package main import ( "bytes" "context" "encoding/json" "fmt" "math/big" "math/rand" "os" "path/filepath" "sync" "time" "github.com/docker/go-units" "github.com/ipfs/boxo/blockservice" "github.com/ipfs/boxo/ipld/merkledag" "github.com/ipfs/go-cid" offline "github.com/ipfs/go-ipfs-exchange-offline" cbor "github.com/ipfs/go-ipld-cbor" format "github.com/ipfs/go-ipld-format" logging "github.com/ipfs/go-log/v2" "github.com/minio/blake2b-simd" "github.com/mitchellh/go-homedir" "github.com/urfave/cli/v2" "golang.org/x/xerrors" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-paramfetch" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/builtin/v9/verifreg" prooftypes "github.com/filecoin-project/go-state-types/proof" adt "github.com/filecoin-project/specs-actors/v6/actors/util/adt" lapi "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/blockstore" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/actors/builtin/market" "github.com/filecoin-project/lotus/chain/actors/builtin/miner" "github.com/filecoin-project/lotus/chain/types" lcli "github.com/filecoin-project/lotus/cli" "github.com/filecoin-project/lotus/genesis" "github.com/filecoin-project/lotus/storage/sealer/ffiwrapper" "github.com/filecoin-project/lotus/storage/sealer/ffiwrapper/basicfs" "github.com/filecoin-project/lotus/storage/sealer/storiface" ) var log = logging.Logger("lotus-bench") type BenchResults struct { EnvVar map[string]string SectorSize abi.SectorSize SectorNumber int SealingSum SealingResult SealingResults []SealingResult PostGenerateCandidates time.Duration PostWinningProofCold time.Duration PostWinningProofHot time.Duration VerifyWinningPostCold time.Duration VerifyWinningPostHot time.Duration PostWindowProofCold time.Duration PostWindowProofHot time.Duration VerifyWindowPostCold time.Duration VerifyWindowPostHot time.Duration } func (bo *BenchResults) SumSealingTime() error { if len(bo.SealingResults) <= 0 { return xerrors.Errorf("BenchResults SealingResults len <= 0") } if len(bo.SealingResults) != bo.SectorNumber { return xerrors.Errorf("BenchResults SealingResults len(%d) != bo.SectorNumber(%d)", len(bo.SealingResults), bo.SectorNumber) } for _, sealing := range bo.SealingResults { bo.SealingSum.AddPiece += sealing.AddPiece bo.SealingSum.PreCommit1 += sealing.PreCommit1 bo.SealingSum.PreCommit2 += sealing.PreCommit2 bo.SealingSum.Commit1 += sealing.Commit1 bo.SealingSum.Commit2 += sealing.Commit2 bo.SealingSum.Verify += sealing.Verify bo.SealingSum.Unseal += sealing.Unseal } return nil } type SealingResult struct { AddPiece time.Duration PreCommit1 time.Duration PreCommit2 time.Duration Commit1 time.Duration Commit2 time.Duration Verify time.Duration Unseal time.Duration } type Commit2In struct { SectorNum int64 Phase1Out []byte SectorSize uint64 } func main() { logging.SetLogLevel("*", "INFO") log.Info("Starting lotus-bench") app := &cli.App{ Name: "lotus-bench", Usage: "Benchmark performance of lotus on your hardware", Version: build.UserVersion(), DisableSliceFlagSeparator: true, Commands: []*cli.Command{ proveCmd, amtBenchCmd, sealBenchCmd, simpleCmd, importBenchCmd, rpcCmd, }, } if err := app.Run(os.Args); err != nil { log.Warnf("%+v", err) return } } type amtStatCollector struct { ds format.NodeGetter walk func(format.Node) ([]*format.Link, error) statsLk sync.Mutex totalAMTLinks int totalAMTValues int totalAMTLinkNodes int totalAMTValueNodes int totalAMTLinkNodeSize int totalAMTValueNodeSize int } func (asc *amtStatCollector) String() string { asc.statsLk.Lock() defer asc.statsLk.Unlock() str := "\n------------\n" str += fmt.Sprintf("Link Count: %d\n", asc.totalAMTLinks) str += fmt.Sprintf("Value Count: %d\n", asc.totalAMTValues) str += fmt.Sprintf("%d link nodes %d bytes\n", asc.totalAMTLinkNodes, asc.totalAMTLinkNodeSize) str += fmt.Sprintf("%d value nodes %d bytes\n", asc.totalAMTValueNodes, asc.totalAMTValueNodeSize) str += fmt.Sprintf("Total bytes: %d\n------------\n", asc.totalAMTLinkNodeSize+asc.totalAMTValueNodeSize) return str } func (asc *amtStatCollector) record(ctx context.Context, nd format.Node) error { size, err := nd.Size() if err != nil { return err } var node AMTNode if err := node.UnmarshalCBOR(bytes.NewReader(nd.RawData())); err != nil { // try to deserialize root var root AMTRoot if err := root.UnmarshalCBOR(bytes.NewReader(nd.RawData())); err != nil { return err } node = root.AMTNode } asc.statsLk.Lock() defer asc.statsLk.Unlock() link := len(node.Links) > 0 value := len(node.Values) > 0 if link { asc.totalAMTLinks += len(node.Links) asc.totalAMTLinkNodes++ asc.totalAMTLinkNodeSize += int(size) } else if value { asc.totalAMTValues += len(node.Values) asc.totalAMTValueNodes++ asc.totalAMTValueNodeSize += int(size) } else { return xerrors.Errorf("unexpected AMT node %x: neither link nor value", nd.RawData()) } return nil } func (asc *amtStatCollector) walkLinks(ctx context.Context, c cid.Cid) ([]*format.Link, error) { nd, err := asc.ds.Get(ctx, c) if err != nil { return nil, err } if err := asc.record(ctx, nd); err != nil { return nil, err } return asc.walk(nd) } func carWalkFunc(nd format.Node) (out []*format.Link, err error) { for _, link := range nd.Links() { if link.Cid.Prefix().Codec == cid.FilCommitmentSealed || link.Cid.Prefix().Codec == cid.FilCommitmentUnsealed { continue } out = append(out, link) } return out, nil } var amtBenchCmd = &cli.Command{ Name: "amt", Usage: "Benchmark AMT churn", Flags: []cli.Flag{ &cli.IntFlag{ Name: "rounds", Usage: "rounds of churn to measure", Value: 1, }, &cli.IntFlag{ Name: "interval", Usage: "AMT idx interval for churning values", Value: 2880, }, &cli.IntFlag{ Name: "bitwidth", Usage: "AMT bitwidth", Value: 6, }, }, Action: func(c *cli.Context) error { bs := blockstore.NewMemory() ctx := c.Context store := adt.WrapStore(ctx, cbor.NewCborStore(bs)) // Setup in memory blockstore bitwidth := c.Int("bitwidth") array, err := adt.MakeEmptyArray(store, bitwidth) if err != nil { return err } // Using motivating empirical example: market actor states AMT // Create 40,000,000 states for realistic workload fmt.Printf("Populating AMT\n") for i := 0; i < 40000000; i++ { if err := array.Set(uint64(i), &market.DealState{ SectorStartEpoch: abi.ChainEpoch(2000000 + i), LastUpdatedEpoch: abi.ChainEpoch(-1), SlashEpoch: -1, VerifiedClaim: verifreg.AllocationId(i), }); err != nil { return err } } r, err := array.Root() if err != nil { return