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mirror of https://github.com/golang/go synced 2024-11-24 07:20:02 -07:00
go/test/run.go
Robert Findley b75e492b35 go/types,types2: delay the check for conflicting struct field names
In #52529, we observed that checking types for duplicate fields and
methods during method collection can result in incorrect early expansion
of the base type. Fix this by delaying the check for duplicate fields.
Notably, we can't delay the check for duplicate methods as we must
preserve the invariant that added method names are unique.

After this change, it may be possible in the presence of errors to have
a type-checked type containing a method name that conflicts with a field
name. With the previous logic conflicting methods would have been
skipped. This is a change in behavior, but only for invalid code.
Preserving the existing behavior would likely require delaying method
collection, which could have more significant consequences.

As a result of this change, the compiler test fixedbugs/issue28268.go
started passing with types2, being previously marked as broken. The fix
was not actually related to the duplicate method error, but rather the
fact that we stopped reporting redundant errors on the calls to x.b()
and x.E(), because they are now (valid!) methods.

Fixes #52529

Change-Id: I850ce85c6ba76d79544f46bfd3deb8538d8c7d00
Reviewed-on: https://go-review.googlesource.com/c/go/+/403455
Reviewed-by: Robert Griesemer <gri@google.com>
Run-TryBot: Robert Findley <rfindley@google.com>
TryBot-Result: Gopher Robot <gobot@golang.org>
2022-05-03 14:14:31 +00:00

2075 lines
58 KiB
Go

// 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"
"encoding/json"
"errors"
"flag"
"fmt"
"go/build"
"go/build/constraint"
"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")
force = flag.Bool("f", false, "ignore expected-failure test lists")
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.")
)
type envVars struct {
GOOS string
GOARCH string
GOEXPERIMENT string
CGO_ENABLED string
}
var env = func() (res envVars) {
cmd := exec.Command("go", "env", "-json")
stdout, err := cmd.StdoutPipe()
if err != nil {
log.Fatal("StdoutPipe:", err)
}
if err := cmd.Start(); err != nil {
log.Fatal("Start:", err)
}
if err := json.NewDecoder(stdout).Decode(&res); err != nil {
log.Fatal("Decode:", err)
}
if err := cmd.Wait(); err != nil {
log.Fatal("Wait:", err)
}
return
}()
// TODO(mdempsky): This will give false negatives if the unified
// experiment is enabled by default, but presumably at that point we
// won't need to disable tests for it anymore anyway.
var unifiedEnabled = strings.Contains(","+env.GOEXPERIMENT+",", ",unified,")
// 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 = env.GOOS
goarch = env.GOARCH
cgoEnabled, _ = strconv.ParseBool(env.CGO_ENABLED)
// 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", "abi", "typeparam", "typeparam/mdempsky"}
// 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()
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 {
errStr = test.err.Error()
if test.expectFail {
errStr += " (expected)"
} else {
status = "FAIL"
}
} else if test.expectFail {
status = "FAIL"
errStr = "unexpected success"
}
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", "-p=p"}
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, pkgname string, names ...string) (out []byte, err error) {
cmd := []string{goTool(), "tool", "compile", "-e", "-D", "test", "-I", "."}
if pkgname == "main" {
cmd = append(cmd, "-p=main")
} else {
pkgname = path.Join("test", strings.TrimSuffix(names[0], ".go"))
cmd = append(cmd, "-o", pkgname+".a", "-p", pkgname)
}
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
// expectFail indicates whether the (overall) test recipe is
// expected to fail under the current test configuration (e.g.,
// GOEXPERIMENT=unified).
expectFail bool
}
// initExpectFail initializes t.expectFail based on the build+test
// configuration.
func (t *test) initExpectFail() {
if *force {
return
}
failureSets := []map[string]bool{types2Failures}
// Note: gccgo supports more 32-bit architectures than this, but
// hopefully the 32-bit failures are fixed before this matters.
