lotus/storage/wdpost/wdpost_run.go

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package wdpost
import (
"bytes"
"context"
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"time"
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"github.com/ipfs/go-cid"
"go.opencensus.io/trace"
"golang.org/x/xerrors"
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"github.com/filecoin-project/go-address"
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"github.com/filecoin-project/go-bitfield"
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"github.com/filecoin-project/go-state-types/abi"
"github.com/filecoin-project/go-state-types/big"
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"github.com/filecoin-project/go-state-types/builtin"
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"github.com/filecoin-project/go-state-types/builtin/v9/miner"
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"github.com/filecoin-project/go-state-types/crypto"
"github.com/filecoin-project/go-state-types/dline"
"github.com/filecoin-project/go-state-types/network"
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"github.com/filecoin-project/go-state-types/proof"
proof7 "github.com/filecoin-project/specs-actors/v7/actors/runtime/proof"
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"github.com/filecoin-project/lotus/api"
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"github.com/filecoin-project/lotus/build"
"github.com/filecoin-project/lotus/chain/actors"
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"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/storage/sealer/storiface"
)
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// recordPoStFailure records a failure in the journal.
func (s *WindowPoStScheduler) recordPoStFailure(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,
}
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})
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}
// 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)
}()
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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.runPoStCycle(ctx, false, *deadline, ts)
if err != nil {
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log.Errorf("runPoStCycle 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
// use the challenge epoch if we've upgraded to network version 4
// (actors version 2). We want to go back as far as possible to be safe.
commEpoch := deadline.Open
if ver, err := s.api.StateNetworkVersion(ctx, types.EmptyTSK); err != nil {
log.Errorw("failed to get network version to determine PoSt epoch randomness lookback", "error", err)
} else if ver >= network.Version4 {
commEpoch = deadline.Challenge
}
commRand, err := s.api.StateGetRandomnessFromTickets(ctx, crypto.DomainSeparationTag_PoStChainCommit, commEpoch, nil, ts.Key())
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("submitPoStMessage 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
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sm, err := s.submitPoStMessage(ctx, post)
if err != nil {
log.Errorf("submit window post failed: %+v", err)
submitErr = err
} else {
s.recordProofsEvent(post.Partitions, sm.Cid())
}
}
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return submitErr
}
func (s *WindowPoStScheduler) checkSectors(ctx context.Context, check bitfield.BitField, tsk types.TipSetKey) (bitfield.BitField, error) {
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mid, err := address.IDFromAddress(s.actor)
if err != nil {
return bitfield.BitField{}, err
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}
sectorInfos, err := s.api.StateMinerSectors(ctx, s.actor, &check, tsk)
if err != nil {
return bitfield.BitField{}, err
}
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type checkSector struct {
sealed cid.Cid
update bool
}
sectors := make(map[abi.SectorNumber]checkSector)
var tocheck []storiface.SectorRef
for _, info := range sectorInfos {
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sectors[info.SectorNumber] = checkSector{
sealed: info.SealedCID,
update: info.SectorKeyCID != nil,
}
tocheck = append(tocheck, storiface.SectorRef{
ProofType: info.SealProof,
ID: abi.SectorID{
Miner: abi.ActorID(mid),
Number: info.SectorNumber,
},
})
}
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bad, err := s.faultTracker.CheckProvable(ctx, s.proofType, tocheck, func(ctx context.Context, id abi.SectorID) (cid.Cid, bool, error) {
s, ok := sectors[id.Number]
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if !ok {
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return cid.Undef, false, xerrors.Errorf("sealed CID not found")
}
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return s.sealed, s.update, nil
})
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if err != nil {
return bitfield.BitField{}, xerrors.Errorf("checking provable sectors: %w", err)
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}
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for id := range bad {
delete(sectors, id.Number)
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}
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log.Warnw("Checked sectors", "checked", len(tocheck), "good", len(sectors))
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sbf := bitfield.New()
for s := range sectors {
sbf.Set(uint64(s))
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}
return sbf, nil
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}
// runPoStCycle runs a full cycle of the PoSt process:
//
// 1. performs recovery declarations for the next deadline.
// 2. performs fault declarations for the next deadline.
// 3. computes and submits proofs, batching partitions and making sure they
// don't exceed message capacity.
