// Copyright 2018 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. // Script-driven tests. // See testdata/script/README for an overview. package main_test import ( "bytes" "context" "errors" "fmt" "go/build" "internal/testenv" "io/fs" "os" "os/exec" "path/filepath" "regexp" "runtime" "strconv" "strings" "sync" "testing" "time" "cmd/go/internal/cfg" "cmd/go/internal/imports" "cmd/go/internal/par" "cmd/go/internal/robustio" "cmd/go/internal/txtar" "cmd/go/internal/work" "cmd/internal/sys" ) // TestScript runs the tests in testdata/script/*.txt. func TestScript(t *testing.T) { testenv.MustHaveGoBuild(t) testenv.SkipIfShortAndSlow(t) var ( ctx = context.Background() gracePeriod = 100 * time.Millisecond ) if deadline, ok := t.Deadline(); ok { timeout := time.Until(deadline) // If time allows, increase the termination grace period to 5% of the // remaining time. if gp := timeout / 20; gp > gracePeriod { gracePeriod = gp } // When we run commands that execute subprocesses, we want to reserve two // grace periods to clean up. We will send the first termination signal when // the context expires, then wait one grace period for the process to // produce whatever useful output it can (such as a stack trace). After the // first grace period expires, we'll escalate to os.Kill, leaving the second // grace period for the test function to record its output before the test // process itself terminates. timeout -= 2 * gracePeriod var cancel context.CancelFunc ctx, cancel = context.WithTimeout(ctx, timeout) t.Cleanup(cancel) } files, err := filepath.Glob("testdata/script/*.txt") if err != nil { t.Fatal(err) } for _, file := range files { file := file name := strings.TrimSuffix(filepath.Base(file), ".txt") t.Run(name, func(t *testing.T) { t.Parallel() ctx, cancel := context.WithCancel(ctx) ts := &testScript{ t: t, ctx: ctx, cancel: cancel, gracePeriod: gracePeriod, name: name, file: file, } ts.setup() if !*testWork { defer removeAll(ts.workdir) } ts.run() cancel() }) } } // A testScript holds execution state for a single test script. type testScript struct { t *testing.T ctx context.Context cancel context.CancelFunc gracePeriod time.Duration workdir string // temporary work dir ($WORK) log bytes.Buffer // test execution log (printed at end of test) mark int // offset of next log truncation cd string // current directory during test execution; initially $WORK/gopath/src name string // short name of test ("foo") file string // full file name ("testdata/script/foo.txt") lineno int // line number currently executing line string // line currently executing env []string // environment list (for os/exec) envMap map[string]string // environment mapping (matches env) stdout string // standard output from last 'go' command; for 'stdout' command stderr string // standard error from last 'go' command; for 'stderr' command stopped bool // test wants to stop early start time.Time // time phase started background []*backgroundCmd // backgrounded 'exec' and 'go' commands } type backgroundCmd struct { want simpleStatus args []string done <-chan struct{} err error stdout, stderr strings.Builder } type simpleStatus string const ( success simpleStatus = "" failure simpleStatus = "!" successOrFailure simpleStatus = "?" ) var extraEnvKeys = []string{ "SYSTEMROOT", // must be preserved on Windows to find DLLs; golang.org/issue/25210 "WINDIR", // must be preserved on Windows to be able to run PowerShell command; golang.org/issue/30711 "LD_LIBRARY_PATH", // must be preserved on Unix systems to find shared libraries "CC", // don't lose user settings when invoking cgo "GO_TESTING_GOTOOLS", // for gccgo testing "GCCGO", // for gccgo testing "GCCGOTOOLDIR", // for gccgo testing } // setup sets up the test execution temporary directory and environment. func (ts *testScript) setup() { if err := ts.ctx.Err(); err != nil { ts.t.Fatalf("test interrupted during setup: %v", err) } StartProxy() ts.workdir = filepath.Join(testTmpDir, "script-"+ts.name) ts.check(os.MkdirAll(filepath.Join(ts.workdir, "tmp"), 0777)) ts.check(os.MkdirAll(filepath.Join(ts.workdir, "gopath/src"), 0777)) ts.cd = filepath.Join(ts.workdir, "gopath/src") ts.env = []string{ "WORK=" + ts.workdir, // must be first for ts.abbrev "PATH=" + testBin + string(filepath.ListSeparator) + os.Getenv("PATH"), homeEnvName() + "=/no-home", "CCACHE_DISABLE=1", // ccache breaks with non-existent HOME "GOARCH=" + runtime.GOARCH, "GOCACHE=" + testGOCACHE, "GODEBUG=" + os.Getenv("GODEBUG"), "GOEXE=" + cfg.ExeSuffix, "GOOS=" + runtime.GOOS, "GOPATH=" + filepath.Join(ts.workdir, "gopath"), "GOPROXY=" + proxyURL, "GOPRIVATE=", "GOROOT=" + testGOROOT, "GOROOT_FINAL=" + os.Getenv("GOROOT_FINAL"), // causes spurious rebuilds and breaks the "stale" built-in if not propagated "GOTRACEBACK=system", "TESTGO_GOROOT=" + testGOROOT, "GOSUMDB=" + testSumDBVerifierKey, "GONOPROXY=", "GONOSUMDB=", "GOVCS=*:all", "PWD=" + ts.cd, tempEnvName() + "=" + filepath.Join(ts.workdir, "tmp"), "devnull=" + os.DevNull, "goversion=" + goVersion(ts), ":=" + string(os.PathListSeparator), } if !testenv.HasExternalNetwork() { ts.env = append(ts.env, "TESTGONETWORK=panic", "TESTGOVCS=panic") } if runtime.GOOS == "plan9" { ts.env = append(ts.env, "path="+testBin+string(filepath.ListSeparator)+os.Getenv("path")) } for _, key := range extraEnvKeys { if val := os.Getenv(key); val != "" { ts.env = append(ts.env, key+"="+val) } } ts.envMap = make(map[string]string) for _, kv := range ts.env { if i := strings.Index(kv, "="); i >= 0 { ts.envMap[kv[:i]] = kv[i+1:] } } } // goVersion returns the current Go version. func goVersion(ts *testScript) string { tags := build.Default.ReleaseTags version := tags[len(tags)-1] if !regexp.MustCompile(`^go([1-9][0-9]*)\.(0|[1-9][0-9]*)$`).MatchString(version) { ts.fatalf("invalid go version %q", version) } return version[2:] } var execCache par.Cache // run runs the test script. func (ts *testScript) run() { // Truncate log at end of last phase marker, // discarding details of successful phase. rewind := func() { if !testing.Verbose() { ts.log.Truncate(ts.mark) } } // Insert elapsed time for phase at end of phase marker markTime := func() { if ts.mark > 0 && !ts.start.IsZero() { afterMark := append([]byte{}, ts.log.Bytes()[ts.mark:]...) ts.log.Truncate(ts.mark - 1) // cut \n and afterMark fmt.Fprintf(&ts.log, " (%.3fs)\n", time.Since(ts.start).Seconds()) ts.log.Write(afterMark) } ts.start = time.Time{} } defer func() { // On a normal exit from the test loop, background processes are cleaned up // before we print PASS. If we return early (e.g., due to a test failure), // don't print anything about the processes that were still running. ts.cancel() for _, bg := range ts.background { <-bg.done } ts.background = nil markTime() // Flush testScript log to testing.T log. ts.t.Log("\n" + ts.abbrev(ts.log.String())) }() // Unpack archive. a, err := txtar.ParseFile(ts.file) ts.check(err) for _, f := range a.Files { name := ts.mkabs(ts.expand(f.Name, false)) ts.check(os.MkdirAll(filepath.Dir(name), 0777)) ts.check(os.WriteFile(name, f.Data, 0666)) } // With -v or -testwork, start log with full environment. if *testWork || testing.Verbose() { // Display environment. ts.cmdEnv(success, nil) fmt.Fprintf(&ts.log, "\n") ts.mark = ts.log.Len() } // Run script. // See testdata/script/README for documentation of script form. script := string(a.Comment) Script: for script != "" { // Extract next line. ts.lineno++ var line string if i := strings.Index(script, "\n"); i >= 0 { line, script = script[:i], script[i+1:] } else { line, script = script, "" } // # is a comment indicating the start of new phase. if strings.HasPrefix(line, "#") { // If there was a previous phase, it succeeded, // so rewind the log to delete its details (unless -v is in use). // If nothing has happened at all since the mark, // rewinding is a no-op and adding elapsed time // for doing nothing is meaningless, so don't. if ts.log.Len() > ts.mark { rewind() markTime() } // Print phase heading and mark start of phase output. fmt.Fprintf(&ts.log, "%s\n", line) ts.mark = ts.log.Len() ts.start = time.Now() continue } // Parse input line. Ignore blanks entirely. parsed := ts.parse(line) if parsed.name == "" { if parsed.want != "" || len(parsed.conds) > 0 { ts.fatalf("missing command") } continue } // Echo command to log. fmt.Fprintf(&ts.log, "> %s\n", line) for _, cond := range parsed.conds { if err := ts.ctx.Err(); err != nil { ts.fatalf("test interrupted: %v", err) } // Known conds are: $GOOS, $GOARCH, runtime.Compiler, and 'short' (for testing.Short). // // NOTE: If you make changes here, update testdata/script/README too! // ok := false switch cond.tag { case runtime.GOOS, runtime.GOARCH, runtime.Compiler: ok = true case "short": ok = testing.Short() case "cgo": ok = canCgo case "msan": ok = canMSan case "race": ok = canRace case "net": ok = testenv.HasExternalNetwork() case "link": ok = testenv.HasLink() case "root": ok = os.Geteuid() == 0 case "symlink": ok = testenv.HasSymlink() case "case-sensitive": ok = isCaseSensitive(ts.t) default: if strings.HasPrefix(cond.tag, "exec:") { prog := cond.tag[len("exec:"):] ok = execCache.Do(prog, func() interface{} { if runtime.GOOS == "plan9" && prog == "git" { // The Git command is usually not the real Git on Plan 9. // See https://golang.org/issues/29640. return false } _, err := exec.LookPath(prog) return err == nil }).