package storage import ( "bytes" "context" "time" "github.com/filecoin-project/go-bitfield" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/big" "github.com/filecoin-project/go-state-types/crypto" "github.com/filecoin-project/go-state-types/dline" "github.com/ipfs/go-cid" "go.opencensus.io/trace" "golang.org/x/xerrors" proof2 "github.com/filecoin-project/specs-actors/v2/actors/runtime/proof" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/actors" "github.com/filecoin-project/lotus/chain/actors/builtin/miner" "github.com/filecoin-project/lotus/chain/actors/policy" "github.com/filecoin-project/lotus/chain/types" ) func (s *WindowPoStScheduler) failPost(err error, ts *types.TipSet, deadline *dline.Info) { s.journal.RecordEvent(s.evtTypes[evtTypeWdPoStScheduler], func() interface{} { c := evtCommon{Error: err} if ts != nil { c.Deadline = deadline c.Height = ts.Height() c.TipSet = ts.Cids() } return WdPoStSchedulerEvt{ evtCommon: c, State: SchedulerStateFaulted, } }) log.Errorf("Got err %w - TODO handle errors", err) /*s.failLk.Lock() if eps > s.failed { s.failed = eps } s.failLk.Unlock()*/ } // recordProofsEvent records a successful proofs_processed event in the // journal, even if it was a noop (no partitions). func (s *WindowPoStScheduler) recordProofsEvent(partitions []miner.PoStPartition, mcid cid.Cid) { s.journal.RecordEvent(s.evtTypes[evtTypeWdPoStProofs], func() interface{} { return &WdPoStProofsProcessedEvt{ evtCommon: s.getEvtCommon(nil), Partitions: partitions, MessageCID: mcid, } }) } // startGeneratePoST kicks off the process of generating a PoST func (s *WindowPoStScheduler) startGeneratePoST( ctx context.Context, ts *types.TipSet, deadline *dline.Info, completeGeneratePoST CompleteGeneratePoSTCb, ) context.CancelFunc { ctx, abort := context.WithCancel(ctx) go func() { defer abort() s.journal.RecordEvent(s.evtTypes[evtTypeWdPoStScheduler], func() interface{} { return WdPoStSchedulerEvt{ evtCommon: s.getEvtCommon(nil), State: SchedulerStateStarted, } }) posts, err := s.runGeneratePoST(ctx, ts, deadline) completeGeneratePoST(posts, err) }() return abort } // runGeneratePoST generates the PoST func (s *WindowPoStScheduler) runGeneratePoST( ctx context.Context, ts *types.TipSet, deadline *dline.Info, ) ([]miner.SubmitWindowedPoStParams, error) { ctx, span := trace.StartSpan(ctx, "WindowPoStScheduler.generatePoST") defer span.End() posts, err := s.runPost(ctx, *deadline, ts) if err != nil { log.Errorf("runPost failed: %+v", err) return nil, err } if len(posts) == 0 { s.recordProofsEvent(nil, cid.Undef) } return posts, nil } // startSubmitPoST kicks of the process of submitting PoST func (s *WindowPoStScheduler) startSubmitPoST( ctx context.Context, ts *types.TipSet, deadline *dline.Info, posts []miner.SubmitWindowedPoStParams, completeSubmitPoST CompleteSubmitPoSTCb, ) context.CancelFunc { ctx, abort := context.WithCancel(ctx) go func() { defer abort() err := s.runSubmitPoST(ctx, ts, deadline, posts) if err == nil { s.journal.RecordEvent(s.evtTypes[evtTypeWdPoStScheduler], func() interface{} { return WdPoStSchedulerEvt{ evtCommon: s.getEvtCommon(nil), State: SchedulerStateSucceeded, } }) } completeSubmitPoST(err) }() return abort } // runSubmitPoST submits PoST func (s *WindowPoStScheduler) runSubmitPoST( ctx context.Context, ts *types.TipSet, deadline *dline.Info, posts []miner.SubmitWindowedPoStParams, ) error { if len(posts) == 0 { return nil } ctx, span := trace.StartSpan(ctx, "WindowPoStScheduler.submitPoST") defer span.End() // Get randomness from tickets commEpoch := deadline.Open commRand, err := s.api.ChainGetRandomnessFromTickets(ctx, ts.Key(), crypto.DomainSeparationTag_PoStChainCommit, commEpoch, nil) if err != nil { err = xerrors.Errorf("failed to get chain randomness from tickets for windowPost (ts=%d; deadline=%d): %w", ts.Height(), commEpoch, err) log.Errorf("submitPost failed: %+v", err) return err } var submitErr error for i := range posts { // Add randomness to PoST post := &posts[i] post.ChainCommitEpoch = commEpoch