package rfwp import ( "bufio" "bytes" "context" "encoding/json" "fmt" "io" "math" corebig "math/big" "os" "sort" "text/tabwriter" "time" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-state-types/big" "github.com/filecoin-project/lotus/blockstore" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/api/v0api" "github.com/filecoin-project/lotus/chain/store" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/testplans/lotus-soup/testkit" "github.com/filecoin-project/go-state-types/abi" sealing "github.com/filecoin-project/lotus/extern/storage-sealing" "github.com/filecoin-project/lotus/chain/actors/builtin" "github.com/filecoin-project/lotus/chain/actors/builtin/miner" tstats "github.com/filecoin-project/lotus/tools/stats" ) func UpdateChainState(t *testkit.TestEnvironment, m *testkit.LotusMiner) error { height := 0 headlag := 3 ctx := context.Background() tipsetsCh, err := tstats.GetTips(ctx, &v0api.WrapperV1Full{FullNode: m.FullApi}, abi.ChainEpoch(height), headlag) if err != nil { return err } jsonFilename := fmt.Sprintf("%s%cchain-state.ndjson", t.TestOutputsPath, os.PathSeparator) jsonFile, err := os.Create(jsonFilename) if err != nil { return err } defer jsonFile.Close() jsonEncoder := json.NewEncoder(jsonFile) for tipset := range tipsetsCh { maddrs, err := m.FullApi.StateListMiners(ctx, tipset.Key()) if err != nil { return err } snapshot := ChainSnapshot{ Height: tipset.Height(), MinerStates: make(map[string]*MinerStateSnapshot), } err = func() error { cs.Lock() defer cs.Unlock() for _, maddr := range maddrs { err := func() error { filename := fmt.Sprintf("%s%cstate-%s-%d", t.TestOutputsPath, os.PathSeparator, maddr, tipset.Height()) f, err := os.Create(filename) if err != nil { return err } defer f.Close() w := bufio.NewWriter(f) defer w.Flush() minerInfo, err := info(t, m, maddr, w, tipset.Height()) if err != nil { return err } writeText(w, minerInfo) if tipset.Height()%100 == 0 { printDiff(t, minerInfo, tipset.Height()) } faultState, err := provingFaults(t, m, maddr, tipset.Height()) if err != nil { return err } writeText(w, faultState) provState, err := provingInfo(t, m, maddr, tipset.Height()) if err != nil { return err } writeText(w, provState) // record diff recordDiff(minerInfo, provState, tipset.Height()) deadlines, err := provingDeadlines(t, m, maddr, tipset.Height()) if err != nil { return err } writeText(w, deadlines) sectorInfo, err := sectorsList(t, m, maddr, w, tipset.Height()) if err != nil { return err } writeText(w, sectorInfo) snapshot.MinerStates[maddr.String()] = &MinerStateSnapshot{ Info: minerInfo, Faults: faultState, ProvingInfo: provState, Deadlines: deadlines, Sectors: sectorInfo, } return jsonEncoder.Encode(snapshot) }() if err != nil { return err } } cs.PrevHeight = tipset.Height() return nil }() if err != nil { return err } } return nil } type ChainSnapshot struct { Height abi.ChainEpoch MinerStates map[string]*MinerStateSnapshot } type MinerStateSnapshot struct { Info *MinerInfo Faults *ProvingFaultState ProvingInfo *ProvingInfoState Deadlines *ProvingDeadlines Sectors *SectorInfo } // writeText marshals m to text and writes to w, swallowing any errors along the way. func writeText(w io.Writer, m plainTextMarshaler) { b, err := m.MarshalPlainText() if err != nil { return } _, _ = w.Write(b) } // if we make our