blob: db3e9f6c2fc18040fc63b81c27375b90c53031d1 [file] [log] [blame]
// skip
// Copyright 2012 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.
// Run runs tests in the test directory.
package main
import (
"bytes"
"errors"
"flag"
"fmt"
"hash/fnv"
"io"
"io/fs"
"io/ioutil"
"log"
"os"
"os/exec"
"path"
"path/filepath"
"regexp"
"runtime"
"sort"
"strconv"
"strings"
"time"
"unicode"
)
var (
verbose = flag.Bool("v", false, "verbose. if set, parallelism is set to 1.")
keep = flag.Bool("k", false, "keep. keep temporary directory.")
numParallel = flag.Int("n", runtime.NumCPU(), "number of parallel tests to run")
summary = flag.Bool("summary", false, "show summary of results")
allCodegen = flag.Bool("all_codegen", defaultAllCodeGen(), "run all goos/goarch for codegen")
showSkips = flag.Bool("show_skips", false, "show skipped tests")
runSkips = flag.Bool("run_skips", false, "run skipped tests (ignore skip and build tags)")
linkshared = flag.Bool("linkshared", false, "")
updateErrors = flag.Bool("update_errors", false, "update error messages in test file based on compiler output")
runoutputLimit = flag.Int("l", defaultRunOutputLimit(), "number of parallel runoutput tests to run")
shard = flag.Int("shard", 0, "shard index to run. Only applicable if -shards is non-zero.")
shards = flag.Int("shards", 0, "number of shards. If 0, all tests are run. This is used by the continuous build.")
)
// defaultAllCodeGen returns the default value of the -all_codegen
// flag. By default, we prefer to be fast (returning false), except on
// the linux-amd64 builder that's already very fast, so we get more
// test coverage on trybots. See https://golang.org/issue/34297.
func defaultAllCodeGen() bool {
return os.Getenv("GO_BUILDER_NAME") == "linux-amd64"
}
var (
goos, goarch string
// dirs are the directories to look for *.go files in.
// TODO(bradfitz): just use all directories?
dirs = []string{".", "ken", "chan", "interface", "syntax", "dwarf", "fixedbugs", "codegen", "runtime"}
// ratec controls the max number of tests running at a time.
ratec chan bool
// toRun is the channel of tests to run.
// It is nil until the first test is started.
toRun chan *test
// rungatec controls the max number of runoutput tests
// executed in parallel as they can each consume a lot of memory.
rungatec chan bool
)
// maxTests is an upper bound on the total number of tests.
// It is used as a channel buffer size to make sure sends don't block.
const maxTests = 5000
func main() {
flag.Parse()
goos = getenv("GOOS", runtime.GOOS)
goarch = getenv("GOARCH", runtime.GOARCH)
findExecCmd()
// Disable parallelism if printing or if using a simulator.
if *verbose || len(findExecCmd()) > 0 {
*numParallel = 1
*runoutputLimit = 1
}
ratec = make(chan bool, *numParallel)
rungatec = make(chan bool, *runoutputLimit)
var tests []*test
if flag.NArg() > 0 {
for _, arg := range flag.Args() {
if arg == "-" || arg == "--" {
// Permit running:
// $ go run run.go - env.go
// $ go run run.go -- env.go
// $ go run run.go - ./fixedbugs
// $ go run run.go -- ./fixedbugs
continue
}
if fi, err := os.Stat(arg); err == nil && fi.IsDir() {
for _, baseGoFile := range goFiles(arg) {
tests = append(tests, startTest(arg, baseGoFile))
}
} else if strings.HasSuffix(arg, ".go") {
dir, file := filepath.Split(arg)
tests = append(tests, startTest(dir, file))
} else {
log.Fatalf("can't yet deal with non-directory and non-go file %q", arg)
}
}
} else {
for _, dir := range dirs {
for _, baseGoFile := range goFiles(dir) {
tests = append(tests, startTest(dir, baseGoFile))
}
}
}
failed := false
resCount := map[string]int{}
for _, test := range tests {
<-test.donec
status := "ok "
errStr := ""
if e, isSkip := test.err.(skipError); isSkip {
test.err = nil
errStr = "unexpected skip for " + path.Join(test.dir, test.gofile) + ": " + string(e)
status = "FAIL"
}
if test.err != nil {
status = "FAIL"
errStr = test.err.Error()
}
if status == "FAIL" {
failed = true
}
resCount[status]++
dt := fmt.Sprintf("%.3fs", test.dt.Seconds())
if status == "FAIL" {
fmt.Printf("# go run run.go -- %s\n%s\nFAIL\t%s\t%s\n",
path.Join(test.dir, test.gofile),
errStr, test.goFileName(), dt)
continue
}
if !*verbose {
continue
}
fmt.Printf("%s\t%s\t%s\n", status, test.goFileName(), dt)
}
if *summary {
for k, v := range resCount {
fmt.Printf("%5d %s\n", v, k)
}
}
if failed {
os.Exit(1)
}
}
// goTool reports the path of the go tool to use to run the tests.
// If possible, use the same Go used to run run.go, otherwise
// fallback to the go version found in the PATH.
func goTool() string {
var exeSuffix string
if runtime.GOOS == "windows" {
exeSuffix = ".exe"
}
path := filepath.Join(runtime.GOROOT(), "bin", "go"+exeSuffix)
if _, err := os.Stat(path); err == nil {
return path
}
// Just run "go" from PATH
return "go"
}
func shardMatch(name string) bool {
if *shards == 0 {
return true
}
h := fnv.New32()
io.WriteString(h, name)
return int(h.Sum32()%uint32(*shards)) == *shard
}
func goFiles(dir string) []string {
f, err := os.Open(dir)
if err != nil {
log.Fatal(err)
}
dirnames, err := f.Readdirnames(-1)
f.Close()
if err != nil {
log.Fatal(err)
}
names := []string{}
for _, name := range dirnames {
if !strings.HasPrefix(name, ".") && strings.HasSuffix(name, ".go") && shardMatch(name) {
names = append(names, name)
}
}
sort.Strings(names)
return names
}
type runCmd func(...string) ([]byte, error)
func compileFile(runcmd runCmd, longname string, flags []string) (out []byte, err error) {
cmd := []string{goTool(), "tool", "compile", "-e"}
cmd = append(cmd, flags...)
if *linkshared {
cmd = append(cmd, "-dynlink", "-installsuffix=dynlink")
}
cmd = append(cmd, longname)
return runcmd(cmd...)
}
func compileInDir(runcmd runCmd, dir string, flags []string, localImports bool, names ...string) (out []byte, err error) {
cmd := []string{goTool(), "tool", "compile", "-e"}
if localImports {
// Set relative path for local imports and import search path to current dir.
cmd = append(cmd, "-D", ".", "-I", ".")
