syncthing/lib/fs/fakefs.go

1016 lines
23 KiB
Go

// Copyright (C) 2018 The Syncthing Authors.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this file,
// You can obtain one at https://mozilla.org/MPL/2.0/.
package fs
import (
"context"
"errors"
"fmt"
"hash/fnv"
"io"
"math/rand"
"net/url"
"os"
"os/user"
"path/filepath"
"strconv"
"strings"
"sync"
"testing"
"time"
"github.com/syncthing/syncthing/lib/protocol"
)
// see readShortAt()
const randomBlockShift = 14 // 128k
// fakeFS is a fake filesystem for testing and benchmarking. It has the
// following properties:
//
// - File metadata is kept in RAM. Specifically, we remember which files and
// directories exist, their dates, permissions and sizes. Symlinks are
// not supported.
//
// - File contents are generated pseudorandomly with just the file name as
// seed. Writes are discarded, other than having the effect of increasing
// the file size. If you only write data that you've read from a file with
// the same name on a different fakeFS, you'll never know the difference...
//
// - We totally ignore permissions - pretend you are root.
//
// - The root path can contain URL query-style parameters that pre populate
// the filesystem at creation with a certain amount of random data:
//
// files=n to generate n random files (default 0)
// maxsize=n to generate files up to a total of n MiB (default 0)
// sizeavg=n to set the average size of random files, in bytes (default 1<<20)
// seed=n to set the initial random seed (default 0)
// insens=b "true" makes filesystem case-insensitive Windows- or OSX-style (default false)
// latency=d to set the amount of time each "disk" operation takes, where d is time.ParseDuration format
// content=true to save actual file contents instead of generating pseudorandomly; n.b. memory usage
// nostfolder=true skip the creation of .stfolder
//
// - Two fakeFS:s pointing at the same root path see the same files.
type fakeFS struct {
counters fakeFSCounters
uri string
mut sync.Mutex
root *fakeEntry
insens bool
withContent bool
latency time.Duration
userCache *userCache
groupCache *groupCache
}
type fakeFSCounters struct {
Chmod int64
Lchown int64
Chtimes int64
Create int64
DirNames int64
Lstat int64
Mkdir int64
MkdirAll int64
Open int64
OpenFile int64
ReadSymlink int64
Remove int64
RemoveAll int64
Rename int64
}
var (
fakeFSMut sync.Mutex
fakeFSCache = make(map[string]*fakeFS)
)
func newFakeFilesystem(rootURI string, _ ...Option) *fakeFS {
fakeFSMut.Lock()
defer fakeFSMut.Unlock()
var params url.Values
uri, err := url.Parse(rootURI)
if err == nil {
params = uri.Query()
}
if fs, ok := fakeFSCache[rootURI]; ok {
// Already have an fs at this path
return fs
}
fs := &fakeFS{
uri: "fake://" + rootURI,
root: &fakeEntry{
name: "/",
entryType: fakeEntryTypeDir,
mode: 0o700,
mtime: time.Now(),
children: make(map[string]*fakeEntry),
},
userCache: newValueCache(time.Hour, user.LookupId),
groupCache: newValueCache(time.Hour, user.LookupGroupId),
}
files, _ := strconv.Atoi(params.Get("files"))
maxsize, _ := strconv.Atoi(params.Get("maxsize"))
sizeavg, _ := strconv.Atoi(params.Get("sizeavg"))
seed, _ := strconv.Atoi(params.Get("seed"))
fs.insens = params.Get("insens") == "true"
fs.withContent = params.Get("content") == "true"
nostfolder := params.Get("nostfolder") == "true"
if sizeavg == 0 {
sizeavg = 1 << 20
}
if files > 0 || maxsize > 0 {
// Generate initial data according to specs. Operations in here
// *look* like file I/O, but they are not. Do not worry that they
// might fail.
