package sealing import ( "context" "sort" "time" "github.com/ipfs/go-cid" "golang.org/x/xerrors" "github.com/filecoin-project/go-commp-utils/zerocomm" "github.com/filecoin-project/go-padreader" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/big" "github.com/filecoin-project/go-state-types/network" "github.com/filecoin-project/go-statemachine" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/actors/policy" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/storage/pipeline/lib/nullreader" "github.com/filecoin-project/lotus/storage/pipeline/sealiface" "github.com/filecoin-project/lotus/storage/sealer" "github.com/filecoin-project/lotus/storage/sealer/ffiwrapper" "github.com/filecoin-project/lotus/storage/sealer/storiface" "github.com/filecoin-project/lotus/storage/sectorblocks" ) func (m *Sealing) handleWaitDeals(ctx statemachine.Context, sector SectorInfo) error { var used abi.UnpaddedPieceSize var lastDealEnd abi.ChainEpoch for _, piece := range sector.Pieces { used += piece.Piece.Size.Unpadded() if piece.DealInfo.DealProposal.EndEpoch > lastDealEnd { lastDealEnd = piece.DealInfo.DealProposal.EndEpoch } } m.inputLk.Lock() if m.nextDealSector != nil && *m.nextDealSector == sector.SectorNumber { m.nextDealSector = nil } sid := m.minerSectorID(sector.SectorNumber) if len(m.assignedPieces[sid]) > 0 { m.inputLk.Unlock() // got assigned more pieces in the AddPiece state return ctx.Send(SectorAddPiece{}) } started, err := m.maybeStartSealing(ctx, sector, used) if err != nil || started { delete(m.openSectors, m.minerSectorID(sector.SectorNumber)) m.inputLk.Unlock() return err } if _, has := m.openSectors[sid]; !has { m.openSectors[sid] = &openSector{ used: used, maybeAccept: func(cid cid.Cid) error { // todo check deal start deadline (configurable) m.assignedPieces[sid] = append(m.assignedPieces[sid], cid) return ctx.Send(SectorAddPiece{}) }, number: sector.SectorNumber, ccUpdate: sector.CCUpdate, } } else { // make sure we're only accounting for pieces which were correctly added // (note that m.assignedPieces[sid] will always be empty here) m.openSectors[sid].used = used } m.openSectors[sid].lastDealEnd = lastDealEnd go func() { defer m.inputLk.Unlock() if err := m.updateInput(ctx.Context(), sector.SectorType); err != nil { log.Errorf("%+v", err) } }() return nil } func (m *Sealing) maybeStartSealing(ctx statemachine.Context, sector SectorInfo, used abi.UnpaddedPieceSize) (bool, error) { now := time.Now() st := m.sectorTimers[m.minerSectorID(sector.SectorNumber)] if st != nil { if !st.Stop() { // timer expired, SectorStartPacking was/is being sent // we send another SectorStartPacking in case one was sent in the handleAddPiece state log.Infow("starting to seal deal sector", "sector", sector.SectorNumber, "trigger", "wait-timeout") return true, ctx.Send(SectorStartPacking{}) } } ssize, err := sector.SectorType.SectorSize() if err != nil { return false, xerrors.Errorf("getting sector size") } maxDeals, err := getDealPerSectorLimit(ssize) if err != nil { return false, xerrors.Errorf("getting per-sector deal limit: %w", err) } if len(sector.dealIDs()) >= maxDeals { // can't accept more deals log.Infow("starting to seal deal sector", "sector", sector.SectorNumber, "trigger", "maxdeals") return true, ctx.Send(SectorStartPacking{}) } if used.Padded() == abi.PaddedPieceSize(ssize) { // sector full log.Infow("starting to seal deal sector", "sector", sector.SectorNumber, "trigger", "filled") return true, ctx.Send(SectorStartPacking{}) } if sector.CreationTime != 0 { cfg, err := m.getConfig() if err != nil { return false, xerrors.Errorf("getting storage config: %w", err) } sealTime := time.Unix(sector.CreationTime, 0).Add(cfg.WaitDealsDelay) // check deal age, start sealing when the deal closest to starting is within slack time ts, err := m.Api.ChainHead(ctx.Context()) blockTime := time.Second * time.Duration(build.BlockDelaySecs) if err != nil { return false, xerrors.Errorf("API error getting head: %w", err) } for _, piece := range sector.Pieces { if piece.DealInfo == nil { continue } dealSafeSealEpoch := piece.DealInfo.DealProposal.StartEpoch - cfg.StartEpochSealingBuffer dealSafeSealTime := time.Now().Add(time.Duration(dealSafeSealEpoch-ts.Height()) * blockTime) if dealSafeSealTime.Before(sealTime) { sealTime = dealSafeSealTime } } if now.After(sealTime) { log.Infow("starting to seal deal sector", "sector", sector.SectorNumber, "trigger", "wait-timeout") return true, ctx.Send(SectorStartPacking{}) } m.sectorTimers[m.minerSectorID(sector.SectorNumber)] = time.AfterFunc(sealTime.Sub(now), func() { log.Infow("starting to seal deal sector", "sector", sector.SectorNumber, "trigger", "wait-timer") if err := ctx.Send(SectorStartPacking{}); err != nil { log.Errorw("sending SectorStartPacking event failed", "sector", sector.SectorNumber, "error", err) } }) } return false, nil } func (m *Sealing) handleAddPiece(ctx statemachine.Context, sector SectorInfo) error { ssize, err := sector.SectorType.SectorSize() if err != nil { return err } res := SectorPieceAdded{} m.inputLk.Lock() pending, ok := m.assignedPieces[m.minerSectorID(sector.SectorNumber)] if ok { delete(m.assignedPieces, m.minerSectorID(sector.SectorNumber)) } m.inputLk.Unlock() if !ok { // nothing to do here (might happen after a restart in AddPiece) return ctx.Send(res) } var offset abi.UnpaddedPieceSize pieceSizes := make([]abi.UnpaddedPieceSize, len(sector.Pieces)) for i, p := range sector.Pieces { pieceSizes[i] = p.Piece.Size.Unpadded() offset += p.Piece.Size.Unpadded() } maxDeals, err := getDealPerSectorLimit(ssize) if err != nil { return xerrors.Errorf("getting per-sector deal limit: %w", err) } for i, piece := range pending { m.inputLk.Lock() deal, ok := m.pendingPieces[piece] m.inputLk.Unlock() if !ok { return xerrors.Errorf("piece %s assigned to sector %d not found", piece, sector.SectorNumber) } if len(sector.dealIDs())+(i+1) > maxDeals { // todo: this is rather unlikely to happen, but in case it does, return the deal to waiting queue instead of failing it deal.accepted(sector.SectorNumber, offset, xerrors.Errorf("too many deals assigned to sector %d, dropping deal", sector.SectorNumber)) continue } pads, padLength := ffiwrapper.GetRequiredPadding(offset.Padded(), deal.size.Padded()) if offset.Padded()+padLength+deal.size.Padded() > abi.PaddedPieceSize(ssize) { // todo: this is rather unlikely to happen, but in case it does, return the deal to waiting queue instead of failing it deal.accepted(sector.SectorNumber, offset, xerrors.Errorf("piece %s assigned to sector %d with not enough space", piece, sector.SectorNumber)) continue } offset += padLength.Unpadded() for _, p := range pads { expectCid := zerocomm.ZeroPieceCommitment(p.Unpadded()) ppi, err := m.sealer.AddPiece(sealer.WithPriority(ctx.Context(), DealSectorPriority), m.minerSector(sector.SectorType, sector.SectorNumber), pieceSizes, p.Unpadded(), nullreader.NewNullReader(p.Unpadded())) if err != nil { err = xerrors.Errorf("writing padding piece: %w", err) deal.accepted(sector.SectorNumber, offset, err) return ctx.Send(SectorAddPieceFailed{err}) } if !ppi.PieceCID.Equals(expectCid) { err = xerrors.Errorf("got unexpected padding piece CID: expected:%s, got:%s", expectCid, ppi.PieceCID) deal.accepted(sector.SectorNumber, offset, err) return ctx.Send(SectorAddPieceFailed{err}) } pieceSizes = append(pieceSizes, p.Unpadded()) res.NewPieces = append(res.NewPieces, api.SectorPiece{ Piece: ppi, }) } ppi, err := m.sealer.AddPiece(sealer.WithPriority(ctx.Context(), DealSectorPriority), m.minerSector(sector.SectorType, sector.SectorNumber), pieceSizes, deal.size, deal.data) if err != nil { err = xerrors.Errorf("writing piece: %w", err) deal.accepted(sector.SectorNumber, offset, err) return ctx.Send(SectorAddPieceFailed{err}) } if !ppi.PieceCID.Equals(deal.deal.DealProposal.PieceCID) { err = xerrors.Errorf("got unexpected piece CID: expected:%s, got:%s", deal.deal.DealProposal.PieceCID, ppi.PieceCID) deal.accepted(sector.SectorNumber, offset, err) return ctx.Send(SectorAddPieceFailed{err}) } log.Infow("deal added to a sector", "deal", deal.deal.DealID, "sector", sector.SectorNumber, "piece", ppi.PieceCID) deal.accepted(sector.SectorNumber, offset, nil) offset += deal.size pieceSizes = append(pieceSizes, deal.size) res.NewPieces = append(res.NewPieces, api.SectorPiece{ Piece: ppi, DealInfo: &deal.deal, }) } return ctx.Send(res) } func (m *Sealing) handleAddPieceFailed(ctx statemachine.Context, sector SectorInfo) error { return ctx.Send(SectorRetryWaitDeals{}) } func (m *Sealing) SectorAddPieceToAny(ctx context.Context, size abi.UnpaddedPieceSize, data storiface.Data, deal api.PieceDealInfo) (api.SectorOffset, error) { log.Infof("Adding piece for deal %d (publish msg: %s)", deal.DealID, deal.PublishCid) if (padreader.PaddedSize(uint64(size))) != size { return api.SectorOffset{}, xerrors.Errorf("cannot allocate unpadded piece") } sp, err := m.currentSealProof(ctx) if err != nil { return api.SectorOffset{}, xerrors.Errorf("getting current seal proof type: %w", err) } ssize, err := sp.SectorSize() if err != nil { return api.SectorOffset{}, err } if size > abi.PaddedPieceSize(ssize).Unpadded() { return api.SectorOffset{}, xerrors.Errorf("piece cannot fit into a sector") } if _, err := deal.DealProposal.Cid(); err != nil { return api.SectorOffset{}, xerrors.Errorf("getting proposal CID: %w", err) } cfg, err := m.getConfig() if err != nil { return api.SectorOffset{}, xerrors.Errorf("getting config: %w", err) } ts, err := m.Api.ChainHead(ctx) if err != nil { return api.SectorOffset{}, xerrors.Errorf("couldnt get chain head: %w", err) } if ts.Height()+cfg.StartEpochSealingBuffer > deal.DealProposal.StartEpoch { return api.SectorOffset{}, xerrors.Errorf( "cannot add piece for deal with piece CID %s: current epoch %d has passed deal proposal start epoch %d", deal.DealProposal.PieceCID, ts.Height(), deal.DealProposal.StartEpoch) } claimTerms, err := m.getClaimTerms(ctx, deal, ts.Key()) if err != nil { return api.SectorOffset{}, err } m.inputLk.Lock() if pp, exist := m.pendingPieces[proposalCID(deal)]; exist { m.inputLk.Unlock() // we already have a pre-existing add piece call for this deal, let's wait for it to finish and see if it's successful res, err := waitAddPieceResp(ctx, pp) if err != nil { return api.SectorOffset{}, err } if res.err == nil { // all good, return the response return api.SectorOffset{Sector: res.sn, Offset: res.offset.Padded()}, res.err } // if there was an error waiting for a pre-existing add piece call, let's retry m.inputLk.Lock() } // addPendingPiece takes over m.inputLk pp := m.addPendingPiece(ctx, size, data, deal, claimTerms, sp) res, err := waitAddPieceResp(ctx, pp) if err != nil { return api.SectorOffset{}, err } return api.SectorOffset{Sector: res.sn, Offset: res.offset.Padded()}, res.err } func (m *Sealing) getClaimTerms(ctx context.Context, deal api.PieceDealInfo, tsk types.TipSetKey) (pieceClaimBounds, error) { nv, err := m.Api.StateNetworkVersion(ctx, tsk) if err != nil { return pieceClaimBounds{}, err } if nv >= network.Version17 { all, err := m.Api.StateGetAllocationForPendingDeal(ctx, deal.DealID, tsk) if err != nil { return pieceClaimBounds{}, err } if all != nil { return pieceClaimBounds{ claimTermEnd: deal.DealProposal.StartEpoch + all.TermMax, }, nil } } // no allocation for this deal, so just use a really high number for "term end" return pieceClaimBounds{ claimTermEnd: deal.DealProposal.EndEpoch + policy.GetSectorMaxLifetime(abi.RegisteredSealProof_StackedDrg32GiBV1_1, network.Version17), }, nil } // called with m.inputLk; transfers the lock to another goroutine! func (m *Sealing) addPendingPiece(ctx context.Context, size abi.UnpaddedPieceSize, data storiface.Data, deal api.PieceDealInfo, ct pieceClaimBounds, sp abi.RegisteredSealProof) *pendingPiece { doneCh := make(chan struct{}) pp := &pendingPiece{ size: size, deal: deal, claimTerms: ct, data: data, doneCh: doneCh, assigned: false, } pp.accepted = func(sn abi.SectorNumber, offset abi.UnpaddedPieceSize, err error) { pp.resp = &pieceAcceptResp{sn, offset, err} close(pp.doneCh) } m.pendingPieces[proposalCID(deal)] = pp go func() { defer m.inputLk.Unlock() if err := m.updateInput(ctx, sp); err != nil { log.Errorf("%+v", err) } }() return pp } func waitAddPieceResp(ctx context.Context, pp *pendingPiece) (*pieceAcceptResp, error) { select { case <-pp.doneCh: res := pp.resp return res, nil case <-ctx.Done(): return nil, ctx.Err() } } func (m *Sealing) SectorMatchPendingPiecesToOpenSectors(ctx context.Context) error { sp, err := m.currentSealProof(ctx) if err != nil { return xerrors.Errorf("failed to get current seal proof: %w", err) } log.Debug("pieces to sector matching waiting for lock") m.inputLk.Lock() defer m.inputLk.Unlock() return m.updateInput(ctx, sp) } type expFn func(sn abi.SectorNumber) (abi.ChainEpoch, abi.TokenAmount, error) // called with m.inputLk func (m *Sealing) updateInput(ctx context.Context, sp abi.RegisteredSealProof) error { memo := make(map[abi.SectorNumber]struct { e abi.ChainEpoch p abi.TokenAmount }) getExpirationCached := func(sn abi.SectorNumber) (abi.ChainEpoch, abi.TokenAmount, error) { if e, ok := memo[sn]; ok { return e.e, e.p, nil } onChainInfo, err := m.Api.StateSectorGetInfo(ctx, m.maddr, sn, types.TipSetKey{}) if err != nil { return 0, big.Zero(), err } memo[sn] = struct { e abi.ChainEpoch p abi.TokenAmount }{e: onChainInfo.Expiration, p: onChainInfo.InitialPledge} return onChainInfo.Expiration, onChainInfo.InitialPledge, nil } ssize, err := sp.SectorSize() if err != nil { return err } type match struct { sector abi.SectorID deal cid.Cid dealEnd abi.ChainEpoch claimTermEnd abi.ChainEpoch size abi.UnpaddedPieceSize padding abi.UnpaddedPieceSize } var matches []match toAssign := map[cid.Cid]struct{}{} // used to maybe create new sectors // todo: this is distinctly O(n^2), may need to be optimized for tiny deals and large scale miners // (unlikely to be a problem now) for proposalCid, piece := range m.pendingPieces { if piece.assigned { continue // already assigned to a sector, skip } toAssign[proposalCid] = struct{}{} for id, sector := range m.openSectors { avail := abi.PaddedPieceSize(ssize).Unpadded() - sector.used // check that sector lifetime is long enough to fit deal using latest expiration from on chain ok, err := sector.checkDealAssignable(piece, getExpirationCached) if err != nil { log.Errorf("failed to check expiration for cc Update sector %d", sector.number) continue } if !ok { exp, _, _ := getExpirationCached(sector.number) // todo move this log into checkDealAssignable, make more detailed about the reason log.Debugf("CC update sector %d cannot fit deal, expiration %d before deal end epoch %d", id, exp, piece.deal.DealProposal.EndEpoch) continue } if piece.size <= avail { // (note: if we have enough space for the piece, we also have enough space for inter-piece padding) matches = append(matches, match{ sector: id, deal: proposalCid, dealEnd: piece.deal.DealProposal.EndEpoch, claimTermEnd: piece.claimTerms.claimTermEnd, size: piece.size, padding: avail % piece.size, }) } } } sort.Slice(matches, func(i, j int) bool { // todo maybe sort by expiration if matches[i].padding != matches[j].padding { // less padding is better return matches[i].padding < matches[j].padding } if matches[i].size != matches[j].size { // larger pieces are