github.com/cockroachdb/pebble@v0.0.0-20231214172447-ab4952c5f87b/cmd/pebble/fsbench.go (about)

     1  package main
     2  
     3  import (
     4  	"bytes"
     5  	"fmt"
     6  	"log"
     7  	"os"
     8  	"path"
     9  	"sync"
    10  	"sync/atomic"
    11  	"time"
    12  
    13  	"github.com/cockroachdb/errors"
    14  	"github.com/cockroachdb/pebble/vfs"
    15  	"github.com/spf13/cobra"
    16  )
    17  
    18  var fsBenchCmd = &cobra.Command{
    19  	Use:   "fs <dir>",
    20  	Short: "Run file system benchmarks.",
    21  	Long: `
    22  Run file system benchmarks. Each benchmark is predefined and can be
    23  run using the command "bench fs <dir> --bench-name <benchmark>".
    24  Each possible <benchmark> which can be run is defined in the code.
    25  Benchmarks may require the specification of a --duration or
    26  --max-ops flag, to prevent the benchmark from running forever
    27  or running out of memory.
    28  
    29  The --num-times flag can be used to run the entire benchmark, more than
    30  once. If the flag isn't provided, then the benchmark is only run once.
    31  `,
    32  	Args: cobra.ExactArgs(1),
    33  	RunE: runFsBench,
    34  }
    35  
    36  const writeBatchSize = 1 << 10
    37  
    38  var fsConfig struct {
    39  	// An upper limit on the number of ops which can be run.
    40  	maxOps int
    41  
    42  	// Benchmark to run.
    43  	benchname string
    44  
    45  	// Number of times each benchmark should be run.
    46  	numTimes int
    47  
    48  	fs vfs.FS
    49  
    50  	precomputedWriteBatch []byte
    51  }
    52  
    53  func init() {
    54  	fsBenchCmd.Flags().IntVar(
    55  		&fsConfig.maxOps, "max-ops", 0,
    56  		"Maximum number of times the operation which is being benchmarked should be run.",
    57  	)
    58  
    59  	fsBenchCmd.Flags().StringVar(
    60  		&fsConfig.benchname, "bench-name", "", "The benchmark to run.")
    61  	fsBenchCmd.MarkFlagRequired("bench-name")
    62  
    63  	fsBenchCmd.Flags().IntVar(
    64  		&fsConfig.numTimes, "num-times", 1,
    65  		"Number of times each benchmark should be run.")
    66  
    67  	// Add subcommand to list
    68  	fsBenchCmd.AddCommand(listFsBench)
    69  
    70  	// Just use the default vfs implementation for now.
    71  	fsConfig.fs = vfs.Default
    72  
    73  	fsConfig.precomputedWriteBatch = bytes.Repeat([]byte("a"), writeBatchSize)
    74  }
    75  
    76  // State relevant to a benchmark.
    77  type fsBench struct {
    78  	// A short name for the benchmark.
    79  	name string
    80  
    81  	// A one line description for the benchmark.
    82  	description string
    83  
    84  	// numOps is the total number of ops which
    85  	// have been run for the benchmark. This is used
    86  	// to make sure that we don't benchmark the operation
    87  	// more than max-ops times.
    88  	numOps int
    89  
    90  	// directory under which the benchmark is run.
    91  	dir     vfs.File
    92  	dirName string
    93  
    94  	// Stats associated with the benchmark.
    95  	reg *histogramRegistry
    96  
    97  	// The operation which we're benchmarking. This
    98  	// will be called over and over again.
    99  	// Returns false if run should no longer be called.
   100  	run func(*namedHistogram) bool
   101  
   102  	// Stop the benchmark from executing any further.
   103  	// Stop is safe to call concurrently with run.
   104  	stop func()
   105  
   106  	// A cleanup func which must be called after
   107  	// the benchmark has finished running.
   108  	// Clean should be only called after making sure
   109  	// that the run function is no longer executing.
   110  	clean func()
   111  }
   112  
   113  // createFile can be used to create an empty file.
   114  // Invariant: File shouldn't already exist.
   115  func createFile(filepath string) vfs.File {
   116  	fh, err := fsConfig.fs.Create(filepath)
   117  	if err != nil {
   118  		log.Fatalln(err)
   119  	}
   120  	return fh
   121  }
   122  
   123  // Invariant: file with filepath should exist.
