fusego/samples/memfs/memfs_test.go

// Copyright 2015 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

package memfs_test

import (
	"bytes"
	"encoding/binary"
	"io"
	"io/ioutil"
	"os"
	"os/user"
	"path"
	"reflect"
	"runtime"
	"strconv"
	"syscall"
	"testing"
	"time"

	fallocate "github.com/detailyang/go-fallocate"
	"github.com/jacobsa/fuse"
	"github.com/jacobsa/fuse/fusetesting"
	"github.com/jacobsa/fuse/internal/fusekernel"
	"github.com/jacobsa/fuse/samples"
	"github.com/jacobsa/fuse/samples/memfs"
	. "github.com/jacobsa/oglematchers"
	. "github.com/jacobsa/ogletest"
	"golang.org/x/sys/unix"
)

func TestMemFS(t *testing.T) { RunTests(t) }

// The radius we use for "expect mtime is within"-style assertions. We can't
// share a synchronized clock with the ultimate source of mtimes because with
// writeback caching enabled the kernel manufactures them based on wall time.
const timeSlop = 25 * time.Millisecond

////////////////////////////////////////////////////////////////////////
// Helpers
////////////////////////////////////////////////////////////////////////

func currentUid() uint32 {
	user, err := user.Current()
	if err != nil {
		panic(err)
	}

	uid, err := strconv.ParseUint(user.Uid, 10, 32)
	if err != nil {
		panic(err)
	}

	return uint32(uid)
}

func currentGid() uint32 {
	user, err := user.Current()
	if err != nil {
		panic(err)
	}

	gid, err := strconv.ParseUint(user.Gid, 10, 32)
	if err != nil {
		panic(err)
	}

	return uint32(gid)
}

// Transform the supplied mode by the current umask.
func applyUmask(m os.FileMode) os.FileMode {
	// HACK(jacobsa): Use umask(2) to change and restore the umask in order to
	// figure out what the mask is. See the listing in `man getumask`.
	umask := syscall.Umask(0)
	syscall.Umask(umask)

	// Apply it.
	return m &^ os.FileMode(umask)
}

func (t *MemFSTest) checkOpenFlagsXattr(
	fileName string, expectedOpenFlags fusekernel.OpenFlags) {
	dest := make([]byte, 4)
	_, err := unix.Getxattr(fileName, memfs.FileOpenFlagsXattrName, dest)
	AssertEq(nil, err)
	openFlags := binary.LittleEndian.Uint32(dest)
	AssertEq(openFlags, uint32(expectedOpenFlags))
}

////////////////////////////////////////////////////////////////////////
// Boilerplate
////////////////////////////////////////////////////////////////////////

type memFSTest struct {
	samples.SampleTest
}

func (t *memFSTest) SetUp(ti *TestInfo) {
	// Disable writeback caching so that pid is always available in OpContext
	t.MountConfig.DisableWritebackCaching = true

	t.Server = memfs.NewMemFS(currentUid(), currentGid())
	t.SampleTest.SetUp(ti)
}

////////////////////////////////////////////////////////////////////////
// Basics
////////////////////////////////////////////////////////////////////////

type MemFSTest struct {
	memFSTest
}

func init() { RegisterTestSuite(&MemFSTest{}) }

func (t *MemFSTest) ContentsOfEmptyFileSystem() {
	entries, err := fusetesting.ReadDirPicky(t.Dir)

	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())
}

func (t *MemFSTest) Mkdir_OneLevel() {
	var err error
	var fi os.FileInfo
	var stat *syscall.Stat_t
	var entries []os.FileInfo

	dirName := path.Join(t.Dir, "dir")

	// Create a directory within the root.
	createTime := time.Now()
	err = os.Mkdir(dirName, 0754)
	AssertEq(nil, err)

	// Stat the directory.
	fi, err = os.Stat(dirName)
	stat = fi.Sys().(*syscall.Stat_t)

	AssertEq(nil, err)
	ExpectEq("dir", fi.Name())
	ExpectEq(0, fi.Size())
	ExpectEq(os.ModeDir|applyUmask(0754), fi.Mode())
	ExpectThat(fi, fusetesting.MtimeIsWithin(createTime, timeSlop))
	ExpectThat(fi, fusetesting.BirthtimeIsWithin(createTime, timeSlop))
	ExpectTrue(fi.IsDir())

	ExpectNe(0, stat.Ino)
	ExpectEq(1, stat.Nlink)
	ExpectEq(currentUid(), stat.Uid)
	ExpectEq(currentGid(), stat.Gid)
	ExpectEq(0, stat.Size)

	// Check the root's mtime.
	fi, err = os.Stat(t.Dir)

	AssertEq(nil, err)
	ExpectThat(fi, fusetesting.MtimeIsWithin(createTime, timeSlop))

	// Read the directory.
	entries, err = fusetesting.ReadDirPicky(dirName)

	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())

	// Read the root.
	entries, err = fusetesting.ReadDirPicky(t.Dir)

	AssertEq(nil, err)
	AssertEq(1, len(entries))

	fi = entries[0]
	ExpectEq("dir", fi.Name())
	ExpectEq(os.ModeDir|applyUmask(0754), fi.Mode())
}

func (t *MemFSTest) Mkdir_TwoLevels() {
	var err error
	var fi os.FileInfo
	var stat *syscall.Stat_t
	var entries []os.FileInfo

	// Create a directory within the root.
	err = os.Mkdir(path.Join(t.Dir, "parent"), 0700)
	AssertEq(nil, err)

	// Create a child of that directory.
	createTime := time.Now()
	err = os.Mkdir(path.Join(t.Dir, "parent/dir"), 0754)
	AssertEq(nil, err)

	// Stat the directory.
	fi, err = os.Stat(path.Join(t.Dir, "parent/dir"))
	stat = fi.Sys().(*syscall.Stat_t)

	AssertEq(nil, err)
	ExpectEq("dir", fi.Name())
	ExpectEq(0, fi.Size())
	ExpectEq(os.ModeDir|applyUmask(0754), fi.Mode())
	ExpectThat(fi, fusetesting.MtimeIsWithin(createTime, timeSlop))
	ExpectThat(fi, fusetesting.BirthtimeIsWithin(createTime, timeSlop))
	ExpectTrue(fi.IsDir())

	ExpectNe(0, stat.Ino)
	ExpectEq(1, stat.Nlink)
	ExpectEq(currentUid(), stat.Uid)
	ExpectEq(currentGid(), stat.Gid)
	ExpectEq(0, stat.Size)

	// Check the parent's mtime.
	fi, err = os.Stat(path.Join(t.Dir, "parent"))
	AssertEq(nil, err)
	ExpectThat(fi, fusetesting.MtimeIsWithin(createTime, timeSlop))

	// Read the directory.
	entries, err = fusetesting.ReadDirPicky(path.Join(t.Dir, "parent/dir"))

	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())

	// Read the parent.
	entries, err = fusetesting.ReadDirPicky(path.Join(t.Dir, "parent"))

	AssertEq(nil, err)
	AssertEq(1, len(entries))

	fi = entries[0]
	ExpectEq("dir", fi.Name())
	ExpectEq(os.ModeDir|applyUmask(0754), fi.Mode())
}

func (t *MemFSTest) Mkdir_AlreadyExists() {
	var err error
	dirName := path.Join(t.Dir, "dir")

	// Create the directory once.
	err = os.Mkdir(dirName, 0754)
	AssertEq(nil, err)