}
cmd = append(cmd, flags...)
if *linkshared {
cmd = append(cmd, "-dynlink", "-installsuffix=dynlink")
}
for _, name := range names {
cmd = append(cmd, filepath.Join(dir, name))
}
return runcmd(cmd...)
}
func linkFile(runcmd runCmd, goname string, ldflags []string) (err error) {
pfile := strings.Replace(goname, ".go", ".o", -1)
cmd := []string{goTool(), "tool", "link", "-w", "-o", "a.exe", "-L", "."}
if *linkshared {
cmd = append(cmd, "-linkshared", "-installsuffix=dynlink")
}
if ldflags != nil {
cmd = append(cmd, ldflags...)
}
cmd = append(cmd, pfile)
_, err = runcmd(cmd...)
return
}
// skipError describes why a test was skipped.
type skipError string
func (s skipError) Error() string { return string(s) }
// test holds the state of a test.
type test struct {
dir, gofile string
donec chan bool // closed when done
dt time.Duration
src string
tempDir string
err error
}
// startTest
func startTest(dir, gofile string) *test {
t := &test{
dir: dir,
gofile: gofile,
donec: make(chan bool, 1),
}
if toRun == nil {
toRun = make(chan *test, maxTests)
go runTests()
}
select {
case toRun <- t:
default:
panic("toRun buffer size (maxTests) is too small")
}
return t
}
// runTests runs tests in parallel, but respecting the order they
// were enqueued on the toRun channel.
func runTests() {
for {
ratec <- true
t := <-toRun
go func() {
t.run()
<-ratec
}()
}
}
var cwd, _ = os.Getwd()
func (t *test) goFileName() string {
return filepath.Join(t.dir, t.gofile)
}
func (t *test) goDirName() string {
return filepath.Join(t.dir, strings.Replace(t.gofile, ".go", ".dir", -1))
}
func goDirFiles(longdir string) (filter []os.FileInfo, err error) {
files, dirErr := ioutil.ReadDir(longdir)
if dirErr != nil {
return nil, dirErr
}
for _, gofile := range files {
if filepath.Ext(gofile.Name()) == ".go" {
filter = append(filter, gofile)
}
}
return
}
var packageRE = regexp.MustCompile(`(?m)^package ([\p{Lu}\p{Ll}\w]+)`)
func getPackageNameFromSource(fn string) (string, error) {
data, err := ioutil.ReadFile(fn)
if err != nil {
return "", err
}
pkgname := packageRE.FindStringSubmatch(string(data))
if pkgname == nil {
return "", fmt.Errorf("cannot find package name in %s", fn)
}
return pkgname[1], nil
}
// If singlefilepkgs is set, each file is considered a separate package
// even if the package names are the same.
func goDirPackages(longdir string, singlefilepkgs bool) ([][]string, error) {
files, err := goDirFiles(longdir)
if err != nil {
return nil, err
}
var pkgs [][]string
m := make(map[string]int)
for _, file := range files {
name := file.Name()
pkgname, err := getPackageNameFromSource(filepath.Join(longdir, name))
if err != nil {
log.Fatal(err)
}
i, ok := m[pkgname]
if singlefilepkgs || !ok {
i = len(pkgs)
pkgs = append(pkgs, nil)
m[pkgname] = i
}
pkgs[i] = append(pkgs[i], name)
}
return pkgs, nil
}
type context struct {
GOOS string
GOARCH string
noOptEnv bool
}
// shouldTest looks for build tags in a source file and returns
// whether the file should be used according to the tags.
func shouldTest(src string, goos, goarch string) (ok bool, whyNot string) {
if *runSkips {
return true, ""
}
for _, line := range strings.Split(src, "\n") {
line = strings.TrimSpace(line)
if strings.HasPrefix(line, "//") {
line = line[2:]
} else {
continue
}
line = strings.TrimSpace(line)
if len(line) == 0 || line[0] != '+' {
continue
}
gcFlags := os.Getenv("GO_GCFLAGS")
ctxt := &context{
GOOS: goos,
GOARCH: goarch,
noOptEnv: strings.Contains(gcFlags, "-N") || strings.Contains(gcFlags, "-l"),
}
words := strings.Fields(line)
if words[0] == "+build" {
ok := false
for _, word := range words[1:] {
if ctxt.match(word) {
ok = true
break
}
}
if !ok {
// no matching tag found.
return false, line
}
}
}
// no build tags
return true, ""
}
func (ctxt *context) match(name string) bool {
if name == "" {
return false
}
if i := strings.Index(name, ","); i >= 0 {
// comma-separated list
return ctxt.match(name[:i]) && ctxt.match(name[i+1:])
}
if strings.HasPrefix(name, "!!") { // bad syntax, reject always
return false
}
if strings.HasPrefix(name, "!") { // negation
return len(name) > 1 && !ctxt.match(name[1:])
}
// Tags must be letters, digits, underscores or dots.
// Unlike in Go identifiers, all digits are fine (e.g., "386").
for _, c := range name {
if !unicode.IsLetter(c) && !unicode.IsDigit(c) && c != '_' && c != '.' {
return false
}
}
if name == ctxt.GOOS || name == ctxt.GOARCH || name == "gc" {
return true
}
if ctxt.noOptEnv && name == "gcflags_noopt" {
return true
}
if name == "test_run" {
return true
}
return false
}
func init() { checkShouldTest() }
// goGcflags returns the -gcflags argument to use with go build / go run.
// This must match the flags used for building the standard library,
// or else the commands will rebuild any needed packages (like runtime)
// over and over.
func goGcflags() string {
return "-gcflags=all=" + os.Getenv("GO_GCFLAGS")
}
func goGcflagsIsEmpty() bool {
return "" == os.Getenv("GO_GCFLAGS")
}
// run runs a test.
func (t *test) run() {
start := time.Now()
defer func() {
t.dt = time.Since(start)
close(t.donec)
}()
srcBytes, err := ioutil.ReadFile(t.goFileName())
if err != nil {
t.err = err
return
}
t.src = string(srcBytes)
if t.src[0] == '\n' {
t.err = skipError("starts with newline")
return
}
// Execution recipe stops at first blank line.
pos := strings.Index(t.src, "\n\n")
if pos == -1 {
t.err = errors.New("double newline not found")
return
}
action := t.src[:pos]
if nl := strings.Index(action, "\n"); nl >= 0 && strings.Contains(action[:nl], "+build") {
// skip first line
action = action[nl+1:]
}
action = strings.TrimPrefix(action, "//")
// Check for build constraints only up to the actual code.