err } // Measure ratio of internal / leaf nodes / sizes dag := merkledag.NewDAGService(blockservice.New(bs, offline.Exchange(bs))) asc := &amtStatCollector{ ds: dag, walk: carWalkFunc, } fmt.Printf("Measuring AMT\n") seen := cid.NewSet() if err := merkledag.Walk(ctx, asc.walkLinks, r, seen.Visit, merkledag.Concurrent()); err != nil { return err } fmt.Printf("%s\n", asc) // Overwrite ids with idx % interval: one epoch of market cron rounds := c.Int("rounds") interval := c.Int("interval") fmt.Printf("Overwrite 1 out of %d values for %d rounds\n", interval, rounds) array, err = adt.AsArray(store, r, bitwidth) if err != nil { return err } roots := make([]cid.Cid, rounds) for j := 0; j < rounds; j++ { if j%10 == 0 { fmt.Printf("round: %d\n", j) } for i := j; i < 40000000; i += interval { if i%interval == j { if err := array.Set(uint64(i), &market.DealState{ SectorStartEpoch: abi.ChainEpoch(2000000 + i), LastUpdatedEpoch: abi.ChainEpoch(1), SlashEpoch: -1, VerifiedClaim: verifreg.AllocationId(i), }); err != nil { return err } } } roots[j], err = array.Root() if err != nil { return err } } // Measure churn dag = merkledag.NewDAGService(blockservice.New(bs, offline.Exchange(bs))) asc = &amtStatCollector{ ds: dag, walk: carWalkFunc, } fmt.Printf("Measuring %d rounds of churn\n", rounds) for _, r := range roots { if err := merkledag.Walk(ctx, asc.walkLinks, r, seen.Visit, merkledag.Concurrent()); err != nil { return err } } fmt.Printf("%s\n", asc) return nil }, } var sealBenchCmd = &cli.Command{ Name: "sealing", Usage: "Benchmark seal and winning post and window post", Flags: []cli.Flag{ &cli.StringFlag{ Name: "storage-dir", Value: "~/.lotus-bench", Usage: "path to the storage directory that will store sectors long term", }, &cli.StringFlag{ Name: "sector-size", Value: "512MiB", Usage: "size of the sectors in bytes, i.e. 32GiB", }, &cli.BoolFlag{ Name: "no-gpu", Usage: "disable gpu usage for the benchmark run", }, &cli.StringFlag{ Name: "miner-addr", Usage: "pass miner address (only necessary if using existing sectorbuilder)", Value: "t01000", }, &cli.StringFlag{ Name: "benchmark-existing-sectorbuilder", Usage: "pass a directory to run post timings on an existing sectorbuilder", }, &cli.BoolFlag{ Name: "json-out", Usage: "output results in json format", }, &cli.BoolFlag{ Name: "skip-commit2", Usage: "skip the commit2 (snark) portion of the benchmark", }, &cli.BoolFlag{ Name: "skip-unseal", Usage: "skip the unseal portion of the benchmark", }, &cli.StringFlag{ Name: "ticket-preimage", Usage: "ticket random", }, &cli.StringFlag{ Name: "save-commit2-input", Usage: "save commit2 input to a file", }, &cli.IntFlag{ Name: "num-sectors", Usage: "select number of sectors to seal", Value: 1, }, &cli.IntFlag{ Name: "parallel", Usage: "num run in parallel", Value: 1, }, }, Action: func(c *cli.Context) error { if c.Bool("no-gpu") { err := os.Setenv("BELLMAN_NO_GPU", "1") if err != nil { return xerrors.Errorf("setting no-gpu flag: %w", err) } } robench := c.String("benchmark-existing-sectorbuilder") var sbdir string if robench == "" { sdir, err := homedir.Expand(c.String("storage-dir")) if err != nil { return err } err = os.MkdirAll(sdir, 0775) //nolint:gosec if err != nil { return xerrors.Errorf("creating sectorbuilder dir: %w", err) } tsdir, err := os.MkdirTemp(sdir, "bench") if err != nil { return err } defer func() { if err := os.RemoveAll(tsdir); err != nil { log.Warn("remove all: ", err) } }() // TODO: pretty sure this isnt even needed? if err := os.MkdirAll(tsdir, 0775); err != nil { return err } sbdir = tsdir } else { exp, err := homedir.Expand(robench) if err != nil { return err } sbdir = exp } // miner address maddr, err := address.NewFromString(c.String("miner-addr")) if err != nil { return err } amid, err := address.IDFromAddress(maddr) if err != nil { return err } mid := abi.ActorID(amid) // sector size sectorSizeInt, err := units.RAMInBytes(c.String("sector-size")) if err != nil { return err } sectorSize := abi.SectorSize(sectorSizeInt) // Only fetch parameters if actually needed skipc2 := c.Bool("skip-commit2") if !skipc2 { if err := paramfetch.GetParams(lcli.ReqContext(c), build.ParametersJSON(), build.SrsJSON(), uint64(sectorSize)); err != nil { return xerrors.Errorf("getting params: %w", err) } } sbfs := &basicfs.Provider{ Root: sbdir, } sb, err := ffiwrapper.New(sbfs) if err != nil { return err } sectorNumber := c.Int("num-sectors") var sealTimings []SealingResult var extendedSealedSectors []prooftypes.ExtendedSectorInfo var sealedSectors []prooftypes.SectorInfo if robench == "" { var err error parCfg := ParCfg{ PreCommit1: c.Int("parallel"), PreCommit2: 1, Commit: 1, } sealTimings, extendedSealedSectors, err = runSeals(sb, sbfs, sectorNumber, parCfg, mid, sectorSize, []byte(c.String("ticket-preimage")), c.String("save-commit2-input"), skipc2, c.Bool("skip-unseal")) if err != nil { return xerrors.Errorf("failed to run seals: %w", err) } for _, s := range extendedSealedSectors { sealedSectors = append(sealedSectors, prooftypes.SectorInfo{ SealedCID: s.SealedCID, SectorNumber: s.SectorNumber, SealProof: s.SealProof, }) } } else { // TODO: implement sbfs.List() and use that for all cases (preexisting sectorbuilder or not) // TODO: this assumes we only ever benchmark a preseal // sectorbuilder directory... we need a better way to handle // this in other cases fdata, err := os.ReadFile(filepath.Join(sbdir, "pre-seal-"+maddr.String()+".json")) if err != nil { return err } var genmm map[string]genesis.Miner if err := json.Unmarshal(fdata, &genmm); err != nil { return err } genm, ok := genmm[maddr.String()] if !ok { return xerrors.Errorf("preseal file didnt have expected miner in it") } for _, s := range genm.Sectors { extendedSealedSectors = append(extendedSealedSectors, prooftypes.ExtendedSectorInfo{ SealedCID: s.CommR, SectorNumber: s.SectorID, SealProof: s.ProofType, SectorKey: nil, }) sealedSectors = append(sealedSectors, prooftypes.SectorInfo{ SealedCID: s.CommR, SectorNumber: s.SectorID, SealProof: s.ProofType, }) } } bo := BenchResults{ SectorSize: sectorSize, SectorNumber: sectorNumber, SealingResults: sealTimings, } if err := bo.SumSealingTime(); err != nil { return err } var challenge [32]byte rand.Read(challenge[:]) beforePost := time.Now() if !skipc2 { log.Info("generating winning post candidates") wipt, err := spt(sectorSize).RegisteredWinningPoStProof() if err != nil { return err } fcandidates, err := ffiwrapper.ProofVerifier.GenerateWinningPoStSectorChallenge(context.TODO(), wipt, mid, challenge[:], uint64(len(extendedSealedSectors))) if err != nil { return err } xcandidates := make([]prooftypes.ExtendedSectorInfo, len(fcandidates)) for i, fcandidate := range fcandidates { xcandidates[i] = extendedSealedSectors[fcandidate] } gencandidates := time.Now() log.Info("computing winning post snark (cold)") proof1, err := sb.GenerateWinningPoSt(context.TODO(), mid, xcandidates, challenge[:]) if err != nil { return err } winningpost1 := time.Now() log.Info("computing winning post snark (hot)") proof2, err := sb.GenerateWinningPoSt(context.TODO(), mid, xcandidates, challenge[:]) if err != nil { return err } candidates := make([]prooftypes.SectorInfo, len(xcandidates)) for i, xsi := range xcandidates { candidates[i] = prooftypes.SectorInfo{ SealedCID: xsi.SealedCID, SectorNumber: xsi.SectorNumber, SealProof: xsi.SealProof, } } winnningpost2 := time.Now() pvi1 := prooftypes.WinningPoStVerifyInfo{ Randomness: abi.PoStRandomness(challenge[:]), Proofs: proof1, ChallengedSectors: candidates, Prover: mid, } ok, err := ffiwrapper.ProofVerifier.VerifyWinningPoSt(context.TODO(), pvi1) if err != nil { return err } if !ok { log.Error("post verification failed") } verifyWinningPost1 := time.Now() pvi2 := prooftypes.WinningPoStVerifyInfo{ Randomness: abi.PoStRandomness(challenge[:]), Proofs: proof2, ChallengedSectors: candidates, Prover: mid, } ok, err = ffiwrapper.ProofVerifier.VerifyWinningPoSt(context.TODO(), pvi2) if err != nil { return err } if !ok { log.Error("post verification failed") } verifyWinningPost2 := time.Now() ppt, err := sealedSectors[0].SealProof.RegisteredWindowPoStProof() if err != nil { return err } ppt, err = ppt.ToV1_1PostProof() if err != nil { return err } log.Info("computing window post snark (cold)") wproof1, _, err := sb.GenerateWindowPoSt(context.TODO(), mid, ppt, extendedSealedSectors, challenge[:]) if err != nil { return err } windowpost1 := time.Now() log.Info("computing window post snark (hot)") wproof2, _, err := sb.GenerateWindowPoSt(context.TODO(), mid, ppt, extendedSealedSectors, challenge[:]) if err != nil { return err } windowpost2 := time.Now() wpvi1 := prooftypes.WindowPoStVerifyInfo{ Randomness: challenge[:], Proofs: wproof1, ChallengedSectors: sealedSectors, Prover: mid, } ok, err = ffiwrapper.ProofVerifier.VerifyWindowPoSt(context.TODO(), wpvi1) if err != nil { return err } if !ok { log.Error("window post verification failed") } verifyWindowpost1 := time.Now() wpvi2 := prooftypes.WindowPoStVerifyInfo{ Randomness: challenge[:], Proofs: wproof2, ChallengedSectors: sealedSectors, Prover: mid, } ok, err = ffiwrapper.ProofVerifier.VerifyWindowPoSt(context.TODO(), wpvi2) if err != nil { return err } if !ok { log.Error("window post verification failed") } verifyWindowpost2 := time.Now() bo.PostGenerateCandidates = gencandidates.Sub(beforePost) bo.PostWinningProofCold = winningpost1.Sub(gencandidates) bo.PostWinningProofHot = winnningpost2.Sub(winningpost1) bo.VerifyWinningPostCold = verifyWinningPost1.Sub(winnningpost2) bo.VerifyWinningPostHot = verifyWinningPost2.Sub(verifyWinningPost1) bo.PostWindowProofCold = windowpost1.Sub(verifyWinningPost2) bo.PostWindowProofHot = windowpost2.Sub(windowpost1) bo.VerifyWindowPostCold = verifyWindowpost1.Sub(windowpost2) bo.VerifyWindowPostHot = verifyWindowpost2.Sub(verifyWindowpost1) } bo.EnvVar = make(map[string]string) for _, envKey := range []string{"BELLMAN_NO_GPU", "FIL_PROOFS_USE_GPU_COLUMN_BUILDER", "FIL_PROOFS_USE_GPU_TREE_BUILDER", "FIL_PROOFS_USE_MULTICORE_SDR", "BELLMAN_CUSTOM_GPU"} { envValue, found := os.LookupEnv(envKey) if found { bo.EnvVar[envKey] = envValue } } if c.Bool("json-out") { data, err := json.MarshalIndent(bo, "", " ") if err != nil { return err } fmt.Println(string(data)) } else { fmt.Println("environment variable list:") for envKey, envValue := range bo.EnvVar { fmt.Printf("%s=%s\n", envKey, envValue) } fmt.Printf("----\nresults (v28) SectorSize:(%d), SectorNumber:(%d)\n", sectorSize, sectorNumber) if robench == "" { fmt.Printf("seal: addPiece: %s (%s)\n", bo.SealingSum.AddPiece, bps(bo.SectorSize, bo.SectorNumber, bo.SealingSum.AddPiece)) fmt.Printf("seal: preCommit phase 1: %s (%s)\n", bo.SealingSum.PreCommit1, bps(bo.SectorSize, bo.SectorNumber, bo.SealingSum.PreCommit1)) fmt.Printf("seal: preCommit phase 2: %s (%s)\n", bo.SealingSum.PreCommit2, bps(bo.SectorSize, bo.SectorNumber, bo.SealingSum.PreCommit2)) fmt.Printf("seal: commit phase 1: %s (%s)\n", bo.SealingSum.Commit1, bps(bo.SectorSize, bo.SectorNumber, bo.SealingSum.Commit1)) fmt.Printf("seal: commit phase 2: %s (%s)\n", bo.SealingSum.Commit2, bps(bo.SectorSize, bo.SectorNumber, bo.SealingSum.Commit2)) fmt.Printf("seal: verify: %s\n", bo.SealingSum.Verify) if !c.Bool("skip-unseal") { fmt.Printf("unseal: %s (%s)\n", bo.SealingSum.Unseal, bps(bo.SectorSize, bo.SectorNumber, bo.SealingSum.Unseal)) } fmt.Println("") } if !skipc2 { fmt.Printf("generate candidates: %s (%s)\n", bo.PostGenerateCandidates, bps(bo.SectorSize, len(bo.SealingResults), bo.PostGenerateCandidates)) fmt.Printf("compute winning post proof (cold): %s\n", bo.PostWinningProofCold) fmt.Printf("compute winning post proof (hot): %s\n", bo.PostWinningProofHot) fmt.Printf("verify winning post proof (cold): %s\n", bo.VerifyWinningPostCold) fmt.Printf("verify winning post proof (hot): %s\n\n", bo.VerifyWinningPostHot) fmt.Printf("compute window post proof (cold): %s\n", bo.PostWindowProofCold) fmt.Printf("compute window post proof (hot): %s\n", bo.PostWindowProofHot) fmt.Printf("verify window post proof (cold): %s\n", bo.VerifyWindowPostCold) fmt.Printf("verify window post proof (hot): %s\n", bo.VerifyWindowPostHot) } } return nil }, } type ParCfg struct { PreCommit1 int PreCommit2 int Commit int } func runSeals(sb *ffiwrapper.Sealer, sbfs *basicfs.Provider, numSectors int, par ParCfg, mid abi.ActorID, sectorSize abi.SectorSize, ticketPreimage []byte, saveC2inp string, skipc2, skipunseal bool) ([]SealingResult, []prooftypes.ExtendedSectorInfo, error) { var pieces []abi.PieceInfo sealTimings := make([]SealingResult, numSectors) sealedSectors := make([]prooftypes.ExtendedSectorInfo, numSectors) preCommit2Sema := make(chan struct{}, par.PreCommit2) commitSema := make(chan struct{}, par.Commit) if numSectors%par.PreCommit1 != 0 { return nil, nil, fmt.Errorf("parallelism