//go:build cgo // +build cgo package ffiwrapper import ( "bufio" "bytes" "context" "crypto/rand" "encoding/base64" "encoding/json" "io" "math/bits" "os" "runtime" "github.com/ipfs/go-cid" "golang.org/x/xerrors" ffi "github.com/filecoin-project/filecoin-ffi" rlepluslazy "github.com/filecoin-project/go-bitfield/rle" commcid "github.com/filecoin-project/go-fil-commcid" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/specs-storage/storage" "github.com/detailyang/go-fallocate" commpffi "github.com/filecoin-project/go-commp-utils/ffiwrapper" "github.com/filecoin-project/go-commp-utils/zerocomm" "github.com/filecoin-project/lotus/extern/sector-storage/fr32" "github.com/filecoin-project/lotus/extern/sector-storage/partialfile" "github.com/filecoin-project/lotus/extern/sector-storage/storiface" ) var _ Storage = &Sealer{} func New(sectors SectorProvider) (*Sealer, error) { sb := &Sealer{ sectors: sectors, stopping: make(chan struct{}), } return sb, nil } func (sb *Sealer) NewSector(ctx context.Context, sector storage.SectorRef) error { // TODO: Allocate the sector here instead of in addpiece return nil } func (sb *Sealer) AddPiece(ctx context.Context, sector storage.SectorRef, existingPieceSizes []abi.UnpaddedPieceSize, pieceSize abi.UnpaddedPieceSize, file storage.Data) (abi.PieceInfo, error) { // TODO: allow tuning those: chunk := abi.PaddedPieceSize(4 << 20) parallel := runtime.NumCPU() var offset abi.UnpaddedPieceSize for _, size := range existingPieceSizes { offset += size } ssize, err := sector.ProofType.SectorSize() if err != nil { return abi.PieceInfo{}, err } maxPieceSize := abi.PaddedPieceSize(ssize) if offset.Padded()+pieceSize.Padded() > maxPieceSize { return abi.PieceInfo{}, xerrors.Errorf("can't add %d byte piece to sector %v with %d bytes of existing pieces", pieceSize, sector, offset) } var done func() var stagedFile *partialfile.PartialFile defer func() { if done != nil { done() } if stagedFile != nil { if err := stagedFile.Close(); err != nil { log.Errorf("closing staged file: %+v", err) } } }() var stagedPath storiface.SectorPaths if len(existingPieceSizes) == 0 { stagedPath, done, err = sb.sectors.AcquireSector(ctx, sector, 0, storiface.FTUnsealed, storiface.PathSealing) if err != nil { return abi.PieceInfo{}, xerrors.Errorf("acquire unsealed sector: %w", err) } stagedFile, err = partialfile.CreatePartialFile(maxPieceSize, stagedPath.Unsealed) if err != nil { return abi.PieceInfo{}, xerrors.Errorf("creating unsealed sector file: %w", err) } } else { stagedPath, done, err = sb.sectors.AcquireSector(ctx, sector, storiface.FTUnsealed, 0, storiface.PathSealing) if err != nil { return abi.PieceInfo{}, xerrors.Errorf("acquire unsealed sector: %w", err) } stagedFile, err = partialfile.OpenPartialFile(maxPieceSize, stagedPath.Unsealed) if err != nil { return abi.PieceInfo{}, xerrors.Errorf("opening unsealed sector file: %w", err) } } w, err := stagedFile.Writer(storiface.UnpaddedByteIndex(offset).Padded(), pieceSize.Padded()) if err != nil { return abi.PieceInfo{}, xerrors.Errorf("getting partial file writer: %w", err) } pw := fr32.NewPadWriter(w) pr := io.TeeReader(io.LimitReader(file, int64(pieceSize)), pw) throttle := make(chan []byte, parallel) piecePromises := make([]func() (abi.PieceInfo, error), 0) buf := make([]byte, chunk.Unpadded()) for i := 0; i < parallel; i++ { if abi.UnpaddedPieceSize(i)*chunk.Unpadded() >= pieceSize { break // won't use this many buffers } throttle <- make([]byte, chunk.Unpadded()) } for { var read int for rbuf := buf; len(rbuf) > 0; { n, err := pr.Read(rbuf) if err != nil && err != io.EOF { return abi.PieceInfo{}, xerrors.Errorf("pr read error: %w", err) } rbuf = rbuf[n:] read += n if err == io.EOF { break } } if read == 0 { break } done := make(chan struct { cid.Cid error }, 1) pbuf := <-throttle copy(pbuf, buf[:read]) go func(read int) { defer func() { throttle <- pbuf }() c, err := sb.pieceCid(sector.ProofType, pbuf[:read]) done <- struct { cid.Cid error }{c, err} }(read) piecePromises = append(piecePromises, func() (abi.PieceInfo, error) { select { case e := <-done: if e.error != nil { return abi.PieceInfo{}, e.error } return abi.PieceInfo{ Size: abi.UnpaddedPieceSize(len(buf[:read])).Padded(), PieceCID: e.Cid, }, nil case <-ctx.Done(): return abi.PieceInfo{}, ctx.Err() } }) } if err := pw.Close(); err != nil { return abi.PieceInfo{}, xerrors.Errorf("closing padded writer: %w", err) } if err := stagedFile.MarkAllocated(storiface.UnpaddedByteIndex(offset).Padded(), pieceSize.Padded()); err != nil { return abi.PieceInfo{}, xerrors.Errorf("marking data range as allocated: %w", err) } if err := stagedFile.Close(); err != nil { return abi.PieceInfo{}, err } stagedFile = nil if len(piecePromises) == 1 { return piecePromises[0]() } var payloadRoundedBytes abi.PaddedPieceSize pieceCids := make([]abi.PieceInfo, len(piecePromises)) for i, promise := range piecePromises { pinfo, err := promise() if err != nil { return abi.PieceInfo{}, err } pieceCids[i] = pinfo payloadRoundedBytes += pinfo.Size } pieceCID, err := ffi.GenerateUnsealedCID(sector.ProofType, pieceCids) if err != nil { return abi.PieceInfo{}, xerrors.Errorf("generate unsealed CID: %w", err) } // validate that the pieceCID was properly formed if _, err := commcid.CIDToPieceCommitmentV1(pieceCID); err != nil { return abi.PieceInfo{}, err } if payloadRoundedBytes < pieceSize.Padded() { paddedCid, err := commpffi.ZeroPadPieceCommitment(pieceCID, payloadRoundedBytes.Unpadded(), pieceSize) if err != nil { return abi.PieceInfo{}, xerrors.Errorf("failed to pad data: %w", err) } pieceCID = paddedCid } return abi.PieceInfo{ Size: pieceSize.Padded(), PieceCID: pieceCID, }, nil } func (sb *Sealer) pieceCid(spt abi.RegisteredSealProof, in []byte) (cid.Cid, error) { prf, werr, err := commpffi.ToReadableFile(bytes.NewReader(in), int64(len(in))) if err != nil { return cid.Undef, xerrors.Errorf("getting tee reader pipe: %w", err) } pieceCID, err := ffi.GeneratePieceCIDFromFile(spt, prf, abi.UnpaddedPieceSize(len(in))) if err != nil { return cid.Undef, xerrors.Errorf("generating piece commitment: %w", err) } _ = prf.Close() return pieceCID, werr() } func (sb *Sealer) tryDecodeUpdatedReplica(ctx context.Context, sector storage.SectorRef, commD cid.Cid, unsealedPath string) (bool, error) { paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTUpdate|storiface.FTSealed|storiface.FTCache, storiface.FTNone, storiface.PathStorage) if xerrors.Is(err, storiface.ErrSectorNotFound) { return false, nil } else if err != nil { return false, xerrors.Errorf("reading updated replica: %w", err) } defer done() // Sector data stored in replica update updateProof, err := sector.ProofType.RegisteredUpdateProof() if err != nil { return false, err } return true, ffi.SectorUpdate.DecodeFrom(updateProof, unsealedPath, paths.Update, paths.Sealed, paths.Cache, commD) } func (sb *Sealer) UnsealPiece(ctx context.Context, sector storage.SectorRef, offset storiface.UnpaddedByteIndex, size abi.UnpaddedPieceSize, randomness abi.SealRandomness, commd cid.Cid) error { ssize, err := sector.ProofType.SectorSize() if err != nil { return err } maxPieceSize := abi.PaddedPieceSize(ssize) // try finding existing unsealedPath, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTUnsealed, storiface.FTNone, storiface.PathStorage) var