pkgPos := strings.Index(t.src, "\npackage")
if pkgPos == -1 {
pkgPos = pos // some files are intentionally malformed
}
if ok, why := shouldTest(t.src[:pkgPos], goos, goarch); !ok {
if *showSkips {
fmt.Printf("%-20s %-20s: %s\n", "skip", t.goFileName(), why)
}
return
}
var args, flags []string
var tim int
wantError := false
wantAuto := false
singlefilepkgs := false
setpkgpaths := false
localImports := true
f := strings.Fields(action)
if len(f) > 0 {
action = f[0]
args = f[1:]
}
// TODO: Clean up/simplify this switch statement.
switch action {
case "compile", "compiledir", "build", "builddir", "buildrundir", "run", "buildrun", "runoutput", "rundir", "runindir", "asmcheck":
// nothing to do
case "errorcheckandrundir":
wantError = false // should be no error if also will run
case "errorcheckwithauto":
action = "errorcheck"
wantAuto = true
wantError = true
case "errorcheck", "errorcheckdir", "errorcheckoutput":
wantError = true
case "skip":
if *runSkips {
break
}
return
default:
t.err = skipError("skipped; unknown pattern: " + action)
return
}
// collect flags
for len(args) > 0 && strings.HasPrefix(args[0], "-") {
switch args[0] {
case "-1":
wantError = true
case "-0":
wantError = false
case "-s":
singlefilepkgs = true
case "-P":
setpkgpaths = true
case "-n":
// Do not set relative path for local imports to current dir,
// e.g. do not pass -D . -I . to the compiler.
// Used in fixedbugs/bug345.go to allow compilation and import of local pkg.
// See golang.org/issue/25635
localImports = false
case "-t": // timeout in seconds
args = args[1:]
var err error
tim, err = strconv.Atoi(args[0])
if err != nil {
t.err = fmt.Errorf("need number of seconds for -t timeout, got %s instead", args[0])
}
default:
flags = append(flags, args[0])
}
args = args[1:]
}
if action == "errorcheck" {
found := false
for i, f := range flags {
if strings.HasPrefix(f, "-d=") {
flags[i] = f + ",ssa/check/on"
found = true
break
}
}
if !found {
flags = append(flags, "-d=ssa/check/on")
}
}
t.makeTempDir()
if !*keep {
defer os.RemoveAll(t.tempDir)
}
err = ioutil.WriteFile(filepath.Join(t.tempDir, t.gofile), srcBytes, 0644)
if err != nil {
log.Fatal(err)
}
// A few tests (of things like the environment) require these to be set.
if os.Getenv("GOOS") == "" {
os.Setenv("GOOS", runtime.GOOS)
}
if os.Getenv("GOARCH") == "" {
os.Setenv("GOARCH", runtime.GOARCH)
}
var (
runInDir = t.tempDir
tempDirIsGOPATH = false
)
runcmd := func(args ...string) ([]byte, error) {
cmd := exec.Command(args[0], args[1:]...)
var buf bytes.Buffer
cmd.Stdout = &buf
cmd.Stderr = &buf
cmd.Env = append(os.Environ(), "GOENV=off", "GOFLAGS=")
if runInDir != "" {
cmd.Dir = runInDir
// Set PWD to match Dir to speed up os.Getwd in the child process.
cmd.Env = append(cmd.Env, "PWD="+cmd.Dir)
}
if tempDirIsGOPATH {
cmd.Env = append(cmd.Env, "GOPATH="+t.tempDir)
}
var err error
if tim != 0 {
err = cmd.Start()
// This command-timeout code adapted from cmd/go/test.go
if err == nil {
tick := time.NewTimer(time.Duration(tim) * time.Second)
done := make(chan error)
go func() {
done <- cmd.Wait()
}()
select {
case err = <-done:
// ok
case <-tick.C:
cmd.Process.Kill()
err = <-done
// err = errors.New("Test timeout")
}
tick.Stop()
}
} else {
err = cmd.Run()
}
if err != nil {
err = fmt.Errorf("%s\n%s", err, buf.Bytes())
}
return buf.Bytes(), err
}
long := filepath.Join(cwd, t.goFileName())
switch action {
default:
t.err = fmt.Errorf("unimplemented action %q", action)
case "asmcheck":
// Compile Go file and match the generated assembly
// against a set of regexps in comments.
ops := t.wantedAsmOpcodes(long)
self := runtime.GOOS + "/" + runtime.GOARCH
for _, env := range ops.Envs() {
// Only run checks relevant to the current GOOS/GOARCH,
// to avoid triggering a cross-compile of the runtime.
if string(env) != self && !strings.HasPrefix(string(env), self+"/") && !*allCodegen {
continue
}
// -S=2 forces outermost line numbers when disassembling inlined code.
cmdline := []string{"build", "-gcflags", "-S=2"}
// Append flags, but don't override -gcflags=-S=2; add to it instead.
for i := 0; i < len(flags); i++ {
flag := flags[i]
switch {
case strings.HasPrefix(flag, "-gcflags="):
cmdline[2] += " " + strings.TrimPrefix(flag, "-gcflags=")
case strings.HasPrefix(flag, "--gcflags="):
cmdline[2] += " " + strings.TrimPrefix(flag, "--gcflags=")
case flag == "-gcflags", flag == "--gcflags":
i++
if i < len(flags) {
cmdline[2] += " " + flags[i]
}
default:
cmdline = append(cmdline, flag)
}
}
cmdline = append(cmdline, long)
cmd := exec.Command(goTool(), cmdline...)
cmd.Env = append(os.Environ(), env.Environ()...)
if len(flags) > 0 && flags[0] == "-race" {
cmd.Env = append(cmd.Env, "CGO_ENABLED=1")
}
var buf bytes.Buffer
cmd.Stdout, cmd.Stderr = &buf, &buf
if err := cmd.Run(); err != nil {
fmt.Println(env, "\n", cmd.Stderr)
t.err = err
return
}
t.err = t.asmCheck(buf.String(), long, env, ops[env])
if t.err != nil {
return
}
}
return
case "errorcheck":
// Compile Go file.
// Fail if wantError is true and compilation was successful and vice versa.
// Match errors produced by gc against errors in comments.
// TODO(gri) remove need for -C (disable printing of columns in error messages)
cmdline := []string{goTool(), "tool", "compile", "-C", "-e", "-o", "a.o"}
// No need to add -dynlink even if linkshared if we're just checking for errors...
cmdline = append(cmdline, flags...)
cmdline = append(cmdline, long)
out, err := runcmd(cmdline...)
if wantError {
if err == nil {
t.err = fmt.Errorf("compilation succeeded unexpectedly\n%s", out)
return
}
} else {
if err != nil {
t.err = err
return
}
}
if *updateErrors {
t.updateErrors(string(out), long)
}
t.err = t.errorCheck(string(out), wantAuto, long, t.gofile)
return
case "compile":
// Compile Go file.