   124  func deleteFile(filepath string) {
   125  	err := fsConfig.fs.Remove(filepath)
   126  	if err != nil {
   127  		log.Fatalln(err)
   128  	}
   129  }
   130  
   131  // Write size bytes to the file in batches.
   132  func writeToFile(fh vfs.File, size int64) {
   133  	for size > 0 {
   134  		var toWrite []byte
   135  		if size >= writeBatchSize {
   136  			toWrite = fsConfig.precomputedWriteBatch
   137  		} else {
   138  			toWrite = fsConfig.precomputedWriteBatch[:size]
   139  		}
   140  		written, err := fh.Write(toWrite)
   141  		if err != nil {
   142  			log.Fatalln(err)
   143  		}
   144  		if written != len(toWrite) {
   145  			log.Fatalf("Couldn't write %d bytes to file\n", size)
   146  		}
   147  		size -= int64(len(toWrite))
   148  	}
   149  }
   150  
   151  func syncFile(fh vfs.File) {
   152  	err := fh.Sync()
   153  	if err != nil {
   154  		log.Fatalln(err)
   155  	}
   156  }
   157  
   158  func closeFile(fh vfs.File) {
   159  	err := fh.Close()
   160  	if err != nil {
   161  		log.Fatalln(err)
   162  	}
   163  }
   164  
   165  func getDiskUsage(filepath string) {
   166  	_, err := fsConfig.fs.GetDiskUsage(filepath)
   167  	if err != nil {
   168  		log.Fatalln(err)
   169  	}
   170  }
   171  
   172  func openDir(filepath string) vfs.File {
   173  	fh, err := fsConfig.fs.OpenDir(filepath)
   174  	if err != nil {
   175  		log.Fatalln(err)
   176  	}
   177  	return fh
   178  }
   179  
   180  func mkDir(filepath string) {
   181  	err := fsConfig.fs.MkdirAll(filepath, 0755)
   182  	if err != nil {
   183  		log.Fatalln(err)
   184  	}
   185  }
   186  
   187  func removeAllFiles(filepath string) {
   188  	err := fsConfig.fs.RemoveAll(filepath)
   189  	if err != nil {
   190  		log.Fatalln(err)
   191  	}
   192  }
   193  
   194  // fileSize is in bytes.
   195  func createBench(benchName string, benchDescription string) fsBenchmark {
   196  	createBench := func(dirpath string) *fsBench {
   197  		bench := &fsBench{}
   198  		mkDir(dirpath)
   199  		fh := openDir(dirpath)
   200  
   201  		bench.dir = fh
   202  		bench.dirName = dirpath
   203  		bench.reg = newHistogramRegistry()
   204  		bench.numOps = 0
   205  		bench.name = benchName
   206  		bench.description = benchDescription
   207  
   208  		// setup the operation to benchmark, and the cleanup functions.
   209  		pref := "temp_"
   210  		var numFiles int
   211  		var done atomic.Bool
   212  
   213  		bench.run = func(hist *namedHistogram) bool {
   214  			if done.Load() {
   215  				return false
   216  			}
   217  
   218  			start := time.Now()
   219  			fh := createFile(path.Join(dirpath, fmt.Sprintf("%s%d", pref, numFiles)))
   220  			syncFile(bench.dir)
   221  			hist.Record(time.Since(start))
   222  
   223  			closeFile(fh)
   224  			numFiles++
   225  			return true
   226  		}
   227  
   228  		bench.stop = func() {
   229  			done.Store(true)
   230  		}
   231  
   232  		bench.clean = func() {
   233  			removeAllFiles(dirpath)
   234  			closeFile(bench.dir)
   235  		}
   236  
   237  		return bench
   238  	}
   239  
   240  	return fsBenchmark{
   241  		createBench,
   242  		benchName,
   243  		benchDescription,
   244  	}
   245  }
   246  
   247  // This benchmark prepopulates a directory with some files of a given size. Then, it creates and deletes
   248  // a file of some size, while measuring only the performance of the delete.