factor must cleanly divide numSectors") } for i := abi.SectorNumber(0); i < abi.SectorNumber(numSectors); i++ { sid := storiface.SectorRef{ ID: abi.SectorID{ Miner: mid, Number: i, }, ProofType: spt(sectorSize), } start := time.Now() log.Infof("[%d] Writing piece into sector...", i) r := rand.New(rand.NewSource(100 + int64(i))) pi, err := sb.AddPiece(context.TODO(), sid, nil, abi.PaddedPieceSize(sectorSize).Unpadded(), r) if err != nil { return nil, nil, err } pieces = append(pieces, pi) sealTimings[i].AddPiece = time.Since(start) } sectorsPerWorker := numSectors / par.PreCommit1 errs := make(chan error, par.PreCommit1) for wid := 0; wid < par.PreCommit1; wid++ { go func(worker int) { sealerr := func() error { start := worker * sectorsPerWorker end := start + sectorsPerWorker for i := abi.SectorNumber(start); i < abi.SectorNumber(end); i++ { sid := storiface.SectorRef{ ID: abi.SectorID{ Miner: mid, Number: i, }, ProofType: spt(sectorSize), } start := time.Now() trand := blake2b.Sum256(ticketPreimage) ticket := abi.SealRandomness(trand[:]) log.Infof("[%d] Running replication(1)...", i) piece := []abi.PieceInfo{pieces[i]} pc1o, err := sb.SealPreCommit1(context.TODO(), sid, ticket, piece) if err != nil { return xerrors.Errorf("commit: %w", err) } precommit1 := time.Now() preCommit2Sema <- struct{}{} pc2Start := time.Now() log.Infof("[%d] Running replication(2)...", i) cids, err := sb.SealPreCommit2(context.TODO(), sid, pc1o) if err != nil { return xerrors.Errorf("commit: %w", err) } precommit2 := time.Now() <-preCommit2Sema sealedSectors[i] = prooftypes.ExtendedSectorInfo{ SealProof: sid.ProofType, SectorNumber: i, SealedCID: cids.Sealed, SectorKey: nil, } seed := lapi.SealSeed{ Epoch: 101, Value: []byte{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 255}, } commitSema <- struct{}{} commitStart := time.Now() log.Infof("[%d] Generating PoRep for sector (1)", i) c1o, err := sb.SealCommit1(context.TODO(), sid, ticket, seed.Value, piece, cids) if err != nil { return err } sealcommit1 := time.Now() log.Infof("[%d] Generating PoRep for sector (2)", i) if saveC2inp != "" { c2in := Commit2In{ SectorNum: int64(i), Phase1Out: c1o, SectorSize: uint64(sectorSize), } b, err := json.Marshal(&c2in) if err != nil { return err } if err := os.WriteFile(saveC2inp, b, 0664); err != nil { log.Warnf("%+v", err) } } var proof storiface.Proof if !skipc2 { proof, err = sb.SealCommit2(context.TODO(), sid, c1o) if err != nil { return err } } sealcommit2 := time.Now() <-commitSema if !skipc2 { svi := prooftypes.SealVerifyInfo{ SectorID: abi.SectorID{Miner: mid, Number: i}, SealedCID: cids.Sealed, SealProof: sid.ProofType, Proof: proof, DealIDs: nil, Randomness: ticket, InteractiveRandomness: seed.Value, UnsealedCID: cids.Unsealed, } ok, err := ffiwrapper.ProofVerifier.VerifySeal(svi) if err != nil { return err } if !ok { return xerrors.Errorf("porep proof for sector %d was invalid", i) } } verifySeal := time.Now() if !skipunseal { log.Infof("[%d] Unsealing sector", i) { p, done, err := sbfs.AcquireSector(context.TODO(), sid, storiface.FTUnsealed, storiface.FTNone, storiface.PathSealing) if err != nil { return xerrors.Errorf("acquire unsealed sector for