better return matches[i].size < matches[j].size } return matches[i].sector.Number < matches[j].sector.Number // prefer older sectors }) log.Debugw("updateInput matching", "matches", len(matches), "toAssign", len(toAssign), "openSectors", len(m.openSectors), "pieces", len(m.pendingPieces)) var assigned int for _, mt := range matches { if m.pendingPieces[mt.deal].assigned { assigned++ continue } if _, found := m.openSectors[mt.sector]; !found { continue } // late checks avail := abi.PaddedPieceSize(ssize).Unpadded() - m.openSectors[mt.sector].used if mt.size > avail { continue } if m.openSectors[mt.sector].lastDealEnd > mt.claimTermEnd { continue } // assign the piece! err := m.openSectors[mt.sector].maybeAccept(mt.deal) if err != nil { m.pendingPieces[mt.deal].accepted(mt.sector.Number, 0, err) // non-error case in handleAddPiece } m.openSectors[mt.sector].used += mt.padding + mt.size if mt.dealEnd > m.openSectors[mt.sector].lastDealEnd { m.openSectors[mt.sector].lastDealEnd = mt.dealEnd } m.pendingPieces[mt.deal].assigned = true delete(toAssign, mt.deal) if err != nil { log.Errorf("sector %d rejected deal %s: %+v", mt.sector, mt.deal, err) continue } } log.Debugw("updateInput matching done", "matches", len(matches), "toAssign", len(toAssign), "assigned", assigned, "openSectors", len(m.openSectors), "pieces", len(m.pendingPieces)) if len(toAssign) > 0 { log.Errorf("we are trying to create a new sector with open sectors %v", m.openSectors) if err := m.tryGetDealSector(ctx, sp, getExpirationCached); err != nil { log.Errorw("Failed to create a new sector for deals", "error", err) } } return nil } // pendingPieceIndex is an index in the Sealing.pendingPieces map type pendingPieceIndex cid.Cid type pieceBound struct { epoch abi.ChainEpoch // boundStart marks deal /end/ epoch; only deals with boundStart lower or equal to expiration of a given sector can be // put into that sector boundStart []pendingPieceIndex // boundEnd marks deal claim TermMax; only deals with boundEnd higher or equal to expiration of a given sector can be // put into that sector boundEnd []pendingPieceIndex dealBytesInBound abi.UnpaddedPieceSize } func (m *Sealing) pendingPieceEpochBounds() []pieceBound { boundsByEpoch := map[abi.ChainEpoch]*pieceBound{} for ppi, piece := range m.pendingPieces { // start bound on deal end if boundsByEpoch[piece.deal.DealProposal.EndEpoch] == nil { boundsByEpoch[piece.deal.DealProposal.EndEpoch] = &pieceBound{ epoch: piece.deal.DealProposal.EndEpoch, } } boundsByEpoch[piece.deal.DealProposal.EndEpoch].boundStart = append(boundsByEpoch[piece.deal.DealProposal.EndEpoch].boundStart, pendingPieceIndex(ppi)) // end bound on term max if boundsByEpoch[piece.claimTerms.claimTermEnd] == nil { boundsByEpoch[piece.claimTerms.claimTermEnd] = &pieceBound{ epoch: piece.claimTerms.claimTermEnd, } } boundsByEpoch[piece.claimTerms.claimTermEnd].boundEnd = append(boundsByEpoch[piece.claimTerms.claimTermEnd].boundEnd, pendingPieceIndex(ppi)) } out := make([]pieceBound, 0, len(boundsByEpoch)) for _, bound := range boundsByEpoch { out = append(out, *bound) } sort.Slice(out, func(i, j int) bool { return out[i].epoch < out[j].epoch }) var curBoundBytes abi.UnpaddedPieceSize for i, bound := range out { for _, ppi := range bound.boundStart { curBoundBytes += m.pendingPieces[cid.Cid(ppi)].size } for _, ppi := range bound.boundEnd { curBoundBytes -= m.pendingPieces[cid.Cid(ppi)].size } out[i].dealBytesInBound = curBoundBytes } return out } func (m *Sealing) maybeUpgradeSector(ctx context.Context, sp abi.RegisteredSealProof, cfg sealiface.Config, ef expFn) (bool, error) { if len(m.available) == 0 { return false, nil } ts, err := m.Api.ChainHead(ctx) if err != nil { return false, err } ssize, err := sp.SectorSize() if err != nil { return false, err } pieceBounds := m.pendingPieceEpochBounds() findBound := func(sectorExp abi.ChainEpoch) *pieceBound { if len(pieceBounds) == 0 { return nil } f := sort.Search(len(pieceBounds), func(i int) bool { return sectorExp <= pieceBounds[i].epoch }) if f == 0 { // all piece bounds are after sector expiration return nil } return &pieceBounds[f-1] } targetExpirationEpoch := ts.Height() + abi.ChainEpoch(cfg.MinTargetUpgradeSectorExpiration) minExpirationEpoch := ts.Height() + abi.ChainEpoch(cfg.MinUpgradeSectorExpiration) var candidate abi.SectorID var bestExpiration abi.ChainEpoch var bestDealBytes abi.PaddedPieceSize bestPledge := types.TotalFilecoinInt for s := range m.available { expirationEpoch, pledge, err := ef(s.Number) if err != nil { log.Errorw("checking sector expiration", "error", err) continue } slowChecks := func(sid abi.SectorNumber) bool { active, err := m.sectorActive(ctx, types.TipSetKey{}, sid) if err != nil { log.Errorw("checking sector active", "error", err) return false } if !active { log.Debugw("skipping available sector", "sector", sid, "reason", "not active") return false } return true } if expirationEpoch < minExpirationEpoch { log.Debugw("skipping available sector", "sector", s.Number, "reason", "expiration below MinUpgradeSectorExpiration") } pb := findBound(expirationEpoch) if pb == nil { log.Debugw("skipping available sector", "sector", s.Number, "reason", "expiration below deal bounds") continue } // if the sector has less than one sector worth of candidate deals, and // the best candidate has more candidate deals, this sector isn't better if pb.dealBytesInBound.Padded() < abi.PaddedPieceSize(ssize) { if bestDealBytes > pb.dealBytesInBound.Padded() { continue } } // if best is below target, we want larger expirations // if best is above target, we want lower pledge, but only if still above target // todo: after nv17 "target expiration" doesn't really make that much sense // (tho to be fair it doesn't make too much sense now either) // we probably want the lowest expiration that's still above the configured // minimum, and can fit most candidate deals if bestExpiration < targetExpirationEpoch { if expirationEpoch > bestExpiration && slowChecks(s.Number) { bestExpiration = expirationEpoch bestPledge = pledge bestDealBytes = pb.dealBytesInBound.Padded() candidate = s } continue } if expirationEpoch >= targetExpirationEpoch && pledge.LessThan(bestPledge) && slowChecks(s.Number) { bestExpiration = expirationEpoch bestPledge = pledge bestDealBytes = pb.dealBytesInBound.Padded() candidate = s } } if bestExpiration < minExpirationEpoch { log.Infow("Not upgrading any sectors", "available", len(m.available), "pieces", len(m.pendingPieces), "bestExp", bestExpiration, "target", targetExpirationEpoch, "min", minExpirationEpoch, "candidate", candidate) // didn't find a good sector / no sectors were available return false, nil } log.Infow("Upgrading sector", "number", candidate.Number, "type", "deal", "proofType", sp, "expiration", bestExpiration, "pledge", types.FIL(bestPledge)) delete(m.available, candidate) m.nextDealSector = &candidate.Number return true, m.sectors.Send(uint64(candidate.Number), SectorStartCCUpdate{}) } // call with m.inputLk func (m *Sealing) createSector(ctx context.Context, cfg sealiface.Config, sp abi.RegisteredSealProof) (abi.SectorNumber, error) { sid, err := m.NextSectorNumber(ctx) if err != nil { return 0, xerrors.Errorf("getting sector number: %w", err) } err = m.sealer.NewSector(ctx, m.minerSector(sp, sid)) if err != nil { return 0, xerrors.Errorf("initializing sector: %w", err) } // update stats early, fsm planner would do that async m.stats.updateSector(ctx, cfg, m.minerSectorID(sid), UndefinedSectorState) return sid, err } func (m *Sealing) tryGetDealSector(ctx context.Context, sp abi.RegisteredSealProof, ef expFn) error { m.startupWait.Wait() if m.nextDealSector != nil { return nil // new sector is being created right now } cfg, err := m.getConfig() if err != nil { return xerrors.Errorf("getting storage config: %w", err) } // if we're above WaitDeals limit, we don't want to add more staging sectors if cfg.MaxWaitDealsSectors > 0 && m.stats.curStaging() >= cfg.MaxWaitDealsSectors { return nil } maxUpgrading := cfg.MaxSealingSectorsForDeals if cfg.MaxUpgradingSectors > 0 { maxUpgrading = cfg.MaxUpgradingSectors } canCreate := cfg.MakeNewSectorForDeals && !