// Copyright 2013 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. // Use an external test to avoid os/exec -> internal/testenv -> os/exec // circular dependency. package exec_test import ( "fmt" "internal/testenv" "io" "os" "os/exec" "path/filepath" "strconv" "strings" "testing" ) func installExe(t *testing.T, dest, src string) { fsrc, err := os.Open(src) if err != nil { t.Fatal("os.Open failed: ", err) } defer fsrc.Close() fdest, err := os.Create(dest) if err != nil { t.Fatal("os.Create failed: ", err) } defer fdest.Close() _, err = io.Copy(fdest, fsrc) if err != nil { t.Fatal("io.Copy failed: ", err) } } func installBat(t *testing.T, dest string) { f, err := os.Create(dest) if err != nil { t.Fatalf("failed to create batch file: %v", err) } defer f.Close() fmt.Fprintf(f, "@echo %s\n", dest) } func installProg(t *testing.T, dest, srcExe string) { err := os.MkdirAll(filepath.Dir(dest), 0700) if err != nil { t.Fatal("os.MkdirAll failed: ", err) } if strings.ToLower(filepath.Ext(dest)) == ".bat" { installBat(t, dest) return } installExe(t, dest, srcExe) } type lookPathTest struct { rootDir string PATH string PATHEXT string files []string searchFor string fails bool // test is expected to fail } func (test lookPathTest) runProg(t *testing.T, env []string, args ...string) (string, error) { cmd := exec.Command(args[0], args[1:]...) cmd.Env = env cmd.Dir = test.rootDir args[0] = filepath.Base(args[0]) cmdText := fmt.Sprintf("%q command", strings.Join(args, " ")) out, err := cmd.CombinedOutput() if (err != nil) != test.fails { if test.fails { t.Fatalf("test=%+v: %s succeeded, but expected to fail", test, cmdText) } t.Fatalf("test=%+v: %s failed, but expected to succeed: %v - %v", test, cmdText, err, string(out)) } if err != nil { return "", fmt.Errorf("test=%+v: %s failed: %v - %v", test, cmdText, err, string(out)) } // normalise program output p := string(out) // trim terminating \r and \n that batch file outputs for len(p) > 0 && (p[len(p)-1] == '\n' || p[len(p)-1] == '\r') { p = p[:len(p)-1] } if !filepath.IsAbs(p) { return p, nil } if p[:len(test.rootDir)] != test.rootDir { t.Fatalf("test=%+v: %s output is wrong: %q must have %q prefix", test, cmdText, p, test.rootDir) } return p[len(test.rootDir)+1:], nil } func updateEnv(env []string, name, value string) []string { for i, e := range env { if strings.HasPrefix(strings.ToUpper(e), name+"=") { env[i] = name + "=" + value return env } } return append(env, name+"="+value) } func createEnv(dir, PATH, PATHEXT string) []string { env := os.Environ() env = updateEnv(env, "PATHEXT", PATHEXT) // Add dir in front of every directory in the PATH. dirs := filepath.SplitList(PATH) for i := range dirs { dirs[i] = filepath.Join(dir, dirs[i]) } path := strings.Join(dirs, ";") env = updateEnv(env, "PATH", os.Getenv("SystemRoot")+"/System32;"+path) return env } // createFiles copies srcPath file into multiply files. // It uses dir as prefix for all destination files. func createFiles(t *testing.T, dir string, files []string, srcPath string) { for _, f := range files { installProg(t, filepath.Join(dir, f), srcPath) } } func (test lookPathTest) run(t *testing.T, tmpdir, printpathExe string) { test.rootDir = tmpdir createFiles(t, test.rootDir, test.files, printpathExe) env := createEnv(test.rootDir, test.PATH, test.PATHEXT) // Run "cmd.exe /c test.searchFor" with new environment and // work directory set. All candidates are copies of printpath.exe. // These will output their program paths when run. should, errCmd := test.runProg(t, env, "cmd", "/c", test.searchFor) // Run the lookpath program with new environment and work directory set. env = append(env, "GO_WANT_HELPER_PROCESS=1") have, errLP := test.runProg(t, env, os.Args[0], "-test.run=TestHelperProcess", "--", "lookpath", test.searchFor) // Compare results. if errCmd == nil && errLP == nil { // both succeeded if should != have { t.Fatalf("test=%+v:\ncmd /c ran: %s\nlookpath found: %s", test, should, have) } return } if errCmd != nil && errLP != nil { // both failed -> continue return } if errCmd != nil { t.Fatal(errCmd) } if errLP != nil { t.Fatal(errLP) } } var lookPathTests = []lookPathTest{ { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`, `p2\a`}, searchFor: `a`, }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1.dir;p2.dir`, files: []string{`p1.dir\a`, `p2.dir\a.exe`}, searchFor: `a`, }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`}, searchFor: `a.exe`, }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\b.exe`}, searchFor: `b`, }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\b`, `p2\a`}, searchFor: `a`, fails: true, // TODO(brainman): do not know why this fails }, // If the command name specifies a path, the shell searches // the specified path for an executable file matching // the command name. If a match is found, the external // command (the executable file) executes. { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`}, searchFor: `p2\a`, }, // If the command name specifies a path, the shell searches // the specified path for an executable file matching the command // name. ... If no match is found, the shell reports an error // and command processing completes. { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\b.exe`, `p2\a.exe`}, searchFor: `p2\b`, fails: true, }, // If the command name does not specify a path, the shell // searches the current directory for an executable file // matching the command name. If a match is found, the external // command (the executable file) executes. { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`a`, `p1\a.exe`, `p2\a.exe`}, searchFor: `a`, }, // The shell now searches each directory specified by the // PATH environment variable, in the order listed, for an // executable file matching the command name. If a match // is found, the external command (the executable file) executes. { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`}, searchFor: `a`, }, // The shell now searches each directory specified by the // PATH environment variable, in the order listed, for an // executable file matching the command name. If no match // is found, the shell reports an error and command processing // completes. { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`}, searchFor: `b`, fails: true, }, // If the command name includes a file extension, the shell // searches each directory for the exact file name specified // by the command name. { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`}, searchFor: `a.exe`, }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`}, searchFor: `a.com`, fails: true, // includes extension and not exact file name match }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1`, files: []string{`p1\a.exe.exe`}, searchFor: `a.exe`, }, { PATHEXT: `.COM;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.exe`, `p2\a.exe`}, searchFor: `a.exe`, }, // If the command name does not include a file extension, the shell // adds the extensions listed in the PATHEXT environment variable, // one by one, and searches the directory for that file name. Note // that the shell tries all possible file extensions in a specific // directory before moving on to search the next directory // (if there is one). { PATHEXT: `.COM;.EXE`, PATH: `p1;p2`, files: []string{`p1\a.bat`, `p2\a.exe`}, searchFor: `a`, }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.bat`, `p2\a.exe`}, searchFor: `a`, }, { PATHEXT: `.COM;.EXE;.BAT`, PATH: `p1;p2`, files: []string{`p1\a.bat`, `p1\a.exe`, `p2\a.bat`, `p2\a.exe`}, searchFor: `a`, }, { PATHEXT: `.COM`, PATH: `p1;p2`, files: []string{`p1\a.bat`, `p2\a.exe`}, searchFor: `a`, fails: true, // tried all extensions in PATHEXT, but none matches }, } func TestLookPath(t *testing.T) { tmp := t.TempDir() printpathExe := buildPrintPathExe(t, tmp) // Run all tests. for i, test := range lookPathTests { t.Run(fmt.Sprint(i), func(t *testing.T) { dir := filepath.Join(tmp, "d"+strconv.Itoa(i)) err := os.Mkdir(dir, 0700) if err != nil { t.Fatal("Mkdir failed: ", err) } test.run(t, dir, printpathExe) }) } } type commandTest struct { PATH string files []string dir string arg0 string want string fails bool // test is expected to fail } func (test commandTest) isSuccess(rootDir, output string, err error) error { if err != nil { return fmt.Errorf("test=%+v: exec: %v %v", test, err, output) } path := output if path[:len(rootDir)] != rootDir { return fmt.Errorf("test=%+v: %q must have %q prefix", test, path, rootDir) } path = path[len(rootDir)+1:] if path != test.want { return fmt.Errorf("test=%+v: want %q, got %q", test, test.want, path) } return nil } func (test commandTest) runOne(rootDir string, env []string, dir, arg0 string) error { cmd := exec.Command(os.Args[0], "-test.run=TestHelperProcess", "--", "exec", dir, arg0) cmd.Dir = rootDir cmd.Env = env output, err := cmd.CombinedOutput() err = test.isSuccess(rootDir, string(output), err) if (err != nil) != test.fails { if test.fails { return fmt.Errorf("test=%+v: succeeded, but expected to fail", test) } return err } return nil } func (test commandTest) run(t *testing.T, rootDir, printpathExe string) { createFiles(t, rootDir, test.files, printpathExe) PATHEXT := `.COM;.EXE;.BAT` env := createEnv(rootDir, test.PATH, PATHEXT) env = append(env, "GO_WANT_HELPER_PROCESS=1") err := test.runOne(rootDir, env, test.dir, test.arg0) if err != nil { t.Error(err) } } var commandTests = []commandTest{ // testing commands with no slash, like `a.exe` { // should find a.exe in current directory files: []string{`a.exe`}, arg0: `a.exe`, want: `a.exe`, }, { // like above, but add PATH in attempt to break the test PATH: `p2;p`, files: []string{`a.exe`, `p\a.exe`, `p2\a.exe`}, arg0: `a.exe`, want: `a.exe`, }, { // like above, but use "a" instead of "a.exe" for command PATH: `p2;p`, files: []string{`a.exe`, `p\a.exe`, `p2\a.exe`}, arg0: `a`, want: `a.exe`, }, // testing commands with slash, like `.