switch goarch {
case "386", "arm", "mips", "mipsle":
failureSets = append(failureSets, types2Failures32Bit)
}
if unifiedEnabled {
failureSets = append(failureSets, unifiedFailures)
} else {
failureSets = append(failureSets, go118Failures)
}
filename := strings.Replace(t.goFileName(), "\\", "/", -1) // goFileName() uses \ on Windows
for _, set := range failureSets {
if set[filename] {
t.expectFail = true
return
}
}
}
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
}
type goDirPkg struct {
name string
files []string
}
// 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) ([]*goDirPkg, error) {
files, err := goDirFiles(longdir)
if err != nil {
return nil, err
}
var pkgs []*goDirPkg
m := make(map[string]*goDirPkg)
for _, file := range files {
name := file.Name()
pkgname, err := getPackageNameFromSource(filepath.Join(longdir, name))
if err != nil {
log.Fatal(err)
}
p, ok := m[pkgname]
if singlefilepkgs || !ok {
p = &goDirPkg{name: pkgname}
pkgs = append(pkgs, p)
m[pkgname] = p
}
p.files = append(p.files, name)
}
return pkgs, nil
}
type context struct {
GOOS string
GOARCH string
cgoEnabled bool
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") {
if strings.HasPrefix(line, "package ") {
break
}
if expr, err := constraint.Parse(line); err == nil {
gcFlags := os.Getenv("GO_GCFLAGS")
ctxt := &context{
GOOS: goos,
GOARCH: goarch,
cgoEnabled: cgoEnabled,
noOptEnv: strings.Contains(gcFlags, "-N") || strings.Contains(gcFlags, "-l"),
}
if !expr.Eval(ctxt.match) {
return false, line
}
}
}
return true, ""
}
func (ctxt *context) match(name string) bool {
if name == "" {
return false
}
// 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 strings.HasPrefix(name, "goexperiment.") {
for _, tag := range build.Default.ToolTags {
if tag == name {
return true
}
}
return false
}
if name == "cgo" && ctxt.cgoEnabled {
return true
}
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 (t *test) goGcflags() string {
return "-gcflags=all=" + os.Getenv("GO_GCFLAGS")
}
func (t *test) goGcflagsIsEmpty() bool {
return "" == os.Getenv("GO_GCFLAGS")
}
var errTimeout = errors.New("command exceeded time limit")
// 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.
action, _, ok := strings.Cut(t.src, "\n\n")
if !ok {
t.err = fmt.Errorf("double newline ending execution recipe not found in %s", t.goFileName())
return
}
if firstLine, rest, ok := strings.Cut(action, "\n"); ok && strings.Contains(firstLine, "+build") {
// skip first line
action = rest
}
action = strings.TrimPrefix(action, "//")
// Check for build constraints only up to the actual code.
header, _, ok := strings.Cut(t.src, "\npackage")
if !ok {
header = action // some files are intentionally malformed
}
if ok, why := shouldTest(header, goos, goarch); !ok {
if *showSkips {
fmt.Printf("%-20s %-20s: %s\n", "skip", t.goFileName(), why)
}
return
}
var args, flags, runenv []string
var tim int
wantError := false
wantAuto := false
singlefilepkgs := false
f, err := splitQuoted(action)
if err != nil {
t.err = fmt.Errorf("invalid test recipe: %v", err)
return
}
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
}
goexp := env.GOEXPERIMENT
// 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 "-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])
}
if s := os.Getenv("GO_TEST_TIMEOUT_SCALE"); s != "" {
timeoutScale, err := strconv.Atoi(s)
if err != nil {
log.Fatalf("failed to parse $GO_TEST_TIMEOUT_SCALE = %q as integer: %v", s, err)
}
tim *= timeoutScale
}
case "-goexperiment": // set GOEXPERIMENT environment
args = args[1:]
if goexp != "" {
goexp += ","
}
goexp += args[0]
runenv = append(runenv, "GOEXPERIMENT="+goexp)
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.initExpectFail()
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)
}
cmd.Env = append(cmd.Env, runenv...)
var err error
if tim != 0 {
err = cmd.Start()
// This command-timeout code adapted from cmd/go/test.go
// Note: the Go command uses a more sophisticated timeout
// strategy, first sending SIGQUIT (if appropriate for the
// OS in question) to try to trigger a stack trace, then
// finally much later SIGKILL. If timeouts prove to be a
// common problem here, it would be worth porting over
// that code as well. See https://do.dev/issue/50973
// for more discussion.
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.Signal(os.Interrupt)
time.Sleep(1 * time.Second)
cmd.Process.Kill()
<-done
err = errTimeout
}
tick.Stop()
}
} else {
err = cmd.Run()
}
if err != nil && err != errTimeout {
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", "-p=p", "-d=panic", "-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
}
if err == errTimeout {
t.err = fmt.Errorf("compilation timed 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)
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 _, pkg := range pkgs {
_, t.err = compileInDir(runcmd, longdir, flags, pkg.name, pkg.files...)
if t.err != nil {
return
}
}
case "errorcheckdir", "errorcheckandrundir":
flags = append(flags, "-d=panic")
// 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, pkg := range pkgs {
out, err := compileInDir(runcmd, longdir, flags, pkg.name, pkg.files...)