	// Attempt to create it again.
	err = os.Mkdir(dirName, 0754)

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("exists")))
}

func (t *MemFSTest) Mkdir_IntermediateIsFile() {
	var err error

	// Create a file.
	fileName := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(fileName, []byte{}, 0700)
	AssertEq(nil, err)

	// Attempt to create a directory within the file.
	dirName := path.Join(fileName, "dir")
	err = os.Mkdir(dirName, 0754)

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("not a directory")))
}

func (t *MemFSTest) Mkdir_IntermediateIsNonExistent() {
	var err error

	// Attempt to create a sub-directory of a non-existent sub-directory.
	dirName := path.Join(t.Dir, "foo/dir")
	err = os.Mkdir(dirName, 0754)

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("no such file or directory")))
}

func (t *MemFSTest) Mkdir_PermissionDenied() {
	var err error

	// Create a directory within the root without write permissions.
	err = os.Mkdir(path.Join(t.Dir, "parent"), 0500)
	AssertEq(nil, err)

	// Attempt to create a child of that directory.
	err = os.Mkdir(path.Join(t.Dir, "parent/dir"), 0754)

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("permission denied")))
}

func (t *MemFSTest) CreateNewFile_InRoot() {
	var err error
	var fi os.FileInfo
	var stat *syscall.Stat_t

	// Write a file.
	fileName := path.Join(t.Dir, memfs.CheckFileOpenFlagsFileName)
	const contents = "Hello\x00world"

	createTime := time.Now()
	err = ioutil.WriteFile(fileName, []byte(contents), 0400)
	AssertEq(nil, err)

	// Stat it.
	fi, err = os.Stat(fileName)
	stat = fi.Sys().(*syscall.Stat_t)

	AssertEq(nil, err)
	ExpectEq(memfs.CheckFileOpenFlagsFileName, fi.Name())
	ExpectEq(len(contents), fi.Size())
	ExpectEq(applyUmask(0400), fi.Mode())
	ExpectThat(fi, fusetesting.MtimeIsWithin(createTime, timeSlop))
	ExpectThat(fi, fusetesting.BirthtimeIsWithin(createTime, timeSlop))
	ExpectFalse(fi.IsDir())

	ExpectNe(0, stat.Ino)
	ExpectEq(1, stat.Nlink)
	ExpectEq(currentUid(), stat.Uid)
	ExpectEq(currentGid(), stat.Gid)
	ExpectEq(len(contents), stat.Size)

	// Read it back.
	slice, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq(contents, string(slice))
	t.checkOpenFlagsXattr(fileName, fusekernel.OpenReadOnly)
}

func (t *MemFSTest) CreateNewFile_InSubDir() {
	var err error
	var fi os.FileInfo
	var stat *syscall.Stat_t

	// Create a sub-dir.
	dirName := path.Join(t.Dir, "dir")
	err = os.Mkdir(dirName, 0700)
	AssertEq(nil, err)

	// Write a file.
	fileName := path.Join(dirName, "foo")
	const contents = "Hello\x00world"

	createTime := time.Now()
	err = ioutil.WriteFile(fileName, []byte(contents), 0400)
	AssertEq(nil, err)

	// Stat it.
	fi, err = os.Stat(fileName)
	stat = fi.Sys().(*syscall.Stat_t)

	AssertEq(nil, err)
	ExpectEq("foo", fi.Name())
	ExpectEq(len(contents), fi.Size())
	ExpectEq(applyUmask(0400), fi.Mode())
	ExpectThat(fi, fusetesting.MtimeIsWithin(createTime, timeSlop))
	ExpectThat(fi, fusetesting.BirthtimeIsWithin(createTime, timeSlop))
	ExpectFalse(fi.IsDir())

	ExpectNe(0, stat.Ino)
	ExpectEq(1, stat.Nlink)
	ExpectEq(currentUid(), stat.Uid)
	ExpectEq(currentGid(), stat.Gid)
	ExpectEq(len(contents), stat.Size)

	// Read it back.
	slice, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq(contents, string(slice))
}

func (t *MemFSTest) ModifyExistingFile_InRoot() {
	var err error
	var n int
	var fi os.FileInfo
	var stat *syscall.Stat_t

	// Write a file.
	fileName := path.Join(t.Dir, memfs.CheckFileOpenFlagsFileName)

	createTime := time.Now()
	err = ioutil.WriteFile(fileName, []byte("Hello, world!"), 0600)
	AssertEq(nil, err)

	// Open the file and modify it.
	f, err := os.OpenFile(fileName, os.O_WRONLY, 0400)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)
	t.checkOpenFlagsXattr(fileName, fusekernel.OpenWriteOnly)

	modifyTime := time.Now()
	n, err = f.WriteAt([]byte("H"), 0)
	AssertEq(nil, err)
	AssertEq(1, n)

	// Stat the file.
	fi, err = os.Stat(fileName)
	stat = fi.Sys().(*syscall.Stat_t)

	AssertEq(nil, err)
	ExpectEq(memfs.CheckFileOpenFlagsFileName, fi.Name())
	ExpectEq(len("Hello, world!"), fi.Size())
	ExpectEq(applyUmask(0600), fi.Mode())
	ExpectThat(fi, fusetesting.MtimeIsWithin(modifyTime, timeSlop))
	ExpectThat(fi, fusetesting.BirthtimeIsWithin(createTime, timeSlop))
	ExpectFalse(fi.IsDir())

	ExpectNe(0, stat.Ino)
	ExpectEq(1, stat.Nlink)
	ExpectEq(currentUid(), stat.Uid)
	ExpectEq(currentGid(), stat.Gid)
	ExpectEq(len("Hello, world!"), stat.Size)

	// Read the file back.
	slice, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq("Hello, world!", string(slice))
	t.checkOpenFlagsXattr(fileName, fusekernel.OpenReadOnly)
}

func (t *MemFSTest) ModifyExistingFile_InSubDir() {
	var err error
	var n int
	var fi os.FileInfo
	var stat *syscall.Stat_t

	// Create a sub-directory.
	dirName := path.Join(t.Dir, "dir")
	err = os.Mkdir(dirName, 0700)
	AssertEq(nil, err)

	// Write a file.
	fileName := path.Join(dirName, "foo")

	createTime := time.Now()
	err = ioutil.WriteFile(fileName, []byte("Hello, world!"), 0600)
	AssertEq(nil, err)

	// Open the file and modify it.
	f, err := os.OpenFile(fileName, os.O_WRONLY, 0400)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	modifyTime := time.Now()
	n, err = f.WriteAt([]byte("H"), 0)
	AssertEq(nil, err)
	AssertEq(1, n)

	// Stat the file.
	fi, err = os.Stat(fileName)
	stat = fi.Sys().(*syscall.Stat_t)

	AssertEq(nil, err)
	ExpectEq("foo", fi.Name())
	ExpectEq(len("Hello, world!"), fi.Size())
	ExpectEq(applyUmask(0600), fi.Mode())
	ExpectThat(fi, fusetesting.MtimeIsWithin(modifyTime, timeSlop))
	ExpectThat(fi, fusetesting.BirthtimeIsWithin(createTime, timeSlop))
	ExpectFalse(fi.IsDir())

	ExpectNe(0, stat.Ino)
	ExpectEq(1, stat.Nlink)
	ExpectEq(currentUid(), stat.Uid)
	ExpectEq(currentGid(), stat.Gid)
	ExpectEq(len("Hello, world!"), stat.Size)