   249  func deleteBench(
   250  	benchName string, benchDescription string, preNumFiles int, preFileSize int64, fileSize int64,
   251  ) fsBenchmark {
   252  
   253  	createBench := func(dirpath string) *fsBench {
   254  		bench := &fsBench{}
   255  		mkDir(dirpath)
   256  		fh := openDir(dirpath)
   257  
   258  		bench.dir = fh
   259  		bench.dirName = dirpath
   260  		bench.reg = newHistogramRegistry()
   261  		bench.numOps = 0
   262  		bench.name = benchName
   263  		bench.description = benchDescription
   264  
   265  		// prepopulate the directory
   266  		prePref := "pre_temp_"
   267  		for i := 0; i < preNumFiles; i++ {
   268  			fh := createFile(path.Join(dirpath, fmt.Sprintf("%s%d", prePref, i)))
   269  			if preFileSize > 0 {
   270  				writeToFile(fh, preFileSize)
   271  				syncFile(fh)
   272  			}
   273  			closeFile(fh)
   274  		}
   275  		syncFile(bench.dir)
   276  
   277  		var done atomic.Bool
   278  		bench.run = func(hist *namedHistogram) bool {
   279  			if done.Load() {
   280  				return false
   281  			}
   282  
   283  			filename := "newfile"
   284  			fh := createFile(path.Join(dirpath, filename))
   285  			writeToFile(fh, fileSize)
   286  			syncFile(fh)
   287  
   288  			start := time.Now()
   289  			deleteFile(path.Join(dirpath, filename))
   290  			hist.Record(time.Since(start))
   291  
   292  			return true
   293  		}
   294  
   295  		bench.stop = func() {
   296  			done.Store(true)
   297  		}
   298  
   299  		bench.clean = func() {
   300  			removeAllFiles(dirpath)
   301  			closeFile(bench.dir)
   302  		}
   303  
   304  		return bench
   305  	}
   306  
   307  	return fsBenchmark{
   308  		createBench,
   309  		benchName,
   310  		benchDescription,
   311  	}
   312  }
   313  
   314  // This benchmark creates some files in a directory, and then measures the performance
   315  // of the vfs.Remove function.
   316  // fileSize is in bytes.
   317  func deleteUniformBench(
   318  	benchName string, benchDescription string, numFiles int, fileSize int64,
   319  ) fsBenchmark {
   320  	createBench := func(dirpath string) *fsBench {
   321  		bench := &fsBench{}
   322  		mkDir(dirpath)
   323  		fh := openDir(dirpath)
   324  
   325  		bench.dir = fh
   326  		bench.dirName = dirpath
   327  		bench.reg = newHistogramRegistry()
   328  		bench.numOps = 0
   329  		bench.name = benchName
   330  		bench.description = benchDescription
   331  
   332  		// setup the operation to benchmark, and the cleaup functions.
   333  		pref := "temp_"
   334  		for i := 0; i < numFiles; i++ {
   335  			fh := createFile(path.Join(dirpath, fmt.Sprintf("%s%d", pref, i)))
   336  			if fileSize > 0 {
   337  				writeToFile(fh, fileSize)
   338  				syncFile(fh)
   339  			}
   340  			closeFile(fh)
   341  		}
   342  		syncFile(bench.dir)
   343  
   344  		var done atomic.Bool
   345  		bench.run = func(hist *namedHistogram) bool {
   346  			if done.Load() {
   347  				return false
   348  			}
   349  
   350  			if numFiles == 0 {
   351  				return false
   352  			}
   353  
   354  			start := time.Now()
   355  			deleteFile(path.Join(dirpath, fmt.Sprintf("%s%d", pref, numFiles-1)))
   356  			hist.Record(time.Since(start))
   357  
   358  			numFiles--
   359  			return true
   360  		}
   361  
   362  		bench.stop = func() {
   363  			done.Store(true)
   364  		}
   365  
   366  		bench.clean = func() {
   367  			removeAll(dirpath)
   368  			closeFile(bench.dir)
   369  		}
   370  
   371  		return bench
   372  	}
   373  
   374  	return fsBenchmark{
   375  		createBench,
   376  		benchName,
   377  		benchDescription,
   378  	}
   379  }
   380  
   381  // Tests the performance of syncing data to disk.
   382  // Only measures the sync performance.
   383  // The writes will be synced after every writeSize bytes have been written.
   384  func writeSyncBench(
   385  	benchName string, benchDescription string, maxFileSize int64, writeSize int64,
   386  ) fsBenchmark {
   387  
   388  	if writeSize > maxFileSize {
   389  		log.Fatalln("File write threshold is greater than max file size.")
