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testing/fstest: new package for testing file system code

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This change adds basic test helpers for file system code.

The type MapFS is a simple map-based file system for use when
exercising general file system code.

The func TestFS tests a file system implementation.

For #41190.

Change-Id: I5a2036f57e733915ad508651ad7317749794423c
Reviewed-on: https://go-review.googlesource.com/c/go/+/243910
Trust: Russ Cox <rsc@golang.org>
Reviewed-by: Rob Pike <r@golang.org>
This commit is contained in:
Russ Cox 2020-07-06 10:58:05 -04:00
parent d595712540
commit 90c924ff88
4 changed files with 589 additions and 1 deletions
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3
src/go/build/deps_test.go
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@ -468,7 +468,8 @@ var depsRules = `
# Test-only
log
< testing/iotest;
< testing/iotest
< testing/fstest;
FMT, flag, math/rand
< testing/quick;

204
src/testing/fstest/mapfs.go Normal file
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@ -0,0 +1,204 @@
// Copyright 2020 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.
package fstest
import (
"io"
"io/fs"
"path"
"sort"
"strings"
"time"
)
// A MapFS is a simple in-memory file system for use in tests,
// represented as a map from path names (arguments to Open)
// to information about the files or directories they represent.
//
// The map need not include parent directories for files contained
// in the map; those will be synthesized if needed.
// But a directory can still be included by setting the MapFile.Mode's ModeDir bit;
// this may be necessary for detailed control over the directory's FileInfo
// or to create an empty directory.
//
// File system operations read directly from the map,
// so that the file system can be changed by editing the map as needed.
// An implication is that file system operations must not run concurrently
// with changes to the map, which would be a race.
// Another implication is that opening or reading a directory requires
// iterating over the entire map, so a MapFS should typically be used with not more
// than a few hundred entries or directory reads.
type MapFS map[string]*MapFile
// A MapFile describes a single file in a MapFS.
type MapFile struct {
Data []byte // file content
Mode fs.FileMode // FileInfo.Mode
ModTime time.Time // FileInfo.ModTime
Sys interface{} // FileInfo.Sys
}
var _ fs.FS = MapFS(nil)
var _ fs.File = (*openMapFile)(nil)
// Open opens the named file.
func (fsys MapFS) Open(name string) (fs.File, error) {
if !fs.ValidPath(name) {
return nil, &fs.PathError{Op: "open", Path: name, Err: fs.ErrNotExist}
}
file := fsys[name]
if file != nil && file.Mode&fs.ModeDir == 0 {
// Ordinary file
return &openMapFile{name, mapFileInfo{path.Base(name), file}, 0}, nil
}
// Directory, possibly synthesized.
// Note that file can be nil here: the map need not contain explicit parent directories for all its files.
// But file can also be non-nil, in case the user wants to set metadata for the directory explicitly.
// Either way, we need to construct the list of children of this directory.
var list []mapFileInfo
var elem string
var need = make(map[string]bool)
if name == "." {
elem = "."
for fname, f := range fsys {
i := strings.Index(fname, "/")
if i < 0 {
list = append(list, mapFileInfo{fname, f})
} else {
need[fname[:i]] = true