pf *partialfile.PartialFile switch { case xerrors.Is(err, storiface.ErrSectorNotFound): unsealedPath, done, err = sb.sectors.AcquireSector(ctx, sector, storiface.FTNone, storiface.FTUnsealed, storiface.PathStorage) if err != nil { return xerrors.Errorf("acquire unsealed sector path (allocate): %w", err) } defer done() pf, err = partialfile.CreatePartialFile(maxPieceSize, unsealedPath.Unsealed) if err != nil { return xerrors.Errorf("create unsealed file: %w", err) } case err == nil: defer done() pf, err = partialfile.OpenPartialFile(maxPieceSize, unsealedPath.Unsealed) if err != nil { return xerrors.Errorf("opening partial file: %w", err) } default: return xerrors.Errorf("acquire unsealed sector path (existing): %w", err) } defer pf.Close() // nolint allocated, err := pf.Allocated() if err != nil { return xerrors.Errorf("getting bitruns of allocated data: %w", err) } toUnseal, err := computeUnsealRanges(allocated, offset, size) if err != nil { return xerrors.Errorf("computing unseal ranges: %w", err) } if !toUnseal.HasNext() { return nil } // If piece data stored in updated replica decode whole sector decoded, err := sb.tryDecodeUpdatedReplica(ctx, sector, commd, unsealedPath.Unsealed) if err != nil { return xerrors.Errorf("decoding sector from replica: %w", err) } if decoded { return pf.MarkAllocated(0, maxPieceSize) } // Piece data sealed in sector srcPaths, srcDone, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTCache|storiface.FTSealed, storiface.FTNone, storiface.PathStorage) if err != nil { return xerrors.Errorf("acquire sealed sector paths: %w", err) } defer srcDone() sealed, err := os.OpenFile(srcPaths.Sealed, os.O_RDONLY, 0644) // nolint:gosec if err != nil { return xerrors.Errorf("opening sealed file: %w", err) } defer sealed.Close() // nolint var at, nextat abi.PaddedPieceSize first := true for first || toUnseal.HasNext() { first = false piece, err := toUnseal.NextRun() if err != nil { return xerrors.Errorf("getting next range to unseal: %w", err) } at = nextat nextat += abi.PaddedPieceSize(piece.Len) if !piece.Val { continue } out, err := pf.Writer(offset.Padded(), size.Padded()) if err != nil { return xerrors.Errorf("getting partial file writer: %w", err) } // opr, opw, err := os.Pipe() if err != nil { return xerrors.Errorf("creating out pipe: %w", err) } var perr error outWait := make(chan struct{}) { go func() { defer close(outWait) defer opr.Close() // nolint padwriter := fr32.NewPadWriter(out) bsize := uint64(size.Padded()) if bsize > uint64(runtime.NumCPU())*fr32.MTTresh { bsize = uint64(runtime.NumCPU()) * fr32.MTTresh } bw := bufio.NewWriterSize(padwriter, int(abi.PaddedPieceSize(bsize).Unpadded())) _, err := io.CopyN(bw, opr, int64(size)) if err != nil { perr = xerrors.Errorf("copying data: %w", err) return } if err := bw.Flush(); err != nil { perr = xerrors.Errorf("flushing unpadded data: %w", err) return } if err := padwriter.Close(); err != nil { perr = xerrors.Errorf("closing padwriter: %w", err) return } }() } // // TODO: This may be possible to do in parallel err = ffi.UnsealRange(sector.ProofType, srcPaths.Cache, sealed, opw, sector.ID.Number, sector.ID.Miner, randomness, commd, uint64(at.Unpadded()), uint64(abi.PaddedPieceSize(piece.Len).Unpadded())) _ = opw.Close() if err != nil { return xerrors.Errorf("unseal range: %w", err) } select { case <-outWait: case <-ctx.Done(): return ctx.Err() } if perr != nil { return xerrors.Errorf("piping output to unsealed file: %w", perr) } if err := pf.MarkAllocated(storiface.PaddedByteIndex(at), abi.PaddedPieceSize(piece.Len)); err != nil { return xerrors.Errorf("marking unsealed range as allocated: %w", err) } if !toUnseal.HasNext() { break } } return nil } func (sb *Sealer) ReadPiece(ctx context.Context, writer io.Writer, sector storage.SectorRef, offset storiface.UnpaddedByteIndex, size abi.UnpaddedPieceSize) (bool, error) { path, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTUnsealed, storiface.FTNone, storiface.PathStorage) if err != nil { return false, xerrors.Errorf("acquire unsealed sector path: %w", err) } defer done() ssize, err := sector.ProofType.SectorSize() if err != nil { return false, err } maxPieceSize := abi.PaddedPieceSize(ssize) pf, err := partialfile.OpenPartialFile(maxPieceSize, path.Unsealed) if err != nil { if xerrors.Is(err, os.ErrNotExist) { return false, nil } return false, xerrors.Errorf("opening partial file: %w", err) } ok, err := pf.HasAllocated(offset, size) if err != nil { _ = pf.Close() return false, err } if !ok { _ = pf.Close() return false, nil } f, err := pf.Reader(offset.Padded(), size.Padded()) if err != nil { _ = pf.Close() return false, xerrors.Errorf("getting partial file reader: %w", err) } upr, err := fr32.NewUnpadReader(f, size.Padded()) if err != nil { return false, xerrors.Errorf("creating unpadded reader: %w", err) } if _, err := io.CopyN(writer, upr, int64(size)); err != nil { _ = pf.Close() return false, xerrors.Errorf("reading unsealed file: %w", err) } if err := pf.Close(); err != nil { return false, xerrors.Errorf("closing partial file: %w", err) } return true, nil } func (sb *Sealer) SealPreCommit1(ctx context.Context, sector storage.SectorRef, ticket abi.SealRandomness, pieces []abi.PieceInfo) (out storage.PreCommit1Out, err error) { paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTUnsealed, storiface.FTSealed|storiface.FTCache, storiface.PathSealing) if err != nil { return nil, xerrors.Errorf("acquiring sector paths: %w", err) } defer done() e, err := os.OpenFile(paths.Sealed, os.O_RDWR|os.O_CREATE, 0644) // nolint:gosec if err != nil { return nil, xerrors.Errorf("ensuring sealed file exists: %w", err) } if err := e.Close(); err != nil { return nil, err } if err := os.Mkdir(paths.Cache, 0755); err != nil { // nolint if os.IsExist(err) { log.Warnf("existing cache in %s; removing", paths.Cache) if err := os.RemoveAll(paths.Cache); err != nil { return nil, xerrors.Errorf("remove existing sector cache from %s (sector %d): %w", paths.Cache, sector, err) } if err := os.Mkdir(paths.Cache, 0755); err != nil { // nolint:gosec return nil, xerrors.Errorf("mkdir cache path after cleanup: %w", err) } } else { return nil, err } } var sum abi.UnpaddedPieceSize for _, piece := range pieces { sum += piece.Size.Unpadded() } ssize, err := sector.ProofType.SectorSize() if err != nil { return nil, err } ussize := abi.PaddedPieceSize(ssize).Unpadded() if sum != ussize { return nil, xerrors.Errorf("aggregated piece sizes don't match sector size: %d != %d (%d)", sum, ussize, int64(ussize-sum)) } // TODO: context cancellation respect p1o, err := ffi.SealPreCommitPhase1( sector.ProofType, paths.Cache, paths.Unsealed, paths.Sealed, sector.ID.Number, sector.ID.Miner, ticket, pieces, ) if err != nil { return nil, xerrors.Errorf("presealing sector %d (%s): %w", sector.ID.Number, paths.Unsealed, err) } p1odec := map[string]interface{}{} if err := json.Unmarshal(p1o, &p1odec); err != nil { return nil, xerrors.Errorf("unmarshaling pc1 output: %w", err) } p1odec["_lotus_SealRandomness"] = ticket return json.Marshal(&p1odec) } var PC2CheckRounds = 3 func (sb *Sealer) SealPreCommit2(ctx context.Context, sector storage.SectorRef, phase1Out storage.PreCommit1Out) (storage.SectorCids, error) { paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTSealed|storiface.FTCache, 