_, t.err = compileFile(runcmd, long, flags)
case "compiledir":
// Compile all files in the directory as packages in lexicographic order.
longdir := filepath.Join(cwd, t.goDirName())
pkgs, err := goDirPackages(longdir, singlefilepkgs)
if err != nil {
t.err = err
return
}
for _, gofiles := range pkgs {
_, t.err = compileInDir(runcmd, longdir, flags, localImports, gofiles...)
if t.err != nil {
return
}
}
case "errorcheckdir", "errorcheckandrundir":
// Compile and errorCheck all files in the directory as packages in lexicographic order.
// If errorcheckdir and wantError, compilation of the last package must fail.
// If errorcheckandrundir and wantError, compilation of the package prior the last must fail.
longdir := filepath.Join(cwd, t.goDirName())
pkgs, err := goDirPackages(longdir, singlefilepkgs)
if err != nil {
t.err = err
return
}
errPkg := len(pkgs) - 1
if wantError && action == "errorcheckandrundir" {
// The last pkg should compiled successfully and will be run in next case.
// Preceding pkg must return an error from compileInDir.
errPkg--
}
for i, gofiles := range pkgs {
out, err := compileInDir(runcmd, longdir, flags, localImports, gofiles...)
if i == errPkg {
if wantError && err == nil {
t.err = fmt.Errorf("compilation succeeded unexpectedly\n%s", out)
return
} else if !wantError && err != nil {
t.err = err
return
}
} else if err != nil {
t.err = err
return
}
var fullshort []string
for _, name := range gofiles {
fullshort = append(fullshort, filepath.Join(longdir, name), name)
}
t.err = t.errorCheck(string(out), wantAuto, fullshort...)
if t.err != nil {
break
}
}
if action == "errorcheckdir" {
return
}
fallthrough
case "rundir":
// Compile all files in the directory as packages in lexicographic order.
// In case of errorcheckandrundir, ignore failed compilation of the package before the last.
// Link as if the last file is the main package, run it.
// Verify the expected output.
longdir := filepath.Join(cwd, t.goDirName())
pkgs, err := goDirPackages(longdir, singlefilepkgs)
if err != nil {
t.err = err
return
}
// Split flags into gcflags and ldflags
ldflags := []string{}
for i, fl := range flags {
if fl == "-ldflags" {
ldflags = flags[i+1:]
flags = flags[0:i]
break
}
}
for i, gofiles := range pkgs {
pflags := []string{}
pflags = append(pflags, flags...)
if setpkgpaths {
fp := filepath.Join(longdir, gofiles[0])
pkgname, err := getPackageNameFromSource(fp)
if err != nil {
log.Fatal(err)
}
pflags = append(pflags, "-p", pkgname)
}
_, err := compileInDir(runcmd, longdir, pflags, localImports, gofiles...)
// Allow this package compilation fail based on conditions below;
// its errors were checked in previous case.
if err != nil && !(wantError && action == "errorcheckandrundir" && i == len(pkgs)-2) {
t.err = err
return
}
if i == len(pkgs)-1 {
err = linkFile(runcmd, gofiles[0], ldflags)
if err != nil {
t.err = err
return
}
var cmd []string
cmd = append(cmd, findExecCmd()...)
cmd = append(cmd, filepath.Join(t.tempDir, "a.exe"))
cmd = append(cmd, args...)
out, err := runcmd(cmd...)
if err != nil {
t.err = err
return
}
if strings.Replace(string(out), "\r\n", "\n", -1) != t.expectedOutput() {
t.err = fmt.Errorf("incorrect output\n%s", out)
}
}
}
case "runindir":
// Make a shallow copy of t.goDirName() in its own module and GOPATH, and
// run "go run ." in it. The module path (and hence import path prefix) of
// the copy is equal to the basename of the source directory.
//
// It's used when test a requires a full 'go build' in order to compile
// the sources, such as when importing multiple packages (issue29612.dir)
// or compiling a package containing assembly files (see issue15609.dir),
// but still needs to be run to verify the expected output.
tempDirIsGOPATH = true
srcDir := t.goDirName()
modName := filepath.Base(srcDir)
gopathSrcDir := filepath.Join(t.tempDir, "src", modName)
runInDir = gopathSrcDir
if err := overlayDir(gopathSrcDir, srcDir); err != nil {
t.err = err
return
}
modFile := fmt.Sprintf("module %s\ngo 1.14\n", modName)
if err := ioutil.WriteFile(filepath.Join(gopathSrcDir, "go.mod"), []byte(modFile), 0666); err != nil {
t.err = err
return
}
cmd := []string{goTool(), "run", goGcflags()}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
cmd = append(cmd, ".")
out, err := runcmd(cmd...)
if err != nil {
t.err = err
return
}
if strings.Replace(string(out), "\r\n", "\n", -1) != t.expectedOutput() {
t.err = fmt.Errorf("incorrect output\n%s", out)
}
case "build":
// Build Go file.
_, err := runcmd(goTool(), "build", goGcflags(), "-o", "a.exe", long)
if err != nil {
t.err = err
}
case "builddir", "buildrundir":
// Build an executable from all the .go and .s files in a subdirectory.
// Run it and verify its output in the buildrundir case.
longdir := filepath.Join(cwd, t.goDirName())
files, dirErr := ioutil.ReadDir(longdir)
if dirErr != nil {
t.err = dirErr
break
}
var gos []string
var asms []string
for _, file := range files {
switch filepath.Ext(file.Name()) {
case ".go":
gos = append(gos, filepath.Join(longdir, file.Name()))
case ".s":
asms = append(asms, filepath.Join(longdir, file.Name()))
}
}
if len(asms) > 0 {
emptyHdrFile := filepath.Join(t.tempDir, "go_asm.h")
if err := ioutil.WriteFile(emptyHdrFile, nil, 0666); err != nil {
t.err = fmt.Errorf("write empty go_asm.h: %s", err)
return
}
cmd := []string{goTool(), "tool", "asm", "-gensymabis", "-o", "symabis"}
cmd = append(cmd, asms...)
_, err = runcmd(cmd...)
if err != nil {
t.err = err
break
}
}
var objs []string
cmd := []string{goTool(), "tool", "compile", "-e", "-D", ".", "-I", ".", "-o", "go.o"}
if len(asms) > 0 {
cmd = append(cmd, "-asmhdr", "go_asm.h", "-symabis", "symabis")
}
cmd = append(cmd, gos...)
_, err := runcmd(cmd...)
if err != nil {
t.err = err
break
}
objs = append(objs, "go.o")
if len(asms) > 0 {
cmd = []string{goTool(), "tool", "asm", "-e", "-I", ".", "-o", "asm.o"}
cmd = append(cmd, asms...)