rng := rand.New(rand.NewSource(int64(seed)))
var createdFiles int
var writtenData int64
for (files == 0 || createdFiles < files) && (maxsize == 0 || writtenData>>20 < int64(maxsize)) {
dir := filepath.Join(fmt.Sprintf("%02x", rng.Intn(255)), fmt.Sprintf("%02x", rng.Intn(255)))
file := fmt.Sprintf("%016x", rng.Int63())
fs.MkdirAll(dir, 0o755)
fd, _ := fs.Create(filepath.Join(dir, file))
createdFiles++
fsize := int64(sizeavg/2 + rng.Intn(sizeavg))
fd.Truncate(fsize)
writtenData += fsize
ftime := time.Unix(1000000000+rng.Int63n(10*365*86400), 0)
fs.Chtimes(filepath.Join(dir, file), ftime, ftime)
}
}
if !nostfolder {
// Also create a default folder marker for good measure
fs.Mkdir(".stfolder", 0o700)
}
// We only set the latency after doing the operations required to create
// the filesystem initially.
fs.latency, _ = time.ParseDuration(params.Get("latency"))
fakeFSCache[rootURI] = fs
return fs
}
type fakeEntryType int
const (
fakeEntryTypeFile fakeEntryType = iota
fakeEntryTypeDir
fakeEntryTypeSymlink
)
// fakeEntry is an entry (file or directory) in the fake filesystem
type fakeEntry struct {
name string
entryType fakeEntryType
dest string // for symlinks
size int64
mode FileMode
uid int
gid int
mtime time.Time
children map[string]*fakeEntry
content []byte
}
func (fs *fakeFS) entryForName(name string) *fakeEntry {
if fs.insens {
name = UnicodeLowercaseNormalized(name)
}
name = filepath.ToSlash(name)
if name == "." || name == "/" {
return fs.root
}
name = strings.Trim(name, "/")
comps := strings.Split(name, "/")
entry := fs.root
for i, comp := range comps {
if entry.entryType != fakeEntryTypeDir {
return nil
}
var ok bool
entry, ok = entry.children[comp]
if !ok {
return nil
}
if i < len(comps)-1 && entry.entryType == fakeEntryTypeSymlink {
// only absolute link targets are supported, and we assume
// lookup is Lstat-kind so we only resolve symlinks when they
// are not the last path component.
return fs.entryForName(entry.dest)
}
}
return entry
}
func (fs *fakeFS) Chmod(name string, mode FileMode) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Chmod++
time.Sleep(fs.latency)
entry := fs.entryForName(name)
if entry == nil {
return os.ErrNotExist
}
entry.mode = mode
return nil
}
func (fs *fakeFS) Lchown(name, uid, gid string) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Lchown++
time.Sleep(fs.latency)
entry := fs.entryForName(name)
if entry == nil {
return os.ErrNotExist
}
entry.uid, _ = strconv.Atoi(uid)
entry.gid, _ = strconv.Atoi(gid)
return nil
}
func (fs *fakeFS) Chtimes(name string, _ time.Time, mtime time.Time) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Chtimes++
time.Sleep(fs.latency)
entry := fs.entryForName(name)
if entry == nil {
return os.ErrNotExist
}
entry.mtime = mtime
return nil
}
func (fs *fakeFS) create(name string) (*fakeEntry, error) {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Create++
time.Sleep(fs.latency)
if entry := fs.entryForName(name); entry != nil {
if entry.entryType == fakeEntryTypeDir {
return nil, os.ErrExist
} else if entry.entryType == fakeEntryTypeSymlink {
return nil, errors.New("following symlink not supported")
}
entry.size = 0
entry.mtime = time.Now()
entry.mode = 0o666
entry.content = nil
if fs.withContent {
entry.content = make([]byte, 0)
}
return entry, nil
}
dir := filepath.Dir(name)
base := filepath.Base(name)
entry := fs.entryForName(dir)
if entry == nil {
return nil, os.ErrNotExist
}
new := &fakeEntry{
name: base,
mode: 0o666,
mtime: time.Now(),
}
if fs.insens {
base = UnicodeLowercaseNormalized(base)
}
if fs.withContent {
new.content = make([]byte, 0)
}
entry.children[base] = new
return new, nil
}
func (fs *fakeFS) Create(name string) (File, error) {
entry, err := fs.create(name)
if err != nil {
return nil, err
}
if fs.insens {
return &fakeFile{fakeEntry: entry, presentedName: filepath.Base(name), mut: &fs.mut}, nil
}
return &fakeFile{fakeEntry: entry, mut: &fs.mut}, nil
}
func (fs *fakeFS) CreateSymlink(target, name string) error {
entry, err := fs.create(name)
if err != nil {
return err
}
entry.entryType = fakeEntryTypeSymlink
entry.dest = target
return nil
}
func (fs *fakeFS) DirNames(name string) ([]string, error) {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.DirNames++
time.Sleep(fs.latency)
