package main import ( "bytes" "context" "crypto/sha256" "encoding/json" "fmt" "io/ioutil" "math/big" "math/rand" "os" "path/filepath" "time" "github.com/docker/go-units" ffi "github.com/filecoin-project/filecoin-ffi" paramfetch "github.com/filecoin-project/go-paramfetch" "github.com/ipfs/go-datastore" logging "github.com/ipfs/go-log/v2" "github.com/mitchellh/go-homedir" "golang.org/x/xerrors" "gopkg.in/urfave/cli.v2" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-sectorbuilder" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/genesis" ) var log = logging.Logger("lotus-bench") type BenchResults struct { SectorSize uint64 SealingResults []SealingResult PostGenerateCandidates time.Duration PostEProofCold time.Duration PostEProofHot time.Duration VerifyEPostCold time.Duration VerifyEPostHot time.Duration } type SealingResult struct { AddPiece time.Duration PreCommit time.Duration Commit time.Duration Verify time.Duration Unseal time.Duration } func main() { logging.SetLogLevel("*", "INFO") log.Info("Starting lotus-bench") build.SectorSizes = append(build.SectorSizes, 1024) app := &cli.App{ Name: "lotus-bench", Usage: "Benchmark performance of lotus on your hardware", Version: build.UserVersion, 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: "1GiB", 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: "t0101", }, &cli.StringFlag{ Name: "benchmark-existing-sectorbuilder", Usage: "pass a directory to run election-post timings on an existing sectorbuilder", }, &cli.BoolFlag{ Name: "json-out", Usage: "output results in json format", }, &cli.BoolFlag{ Name: "skip-unseal", Usage: "skip the unseal portion of the benchmark", }, }, Action: func(c *cli.Context) error { if c.Bool("no-gpu") { os.Setenv("BELLMAN_NO_GPU", "1") } robench := c.String("benchmark-existing-sectorbuilder") var sbdir string if robench == "" { sdir, err := homedir.Expand(c.String("storage-dir")) if err != nil { return err } os.MkdirAll(sdir, 0775) tsdir, err := ioutil.TempDir(sdir, "bench") if err != nil { return err } defer func() { if err := os.RemoveAll(tsdir); err != nil { log.Warn("remove all: ", err) } }() sbdir = tsdir } else { exp, err := homedir.Expand(robench) if err != nil { return err } sbdir = exp } maddr, err := address.NewFromString(c.String("miner-addr")) if err != nil { return err } sectorSizeInt, err := units.RAMInBytes(c.String("sector-size")) if err != nil { return err } sectorSize := uint64(sectorSizeInt) mds := datastore.NewMapDatastore() cfg := §orbuilder.Config{ Miner: maddr, SectorSize: sectorSize, WorkerThreads: 2, Dir: sbdir, } if robench == "" { if err := os.MkdirAll(sbdir, 0775); err != nil { return err } } if err := paramfetch.GetParams(build.ParametersJson(), sectorSize); err != nil { return xerrors.Errorf("getting params: %w", err) } sb, err := sectorbuilder.New(cfg, mds) if err != nil { return err } dataSize := sectorbuilder.UserBytesForSectorSize(sectorSize) var sealTimings []SealingResult var sealedSectors []ffi.PublicSectorInfo numSectors := uint64(1) for i := uint64(1); i <= numSectors && robench == ""; i++ { start := time.Now() log.Info("Writing piece into sector...") r := rand.New(rand.NewSource(100 + int64(i))) pi, err := sb.AddPiece(dataSize, i, r, nil) if err != nil { return err } addpiece := time.Now() trand := sha256.Sum256([]byte(c.String("ticket-preimage"))) ticket := sectorbuilder.SealTicket{ TicketBytes: trand, } log.Info("Running replication...") pieces := []sectorbuilder.PublicPieceInfo{pi} pco, err := sb.SealPreCommit(context.TODO(), i, ticket, pieces) if err != nil { return xerrors.Errorf("commit: %w", err) } precommit := time.Now() sealedSectors = append(sealedSectors, ffi.PublicSectorInfo{ CommR: pco.CommR, SectorID: i, }) seed := sectorbuilder.SealSeed{ BlockHeight: 101, TicketBytes: [32]byte{1, 2, 3, 4, 5}, } log.Info("Generating PoRep for sector") proof, err := sb.SealCommit(context.TODO(), i, ticket, seed, pieces, pco) if err != nil { return err } sealcommit := time.Now() commD := pi.CommP ok, err := sectorbuilder.ProofVerifier.VerifySeal(sectorSize, pco.CommR[:], commD[:], maddr, ticket.TicketBytes[:], seed.TicketBytes[:], i, proof) if err != nil { return err } if !ok { return