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 pkg.files {
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, pkg := range pkgs {
_, err := compileInDir(runcmd, longdir, flags, pkg.name, pkg.files...)
// 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, pkg.files[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
}
t.checkExpectedOutput(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", t.goGcflags()}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
cmd = append(cmd, flags...)
cmd = append(cmd, ".")
out, err := runcmd(cmd...)
if err != nil {
t.err = err
return
}
t.checkExpectedOutput(out)
case "build":
// Build Go file.
_, err := runcmd(goTool(), "build", t.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", "-p=main", "-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
}
t.checkExpectedOutput(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", t.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
}
t.checkExpectedOutput(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 && t.goGcflagsIsEmpty() && !*linkshared && goarch == runtime.GOARCH && goos == runtime.GOOS && goexp == env.GOEXPERIMENT {
// 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", "-p=main", "-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", t.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
}
t.checkExpectedOutput(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", t.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", t.goGcflags()}
if *linkshared {
cmd = append(cmd, "-linkshared")
}
cmd = append(cmd, tfile)
out, err = runcmd(cmd...)
if err != nil {
t.err = err
return
}
t.checkExpectedOutput(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", t.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", "-p=p", "-d=panic", "-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)
}
err = os.Mkdir(filepath.Join(t.tempDir, "test"), 0o755)
if err != nil {
log.Fatal(err)
}
}
// checkExpectedOutput compares the output from compiling and/or running with the contents
// of the corresponding reference output file, if any (replace ".go" with ".out").
// If they don't match, fail with an informative message.
func (t *test) checkExpectedOutput(gotBytes []byte) {
got := string(gotBytes)
filename := filepath.Join(t.dir, t.gofile)
filename = filename[:len(filename)-len(".go")]
filename += ".out"
b, err := ioutil.ReadFile(filename)
// File is allowed to be missing (err != nil) in which case output should be empty.
got = strings.Replace(got, "\r\n", "\n", -1)
if got != string(b) {
if err == nil {
t.err = fmt.Errorf("output does not match expected in %s. Instead saw\n%s", filename, got)
} else {
t.err = fmt.Errorf("output should be empty when (optional) expected-output file %s is not present. Instead saw\n%s", filename, got)
}
}
}
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 _, suffix, ok := strings.Cut(text, " "); ok {
text = suffix
}
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 := range lines {
lines[i], _, _ = strings.Cut(lines[i], " // ERROR ")
}
// Parse new errors.
errors := make(map[int]map[string]bool)
tmpRe := regexp.MustCompile(`autotmp_[0-9]+`)
for _, errStr := range splitOutput(out, false) {
errFile, rest, ok := strings.Cut(errStr, ":")
if !ok || errFile != file {
continue
}
lineStr, msg, ok := strings.Cut(rest, ":")
if !ok {
continue
}
line, err := strconv.Atoi(lineStr)
line--
if err != nil || line < 0 || line >= len(lines) {
continue
}
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": {"GOAMD64", "v1", "v2", "v3", "v4"},
"arm": {"GOARM", "5", "6", "7"},
"arm64": {},
"mips": {"GOMIPS", "hardfloat", "softfloat"},
"mips64": {"GOMIPS64", "hardfloat", "softfloat"},
"ppc64": {"GOPPC64", "power8", "power9"},
"ppc64le": {"GOPPC64", "power8", "power9"},
"s390x": {},
"wasm": {},
"riscv64": {},
}
)
// 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
})
}
// The following sets of files are excluded from testing depending on configuration.
// The types2Failures(32Bit) files pass with the 1.17 compiler but don't pass with
// the 1.18 compiler using the new types2 type checker, or pass with sub-optimal
// error(s).
// List of files that the compiler cannot errorcheck with the new typechecker (types2).
var types2Failures = setOf(
"notinheap.go", // types2 doesn't report errors about conversions that are invalid due to //go:notinheap
"shift1.go", // types2 reports two new errors which are probably not right
"fixedbugs/issue10700.go", // types2 should give hint about ptr to interface
"fixedbugs/issue18331.go", // missing error about misuse of //go:noescape (irgen needs code from noder)
"fixedbugs/issue18419.go", // types2 reports no field or method member, but should say unexported
"fixedbugs/issue20233.go", // types2 reports two instead of one error (preference: 1.17 compiler)
"fixedbugs/issue20245.go", // types2 reports two instead of one error (preference: 1.17 compiler)
"fixedbugs/issue31053.go", // types2 reports "unknown field" instead of "cannot refer to unexported field"
)
var types2Failures32Bit = setOf(
"printbig.go", // large untyped int passed to print (32-bit)
"fixedbugs/bug114.go", // large untyped int passed to println (32-bit)
"fixedbugs/issue23305.go", // large untyped int passed to println (32-bit)
)
var go118Failures = setOf(
"typeparam/nested.go", // 1.18 compiler doesn't support function-local types with generics
"typeparam/issue51521.go", // 1.18 compiler produces bad panic message and link error
)
// In all of these cases, the 1.17 compiler reports reasonable errors, but either the
// 1.17 or 1.18 compiler report extra errors, so we can't match correctly on both. We
// now set the patterns to match correctly on all the 1.18 errors.