entry := fs.entryForName(name)
if entry == nil {
return nil, os.ErrNotExist
}
names := make([]string, 0, len(entry.children))
for _, child := range entry.children {
names = append(names, child.name)
}
return names, nil
}
func (fs *fakeFS) Lstat(name string) (FileInfo, error) {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Lstat++
time.Sleep(fs.latency)
entry := fs.entryForName(name)
if entry == nil {
return nil, os.ErrNotExist
}
info := &fakeFileInfo{*entry}
if fs.insens {
info.name = filepath.Base(name)
}
return info, nil
}
func (fs *fakeFS) Mkdir(name string, perm FileMode) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Mkdir++
time.Sleep(fs.latency)
dir := filepath.Dir(name)
base := filepath.Base(name)
entry := fs.entryForName(dir)
key := base
if entry == nil {
return os.ErrNotExist
}
if entry.entryType != fakeEntryTypeDir {
return os.ErrExist
}
if fs.insens {
key = UnicodeLowercaseNormalized(key)
}
if _, ok := entry.children[key]; ok {
return os.ErrExist
}
entry.children[key] = &fakeEntry{
name: base,
entryType: fakeEntryTypeDir,
mode: perm,
mtime: time.Now(),
children: make(map[string]*fakeEntry),
}
return nil
}
func (fs *fakeFS) MkdirAll(name string, perm FileMode) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.MkdirAll++
time.Sleep(fs.latency)
name = filepath.ToSlash(name)
name = strings.Trim(name, "/")
comps := strings.Split(name, "/")
entry := fs.root
for _, comp := range comps {
key := comp
if fs.insens {
key = UnicodeLowercaseNormalized(key)
}
next, ok := entry.children[key]
if !ok {
new := &fakeEntry{
name: comp,
entryType: fakeEntryTypeDir,
mode: perm,
mtime: time.Now(),
children: make(map[string]*fakeEntry),
}
entry.children[key] = new
next = new
} else if next.entryType != fakeEntryTypeDir {
return errors.New("not a directory")
}
entry = next
}
return nil
}
func (fs *fakeFS) Open(name string) (File, error) {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Open++
time.Sleep(fs.latency)
entry := fs.entryForName(name)
if entry == nil || entry.entryType != fakeEntryTypeFile {
return nil, os.ErrNotExist
}
if fs.insens {
return &fakeFile{fakeEntry: entry, presentedName: filepath.Base(name), mut: &fs.mut}, nil
}
return &fakeFile{fakeEntry: entry, mut: &fs.mut}, nil
}
func (fs *fakeFS) OpenFile(name string, flags int, mode FileMode) (File, error) {
if flags&os.O_CREATE == 0 {
return fs.Open(name)
}
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.OpenFile++
time.Sleep(fs.latency)
dir := filepath.Dir(name)
base := filepath.Base(name)
entry := fs.entryForName(dir)
key := base
if entry == nil {
return nil, os.ErrNotExist
} else if entry.entryType != fakeEntryTypeDir {
return nil, errors.New("not a directory")
}
if fs.insens {
key = UnicodeLowercaseNormalized(key)
}
if flags&os.O_EXCL != 0 {
if _, ok := entry.children[key]; ok {
return nil, os.ErrExist
}
}
newEntry := &fakeEntry{
name: base,
mode: mode,
mtime: time.Now(),
}
if fs.withContent {
newEntry.content = make([]byte, 0)
}
entry.children[key] = newEntry
return &fakeFile{fakeEntry: newEntry, mut: &fs.mut}, nil
}
func (fs *fakeFS) ReadSymlink(name string) (string, error) {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.ReadSymlink++
time.Sleep(fs.latency)
entry := fs.entryForName(name)
if entry == nil {
return "", os.ErrNotExist
} else if entry.entryType != fakeEntryTypeSymlink {
return "", errors.New("not a symlink")
}
return entry.dest, nil
}
func (fs *fakeFS) Remove(name string) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Remove++
time.Sleep(fs.latency)
if fs.insens {
name = UnicodeLowercaseNormalized(name)
}
entry := fs.entryForName(name)
if entry == nil {
return os.ErrNotExist
}
if len(entry.children) != 0 {
return errors.New("not empty")
}
entry = fs.entryForName(filepath.Dir(name))
delete(entry.children, filepath.Base(name))
return nil
}
func (fs *fakeFS) RemoveAll(name string) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.RemoveAll++
time.Sleep(fs.latency)
if fs.insens {
name = UnicodeLowercaseNormalized(name)
}
entry := fs.entryForName(filepath.Dir(name))
if entry == nil {
return nil // all tested real systems exhibit this behaviour
}
// RemoveAll is easy when the file system uses garbage collection under
// the hood... We even get the correct semantics for open fd:s for free.
