package sealing import ( "bytes" "context" "sort" "sync" "time" "github.com/ipfs/go-cid" "golang.org/x/xerrors" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-bitfield" "github.com/filecoin-project/go-state-types/abi" actorstypes "github.com/filecoin-project/go-state-types/actors" "github.com/filecoin-project/go-state-types/big" "github.com/filecoin-project/go-state-types/builtin" "github.com/filecoin-project/go-state-types/network" "github.com/filecoin-project/go-state-types/proof" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/actors/builtin/miner" "github.com/filecoin-project/lotus/chain/actors/policy" "github.com/filecoin-project/lotus/chain/messagepool" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/node/config" "github.com/filecoin-project/lotus/node/modules/dtypes" "github.com/filecoin-project/lotus/storage/pipeline/sealiface" "github.com/filecoin-project/lotus/storage/sealer/storiface" ) var aggFeeNum = big.NewInt(110) var aggFeeDen = big.NewInt(100) //go:generate go run github.com/golang/mock/mockgen -destination=mocks/mock_commit_batcher.go -package=mocks . CommitBatcherApi type CommitBatcherApi interface { MpoolPushMessage(context.Context, *types.Message, *api.MessageSendSpec) (*types.SignedMessage, error) GasEstimateMessageGas(context.Context, *types.Message, *api.MessageSendSpec, types.TipSetKey) (*types.Message, error) StateMinerInfo(context.Context, address.Address, types.TipSetKey) (api.MinerInfo, error) ChainHead(ctx context.Context) (*types.TipSet, error) StateSectorPreCommitInfo(ctx context.Context, maddr address.Address, sectorNumber abi.SectorNumber, tsk types.TipSetKey) (*miner.SectorPreCommitOnChainInfo, error) StateMinerInitialPledgeCollateral(context.Context, address.Address, miner.SectorPreCommitInfo, types.TipSetKey) (big.Int, error) StateNetworkVersion(ctx context.Context, tsk types.TipSetKey) (network.Version, error) StateMinerAvailableBalance(context.Context, address.Address, types.TipSetKey) (big.Int, error) // Address selector WalletBalance(context.Context, address.Address) (types.BigInt, error) WalletHas(context.Context, address.Address) (bool, error) StateAccountKey(context.Context, address.Address, types.TipSetKey) (address.Address, error) StateLookupID(context.Context, address.Address, types.TipSetKey) (address.Address, error) } type AggregateInput struct { Spt abi.RegisteredSealProof Info proof.AggregateSealVerifyInfo Proof []byte ActivationManifest miner.SectorActivationManifest DealIDPrecommit bool } type CommitBatcher struct { api CommitBatcherApi maddr address.Address mctx context.Context addrSel AddressSelector feeCfg config.MinerFeeConfig getConfig dtypes.GetSealingConfigFunc prover storiface.Prover cutoffs map[abi.SectorNumber]time.Time todo map[abi.SectorNumber]AggregateInput waiting map[abi.SectorNumber][]chan sealiface.CommitBatchRes notify, stop, stopped chan struct{} force chan chan []sealiface.CommitBatchRes lk sync.Mutex } func NewCommitBatcher(mctx context.Context, maddr address.Address, api CommitBatcherApi, addrSel AddressSelector, feeCfg config.MinerFeeConfig, getConfig dtypes.GetSealingConfigFunc, prov storiface.Prover) *CommitBatcher { b := &CommitBatcher{ api: api, maddr: maddr, mctx: mctx, addrSel: addrSel, feeCfg: feeCfg, getConfig: getConfig, prover: prov, cutoffs: map[abi.SectorNumber]time.Time{}, todo: map[abi.SectorNumber]AggregateInput{}, waiting: map[abi.SectorNumber][]chan sealiface.CommitBatchRes{}, notify: make(chan struct{}, 1), force: make(chan chan []sealiface.CommitBatchRes), stop: make(chan struct{}), stopped: make(chan struct{}), } go b.run() return b } func (b *CommitBatcher) run() { var forceRes chan []sealiface.CommitBatchRes var lastMsg []sealiface.CommitBatchRes cfg, err := b.getConfig() if err != nil { panic(err) } timer := time.NewTimer(b.batchWait(cfg.CommitBatchWait, cfg.CommitBatchSlack)) for { if forceRes != nil { forceRes <- lastMsg forceRes = nil } lastMsg = nil // indicates whether we should only start a batch if we have reached or exceeded cfg.MaxCommitBatch var sendAboveMax bool select { case <-b.stop: close(b.stopped) return case <-b.notify: sendAboveMax = true case <-timer.C: // do nothing case fr := <-b.force: // user triggered forceRes = fr } var err error lastMsg, err = b.maybeStartBatch(sendAboveMax) if err != nil { log.Warnw("CommitBatcher processBatch error", "error", err) } if !timer.Stop() { select { case <-timer.C: default: } } timer.Reset(b.batchWait(cfg.CommitBatchWait, cfg.CommitBatchSlack)) } } func (b *CommitBatcher) batchWait(maxWait, slack time.Duration) time.Duration { now := time.Now() b.lk.Lock() defer b.lk.Unlock() if len(b.todo) == 0 { return maxWait } var cutoff time.Time for sn := range b.todo { sectorCutoff := b.cutoffs[sn] if cutoff.IsZero() || (!sectorCutoff.IsZero() && sectorCutoff.Before(cutoff)) { cutoff = sectorCutoff } } for sn := range b.waiting { sectorCutoff := b.cutoffs[sn] if cutoff.IsZero() || (!sectorCutoff.IsZero() && sectorCutoff.Before(cutoff)) { cutoff = sectorCutoff } } if cutoff.IsZero() { return maxWait } cutoff = cutoff.Add(-slack) if cutoff.Before(now) { return time.Nanosecond // can't return 0 } wait := cutoff.Sub(now) if wait > maxWait { wait = maxWait } return wait } func (b *CommitBatcher) maybeStartBatch(notif bool) ([]sealiface.CommitBatchRes, error) { b.lk.Lock() defer b.lk.Unlock() total := len(b.todo) if total == 0 { return nil, nil // nothing to do } cfg, err := b.getConfig() if err != nil { return nil, xerrors.Errorf("getting config: %w", err) } if notif && total < cfg.MaxCommitBatch && cfg.AggregateCommits { return nil, nil } var res, resV1 []sealiface.CommitBatchRes ts, err := b.api.ChainHead(b.mctx) if err != nil { return nil, err } nv, err := b.api.StateNetworkVersion(b.mctx, ts.Key()) if err != nil { return nil, xerrors.Errorf("getting network version: %s", err) } blackedOut := func() bool { const nv16BlackoutWindow = abi.ChainEpoch(20) // a magik number if ts.Height() <= build.UpgradeSkyrHeight && build.UpgradeSkyrHeight-ts.Height() < nv16BlackoutWindow { return true } return false } individual := (total < cfg.MinCommitBatch) || (total < miner.MinAggregatedSectors) || blackedOut() || !cfg.AggregateCommits if !individual && !cfg.AggregateAboveBaseFee.Equals(big.Zero()) { if ts.MinTicketBlock().ParentBaseFee.LessThan(cfg.AggregateAboveBaseFee) { individual = true } } if nv >= MinDDONetworkVersion { // After nv21, we have a new ProveCommitSectors2 method, which supports // batching without aggregation, but it doesn't support onboarding // sectors which were precommitted with DealIDs in the precommit message. // We prefer it for all other sectors, so first we use the new processBatchV2 var sectors []abi.SectorNumber for sn := range b.todo { sectors = append(sectors, sn) } res, err = b.processBatchV2(cfg, sectors, nv, !individual) if err != nil { err = xerrors.Errorf("processBatchV2: %w", err) } // Mark sectors as done for _, r := range res { if err != nil { r.Error = err.Error() } for _, sn := range r.Sectors { for _, ch := range b.waiting[sn] { ch <- r // buffered } delete(b.waiting, sn) delete(b.todo, sn) delete(b.cutoffs, sn) } } } if err != nil { log.Warnf("CommitBatcher maybeStartBatch processBatch-ddo %v", err) } if err != nil && len(res) == 0 { return nil, err } if individual { resV1, err = b.processIndividually(cfg) } else { var sectors []abi.SectorNumber for sn := range b.todo { sectors = append(sectors, sn) } resV1, err = b.processBatchV1(cfg, sectors, nv) } if err != nil { log.Warnf("CommitBatcher maybeStartBatch individual:%v processBatch %v", individual, err) } if err != nil && len(resV1) == 0 { return nil, err } // Mark the rest as processed for _, r := range resV1 { if err != nil { r.Error = err.Error() } for _, sn := range r.Sectors { for _, ch := range b.waiting[sn] { ch <- r // buffered } delete(b.waiting, sn) delete(b.todo, sn) delete(b.cutoffs, sn) } } res = append(res, resV1...) return res, nil } // processBatchV2 processes a batch of sectors after nv22. It will always send // ProveCommitSectors3Params which may contain either individual proofs or an // aggregate proof depending on SP condition and network conditions. func (b *CommitBatcher) processBatchV2(cfg sealiface.Config, sectors []abi.SectorNumber, nv network.Version, aggregate bool) ([]sealiface.CommitBatchRes, error) { ts, err := b.api.ChainHead(b.mctx) if err != nil { return nil, err } // sort sectors by number sort.Slice(sectors, func(i, j int) bool { return sectors[i] < sectors[j] }) total := len(sectors) res := sealiface.CommitBatchRes{ FailedSectors: map[abi.SectorNumber]string{}, } params := miner.ProveCommitSectors3Params{ RequireActivationSuccess: cfg.RequireActivationSuccess, RequireNotificationSuccess: cfg.RequireNotificationSuccess, } infos := make([]proof.AggregateSealVerifyInfo, 0, total) collateral := big.Zero() for _, sector := range sectors { if b.todo[sector].DealIDPrecommit { // can't process sectors precommitted with deal IDs with ProveCommitSectors2 continue } res.Sectors = append(res.Sectors, sector) sc, err := b.getSectorCollateral(sector, ts.Key()) if err != nil { res.FailedSectors[sector] = err.Error() continue } collateral = big.Add(collateral, sc) params.SectorActivations = append(params.SectorActivations, b.todo[sector].ActivationManifest) params.SectorProofs = append(params.SectorProofs, b.todo[sector].Proof) infos = append(infos, b.todo[sector].Info) } if len(infos) == 0 { return nil, nil } proofs := make([][]byte, 0, total) for _, info := range infos { proofs = append(proofs, b.todo[info.Number].Proof) } needFunds := collateral if aggregate { params.SectorProofs = nil // can't be set when aggregating arp, err := b.aggregateProofType(nv) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("getting aggregate proof type: %w", err) } params.AggregateProofType = &arp mid, err := address.IDFromAddress(b.maddr) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("getting miner id: %w", err) } params.AggregateProof, err = b.prover.AggregateSealProofs(proof.AggregateSealVerifyProofAndInfos{ Miner: abi.ActorID(mid), SealProof: b.todo[infos[0].Number].Spt, AggregateProof: arp, Infos: infos, }, proofs) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("aggregating proofs: %w", err) } aggFeeRaw, err := policy.AggregateProveCommitNetworkFee(nv, len(infos), ts.MinTicketBlock().ParentBaseFee) if