	// Read the file back.
	slice, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq("Hello, world!", string(slice))
}

func (t *MemFSTest) UnlinkFile_Exists() {
	var err error

	// Write a file.
	fileName := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(fileName, []byte("Hello, world!"), 0600)
	AssertEq(nil, err)

	// Unlink it.
	err = os.Remove(fileName)
	AssertEq(nil, err)

	// Statting it should fail.
	_, err = os.Stat(fileName)

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("no such file")))

	// Nothing should be in the directory.
	entries, err := fusetesting.ReadDirPicky(t.Dir)
	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())
}

func (t *MemFSTest) UnlinkFile_NonExistent() {
	err := os.Remove(path.Join(t.Dir, "foo"))

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("no such file")))
}

func (t *MemFSTest) UnlinkFile_StillOpen() {
	fileName := path.Join(t.Dir, "foo")

	// Create and open a file.
	f, err := os.OpenFile(fileName, os.O_RDWR|os.O_CREATE, 0600)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Write some data into it.
	n, err := f.Write([]byte("taco"))
	AssertEq(nil, err)
	AssertEq(4, n)

	// Unlink it.
	err = os.Remove(fileName)
	AssertEq(nil, err)

	// The directory should no longer contain it.
	entries, err := fusetesting.ReadDirPicky(t.Dir)
	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())

	// We should be able to stat the file. It should still show as having
	// contents, but with no links.
	fi, err := f.Stat()

	AssertEq(nil, err)
	ExpectEq(4, fi.Size())
	ExpectEq(0, fi.Sys().(*syscall.Stat_t).Nlink)

	// The contents should still be available.
	buf := make([]byte, 1024)
	n, err = f.ReadAt(buf, 0)

	AssertEq(io.EOF, err)
	AssertEq(4, n)
	ExpectEq("taco", string(buf[:4]))

	// Writing should still work, too.
	n, err = f.Write([]byte("burrito"))
	AssertEq(nil, err)
	AssertEq(len("burrito"), n)
}

func (t *MemFSTest) Rmdir_NonEmpty() {
	var err error

	// Create two levels of directories.
	err = os.MkdirAll(path.Join(t.Dir, "foo/bar"), 0754)
	AssertEq(nil, err)

	// Attempt to remove the parent.
	err = os.Remove(path.Join(t.Dir, "foo"))

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("not empty")))
}

func (t *MemFSTest) Rmdir_Empty() {
	var err error
	var entries []os.FileInfo

	// Create two levels of directories.
	err = os.MkdirAll(path.Join(t.Dir, "foo/bar"), 0754)
	AssertEq(nil, err)

	// Remove the leaf.
	rmTime := time.Now()
	err = os.Remove(path.Join(t.Dir, "foo/bar"))
	AssertEq(nil, err)

	// There should be nothing left in the parent.
	entries, err = fusetesting.ReadDirPicky(path.Join(t.Dir, "foo"))

	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())

	// Check the parent's mtime.
	fi, err := os.Stat(path.Join(t.Dir, "foo"))
	AssertEq(nil, err)
	ExpectThat(fi, fusetesting.MtimeIsWithin(rmTime, timeSlop))

	// Remove the parent.
	err = os.Remove(path.Join(t.Dir, "foo"))
	AssertEq(nil, err)

	// Now the root directory should be empty, too.
	entries, err = fusetesting.ReadDirPicky(t.Dir)

	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())
}

func (t *MemFSTest) Rmdir_NonExistent() {
	err := os.Remove(path.Join(t.Dir, "blah"))

	AssertNe(nil, err)
	ExpectThat(err, Error(HasSubstr("no such file or directory")))
}

func (t *MemFSTest) Rmdir_OpenedForReading() {
	var err error

	// Create a directory.
	createTime := time.Now()
	err = os.Mkdir(path.Join(t.Dir, "dir"), 0700)
	AssertEq(nil, err)

	// Open the directory for reading.
	f, err := os.Open(path.Join(t.Dir, "dir"))
	defer func() {
		if f != nil {
			ExpectEq(nil, f.Close())
		}
	}()

	AssertEq(nil, err)

	// Remove the directory.
	err = os.Remove(path.Join(t.Dir, "dir"))
	AssertEq(nil, err)

	// Create a new directory, with the same name even, and add some contents
	// within it.
	err = os.MkdirAll(path.Join(t.Dir, "dir/foo"), 0700)
	AssertEq(nil, err)

	err = os.MkdirAll(path.Join(t.Dir, "dir/bar"), 0700)
	AssertEq(nil, err)

	err = os.MkdirAll(path.Join(t.Dir, "dir/baz"), 0700)
	AssertEq(nil, err)

	// We should still be able to stat the open file handle. It should show up as
	// unlinked.
	fi, err := f.Stat()

	ExpectEq("dir", fi.Name())
	ExpectThat(fi, fusetesting.MtimeIsWithin(createTime, timeSlop))
	ExpectEq(0, fi.Sys().(*syscall.Stat_t).Nlink)

	// Attempt to read from the directory. This shouldn't see any junk from the
	// new directory. It should either succeed with an empty result or should
	// return ENOENT.
	names, err := f.Readdirnames(0)

	if err != nil {
		ExpectThat(err, Error(HasSubstr("no such file")))
	} else {
		ExpectThat(names, ElementsAre())
	}
}

func (t *MemFSTest) CaseSensitive() {
	var err error

	// Create a file.
	err = ioutil.WriteFile(path.Join(t.Dir, "file"), []byte{}, 0400)
	AssertEq(nil, err)

	// Create a directory.
	err = os.Mkdir(path.Join(t.Dir, "dir"), 0400)
	AssertEq(nil, err)

	// Attempt to stat with the wrong case.
	names := []string{
		"FILE",
		"File",
		"filE",
		"DIR",
		"Dir",
		"dIr",
	}

	for _, name := range names {
		_, err = os.Stat(path.Join(t.Dir, name))
		AssertNe(nil, err, "Name: %s", name)
		AssertThat(err, Error(HasSubstr("no such file or directory")))
	}
}

func (t *MemFSTest) WriteOverlapsEndOfFile() {
	var err error
	var n int

	// Create a file.
	f, err := os.Create(path.Join(t.Dir, "foo"))
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Make it 4 bytes long.
	err = f.Truncate(4)
	AssertEq(nil, err)

	// Write the range [2, 6).
	n, err = f.WriteAt([]byte("taco"), 2)
	AssertEq(nil, err)
	AssertEq(4, n)

	// Read the full contents of the file.
	contents, err := ioutil.ReadAll(f)
	AssertEq(nil, err)
	ExpectEq("\x00\x00taco", string(contents))
}

func (t *MemFSTest) WriteStartsAtEndOfFile() {
	var err error
	var n int

	// Create a file.
	f, err := os.Create(path.Join(t.Dir, "foo"))
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Make it 2 bytes long.
	err = f.Truncate(2)
	AssertEq(nil, err)

	// Write the range [2, 6).
	n, err = f.WriteAt([]byte("taco"), 2)
	AssertEq(nil, err)
	AssertEq(4, n)

	// Read the full contents of the file.
	contents, err := ioutil.ReadAll(f)
	AssertEq(nil, err)
	ExpectEq("\x00\x00taco", string(contents))
}

func (t *MemFSTest) WriteStartsPastEndOfFile() {
	var err error
	var n int

	// Create a file.
	f, err := os.Create(path.Join(t.Dir, "foo"))
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Write the range [2, 6).
	n, err = f.WriteAt([]byte("taco"), 2)
	AssertEq(nil, err)
	AssertEq(4, n)