0, storiface.PathSealing) if err != nil { return storage.SectorCids{}, xerrors.Errorf("acquiring sector paths: %w", err) } defer done() sealedCID, unsealedCID, err := ffi.SealPreCommitPhase2(phase1Out, paths.Cache, paths.Sealed) if err != nil { return storage.SectorCids{}, xerrors.Errorf("presealing sector %d (%s): %w", sector.ID.Number, paths.Unsealed, err) } ssize, err := sector.ProofType.SectorSize() if err != nil { return storage.SectorCids{}, xerrors.Errorf("get ssize: %w", err) } p1odec := map[string]interface{}{} if err := json.Unmarshal(phase1Out, &p1odec); err != nil { return storage.SectorCids{}, xerrors.Errorf("unmarshaling pc1 output: %w", err) } var ticket abi.SealRandomness ti, found := p1odec["_lotus_SealRandomness"] if found { ticket, err = base64.StdEncoding.DecodeString(ti.(string)) if err != nil { return storage.SectorCids{}, xerrors.Errorf("decoding ticket: %w", err) } for i := 0; i < PC2CheckRounds; i++ { var sd [32]byte _, _ = rand.Read(sd[:]) _, err := ffi.SealCommitPhase1( sector.ProofType, sealedCID, unsealedCID, paths.Cache, paths.Sealed, sector.ID.Number, sector.ID.Miner, ticket, sd[:], []abi.PieceInfo{{Size: abi.PaddedPieceSize(ssize), PieceCID: unsealedCID}}, ) if err != nil { log.Warn("checking PreCommit failed: ", err) log.Warnf("num:%d tkt:%v seed:%v sealedCID:%v, unsealedCID:%v", sector.ID.Number, ticket, sd[:], sealedCID, unsealedCID) return storage.SectorCids{}, xerrors.Errorf("checking PreCommit failed: %w", err) } } } return storage.SectorCids{ Unsealed: unsealedCID, Sealed: sealedCID, }, nil } func (sb *Sealer) SealCommit1(ctx context.Context, sector storage.SectorRef, ticket abi.SealRandomness, seed abi.InteractiveSealRandomness, pieces []abi.PieceInfo, cids storage.SectorCids) (storage.Commit1Out, error) { paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTSealed|storiface.FTCache, 0, storiface.PathSealing) if err != nil { return nil, xerrors.Errorf("acquire sector paths: %w", err) } defer done() output, err := ffi.SealCommitPhase1( sector.ProofType, cids.Sealed, cids.Unsealed, paths.Cache, paths.Sealed, sector.ID.Number, sector.ID.Miner, ticket, seed, pieces, ) if err != nil { log.Warn("StandaloneSealCommit error: ", err) log.Warnf("num:%d tkt:%v seed:%v, pi:%v sealedCID:%v, unsealedCID:%v", sector.ID.Number, ticket, seed, pieces, cids.Sealed, cids.Unsealed) return nil, xerrors.Errorf("StandaloneSealCommit: %w", err) } return output, nil } func (sb *Sealer) SealCommit2(ctx context.Context, sector storage.SectorRef, phase1Out storage.Commit1Out) (storage.Proof, error) { return ffi.SealCommitPhase2(phase1Out, sector.ID.Number, sector.ID.Miner) } func (sb *Sealer) ReplicaUpdate(ctx context.Context, sector storage.SectorRef, pieces []abi.PieceInfo) (storage.ReplicaUpdateOut, error) { empty := storage.ReplicaUpdateOut{} paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTSealed|storiface.FTUnsealed|storiface.FTCache, storiface.FTUpdate|storiface.FTUpdateCache, storiface.PathSealing) if err != nil { return empty, xerrors.Errorf("failed to acquire sector paths: %w", err) } defer done() updateProofType := abi.SealProofInfos[sector.ProofType].UpdateProof s, err := os.Stat(paths.Sealed) if err != nil { return empty, err } sealedSize := s.Size() u, err := os.OpenFile(paths.Update, os.O_RDWR|os.O_CREATE, 0644) // nolint:gosec if err != nil { return empty, xerrors.Errorf("ensuring updated replica file exists: %w", err) } if err := fallocate.Fallocate(u, 0, sealedSize); err != nil { return empty, xerrors.Errorf("allocating space for replica update file: %w", err) } if err := u.Close(); err != nil { return empty, err } if err := os.Mkdir(paths.UpdateCache, 0755); err != nil { // nolint if os.IsExist(err) { log.Warnf("existing cache in %s; removing", paths.UpdateCache) if err := os.RemoveAll(paths.UpdateCache); err != nil { return empty, xerrors.Errorf("remove existing sector cache from %s (sector %d): %w", paths.UpdateCache, sector, err) } if err := os.Mkdir(paths.UpdateCache, 0755); err != nil { // nolint:gosec return empty, xerrors.Errorf("mkdir cache path after cleanup: %w", err) } } else { return empty, err } } sealed, unsealed, err := ffi.SectorUpdate.EncodeInto(updateProofType, paths.Update, paths.UpdateCache, paths.Sealed, paths.Cache, paths.Unsealed, pieces) if err != nil { return empty, xerrors.Errorf("failed to update replica %d with new deal data: %w", sector.ID.Number, err) } return storage.ReplicaUpdateOut{NewSealed: sealed, NewUnsealed: unsealed}, nil } func (sb *Sealer) ProveReplicaUpdate1(ctx context.Context, sector storage.SectorRef, sectorKey, newSealed, newUnsealed cid.Cid) (storage.ReplicaVanillaProofs, error) { paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTSealed|storiface.FTCache|storiface.FTUpdateCache|storiface.FTUpdate, storiface.FTNone, storiface.PathSealing) if err != nil { return nil, xerrors.Errorf("failed to acquire sector paths: %w", err) } defer done() updateProofType := abi.SealProofInfos[sector.ProofType].UpdateProof vanillaProofs, err := ffi.SectorUpdate.GenerateUpdateVanillaProofs(updateProofType, sectorKey, newSealed, newUnsealed, paths.Update, paths.UpdateCache, paths.Sealed, paths.Cache) if err != nil { return nil, xerrors.Errorf("failed to generate proof of replica update for sector %d: %w", sector.ID.Number, err) } return vanillaProofs, nil } func (sb *Sealer) ProveReplicaUpdate2(ctx context.Context, sector storage.SectorRef, sectorKey, newSealed, newUnsealed cid.Cid, vanillaProofs storage.ReplicaVanillaProofs) (storage.ReplicaUpdateProof, error) { updateProofType := abi.SealProofInfos[sector.ProofType].UpdateProof return ffi.SectorUpdate.GenerateUpdateProofWithVanilla(updateProofType, sectorKey, newSealed, newUnsealed, vanillaProofs) } func (sb *Sealer) GenerateSectorKeyFromData(ctx context.Context, sector storage.SectorRef, commD cid.Cid) error { paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTUnsealed|storiface.FTCache|storiface.FTUpdate|storiface.FTUpdateCache, storiface.FTSealed, storiface.PathSealing) defer done() if err != nil { return xerrors.Errorf("failed to acquire sector paths: %w", err) } s, err := os.Stat(paths.Update) if err != nil { return xerrors.Errorf("measuring update file size: %w", err) } sealedSize := s.Size() e, err := os.OpenFile(paths.Sealed, os.O_RDWR|os.O_CREATE, 0644) // nolint:gosec if err != nil { return xerrors.Errorf("ensuring sector key file exists: %w", err) } if err := fallocate.Fallocate(e, 0, sealedSize); err != nil { return xerrors.Errorf("allocating space for sector key file: %w", err) } if err := e.Close(); err != nil { return err } updateProofType := abi.SealProofInfos[sector.ProofType].UpdateProof return ffi.SectorUpdate.RemoveData(updateProofType, paths.Sealed, paths.Cache, paths.Update, paths.UpdateCache, paths.Unsealed, commD) } func (sb *Sealer) ReleaseSealed(ctx context.Context, sector storage.SectorRef) error { return xerrors.Errorf("not supported at this layer") } func (sb *Sealer) FinalizeSector(ctx context.Context, sector storage.SectorRef, keepUnsealed []storage.Range) error { ssize, err := sector.ProofType.SectorSize() if err != nil { return err } maxPieceSize := abi.PaddedPieceSize(ssize) if len(keepUnsealed) > 0 { sr := partialfile.PieceRun(0, maxPieceSize) for _, s := range keepUnsealed { si := &rlepluslazy.RunSliceIterator{} if s.Offset != 0 { si.Runs = append(si.Runs, rlepluslazy.Run{Val: false, Len: uint64(s.Offset)}) } si.Runs = append(si.Runs, rlepluslazy.Run{Val: true, Len: uint64(s.Size)}) var err error sr, err = rlepluslazy.Subtract(sr, si) if err != nil { return err } } paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTUnsealed, 0, storiface.PathStorage) if err != nil { return xerrors.Errorf("acquiring sector cache path: %w", err) } defer done() pf, err := partialfile.OpenPartialFile(maxPieceSize, paths.Unsealed) if err == nil { var at uint64 for sr.HasNext() { r, err := sr.NextRun() if err != nil { _ = pf.Close() return err } offset := at at += r.Len if !r.Val { continue } err = pf.Free(storiface.PaddedByteIndex(abi.UnpaddedPieceSize(offset).Padded()), abi.UnpaddedPieceSize(r.Len).Padded()) if err != nil { _ = pf.Close() return xerrors.Errorf("free partial file range: %w", err) } } if err := pf.Close(); err != nil { return err } } else { if !xerrors.Is(err, os.ErrNotExist) { return xerrors.Errorf("opening partial file: %w", err) } } } paths, done, err := sb.sectors.AcquireSector(ctx, sector, storiface.FTCache, 0, storiface.PathStorage) if err != nil { return xerrors.Errorf("acquiring sector cache path: %w", err) } defer done() return ffi.ClearCache(uint64(ssize), paths.Cache) } func (sb *Sealer) ReleaseUnsealed(ctx context.Context, sector storage.SectorRef, safeToFree []storage.Range) error { // This call is meant to mark storage as 'freeable'. Given that unsealing is // very expensive, we don't remove data as soon as we can - instead we only // do that when we don't have free space for data that really needs it // This function should not be called at this layer, everything should be // handled in localworker return xerrors.Errorf("not supported at this layer") } func (sb *Sealer) ReleaseReplicaUpgrade(ctx context.Context, sector storage.SectorRef) error { return xerrors.Errorf("not supported at this layer") } func (sb *Sealer) ReleaseSectorKey(ctx context.Context, sector storage.SectorRef) error { return xerrors.Errorf("not supported at this layer") } func (sb *Sealer) Remove(ctx context.Context, sector storage.SectorRef) error { return xerrors.Errorf("not supported at this layer") // happens in localworker } func GetRequiredPadding(oldLength abi.PaddedPieceSize, newPieceLength abi.PaddedPieceSize) ([]abi.PaddedPieceSize, abi.PaddedPieceSize) { padPieces := make([]abi.PaddedPieceSize, 0) toFill := uint64(-oldLength % newPieceLength) n := bits.OnesCount64(toFill) var sum abi.PaddedPieceSize for i := 0; i < n; i++ { next := bits.TrailingZeros64(toFill) psize := uint64(1) << uint(next) toFill ^= psize padded := abi.PaddedPieceSize(psize) padPieces = append(padPieces, padded) sum += padded } return padPieces, sum } func GenerateUnsealedCID(proofType abi.RegisteredSealProof, pieces []abi.PieceInfo) (cid.Cid, error) { ssize, err := proofType.SectorSize() if err != nil { return cid.Undef, err } pssize := abi.PaddedPieceSize(ssize) allPieces := make([]abi.PieceInfo, 0, len(pieces)) if len(pieces) == 0 { allPieces = append(allPieces, abi.PieceInfo{ Size: pssize, PieceCID: zerocomm.ZeroPieceCommitment(pssize.Unpadded()), }) } else { var sum abi.PaddedPieceSize padTo := func(pads []abi.PaddedPieceSize) { for _, p := range pads { allPieces = append(allPieces, abi.PieceInfo{ Size: p, PieceCID: zerocomm.ZeroPieceCommitment(p.Unpadded()), }) sum += p } } for _, p := range pieces { ps, _ := GetRequiredPadding(sum, p.Size) padTo(ps) allPieces = append(allPieces, p) sum += p.Size } ps, _ := GetRequiredPadding(sum, pssize) padTo(ps) } return ffi.GenerateUnsealedCID(proofType, allPieces) }