}
}
} else {
elem = name[strings.LastIndex(name, "/")+1:]
prefix := name + "/"
for fname, f := range fsys {
if strings.HasPrefix(fname, prefix) {
felem := fname[len(prefix):]
i := strings.Index(felem, "/")
if i < 0 {
list = append(list, mapFileInfo{felem, f})
} else {
need[fname[len(prefix):len(prefix)+i]] = true
}
}
}
// If the directory name is not in the map,
// and there are no children of the name in the map,
// then the directory is treated as not existing.
if file == nil && list == nil && len(need) == 0 {
return nil, &fs.PathError{Op: "open", Path: name, Err: fs.ErrNotExist}
}
}
for _, fi := range list {
delete(need, fi.name)
}
for name := range need {
list = append(list, mapFileInfo{name, &MapFile{Mode: fs.ModeDir}})
}
sort.Slice(list, func(i, j int) bool {
return list[i].name < list[j].name
})
if file == nil {
file = &MapFile{Mode: fs.ModeDir}
}
return &mapDir{name, mapFileInfo{elem, file}, list, 0}, nil
}
// A mapFileInfo implements fs.FileInfo and fs.DirEntry for a given map file.
type mapFileInfo struct {
name string
f *MapFile
}
func (i *mapFileInfo) Name() string { return i.name }
func (i *mapFileInfo) Size() int64 { return int64(len(i.f.Data)) }
func (i *mapFileInfo) Mode() fs.FileMode { return i.f.Mode }
func (i *mapFileInfo) Type() fs.FileMode { return i.f.Mode.Type() }
func (i *mapFileInfo) ModTime() time.Time { return i.f.ModTime }
func (i *mapFileInfo) IsDir() bool { return i.f.Mode&fs.ModeDir != 0 }
func (i *mapFileInfo) Sys() interface{} { return i.f.Sys }
func (i *mapFileInfo) Info() (fs.FileInfo, error) { return i, nil }
// An openMapFile is a regular (non-directory) fs.File open for reading.
type openMapFile struct {
path string
mapFileInfo
offset int64
}
func (f *openMapFile) Stat() (fs.FileInfo, error) { return &f.mapFileInfo, nil }
func (f *openMapFile) Close() error { return nil }
func (f *openMapFile) Read(b []byte) (int, error) {
if f.offset >= int64(len(f.f.Data)) {
return 0, io.EOF
}
if f.offset < 0 {
return 0, &fs.PathError{Op: "read", Path: f.path, Err: fs.ErrInvalid}
}
n := copy(b, f.f.Data[f.offset:])
f.offset += int64(n)
return n, nil
}
func (f *openMapFile) Seek(offset int64, whence int) (int64, error) {
switch whence {
case 0:
// offset += 0
case 1:
offset += f.offset
case 2:
offset += int64(len(f.f.Data))
}
if offset < 0 || offset > int64(len(f.f.Data)) {
return 0, &fs.PathError{Op: "seek", Path: f.path, Err: fs.ErrInvalid}
}
f.offset = offset
return offset, nil
}
func (f *openMapFile) ReadAt(b []byte, offset int64) (int, error) {
if offset < 0 || offset > int64(len(f.f.Data)) {
return 0, &fs.PathError{Op: "read", Path: f.path, Err: fs.ErrInvalid}
}
n := copy(b, f.f.Data[offset:])
if n < len(b) {
return n, io.EOF
}
return n, nil
}
// A mapDir is a directory fs.File (so also an fs.ReadDirFile) open for reading.
type mapDir struct {
path string
mapFileInfo
entry []mapFileInfo
offset int
}
func (d *mapDir) Stat() (fs.FileInfo, error) { return &d.mapFileInfo, nil }
func (d *mapDir) Close() error { return nil }
func (d *mapDir) Read(b []byte) (int, error) {
return 0, &fs.PathError{Op: "read", Path: d.path, Err: fs.ErrInvalid}
}
func (d *mapDir) ReadDir(count int) ([]fs.DirEntry, error) {
n := len(d.entry) - d.offset
if count > 0 && n > count {
n = count
}
if n == 0 && count > 0 {
return nil, io.EOF
}
list := make([]fs.DirEntry, n)
for i := range list {
list[i] = &d.entry[d.offset+i]
}
d.offset += n
return list, nil
}