err != nil { res.Error = err.Error() log.Errorf("getting aggregate commit network fee: %s", err) return []sealiface.CommitBatchRes{res}, xerrors.Errorf("getting aggregate commit network fee: %s", err) } aggFee := big.Div(big.Mul(aggFeeRaw, aggFeeNum), aggFeeDen) needFunds = big.Add(collateral, aggFee) } needFunds, err = collateralSendAmount(b.mctx, b.api, b.maddr, cfg, needFunds) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, err } maxFee := b.feeCfg.MaxCommitBatchGasFee.FeeForSectors(len(infos)) goodFunds := big.Add(maxFee, needFunds) mi, err := b.api.StateMinerInfo(b.mctx, b.maddr, types.EmptyTSK) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("couldn't get miner info: %w", err) } from, _, err := b.addrSel.AddressFor(b.mctx, b.api, mi, api.CommitAddr, goodFunds, needFunds) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("no good address found: %w", err) } enc := new(bytes.Buffer) if err := params.MarshalCBOR(enc); err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("couldn't serialize ProveCommitSectors3Params: %w", err) } _, err = simulateMsgGas(b.mctx, b.api, from, b.maddr, builtin.MethodsMiner.ProveCommitSectors3, needFunds, maxFee, enc.Bytes()) if err != nil && (!api.ErrorIsIn(err, []error{&api.ErrOutOfGas{}}) || len(sectors) < miner.MinAggregatedSectors*2) { log.Errorf("simulating CommitBatch message failed (%x): %s", enc.Bytes(), err) res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("simulating CommitBatch message failed: %w", err) } msgTooLarge := len(enc.Bytes()) > (messagepool.MaxMessageSize - 128) // If we're out of gas, split the batch in half and evaluate again if api.ErrorIsIn(err, []error{&api.ErrOutOfGas{}}) || msgTooLarge { log.Warnf("CommitAggregate message ran out of gas or is too large, splitting batch in half and trying again (sectors: %d, params: %d)", len(sectors), len(enc.Bytes())) mid := len(sectors) / 2 ret0, _ := b.processBatchV2(cfg, sectors[:mid], nv, aggregate) ret1, _ := b.processBatchV2(cfg, sectors[mid:], nv, aggregate) return append(ret0, ret1...), nil } mcid, err := sendMsg(b.mctx, b.api, from, b.maddr, builtin.MethodsMiner.ProveCommitSectors3, needFunds, maxFee, enc.Bytes()) if err != nil { return []sealiface.CommitBatchRes{res}, xerrors.Errorf("sending message failed (params size: %d, sectors: %d, agg: %t): %w", len(enc.Bytes()), len(sectors), aggregate, err) } res.Msg = &mcid log.Infow("Sent ProveCommitSectors3 message", "cid", mcid, "from", from, "todo", total, "sectors", len(infos)) return []sealiface.CommitBatchRes{res}, nil } // processBatchV1 processes a batch of sectors before nv22. It always sends out an aggregate message. func (b *CommitBatcher) processBatchV1(cfg sealiface.Config, sectors []abi.SectorNumber, nv network.Version) ([]sealiface.CommitBatchRes, error) { ts, err := b.api.ChainHead(b.mctx) if err != nil { return nil, err } total := len(sectors) res := sealiface.CommitBatchRes{ FailedSectors: map[abi.SectorNumber]string{}, } params := miner.ProveCommitAggregateParams{ SectorNumbers: bitfield.New(), } proofs := make([][]byte, 0, total) infos := make([]proof.AggregateSealVerifyInfo, 0, total) collateral := big.Zero() for _, sector := range sectors { res.Sectors = append(res.Sectors, sector) sc, err := b.getSectorCollateral(sector, ts.Key()) if err != nil { res.FailedSectors[sector] = err.Error() continue } collateral = big.Add(collateral, sc) params.SectorNumbers.Set(uint64(sector)) infos = append(infos, b.todo[sector].Info) } if len(infos) == 0 { return nil, nil } sort.Slice(infos, func(i, j int) bool { return infos[i].Number < infos[j].Number }) for _, info := range infos { proofs = append(proofs, b.todo[info.Number].Proof) } mid, err := address.IDFromAddress(b.maddr) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("getting miner id: %w", err) } arp, err := b.aggregateProofType(nv) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("getting aggregate proof type: %w", err) } params.AggregateProof, err = b.prover.AggregateSealProofs(proof.AggregateSealVerifyProofAndInfos{ Miner: abi.ActorID(mid), SealProof: b.todo[infos[0].Number].Spt, AggregateProof: arp, Infos: infos, }, proofs) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("aggregating proofs: %w", err) } enc := new(bytes.Buffer) if err := params.MarshalCBOR(enc); err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("couldn't serialize ProveCommitAggregateParams: %w", err) } mi, err := b.api.StateMinerInfo(b.mctx, b.maddr, types.EmptyTSK) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("couldn't get miner info: %w", err) } maxFee := b.feeCfg.MaxCommitBatchGasFee.FeeForSectors(len(infos)) aggFeeRaw, err := policy.AggregateProveCommitNetworkFee(nv, len(infos), ts.MinTicketBlock().ParentBaseFee) if err != nil { res.Error = err.Error() log.Errorf("getting aggregate commit network fee: %s", err) return []sealiface.CommitBatchRes{res}, xerrors.Errorf("getting aggregate commit network fee: %s", err) } aggFee := big.Div(big.Mul(aggFeeRaw, aggFeeNum), aggFeeDen) needFunds := big.Add(collateral, aggFee) needFunds, err = collateralSendAmount(b.mctx, b.api, b.maddr, cfg, needFunds) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, err } goodFunds := big.Add(maxFee, needFunds) from, _, err := b.addrSel.AddressFor(b.mctx, b.api, mi, api.CommitAddr, goodFunds, needFunds) if err != nil { res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("no good address found: %w", err) } _, err = simulateMsgGas(b.mctx, b.api, from, b.maddr, builtin.MethodsMiner.ProveCommitAggregate, needFunds, maxFee, enc.Bytes()) if err != nil && (!api.ErrorIsIn(err, []error{&api.ErrOutOfGas{}}) || len(sectors) < miner.MinAggregatedSectors*2) { log.Errorf("simulating CommitBatch message failed (%x): %s", enc.Bytes(), err) res.Error = err.Error() return []sealiface.CommitBatchRes{res}, xerrors.Errorf("simulating CommitBatch message failed: %w", err) } // If we're out of gas, split the batch in half and evaluate again if api.ErrorIsIn(err, []error{&api.ErrOutOfGas{}}) { log.Warnf("CommitAggregate message ran out of gas, splitting batch in half and trying again (sectors: %d)", len(sectors)) mid := len(sectors) / 2 ret0, _ := b.processBatchV1(cfg, sectors[:mid], nv) ret1, _ := b.processBatchV1(cfg, sectors[mid:], nv) return append(ret0, ret1...), nil } mcid, err := sendMsg(b.mctx, b.api, from, b.maddr, builtin.MethodsMiner.ProveCommitAggregate, needFunds, maxFee, enc.Bytes()) if err != nil { return []sealiface.CommitBatchRes{res}, xerrors.Errorf("sending message failed: %w", err) } res.Msg = &mcid log.Infow("Sent ProveCommitAggregate message", "cid", mcid, "from", from, "todo", total, "sectors", len(infos)) return []sealiface.CommitBatchRes{res}, nil } func (b *CommitBatcher) processIndividually(cfg sealiface.Config) ([]sealiface.CommitBatchRes, error) { mi, err := b.api.StateMinerInfo(b.mctx, b.maddr, types.EmptyTSK) if