removing: %w", err) } done() if err := os.Remove(p.Unsealed); err != nil { return xerrors.Errorf("removing unsealed sector: %w", err) } } err := sb.UnsealPiece(context.TODO(), sid, 0, abi.PaddedPieceSize(sectorSize).Unpadded(), ticket, cids.Unsealed) if err != nil { return err } } unseal := time.Now() sealTimings[i].PreCommit1 = precommit1.Sub(start) sealTimings[i].PreCommit2 = precommit2.Sub(pc2Start) sealTimings[i].Commit1 = sealcommit1.Sub(commitStart) sealTimings[i].Commit2 = sealcommit2.Sub(sealcommit1) sealTimings[i].Verify = verifySeal.Sub(sealcommit2) sealTimings[i].Unseal = unseal.Sub(verifySeal) } return nil }() if sealerr != nil { errs <- sealerr return } errs <- nil }(wid) } for i := 0; i < par.PreCommit1; i++ { err := <-errs if err != nil { return nil, nil, err } } return sealTimings, sealedSectors, nil } var proveCmd = &cli.Command{ Name: "prove", Usage: "Benchmark a proof computation", ArgsUsage: "[input.json]", Flags: []cli.Flag{ &cli.BoolFlag{ Name: "no-gpu", Usage: "disable gpu usage for the benchmark run", }, &cli.StringFlag{ Name: "miner-addr", Usage: "pass miner address (only necessary if using existing sectorbuilder)", Value: "t01000", }, }, Action: func(c *cli.Context) error { if c.Bool("no-gpu") { err := os.Setenv("BELLMAN_NO_GPU", "1") if err != nil { return xerrors.Errorf("setting no-gpu flag: %w", err) } } if !c.Args().Present() { return xerrors.Errorf("Usage: lotus-bench prove [input.json]") } inb, err := os.ReadFile(c.Args().First()) if err != nil { return xerrors.Errorf("reading input file: %w", err) } var c2in Commit2In if err := json.Unmarshal(inb, &c2in); err != nil { return xerrors.Errorf("unmarshalling input file: %w", err) } if err := paramfetch.GetParams(lcli.ReqContext(c), build.ParametersJSON(), build.SrsJSON(), c2in.SectorSize); err != nil { return xerrors.Errorf("getting params: %w", err) } maddr, err := address.NewFromString(c.String("miner-addr")) if err != nil { return err } mid, err := address.IDFromAddress(maddr) if err != nil { return err } sb, err := ffiwrapper.New(nil) if err != nil { return err } ref := storiface.SectorRef{ ID: abi.SectorID{ Miner: abi.ActorID(mid), Number: abi.SectorNumber(c2in.SectorNum), }, ProofType: spt(abi.SectorSize(c2in.SectorSize)), } fmt.Printf("----\nstart proof computation\n") start := time.Now() proof, err := sb.SealCommit2(context.TODO(), ref, c2in.Phase1Out) if err != nil { return err } sealCommit2 := time.Now() fmt.Printf("proof: %x\n", proof) fmt.Printf("----\nresults (v28) (%d)\n", c2in.SectorSize) dur := sealCommit2.Sub(start) fmt.Printf("seal: commit phase 2: %s (%s)\n", dur, bps(abi.SectorSize(c2in.SectorSize), 1, dur)) return nil }, } func bps(sectorSize abi.SectorSize, sectorNum int, d time.Duration) string { bdata := new(big.Int).SetUint64(uint64(sectorSize)) bdata = bdata.Mul(bdata, big.NewInt(int64(sectorNum))) bdata = bdata.Mul(bdata, big.NewInt(time.Second.Nanoseconds())) bps := bdata.Div(bdata, big.NewInt(d.Nanoseconds())) return types.SizeStr(types.BigInt{Int: bps}) + "/s" } func spt(ssize abi.SectorSize) abi.RegisteredSealProof { spt, err := miner.SealProofTypeFromSectorSize(ssize, build.TestNetworkVersion) if err != nil { panic(err) } return spt }