19
src/testing/fstest/mapfs_test.go Normal file
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@ -0,0 +1,19 @@
// Copyright 2020 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.
package fstest
import (
"testing"
)
func TestMapFS(t *testing.T) {
m := MapFS{
"hello": {Data: []byte("hello, world\n")},
"fortune/k/ken.txt": {Data: []byte("If a program is too slow, it must have a loop.\n")},
}
if err := TestFS(m, "hello", "fortune/k/ken.txt"); err != nil {
t.Fatal(err)
}
}

364
src/testing/fstest/testfs.go Normal file
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@ -0,0 +1,364 @@
// Copyright 2020 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.
// Package fstest implements support for testing implementations and users of file systems.
package fstest
import (
"errors"
"fmt"
"io"
"io/fs"
"io/ioutil"
"sort"
"strings"
"testing/iotest"
)
// TestFS tests a file system implementation.
// It walks the entire tree of files in fsys,
// opening and checking that each file behaves correctly.
// It also checks that the file system contains at least the expected files.
//
// If TestFS finds any misbehaviors, it returns an error reporting all of them.
// The error text spans multiple lines, one per detected misbehavior.
//
// Typical usage inside a test is:
//
// if err := fstest.TestFS(myFS, "file/that/should/be/present"); err != nil {
// t.Fatal(err)
// }
//
func TestFS(fsys fs.FS, expected ...string) error {
t := fsTester{fsys: fsys}
t.checkDir(".")
t.checkOpen(".")
found := make(map[string]bool)
for _, dir := range t.dirs {
found[dir] = true
}
for _, file := range t.files {
found[file] = true
}
for _, name := range expected {
if !found[name] {
t.errorf("expected but not found: %s", name)
}
}
if len(t.errText) == 0 {
return nil
}
return errors.New("TestFS found errors:\n" + string(t.errText))
}
// An fsTester holds state for running the test.
type fsTester struct {
fsys fs.FS
errText []byte
dirs []string
files []string
}
// errorf adds an error line to errText.
func (t *fsTester) errorf(format string, args ...interface{}) {
if len(t.errText) > 0 {
t.errText = append(t.errText, '\n')
}
t.errText = append(t.errText, fmt.Sprintf(format, args...)...)
}
func (t *fsTester) openDir(dir string) fs.ReadDirFile {
f, err := t.fsys.Open(dir)
if err != nil {
t.errorf("%s: Open: %v", dir, err)
return nil
}
d, ok := f.(fs.ReadDirFile)
if !ok {
f.Close()
t.errorf("%s: Open returned File type %T, not a io.ReadDirFile", dir, f)
return nil
}
return d
}
// checkDir checks the directory dir, which is expected to exist
// (it is either the root or was found in a directory listing with IsDir true).
func (t *fsTester) checkDir(dir string) {
// Read entire directory.
t.dirs = append(t.dirs, dir)
d := t.openDir(dir)
if d == nil {
return
}
list, err := d.ReadDir(-1)
if err != nil {
d.Close()
t.errorf("%s: ReadDir(-1): %v", dir, err)
return
}
// Check all children.
var prefix string
if dir == "." {
prefix = ""
} else {
prefix = dir + "/"
}
for _, info := range list {
name := info.Name()
switch {
case name == ".", name == "..", name == "":
t.errorf("%s: ReadDir: child has invalid name: %#q", dir, name)
continue
case strings.Contains(name, "/"):
t.errorf("%s: ReadDir: child name contains slash: %#q", dir, name)
continue
case strings.Contains(name, `\`):
t.errorf("%s: ReadDir: child name contains backslash: %#q", dir, name)
continue
}
path := prefix + name
t.checkStat(path, info)
t.checkOpen(path)
if info.IsDir() {
t.checkDir(path)
} else {
t.checkFile(path)
}
}
// Check ReadDir(-1) at EOF.
list2, err := d.ReadDir(-1)
if len(list2) > 0 || err != nil {
d.Close()
t.errorf("%s: ReadDir(-1) at EOF = %d entries, %v, wanted 0 entries, nil", dir, len(list2), err)
return
}
// Check ReadDir(1) at EOF (different results).
list2, err = d.ReadDir(1)
if len(list2) > 0 || err != io.EOF {
d.Close()
t.errorf("%s: ReadDir(1) at EOF = %d entries, %v, wanted 0 entries, EOF", dir, len(list2), err)
return
}
// Check that close does not report an error.
if err := d.Close(); err != nil {
t.errorf("%s: Close: %v", dir, err)
}
// Check that closing twice doesn't crash.
// The return value doesn't matter.
d.Close()
// Reopen directory, read a second time, make sure contents match.
if d = t.openDir(dir); d == nil {
return
}
defer d.Close()
list2, err = d.ReadDir(-1)
if err != nil {
t.errorf("%s: second Open+ReadDir(-1): %v", dir, err)
return
}
t.checkDirList(dir, "first Open+ReadDir(-1) vs second Open+ReadDir(-1)", list, list2)
// Reopen directory, read a third time in pieces, make sure contents match.
if d = t.openDir(dir); d == nil {
return
}
defer d.Close()
list2 = nil
for {
n := 1
if len(list2) > 0 {
n = 2
}
frag, err := d.ReadDir(n)
if len(frag) > n {
t.errorf("%s: third Open: ReadDir(%d) after %d: %d entries (too many)", dir, n, len(list2), len(frag))