   390  	}
   391  
   392  	createBench := func(dirpath string) *fsBench {
   393  		bench := &fsBench{}
   394  		mkDir(dirpath)
   395  		fh := openDir(dirpath)
   396  
   397  		bench.dir = fh
   398  		bench.dirName = dirpath
   399  		bench.reg = newHistogramRegistry()
   400  		bench.numOps = 0
   401  		bench.name = benchName
   402  		bench.description = benchDescription
   403  
   404  		pref := "temp_"
   405  		var benchData struct {
   406  			done         atomic.Bool
   407  			fh           vfs.File
   408  			fileNum      int
   409  			bytesWritten int64
   410  		}
   411  		benchData.fh = createFile(path.Join(dirpath, fmt.Sprintf("%s%d", pref, benchData.fileNum)))
   412  
   413  		bench.run = func(hist *namedHistogram) bool {
   414  			if benchData.done.Load() {
   415  				return false
   416  			}
   417  
   418  			if benchData.bytesWritten+writeSize > maxFileSize {
   419  				closeFile(benchData.fh)
   420  				benchData.fileNum++
   421  				benchData.bytesWritten = 0
   422  				benchData.fh = createFile(path.Join(dirpath, fmt.Sprintf("%s%d", pref, benchData.fileNum)))
   423  			}
   424  
   425  			benchData.bytesWritten += writeSize
   426  			writeToFile(benchData.fh, writeSize)
   427  
   428  			start := time.Now()
   429  			syncFile(benchData.fh)
   430  			hist.Record(time.Since(start))
   431  
   432  			return true
   433  		}
   434  
   435  		bench.stop = func() {
   436  			benchData.done.Store(true)
   437  		}
   438  
   439  		bench.clean = func() {
   440  			closeFile(benchData.fh)
   441  			removeAllFiles(dirpath)
   442  			closeFile(bench.dir)
   443  		}
   444  
   445  		return bench
   446  	}
   447  
   448  	return fsBenchmark{
   449  		createBench,
   450  		benchName,
   451  		benchDescription,
   452  	}
   453  }
   454  
   455  // Tests the peformance of calling the vfs.GetDiskUsage call on a directory,
   456  // as the number of files/total size of files in the directory grows.
   457  func diskUsageBench(
   458  	benchName string, benchDescription string, maxFileSize int64, writeSize int64,
   459  ) fsBenchmark {
   460  
   461  	if writeSize > maxFileSize {
   462  		log.Fatalln("File write threshold is greater than max file size.")
   463  	}
   464  
   465  	createBench := func(dirpath string) *fsBench {
   466  		bench := &fsBench{}
   467  		mkDir(dirpath)
   468  		fh := openDir(dirpath)
   469  
   470  		bench.dir = fh
   471  		bench.dirName = dirpath
   472  		bench.reg = newHistogramRegistry()
   473  		bench.numOps = 0
   474  		bench.name = benchName
   475  		bench.description = benchDescription
   476  
   477  		pref := "temp_"
   478  		var benchData struct {
   479  			done         atomic.Bool
   480  			fh           vfs.File
   481  			fileNum      int
   482  			bytesWritten int64
   483  		}
   484  		benchData.fh = createFile(path.Join(dirpath, fmt.Sprintf("%s%d", pref, benchData.fileNum)))
   485  
   486  		bench.run = func(hist *namedHistogram) bool {
   487  			if benchData.done.Load() {
   488  				return false
   489  			}
   490  
   491  			if benchData.bytesWritten+writeSize > maxFileSize {
   492  				closeFile(benchData.fh)
   493  				benchData.fileNum++
   494  				benchData.bytesWritten = 0
   495  				benchData.fh = createFile(path.Join(dirpath, fmt.Sprintf("%s%d", pref, benchData.fileNum)))
   496  			}
   497  
   498  			benchData.bytesWritten += writeSize
   499  			writeToFile(benchData.fh, writeSize)
   500  			syncFile(benchData.fh)
   501  
   502  			start := time.Now()
   503  			getDiskUsage(dirpath)
   504  			hist.Record(time.Since(start))
   505  
   506  			return true
   507  		}
   508  
   509  		bench.stop = func() {
   510  			benchData.done.Store(true)
   511  		}
   512  
   513  		bench.clean = func() {
   514  			closeFile(benchData.fh)
   515  			removeAllFiles(dirpath)
   516  			closeFile(bench.dir)
   517  		}
   518  
   519  		return bench
   520  	}
   521  
   522  	return fsBenchmark{
   523  		createBench,
   524  		benchName,
   525  		benchDescription,
   526  	}
   527  }
   528  
   529  // A benchmark is a function which takes a directory
   530  // as input and returns the fsBench struct which has
   531  // all the information required to run the benchmark.