post.ChainCommitRand = commRand // Submit PoST sm, submitErr := s.submitPost(ctx, post) if submitErr != nil { log.Errorf("submit window post failed: %+v", submitErr) } else { s.recordProofsEvent(post.Partitions, sm.Cid()) } } return submitErr } func (s *WindowPoStScheduler) checkSectors(ctx context.Context, check bitfield.BitField) (bitfield.BitField, error) { mid, err := address.IDFromAddress(s.actor) if err != nil { return bitfield.BitField{}, err } sectors := make(map[abi.SectorID]struct{}) var tocheck []abi.SectorID err = check.ForEach(func(snum uint64) error { s := abi.SectorID{ Miner: abi.ActorID(mid), Number: abi.SectorNumber(snum), } tocheck = append(tocheck, s) sectors[s] = struct{}{} return nil }) if err != nil { return bitfield.BitField{}, xerrors.Errorf("iterating over bitfield: %w", err) } bad, err := s.faultTracker.CheckProvable(ctx, s.proofType, tocheck) if err != nil { return bitfield.BitField{}, xerrors.Errorf("checking provable sectors: %w", err) } for _, id := range bad { delete(sectors, id) } log.Warnw("Checked sectors", "checked", len(tocheck), "good", len(sectors)) sbf := bitfield.New() for s := range sectors { sbf.Set(uint64(s.Number)) } return sbf, nil } func (s *WindowPoStScheduler) checkNextRecoveries(ctx context.Context, dlIdx uint64, partitions []api.Partition) ([]miner.RecoveryDeclaration, *types.SignedMessage, error) { ctx, span := trace.StartSpan(ctx, "storage.checkNextRecoveries") defer span.End() faulty := uint64(0) params := &miner.DeclareFaultsRecoveredParams{ Recoveries: []miner.RecoveryDeclaration{}, } for partIdx, partition := range partitions { unrecovered, err := bitfield.SubtractBitField(partition.FaultySectors, partition.RecoveringSectors) if err != nil { return nil, nil, xerrors.Errorf("subtracting recovered set from fault set: %w", err) } uc, err := unrecovered.Count() if err != nil { return nil, nil, xerrors.Errorf("counting unrecovered sectors: %w", err) } if uc == 0 { continue } faulty += uc recovered, err := s.checkSectors(ctx, unrecovered) if err != nil { return nil, nil, xerrors.Errorf("checking unrecovered sectors: %w", err) } // if all sectors failed to recover, don't declare recoveries recoveredCount, err := recovered.Count() if err != nil { return nil, nil, xerrors.Errorf("counting recovered sectors: %w", err) } if recoveredCount == 0 { continue } params.Recoveries = append(params.Recoveries, miner.RecoveryDeclaration{ Deadline: dlIdx, Partition: uint64(partIdx), Sectors: recovered, }) } recoveries := params.Recoveries if len(recoveries) == 0 { if faulty != 0 { log.Warnw("No recoveries to declare", "deadline", dlIdx, "faulty", faulty) } return recoveries, nil, nil } enc, aerr := actors.SerializeParams(params) if aerr != nil { return recoveries, nil, xerrors.Errorf("could not serialize declare recoveries parameters: %w", aerr) } msg := &types.Message{ To: s.actor, From: s.worker, Method: miner.Methods.DeclareFaultsRecovered, Params: enc, Value: types.NewInt(0), } spec := &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)} s.setSender(ctx, msg, spec) sm, err := s.api.MpoolPushMessage(ctx, msg, &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)}) if err != nil { return recoveries, sm, xerrors.Errorf("pushing message to mpool: %w", err) } log.Warnw("declare faults recovered Message CID", "cid", sm.Cid()) rec, err := s.api.StateWaitMsg(context.TODO(), sm.Cid(), build.MessageConfidence) if err != nil { return recoveries, sm, xerrors.Errorf("declare faults recovered wait error: %w", err) } if rec.Receipt.ExitCode != 0 { return recoveries, sm, xerrors.Errorf("declare faults recovered wait non-0 exit code: %d", rec.Receipt.ExitCode) } return recoveries, sm, nil } func (s *WindowPoStScheduler) checkNextFaults(ctx context.Context, dlIdx uint64, partitions []api.Partition) ([]miner.FaultDeclaration, *types.SignedMessage, error) { ctx, span := trace.StartSpan(ctx, "storage.checkNextFaults") defer span.End() bad := uint64(0) params := &miner.DeclareFaultsParams{ Faults: []miner.FaultDeclaration{}, } for