// This list remains here just as a reference and for comparison - these files all pass.
var _ = setOf(
"import1.go", // types2 reports extra errors
"initializerr.go", // types2 reports extra error
"typecheck.go", // types2 reports extra error at function call
"fixedbugs/bug176.go", // types2 reports all errors (pref: types2)
"fixedbugs/bug195.go", // types2 reports slight different errors, and an extra error
"fixedbugs/bug412.go", // types2 produces a follow-on error
"fixedbugs/issue11614.go", // types2 reports an extra error
"fixedbugs/issue17038.go", // types2 doesn't report a follow-on error (pref: types2)
"fixedbugs/issue23732.go", // types2 reports different (but ok) line numbers
"fixedbugs/issue4510.go", // types2 reports different (but ok) line numbers
"fixedbugs/issue7525b.go", // types2 reports init cycle error on different line - ok otherwise
"fixedbugs/issue7525c.go", // types2 reports init cycle error on different line - ok otherwise
"fixedbugs/issue7525d.go", // types2 reports init cycle error on different line - ok otherwise
"fixedbugs/issue7525e.go", // types2 reports init cycle error on different line - ok otherwise
"fixedbugs/issue7525.go", // types2 reports init cycle error on different line - ok otherwise
)
var unifiedFailures = setOf(
"closure3.go", // unified IR numbers closures differently than -d=inlfuncswithclosures
"escape4.go", // unified IR can inline f5 and f6; test doesn't expect this
"inline.go", // unified IR reports function literal diagnostics on different lines than -d=inlfuncswithclosures
"linkname3.go", // unified IR is missing some linkname errors
"fixedbugs/issue42284.go", // prints "T(0) does not escape", but test expects "a.I(a.T(0)) does not escape"
"fixedbugs/issue7921.go", // prints "… escapes to heap", but test expects "string(…) escapes to heap"
"typeparam/issue47631.go", // unified IR can handle local type declarations
"fixedbugs/issue42058a.go", // unified IR doesn't report channel element too large
"fixedbugs/issue42058b.go", // unified IR doesn't report channel element too large
"fixedbugs/issue49767.go", // unified IR doesn't report channel element too large
"fixedbugs/issue49814.go", // unified IR doesn't report array type too large
)
func setOf(keys ...string) map[string]bool {
m := make(map[string]bool, len(keys))
for _, key := range keys {
m[key] = true
}
return m
}
// splitQuoted splits the string s around each instance of one or more consecutive
// white space characters while taking into account quotes and escaping, and
// returns an array of substrings of s or an empty list if s contains only white space.
// Single quotes and double quotes are recognized to prevent splitting within the
// quoted region, and are removed from the resulting substrings. If a quote in s
// isn't closed err will be set and r will have the unclosed argument as the
// last element. The backslash is used for escaping.
//
// For example, the following string:
//
// a b:"c d" 'e''f' "g\""
//
// Would be parsed as:
//
// []string{"a", "b:c d", "ef", `g"`}
//
// [copied from src/go/build/build.go]
func splitQuoted(s string) (r []string, err error) {
var args []string
arg := make([]rune, len(s))
escaped := false
quoted := false
quote := '\x00'
i := 0
for _, rune := range s {
switch {
case escaped:
escaped = false
case rune == '\\':
escaped = true
continue
case quote != '\x00':
if rune == quote {
quote = '\x00'
continue
}
case rune == '"' || rune == '\'':
quoted = true
quote = rune
continue
case unicode.IsSpace(rune):
if quoted || i > 0 {
quoted = false
args = append(args, string(arg[:i]))
i = 0
}
continue
}
arg[i] = rune
i++
}
if quoted || i > 0 {
args = append(args, string(arg[:i]))
}
if quote != 0 {
err = errors.New("unclosed quote")
} else if escaped {
err = errors.New("unfinished escaping")
}
return args, err
}