   532  type fsBenchmark struct {
   533  	createBench func(string) *fsBench
   534  	name        string
   535  	description string
   536  }
   537  
   538  // The various benchmarks which can be run.
   539  var benchmarks = map[string]fsBenchmark{
   540  	"create_empty": createBench("create_empty", "create empty file, sync par dir"),
   541  	"delete_10k_2MiB": deleteUniformBench(
   542  		"delete_10k_2MiB", "create 10k 2MiB size files, measure deletion times", 10_000, 2<<20,
   543  	),
   544  	"delete_100k_2MiB": deleteUniformBench(
   545  		"delete_100k_2MiB", "create 100k 2MiB size files, measure deletion times", 100_000, 2<<20,
   546  	),
   547  	"delete_200k_2MiB": deleteUniformBench(
   548  		"delete_200k_2MiB", "create 200k 2MiB size files, measure deletion times", 200_000, 2<<20,
   549  	),
   550  	"write_sync_1MiB": writeSyncBench(
   551  		"write_sync_1MiB", "Write 1MiB to a file, then sync, while timing the sync.", 2<<30, 1<<20,
   552  	),
   553  	"write_sync_16MiB": writeSyncBench(
   554  		"write_sync_16MiB", "Write 16MiB to a file, then sync, while timing the sync.", 2<<30, 16<<20,
   555  	),
   556  	"write_sync_128MiB": writeSyncBench(
   557  		"write_sync_128MiB", "Write 128MiB to a file, then sync, while timing the sync.", 2<<30, 128<<20,
   558  	),
   559  	"disk_usage_128MB": diskUsageBench(
   560  		"disk_usage_128MB",
   561  		"Write 128MiB to a file, measure GetDiskUsage call. Create a new file, when file size is 1GB.",
   562  		1<<30, 128<<20,
   563  	),
   564  	"disk_usage_many_files": diskUsageBench(
   565  		"disk_usage_many_files",
   566  		"Create new file, Write 128KiB to a file, measure GetDiskUsage call.",
   567  		128<<10, 128<<10,
   568  	),
   569  	"delete_large_dir_256MiB": deleteBench(
   570  		"delete_large_dir_256MiB", "Prepopulate directory with 100k 1MiB files, measure delete peformance of 256MiB files",
   571  		1e5, 1<<20, 256<<20,
   572  	),
   573  	"delete_large_dir_2MiB": deleteBench(
   574  		"delete_large_dir_2MiB", "Prepopulate directory with 100k 1MiB files, measure delete peformance of 2MiB files",
   575  		1e5, 1<<20, 2<<20,
   576  	),
   577  	"delete_small_dir_2GiB": deleteBench(
   578  		"delete_small_dir_2GiB", "Prepopulate directory with 1k 1MiB files, measure delete peformance of 2GiB files",
   579  		1e3, 1<<20, 2<<30,
   580  	),
   581  	"delete_small_dir_256MiB": deleteBench(
   582  		"delete_small_dir_256MiB", "Prepopulate directory with 1k 1MiB files, measure delete peformance of 256MiB files",
   583  		1e3, 1<<20, 256<<20,
   584  	),
   585  	"delete_small_dir_2MiB": deleteBench(
   586  		"delete_small_dir_2MiB", "Prepopulate directory with 1k 1MiB files, measure delete peformance of 2MiB files",
   587  		1e3, 1<<20, 2<<20,
   588  	),
   589  }
   590  
   591  func runFsBench(_ *cobra.Command, args []string) error {
   592  	benchmark, ok := benchmarks[fsConfig.benchname]
   593  	if !ok {
   594  		return errors.Errorf("trying to run an unknown benchmark: %s", fsConfig.benchname)
   595  	}
   596  
   597  	// Run the benchmark a comple of times.
   598  	fmt.Printf("The benchmark will be run %d time(s).\n", fsConfig.numTimes)
   599  	for i := 0; i < fsConfig.numTimes; i++ {
   600  		fmt.Println("Starting benchmark:", i)
   601  		benchStruct := benchmark.createBench(args[0])
   602  		runTestWithoutDB(testWithoutDB{
   603  			init: benchStruct.init,
   604  			tick: benchStruct.tick,
   605  			done: benchStruct.done,
   606  		})
   607  	}
   608  	return nil
   609  }
   610  
   611  func (bench *fsBench) init(wg *sync.WaitGroup) {
   612  	fmt.Println("Running benchmark:", bench.name)
   613  	fmt.Println("Description:", bench.description)
   614  
   615  	wg.Add(1)
   616  	go bench.execute(wg)
   617  }
   618  
   619  func (bench *fsBench) execute(wg *sync.WaitGroup) {
   620  	defer wg.Done()
   621  
   622  	latencyHist := bench.reg.Register(bench.name)
   623  
   624  	for {
   625  		// run the op which we're benchmarking.