//
// When `manual` is set, no messages (fault/recover) will be automatically sent
func (s *WindowPoStScheduler) runPoStCycle(ctx context.Context, manual bool, di dline.Info, ts *types.TipSet) ([]miner.SubmitWindowedPoStParams, error) {
ctx, span := trace.StartSpan(ctx, "storage.runPoStCycle")
defer span.End()
if !manual {
// TODO: extract from runPoStCycle, run on fault cutoff boundaries
s.asyncFaultRecover(di, ts)
}
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buf := new(bytes.Buffer)
if err := s.actor.MarshalCBOR(buf); err != nil {
return nil, xerrors.Errorf("failed to marshal address to cbor: %w", err)
}
headTs, err := s.api.ChainHead(ctx)
if err != nil {
return nil, xerrors.Errorf("getting current head: %w", err)
}
rand, err := s.api.StateGetRandomnessFromBeacon(ctx, crypto.DomainSeparationTag_WindowedPoStChallengeSeed, di.Challenge, buf.Bytes(), headTs.Key())
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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)
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}
// 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)
}
nv, err := s.api.StateNetworkVersion(ctx, ts.Key())
if err != nil {
return nil, xerrors.Errorf("getting network version: %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, nv)
if err != nil {
return nil, err
}
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defer func() {
if r := recover(); r != nil {
log.Errorf("recover: %s", r)
}
}()
// Generate proofs in batches
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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,
}
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postSkipped := bitfield.New()
somethingToProve := false
// Retry until we run out of sectors to prove.
for retries := 0; ; retries++ {
skipCount := uint64(0)
var partitions []miner.PoStPartition
var xsinfos []proof7.ExtendedSectorInfo
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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)
}
if manual {
// this is a check run, we want to prove faulty sectors, even
// if they are not declared as recovering.
toProve = partition.LiveSectors
}
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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 := toProve.Copy()
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if err != nil {
return nil, xerrors.Errorf("copy toProve: %w", err)
}
if !s.disablePreChecks {
good, err = s.checkSectors(ctx, toProve, ts.Key())
if err != nil {
return nil, xerrors.Errorf("checking sectors to skip: %w", err)
}
}
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good, err = bitfield.SubtractBitField(good, postSkipped)
if err != nil {
return nil, xerrors.Errorf("toProve - postSkipped: %w", err)
}
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skipped, err := bitfield.SubtractBitField(toProve, good)
if err != nil {
return nil, xerrors.Errorf("toProve - good: %w", err)
}
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sc, err := skipped.Count()
if err != nil {
return nil, xerrors.Errorf("getting skipped sector count: %w", err)
}
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skipCount += sc
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ssi, err := s.sectorsForProof(ctx, good, partition.AllSectors, ts)
if err != nil {
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return nil, xerrors.Errorf("getting sorted sector info: %w", err)
}
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if len(ssi) == 0 {
continue
}
xsinfos = append(xsinfos, ssi...)
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partitions = append(partitions, miner.PoStPartition{
Index: uint64(batchPartitionStartIdx + partIdx),
Skipped: skipped,
})
}
if len(xsinfos) == 0 {
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// nothing to prove for this batch
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
}
postOut, ps, err := s.prover.GenerateWindowPoSt(ctx, abi.ActorID(mid), xsinfos, append(abi.PoStRandomness{}, rand...))
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elapsed := time.Since(tsStart)
log.Infow("computing window post", "batch", batchIdx, "elapsed", elapsed, "skip", len(ps), "err", err)
if err != nil {
log.Errorf("error generating window post: %s", err)
}
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if err == nil {
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// If we proved nothing, something is very wrong.
if len(postOut) == 0 {
log.Errorf("len(postOut) == 0")
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return nil, xerrors.Errorf("received no proofs back from generate window post")
}
headTs, err := s.api.ChainHead(ctx)
if err != nil {
return nil, xerrors.Errorf("getting current head: %w", err)
}
checkRand, err := s.api.StateGetRandomnessFromBeacon(ctx, crypto.DomainSeparationTag_WindowedPoStChallengeSeed, di.Challenge, buf.Bytes(), headTs.Key())
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)
}
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if !bytes.Equal(checkRand, rand) {
log.Warnw("windowpost randomness changed", "old", rand, "new", checkRand, "ts-height", ts.Height(), "challenge-height", di.Challenge, "tsk", ts.Key())
rand = checkRand
continue
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}
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// If we generated an incorrect proof, try again.
sinfos := make([]proof7.SectorInfo, len(xsinfos))
for i, xsi := range xsinfos {
sinfos[i] = proof7.SectorInfo{
SealProof: xsi.SealProof,
SectorNumber: xsi.SectorNumber,
SealedCID: xsi.SealedCID,
}
}
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if correct, err := s.verifier.VerifyWindowPoSt(ctx, proof.WindowPoStVerifyInfo{
Randomness: abi.PoStRandomness(checkRand),
Proofs: postOut,
ChallengedSectors: sinfos,
Prover: abi.ActorID(mid),
}); err != nil {
log.Errorw("window post verification failed", "post", postOut, "error", err)
time.Sleep(5 * time.Second)
continue
} else if !correct {
log.Errorw("generated incorrect window post proof", "post", postOut, "error", err)
continue
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}
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// Proof generation successful, stop retrying
somethingToProve = true
params.Partitions = partitions
params.Proofs = postOut
break
}
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// Proof generation failed, so retry
log.Debugf("Proof generation failed, retry")
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if len(ps) == 0 {
// If we didn't skip any new sectors, we failed
// for some other reason and we need to abort.
return nil, xerrors.Errorf("running window post failed: %w", err)
}
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// TODO: maybe mark these as faulty somewhere?