_, err = runcmd(cmd...)
if err != nil {
t.err = err
break
}
objs = append(objs, "asm.o")
}
cmd = []string{goTool(), "tool", "pack", "c", "all.a"}
cmd = append(cmd, objs...)
_, err = runcmd(cmd...)
if err != nil {
t.err = err
break
}
cmd = []string{goTool(), "tool", "link", "-o", "a.exe", "all.a"}
_, err = runcmd(cmd...)
if err != nil {
t.err = err
break
}
if action == "buildrundir" {
cmd = append(findExecCmd(), filepath.Join(t.tempDir, "a.exe"))
out, err := runcmd(cmd...)
if err != nil {
t.err = err
break
}
if strings.Replace(string(out), "\r\n", "\n", -1) != t.expectedOutput() {
t.err = fmt.Errorf("incorrect output\n%s", out)
}
}
case "buildrun":
// Build an executable from Go file, then run it, verify its output.
// Useful for timeout tests where failure mode is infinite loop.
// TODO: not supported on NaCl
cmd := []string{goTool(), "build", goGcflags(), "-o", "a.exe"}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
longdirgofile := filepath.Join(filepath.Join(cwd, t.dir), t.gofile)
cmd = append(cmd, flags...)
cmd = append(cmd, longdirgofile)
_, err := runcmd(cmd...)
if err != nil {
t.err = err
return
}
cmd = []string{"./a.exe"}
out, err := runcmd(append(cmd, args...)...)
if err != nil {
t.err = err
return
}
if strings.Replace(string(out), "\r\n", "\n", -1) != t.expectedOutput() {
t.err = fmt.Errorf("incorrect output\n%s", out)
}
case "run":
// Run Go file if no special go command flags are provided;
// otherwise build an executable and run it.
// Verify the output.
runInDir = ""
var out []byte
var err error
if len(flags)+len(args) == 0 && goGcflagsIsEmpty() && !*linkshared && goarch == runtime.GOARCH && goos == runtime.GOOS {
// If we're not using special go command flags,
// skip all the go command machinery.
// This avoids any time the go command would
// spend checking whether, for example, the installed
// package runtime is up to date.
// Because we run lots of trivial test programs,
// the time adds up.
pkg := filepath.Join(t.tempDir, "pkg.a")
if _, err := runcmd(goTool(), "tool", "compile", "-o", pkg, t.goFileName()); err != nil {
t.err = err
return
}
exe := filepath.Join(t.tempDir, "test.exe")
cmd := []string{goTool(), "tool", "link", "-s", "-w"}
cmd = append(cmd, "-o", exe, pkg)
if _, err := runcmd(cmd...); err != nil {
t.err = err
return
}
out, err = runcmd(append([]string{exe}, args...)...)
} else {
cmd := []string{goTool(), "run", goGcflags()}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
cmd = append(cmd, flags...)
cmd = append(cmd, t.goFileName())
out, err = runcmd(append(cmd, args...)...)
}
if err != nil {
t.err = err
return
}
if strings.Replace(string(out), "\r\n", "\n", -1) != t.expectedOutput() {
t.err = fmt.Errorf("incorrect output\n%s", out)
}
case "runoutput":
// Run Go file and write its output into temporary Go file.
// Run generated Go file and verify its output.
rungatec <- true
defer func() {
<-rungatec
}()
runInDir = ""
cmd := []string{goTool(), "run", goGcflags()}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
cmd = append(cmd, t.goFileName())
out, err := runcmd(append(cmd, args...)...)
if err != nil {
t.err = err
return
}
tfile := filepath.Join(t.tempDir, "tmp__.go")
if err := ioutil.WriteFile(tfile, out, 0666); err != nil {
t.err = fmt.Errorf("write tempfile:%s", err)
return
}
cmd = []string{goTool(), "run", goGcflags()}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
cmd = append(cmd, tfile)
out, err = runcmd(cmd...)
if err != nil {
t.err = err
return
}
if string(out) != t.expectedOutput() {
t.err = fmt.Errorf("incorrect output\n%s", out)
}
case "errorcheckoutput":
// Run Go file and write its output into temporary Go file.
// Compile and errorCheck generated Go file.
runInDir = ""
cmd := []string{goTool(), "run", goGcflags()}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
cmd = append(cmd, t.goFileName())
out, err := runcmd(append(cmd, args...)...)
if err != nil {
t.err = err
return
}
tfile := filepath.Join(t.tempDir, "tmp__.go")
err = ioutil.WriteFile(tfile, out, 0666)
if err != nil {
t.err = fmt.Errorf("write tempfile:%s", err)
return
}
cmdline := []string{goTool(), "tool", "compile", "-e", "-o", "a.o"}
cmdline = append(cmdline, flags...)
cmdline = append(cmdline, tfile)
out, err = runcmd(cmdline...)
if wantError {
if err == nil {
t.err = fmt.Errorf("compilation succeeded unexpectedly\n%s", out)
return
}
} else {
if err != nil {
t.err = err
return
}
}
t.err = t.errorCheck(string(out), false, tfile, "tmp__.go")
return
}
}
var execCmd []string
func findExecCmd() []string {
if execCmd != nil {
return execCmd
}
execCmd = []string{} // avoid work the second time
if goos == runtime.GOOS && goarch == runtime.GOARCH {
return execCmd
}
path, err := exec.LookPath(fmt.Sprintf("go_%s_%s_exec", goos, goarch))
if err == nil {
execCmd = []string{path}
}
return execCmd
}
func (t *test) String() string {
return filepath.Join(t.dir, t.gofile)
}
func (t *test) makeTempDir() {
var err error
t.tempDir, err = ioutil.TempDir("", "")
if err != nil {
log.Fatal(err)
}
if *keep {
log.Printf("Temporary directory is %s", t.tempDir)
}
}
func (t *test) expectedOutput() string {
filename := filepath.Join(t.dir, t.gofile)
filename = filename[:len(filename)-len(".go")]
filename += ".out"
b, _ := ioutil.ReadFile(filename)
return string(b)
}
func splitOutput(out string, wantAuto bool) []string {
// gc error messages continue onto additional lines with leading tabs.
// Split the output at the beginning of each line that doesn't begin with a tab.
// <autogenerated> lines are impossible to match so those are filtered out.
var res []string
for _, line := range strings.Split(out, "\n") {
if strings.HasSuffix(line, "\r") { // remove '\r', output by compiler on windows
line = line[:len(line)-1]
}
if strings.HasPrefix(line, "\t") {
res[len(res)-1] += "\n" + line
} else if strings.HasPrefix(line, "go tool") || strings.HasPrefix(line, "#") || !wantAuto && strings.HasPrefix(line, "<autogenerated>") {
continue
} else if strings.TrimSpace(line) != "" {
res = append(res, line)
}
}
return res
}
// errorCheck matches errors in outStr against comments in source files.