	// Read the full contents of the file.
	contents, err := ioutil.ReadAll(f)
	AssertEq(nil, err)
	ExpectEq("\x00\x00taco", string(contents))
}

func (t *MemFSTest) WriteAtDoesntChangeOffset_NotAppendMode() {
	var err error
	var n int

	// Create a file.
	f, err := os.Create(path.Join(t.Dir, "foo"))
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Make it 16 bytes long.
	err = f.Truncate(16)
	AssertEq(nil, err)

	// Seek to offset 4.
	_, err = f.Seek(4, 0)
	AssertEq(nil, err)

	// Write the range [10, 14).
	n, err = f.WriteAt([]byte("taco"), 2)
	AssertEq(nil, err)
	AssertEq(4, n)

	// We should still be at offset 4.
	offset, err := getFileOffset(f)
	AssertEq(nil, err)
	ExpectEq(4, offset)
}

func (t *MemFSTest) WriteAtDoesntChangeOffset_AppendMode() {
	var err error
	var n int

	// Create a file in append mode.
	f, err := os.OpenFile(
		path.Join(t.Dir, "foo"),
		os.O_RDWR|os.O_CREATE,
		0600)

	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Make it 16 bytes long.
	err = f.Truncate(16)
	AssertEq(nil, err)

	// Seek to offset 4.
	_, err = f.Seek(4, 0)
	AssertEq(nil, err)

	// Write the range [10, 14).
	n, err = f.WriteAt([]byte("taco"), 2)
	AssertEq(nil, err)
	AssertEq(4, n)

	// We should still be at offset 4.
	offset, err := getFileOffset(f)
	AssertEq(nil, err)
	ExpectEq(4, offset)
}

func (t *MemFSTest) LargeFile() {
	var err error

	// Create a file.
	f, err := os.Create(path.Join(t.Dir, "foo"))
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Copy in large contents.
	const size = 1 << 24
	contents := bytes.Repeat([]byte{0x20}, size)

	_, err = io.Copy(f, bytes.NewReader(contents))
	AssertEq(nil, err)

	// Read the full contents of the file.
	contents, err = ioutil.ReadFile(f.Name())
	AssertEq(nil, err)
	ExpectEq(size, len(contents))
}

func (t *MemFSTest) AppendMode() {
	var err error
	var n int
	var off int64
	buf := make([]byte, 1024)

	// Create a file with some contents.
	fileName := path.Join(t.Dir, memfs.CheckFileOpenFlagsFileName)
	err = ioutil.WriteFile(fileName, []byte("Jello, "), 0600)
	AssertEq(nil, err)

	// Open the file in append mode.
	f, err := os.OpenFile(fileName, os.O_RDWR|os.O_APPEND, 0600)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)
	t.checkOpenFlagsXattr(fileName, fusekernel.OpenReadWrite)

	// Seek to somewhere silly and then write.
	off, err = f.Seek(2, 0)
	AssertEq(nil, err)
	AssertEq(2, off)

	n, err = f.Write([]byte("world!"))
	AssertEq(nil, err)
	AssertEq(6, n)

	// The offset should have been updated to point at the end of the file.
	off, err = getFileOffset(f)
	AssertEq(nil, err)
	ExpectEq(13, off)

	// Read back the contents of the file, which should be correct even though we
	// seeked to a silly place before writing the world part.
	//
	// Linux's support for pwrite is buggy; the pwrite(2) man page says this:
	//
	//     POSIX requires that opening a file with the O_APPEND flag should have
	//     no affect on the location at which pwrite() writes data.  However, on
	//     Linux,  if  a  file  is opened with O_APPEND, pwrite() appends data to
	//     the end of the file, regardless of the value of offset.
	//
	// So we allow either the POSIX result or the Linux result.
	n, err = f.ReadAt(buf, 0)
	AssertEq(io.EOF, err)
	ExpectThat(string(buf[:n]), AnyOf("Jello, world!", "Jello, world!H"))
}

func (t *MemFSTest) ReadsPastEndOfFile() {
	var err error
	var n int
	buf := make([]byte, 1024)

	// Create a file.
	f, err := os.Create(path.Join(t.Dir, "foo"))
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Give it some contents.
	n, err = f.Write([]byte("taco"))
	AssertEq(nil, err)
	AssertEq(4, n)

	// Read a range overlapping EOF.
	n, err = f.ReadAt(buf[:4], 2)
	AssertEq(io.EOF, err)
	ExpectEq(2, n)
	ExpectEq("co", string(buf[:n]))

	// Read a range starting at EOF.
	n, err = f.ReadAt(buf[:4], 4)
	AssertEq(io.EOF, err)
	ExpectEq(0, n)
	ExpectEq("", string(buf[:n]))

	// Read a range starting past EOF.
	n, err = f.ReadAt(buf[:4], 100)
	AssertEq(io.EOF, err)
	ExpectEq(0, n)
	ExpectEq("", string(buf[:n]))
}

func (t *MemFSTest) Truncate_Smaller() {
	var err error
	fileName := path.Join(t.Dir, memfs.CheckFileOpenFlagsFileName)

	// Create a file.
	err = ioutil.WriteFile(fileName, []byte("taco"), 0600)
	AssertEq(nil, err)

	// Open it for modification.
	f, err := os.OpenFile(fileName, os.O_RDWR, 0)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)
	t.checkOpenFlagsXattr(fileName, fusekernel.OpenReadWrite)

	// Truncate it.
	err = f.Truncate(2)
	AssertEq(nil, err)

	// Stat it.
	fi, err := f.Stat()
	AssertEq(nil, err)
	ExpectEq(2, fi.Size())

	// Read the contents.
	contents, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq("ta", string(contents))
	t.checkOpenFlagsXattr(fileName, fusekernel.OpenReadOnly)
}

func (t *MemFSTest) Truncate_SameSize() {
	var err error
	fileName := path.Join(t.Dir, "foo")

	// Create a file.
	err = ioutil.WriteFile(fileName, []byte("taco"), 0600)
	AssertEq(nil, err)

	// Open it for modification.
	f, err := os.OpenFile(fileName, os.O_RDWR, 0)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Truncate it.
	err = f.Truncate(4)
	AssertEq(nil, err)

	// Stat it.
	fi, err := f.Stat()
	AssertEq(nil, err)
	ExpectEq(4, fi.Size())

	// Read the contents.
	contents, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq("taco", string(contents))
}

func (t *MemFSTest) Truncate_Larger() {
	var err error
	fileName := path.Join(t.Dir, "foo")

	// Create a file.
	err = ioutil.WriteFile(fileName, []byte("taco"), 0600)
	AssertEq(nil, err)

	// Open it for modification.
	f, err := os.OpenFile(fileName, os.O_RDWR, 0)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Truncate it.
	err = f.Truncate(6)
	AssertEq(nil, err)

	// Stat it.
	fi, err := f.Stat()
	AssertEq(nil, err)
	ExpectEq(6, fi.Size())

	// Read the contents.
	contents, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq("taco\x00\x00", string(contents))
}

func (t *MemFSTest) Chmod() {
	var err error
	fileName := path.Join(t.Dir, "foo")

	// Create a file.
	err = ioutil.WriteFile(fileName, []byte(""), 0600)
	AssertEq(nil, err)