partIdx, partition := range partitions { nonFaulty, err := bitfield.SubtractBitField(partition.LiveSectors, partition.FaultySectors) if err != nil { return nil, nil, xerrors.Errorf("determining non faulty sectors: %w", err) } good, err := s.checkSectors(ctx, nonFaulty) if err != nil { return nil, nil, xerrors.Errorf("checking sectors: %w", err) } newFaulty, err := bitfield.SubtractBitField(nonFaulty, good) if err != nil { return nil, nil, xerrors.Errorf("calculating faulty sector set: %w", err) } c, err := newFaulty.Count() if err != nil { return nil, nil, xerrors.Errorf("counting faulty sectors: %w", err) } if c == 0 { continue } bad += c params.Faults = append(params.Faults, miner.FaultDeclaration{ Deadline: dlIdx, Partition: uint64(partIdx), Sectors: newFaulty, }) } faults := params.Faults if len(faults) == 0 { return faults, nil, nil } log.Errorw("DETECTED FAULTY SECTORS, declaring faults", "count", bad) enc, aerr := actors.SerializeParams(params) if aerr != nil { return faults, nil, xerrors.Errorf("could not serialize declare faults parameters: %w", aerr) } msg := &types.Message{ To: s.actor, From: s.worker, Method: miner.Methods.DeclareFaults, Params: enc, Value: types.NewInt(0), // TODO: Is there a fee? } spec := &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)} s.setSender(ctx, msg, spec) sm, err := s.api.MpoolPushMessage(ctx, msg, spec) if err != nil { return faults, sm, xerrors.Errorf("pushing message to mpool: %w", err) } log.Warnw("declare faults Message CID", "cid", sm.Cid()) rec, err := s.api.StateWaitMsg(context.TODO(), sm.Cid(), build.MessageConfidence) if err != nil { return faults, sm, xerrors.Errorf("declare faults wait error: %w", err) } if rec.Receipt.ExitCode != 0 { return faults, sm, xerrors.Errorf("declare faults wait non-0 exit code: %d", rec.Receipt.ExitCode) } return faults, sm, nil } func (s *WindowPoStScheduler) runPost(ctx context.Context, di dline.Info, ts *types.TipSet) ([]miner.SubmitWindowedPoStParams, error) { ctx, span := trace.StartSpan(ctx, "storage.runPost") defer span.End() go func() { // TODO: extract from runPost, run on fault cutoff boundaries // check faults / recoveries for the *next* deadline. It's already too // late to declare them for this deadline declDeadline := (di.Index + 2) % di.WPoStPeriodDeadlines partitions, err := s.api.StateMinerPartitions(context.TODO(), s.actor, declDeadline, ts.Key()) if err != nil { log.Errorf("getting partitions: %v", err) return } var ( sigmsg *types.SignedMessage recoveries []miner.RecoveryDeclaration faults []miner.FaultDeclaration // optionalCid returns the CID of the message, or cid.Undef is the // message is nil. We don't need the argument (could capture the // pointer), but it's clearer and purer like that. optionalCid = func(sigmsg *types.SignedMessage) cid.Cid { if sigmsg == nil { return cid.Undef } return sigmsg.Cid() } ) if recoveries, sigmsg, err = s.checkNextRecoveries(context.TODO(), declDeadline, partitions); err != nil { // TODO: This is potentially quite bad, but not even trying to post when this fails is objectively worse log.Errorf("checking sector recoveries: %v", err) } s.journal.RecordEvent(s.evtTypes[evtTypeWdPoStRecoveries], func() interface{} { j := WdPoStRecoveriesProcessedEvt{ evtCommon: s.getEvtCommon(err), Declarations: recoveries, MessageCID: optionalCid(sigmsg), } j.Error = err return j }) if ts.Height() > build.UpgradeIgnitionHeight { return // FORK: declaring faults after ignition upgrade makes no sense } if faults, sigmsg, err = s.checkNextFaults(context.TODO(), declDeadline, partitions); err != nil { // TODO: This is also potentially really bad, but we try to post anyways log.Errorf("checking sector faults: %v", err) } s.journal.RecordEvent(s.evtTypes[evtTypeWdPoStFaults], func() interface{} { return WdPoStFaultsProcessedEvt{ evtCommon: s.getEvtCommon(err), Declarations: faults, MessageCID: optionalCid(sigmsg), } }) }() buf := new(bytes.Buffer) if err := s.actor.MarshalCBOR(buf); err != nil { return nil, xerrors.Errorf("failed