// For each line of the source files which should generate an error,
// there should be a comment of the form // ERROR "regexp".
// If outStr has an error for a line which has no such comment,
// this function will report an error.
// Likewise if outStr does not have an error for a line which has a comment,
// or if the error message does not match the <regexp>.
// The <regexp> syntax is Perl but it's best to stick to egrep.
//
// Sources files are supplied as fullshort slice.
// It consists of pairs: full path to source file and its base name.
func (t *test) errorCheck(outStr string, wantAuto bool, fullshort ...string) (err error) {
defer func() {
if *verbose && err != nil {
log.Printf("%s gc output:\n%s", t, outStr)
}
}()
var errs []error
out := splitOutput(outStr, wantAuto)
// Cut directory name.
for i := range out {
for j := 0; j < len(fullshort); j += 2 {
full, short := fullshort[j], fullshort[j+1]
out[i] = strings.Replace(out[i], full, short, -1)
}
}
var want []wantedError
for j := 0; j < len(fullshort); j += 2 {
full, short := fullshort[j], fullshort[j+1]
want = append(want, t.wantedErrors(full, short)...)
}
for _, we := range want {
var errmsgs []string
if we.auto {
errmsgs, out = partitionStrings("<autogenerated>", out)
} else {
errmsgs, out = partitionStrings(we.prefix, out)
}
if len(errmsgs) == 0 {
errs = append(errs, fmt.Errorf("%s:%d: missing error %q", we.file, we.lineNum, we.reStr))
continue
}
matched := false
n := len(out)
for _, errmsg := range errmsgs {
// Assume errmsg says "file:line: foo".
// Cut leading "file:line: " to avoid accidental matching of file name instead of message.
text := errmsg
if i := strings.Index(text, " "); i >= 0 {
text = text[i+1:]
}
if we.re.MatchString(text) {
matched = true
} else {
out = append(out, errmsg)
}
}
if !matched {
errs = append(errs, fmt.Errorf("%s:%d: no match for %#q in:\n\t%s", we.file, we.lineNum, we.reStr, strings.Join(out[n:], "\n\t")))
continue
}
}
if len(out) > 0 {
errs = append(errs, fmt.Errorf("Unmatched Errors:"))
for _, errLine := range out {
errs = append(errs, fmt.Errorf("%s", errLine))
}
}
if len(errs) == 0 {
return nil
}
if len(errs) == 1 {
return errs[0]
}
var buf bytes.Buffer
fmt.Fprintf(&buf, "\n")
for _, err := range errs {
fmt.Fprintf(&buf, "%s\n", err.Error())
}
return errors.New(buf.String())
}
func (t *test) updateErrors(out, file string) {
base := path.Base(file)
// Read in source file.
src, err := ioutil.ReadFile(file)
if err != nil {
fmt.Fprintln(os.Stderr, err)
return
}
lines := strings.Split(string(src), "\n")
// Remove old errors.
for i, ln := range lines {
pos := strings.Index(ln, " // ERROR ")
if pos >= 0 {
lines[i] = ln[:pos]
}
}
// Parse new errors.
errors := make(map[int]map[string]bool)
tmpRe := regexp.MustCompile(`autotmp_[0-9]+`)
for _, errStr := range splitOutput(out, false) {
colon1 := strings.Index(errStr, ":")
if colon1 < 0 || errStr[:colon1] != file {
continue
}
colon2 := strings.Index(errStr[colon1+1:], ":")
if colon2 < 0 {
continue
}
colon2 += colon1 + 1
line, err := strconv.Atoi(errStr[colon1+1 : colon2])
line--
if err != nil || line < 0 || line >= len(lines) {
continue
}
msg := errStr[colon2+2:]
msg = strings.Replace(msg, file, base, -1) // normalize file mentions in error itself
msg = strings.TrimLeft(msg, " \t")
for _, r := range []string{`\`, `*`, `+`, `?`, `[`, `]`, `(`, `)`} {
msg = strings.Replace(msg, r, `\`+r, -1)
}
msg = strings.Replace(msg, `"`, `.`, -1)
msg = tmpRe.ReplaceAllLiteralString(msg, `autotmp_[0-9]+`)
if errors[line] == nil {
errors[line] = make(map[string]bool)
}
errors[line][msg] = true
}
// Add new errors.
for line, errs := range errors {
var sorted []string
for e := range errs {
sorted = append(sorted, e)
}
sort.Strings(sorted)
lines[line] += " // ERROR"
for _, e := range sorted {
lines[line] += fmt.Sprintf(` "%s$"`, e)
}
}
// Write new file.
err = ioutil.WriteFile(file, []byte(strings.Join(lines, "\n")), 0640)
if err != nil {
fmt.Fprintln(os.Stderr, err)
return
}
// Polish.
exec.Command(goTool(), "fmt", file).CombinedOutput()
}
// matchPrefix reports whether s is of the form ^(.*/)?prefix(:|[),
// That is, it needs the file name prefix followed by a : or a [,
// and possibly preceded by a directory name.
func matchPrefix(s, prefix string) bool {
i := strings.Index(s, ":")
if i < 0 {
return false
}
j := strings.LastIndex(s[:i], "/")
s = s[j+1:]
if len(s) <= len(prefix) || s[:len(prefix)] != prefix {
return false
}
switch s[len(prefix)] {
case '[', ':':
return true
}
return false
}
func partitionStrings(prefix string, strs []string) (matched, unmatched []string) {
for _, s := range strs {
if matchPrefix(s, prefix) {
matched = append(matched, s)
} else {
unmatched = append(unmatched, s)
}
}
return
}
type wantedError struct {
reStr string
re *regexp.Regexp
lineNum int
auto bool // match <autogenerated> line
file string
prefix string
}
var (
errRx = regexp.MustCompile(`// (?:GC_)?ERROR (.*)`)
errAutoRx = regexp.MustCompile(`// (?:GC_)?ERRORAUTO (.*)`)
errQuotesRx = regexp.MustCompile(`"([^"]*)"`)
lineRx = regexp.MustCompile(`LINE(([+-])([0-9]+))?`)
)
func (t *test) wantedErrors(file, short string) (errs []wantedError) {
cache := make(map[string]*regexp.Regexp)
src, _ := ioutil.ReadFile(file)
for i, line := range strings.Split(string(src), "\n") {
lineNum := i + 1
if strings.Contains(line, "////") {
// double comment disables ERROR
continue
}
var auto bool
m := errAutoRx.FindStringSubmatch(line)
if m != nil {
auto = true
} else {
m = errRx.FindStringSubmatch(line)
}
if m == nil {
continue
}
all := m[1]
mm := errQuotesRx.FindAllStringSubmatch(all, -1)
if mm == nil {
log.Fatalf("%s:%d: invalid errchk line: %s", t.goFileName(), lineNum, line)
}
for _, m := range mm {
rx := lineRx.ReplaceAllStringFunc(m[1], func(m string) string {
n := lineNum
if strings.HasPrefix(m, "LINE+") {
delta, _ := strconv.Atoi(m[5:])
n += delta
} else if strings.HasPrefix(m, "LINE-") {
delta, _ := strconv.Atoi(m[5:])
n -= delta
}
return fmt.Sprintf("%s:%d", short, n)
})
re := cache[rx]
if re == nil {
var err error
re, err = regexp.Compile(rx)
if err != nil {
log.Fatalf("%s:%d: invalid regexp \"%s\" in ERROR line: %v", t.goFileName(), lineNum, rx, err)
}
cache[rx] = re
}
prefix := fmt.Sprintf("%s:%d", short, lineNum)
errs = append(errs, wantedError{
reStr: rx,
re: re,
prefix: prefix,
auto: auto,
lineNum: lineNum,
file: short,
})
}
}
return
}
const (
// Regexp to match a single opcode check: optionally begin with "-" (to indicate
// a negative check), followed by a string literal enclosed in "" or ``. For "",
// backslashes must be handled.