\a.exe` { // should find p\a.exe files: []string{`p\a.exe`}, arg0: `p\a.exe`, want: `p\a.exe`, }, { // like above, but adding `.` in front of executable should still be OK files: []string{`p\a.exe`}, arg0: `.\p\a.exe`, want: `p\a.exe`, }, { // like above, but with PATH added in attempt to break it PATH: `p2`, files: []string{`p\a.exe`, `p2\a.exe`}, arg0: `p\a.exe`, want: `p\a.exe`, }, { // like above, but make sure .exe is tried even for commands with slash PATH: `p2`, files: []string{`p\a.exe`, `p2\a.exe`}, arg0: `p\a`, want: `p\a.exe`, }, // tests commands, like `a.exe`, with c.Dir set { // should not find a.exe in p, because LookPath(`a.exe`) will fail files: []string{`p\a.exe`}, dir: `p`, arg0: `a.exe`, want: `p\a.exe`, fails: true, }, { // LookPath(`a.exe`) will find `.\a.exe`, but prefixing that with // dir `p\a.exe` will refer to a non-existent file files: []string{`a.exe`, `p\not_important_file`}, dir: `p`, arg0: `a.exe`, want: `a.exe`, fails: true, }, { // like above, but making test succeed by installing file // in referred destination (so LookPath(`a.exe`) will still // find `.\a.exe`, but we successfully execute `p\a.exe`) files: []string{`a.exe`, `p\a.exe`}, dir: `p`, arg0: `a.exe`, want: `p\a.exe`, }, { // like above, but add PATH in attempt to break the test PATH: `p2;p`, files: []string{`a.exe`, `p\a.exe`, `p2\a.exe`}, dir: `p`, arg0: `a.exe`, want: `p\a.exe`, }, { // like above, but use "a" instead of "a.exe" for command PATH: `p2;p`, files: []string{`a.exe`, `p\a.exe`, `p2\a.exe`}, dir: `p`, arg0: `a`, want: `p\a.exe`, }, { // finds `a.exe` in the PATH regardless of dir set // because LookPath returns full path in that case PATH: `p2;p`, files: []string{`p\a.exe`, `p2\a.exe`}, dir: `p`, arg0: `a.exe`, want: `p2\a.exe`, }, // tests commands, like `.\a.exe`, with c.Dir set { // should use dir when command is path, like ".\a.exe" files: []string{`p\a.exe`}, dir: `p`, arg0: `.\a.exe`, want: `p\a.exe`, }, { // like above, but with PATH added in attempt to break it PATH: `p2`, files: []string{`p\a.exe`, `p2\a.exe`}, dir: `p`, arg0: `.\a.exe`, want: `p\a.exe`, }, { // like above, but make sure .exe is tried even for commands with slash PATH: `p2`, files: []string{`p\a.exe`, `p2\a.exe`}, dir: `p`, arg0: `.\a`, want: `p\a.exe`, }, } func TestCommand(t *testing.T) { tmp := t.TempDir() printpathExe := buildPrintPathExe(t, tmp) // Run all tests. for i, test := range commandTests { dir := filepath.Join(tmp, "d"+strconv.Itoa(i)) err := os.Mkdir(dir, 0700) if err != nil { t.Fatal("Mkdir failed: ", err) } test.run(t, dir, printpathExe) } } // buildPrintPathExe creates a Go program that prints its own path. // dir is a temp directory where executable will be created. // The function returns full path to the created program. func buildPrintPathExe(t *testing.T, dir string) string { const name = "printpath" srcname := name + ".go" err := os.WriteFile(filepath.Join(dir, srcname), []byte(printpathSrc), 0644) if err != nil { t.Fatalf("failed to create source: %v", err) } if err != nil { t.Fatalf("failed to execute template: %v", err) } outname := name + ".exe" cmd := exec.Command(testenv.GoToolPath(t), "build", "-o", outname, srcname) cmd.Dir = dir out, err := cmd.CombinedOutput() if err != nil { t.Fatalf("failed to build executable: %v - %v", err, string(out)) } return filepath.Join(dir, outname) } const printpathSrc = ` package main import ( "os" "syscall" "unicode/utf16" "unsafe" ) func getMyName() (string, error) { var sysproc = syscall.MustLoadDLL("kernel32.dll").MustFindProc("GetModuleFileNameW") b := make([]uint16, syscall.MAX_PATH) r, _, err := sysproc.Call(0, uintptr(unsafe.Pointer(&b[0])), uintptr(len(b))) n := uint32(r) if n == 0 { return "", err } return string(utf16.Decode(b[0:n])), nil } func main() { path, err := getMyName() if err != nil { os.Stderr.Write([]byte("getMyName failed: " + err.Error() + "\n")) os.Exit(1) } os.Stdout.Write([]byte(path)) } `