err != nil { return nil, xerrors.Errorf("couldn't get miner info: %w", err) } avail := types.TotalFilecoinInt if cfg.CollateralFromMinerBalance && !cfg.DisableCollateralFallback { avail, err = b.api.StateMinerAvailableBalance(b.mctx, b.maddr, types.EmptyTSK) if err != nil { return nil, xerrors.Errorf("getting available miner balance: %w", err) } avail = big.Sub(avail, cfg.AvailableBalanceBuffer) if avail.LessThan(big.Zero()) { avail = big.Zero() } } ts, err := b.api.ChainHead(b.mctx) if err != nil { return nil, err } var res []sealiface.CommitBatchRes sectorsProcessed := 0 for sn, info := range b.todo { r := sealiface.CommitBatchRes{ Sectors: []abi.SectorNumber{sn}, FailedSectors: map[abi.SectorNumber]string{}, } if cfg.MaxSectorProveCommitsSubmittedPerEpoch > 0 && uint64(sectorsProcessed) >= cfg.MaxSectorProveCommitsSubmittedPerEpoch { tmp := ts for tmp.Height() <= ts.Height() { tmp, err = b.api.ChainHead(b.mctx) if err != nil { log.Errorf("getting chain head: %+v", err) return nil, err } time.Sleep(3 * time.Second) } sectorsProcessed = 0 ts = tmp } mcid, err := b.processSingle(cfg, mi, &avail, sn, info, ts.Key()) if err != nil { log.Errorf("process single error: %+v", err) // todo: return to user r.FailedSectors[sn] = err.Error() } else { r.Msg = &mcid } res = append(res, r) sectorsProcessed++ } return res, nil } func (b *CommitBatcher) processSingle(cfg sealiface.Config, mi api.MinerInfo, avail *abi.TokenAmount, sn abi.SectorNumber, info AggregateInput, tsk types.TipSetKey) (cid.Cid, error) { return b.processSingleV1(cfg, mi, avail, sn, info, tsk) } func (b *CommitBatcher) processSingleV1(cfg sealiface.Config, mi api.MinerInfo, avail *abi.TokenAmount, sn abi.SectorNumber, info AggregateInput, tsk types.TipSetKey) (cid.Cid, error) { enc := new(bytes.Buffer) params := &miner.ProveCommitSectorParams{ SectorNumber: sn, Proof: info.Proof, } if err := params.MarshalCBOR(enc); err != nil { return cid.Undef, xerrors.Errorf("marshaling commit params: %w", err) } collateral, err := b.getSectorCollateral(sn, tsk) if err != nil { return cid.Undef, err } if cfg.CollateralFromMinerBalance { c := big.Sub(collateral, *avail) *avail = big.Sub(*avail, collateral) collateral = c if collateral.LessThan(big.Zero()) { collateral = big.Zero() } if (*avail).LessThan(big.Zero()) { *avail = big.Zero() } } goodFunds := big.Add(collateral, big.Int(b.feeCfg.MaxCommitGasFee)) from, _, err := b.addrSel.AddressFor(b.mctx, b.api, mi, api.CommitAddr, goodFunds, collateral) if err != nil { return cid.Undef, xerrors.Errorf("no good address to send commit message from: %w", err) } mcid, err := sendMsg(b.mctx, b.api, from, b.maddr, builtin.MethodsMiner.ProveCommitSector, collateral, big.Int(b.feeCfg.MaxCommitGasFee), enc.Bytes()) if err != nil { return cid.Undef, xerrors.Errorf("pushing message to mpool: %w", err) } return mcid, nil } // register commit, wait for batch message, return message CID func (b *CommitBatcher) AddCommit(ctx context.Context, s SectorInfo, in AggregateInput) (res sealiface.CommitBatchRes, err error) { sn := s.SectorNumber cu, err := b.getCommitCutoff(s) if err != nil { return sealiface.CommitBatchRes{}, err } b.lk.Lock() b.cutoffs[sn] = cu b.todo[sn] = in sent := make(chan sealiface.CommitBatchRes, 1) b.waiting[sn] = append(b.waiting[sn], sent) select { case b.notify <- struct{}{}: default: // already have a pending notification, don't need more } b.lk.Unlock() select { case r := <-sent: return r, nil case <-ctx.Done(): return sealiface.CommitBatchRes{}, ctx.Err() } } func (b *CommitBatcher) Flush(ctx context.Context) ([]sealiface.CommitBatchRes, error) { resCh := make(chan []sealiface.CommitBatchRes, 1) select { case b.force <- resCh: select { case res := <-resCh: return res, nil case <-ctx.Done(): return nil, ctx.Err() } case <-ctx.Done(): return nil, ctx.Err() } } func (b *CommitBatcher) Pending(ctx context.Context) ([]abi.SectorID, error) { b.lk.Lock() defer b.lk.Unlock() mid, err := address.IDFromAddress(b.maddr) if err != nil { return nil, err } res := make([]abi.SectorID, 0) for _, s := range b.todo { res = append(res, abi.SectorID{ Miner: abi.ActorID(mid), Number: s.Info.Number, }) } sort.Slice(res, func(i, j int) bool { if res[i].Miner != res[j].Miner { return res[i].Miner < res[j].Miner } return res[i].Number < res[j].Number }) return res, nil } func (b *CommitBatcher) Stop(ctx context.Context) error { close(b.stop) select { case <-b.stopped: return nil case <-ctx.Done(): return ctx.Err() } } // TODO: If this returned epochs, it would make testing much easier func (b *CommitBatcher) getCommitCutoff(si SectorInfo) (time.Time, error) { ts, err := b.api.ChainHead(b.mctx) if err != nil { return time.Now(), xerrors.Errorf("getting chain head: %s", err) } nv, err := b.api.StateNetworkVersion(b.mctx, ts.Key()) if err != nil { log.Errorf("getting network version: %s", err) return time.Now(), xerrors.Errorf("getting network version: %s", err) } pci, err := b.api.StateSectorPreCommitInfo(b.mctx, b.maddr, si.SectorNumber, ts.Key()) if err != nil { log.Errorf("getting precommit info: %s", err) return time.Now(), err } if pci == nil { return time.Now(), xerrors.Errorf("precommit info not found") } av, err := actorstypes.VersionForNetwork(nv) if err != nil { log.Errorf("unsupported network vrsion: %s", err) return time.Now(), err } mpcd, err := policy.GetMaxProveCommitDuration(av, si.SectorType) if err != nil { log.Errorf("getting max prove commit duration: %s", err) return time.Now(), err } cutoffEpoch := pci.PreCommitEpoch + mpcd for _, p := range si.Pieces { if !p.HasDealInfo() { continue } startEpoch, err := p.StartEpoch() if err != nil { log.Errorf("getting deal start epoch: %s", err) return time.Now(), err } if startEpoch < cutoffEpoch { cutoffEpoch = startEpoch } } if cutoffEpoch <= ts.Height() { return time.Now(), nil } return time.Now().Add(time.Duration(cutoffEpoch-ts.Height()) * time.Duration(build.BlockDelaySecs) * time.Second), nil } func (b *CommitBatcher) getSectorCollateral(sn abi.SectorNumber, tsk types.TipSetKey) (abi.TokenAmount, error) { pci, err := b.api.StateSectorPreCommitInfo(b.mctx, b.maddr, sn, tsk) if err != nil { return big.Zero(), xerrors.Errorf("getting precommit info: %w", err) } if pci == nil { return big.Zero(), xerrors.Errorf("precommit info not found on chain") } collateral, err := b.api.StateMinerInitialPledgeCollateral(b.mctx, b.maddr, pci.Info, tsk) if err != nil { return big.Zero(), xerrors.Errorf("getting initial pledge collateral: %w", err) } collateral = big.Sub(collateral, pci.PreCommitDeposit) if collateral.LessThan(big.Zero()) { collateral = big.Zero() } return collateral, nil } func (b *CommitBatcher) aggregateProofType(nv network.Version) (abi.RegisteredAggregationProof, error) { if nv < network.Version16 { return abi.RegisteredAggregationProof_SnarkPackV1, nil } return abi.RegisteredAggregationProof_SnarkPackV2, nil }