(bool) break } if strings.HasPrefix(cond.tag, "GODEBUG:") { value := strings.TrimPrefix(cond.tag, "GODEBUG:") parts := strings.Split(os.Getenv("GODEBUG"), ",") for _, p := range parts { if strings.TrimSpace(p) == value { ok = true break } } break } if strings.HasPrefix(cond.tag, "buildmode:") { value := strings.TrimPrefix(cond.tag, "buildmode:") ok = sys.BuildModeSupported(runtime.Compiler, value, runtime.GOOS, runtime.GOARCH) break } if !imports.KnownArch[cond.tag] && !imports.KnownOS[cond.tag] && cond.tag != "gc" && cond.tag != "gccgo" { ts.fatalf("unknown condition %q", cond.tag) } } if ok != cond.want { // Don't run rest of line. continue Script } } // Run command. cmd := scriptCmds[parsed.name] if cmd == nil { ts.fatalf("unknown command %q", parsed.name) } cmd(ts, parsed.want, parsed.args) // Command can ask script to stop early. if ts.stopped { // Break instead of returning, so that we check the status of any // background processes and print PASS. break } } ts.cancel() ts.cmdWait(success, nil) // Final phase ended. rewind() markTime() if !ts.stopped { fmt.Fprintf(&ts.log, "PASS\n") } } var ( onceCaseSensitive sync.Once caseSensitive bool ) func isCaseSensitive(t *testing.T) bool { onceCaseSensitive.Do(func() { tmpdir, err := os.MkdirTemp("", "case-sensitive") if err != nil { t.Fatal("failed to create directory to determine case-sensitivity:", err) } defer os.RemoveAll(tmpdir) fcap := filepath.Join(tmpdir, "FILE") if err := os.WriteFile(fcap, []byte{}, 0644); err != nil { t.Fatal("error writing file to determine case-sensitivity:", err) } flow := filepath.Join(tmpdir, "file") _, err = os.ReadFile(flow) switch { case err == nil: caseSensitive = false return case os.IsNotExist(err): caseSensitive = true return default: t.Fatal("unexpected error reading file when determining case-sensitivity:", err) } }) return caseSensitive } // scriptCmds are the script command implementations. // Keep list and the implementations below sorted by name. // // NOTE: If you make changes here, update testdata/script/README too! // var scriptCmds = map[string]func(*testScript, simpleStatus, []string){ "addcrlf": (*testScript).cmdAddcrlf, "cc": (*testScript).cmdCc, "cd": (*testScript).cmdCd, "chmod": (*testScript).cmdChmod, "cmp": (*testScript).cmdCmp, "cmpenv": (*testScript).cmdCmpenv, "cp": (*testScript).cmdCp, "env": (*testScript).cmdEnv, "exec": (*testScript).cmdExec, "exists": (*testScript).cmdExists, "go": (*testScript).cmdGo, "grep": (*testScript).cmdGrep, "mkdir": (*testScript).cmdMkdir, "rm": (*testScript).cmdRm, "skip": (*testScript).cmdSkip, "stale": (*testScript).cmdStale, "stderr": (*testScript).cmdStderr, "stdout": (*testScript).cmdStdout, "stop": (*testScript).cmdStop, "symlink": (*testScript).cmdSymlink, "wait": (*testScript).cmdWait, } // When expanding shell variables for these commands, we apply regexp quoting to // expanded strings within the first argument. var regexpCmd = map[string]bool{ "grep": true, "stderr": true, "stdout": true, } // addcrlf adds CRLF line endings to the named files. func (ts *testScript) cmdAddcrlf(want simpleStatus, args []string) { if len(args) == 0 { ts.fatalf("usage: addcrlf file...") } for _, file := range args { file = ts.mkabs(file) data, err := os.ReadFile(file) ts.check(err) ts.check(os.WriteFile(file, bytes.ReplaceAll(data, []byte("\n"), []byte("\r\n")), 0666)) } } // cc runs the C compiler along with platform specific options. func (ts *testScript) cmdCc(want simpleStatus, args []string) { if len(args) < 1 || (len(args) == 1 && args[0] == "&") { ts.fatalf("usage: cc args... [&]") } var b work.Builder b.Init() ts.cmdExec(want, append(b.GccCmd(".", ""), args...)) robustio.RemoveAll(b.WorkDir) } // cd changes to a different directory. func (ts *testScript) cmdCd(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v cd", want) } if len(args) != 1 { ts.fatalf("usage: cd dir") } dir := filepath.FromSlash(args[0]) if !filepath.IsAbs(dir) { dir = filepath.Join(ts.cd, dir) } info, err := os.Stat(dir) if os.IsNotExist(err) { ts.fatalf("directory %s does not exist", dir) } ts.check(err) if !info.IsDir() { ts.fatalf("%s is not a directory", dir) } ts.cd = dir ts.envMap["PWD"] = dir fmt.Fprintf(&ts.log, "%s\n", ts.cd) } // chmod changes permissions for a file or directory. func (ts *testScript) cmdChmod(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v chmod", want) } if len(args) < 2 { ts.fatalf("usage: chmod perm paths...") } perm, err := strconv.ParseUint(args[0], 0, 32) if err != nil || perm&uint64(fs.ModePerm) != perm { ts.fatalf("invalid mode: %s", args[0]) } for _, arg := range args[1:] { path := arg if !filepath.IsAbs(path) { path = filepath.Join(ts.cd, arg) } err := os.Chmod(path, fs.FileMode(perm)) ts.check(err) } } // cmp compares two files. func (ts *testScript) cmdCmp(want simpleStatus, args []string) { if want != success { // It would be strange to say "this file can have any content except this precise byte sequence". ts.fatalf("unsupported: %v cmp", want) } quiet := false if len(args) > 0 && args[0] == "-q" { quiet = true args = args[1:] } if len(args) != 2 { ts.fatalf("usage: cmp file1 file2") } ts.doCmdCmp(args, false, quiet) } // cmpenv compares two files with environment variable substitution. func (ts *testScript) cmdCmpenv(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v cmpenv", want) } quiet := false if len(args) > 0 && args[0] == "-q" { quiet = true args = args[1:] } if len(args) != 2 { ts.fatalf("usage: cmpenv file1 file2") } ts.doCmdCmp(args, true, quiet) } func (ts *testScript) doCmdCmp(args []string, env, quiet bool) { name1, name2 := args[0], args[1] var text1, text2 string if name1 == "stdout" { text1 = ts.stdout } else if name1 == "stderr" { text1 = ts.stderr } else { data, err := os.ReadFile(ts.mkabs(name1)) ts.check(err) text1 = string(data) } data, err := os.ReadFile(ts.mkabs(name2)) ts.check(err) text2 = string(data) if env { text1 = ts.expand(text1, false) text2 = ts.expand(text2, false) } if text1 == text2 { return } if !quiet { fmt.Fprintf(&ts.log, "[diff -%s +%s]\n%s\n", name1, name2, diff(text1, text2)) } ts.fatalf("%s and %s differ", name1, name2) } // cp copies files, maybe eventually directories. func (ts *testScript) cmdCp(want simpleStatus, args []string) { if len(args) < 2 { ts.fatalf("usage: cp src... dst") } dst := ts.mkabs(args[len(args)-1]) info, err := os.Stat(dst) dstDir := err == nil && info.IsDir() if len(args) > 2 && !dstDir { ts.fatalf("cp: destination %s is not a directory", dst) } for _, arg := range args[:len(args)-1] { var ( src string data []byte mode fs.FileMode ) switch arg { case "stdout": src = arg data = []byte(ts.stdout) mode = 0666 case "stderr": src = arg data = []byte(ts.stderr) mode = 0666 default: src = ts.mkabs(arg) info, err := os.Stat(src) ts.check(err) mode = info.Mode() & 0777 data, err = os.ReadFile(src) ts.check(err) } targ := dst if dstDir { targ = filepath.Join(dst, filepath.Base(src)) } err := os.WriteFile(targ, data, mode) switch want { case failure: if err == nil { ts.fatalf("unexpected command success") } case success: ts.check(err) } } } // env displays or adds to the environment. func (ts *testScript) cmdEnv(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v env", want) } conv := func(s string) string { return s } if len(args) > 0 && args[0] == "-r" { conv = regexp.QuoteMeta args = args[1:] } var out strings.Builder if len(args) == 0 { printed := make(map[string]bool) // env list can have duplicates; only print effective value (from envMap) once for _, kv := range ts.env { k := kv[:strings.Index(kv, "=")] if !printed[k] { fmt.Fprintf(&out, "%s=%s\n", k, ts.envMap[k]) } } } else { for _, env := range args { i := strings.Index(env, "=") if i < 0 { // Display value instead of setting it. fmt.Fprintf(&out, "%s=%s\n", env, ts.envMap[env]) continue } key, val := env[:i], conv(env[i+1:]) ts.env = append(ts.env, key+"="+val) ts.envMap[key] = val } } if out.Len() > 0 || len(args) > 0 { ts.stdout = out.String() ts.log.WriteString(out.String()) } } // exec runs the given command. func (ts *testScript) cmdExec(want simpleStatus, args []string) { if len(args) < 1 || (len(args) == 1 && args[0] == "&") { ts.fatalf("usage: exec program [args...] [&]") } background := false if len(args) > 0 && args[len(args)-1] == "&" { background = true args = args[:len(args)-1] } bg, err := ts.startBackground(want, args[0], args[1:]...) if err != nil { ts.fatalf("unexpected error starting command: %v", err) } if background { ts.stdout, ts.stderr = "", "" ts.background = append(ts.background, bg) return } <-bg.done ts.stdout = bg.stdout.String() ts.stderr = bg.stderr.String() if ts.stdout != "" { fmt.Fprintf(&ts.log, "[stdout]\n%s", ts.stdout) } if ts.stderr != "" { fmt.Fprintf(&ts.log, "[stderr]\n%s", ts.stderr) } if bg.err != nil { fmt.Fprintf(&ts.log, "[%v]\n", bg.err) } ts.checkCmd(bg) } // exists checks that the list of files exists. func (ts *testScript) cmdExists(want simpleStatus, args []string) { if want == successOrFailure { ts.fatalf("unsupported: %v exists", want) } var readonly, exec bool loop: for len(args) > 0 { switch args[0] { case "-readonly": readonly = true args = args[1:] case "-exec": exec = true args = args[1:] default: break loop } } if len(args) == 0 { ts.fatalf("usage: exists [-readonly] [-exec] file...") } for _, file := range args { file = ts.mkabs(file) info, err := os.Stat(file) if err == nil && want == failure { what := "file" if info.IsDir() { what = "directory" } ts.fatalf("%s %s unexpectedly exists", what, file) } if err != nil && want == success { ts.fatalf("%s does not exist", file) } if err == nil && want == success && readonly && info.Mode()&0222 != 0 { ts.fatalf("%s exists but is writable", file) } if err == nil && want == success && exec && runtime.GOOS != "windows" && info.Mode()&0111 == 0 { ts.fatalf("%s exists but is not executable", file) } } } // go runs the go command. func (ts *testScript) cmdGo(want simpleStatus, args []string) { ts.cmdExec(want, append([]string{testGo}, args...)) } // mkdir creates directories. func (ts *testScript) cmdMkdir(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v mkdir", want) } if len(args) < 1 { ts.fatalf("usage: mkdir dir...") } for _, arg := range args { ts.check(os.MkdirAll(ts.mkabs(arg), 0777)) } } // rm removes files or directories. func (ts *testScript) cmdRm(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v rm", want) } if len(args) < 1 { ts.fatalf("usage: rm file...") } for _, arg := range args { file := ts.mkabs(arg) removeAll(file) // does chmod and then attempts rm ts.check(robustio.RemoveAll(file)) // report error } } // skip marks the test skipped. func (ts *testScript) cmdSkip(want simpleStatus, args []string) { if len(args) > 1 { ts.fatalf("usage: skip [msg]") } if want != success { ts.fatalf("unsupported: %v skip", want) } // Before we mark the test as skipped, shut down any background processes and // make sure they have returned the correct status. ts.cancel() ts.cmdWait(success, nil) if len(args) == 1 { ts.t.Skip(args[0]) } ts.t.Skip() } // stale checks that the named build targets are stale. func (ts *testScript) cmdStale(want simpleStatus, args []string) { if len(args) == 0 { ts.fatalf("usage: stale target...") } tmpl := "{{if .Error}}{{.ImportPath}}: {{.Error.Err}}{{else}}" switch want { case failure: tmpl += "{{if .Stale}}{{.ImportPath}} is unexpectedly stale{{end}}" case success: tmpl += "{{if not .Stale}}{{.ImportPath}} is unexpectedly NOT stale{{end}}" default: ts.fatalf("unsupported: %v stale", want) } tmpl += "{{end}}" goArgs := append([]string{"list", "-e", "-f=" + tmpl}, args...) stdout, stderr, err := ts.exec(testGo, goArgs...) if err != nil { ts.fatalf("go list: %v\n%s%s", err, stdout, stderr) } if stdout != "" { ts.fatalf("%s", stdout) } } // stdout checks that the last go command standard output matches a regexp. func (ts *testScript) cmdStdout(want simpleStatus, args []string) { scriptMatch(ts, want, args, ts.stdout, "stdout") } // stderr checks that the last go command standard output matches a regexp. func (ts *testScript) cmdStderr(want simpleStatus, args []string) { scriptMatch(ts, want, args, ts.stderr, "stderr") } // grep checks that file content matches a regexp. // Like stdout/stderr and unlike Unix grep, it accepts Go regexp syntax. func (ts *testScript) cmdGrep(want simpleStatus, args []string) { scriptMatch(ts, want, args, "", "grep") } // scriptMatch implements both stdout and stderr. func scriptMatch(ts *testScript, want simpleStatus, args []string, text, name string) { if want == successOrFailure { ts.fatalf("unsupported: %v %s", want, name) } n := 0 if len(args) >= 1 && strings.HasPrefix(args[0], "-count=") { if want == failure { ts.fatalf("cannot use -count= with negated match") } var err error n, err = strconv.Atoi(args[0][len("-count="):]) if err != nil { ts.fatalf("bad -count=: %v", err) } if n < 1 { ts.fatalf("bad -count=: must be at least 1") } args = args[1:] } quiet := false if len(args) >= 1 && args[0] == "-q" { quiet = true args = args[1:] } extraUsage := "" wantArgs := 1 if name == "grep" { extraUsage = " file" wantArgs = 2 } if len(args) != wantArgs { ts.fatalf("usage: %s [-count=N] 'pattern'%s", name, extraUsage) } pattern := `(?m)` + args[0] re, err := regexp.Compile(pattern) if err != nil { ts.fatalf("regexp.Compile(%q): %v", pattern, err) } isGrep := name == "grep" if isGrep { name = args[1] // for error messages data, err := os.ReadFile(ts.mkabs(args[1])) ts.check(err) text = string(data) } // Matching against workdir would be misleading. text = strings.ReplaceAll(text, ts.workdir, "$WORK") switch want { case failure: if re.MatchString(text) { if isGrep && !quiet { fmt.Fprintf(&ts.log, "[%s]\n%s\n", name, text) } ts.fatalf("unexpected match for %#q found in %s: %s", pattern, name, re.FindString(text)) } case success: if !re.MatchString(text) { if isGrep && !quiet { fmt.Fprintf(&ts.log, "[%s]\n%s\n", name, text) } ts.fatalf("no match for %#q found in %s", pattern, name) } if n > 0 { count := len(re.FindAllString(text, -1)) if count != n { if isGrep && !quiet { fmt.Fprintf(&ts.log, "[%s]\n%s\n", name, text) } ts.fatalf("have %d matches for %#q, want %d", count, pattern, n) } } } } // stop stops execution of the test (marking it passed). func (ts *testScript) cmdStop(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v stop", want) } if len(args) > 1 { ts.fatalf("usage: stop [msg]") } if len(args) == 1 { fmt.Fprintf(&ts.log, "stop: %s\n", args[0]) } else { fmt.Fprintf(&ts.log, "stop\n") } ts.stopped = true } // symlink creates a symbolic link. func (ts *testScript) cmdSymlink(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v symlink", want) } if len(args) != 3 || args[1] != "->" { ts.fatalf("usage: symlink file -> target") } // Note that the link target args[2] is not interpreted with mkabs: // it will be interpreted relative to the directory file is in. ts.check(os.Symlink(args[2], ts.mkabs(args[0]))) } // wait waits for background commands to exit, setting stderr and stdout to their result. func (ts *testScript) cmdWait(want simpleStatus, args []string) { if want != success { ts.fatalf("unsupported: %v wait", want) } if len(args) > 0 { ts.fatalf("usage: wait") } var stdouts, stderrs []string for _, bg := range ts.background { <-bg.done args := append([]string{filepath.Base(bg.args[0])}, bg.args[1:]...) fmt.Fprintf(&ts.log, "[background] %s: %v\n", strings.Join(args, " "), bg.err) cmdStdout := bg.stdout.String() if cmdStdout != "" { fmt.Fprintf(&ts.log, "[stdout]\n%s", cmdStdout) stdouts = append(stdouts, cmdStdout) } cmdStderr := bg.stderr.String() if cmdStderr != "" { fmt.Fprintf(&ts.log, "[stderr]\n%s", cmdStderr) stderrs = append(stderrs, cmdStderr) } ts.checkCmd(bg) } ts.stdout = strings.Join(stdouts, "") ts.stderr = strings.Join(stderrs, "") ts.background = nil } // Helpers for command implementations. // abbrev abbreviates the actual work directory in the string s to the literal string "$WORK". func (ts *testScript) abbrev(s string) string { s = strings.ReplaceAll(s, ts.workdir, "$WORK") if *testWork { // Expose actual $WORK value in environment dump on first line of work script, // so that the user can find out what directory -testwork left behind. s = "WORK=" + ts.workdir + "\n" + strings.TrimPrefix(s, "WORK=$WORK\n") } return s } // check calls ts.fatalf if err != nil. func (ts *testScript) check(err error) { if err != nil { ts.fatalf("%v", err) } } func (ts *testScript) checkCmd(bg *backgroundCmd) { select { case <-bg.done: default: panic("checkCmd called when not done") } if bg.err == nil { if bg.want == failure { ts.fatalf("unexpected command success") } return } if errors.Is(bg.err, context.DeadlineExceeded) { ts.fatalf("test timed out while running command") } if errors.Is(bg.err, context.Canceled) { // The process was still running at the end of the test. // The test must not depend on its exit status. if bg.want != successOrFailure { ts.fatalf("unexpected background command remaining at test end") } return } if bg.want == success { ts.fatalf("unexpected command failure") } } // exec runs the given command line (an actual subprocess, not simulated) // in ts.cd with environment ts.env and then returns collected standard output and standard error. func (ts *testScript) exec(command string, args ...string) (stdout, stderr string, err error) { bg, err := ts.startBackground(success, command, args...) if err != nil { return "", "", err } <-bg.done return bg.stdout.String(), bg.stderr.String(), bg.err } // startBackground starts the given command line (an actual subprocess, not