// Copyright 2009 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 os_test import ( "bytes"; "fmt"; "io"; . "os"; "strings"; "testing"; ) var dot = []string{ "dir_darwin_amd64.go", "dir_linux_amd64.go", "env.go", "error.go", "file.go", "os_test.go", "time.go", "types.go", "stat_darwin_amd64.go", "stat_linux_amd64.go" } var etc = []string{ "group", "hosts", "passwd", } func size(name string, t *testing.T) uint64 { file, err := Open(name, O_RDONLY, 0); defer file.Close(); if err != nil { t.Fatal("open failed:", err); } var buf [100]byte; len := 0; for { n, e := file.Read(&buf); len += n; if e == EOF { break } if e != nil { t.Fatal("read failed:", err); } } return uint64(len) } func TestStat(t *testing.T) { dir, err := Stat("/etc/passwd"); if err != nil { t.Fatal("stat failed:", err); } if dir.Name != "passwd" { t.Error("name should be passwd; is", dir.Name); } filesize := size("/etc/passwd", t); if dir.Size != filesize { t.Error("size should be", filesize, "; is", dir.Size); } } func TestFstat(t *testing.T) { file, err1 := Open("/etc/passwd", O_RDONLY, 0); defer file.Close(); if err1 != nil { t.Fatal("open failed:", err1); } dir, err2 := file.Stat(); if err2 != nil { t.Fatal("fstat failed:", err2); } if dir.Name != "passwd" { t.Error("name should be passwd; is", dir.Name); } filesize := size("/etc/passwd", t); if dir.Size != filesize { t.Error("size should be", filesize, "; is", dir.Size); } } func TestLstat(t *testing.T) { dir, err := Lstat("/etc/passwd"); if err != nil { t.Fatal("lstat failed:", err); } if dir.Name != "passwd" { t.Error("name should be passwd; is", dir.Name); } filesize := size("/etc/passwd", t); if dir.Size != filesize { t.Error("size should be", filesize, "; is", dir.Size); } } func testReaddirnames(dir string, contents []string, t *testing.T) { file, err := Open(dir, O_RDONLY, 0); defer file.Close(); if err != nil { t.Fatalf("open %q failed: %v", dir, err); } s, err2 := file.Readdirnames(-1); if err2 != nil { t.Fatalf("readdirnames %q failed: %v", err2); } for i, m := range contents { found := false; for j, n := range s { if n == "." || n == ".." { t.Errorf("got %s in directory", n); } if m == n { if found { t.Error("present twice:", m); } found = true } } if !found { t.Error("could not find", m); } } } func testReaddir(dir string, contents []string, t *testing.T) { file, err := Open(dir, O_RDONLY, 0); defer file.Close(); if err != nil { t.Fatalf("open %q failed: %v", dir, err); } s, err2 := file.Readdir(-1); if err2 != nil { t.Fatalf("readdir %q failed: %v", dir, err2); } for i, m := range contents { found := false; for j, n := range s { if m == n.Name { if found { t.Error("present twice:", m); } found = true } } if !found { t.Error("could not find", m); } } } func TestReaddirnames(t *testing.T) { testReaddirnames(".", dot, t); testReaddirnames("/etc", etc, t); } func TestReaddir(t *testing.T) { testReaddir(".", dot, t); testReaddir("/etc", etc, t); } // Read the directory one entry at a time. func smallReaddirnames(file *File, length int, t *testing.T) []string { names := make([]string, length); count := 0; for { d, err := file.Readdirnames(1); if err != nil { t.Fatalf("readdir %q failed: %v", file.Name(), err); } if len(d) == 0 { break } names[count] = d[0]; count++; } return names[0:count] } // Check that reading a directory one entry at a time gives the same result // as reading it all at once. func TestReaddirnamesOneAtATime(t *testing.T) { dir := "/usr/bin"; // big directory that doesn't change often. file, err := Open(dir, O_RDONLY, 0); defer file.Close(); if err != nil { t.Fatalf("open %q failed: %v", dir, err); } all, err1 := file.Readdirnames(-1); if err1 != nil { t.Fatalf("readdirnames %q failed: %v", dir, err1); } file1, err2 := Open(dir, O_RDONLY, 0); if err2 != nil { t.Fatalf("open %q failed: %v", dir, err2); } small := smallReaddirnames(file1, len(all)+100, t); // +100 in case we screw up for i, n := range all { if small[i] != n { t.Errorf("small read %q %q mismatch: %v", small[i], n); } } } func TestHardLink(t *testing.T) { from, to := "hardlinktestfrom", "hardlinktestto"; Remove(from); // Just in case. file, err := Open(to, O_CREAT | O_WRONLY, 0666); if err != nil { t.Fatalf("open %q failed: %v", to, err); } defer Remove(to); if err = file.Close(); err != nil { t.Errorf("close %q failed: %v", to, err); } err = Link(to, from); if err != nil { t.Fatalf("link %q, %q failed: %v", to, from, err); } defer Remove(from); tostat, err := Stat(to); if err != nil { t.Fatalf("stat %q failed: %v", to, err); } fromstat, err := Stat(from); if err != nil { t.Fatalf("stat %q failed: %v", from, err); } if tostat.Dev != fromstat.Dev || tostat.Ino != fromstat.Ino { t.Errorf("link %q, %q did not create hard link", to, from); } } func TestSymLink(t *testing.T) { from, to := "symlinktestfrom", "symlinktestto"; Remove(from); // Just in case. file, err := Open(to, O_CREAT | O_WRONLY, 0666); if err != nil { t.Fatalf("open %q failed: %v", to, err); } defer Remove(to); if err = file.Close(); err != nil { t.Errorf("close %q failed: %v", to, err); } err = Symlink(to, from); if err != nil { t.Fatalf("symlink %q, %q failed: %v", to, from, err); } defer Remove(from); tostat, err := Stat(to); if err != nil { t.Fatalf("stat %q failed: %v", to, err); } if tostat.FollowedSymlink { t.Fatalf("stat %q claims to have followed a symlink", to); } fromstat, err := Stat(from); if err != nil { t.Fatalf("stat %q failed: %v", from, err); } if tostat.Dev != fromstat.Dev || tostat.Ino != fromstat.Ino { t.Errorf("symlink %q, %q did not create symlink", to, from); } fromstat, err = Lstat(from); if err != nil { t.Fatalf("lstat %q failed: %v", from, err); } if !fromstat.IsSymlink() { t.Fatalf("symlink %q, %q did not create symlink", to, from); } fromstat, err = Stat(from); if err != nil { t.Fatalf("stat %q failed: %v", from, err); } if !fromstat.FollowedSymlink { t.Fatalf("stat %q did not follow symlink"); } s, err := Readlink(from); if err != nil { t.Fatalf("readlink %q failed: %v", from, err); } if s != to { t.Fatalf("after symlink %q != %q", s, to); } file, err = Open(from, O_RDONLY, 0); if err != nil { t.Fatalf("open %q failed: %v", from, err); } file.Close(); } func TestLongSymlink(t *testing.T) { s := "0123456789abcdef"; s = s + s + s + s + s + s + s + s + s + s + s + s + s + s + s + s + s; from := "longsymlinktestfrom"; err := Symlink(s, from); if err != nil { t.Fatalf("symlink %q, %q failed: %v", s, from, err); } defer Remove(from); r, err := Readlink(from); if err != nil { t.Fatalf("readlink %q failed: %v", from, err); } if r != s { t.Fatalf("after symlink %q != %q", r, s); } } func TestForkExec(t *testing.T) { r, w, err := Pipe(); if err != nil { t.Fatalf("Pipe: %v", err); } pid, err := ForkExec("/bin/pwd", []string{"pwd"}, nil, "/", []*File{nil, w, Stderr}); if err != nil { t.Fatalf("ForkExec: %v", err); } w.Close(); var b bytes.Buffer; io.Copy(r, &b); output := string(b.Data()); expect := "/\n"; if output != expect { t.Errorf("exec /bin/pwd returned %q wanted %q", output, expect); } Wait(pid, 0); } func checkMode(t *testing.T, path string, mode uint32) { dir, err := Stat(path); if err != nil { t.Fatalf("Stat %q (looking for mode %#o): %s", path, mode, err); } if dir.Mode & 0777 != mode { t.Errorf("Stat %q: mode %#o want %#o", path, dir.Mode, 0777); } } func TestChmod(t *testing.T) { MkdirAll("_obj", 0777); const Path = "_obj/_TestChmod_"; fd, err := Open(Path, O_WRONLY | O_CREAT, 0666); if err != nil { t.Fatalf("create %s: %s", Path, err); } if err = Chmod(Path, 0456); err != nil { t.Fatalf("chmod %s 0456: %s", Path, err); } checkMode(t, Path, 0456); if err = fd.Chmod(0123); err != nil { t.Fatalf("fchmod %s 0123: %s", Path, err); } checkMode(t, Path, 0123); fd.Close(); Remove(Path); } func checkUidGid(t *testing.T, path string, uid, gid int) { dir, err := Stat(path); if err != nil { t.Fatalf("Stat %q (looking for uid/gid %d/%d): %s", path, uid, gid, err); } if dir.Uid != uint32(uid) { t.Errorf("Stat %q: uid %d want %d", path, dir.Uid, uid); } if dir.Gid != uint32(gid) { t.Errorf("Stat %q: gid %d want %d", path, dir.Gid, gid); } } func TestChown(t *testing.T) { // Use /tmp, not _obj, to make sure we're on a local file system, // so that the group ids returned by Getgroups will be allowed // on the file. If _obj is on NFS, the Getgroups groups are // basically useless. const Path = "/tmp/_TestChown_"; fd, err := Open(Path, O_WRONLY | O_CREAT, 0666); if err != nil { t.Fatalf("create %s: %s", Path, err); } dir, err := fd.Stat(); if err != nil { t.Fatalf("fstat %s: %s", Path, err); } defer fd.Close(); defer Remove(Path); // Can't change uid unless root, but can try // changing the group id. First try our current group. gid := Getgid(); t.Log("gid:", gid); if err = Chown(Path, -1, gid); err != nil { t.Fatalf("chown %s -1 %d: %s", Path, gid, err); } checkUidGid(t, Path, int(dir.Uid), gid); // Then try all the auxiliary groups. groups, err := Getgroups(); if err != nil { t.Fatalf("getgroups: %s", err); } t.Log("groups: ", groups); for i, g := range groups { if err = Chown(Path, -1, g); err != nil { t.Fatalf("chown %s -1 %d: %s", Path, g, err); } checkUidGid(t, Path, int(dir.Uid), g); // change back to gid to test fd.Chown if err = fd.Chown(-1, gid); err != nil { t.Fatalf("fchown %s -1 %d: %s", Path, gid, err); } checkUidGid(t, Path, int(dir.Uid), gid); } } func checkSize(t *testing.T, path string, size uint64) { dir, err := Stat(path); if err != nil { t.Fatalf("Stat %q (looking for size %d): %s", path, size, err); } if dir.Size != size { t.Errorf("Stat %q: size %d want %d", path, dir.Size, size); } } func TestTruncate(t *testing.T) { MkdirAll("_obj", 0777); const Path = "_obj/_TestTruncate_"; fd, err := Open(Path, O_WRONLY | O_CREAT, 0666); if err != nil { t.Fatalf("create %s: %s", Path, err); } checkSize(t, Path, 0); fd.Write(strings.Bytes("hello, world\n")); checkSize(t, Path, 13); fd.Truncate(10); checkSize(t, Path, 10); fd.Truncate(1024); checkSize(t, Path, 1024); fd.Truncate(0); checkSize(t, Path, 0); fd.Write(strings.Bytes("surprise!")); checkSize(t, Path, 13 + 9); // wrote at offset past where hello, world was. fd.Close(); Remove(Path); } func TestChdirAndGetwd(t *testing.T) { fd, err := Open(".", O_RDONLY, 0); if err != nil { t.Fatalf("Open .: %s", err); } // These are chosen carefully not to be symlinks on a Mac // (unlike, say, /var, /etc, and /tmp). dirs := []string{ "/bin", "/", "/usr/bin" }; for mode := 0; mode < 2; mode++ { for i, d := range dirs { if mode == 0 { err = Chdir(d); } else { fd1, err := Open(d, O_RDONLY, 0); if err != nil { t.Errorf("Open %s: %s", d, err); continue; } err = fd1.Chdir(); fd1.Close(); } pwd, err1 := Getwd(); err2 := fd.Chdir(); if err2 != nil { // We changed the current directory and cannot go back. // Don't let the tests continue; they'll scribble // all over some other directory. fmt.Fprintf(Stderr, "fchdir back to dot failed: %s\n", err2); Exit(1); } if err != nil { fd.Close(); t.Fatalf("Chdir %s: %s", d, err); } if err1 != nil { fd.Close(); t.Fatalf("Getwd in %s: %s", d, err1); } if pwd != d { fd.Close(); t.Fatalf("Getwd returned %q want %q", pwd, d); } } } fd.Close(); } func TestTime(t *testing.T) { // Just want to check that Time() is getting something. // A common failure mode on Darwin is to get 0, 0, // because it returns the time in registers instead of // filling in the structure passed to the system call. // TODO(rsc): Too bad the compiler doesn't know that // 365.24*86400 is an integer. sec, nsec, err := Time(); if sec < (2009-1970)*36524*864 { t.Errorf("Time() = %d, %d, %s; not plausible", sec, nsec, err); } } func TestSeek(t *testing.T) { f, err := Open("_obj/seektest", O_CREAT|O_RDWR|O_TRUNC, 0666); if err != nil { t.Fatalf("open _obj/seektest: %s", err); } const data = "hello, world\n"; io.WriteString(f, data); type test struct { in int64; whence int; out int64; } var tests = []test { test{ 0, 1, int64(len(data)) }, test{ 0, 0, 0 }, test{ 5, 0, 5 }, test{ 0, 2, int64(len(data)) }, test{ 0, 0, 0 }, test{ -1, 2, int64(len(data)) - 1 }, test{ 1<<40, 0, 1<<40 }, test{ 1<<40, 2, 1<<40 + int64(len(data)) } }; for i, tt := range tests { off, err := f.Seek(tt.in, tt.whence); if off != tt.out || err != nil { t.Errorf("#%d: Seek(%v, %v) = %v, %v want %v, nil", i, tt.in, tt.whence, off, err, tt.out); } } f.Close(); } type openErrorTest struct { path string; mode int; error string; } var openErrorTests = []openErrorTest { openErrorTest { "/etc/no-such-file", O_RDONLY, "open /etc/no-such-file: no such file or directory", }, openErrorTest { "/etc", O_WRONLY, "open /etc: is a directory", }, openErrorTest { "/etc/passwd/group", O_WRONLY, "open /etc/passwd/group: not a directory", }, } func TestOpenError(t *testing.T) { for i, tt := range openErrorTests { f, err := Open(tt.path, tt.mode, 0); if err == nil { t.Errorf("Open(%q, %d) succeeded", tt.path, tt.mode); f.Close(); continue; } if s := err.String(); s != tt.error { t.Errorf("Open(%q, %d) = _, %q; want %q", tt.path, tt.mode, s, tt.error); } } } func run(t *testing.T, cmd []string) string { // Run /bin/hostname and collect output. r, w, err := Pipe(); if err != nil { t.Fatal(err); } pid, err := ForkExec("/bin/hostname", []string{"hostname"}, nil, "/", []*File{nil, w, Stderr}); if err != nil { t.Fatal(err); } w.Close(); var b bytes.Buffer; io.Copy(r, &b); Wait(pid, 0); output := string(b.Data()); if n := len(output); n > 0 && output[n-1] == '\n' { output = output[0:n-1]; } if output == "" { t.Fatalf("%v produced no output", cmd); } return output; } func TestHostname(t *testing.T) { // Check internal Hostname() against the output of /bin/hostname. hostname, err := Hostname(); if err != nil { t.Fatalf("%v", err); } want := run(t, []string{"/bin/hostname"}); if hostname != want { t.Errorf("Hostname() = %q, want %q", hostname, want); } }