	// Chmod it.
	err = os.Chmod(fileName, 0754)
	AssertEq(nil, err)

	// Stat it.
	fi, err := os.Stat(fileName)
	AssertEq(nil, err)
	ExpectEq(0754, fi.Mode())
}

func (t *MemFSTest) Chtimes() {
	var err error
	fileName := path.Join(t.Dir, "foo")

	// Create a file.
	err = ioutil.WriteFile(fileName, []byte(""), 0600)
	AssertEq(nil, err)

	// Chtimes it.
	expectedMtime := time.Now().Add(123 * time.Second).Round(time.Second)
	err = os.Chtimes(fileName, time.Now(), expectedMtime)
	AssertEq(nil, err)

	// Stat it.
	fi, err := os.Stat(fileName)
	AssertEq(nil, err)
	ExpectThat(fi, fusetesting.MtimeIsWithin(expectedMtime, timeSlop))
}

func (t *MemFSTest) ReadDirWhileModifying() {
	dirName := path.Join(t.Dir, "dir")
	createFile := func(name string) {
		AssertEq(nil, ioutil.WriteFile(path.Join(dirName, name), []byte{}, 0400))
	}

	// Create a directory.
	err := os.Mkdir(dirName, 0700)
	AssertEq(nil, err)

	// Open the directory.
	d, err := os.Open(dirName)
	t.ToClose = append(t.ToClose, d)
	AssertEq(nil, err)

	// Add four files.
	createFile("foo")
	createFile("bar")
	createFile("baz")
	createFile("qux")

	// Read one entry from the directory.
	names, err := d.Readdirnames(1)
	AssertEq(nil, err)
	AssertThat(names, ElementsAre("foo"))

	// Make two holes in the directory.
	AssertEq(nil, os.Remove(path.Join(dirName, "foo")))
	AssertEq(nil, os.Remove(path.Join(dirName, "baz")))

	// Add a bunch of files to the directory.
	createFile("blah_0")
	createFile("blah_1")
	createFile("blah_2")
	createFile("blah_3")
	createFile("blah_4")

	// Continue reading from the directory, noting the names we see.
	namesSeen := make(map[string]bool)
	for {
		names, err = d.Readdirnames(1)
		for _, n := range names {
			namesSeen[n] = true
		}

		if err == io.EOF {
			break
		}

		AssertEq(nil, err)
	}

	// Posix requires that we should have seen bar and qux, which we didn't
	// delete.
	ExpectTrue(namesSeen["bar"])
	ExpectTrue(namesSeen["qux"])
}

func (t *MemFSTest) CreateSymlink() {
	var fi os.FileInfo
	var err error

	symlinkName := path.Join(t.Dir, "foo")
	target := "taco/burrito"

	// Create the link.
	err = os.Symlink(target, symlinkName)
	AssertEq(nil, err)

	// Stat the link.
	fi, err = os.Lstat(symlinkName)
	AssertEq(nil, err)

	ExpectEq("foo", fi.Name())
	ExpectEq(0444|os.ModeSymlink, fi.Mode())

	// Read the link.
	actual, err := os.Readlink(symlinkName)
	AssertEq(nil, err)
	ExpectEq(target, actual)

	// Read the parent directory.
	entries, err := fusetesting.ReadDirPicky(t.Dir)
	AssertEq(nil, err)
	AssertEq(1, len(entries))

	fi = entries[0]
	ExpectEq("foo", fi.Name())
	ExpectEq(0444|os.ModeSymlink, fi.Mode())
}

func (t *MemFSTest) CreateSymlink_AlreadyExists() {
	var err error

	// Create a file and a directory.
	fileName := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(fileName, []byte{}, 0400)
	AssertEq(nil, err)

	dirName := path.Join(t.Dir, "bar")
	err = os.Mkdir(dirName, 0700)
	AssertEq(nil, err)

	// Create an existing symlink.
	symlinkName := path.Join(t.Dir, "baz")
	err = os.Symlink("blah", symlinkName)
	AssertEq(nil, err)

	// Symlinking on top of any of them should fail.
	names := []string{
		fileName,
		dirName,
		symlinkName,
	}

	for _, n := range names {
		err = os.Symlink("blah", n)
		ExpectThat(err, Error(HasSubstr("exists")))
	}
}

func (t *MemFSTest) ReadLink_NonExistent() {
	_, err := os.Readlink(path.Join(t.Dir, "foo"))
	ExpectTrue(os.IsNotExist(err), "err: %v", err)
}

func (t *MemFSTest) ReadLink_NotASymlink() {
	var err error

	// Create a file and a directory.
	fileName := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(fileName, []byte{}, 0400)
	AssertEq(nil, err)

	dirName := path.Join(t.Dir, "bar")
	err = os.Mkdir(dirName, 0700)
	AssertEq(nil, err)

	// Reading either of them as a symlink should fail.
	names := []string{
		fileName,
		dirName,
	}

	for _, n := range names {
		_, err = os.Readlink(n)
		ExpectThat(err, Error(HasSubstr("invalid argument")))
	}
}

func (t *MemFSTest) DeleteSymlink() {
	var err error

	symlinkName := path.Join(t.Dir, "foo")
	target := "taco/burrito"

	// Create the link.
	err = os.Symlink(target, symlinkName)
	AssertEq(nil, err)

	// Remove it.
	err = os.Remove(symlinkName)
	AssertEq(nil, err)

	// Statting should now fail.
	_, err = os.Lstat(symlinkName)
	ExpectTrue(os.IsNotExist(err), "err: %v", err)

	// Read the parent directory.
	entries, err := fusetesting.ReadDirPicky(t.Dir)

	AssertEq(nil, err)
	ExpectThat(entries, ElementsAre())
}

func (t *MemFSTest) CreateHardlink() {
	var fi os.FileInfo
	var err error

	// Create a file.
	fileName := path.Join(t.Dir, "regular_file")
	const contents = "Hello\x00world"

	err = ioutil.WriteFile(fileName, []byte(contents), 0444)
	AssertEq(nil, err)

	// Clean up the file at the end.
	defer func() {
		err := os.Remove(fileName)
		AssertEq(nil, err)
	}()

	// Create a link to the file.
	linkName := path.Join(t.Dir, "foo")
	err = os.Link(fileName, linkName)
	AssertEq(nil, err)

	// Clean up the file at the end.
	defer func() {
		err := os.Remove(linkName)
		AssertEq(nil, err)
	}()

	// Stat the link.
	fi, err = os.Lstat(linkName)
	AssertEq(nil, err)

	ExpectEq("foo", fi.Name())
	ExpectEq(0444, fi.Mode())

	// Read the parent directory.
	entries, err := fusetesting.ReadDirPicky(t.Dir)
	AssertEq(nil, err)
	AssertEq(2, len(entries))

	fi = entries[0]
	ExpectEq("foo", fi.Name())
	ExpectEq(0444, fi.Mode())

	fi = entries[1]
	ExpectEq("regular_file", fi.Name())
	ExpectEq(0444, fi.Mode())
}

func (t *MemFSTest) CreateHardlink_AlreadyExists() {
	var err error

	// Create a file and a directory.
	fileName := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(fileName, []byte{}, 0400)
	AssertEq(nil, err)

	dirName := path.Join(t.Dir, "bar")
	err = os.Mkdir(dirName, 0700)
	AssertEq(nil, err)

	// Create an existing symlink.
	symlinkName := path.Join(t.Dir, "baz")
	err = os.Symlink("blah", symlinkName)
	AssertEq(nil, err)

	// Create another link to the file.
	hardlinkName := path.Join(t.Dir, "qux")
	err = os.Link(fileName, hardlinkName)
	AssertEq(nil, err)

	// Symlinking on top of any of them should fail.
	names := []string{
		fileName,
		dirName,
		symlinkName,
		hardlinkName,
	}

	for _, n := range names {
		err = os.Link(fileName, n)
		ExpectThat(err, Error(HasSubstr("exists")))
	}
}

func (t *MemFSTest) DeleteHardlink() {
	var fi os.FileInfo
	var err error

	// Create a file.
	fileName := path.Join(t.Dir, "regular_file")
	const contents = "Hello\x00world"

	err = ioutil.WriteFile(fileName, []byte(contents), 0444)
	AssertEq(nil, err)

	// Step #1: We will create and remove a link and verify that
	// after removal everything is as expected.