reMatchCheck = `-?(?:\x60[^\x60]*\x60|"(?:[^"\\]|\\.)*")`
)
var (
// Regexp to split a line in code and comment, trimming spaces
rxAsmComment = regexp.MustCompile(`^\s*(.*?)\s*(?://\s*(.+)\s*)?$`)
// Regexp to extract an architecture check: architecture name (or triplet),
// followed by semi-colon, followed by a comma-separated list of opcode checks.
// Extraneous spaces are ignored.
rxAsmPlatform = regexp.MustCompile(`(\w+)(/\w+)?(/\w*)?\s*:\s*(` + reMatchCheck + `(?:\s*,\s*` + reMatchCheck + `)*)`)
// Regexp to extract a single opcoded check
rxAsmCheck = regexp.MustCompile(reMatchCheck)
// List of all architecture variants. Key is the GOARCH architecture,
// value[0] is the variant-changing environment variable, and values[1:]
// are the supported variants.
archVariants = map[string][]string{
"386": {"GO386", "sse2", "softfloat"},
"amd64": {},
"arm": {"GOARM", "5", "6", "7"},
"arm64": {},
"mips": {"GOMIPS", "hardfloat", "softfloat"},
"mips64": {"GOMIPS64", "hardfloat", "softfloat"},
"ppc64": {"GOPPC64", "power8", "power9"},
"ppc64le": {"GOPPC64", "power8", "power9"},
"s390x": {},
"wasm": {},
}
)
// wantedAsmOpcode is a single asmcheck check
type wantedAsmOpcode struct {
fileline string // original source file/line (eg: "/path/foo.go:45")
line int // original source line
opcode *regexp.Regexp // opcode check to be performed on assembly output
negative bool // true if the check is supposed to fail rather than pass
found bool // true if the opcode check matched at least one in the output
}
// A build environment triplet separated by slashes (eg: linux/386/sse2).
// The third field can be empty if the arch does not support variants (eg: "plan9/amd64/")
type buildEnv string
// Environ returns the environment it represents in cmd.Environ() "key=val" format
// For instance, "linux/386/sse2".Environ() returns {"GOOS=linux", "GOARCH=386", "GO386=sse2"}
func (b buildEnv) Environ() []string {
fields := strings.Split(string(b), "/")
if len(fields) != 3 {
panic("invalid buildEnv string: " + string(b))
}
env := []string{"GOOS=" + fields[0], "GOARCH=" + fields[1]}
if fields[2] != "" {
env = append(env, archVariants[fields[1]][0]+"="+fields[2])
}
return env
}
// asmChecks represents all the asmcheck checks present in a test file
// The outer map key is the build triplet in which the checks must be performed.
// The inner map key represent the source file line ("filename.go:1234") at which the
// checks must be performed.
type asmChecks map[buildEnv]map[string][]wantedAsmOpcode
// Envs returns all the buildEnv in which at least one check is present
func (a asmChecks) Envs() []buildEnv {
var envs []buildEnv
for e := range a {
envs = append(envs, e)
}
sort.Slice(envs, func(i, j int) bool {
return string(envs[i]) < string(envs[j])
})
return envs
}
func (t *test) wantedAsmOpcodes(fn string) asmChecks {
ops := make(asmChecks)
comment := ""
src, _ := ioutil.ReadFile(fn)
for i, line := range strings.Split(string(src), "\n") {
matches := rxAsmComment.FindStringSubmatch(line)
code, cmt := matches[1], matches[2]
// Keep comments pending in the comment variable until
// we find a line that contains some code.
comment += " " + cmt
if code == "" {
continue
}
// Parse and extract any architecture check from comments,
// made by one architecture name and multiple checks.
lnum := fn + ":" + strconv.Itoa(i+1)
for _, ac := range rxAsmPlatform.FindAllStringSubmatch(comment, -1) {
archspec, allchecks := ac[1:4], ac[4]
var arch, subarch, os string
switch {
case archspec[2] != "": // 3 components: "linux/386/sse2"
os, arch, subarch = archspec[0], archspec[1][1:], archspec[2][1:]
case archspec[1] != "": // 2 components: "386/sse2"
os, arch, subarch = "linux", archspec[0], archspec[1][1:]
default: // 1 component: "386"
os, arch, subarch = "linux", archspec[0], ""
if arch == "wasm" {
os = "js"
}
}
if _, ok := archVariants[arch]; !ok {
log.Fatalf("%s:%d: unsupported architecture: %v", t.goFileName(), i+1, arch)
}
// Create the build environments corresponding the above specifiers
envs := make([]buildEnv, 0, 4)
if subarch != "" {
envs = append(envs, buildEnv(os+"/"+arch+"/"+subarch))
} else {
subarchs := archVariants[arch]
if len(subarchs) == 0 {
envs = append(envs, buildEnv(os+"/"+arch+"/"))
} else {
for _, sa := range archVariants[arch][1:] {
envs = append(envs, buildEnv(os+"/"+arch+"/"+sa))
}
}
}
for _, m := range rxAsmCheck.FindAllString(allchecks, -1) {
negative := false
if m[0] == '-' {
negative = true
m = m[1:]
}
rxsrc, err := strconv.Unquote(m)
if err != nil {
log.Fatalf("%s:%d: error unquoting string: %v", t.goFileName(), i+1, err)
}
// Compile the checks as regular expressions. Notice that we
// consider checks as matching from the beginning of the actual
// assembler source (that is, what is left on each line of the
// compile -S output after we strip file/line info) to avoid
// trivial bugs such as "ADD" matching "FADD". This
// doesn't remove genericity: it's still possible to write
// something like "F?ADD", but we make common cases simpler
// to get right.
oprx, err := regexp.Compile("^" + rxsrc)
if err != nil {
log.Fatalf("%s:%d: %v", t.goFileName(), i+1, err)
}
for _, env := range envs {
if ops[env] == nil {
ops[env] = make(map[string][]wantedAsmOpcode)
}
ops[env][lnum] = append(ops[env][lnum], wantedAsmOpcode{
negative: negative,
fileline: lnum,
line: i + 1,
opcode: oprx,
})
}
}
}
comment = ""
}
return ops
}
func (t *test) asmCheck(outStr string, fn string, env buildEnv, fullops map[string][]wantedAsmOpcode) (err error) {
// The assembly output contains the concatenated dump of multiple functions.