delete(entry.children, filepath.Base(name))
return nil
}
func (fs *fakeFS) Rename(oldname, newname string) error {
fs.mut.Lock()
defer fs.mut.Unlock()
fs.counters.Rename++
time.Sleep(fs.latency)
oldKey := filepath.Base(oldname)
newKey := filepath.Base(newname)
if fs.insens {
oldKey = UnicodeLowercaseNormalized(oldKey)
newKey = UnicodeLowercaseNormalized(newKey)
}
p0 := fs.entryForName(filepath.Dir(oldname))
if p0 == nil {
return os.ErrNotExist
}
entry := p0.children[oldKey]
if entry == nil {
return os.ErrNotExist
}
p1 := fs.entryForName(filepath.Dir(newname))
if p1 == nil {
return os.ErrNotExist
}
dst, ok := p1.children[newKey]
if ok {
if fs.insens && newKey == oldKey {
// case-only in-place rename
entry.name = filepath.Base(newname)
return nil
}
if dst.entryType == fakeEntryTypeDir {
return errors.New("is a directory")
}
}
p1.children[newKey] = entry
entry.name = filepath.Base(newname)
delete(p0.children, oldKey)
return nil
}
func (fs *fakeFS) Stat(name string) (FileInfo, error) {
return fs.Lstat(name)
}
func (*fakeFS) SymlinksSupported() bool {
return false
}
func (*fakeFS) Walk(_ string, _ WalkFunc) error {
return errors.New("not implemented")
}
func (*fakeFS) Watch(_ string, _ Matcher, _ context.Context, _ bool) (<-chan Event, <-chan error, error) {
return nil, nil, ErrWatchNotSupported
}
func (*fakeFS) Hide(_ string) error {
return nil
}
func (*fakeFS) Unhide(_ string) error {
return nil
}
func (*fakeFS) GetXattr(_ string, _ XattrFilter) ([]protocol.Xattr, error) {
return nil, nil
}
func (*fakeFS) SetXattr(_ string, _ []protocol.Xattr, _ XattrFilter) error {
return nil
}
// A basic glob-impelementation that should be able to handle
// simple test cases.
func (fs *fakeFS) Glob(pattern string) ([]string, error) {
dir := filepath.Dir(pattern)
file := filepath.Base(pattern)
if _, err := fs.Lstat(dir); err != nil {
return nil, errPathInvalid
}
var matches []string
names, err := fs.DirNames(dir)
if err != nil {
return nil, err
}
for _, n := range names {
matched, err := filepath.Match(file, n)
if err != nil {
return nil, err
}
if matched {
matches = append(matches, filepath.Join(dir, n))
}
}
return matches, err
}
func (*fakeFS) Roots() ([]string, error) {
return []string{"/"}, nil
}
func (*fakeFS) Usage(_ string) (Usage, error) {
return Usage{}, errors.New("not implemented")
}
func (*fakeFS) Type() FilesystemType {
return FilesystemTypeFake
}
func (fs *fakeFS) URI() string {
return fs.uri
}
func (*fakeFS) Options() []Option {
return nil
}
func (fs *fakeFS) SameFile(fi1, fi2 FileInfo) bool {
// BUG: real systems base file sameness on path, inodes, etc
// we try our best, but FileInfo just doesn't have enough data
// so there be false positives, especially on Windows
// where ModTime is not that precise
var ok bool
if fs.insens {
ok = UnicodeLowercaseNormalized(fi1.Name()) == UnicodeLowercaseNormalized(fi2.Name())
} else {
ok = fi1.Name() == fi2.Name()
}
return ok && fi1.ModTime().Equal(fi2.ModTime()) && fi1.Mode() == fi2.Mode() && fi1.IsDir() == fi2.IsDir() && fi1.IsRegular() == fi2.IsRegular() && fi1.IsSymlink() == fi2.IsSymlink() && fi1.Owner() == fi2.Owner() && fi1.Group() == fi2.Group()
}
func (fs *fakeFS) PlatformData(name string, scanOwnership, scanXattrs bool, xattrFilter XattrFilter) (protocol.PlatformData, error) {
return unixPlatformData(fs, name, fs.userCache, fs.groupCache, scanOwnership, scanXattrs, xattrFilter)
}
func (*fakeFS) underlying() (Filesystem, bool) {