structs `encoding.TextMarshaler`s, they all get stringified when marshaling to JSON // instead of just using the default struct marshaler. // so here's encoding.TextMarshaler with a different name, so that doesn't happen. type plainTextMarshaler interface { MarshalPlainText() ([]byte, error) } type ProvingFaultState struct { // FaultedSectors is a slice per-deadline faulty sectors. If the miner // has no faulty sectors, this will be nil. FaultedSectors [][]uint64 } func (s *ProvingFaultState) MarshalPlainText() ([]byte, error) { w := &bytes.Buffer{} if len(s.FaultedSectors) == 0 { fmt.Fprintf(w, "no faulty sectors\n") return w.Bytes(), nil } tw := tabwriter.NewWriter(w, 2, 4, 2, ' ', 0) _, _ = fmt.Fprintf(tw, "deadline\tsectors") for deadline, sectors := range s.FaultedSectors { for _, num := range sectors { _, _ = fmt.Fprintf(tw, "%d\t%d\n", deadline, num) } } return w.Bytes(), nil } func provingFaults(t *testkit.TestEnvironment, m *testkit.LotusMiner, maddr address.Address, height abi.ChainEpoch) (*ProvingFaultState, error) { api := m.FullApi ctx := context.Background() head, err := api.ChainHead(ctx) if err != nil { return nil, err } deadlines, err := api.StateMinerDeadlines(ctx, maddr, head.Key()) if err != nil { return nil, err } faultedSectors := make([][]uint64, len(deadlines)) hasFaults := false for dlIdx := range deadlines { partitions, err := api.StateMinerPartitions(ctx, maddr, uint64(dlIdx), types.EmptyTSK) if err != nil { return nil, err } for _, partition := range partitions { faulty, err := partition.FaultySectors.All(10000000) if err != nil { return nil, err } if len(faulty) > 0 { hasFaults = true } faultedSectors[dlIdx] = append(faultedSectors[dlIdx], faulty...) } } result := new(ProvingFaultState) if hasFaults { result.FaultedSectors = faultedSectors } return result, nil } type ProvingInfoState struct { CurrentEpoch abi.ChainEpoch ProvingPeriodStart abi.ChainEpoch Faults uint64 ProvenSectors uint64 FaultPercent float64 Recoveries uint64 DeadlineIndex uint64 DeadlineSectors uint64 DeadlineOpen abi.ChainEpoch DeadlineClose abi.ChainEpoch DeadlineChallenge abi.ChainEpoch DeadlineFaultCutoff abi.ChainEpoch WPoStProvingPeriod abi.ChainEpoch } func (s *ProvingInfoState) MarshalPlainText() ([]byte, error) { w := &bytes.Buffer{} fmt.Fprintf(w, "Current Epoch: %d\n", s.CurrentEpoch) fmt.Fprintf(w, "Chain Period: %d\n", s.CurrentEpoch/s.WPoStProvingPeriod) fmt.Fprintf(w, "Chain Period Start: %s\n", epochTime(s.CurrentEpoch, (s.CurrentEpoch/s.WPoStProvingPeriod)*s.WPoStProvingPeriod)) fmt.Fprintf(w, "Chain Period End: %s\n\n", epochTime(s.CurrentEpoch, (s.CurrentEpoch/s.WPoStProvingPeriod+1)*s.WPoStProvingPeriod)) fmt.Fprintf(w, "Proving Period Boundary: %d\n", s.ProvingPeriodStart%s.WPoStProvingPeriod) fmt.Fprintf(w, "Proving Period Start: %s\n", epochTime(s.CurrentEpoch, s.ProvingPeriodStart)) fmt.Fprintf(w, "Next Period Start: %s\n\n", epochTime(s.CurrentEpoch, s.ProvingPeriodStart+s.WPoStProvingPeriod)) fmt.Fprintf(w, "Faults: %d (%.2f%%)\n", s.Faults, s.FaultPercent) fmt.Fprintf(w, "Recovering: %d\n", s.Recoveries) //fmt.Fprintf(w, "New Sectors: %d\n\n", s.NewSectors) fmt.Fprintf(w, "Deadline Index: %d\n", s.DeadlineIndex) fmt.Fprintf(w, "Deadline Sectors: %d\n", s.DeadlineSectors) fmt.Fprintf(w, "Deadline Open: %s\n", epochTime(s.CurrentEpoch, s.DeadlineOpen)) fmt.Fprintf(w, "Deadline Close: %s\n", epochTime(s.CurrentEpoch, s.DeadlineClose)) fmt.Fprintf(w, "Deadline Challenge: %s\n", epochTime(s.CurrentEpoch, s.DeadlineChallenge)) fmt.Fprintf(w, "Deadline FaultCutoff: %s\n", epochTime(s.CurrentEpoch, s.DeadlineFaultCutoff)) return w.Bytes(), nil } func provingInfo(t *testkit.TestEnvironment, m *testkit.LotusMiner, maddr address.Address, height abi.ChainEpoch) (*ProvingInfoState, error) { lapi := m.FullApi ctx := context.Background() head, err := lapi.ChainHead(ctx) if err != nil { return nil, err } cd, err := lapi.StateMinerProvingDeadline(ctx, maddr, head.Key()) if err != nil { return nil, err } deadlines, err := lapi.StateMinerDeadlines(ctx, maddr, head.Key()) if err != nil { return nil, err } parts := map[uint64][]api.Partition{} for dlIdx := range deadlines { part, err := lapi.StateMinerPartitions(ctx, maddr, uint64(dlIdx), types.EmptyTSK) if err != nil { return nil, err } parts[uint64(dlIdx)] = part } proving := uint64(0) faults := uint64(0) recovering := uint64(0) for _, partitions := range parts { for _, partition := range partitions { sc, err := partition.LiveSectors.Count() if err != nil { return nil, err } proving += sc fc, err := partition.FaultySectors.Count() if err != nil { return nil, err } faults += fc rc, err := partition.RecoveringSectors.Count() if err != nil { return nil, err } recovering += rc } } var faultPerc float64 if proving > 0 { faultPerc = float64(faults*10000/proving) / 100 } s := ProvingInfoState{ CurrentEpoch: cd.CurrentEpoch, ProvingPeriodStart: cd.PeriodStart, Faults: faults, ProvenSectors: proving, FaultPercent: faultPerc, Recoveries: recovering, DeadlineIndex: cd.Index, DeadlineOpen: cd.Open, DeadlineClose: cd.Close, DeadlineChallenge: cd.Challenge, DeadlineFaultCutoff: cd.FaultCutoff, WPoStProvingPeriod: cd.WPoStProvingPeriod, } if cd.Index < cd.WPoStPeriodDeadlines { for _, partition := range parts[cd.Index] { sc, err := partition.LiveSectors.Count() if err != nil { return nil, err } s.DeadlineSectors += sc } } return &s, nil } func epochTime(curr, e abi.ChainEpoch) string { switch { case curr > e: return fmt.Sprintf("%d (%s ago)", e, time.Second*time.Duration(int64(build.BlockDelaySecs)*int64(curr-e))) case curr == e: return fmt.Sprintf("%d (now)", e) case curr < e: return fmt.Sprintf("%d (in %s)", e, time.Second*time.Duration(int64(build.BlockDelaySecs)*int64(e-curr))) } panic("math broke") } type ProvingDeadlines struct { Deadlines []DeadlineInfo } type DeadlineInfo struct { Sectors uint64 Partitions int Proven uint64 Current bool } func (d *ProvingDeadlines) MarshalPlainText() ([]byte, error) { w := new(bytes.Buffer) tw := tabwriter.NewWriter(w, 2, 4, 2, ' ', 0) _, _ = fmt.Fprintln(tw, "deadline\tsectors\tpartitions\tproven") for i, di := range d.Deadlines { var cur string if di.Current { cur += "\t(current)" } _, _ = fmt.Fprintf(tw, "%d\t%d\t%d\t%d%s\n", i, di.Sectors, di.Partitions, di.Proven, cur) } tw.Flush() return w.Bytes(), nil } func provingDeadlines(t *testkit.TestEnvironment, m *testkit.LotusMiner, maddr address.Address, height abi.ChainEpoch) (*ProvingDeadlines, error) { lapi := m.FullApi ctx := context.Background() deadlines, err := lapi.StateMinerDeadlines(ctx, maddr, types.EmptyTSK) if err != nil { return nil, err } di, err := lapi.StateMinerProvingDeadline(ctx, maddr, types.EmptyTSK) if err != nil { return nil, err } infos := make([]DeadlineInfo, 0, len(deadlines)) for dlIdx, deadline := range deadlines { partitions, err := lapi.StateMinerPartitions(ctx, maddr, uint64(dlIdx), types.EmptyTSK) if err != nil { return nil, err } provenPartitions, err := deadline.PostSubmissions.Count() if err != nil { return nil, err } var cur string if di.Index == uint64(dlIdx) { cur += "\t(current)" } outInfo := DeadlineInfo{ //Sectors: c, Partitions: len(partitions), Proven: provenPartitions, Current: di.Index == uint64(dlIdx), } infos = append(infos, outInfo) //_, _ = fmt.Fprintf(tw, "%d\t%d\t%d%s\n", dlIdx, len(partitions), provenPartitions, cur) } return &ProvingDeadlines{Deadlines: infos}, nil } type SectorInfo struct { Sectors []abi.SectorNumber SectorStates map[abi.SectorNumber]api.SectorInfo Committed []abi.SectorNumber Proving []abi.SectorNumber } func (i *SectorInfo) MarshalPlainText() ([]byte, error) { provingIDs := make(map[abi.SectorNumber]struct{}, len(i.Proving)) for _, id := range i.Proving { provingIDs[id] = struct{}{} } commitedIDs := make(map[abi.SectorNumber]struct{}, len(i.Committed)) for _, id := range i.Committed { commitedIDs[id] = struct{}{} } w := new(bytes.Buffer) tw := tabwriter.NewWriter(w, 8, 4, 1, ' ', 0) for _, s := range i.Sectors { _, inSSet := commitedIDs[s] _, inPSet := provingIDs[s] st, ok := i.SectorStates[s] if !ok { continue } fmt.Fprintf(tw, "%d: %s\tsSet: %s\tpSet: %s\ttktH: %d\tseedH: %d\tdeals: %v\n", s, st.State, yesno(inSSet), yesno(inPSet), st.Ticket.Epoch, st.Seed.Epoch, st.Deals, ) } if err := tw.Flush(); err != nil { return nil, err } return w.Bytes(), nil } func sectorsList(t *testkit.TestEnvironment, m *testkit.LotusMiner, maddr address.Address, w io.Writer, height abi.ChainEpoch) (*SectorInfo, error) { node := m.FullApi ctx := context.Background() list, err := m.MinerApi.SectorsList(ctx) if err != nil { return nil, err } activeSet, err := node.StateMinerActiveSectors(ctx, maddr, types.EmptyTSK) if err != nil { return nil, err } activeIDs := make(map[abi.SectorNumber]struct{}, len(activeSet)) for _, info := range activeSet { activeIDs[info.SectorNumber] = struct{}{} } sset, err := node.StateMinerSectors(ctx, maddr, nil, types.EmptyTSK) if err != nil { return nil, err } commitedIDs := make(map[abi.SectorNumber]struct{}, len(activeSet)) for _, info := range sset { commitedIDs[info.SectorNumber] = struct{}{} } sort.Slice(list, func(i, j int) bool { return list[i] < list[j] }) i := SectorInfo{Sectors: list, SectorStates: make(map[abi.SectorNumber]api.SectorInfo, len(list))} for _, s := range list { st, err := m.MinerApi.SectorsStatus(ctx, s, true) if err != nil { fmt.Fprintf(w, "%d:\tError: %s\n", s, err) continue } i.SectorStates[s] = st } return &i, nil } func yesno(b bool) string { if b { return "YES" } return "NO" } type MinerInfo struct { MinerAddr address.Address SectorSize string MinerPower *api.MinerPower CommittedBytes big.Int ProvingBytes big.Int FaultyBytes big.Int FaultyPercentage float64 Balance big.Int PreCommitDeposits big.Int LockedFunds big.Int AvailableFunds big.Int WorkerBalance big.Int MarketEscrow big.Int MarketLocked big.Int SectorStateCounts map[sealing.SectorState]int } func (i *MinerInfo) MarshalPlainText() ([]byte, error) { w := new(bytes.Buffer) fmt.Fprintf(w, "Miner: %s\n", i.MinerAddr) fmt.Fprintf(w, "Sector Size: %s\n", i.SectorSize) pow := i.MinerPower fmt.Fprintf(w, "Byte Power: %s / %s (%0.4f%%)\n", types.SizeStr(pow.MinerPower.RawBytePower), types.SizeStr(pow.TotalPower.RawBytePower), types.BigDivFloat( types.BigMul(pow.MinerPower.RawBytePower, big.NewInt(100)), pow.TotalPower.RawBytePower, ), ) fmt.Fprintf(w, "Actual Power: %s / %s (%0.4f%%)\n", types.DeciStr(pow.MinerPower.QualityAdjPower), types.DeciStr(pow.TotalPower.QualityAdjPower), types.BigDivFloat( types.BigMul(pow.MinerPower.QualityAdjPower, big.NewInt(100)), pow.TotalPower.QualityAdjPower, ), ) fmt.Fprintf(w, "\tCommitted: %s\n", types.SizeStr(i.CommittedBytes)) if i.FaultyBytes.Int == nil || i.FaultyBytes.IsZero() { fmt.Fprintf(w, "\tProving: %s\n", types.SizeStr(i.ProvingBytes)) } else { fmt.Fprintf(w, "\tProving: %s (%s Faulty, %.2f%%)\n", types.SizeStr(i.ProvingBytes), types.SizeStr(i.FaultyBytes), i.FaultyPercentage) } if !i.MinerPower.HasMinPower { fmt.Fprintf(w, "Below minimum power threshold, no blocks will be won\n") } else { winRatio := new(corebig.Rat).Mul( new(corebig.Rat).SetFrac( types.BigMul(pow.MinerPower.QualityAdjPower, types.NewInt(build.BlocksPerEpoch)).Int, pow.TotalPower.QualityAdjPower.Int, ), // decrease the rate ever-so-slightly to very roughly account for the multi-win poisson distribution // FIXME - this is not a scientifically derived number... like at all corebig.NewRat(99997, 100000), ) if winRatioFloat, _ := winRatio.Float64(); winRatioFloat > 0 { weekly, _ := new(corebig.Rat).Mul( winRatio, new(corebig.Rat).SetInt64(7*builtin.EpochsInDay), ).Float64() avgDuration, _ := new(corebig.Rat).Mul( new(corebig.Rat).SetInt64(builtin.EpochDurationSeconds), new(corebig.Rat).Inv(winRatio), ).Float64() fmt.Fprintf(w, "Projected average block win rate: %.02f/week (every %s)\n", weekly, (time.Second * time.Duration(avgDuration)).Truncate(time.Second).String(), ) // Geometric distribution calculated as described in https://en.wikipedia.org/wiki/Geometric_distribution#Probability_Outcomes_Examples // https://www.wolframalpha.com/input/?i=c%3D99%3B+p%3D188809111007232%3B+n%3D5740343177447735296%3B+%281-%284.99*p%2Fn%29%29%5E%28t*2880%29%3D%281-%28c%2F100%29%29 fmt.Fprintf(w, "Projected block win with 99.9%% probability every %s\n", (time.Second * time.Duration( builtin.EpochDurationSeconds*math.Log(1-0.999)/ math.Log(1-winRatioFloat), )).Truncate(time.Second).String(), ) fmt.Fprintln(w, "(projections DO NOT account for future network and miner growth)") } } fmt.Fprintf(w, "Miner Balance: %s\n", types.FIL(i.Balance)) fmt.Fprintf(w, "\tPreCommit: %s\n", types.FIL(i.PreCommitDeposits)) fmt.Fprintf(w, "\tLocked: %s\n", types.FIL(i.LockedFunds)) fmt.Fprintf(w, "\tAvailable: %s\n", types.FIL(i.AvailableFunds)) fmt.Fprintf(w, "Worker Balance: %s\n", types.FIL(i.WorkerBalance)) fmt.Fprintf(w, "Market (Escrow): %s\n", types.FIL(i.MarketEscrow)) fmt.Fprintf(w, "Market (Locked): %s\n\n", types.FIL(i.MarketLocked)) buckets := i.SectorStateCounts var sorted []stateMeta for state, i := range buckets { sorted = append(sorted, stateMeta{i: i, state: state}) } sort.Slice(sorted, func(i, j int) bool { return stateOrder[sorted[i].state].i < stateOrder[sorted[j].state].i }) for _, s := range sorted { _, _ = fmt.Fprintf(w, "\t%s: %d\n", s.state, s.i) } return w.Bytes(), nil } func info(t *testkit.TestEnvironment, m *testkit.LotusMiner, maddr address.Address, w io.Writer, height abi.ChainEpoch) (*MinerInfo, error) { api := m.FullApi ctx := context.Background() ts, err := api.ChainHead(ctx) if err != nil { return nil, err } mact, err := api.StateGetActor(ctx, maddr, ts.Key()) if err != nil { return nil, err } i := MinerInfo{MinerAddr: maddr} // Sector size mi, err := api.StateMinerInfo(ctx, maddr, ts.Key()) if err != nil { return nil, err } i.SectorSize = types.SizeStr(types.NewInt(uint64(mi.SectorSize))) i.MinerPower, err = api.StateMinerPower(ctx, maddr, ts.Key()) if err != nil { return nil, err } secCounts, err := api.StateMinerSectorCount(ctx, maddr, ts.Key()) if err != nil { return nil, err } faults, err := api.StateMinerFaults(ctx, maddr, ts.Key()) if err != nil { return nil, err } nfaults, err := faults.Count() if err != nil { return nil, err } i.CommittedBytes = types.BigMul(types.NewInt(secCounts.Live), types.NewInt(uint64(mi.SectorSize))) i.ProvingBytes = types.BigMul(types.NewInt(secCounts.Active), types.NewInt(uint64(mi.SectorSize))) if nfaults != 0 { if secCounts.Live != 0 { i.FaultyPercentage = float64(10000*nfaults/secCounts.Live) / 100. } i.FaultyBytes = types.BigMul(types.NewInt(nfaults), types.NewInt(uint64(mi.SectorSize))) } stor := store.ActorStore(ctx, blockstore.NewAPIBlockstore(api)) mas, err := miner.Load(stor, mact) if err != nil { return nil, err } funds, err := mas.LockedFunds() if err != nil { return nil, err } i.Balance = mact.Balance i.PreCommitDeposits = funds.PreCommitDeposits i.LockedFunds = funds.VestingFunds i.AvailableFunds, err = mas.AvailableBalance(mact.Balance) if err != nil { return nil, err } wb, err := api.WalletBalance(ctx, mi.Worker) if err != nil { return nil, err } i.WorkerBalance = wb mb, err := api.StateMarketBalance(ctx, maddr, types.EmptyTSK) if err != nil { return nil, err } i.MarketEscrow = mb.Escrow i.MarketLocked = mb.Locked sectors, err := m.MinerApi.SectorsList(ctx) if err != nil { return nil, err } buckets := map[sealing.SectorState]int{ "Total": len(sectors), } for _, s := range sectors { st, err := m.MinerApi.SectorsStatus(ctx, s, true) if err != nil { return nil, err } buckets[sealing.SectorState(st.State)]++ } i.SectorStateCounts = buckets return &i, nil } type stateMeta struct { i int state sealing.SectorState } var stateOrder = map[sealing.SectorState]stateMeta{} var stateList = []stateMeta{ {state: "Total"}, {state: sealing.Proving}, {state: sealing.UndefinedSectorState}, {state: sealing.Empty}, {state: sealing.Packing}, {state: sealing.PreCommit1}, {state: sealing.PreCommit2}, {state: sealing.PreCommitting}, {state: sealing.PreCommitWait}, {state: sealing.WaitSeed}, {state: sealing.Committing}, {state: sealing.CommitWait}, {state: sealing.FinalizeSector}, {state: sealing.FailedUnrecoverable}, {state: sealing.SealPreCommit1Failed}, {state: sealing.SealPreCommit2Failed}, {state: sealing.PreCommitFailed}, {state: sealing.ComputeProofFailed}, {state: sealing.CommitFailed}, {state: sealing.PackingFailed}, {state: sealing.FinalizeFailed}, {state: sealing.Faulty}, {state: sealing.FaultReported}, {state: sealing.FaultedFinal}, } func init() { for i, state := range stateList { stateOrder[state.state] = stateMeta{ i: i, } } }