	// Create a link to the file.
	linkName := path.Join(t.Dir, "foo")
	err = os.Link(fileName, linkName)
	AssertEq(nil, err)

	// Remove the link.
	err = os.Remove(linkName)
	AssertEq(nil, err)

	// Stat the link.
	fi, err = os.Lstat(linkName)
	AssertEq(nil, fi)
	ExpectThat(err, Error(HasSubstr("no such file")))

	// Read the parent directory.
	entries, err := fusetesting.ReadDirPicky(t.Dir)
	AssertEq(nil, err)
	AssertEq(1, len(entries))

	fi = entries[0]
	ExpectEq("regular_file", fi.Name())
	ExpectEq(0444, fi.Mode())

	// Step #2: We will create a link and remove the original file subsequently
	// and verify that after removal everything is as expected.

	// Create a link to the file.
	linkName = path.Join(t.Dir, "bar")
	err = os.Link(fileName, linkName)
	AssertEq(nil, err)

	// Remove the original file.
	err = os.Remove(fileName)
	AssertEq(nil, err)

	// Stat the link.
	fi, err = os.Lstat(linkName)
	AssertEq(nil, err)
	ExpectEq("bar", fi.Name())
	ExpectEq(0444, fi.Mode())

	// Stat the original file.
	fi, err = os.Lstat(fileName)
	AssertEq(nil, fi)
	ExpectThat(err, Error(HasSubstr("no such file")))

	// Read the parent directory.
	entries, err = fusetesting.ReadDirPicky(t.Dir)
	AssertEq(nil, err)
	AssertEq(1, len(entries))

	fi = entries[0]
	ExpectEq("bar", fi.Name())
	ExpectEq(0444, fi.Mode())

	// Cleanup.
	err = os.Remove(linkName)
	AssertEq(nil, err)
}

func (t *MemFSTest) ReadHardlink() {
	var err error

	// Create a file.
	fileName := path.Join(t.Dir, "regular_file")
	const contents = "Hello\x00world"

	err = ioutil.WriteFile(fileName, []byte(contents), 0444)
	AssertEq(nil, err)

	// Clean up the file at the end.
	defer func() {
		err := os.Remove(fileName)
		AssertEq(nil, err)
	}()

	// Create a link to the file.
	linkName := path.Join(t.Dir, "foo")
	err = os.Link(fileName, linkName)
	AssertEq(nil, err)

	// Clean up the file at the end.
	defer func() {
		err := os.Remove(linkName)
		AssertEq(nil, err)
	}()

	// Read files.
	original, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	linked, err := ioutil.ReadFile(linkName)
	AssertEq(nil, err)

	// Check if the bytes are the same.
	AssertEq(true, reflect.DeepEqual(original, linked))
}

func (t *MemFSTest) CreateInParallel_NoTruncate() {
	fusetesting.RunCreateInParallelTest_NoTruncate(t.Ctx, t.Dir)
}

func (t *MemFSTest) CreateInParallel_Truncate() {
	fusetesting.RunCreateInParallelTest_Truncate(t.Ctx, t.Dir)
}

func (t *MemFSTest) CreateInParallel_Exclusive() {
	fusetesting.RunCreateInParallelTest_Exclusive(t.Ctx, t.Dir)
}

func (t *MemFSTest) MkdirInParallel() {
	fusetesting.RunMkdirInParallelTest(t.Ctx, t.Dir)
}

func (t *MemFSTest) SymlinkInParallel() {
	fusetesting.RunSymlinkInParallelTest(t.Ctx, t.Dir)
}

func (t *MemFSTest) HardlinkInParallel() {
	fusetesting.RunHardlinkInParallelTest(t.Ctx, t.Dir)
}

func (t *MemFSTest) RenameWithinDir_File() {
	var err error

	// Create a parent directory.
	parentPath := path.Join(t.Dir, "parent")

	err = os.Mkdir(parentPath, 0700)
	AssertEq(nil, err)

	// And a file within it.
	oldPath := path.Join(parentPath, "foo")

	err = ioutil.WriteFile(oldPath, []byte("taco"), 0400)
	AssertEq(nil, err)

	// Rename it.
	newPath := path.Join(parentPath, "bar")

	err = os.Rename(oldPath, newPath)
	AssertEq(nil, err)

	// The old name shouldn't work.
	_, err = os.Stat(oldPath)
	ExpectTrue(os.IsNotExist(err), "err: %v", err)

	_, err = ioutil.ReadFile(oldPath)
	ExpectTrue(os.IsNotExist(err), "err: %v", err)

	// The new name should.
	fi, err := os.Stat(newPath)
	AssertEq(nil, err)
	ExpectEq(len("taco"), fi.Size())
	ExpectEq(os.FileMode(0400), fi.Mode())

	contents, err := ioutil.ReadFile(newPath)
	AssertEq(nil, err)
	ExpectEq("taco", string(contents))

	// There should only be the new entry in the directory.
	entries, err := fusetesting.ReadDirPicky(parentPath)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi = entries[0]

	ExpectEq(path.Base(newPath), fi.Name())
	ExpectEq(os.FileMode(0400), fi.Mode())
}

func (t *MemFSTest) RenameWithinDir_Directory() {
	var err error

	// Create a parent directory.
	parentPath := path.Join(t.Dir, "parent")

	err = os.Mkdir(parentPath, 0700)
	AssertEq(nil, err)

	// And a non-empty directory within it.
	oldPath := path.Join(parentPath, "foo")

	err = os.MkdirAll(path.Join(oldPath, "child"), 0700)
	AssertEq(nil, err)

	// Rename it.
	newPath := path.Join(parentPath, "bar")

	err = os.Rename(oldPath, newPath)
	AssertEq(nil, err)

	// The old name shouldn't work.
	_, err = os.Stat(oldPath)
	ExpectTrue(os.IsNotExist(err), "err: %v", err)

	// The new name should.
	fi, err := os.Stat(newPath)
	AssertEq(nil, err)
	ExpectEq(os.FileMode(0700)|os.ModeDir, fi.Mode())

	// There should only be the new entry in the parent.
	entries, err := fusetesting.ReadDirPicky(parentPath)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi = entries[0]

	ExpectEq(path.Base(newPath), fi.Name())
	ExpectEq(os.FileMode(0700)|os.ModeDir, fi.Mode())

	// And the child should still be present.
	entries, err = fusetesting.ReadDirPicky(newPath)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi = entries[0]