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log.Warnw("generate window post skipped sectors", "sectors", ps, "error", err, "try", retries)
// Explicitly make sure we haven't aborted this PoSt
// (GenerateWindowPoSt may or may not check this).
// Otherwise, we could try to continue proving a
// deadline after the deadline has ended.
if ctx.Err() != nil {
log.Warnw("aborting PoSt due to context cancellation", "error", ctx.Err(), "deadline", di.Index)
return nil, ctx.Err()
}
for _, sector := range ps {
postSkipped.Set(uint64(sector.Number))
}
}
// Nothing to prove for this batch, try the next batch
if !somethingToProve {
continue
}
posts = append(posts, params)
}
return posts, nil
}
// Note: Partition order within batches must match original partition order in order
// for code following the user code to work
func (s *WindowPoStScheduler) BatchPartitions(partitions []api.Partition, nv network.Version) ([][]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(nv, s.proofType)
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if err != nil {
return nil, xerrors.Errorf("getting sectors per partition: %w", err)
}
// Also respect the AddressedPartitionsMax (which is the same as DeclarationsMax (which is all really just MaxPartitionsPerDeadline))
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declMax, err := policy.GetDeclarationsMax(nv)
if err != nil {
return nil, xerrors.Errorf("getting max declarations: %w", err)
}
if partitionsPerMsg > declMax {
partitionsPerMsg = declMax
}
// respect user config if set
if s.maxPartitionsPerPostMessage > 0 {
if partitionsPerMsg > s.maxPartitionsPerPostMessage {
partitionsPerMsg = s.maxPartitionsPerPostMessage
}
}
batches := [][]api.Partition{}
currBatch := []api.Partition{}
for i := 0; i < len(partitions); i++ {
recSectors, err := partitions[i].RecoveringSectors.Count()
if err != nil {
return nil, err
}
// Only add single partition to a batch if it contains recovery sectors
// and has the below user config set
if s.singleRecoveringPartitionPerPostMessage && recSectors > 0 {
if len(currBatch) > 0 {
batches = append(batches, currBatch)
currBatch = []api.Partition{}
}
batches = append(batches, []api.Partition{partitions[i]})
} else {
if len(currBatch) >= partitionsPerMsg {
batches = append(batches, currBatch)
currBatch = []api.Partition{}
}
currBatch = append(currBatch, partitions[i])
}
}
if len(currBatch) > 0 {
batches = append(batches, currBatch)
}
return batches, nil
}
func (s *WindowPoStScheduler) sectorsForProof(ctx context.Context, goodSectors, allSectors bitfield.BitField, ts *types.TipSet) ([]proof7.ExtendedSectorInfo, error) {
sset, err := s.api.StateMinerSectors(ctx, s.actor, &goodSectors, ts.Key())
if err != nil {
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return nil, err
}
if len(sset) == 0 {
return nil, nil
}
substitute := proof7.ExtendedSectorInfo{
SectorNumber: sset[0].SectorNumber,
SealedCID: sset[0].SealedCID,
SealProof: sset[0].SealProof,
SectorKey: sset[0].SectorKeyCID,
}
sectorByID := make(map[uint64]proof7.ExtendedSectorInfo, len(sset))
for _, sector := range sset {
sectorByID[uint64(sector.SectorNumber)] = proof7.ExtendedSectorInfo{
SectorNumber: sector.SectorNumber,
SealedCID: sector.SealedCID,
SealProof: sector.SealProof,
SectorKey: sector.SectorKeyCID,
}
}
proofSectors := make([]proof7.ExtendedSectorInfo, 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
}
// submitPoStMessage builds a SubmitWindowedPoSt message and submits it to
// the mpool. It doesn't synchronously block on confirmations, but it does
// monitor in the background simply for the purposes of logging.