(cfg.MaxSealingSectorsForDeals > 0 && m.stats.curSealing() >= cfg.MaxSealingSectorsForDeals) canUpgrade := !(maxUpgrading > 0 && m.stats.curSealing() >= maxUpgrading) // we want to try to upgrade when: // - we can upgrade and prefer upgrades // - we don't prefer upgrades, but can't create a new sector shouldUpgrade := canUpgrade && (!cfg.PreferNewSectorsForDeals || !canCreate) log.Infow("new deal sector decision", "sealing", m.stats.curSealing(), "maxSeal", cfg.MaxSealingSectorsForDeals, "maxUpgrade", maxUpgrading, "preferNew", cfg.PreferNewSectorsForDeals, "canCreate", canCreate, "canUpgrade", canUpgrade, "shouldUpgrade", shouldUpgrade) if shouldUpgrade { got, err := m.maybeUpgradeSector(ctx, sp, cfg, ef) if err != nil { return err } if got { return nil } } if canCreate { sid, err := m.createSector(ctx, cfg, sp) if err != nil { return err } m.nextDealSector = &sid log.Infow("Creating sector", "number", sid, "type", "deal", "proofType", sp) if err := m.sectors.Send(uint64(sid), SectorStart{ ID: sid, SectorType: sp, }); err != nil { return err } } return nil } func (m *Sealing) StartPackingSector(sid abi.SectorNumber) error { m.startupWait.Wait() log.Infow("starting to seal deal sector", "sector", sid, "trigger", "user") return m.sectors.Send(uint64(sid), SectorStartPacking{}) } func (m *Sealing) SectorAbortUpgrade(sid abi.SectorNumber) error { m.startupWait.Wait() m.inputLk.Lock() // always do this early delete(m.available, m.minerSectorID(sid)) m.inputLk.Unlock() log.Infow("aborting upgrade of sector", "sector", sid, "trigger", "user") return m.sectors.Send(uint64(sid), SectorAbortUpgrade{xerrors.New("triggered by user")}) } func (m *Sealing) SectorsStatus(ctx context.Context, sid abi.SectorNumber, showOnChainInfo bool) (api.SectorInfo, error) { if showOnChainInfo { return api.SectorInfo{}, xerrors.Errorf("on-chain info not supported") } info, err := m.GetSectorInfo(sid) if err != nil { return api.SectorInfo{}, err } deals := make([]abi.DealID, len(info.Pieces)) pieces := make([]api.SectorPiece, len(info.Pieces)) for i, piece := range info.Pieces { pieces[i].Piece = piece.Piece if piece.DealInfo == nil { continue } pdi := *piece.DealInfo // copy pieces[i].DealInfo = &pdi deals[i] = piece.DealInfo.DealID } log := make([]api.SectorLog, len(info.Log)) for i, l := range info.Log { log[i] = api.SectorLog{ Kind: l.Kind, Timestamp: l.Timestamp, Trace: l.Trace, Message: l.Message, } } sInfo := api.SectorInfo{ SectorID: sid, State: api.SectorState(info.State), CommD: info.CommD, CommR: info.CommR, Proof: info.Proof, Deals: deals, Pieces: pieces, Ticket: api.SealTicket{ Value: info.TicketValue, Epoch: info.TicketEpoch, }, Seed: api.SealSeed{ Value: info.SeedValue, Epoch: info.SeedEpoch, }, PreCommitMsg: info.PreCommitMessage, CommitMsg: info.CommitMessage, Retries: info.InvalidProofs, ToUpgrade: false, ReplicaUpdateMessage: info.ReplicaUpdateMessage, LastErr: info.LastErr, Log: log, // on chain info SealProof: info.SectorType, Activation: 0, Expiration: 0, DealWeight: big.Zero(), VerifiedDealWeight: big.Zero(), InitialPledge: big.Zero(), OnTime: 0, Early: 0, } return sInfo, nil } func proposalCID(deal api.PieceDealInfo) cid.Cid { pc, err := deal.DealProposal.Cid() if err != nil { log.Errorf("DealProposal.Cid error: %+v", err) return cid.Undef } return pc } var _ sectorblocks.SectorBuilder = &Sealing{}