	ExpectEq("child", fi.Name())
	ExpectEq(os.FileMode(0700)|os.ModeDir, fi.Mode())
}

func (t *MemFSTest) RenameWithinDir_SameName() {
	var err error

	// Create a parent directory.
	parentPath := path.Join(t.Dir, "parent")

	err = os.Mkdir(parentPath, 0700)
	AssertEq(nil, err)

	// And a file within it.
	filePath := path.Join(parentPath, "foo")

	err = ioutil.WriteFile(filePath, []byte("taco"), 0400)
	AssertEq(nil, err)

	// Attempt to rename it.
	err = os.Rename(filePath, filePath)
	AssertEq(nil, err)

	// The file should still exist.
	contents, err := ioutil.ReadFile(filePath)
	AssertEq(nil, err)
	ExpectEq("taco", string(contents))

	// There should only be the one entry in the directory.
	entries, err := fusetesting.ReadDirPicky(parentPath)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi := entries[0]

	ExpectEq(path.Base(filePath), fi.Name())
	ExpectEq(os.FileMode(0400), fi.Mode())
}

func (t *MemFSTest) RenameAcrossDirs_File() {
	var err error

	// Create two parent directories.
	oldParentPath := path.Join(t.Dir, "old")
	newParentPath := path.Join(t.Dir, "new")

	err = os.Mkdir(oldParentPath, 0700)
	AssertEq(nil, err)

	err = os.Mkdir(newParentPath, 0700)
	AssertEq(nil, err)

	// And a file within the first.
	oldPath := path.Join(oldParentPath, "foo")

	err = ioutil.WriteFile(oldPath, []byte("taco"), 0400)
	AssertEq(nil, err)

	// Rename it.
	newPath := path.Join(newParentPath, "bar")

	err = os.Rename(oldPath, newPath)
	AssertEq(nil, err)

	// The old name shouldn't work.
	_, err = os.Stat(oldPath)
	ExpectTrue(os.IsNotExist(err), "err: %v", err)

	_, err = ioutil.ReadFile(oldPath)
	ExpectTrue(os.IsNotExist(err), "err: %v", err)

	// The new name should.
	fi, err := os.Stat(newPath)
	AssertEq(nil, err)
	ExpectEq(len("taco"), fi.Size())
	ExpectEq(os.FileMode(0400), fi.Mode())

	contents, err := ioutil.ReadFile(newPath)
	AssertEq(nil, err)
	ExpectEq("taco", string(contents))

	// Check the old parent.
	entries, err := fusetesting.ReadDirPicky(oldParentPath)
	AssertEq(nil, err)
	AssertEq(0, len(entries))

	// And the new one.
	entries, err = fusetesting.ReadDirPicky(newParentPath)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi = entries[0]

	ExpectEq(path.Base(newPath), fi.Name())
	ExpectEq(os.FileMode(0400), fi.Mode())
}

func (t *MemFSTest) RenameAcrossDirs_Directory() {
	var err error

	// Create two parent directories.
	oldParentPath := path.Join(t.Dir, "old")
	newParentPath := path.Join(t.Dir, "new")

	err = os.Mkdir(oldParentPath, 0700)
	AssertEq(nil, err)

	err = os.Mkdir(newParentPath, 0700)
	AssertEq(nil, err)

	// And a non-empty directory within the first.
	oldPath := path.Join(oldParentPath, "foo")

	err = os.MkdirAll(path.Join(oldPath, "child"), 0700)
	AssertEq(nil, err)

	// Rename it.
	newPath := path.Join(newParentPath, "bar")

	err = os.Rename(oldPath, newPath)
	AssertEq(nil, err)

	// The old name shouldn't work.
	_, err = os.Stat(oldPath)
	ExpectTrue(os.IsNotExist(err), "err: %v", err)

	// The new name should.
	fi, err := os.Stat(newPath)
	AssertEq(nil, err)
	ExpectEq(os.FileMode(0700)|os.ModeDir, fi.Mode())

	// And the child should still be present.
	entries, err := fusetesting.ReadDirPicky(newPath)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi = entries[0]

	ExpectEq("child", fi.Name())
	ExpectEq(os.FileMode(0700)|os.ModeDir, fi.Mode())

	// Check the old parent.
	entries, err = fusetesting.ReadDirPicky(oldParentPath)
	AssertEq(nil, err)
	AssertEq(0, len(entries))

	// And the new one.
	entries, err = fusetesting.ReadDirPicky(newParentPath)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi = entries[0]

	ExpectEq(path.Base(newPath), fi.Name())
	ExpectEq(os.FileMode(0700)|os.ModeDir, fi.Mode())
}

func (t *MemFSTest) RenameOutOfFileSystem() {
	var err error

	// Create a file.
	oldPath := path.Join(t.Dir, "foo")

	err = ioutil.WriteFile(oldPath, []byte("taco"), 0400)
	AssertEq(nil, err)

	// Attempt to move it out of the file system.
	tempDir, err := ioutil.TempDir("", "memfs_test")
	AssertEq(nil, err)
	defer os.RemoveAll(tempDir)

	err = os.Rename(oldPath, path.Join(tempDir, "bar"))
	ExpectThat(err, Error(HasSubstr("cross-device")))
}

func (t *MemFSTest) RenameIntoFileSystem() {
	var err error

	// Create a file outside of our file system.
	f, err := ioutil.TempFile("", "memfs_test")
	AssertEq(nil, err)
	defer f.Close()

	oldPath := f.Name()
	defer os.Remove(oldPath)

	// Attempt to move it into the file system.
	err = os.Rename(oldPath, path.Join(t.Dir, "bar"))
	ExpectThat(err, Error(HasSubstr("cross-device")))
}

func (t *MemFSTest) RenameOverExistingFile() {
	var err error

	// Create two files.
	oldPath := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(oldPath, []byte("taco"), 0400)
	AssertEq(nil, err)

	newPath := path.Join(t.Dir, "bar")
	err = ioutil.WriteFile(newPath, []byte("burrito"), 0600)
	AssertEq(nil, err)

	// Rename one over the other.
	err = os.Rename(oldPath, newPath)
	AssertEq(nil, err)

	// Check the file contents.
	contents, err := ioutil.ReadFile(newPath)
	AssertEq(nil, err)
	ExpectEq("taco", string(contents))

	// And the parent listing.
	entries, err := fusetesting.ReadDirPicky(t.Dir)
	AssertEq(nil, err)
	AssertEq(1, len(entries))
	fi := entries[0]

	ExpectEq(path.Base(newPath), fi.Name())
	ExpectEq(os.FileMode(0400), fi.Mode())
	ExpectEq(len("taco"), fi.Size())
}

func (t *MemFSTest) RenameOverExistingDirectory() {
	var err error

	// Create two directories, the first non-empty.
	oldPath := path.Join(t.Dir, "foo")
	err = os.MkdirAll(path.Join(oldPath, "child"), 0700)
	AssertEq(nil, err)

	newPath := path.Join(t.Dir, "bar")
	err = os.Mkdir(newPath, 0600)
	AssertEq(nil, err)

	// Renaming over the non-empty directory shouldn't work.
	err = os.Rename(newPath, oldPath)
	ExpectThat(err, Error(MatchesRegexp("not empty|file exists")))

	// As of Go 1.8 this shouldn't work the other way around either (see
	// https://github.com/golang/go/commit/321c312).
	if atLeastGo18 {
		err = os.Rename(oldPath, newPath)
		ExpectThat(err, Error(HasSubstr("file exists")))