return nil, false
}
func (*fakeFS) wrapperType() filesystemWrapperType {
return filesystemWrapperTypeNone
}
func (fs *fakeFS) resetCounters() {
fs.mut.Lock()
fs.counters = fakeFSCounters{}
fs.mut.Unlock()
}
func (fs *fakeFS) reportMetricsPerOp(b *testing.B) {
fs.reportMetricsPer(b, 1, "op")
}
func (fs *fakeFS) reportMetricsPer(b *testing.B, divisor float64, unit string) {
fs.mut.Lock()
defer fs.mut.Unlock()
b.ReportMetric(float64(fs.counters.Lstat)/divisor/float64(b.N), "Lstat/"+unit)
b.ReportMetric(float64(fs.counters.DirNames)/divisor/float64(b.N), "DirNames/"+unit)
}
// fakeFile is the representation of an open file. We don't care if it's
// opened for reading or writing, it's all good.
type fakeFile struct {
*fakeEntry
mut *sync.Mutex
rng io.Reader
seed int64
offset int64
seedOffs int64
presentedName string // present (i.e. != "") on insensitive fs only
}
func (*fakeFile) Close() error {
return nil
}
func (f *fakeFile) Read(p []byte) (int, error) {
f.mut.Lock()
defer f.mut.Unlock()
return f.readShortAt(p, f.offset)
}
func (f *fakeFile) ReadAt(p []byte, offs int64) (int, error) {
f.mut.Lock()
defer f.mut.Unlock()
// ReadAt is spec:ed to always read a full block unless EOF or failure,
// so we must loop. It's also not supposed to affect the seek position,
// but that would make things annoying or inefficient in terms of
// generating the appropriate RNG etc so I ignore that. In practice we
// currently don't depend on that aspect of it...
var read int
for {
n, err := f.readShortAt(p[read:], offs+int64(read))
read += n
if err != nil {
return read, err
}
if read == len(p) {
return read, nil
}
}
}
func (f *fakeFile) readShortAt(p []byte, offs int64) (int, error) {
// Here be a certain amount of magic... We want to return pseudorandom,
// predictable data so that a read from the same offset in the same file
// always returns the same data. But the RNG is a stream, and reads can
// be random.
//
// We split the file into "blocks" numbered by "seedNo", where each
// block becomes an instantiation of the RNG, seeded with the hash of
// the file number plus the seedNo (block number). We keep the RNG
// around in the hope that the next read will be sequential to this one
// and we can continue reading from the same RNG.
//
// When that's not the case we create a new RNG for the block we are in,
// read as many bytes from it as necessary to get to the right offset,
// and then serve the read from there. We limit the length of the read
// to the end of the block, as another RNG needs to be created to serve
// the next block.
//
// The size of the blocks are a matter of taste... Larger blocks give
// better performance for sequential reads, but worse for random reads
// as we often need to generate and throw away a lot of data at the
// start of the block to serve a given read. 128 KiB blocks fit
// reasonably well with the type of IO Syncthing tends to do.
if f.entryType == fakeEntryTypeDir {
return 0, errors.New("is a directory")
}
if offs >= f.size {
return 0, io.EOF
}
if f.content != nil {
n := copy(p, f.content[int(offs):])
f.offset = offs + int64(n)
return n, nil
}
// Lazily calculate our main seed, a simple 64 bit FNV hash our file
// name.
if f.seed == 0 {
hf := fnv.New64()
hf.Write([]byte(f.name))
f.seed = int64(hf.Sum64())
}
// Check whether the read is a continuation of an RNG we already have or
// we need to set up a new one.