simulated) // in ts.cd with environment ts.env. func (ts *testScript) startBackground(want simpleStatus, command string, args ...string) (*backgroundCmd, error) { done := make(chan struct{}) bg := &backgroundCmd{ want: want, args: append([]string{command}, args...), done: done, } cmd := exec.Command(command, args...) cmd.Dir = ts.cd cmd.Env = append(ts.env, "PWD="+ts.cd) cmd.Stdout = &bg.stdout cmd.Stderr = &bg.stderr if err := cmd.Start(); err != nil { return nil, err } go func() { bg.err = waitOrStop(ts.ctx, cmd, quitSignal(), ts.gracePeriod) close(done) }() return bg, nil } // waitOrStop waits for the already-started command cmd by calling its Wait method. // // If cmd does not return before ctx is done, waitOrStop sends it the given interrupt signal. // If killDelay is positive, waitOrStop waits that additional period for Wait to return before sending os.Kill. // // This function is copied from the one added to x/playground/internal in // http://golang.org/cl/228438. func waitOrStop(ctx context.Context, cmd *exec.Cmd, interrupt os.Signal, killDelay time.Duration) error { if cmd.Process == nil { panic("waitOrStop called with a nil cmd.Process — missing Start call?") } if interrupt == nil { panic("waitOrStop requires a non-nil interrupt signal") } errc := make(chan error) go func() { select { case errc <- nil: return case <-ctx.Done(): } err := cmd.Process.Signal(interrupt) if err == nil { err = ctx.Err() // Report ctx.Err() as the reason we interrupted. } else if err.Error() == "os: process already finished" { errc <- nil return } if killDelay > 0 { timer := time.NewTimer(killDelay) select { // Report ctx.Err() as the reason we interrupted the process... case errc <- ctx.Err(): timer.Stop() return // ...but after killDelay has elapsed, fall back to a stronger signal. case <-timer.C: } // Wait still hasn't returned. // Kill the process harder to make sure that it exits. // // Ignore any error: if cmd.Process has already terminated, we still // want to send ctx.Err() (or the error from the Interrupt call) // to properly attribute the signal that may have terminated it. _ = cmd.Process.Kill() } errc <- err }() waitErr := cmd.Wait() if interruptErr := <-errc; interruptErr != nil { return interruptErr } return waitErr } // expand applies environment variable expansion to the string s. func (ts *testScript) expand(s string, inRegexp bool) string { return os.Expand(s, func(key string) string { e := ts.envMap[key] if inRegexp { // Replace workdir with $WORK, since we have done the same substitution in // the text we're about to compare against. e = strings.ReplaceAll(e, ts.workdir, "$WORK") // Quote to literal strings: we want paths like C:\work\go1.4 to remain // paths rather than regular expressions. e = regexp.QuoteMeta(e) } return e }) } // fatalf aborts the test with the given failure message. func (ts *testScript) fatalf(format string, args ...interface{}) { fmt.Fprintf(&ts.log, "FAIL: %s:%d: %s\n", ts.file, ts.lineno, fmt.Sprintf(format, args...)) ts.t.FailNow() } // mkabs interprets file relative to the test script's current directory // and returns the corresponding absolute path. func (ts *testScript) mkabs(file string) string { if filepath.IsAbs(file) { return file } return filepath.Join(ts.cd, file) } // A condition guards execution of a command. type condition struct { want bool tag string } // A command is a complete command parsed from a script. type command struct { want simpleStatus conds []condition // all must be satisfied name string // the name of the command; must be non-empty args []string // shell-expanded arguments following name } // parse parses a single line as a list of space-separated arguments // subject to environment variable expansion (but not resplitting). // Single quotes around text disable splitting and expansion. // To embed a single quote, double it: 'Don''t communicate by sharing memory.' func (ts *testScript) parse(line string) command { ts.line = line var ( cmd command arg string // text of current arg so far (need to add line[start:i]) start = -1 // if >= 0, position where current arg text chunk starts quoted = false // currently processing quoted text isRegexp = false // currently processing unquoted regular expression ) flushArg := func() { defer func() { arg = "" start = -1 }() if cmd.name != "" { cmd.args = append(cmd.args, arg) // Commands take only one regexp argument (after the optional flags), // so no subsequent args are regexps. Liberally assume an argument that // starts with a '-' is a flag. if len(arg) == 0 || arg[0] != '-' { isRegexp = false } return } // Command prefix ! means negate the expectations about this command: // go command should fail, match should not be found, etc. // Prefix ? means allow either success or failure. switch want := simpleStatus(arg); want { case failure, successOrFailure: if cmd.want != "" { ts.fatalf("duplicated '!' or '?' token") } cmd.want = want return } // Command prefix [cond] means only run this command if cond is satisfied. if strings.HasPrefix(arg, "[") && strings.HasSuffix(arg, "]") { want := true arg = strings.TrimSpace(arg[1 : len(arg)-1]) if strings.HasPrefix(arg, "!") { want = false arg = strings.TrimSpace(arg[1:]) } if arg == "" { ts.fatalf("empty condition") } cmd.conds = append(cmd.conds, condition{want: want, tag: arg}) return } cmd.name = arg isRegexp = regexpCmd[cmd.name] } for i := 0; ; i++ { if !quoted && (i >= len(line) || line[i] == ' ' || line[i] == '\t' || line[i] == '\r' || line[i] == '#') { // Found arg-separating space. if start >= 0 { arg += ts.expand(line[start:i], isRegexp) flushArg() } if i >= len(line) || line[i] == '#' { break } continue } if i >= len(line) { ts.fatalf("unterminated quoted argument") } if line[i] == '\'' { if !quoted { // starting a quoted chunk if start >= 0 { arg += ts.expand(line[start:i], isRegexp) } start = i + 1 quoted = true continue } // 'foo''bar' means foo'bar, like in rc shell and Pascal. if i+1 < len(line) && line[i+1] == '\'' { arg += line[start:i] start = i + 1 i++ // skip over second ' before next iteration continue } // ending a quoted chunk arg += line[start:i] start = i + 1 quoted = false continue } // found character worth saving; make sure we're saving if start < 0 { start = i } } return cmd } // diff returns a formatted diff of the two texts, // showing the entire text and the minimum line-level // additions and removals to turn text1 into text2. // (That is, lines only in text1 appear with a leading -, // and lines only in text2 appear with a leading +.) func diff(text1, text2 string) string { if text1 != "" && !strings.HasSuffix(text1, "\n") { text1 += "(missing final newline)" } lines1 := strings.Split(text1, "\n") lines1 = lines1[:len(lines1)-1] // remove empty string after final line if text2 != "" && !strings.HasSuffix(text2, "\n") { text2 += "(missing final newline)" } lines2 := strings.Split(text2, "\n") lines2 = lines2[:len(lines2)-1] // remove empty string after final line // Naive dynamic programming algorithm for edit distance. // https://en.wikipedia.org/wiki/Wagner–Fischer_algorithm // dist[i][j] = edit distance between lines1[:len(lines1)-i] and lines2[:len(lines2)-j] // (The reversed indices make following the minimum cost path // visit lines in the same order as in the text.) dist := make([][]int, len(lines1)+1) for i := range dist { dist[i] = make([]int, len(lines2)+1) if i == 0 { for j := range dist[0] { dist[0][j] = j } continue } for j := range dist[i] { if j == 0 { dist[i][0] = i continue } cost := dist[i][j-1] + 1 if cost > dist[i-1][j]+1 { cost = dist[i-1][j] + 1 } if lines1[len(lines1)-i] == lines2[len(lines2)-j] { if cost > dist[i-1][j-1] { cost = dist[i-1][j-1] } } dist[i][j] = cost } } var buf strings.Builder i, j := len(lines1), len(lines2) for i > 0 || j > 0 { cost := dist[i][j] if i > 0 && j > 0 && cost == dist[i-1][j-1] && lines1[len(lines1)-i] == lines2[len(lines2)-j] { fmt.Fprintf(&buf, " %s\n", lines1[len(lines1)-i]) i-- j-- } else if i > 0 && cost == dist[i-1][j]+1 { fmt.Fprintf(&buf, "-%s\n", lines1[len(lines1)-i]) i-- } else { fmt.Fprintf(&buf, "+%s\n", lines2[len(lines2)-j]) j-- } } return buf.String() } var diffTests = []struct { text1 string text2 string diff string }{ {"a b c", "a b d e f", "a b -c +d +e +f"}, {"", "a b c", "+a +b +c"}, {"a b c", "", "-a -b -c"}, {"a b c", "d e f", "-a -b -c +d +e +f"}, {"a b c d e f", "a b d e f", "a b -c d e f"}, {"a b c e f", "a b c d e f", "a b c +d e f"}, } func TestDiff(t *testing.T) { t.Parallel() for _, tt := range diffTests { // Turn spaces into \n. text1 := strings.ReplaceAll(tt.text1, " ", "\n") if text1 != "" { text1 += "\n" } text2 := strings.ReplaceAll(tt.text2, " ", "\n") if text2 != "" { text2 += "\n" } out := diff(text1, text2) // Cut final \n, cut spaces, turn remaining \n into spaces. out = strings.ReplaceAll(strings.ReplaceAll(strings.TrimSuffix(out, "\n"), " ", ""), "\n", " ") if out != tt.diff { t.Errorf("diff(%q, %q) = %q, want %q", text1, text2, out, tt.diff) } } }