func (s *WindowPoStScheduler) submitPoStMessage(ctx context.Context, proof *miner.SubmitWindowedPoStParams) (*types.SignedMessage, error) {
ctx, span := trace.StartSpan(ctx, "storage.commitPost")
defer span.End()
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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,
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Method: builtin.MethodsMiner.SubmitWindowedPoSt,
Params: enc,
Value: types.NewInt(0),
}
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spec := &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)}
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if err := s.prepareMessage(ctx, msg, spec); err != nil {
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return nil, err
}
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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 (deadline %d)", sm.Cid(), proof.Deadline)
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go func() {
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rec, err := s.api.StateWaitMsg(context.TODO(), sm.Cid(), build.MessageConfidence, api.LookbackNoLimit, true)
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if err != nil {
log.Error(err)
return
}
if rec.Receipt.ExitCode == 0 {
log.Infow("Window post submission successful", "cid", sm.Cid(), "deadline", proof.Deadline, "epoch", rec.Height, "ts", rec.TipSet.Cids())
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return
}
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log.Errorf("Submitting window post %s failed: exit %d", sm.Cid(), rec.Receipt.ExitCode)
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}()
return sm, nil
}
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// prepareMessage prepares a message before sending it, setting:
//
// * the sender (from the AddressSelector, falling back to the worker address if none set)
// * the right gas parameters
func (s *WindowPoStScheduler) prepareMessage(ctx context.Context, msg *types.Message, spec *api.MessageSendSpec) error {
mi, err := s.api.StateMinerInfo(ctx, s.actor, types.EmptyTSK)
if err != nil {
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return xerrors.Errorf("error getting miner info: %w", err)
}
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// set the worker as a fallback
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msg.From = mi.Worker
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// (optimal) initial estimation with some overestimation that guarantees
// block inclusion within the next 20 tipsets.
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gm, err := s.api.GasEstimateMessageGas(ctx, msg, spec, types.EmptyTSK)
if err != nil {
log.Errorw("estimating gas", "error", err)
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return nil
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}
*msg = *gm
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// calculate a more frugal estimation; premium is estimated to guarantee
// inclusion within 5 tipsets, and fee cap is estimated for inclusion
// within 4 tipsets.
minGasFeeMsg := *msg
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minGasFeeMsg.GasPremium, err = s.api.GasEstimateGasPremium(ctx, 5, msg.From, msg.GasLimit, types.EmptyTSK)
if err != nil {
log.Errorf("failed to estimate minimum gas premium: %+v", err)
minGasFeeMsg.GasPremium = msg.GasPremium
}
minGasFeeMsg.GasFeeCap, err = s.api.GasEstimateFeeCap(ctx, &minGasFeeMsg, 4, types.EmptyTSK)
if err != nil {
log.Errorf("failed to estimate minimum gas fee cap: %+v", err)
minGasFeeMsg.GasFeeCap = msg.GasFeeCap
}
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// goodFunds = funds needed for optimal inclusion probability.
// minFunds = funds needed for more speculative inclusion probability.
goodFunds := big.Add(msg.RequiredFunds(), msg.Value)
minFunds := big.Min(big.Add(minGasFeeMsg.RequiredFunds(), minGasFeeMsg.Value), goodFunds)
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pa, avail, err := s.addrSel.AddressFor(ctx, s.api, mi, api.PoStAddr, goodFunds, minFunds)
if err != nil {
log.Errorw("error selecting address for window post", "error", err)
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return nil
}
msg.From = pa
bestReq := big.Add(msg.RequiredFunds(), msg.Value)
if avail.LessThan(bestReq) {
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mff := func() (abi.TokenAmount, error) {
return msg.RequiredFunds(), nil
}
messagepool.CapGasFee(mff, msg, &api.MessageSendSpec{MaxFee: big.Min(big.Sub(avail, msg.Value), msg.RequiredFunds())})
}
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return nil
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}
func (s *WindowPoStScheduler) ComputePoSt(ctx context.Context, dlIdx uint64, ts *types.TipSet) ([]miner.SubmitWindowedPoStParams, error) {
dl, err := s.api.StateMinerProvingDeadline(ctx, s.actor, ts.Key())
if err != nil {
return nil, xerrors.Errorf("getting deadline: %w", err)
}
curIdx := dl.Index
dl.Index = dlIdx
dlDiff := dl.Index - curIdx
if dl.Index > curIdx {
dlDiff -= dl.WPoStPeriodDeadlines
dl.PeriodStart -= dl.WPoStProvingPeriod
}
epochDiff := (dl.WPoStProvingPeriod / abi.ChainEpoch(dl.WPoStPeriodDeadlines)) * abi.ChainEpoch(dlDiff)
// runPoStCycle only needs dl.Index and dl.Challenge
dl.Challenge += epochDiff
return s.runPoStCycle(ctx, true, *dl, ts)
}
func (s *WindowPoStScheduler) ManualFaultRecovery(ctx context.Context, maddr address.Address, sectors []abi.SectorNumber) ([]cid.Cid, error) {
return s.declareManualRecoveries(ctx, maddr, sectors, types.TipSetKey{})
}