// the first line of each function begins at column 0, while the rest is
// indented by a tabulation. These data structures help us index the
// output by function.
functionMarkers := make([]int, 1)
lineFuncMap := make(map[string]int)
lines := strings.Split(outStr, "\n")
rxLine := regexp.MustCompile(fmt.Sprintf(`\((%s:\d+)\)\s+(.*)`, regexp.QuoteMeta(fn)))
for nl, line := range lines {
// Check if this line begins a function
if len(line) > 0 && line[0] != '\t' {
functionMarkers = append(functionMarkers, nl)
}
// Search if this line contains a assembly opcode (which is prefixed by the
// original source file/line in parenthesis)
matches := rxLine.FindStringSubmatch(line)
if len(matches) == 0 {
continue
}
srcFileLine, asm := matches[1], matches[2]
// Associate the original file/line information to the current
// function in the output; it will be useful to dump it in case
// of error.
lineFuncMap[srcFileLine] = len(functionMarkers) - 1
// If there are opcode checks associated to this source file/line,
// run the checks.
if ops, found := fullops[srcFileLine]; found {
for i := range ops {
if !ops[i].found && ops[i].opcode.FindString(asm) != "" {
ops[i].found = true
}
}
}
}
functionMarkers = append(functionMarkers, len(lines))
var failed []wantedAsmOpcode
for _, ops := range fullops {
for _, o := range ops {
// There's a failure if a negative match was found,
// or a positive match was not found.
if o.negative == o.found {
failed = append(failed, o)
}
}
}
if len(failed) == 0 {
return
}
// At least one asmcheck failed; report them
sort.Slice(failed, func(i, j int) bool {
return failed[i].line < failed[j].line
})
lastFunction := -1
var errbuf bytes.Buffer
fmt.Fprintln(&errbuf)
for _, o := range failed {
// Dump the function in which this opcode check was supposed to
// pass but failed.
funcIdx := lineFuncMap[o.fileline]
if funcIdx != 0 && funcIdx != lastFunction {
funcLines := lines[functionMarkers[funcIdx]:functionMarkers[funcIdx+1]]
log.Println(strings.Join(funcLines, "\n"))
lastFunction = funcIdx // avoid printing same function twice
}
if o.negative {
fmt.Fprintf(&errbuf, "%s:%d: %s: wrong opcode found: %q\n", t.goFileName(), o.line, env, o.opcode.String())
} else {
fmt.Fprintf(&errbuf, "%s:%d: %s: opcode not found: %q\n", t.goFileName(), o.line, env, o.opcode.String())
}
}
err = errors.New(errbuf.String())
return
}
// defaultRunOutputLimit returns the number of runoutput tests that
// can be executed in parallel.
func defaultRunOutputLimit() int {
const maxArmCPU = 2
cpu := runtime.NumCPU()
if runtime.GOARCH == "arm" && cpu > maxArmCPU {
cpu = maxArmCPU
}
return cpu
}
// checkShouldTest runs sanity checks on the shouldTest function.
func checkShouldTest() {
assert := func(ok bool, _ string) {
if !ok {
panic("fail")
}
}
assertNot := func(ok bool, _ string) { assert(!ok, "") }
// Simple tests.
assert(shouldTest("// +build linux", "linux", "arm"))
assert(shouldTest("// +build !windows", "linux", "arm"))
assertNot(shouldTest("// +build !windows", "windows", "amd64"))
// A file with no build tags will always be tested.
assert(shouldTest("// This is a test.", "os", "arch"))
// Build tags separated by a space are OR-ed together.
assertNot(shouldTest("// +build arm 386", "linux", "amd64"))
// Build tags separated by a comma are AND-ed together.
assertNot(shouldTest("// +build !windows,!plan9", "windows", "amd64"))
assertNot(shouldTest("// +build !windows,!plan9", "plan9", "386"))
// Build tags on multiple lines are AND-ed together.
assert(shouldTest("// +build !windows\n// +build amd64", "linux", "amd64"))
assertNot(shouldTest("// +build !windows\n// +build amd64", "windows", "amd64"))
// Test that (!a OR !b) matches anything.
assert(shouldTest("// +build !windows !plan9", "windows", "amd64"))
}
func getenv(key, def string) string {
value := os.Getenv(key)
if value != "" {
return value
}
return def
}
// overlayDir makes a minimal-overhead copy of srcRoot in which new files may be added.
func overlayDir(dstRoot, srcRoot string) error {
dstRoot = filepath.Clean(dstRoot)
if err := os.MkdirAll(dstRoot, 0777); err != nil {
return err
}
srcRoot, err := filepath.Abs(srcRoot)
if err != nil {
return err
}
return filepath.WalkDir(srcRoot, func(srcPath string, d fs.DirEntry, err error) error {
if err != nil || srcPath == srcRoot {
return err
}
suffix := strings.TrimPrefix(srcPath, srcRoot)
for len(suffix) > 0 && suffix[0] == filepath.Separator {
suffix = suffix[1:]
}
dstPath := filepath.Join(dstRoot, suffix)
var info fs.FileInfo
if d.Type()&os.ModeSymlink != 0 {
info, err = os.Stat(srcPath)
} else {
info, err = d.Info()
}
if err != nil {
return err
}
perm := info.Mode() & os.ModePerm
// Always copy directories (don't symlink them).
// If we add a file in the overlay, we don't want to add it in the original.
if info.IsDir() {
return os.MkdirAll(dstPath, perm|0200)
}
// If the OS supports symlinks, use them instead of copying bytes.
if err := os.Symlink(srcPath, dstPath); err == nil {
return nil
}
// Otherwise, copy the bytes.
src, err := os.Open(srcPath)
if err != nil {
return err
}
defer src.Close()
dst, err := os.OpenFile(dstPath, os.O_WRONLY|os.O_CREATE|os.O_EXCL, perm)
if err != nil {
return err
}
_, err = io.Copy(dst, src)
if closeErr := dst.Close(); err == nil {
err = closeErr
}
return err
})
}