to marshal address to cbor: %w", err) } rand, err := s.api.ChainGetRandomnessFromBeacon(ctx, ts.Key(), crypto.DomainSeparationTag_WindowedPoStChallengeSeed, di.Challenge, buf.Bytes()) if err != nil { return nil, xerrors.Errorf("failed to get chain randomness from beacon for window post (ts=%d; deadline=%d): %w", ts.Height(), di, err) } // Get the partitions for the given deadline partitions, err := s.api.StateMinerPartitions(ctx, s.actor, di.Index, ts.Key()) if err != nil { return nil, xerrors.Errorf("getting partitions: %w", err) } // Split partitions into batches, so as not to exceed the number of sectors // allowed in a single message partitionBatches, err := s.batchPartitions(partitions) if err != nil { return nil, err } // Generate proofs in batches posts := make([]miner.SubmitWindowedPoStParams, 0, len(partitionBatches)) for batchIdx, batch := range partitionBatches { batchPartitionStartIdx := 0 for _, batch := range partitionBatches[:batchIdx] { batchPartitionStartIdx += len(batch) } params := miner.SubmitWindowedPoStParams{ Deadline: di.Index, Partitions: make([]miner.PoStPartition, 0, len(batch)), Proofs: nil, } skipCount := uint64(0) postSkipped := bitfield.New() var postOut []proof2.PoStProof somethingToProve := true for retries := 0; retries < 5; retries++ { var partitions []miner.PoStPartition var sinfos []proof2.SectorInfo for partIdx, partition := range batch { // TODO: Can do this in parallel toProve, err := bitfield.SubtractBitField(partition.LiveSectors, partition.FaultySectors) if err != nil { return nil, xerrors.Errorf("removing faults from set of sectors to prove: %w", err) } toProve, err = bitfield.MergeBitFields(toProve, partition.RecoveringSectors) if err != nil { return nil, xerrors.Errorf("adding recoveries to set of sectors to prove: %w", err) } good, err := s.checkSectors(ctx, toProve) if err != nil { return nil, xerrors.Errorf("checking sectors to skip: %w", err) } good, err = bitfield.SubtractBitField(good, postSkipped) if err != nil { return nil, xerrors.Errorf("toProve - postSkipped: %w", err) } skipped, err := bitfield.SubtractBitField(toProve, good) if err != nil { return nil, xerrors.Errorf("toProve - good: %w", err) } sc, err := skipped.Count() if err != nil { return nil, xerrors.Errorf("getting skipped sector count: %w", err) } skipCount += sc ssi, err := s.sectorsForProof(ctx, good, partition.AllSectors, ts) if err != nil { return nil, xerrors.Errorf("getting sorted sector info: %w", err) } if len(ssi) == 0 { continue } sinfos = append(sinfos, ssi...) partitions = append(partitions, miner.PoStPartition{ Index: uint64(batchPartitionStartIdx + partIdx), Skipped: skipped, }) } if len(sinfos) == 0 { // nothing to prove for this batch somethingToProve = false break } // Generate proof log.Infow("running window post", "chain-random", rand, "deadline", di, "height", ts.Height(), "skipped", skipCount) tsStart := build.Clock.Now() mid, err := address.IDFromAddress(s.actor) if err != nil { return nil, err } var ps []abi.SectorID postOut, ps, err = s.prover.GenerateWindowPoSt(ctx, abi.ActorID(mid), sinfos, abi.PoStRandomness(rand)) elapsed := time.Since(tsStart) log.Infow("computing window post", "batch", batchIdx, "elapsed", elapsed) if err == nil { // Proof generation successful, stop retrying params.Partitions = append(params.Partitions, partitions...) break } // Proof generation failed, so retry if len(ps) == 0 { return nil, xerrors.Errorf("running window post failed: %w", err) } log.Warnw("generate window post skipped sectors", "sectors", ps, "error", err, "try", retries) skipCount += uint64(len(ps)) for _, sector := range ps { postSkipped.Set(uint64(sector.Number)) } } // Nothing to prove for this batch, try the next batch if !somethingToProve { continue } if len(postOut) == 0 { return nil, xerrors.Errorf("received no proofs back from generate window post") } params.Proofs = postOut posts = append(posts, params) } return posts, nil } func (s *WindowPoStScheduler) batchPartitions(partitions []api.Partition) ([][]api.Partition, error) { // We don't want to exceed the number of sectors allowed in a message. // So given the number of sectors in a partition, work out the number of // partitions that can be in a message without exceeding sectors per // message: // floor(number of sectors allowed in a message / sectors per partition) // eg: // max sectors per message 7: ooooooo // sectors per partition 3: ooo // partitions per message 2: oooOOO // <1><2> (3rd doesn't fit) partitionsPerMsg, err := policy.GetMaxPoStPartitions(s.proofType) if err != nil { return nil, xerrors.Errorf("getting sectors per partition: %w", err) } // The number of messages will be: // ceiling(number of partitions / partitions per message) batchCount := len(partitions) / partitionsPerMsg if len(partitions)%partitionsPerMsg != 0 { batchCount++ } // Split the partitions into batches batches := make([][]api.Partition, 0, batchCount) for i := 0; i < len(partitions); i += partitionsPerMsg { end := i + partitionsPerMsg if end > len(partitions) { end = len(partitions) } batches = append(batches, partitions[i:end]) } return batches, nil } func (s *WindowPoStScheduler) sectorsForProof(ctx context.Context, goodSectors, allSectors bitfield.BitField, ts *types.TipSet) ([]proof2.SectorInfo, error) { sset, err := s.api.StateMinerSectors(ctx, s.actor, &goodSectors, ts.Key()) if err != nil { return nil, err } if len(sset) == 0 { return nil, nil } substitute := proof2.SectorInfo{ SectorNumber: sset[0].SectorNumber, SealedCID: sset[0].SealedCID, SealProof: sset[0].SealProof, } sectorByID := make(map[uint64]proof2.SectorInfo, len(sset)) for _, sector := range sset { sectorByID[uint64(sector.SectorNumber)] = proof2.SectorInfo{ SectorNumber: sector.SectorNumber, SealedCID: sector.SealedCID, SealProof: sector.SealProof, } } proofSectors := make([]proof2.SectorInfo, 0, len(sset)) if err := allSectors.ForEach(func(sectorNo uint64) error { if info, found := sectorByID[sectorNo]; found { proofSectors = append(proofSectors, info) } else { proofSectors = append(proofSectors, substitute) } return nil }); err != nil { return nil, xerrors.Errorf("iterating partition sector bitmap: %w", err) } return proofSectors, nil } func (s *WindowPoStScheduler) submitPost(ctx context.Context, proof *miner.SubmitWindowedPoStParams) (*types.SignedMessage, error) { ctx, span := trace.StartSpan(ctx, "storage.commitPost") defer span.End() var sm *types.SignedMessage enc, aerr := actors.SerializeParams(proof) if aerr != nil { return nil, xerrors.Errorf("could not serialize submit window post parameters: %w", aerr) } msg := &types.Message{ To: s.actor, From: s.worker, Method: miner.Methods.SubmitWindowedPoSt, Params: enc, Value: types.NewInt(0), } spec := &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)} s.setSender(ctx, msg, spec) // TODO: consider maybe caring about the output sm, err := s.api.MpoolPushMessage(ctx, msg, spec) if err != nil { return nil, xerrors.Errorf("pushing message to mpool: %w", err) } log.Infof("Submitted window post: %s", sm.Cid()) go func() { rec, err := s.api.StateWaitMsg(context.TODO(), sm.Cid(), build.MessageConfidence) if err != nil { log.Error(err) return } if rec.Receipt.ExitCode == 0 { return } log.Errorf("Submitting window post %s failed: exit %d", sm.Cid(), rec.Receipt.ExitCode) }() return sm, nil } func (s *WindowPoStScheduler) setSender(ctx context.Context, msg *types.Message, spec *api.MessageSendSpec) { mi, err := s.api.StateMinerInfo(ctx, s.actor, types.EmptyTSK) if err != nil { log.Errorw("error getting miner info", "error", err) // better than just failing msg.From = s.worker return } gm, err := s.api.GasEstimateMessageGas(ctx, msg, spec, types.EmptyTSK) if err != nil { log.Errorw("estimating gas", "error", err) msg.From = s.worker return } *msg = *gm minFunds := big.Add(msg.RequiredFunds(), msg.Value) pa, err := AddressFor(ctx, s.api, mi, PoStAddr, minFunds) if err != nil { log.Errorw("error selecting address for window post", "error", err) msg.From = s.worker return } msg.From = pa }