seedNo := offs >> randomBlockShift
minOffs := seedNo << randomBlockShift
nextBlockOffs := (seedNo + 1) << randomBlockShift
if f.rng == nil || f.offset != offs || seedNo != f.seedOffs {
// This is not a straight read continuing from a previous one
f.rng = rand.New(rand.NewSource(f.seed + seedNo))
// If the read is not at the start of the block, discard data
// accordingly.
diff := offs - minOffs
if diff > 0 {
lr := io.LimitReader(f.rng, diff)
io.Copy(io.Discard, lr)
}
f.offset = offs
f.seedOffs = seedNo
}
size := len(p)
// Don't read past the end of the file
if offs+int64(size) > f.size {
size = int(f.size - offs)
}
// Don't read across the block boundary
if offs+int64(size) > nextBlockOffs {
size = int(nextBlockOffs - offs)
}
f.offset += int64(size)
return f.rng.Read(p[:size])
}
func (f *fakeFile) Seek(offset int64, whence int) (int64, error) {
f.mut.Lock()
defer f.mut.Unlock()
if f.entryType == fakeEntryTypeDir {
return 0, errors.New("is a directory")
}
f.rng = nil
switch whence {
case io.SeekCurrent:
f.offset += offset
case io.SeekEnd:
f.offset = f.size - offset
case io.SeekStart:
f.offset = offset
}
if f.offset < 0 {
f.offset = 0
return f.offset, errors.New("seek before start")
}
if f.offset > f.size {
f.offset = f.size
return f.offset, io.EOF
}
return f.offset, nil
}
func (f *fakeFile) Write(p []byte) (int, error) {
f.mut.Lock()
offs := f.offset
f.mut.Unlock()
return f.WriteAt(p, offs)
}
func (f *fakeFile) WriteAt(p []byte, off int64) (int, error) {
f.mut.Lock()
defer f.mut.Unlock()
if f.entryType == fakeEntryTypeDir {
return 0, errors.New("is a directory")
}
if f.content != nil {
if len(f.content) < int(off)+len(p) {
newc := make([]byte, int(off)+len(p))
copy(newc, f.content)
f.content = newc
}
copy(f.content[int(off):], p)
}
f.rng = nil
f.offset = off + int64(len(p))
if f.offset > f.size {
f.size = f.offset
}
return len(p), nil
}
func (f *fakeFile) Name() string {
if f.presentedName != "" {
return f.presentedName
}
f.mut.Lock()
defer f.mut.Unlock()
return f.name
}
func (f *fakeFile) Truncate(size int64) error {
f.mut.Lock()
defer f.mut.Unlock()
if f.content != nil {
if int64(cap(f.content)) < size {
c := make([]byte, size)
copy(c[:len(f.content)], f.content)
f.content = c
} else {
f.content = f.content[:int(size)]
}
}
f.rng = nil
f.size = size
if f.offset > size {
f.offset = size
}
return nil
}
func (f *fakeFile) Stat() (FileInfo, error) {
f.mut.Lock()
info := &fakeFileInfo{*f.fakeEntry}
f.mut.Unlock()
if f.presentedName != "" {
info.name = f.presentedName
}
return info, nil
}
func (*fakeFile) Sync() error {
return nil
}
// fakeFileInfo is the stat result.
type fakeFileInfo struct {
fakeEntry // intentionally a copy of the struct
}
func (f *fakeFileInfo) Name() string {
return f.name
}
func (f *fakeFileInfo) Mode() FileMode {
return f.mode
}
func (f *fakeFileInfo) Size() int64 {
return f.size
}
func (f *fakeFileInfo) ModTime() time.Time {
return f.mtime
}
func (f *fakeFileInfo) IsDir() bool {
return f.entryType == fakeEntryTypeDir
}
func (f *fakeFileInfo) IsRegular() bool {
return f.entryType == fakeEntryTypeFile
}
func (f *fakeFileInfo) IsSymlink() bool {
return f.entryType == fakeEntryTypeSymlink
}
func (f *fakeFileInfo) Owner() int {
return f.uid
}
func (f *fakeFileInfo) Group() int {
return f.gid
}
func (*fakeFileInfo) Sys() interface{} {
return nil
}
func (*fakeFileInfo) InodeChangeTime() time.Time {
return time.Time{}
}