minio/cmd/fastwalk.go
Harshavardhana f14f60a487 fix: Avoid double usage calculation on every restart (#8856)
On every restart of the server, usage was being
calculated which is not useful instead wait for
sufficient time to start the crawling routine.

This PR also avoids lots of double allocations
through strings, optimizes usage of string builders
and also avoids crawling through symbolic links.

Fixes #8844
2020-01-21 14:07:49 -08:00

218 lines
5.4 KiB
Go

// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// This code is imported from "golang.org/x/tools/internal/fastwalk",
// only fastwalk.go is imported since we already implement readDir()
// with some little tweaks.
package cmd
import (
"errors"
"os"
"path/filepath"
"runtime"
"strings"
"sync"
)
var errSkipFile = errors.New("fastwalk: skip this file")
// Walk is a faster implementation of filepath.Walk.
//
// filepath.Walk's design necessarily calls os.Lstat on each file,
// even if the caller needs less info.
// Many tools need only the type of each file.
// On some platforms, this information is provided directly by the readdir
// system call, avoiding the need to stat each file individually.
// fastwalk_unix.go contains a fork of the syscall routines.
//
// See golang.org/issue/16399
//
// Walk walks the file tree rooted at root, calling walkFn for
// each file or directory in the tree, including root.
//
// If fastWalk returns filepath.SkipDir, the directory is skipped.
//
// Unlike filepath.Walk:
// * file stat calls must be done by the user.
// The only provided metadata is the file type, which does not include
// any permission bits.
// * multiple goroutines stat the filesystem concurrently. The provided
// walkFn must be safe for concurrent use.
// * fastWalk can follow symlinks if walkFn returns the TraverseLink
// sentinel error. It is the walkFn's responsibility to prevent
// fastWalk from going into symlink cycles.
func fastWalk(root string, walkFn func(path string, typ os.FileMode) error) error {
// TODO(bradfitz): make numWorkers configurable? We used a
// minimum of 4 to give the kernel more info about multiple
// things we want, in hopes its I/O scheduling can take
// advantage of that. Hopefully most are in cache. Maybe 4 is
// even too low of a minimum. Profile more.
numWorkers := 4
if n := runtime.NumCPU(); n > numWorkers {
numWorkers = n
}
// Make sure to wait for all workers to finish, otherwise
// walkFn could still be called after returning. This Wait call
// runs after close(e.donec) below.
var wg sync.WaitGroup
defer wg.Wait()
w := &walker{
fn: walkFn,
enqueuec: make(chan walkItem, numWorkers), // buffered for performance
workc: make(chan walkItem, numWorkers), // buffered for performance
donec: make(chan struct{}),
// buffered for correctness & not leaking goroutines:
resc: make(chan error, numWorkers),
}
defer close(w.donec)
for i := 0; i < numWorkers; i++ {
wg.Add(1)
go w.doWork(&wg)
}
todo := []walkItem{{dir: root}}
out := 0
for {
workc := w.workc
var workItem walkItem
if len(todo) == 0 {
workc = nil
} else {
workItem = todo[len(todo)-1]
}
select {
case workc <- workItem:
todo = todo[:len(todo)-1]
out++
case it := <-w.enqueuec:
todo = append(todo, it)
case err := <-w.resc:
out--
if err != nil {
return err
}
if out == 0 && len(todo) == 0 {
// It's safe to quit here, as long as the buffered
// enqueue channel isn't also readable, which might
// happen if the worker sends both another unit of
// work and its result before the other select was
// scheduled and both w.resc and w.enqueuec were
// readable.
select {
case it := <-w.enqueuec:
todo = append(todo, it)
default:
return nil
}
}
}
}
}
// doWork reads directories as instructed (via workc) and runs the
// user's callback function.
func (w *walker) doWork(wg *sync.WaitGroup) {
defer wg.Done()
for {
select {
case <-w.donec:
return
case it := <-w.workc:
select {
case <-w.donec:
return
case w.resc <- w.walk(it.dir, !it.callbackDone):
}
}
}
}
type walker struct {
fn func(path string, typ os.FileMode) error
donec chan struct{} // closed on fastWalk's return
workc chan walkItem // to workers
enqueuec chan walkItem // from workers
resc chan error // from workers
}
type walkItem struct {
dir string
callbackDone bool // callback already called; don't do it again
}
func (w *walker) enqueue(it walkItem) {
select {
case w.enqueuec <- it:
case <-w.donec:
}
}
var stringsBuilderPool = sync.Pool{
New: func() interface{} {
return &strings.Builder{}
},
}
func (w *walker) onDirEnt(dirName, baseName string, typ os.FileMode) error {
builder := stringsBuilderPool.Get().(*strings.Builder)
defer func() {
builder.Reset()
stringsBuilderPool.Put(builder)
}()
builder.WriteString(dirName)
if !strings.HasSuffix(dirName, SlashSeparator) {
builder.WriteString(SlashSeparator)
}
builder.WriteString(baseName)
if typ == os.ModeDir {
w.enqueue(walkItem{dir: builder.String()})
return nil
}
err := w.fn(builder.String(), typ)
if err == filepath.SkipDir || err == errSkipFile {
return nil
}
return err
}
func readDirFn(dirName string, fn func(dirName, entName string, typ os.FileMode) error) error {
fis, err := readDir(dirName)
if err != nil {
return err
}
for _, fi := range fis {
var mode os.FileMode
if strings.HasSuffix(fi, SlashSeparator) {
mode |= os.ModeDir
}
if err = fn(dirName, fi, mode); err != nil {
return err
}
}
return nil
}
func (w *walker) walk(root string, runUserCallback bool) error {
if runUserCallback {
err := w.fn(root, os.ModeDir)
if err == filepath.SkipDir || err == errSkipFile {
return nil
}
if err != nil {
return err
}
}
return readDirFn(root, w.onDirEnt)
}