		// Both should still be present in the parent listing.
		entries, err := fusetesting.ReadDirPicky(t.Dir)
		AssertEq(nil, err)
		ExpectEq(2, len(entries))
	}
}

func (t *MemFSTest) RenameOverExisting_WrongType() {
	var err error

	// Create a file and a directory.
	filePath := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(filePath, []byte("taco"), 0400)
	AssertEq(nil, err)

	dirPath := path.Join(t.Dir, "bar")
	err = os.Mkdir(dirPath, 0700)
	AssertEq(nil, err)

	// Renaming either over the other shouldn't work.
	err = os.Rename(filePath, dirPath)
	ExpectThat(err, Error(MatchesRegexp("is a directory|file exists")))

	err = os.Rename(dirPath, filePath)
	ExpectThat(err, Error(HasSubstr("not a directory")))
}

func (t *MemFSTest) RenameNonExistentFile() {
	var err error

	err = os.Rename(path.Join(t.Dir, "foo"), path.Join(t.Dir, "bar"))
	ExpectThat(err, Error(HasSubstr("no such file")))
}

func (t *MemFSTest) NoXattrs() {
	var err error
	var sz int
	var smallBuf [1]byte

	// Create a file.
	filePath := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(filePath, []byte("taco"), 0400)
	AssertEq(nil, err)

	// List xattr names.
	sz, err = unix.Listxattr(filePath, nil)
	AssertEq(nil, err)
	AssertEq(0, sz)

	// Attempt to read a non-existent xattr.
	_, err = unix.Getxattr(filePath, "foo", nil)
	ExpectEq(fuse.ENOATTR, err)

	// Attempt to read a non-existent xattr with a buf.
	_, err = unix.Getxattr(filePath, "foo", smallBuf[:])
	ExpectEq(fuse.ENOATTR, err)

	// List xattr names with a buf.
	sz, err = unix.Listxattr(filePath, smallBuf[:])
	AssertEq(nil, err)
	ExpectEq(0, sz)
}

func (t *MemFSTest) SetXAttr() {
	var err error
	var sz int
	var buf [1024]byte

	// Create a file.
	filePath := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(filePath, []byte("taco"), 0600)
	AssertEq(nil, err)

	err = unix.Setxattr(filePath, "foo", []byte("bar"), unix.XATTR_REPLACE)
	AssertEq(fuse.ENOATTR, err)

	err = unix.Setxattr(filePath, "foo", []byte("bar"), unix.XATTR_CREATE)
	AssertEq(nil, err)

	// List xattr with a buf that is too small.
	_, err = unix.Listxattr(filePath, buf[:1])
	ExpectEq(unix.ERANGE, err)

	// List xattr to ask for name size.
	sz, err = unix.Listxattr(filePath, nil)
	AssertEq(nil, err)
	AssertEq(4, sz)

	// List xattr names.
	sz, err = unix.Listxattr(filePath, buf[:sz])
	AssertEq(nil, err)
	AssertEq(4, sz)
	AssertEq("foo\000", string(buf[:sz]))

	// Read xattr with a buf that is too small.
	_, err = unix.Getxattr(filePath, "foo", buf[:1])
	ExpectEq(unix.ERANGE, err)

	// Read xattr to ask for value size.
	sz, err = unix.Getxattr(filePath, "foo", nil)
	AssertEq(nil, err)
	AssertEq(3, sz)

	// Read xattr value.
	sz, err = unix.Getxattr(filePath, "foo", buf[:sz])
	AssertEq(nil, err)
	AssertEq(3, sz)
	AssertEq("bar", string(buf[:sz]))
}

func (t *MemFSTest) RemoveXAttr() {
	var err error

	// Create a file
	filePath := path.Join(t.Dir, "foo")
	err = ioutil.WriteFile(filePath, []byte("taco"), 0600)
	AssertEq(nil, err)

	err = unix.Removexattr(filePath, "foo")
	AssertEq(fuse.ENOATTR, err)

	err = unix.Setxattr(filePath, "foo", []byte("bar"), unix.XATTR_CREATE)
	AssertEq(nil, err)

	err = unix.Removexattr(filePath, "foo")
	AssertEq(nil, err)

	_, err = unix.Getxattr(filePath, "foo", nil)
	AssertEq(fuse.ENOATTR, err)
}

////////////////////////////////////////////////////////////////////////
// Mknod
////////////////////////////////////////////////////////////////////////

type MknodTest struct {
	memFSTest
}

func init() { RegisterTestSuite(&MknodTest{}) }

func (t *MknodTest) File() {
	// mknod(2) only works for root on OS X.
	if runtime.GOOS == "darwin" {
		return
	}

	var err error
	p := path.Join(t.Dir, "foo")

	// Create
	err = syscall.Mknod(p, syscall.S_IFREG|0641, 0)
	AssertEq(nil, err)

	// Stat
	fi, err := os.Stat(p)
	AssertEq(nil, err)

	ExpectEq(path.Base(p), fi.Name())
	ExpectEq(0, fi.Size())
	ExpectEq(os.FileMode(0641), fi.Mode())

	// Read
	contents, err := ioutil.ReadFile(p)
	AssertEq(nil, err)
	ExpectEq("", string(contents))
}

func (t *MknodTest) Directory() {
	// mknod(2) only works for root on OS X.
	if runtime.GOOS == "darwin" {
		return
	}

	var err error
	p := path.Join(t.Dir, "foo")

	// Quoth `man 2 mknod`: "Under Linux, this call cannot be used to create
	// directories."
	err = syscall.Mknod(p, syscall.S_IFDIR|0700, 0)
	ExpectEq(syscall.EPERM, err)
}

func (t *MknodTest) AlreadyExists() {
	// mknod(2) only works for root on OS X.
	if runtime.GOOS == "darwin" {
		return
	}

	var err error
	p := path.Join(t.Dir, "foo")

	// Create (first)
	err = ioutil.WriteFile(p, []byte("taco"), 0600)
	AssertEq(nil, err)

	// Create (second)
	err = syscall.Mknod(p, syscall.S_IFREG|0600, 0)
	ExpectEq(syscall.EEXIST, err)

	// Read
	contents, err := ioutil.ReadFile(p)
	AssertEq(nil, err)
	ExpectEq("taco", string(contents))
}

func (t *MknodTest) NonExistentParent() {
	// mknod(2) only works for root on OS X.
	if runtime.GOOS == "darwin" {
		return
	}

	var err error
	p := path.Join(t.Dir, "foo/bar")

	err = syscall.Mknod(p, syscall.S_IFREG|0600, 0)
	ExpectEq(syscall.ENOENT, err)
}

func (t *MknodTest) Fallocate_Larger() {
	var err error
	fileName := path.Join(t.Dir, "foo")

	// Create a file.
	err = ioutil.WriteFile(fileName, []byte("taco"), 0600)
	AssertEq(nil, err)

	// Open it for modification.
	f, err := os.OpenFile(fileName, os.O_RDWR, 0)
	t.ToClose = append(t.ToClose, f)
	AssertEq(nil, err)

	// Truncate it.
	err = fallocate.Fallocate(f, 5, 1)
	AssertEq(nil, err)

	// Stat it.
	fi, err := f.Stat()
	AssertEq(nil, err)
	ExpectEq(6, fi.Size())

	// Read the contents.
	contents, err := ioutil.ReadFile(fileName)
	AssertEq(nil, err)
	ExpectEq("taco\x00\x00", string(contents))
}