to insert the implicit conversion thus instead the type checker complains you are not returning the right type.

Stubbing types were reverted https://github.com/ipfs/boxo/issues/218#issuecomment-1478650351

Last time I only migrated `go-bitswap` to `boxo/bitswap` because of the security issues and because we never had the interface return an interface problem (we had concrete wrappers where the implicit conversion took place).
2023-06-19 14:45:05 -07:00

170 lines
4.5 KiB
Go

package blockstore
import (
"context"
"time"
blockstore "github.com/ipfs/boxo/blockstore"
"github.com/ipfs/go-cid"
ds "github.com/ipfs/go-datastore"
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
Flusher
}
// BasicBlockstore is an alias to the original IPFS Blockstore.
type BasicBlockstore = blockstore.Blockstore
type Viewer = blockstore.Viewer
type Flusher interface {
Flush(context.Context) error
}
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
// how often to call the check function
CheckFreq time.Duration
// function to call periodically to pause or early terminate GC
Check func() error
}
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
}
}
func WithCheckFreq(f time.Duration) BlockstoreGCOption {
return func(opts *BlockstoreGCOptions) error {
opts.CheckFreq = f
return nil
}
}
func WithCheck(check func() error) BlockstoreGCOption {
return func(opts *BlockstoreGCOptions) error {
opts.Check = check
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) Flush(ctx context.Context) error {
if flusher, canFlush := a.Blockstore.(Flusher); canFlush {
return flusher.Flush(ctx)
}
return 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}
}