   626  		bench.numOps++
   627  
   628  		// The running function will determine exactly what to latency
   629  		// it wants to measure.
   630  		continueBench := bench.run(latencyHist)
   631  		if !continueBench || (fsConfig.maxOps > 0 && bench.numOps >= fsConfig.maxOps) {
   632  			break
   633  		}
   634  	}
   635  }
   636  
   637  func (bench *fsBench) tick(elapsed time.Duration, i int) {
   638  	if i%20 == 0 {
   639  		fmt.Println("____optype__elapsed__ops/sec(inst)___ops/sec(cum)__p50(ms)__p95(ms)__p99(ms)__pMax(ms)")
   640  	}
   641  	bench.reg.Tick(func(tick histogramTick) {
   642  		h := tick.Hist
   643  
   644  		fmt.Printf("%10s %8s %14.1f %14.1f %5.6f %5.6f %5.6f %5.6f\n",
   645  			tick.Name[:10],
   646  			time.Duration(elapsed.Seconds()+0.5)*time.Second,
   647  			float64(h.TotalCount())/tick.Elapsed.Seconds(),
   648  			float64(tick.Cumulative.TotalCount())/elapsed.Seconds(),
   649  			time.Duration(h.ValueAtQuantile(50)).Seconds()*1000,
   650  			time.Duration(h.ValueAtQuantile(95)).Seconds()*1000,
   651  			time.Duration(h.ValueAtQuantile(99)).Seconds()*1000,
   652  			time.Duration(h.ValueAtQuantile(100)).Seconds()*1000,
   653  		)
   654  	})
   655  }
   656  
   657  func (bench *fsBench) done(wg *sync.WaitGroup, elapsed time.Duration) {
   658  	// Do the cleanup.
   659  	bench.stop()
   660  	wg.Wait()
   661  	defer bench.clean()
   662  
   663  	fmt.Println("\n____optype__elapsed_____ops(total)___ops/sec(cum)__avg(ms)__p50(ms)__p95(ms)__p99(ms)__pMax(ms)")
   664  
   665  	resultTick := histogramTick{}
   666  	bench.reg.Tick(func(tick histogramTick) {
   667  		h := tick.Cumulative
   668  		if resultTick.Cumulative == nil {
   669  			resultTick.Now = tick.Now
   670  			resultTick.Cumulative = h
   671  		} else {
   672  			resultTick.Cumulative.Merge(h)
   673  		}
   674  
   675  		fmt.Printf("%10s %7.1fs %14d %14.1f %5.6f %5.6f %5.6f %5.6f %5.6f\n",
   676  			tick.Name[:10], elapsed.Seconds(), h.TotalCount(),
   677  			float64(h.TotalCount())/elapsed.Seconds(),
   678  			time.Duration(h.Mean()).Seconds()*1000,
   679  			time.Duration(h.ValueAtQuantile(50)).Seconds()*1000,
   680  			time.Duration(h.ValueAtQuantile(95)).Seconds()*1000,
   681  			time.Duration(h.ValueAtQuantile(99)).Seconds()*1000,
   682  			time.Duration(h.ValueAtQuantile(100)).Seconds()*1000,
   683  		)
   684  	})
   685  	fmt.Println()
   686  
   687  	resultHist := resultTick.Cumulative
   688  
   689  	fmt.Printf("Benchmarkfsbench/%s  %d %0.1f ops/sec\n\n",
   690  		bench.name,
   691  		resultHist.TotalCount(),
   692  		float64(resultHist.TotalCount())/elapsed.Seconds(),
   693  	)
   694  }
   695  
   696  func verbosef(fmtstr string, args ...interface{}) {
   697  	if verbose {
   698  		fmt.Printf(fmtstr, args...)
   699  	}
   700  }
   701  
   702  func removeAll(dir string) {
   703  	verbosef("Removing %q.\n", dir)
   704  	if err := os.RemoveAll(dir); err != nil {
   705  		log.Fatal(err)
   706  	}
   707  }