return
}
list2 = append(list2, frag...)
if err == io.EOF {
break
}
if err != nil {
t.errorf("%s: third Open: ReadDir(%d) after %d: %v", dir, n, len(list2), err)
return
}
if n == 0 {
t.errorf("%s: third Open: ReadDir(%d) after %d: 0 entries but nil error", dir, n, len(list2))
return
}
}
t.checkDirList(dir, "first Open+ReadDir(-1) vs third Open+ReadDir(1,2) loop", list, list2)
}
// formatEntry formats an fs.DirEntry into a string for error messages and comparison.
func formatEntry(entry fs.DirEntry) string {
return fmt.Sprintf("%s IsDir=%v Type=%v", entry.Name(), entry.IsDir(), entry.Type())
}
// formatInfoEntry formats an fs.FileInfo into a string like the result of formatEntry, for error messages and comparison.
func formatInfoEntry(info fs.FileInfo) string {
return fmt.Sprintf("%s IsDir=%v Type=%v", info.Name(), info.IsDir(), info.Mode().Type())
}
// formatInfo formats an fs.FileInfo into a string for error messages and comparison.
func formatInfo(info fs.FileInfo) string {
return fmt.Sprintf("%s IsDir=%v Mode=%v Size=%d ModTime=%v", info.Name(), info.IsDir(), info.Mode(), info.Size(), info.ModTime())
}
// checkStat checks that a direct stat of path matches entry,
// which was found in the parent's directory listing.
func (t *fsTester) checkStat(path string, entry fs.DirEntry) {
file, err := t.fsys.Open(path)
if err != nil {
t.errorf("%s: Open: %v", path, err)
return
}
info, err := file.Stat()
file.Close()
if err != nil {
t.errorf("%s: Stat: %v", path, err)
return
}
fentry := formatEntry(entry)
finfo := formatInfoEntry(info)
if fentry != finfo {
t.errorf("%s: mismatch:\n\tentry = %v\n\tfile.Stat() = %v", path, fentry, finfo)
}
}
// checkDirList checks that two directory lists contain the same files and file info.
// The order of the lists need not match.
func (t *fsTester) checkDirList(dir, desc string, list1, list2 []fs.DirEntry) {
old := make(map[string]fs.DirEntry)
checkMode := func(entry fs.DirEntry) {
if entry.IsDir() != (entry.Type()&fs.ModeDir != 0) {
if entry.IsDir() {
t.errorf("%s: ReadDir returned %s with IsDir() = true, Type() & ModeDir = 0", dir, entry.Name())
} else {
t.errorf("%s: ReadDir returned %s with IsDir() = false, Type() & ModeDir = ModeDir", dir, entry.Name())
}
}
}
for _, entry1 := range list1 {
old[entry1.Name()] = entry1
checkMode(entry1)
}
var diffs []string
for _, entry2 := range list2 {
entry1 := old[entry2.Name()]
if entry1 == nil {
checkMode(entry2)
diffs = append(diffs, "+ "+formatEntry(entry2))
continue
}
if formatEntry(entry1) != formatEntry(entry2) {
diffs = append(diffs, "- "+formatEntry(entry1), "+ "+formatEntry(entry2))
}
delete(old, entry2.Name())
}
for _, entry1 := range old {
diffs = append(diffs, "- "+formatEntry(entry1))
}
if len(diffs) == 0 {
return
}
sort.Slice(diffs, func(i, j int) bool {
fi := strings.Fields(diffs[i])
fj := strings.Fields(diffs[j])
// sort by name (i < j) and then +/- (j < i, because + < -)
return fi[1]+" "+fj[0] < fj[1]+" "+fi[0]
})
t.errorf("%s: diff %s:\n\t%s", dir, desc, strings.Join(diffs, "\n\t"))
}
// checkFile checks that basic file reading works correctly.
func (t *fsTester) checkFile(file string) {
t.files = append(t.files, file)
// Read entire file.
f, err := t.fsys.Open(file)
if err != nil {
t.errorf("%s: Open: %v", file, err)
return
}
data, err := ioutil.ReadAll(f)
if err != nil {
f.Close()
t.errorf("%s: Open+ReadAll: %v", file, err)
return
}
if err := f.Close(); err != nil {
t.errorf("%s: Close: %v", file, err)
}
// Check that closing twice doesn't crash.
// The return value doesn't matter.
f.Close()
// Use iotest.TestReader to check small reads, Seek, ReadAt.
f, err = t.fsys.Open(file)
if err != nil {
t.errorf("%s: second Open: %v", file, err)
return
}
defer f.Close()
if err := iotest.TestReader(f, data); err != nil {
t.errorf("%s: failed TestReader:\n\t%s", file, strings.ReplaceAll(err.Error(), "\n", "\n\t"))
}
}
func (t *fsTester) checkFileRead(file, desc string, data1, data2 []byte) {
if string(data1) != string(data2) {
t.errorf("%s: %s: different data returned\n\t%q\n\t%q", file, desc, data1, data2)
return
}
}
// checkOpen checks that various invalid forms of file's name cannot be opened.
func (t *fsTester) checkOpen(file string) {
bad := []string{
"/" + file,
file + "/.",
}
if file == "." {
bad = append(bad, "/")
}
if i := strings.Index(file, "/"); i >= 0 {
bad = append(bad,
file[:i]+"//"+file[i+1:],
file[:i]+"/./"+file[i+1:],
file[:i]+`\`+file[i+1:],
file[:i]+"/../"+file,
)
}
if i := strings.LastIndex(file, "/"); i >= 0 {
bad = append(bad,
file[:i]+"//"+file[i+1:],
file[:i]+"/./"+file[i+1:],
file[:i]+`\`+file[i+1:],
file+"/../"+file[i+1:],
)
}
for _, b := range bad {
if f, err := t.fsys.Open(b); err == nil {
f.Close()
t.errorf("%s: Open(%s) succeeded, want error", file, b)
}
}
}