xerrors.Errorf("porep proof for sector %d was invalid", i) } verifySeal := time.Now() if !c.Bool("skip-unseal") { log.Info("Unsealing sector") rc, err := sb.ReadPieceFromSealedSector(1, 0, dataSize, ticket.TicketBytes[:], commD[:]) if err != nil { return err } if err := rc.Close(); err != nil { return err } } unseal := time.Now() sealTimings = append(sealTimings, SealingResult{ AddPiece: addpiece.Sub(start), PreCommit: precommit.Sub(addpiece), Commit: sealcommit.Sub(precommit), Verify: verifySeal.Sub(sealcommit), Unseal: unseal.Sub(verifySeal), }) } beforePost := time.Now() var challenge [32]byte rand.Read(challenge[:]) if robench != "" { // TODO: this assumes we only ever benchmark a preseal // sectorbuilder directory... we need a better way to handle // this in other cases fdata, err := ioutil.ReadFile(filepath.Join(sbdir, "pre-seal-"+maddr.String()+".json")) if err != nil { return err } var genmm map[string]genesis.GenesisMiner 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 { sealedSectors = append(sealedSectors, ffi.PublicSectorInfo{ CommR: s.CommR, SectorID: s.SectorID, }) } } log.Info("generating election post candidates") sinfos := sectorbuilder.NewSortedPublicSectorInfo(sealedSectors) candidates, err := sb.GenerateEPostCandidates(sinfos, challenge, []uint64{}) if err != nil { return err } gencandidates := time.Now() log.Info("computing election post snark (cold)") proof1, err := sb.ComputeElectionPoSt(sinfos, challenge[:], candidates[:1]) if err != nil { return err } epost1 := time.Now() log.Info("computing election post snark (hot)") proof2, err := sb.ComputeElectionPoSt(sinfos, challenge[:], candidates[:1]) if err != nil { return err } epost2 := time.Now() if bytes.Equal(proof1, proof2) { log.Warn("separate epost calls returned the same proof values (this might be bad)") } ok, err := sectorbuilder.ProofVerifier.VerifyElectionPost(context.TODO(), sectorSize, sinfos, challenge[:], proof1, candidates[:1], maddr) if err != nil { return err } if !ok { log.Error("post verification failed") } verifypost1 := time.Now() ok, err = sectorbuilder.ProofVerifier.VerifyElectionPost(context.TODO(), sectorSize, sinfos, challenge[:], proof2, candidates[:1], maddr) if err != nil { return err } if !ok { log.Error("post verification failed") } verifypost2 := time.Now() bo := BenchResults{ SectorSize: cfg.SectorSize, SealingResults: sealTimings, PostGenerateCandidates: gencandidates.Sub(beforePost), PostEProofCold: epost1.Sub(gencandidates), PostEProofHot: epost2.Sub(epost1), VerifyEPostCold: verifypost1.Sub(epost2), VerifyEPostHot: verifypost2.Sub(verifypost1), } // TODO: optionally write this as json to a file if c.Bool("json-out") { data, err := json.MarshalIndent(bo, "", " ") if err != nil { return err } fmt.Println(string(data)) } else { fmt.Printf("results (%d)\n", sectorSize) if robench == "" { fmt.Printf("seal: addPiece: %s (%s)\n", bo.SealingResults[0].AddPiece, bps(bo.SectorSize, bo.SealingResults[0].AddPiece)) // TODO: average across multiple sealings fmt.Printf("seal: preCommit: %s (%s)\n", bo.SealingResults[0].PreCommit, bps(bo.SectorSize, bo.SealingResults[0].PreCommit)) fmt.Printf("seal: commit: %s (%s)\n", bo.SealingResults[0].Commit, bps(bo.SectorSize, bo.SealingResults[0].Commit)) fmt.Printf("seal: verify: %s\n", bo.SealingResults[0].Verify) if !c.Bool("skip-unseal") { fmt.Printf("unseal: %s (%s)\n", bo.SealingResults[0].Unseal, bps(bo.SectorSize, bo.SealingResults[0].Unseal)) } } fmt.Printf("generate candidates: %s (%s)\n", bo.PostGenerateCandidates, bps(bo.SectorSize*uint64(len(bo.SealingResults)), bo.PostGenerateCandidates)) fmt.Printf("compute epost proof (cold): %s\n", bo.PostEProofCold) fmt.Printf("compute epost proof (hot): %s\n", bo.PostEProofHot) fmt.Printf("verify epost proof (cold): %s\n", bo.VerifyEPostCold) fmt.Printf("verify epost proof (hot): %s\n", bo.VerifyEPostHot) } return nil }, } if err := app.Run(os.Args); err != nil { log.Warn(err) return } } func bps(data uint64, d time.Duration) string { bdata := new(big.Int).SetUint64(data) bdata = bdata.Mul(bdata, big.NewInt(time.Second.Nanoseconds())) bps := bdata.Div(bdata, big.NewInt(d.Nanoseconds())) return (types.BigInt{bps}).SizeStr() + "/s" }