// Copyright 2022 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package coverage import ( "fmt" "internal/coverage" "internal/goexperiment" "internal/platform" "internal/testenv" "os" "os/exec" "path/filepath" "runtime" "strings" "testing" ) // Set to true for debugging (linux only). const fixedTestDir = false func TestCoverageApis(t *testing.T) { if testing.Short() { t.Skipf("skipping test: too long for short mode") } if !goexperiment.CoverageRedesign { t.Skipf("skipping new coverage tests (experiment not enabled)") } testenv.MustHaveGoBuild(t) dir := t.TempDir() if fixedTestDir { dir = "/tmp/qqqzzz" os.RemoveAll(dir) mkdir(t, dir) } // Build harness. We need two copies of the harness, one built // with -covermode=atomic and one built non-atomic. bdir1 := mkdir(t, filepath.Join(dir, "build1")) hargs1 := []string{"-covermode=atomic", "-coverpkg=all"} atomicHarnessPath := buildHarness(t, bdir1, hargs1) nonAtomicMode := testing.CoverMode() if testing.CoverMode() == "atomic" { nonAtomicMode = "set" } bdir2 := mkdir(t, filepath.Join(dir, "build2")) hargs2 := []string{"-coverpkg=all", "-covermode=" + nonAtomicMode} nonAtomicHarnessPath := buildHarness(t, bdir2, hargs2) t.Logf("atomic harness path is %s", atomicHarnessPath) t.Logf("non-atomic harness path is %s", nonAtomicHarnessPath) // Sub-tests for each API we want to inspect, plus // extras for error testing. t.Run("emitToDir", func(t *testing.T) { t.Parallel() testEmitToDir(t, atomicHarnessPath, dir) }) t.Run("emitToWriter", func(t *testing.T) { t.Parallel() testEmitToWriter(t, atomicHarnessPath, dir) }) t.Run("emitToNonexistentDir", func(t *testing.T) { t.Parallel() testEmitToNonexistentDir(t, atomicHarnessPath, dir) }) t.Run("emitToNilWriter", func(t *testing.T) { t.Parallel() testEmitToNilWriter(t, atomicHarnessPath, dir) }) t.Run("emitToFailingWriter", func(t *testing.T) { t.Parallel() testEmitToFailingWriter(t, atomicHarnessPath, dir) }) t.Run("emitWithCounterClear", func(t *testing.T) { t.Parallel() testEmitWithCounterClear(t, atomicHarnessPath, dir) }) t.Run("emitToDirNonAtomic", func(t *testing.T) { t.Parallel() testEmitToDirNonAtomic(t, nonAtomicHarnessPath, nonAtomicMode, dir) }) t.Run("emitToWriterNonAtomic", func(t *testing.T) { t.Parallel() testEmitToWriterNonAtomic(t, nonAtomicHarnessPath, nonAtomicMode, dir) }) t.Run("emitWithCounterClearNonAtomic", func(t *testing.T) { t.Parallel() testEmitWithCounterClearNonAtomic(t, nonAtomicHarnessPath, nonAtomicMode, dir) }) } // upmergeCoverData helps improve coverage data for this package // itself. If this test itself is being invoked with "-cover", then // what we'd like is for package coverage data (that is, coverage for // routines in "runtime/coverage") to be incorporated into the test // run from the "harness.exe" runs we've just done. We can accomplish // this by doing a merge from the harness gocoverdir's to the test // gocoverdir. func upmergeCoverData(t *testing.T, gocoverdir string, mode string) { if testing.CoverMode() != mode { return } testGoCoverDir := os.Getenv("GOCOVERDIR") if testGoCoverDir == "" { return } args := []string{"tool", "covdata", "merge", "-pkg=runtime/coverage", "-o", testGoCoverDir, "-i", gocoverdir} t.Logf("up-merge of covdata from %s to %s", gocoverdir, testGoCoverDir) t.Logf("executing: go %+v", args) cmd := exec.Command(testenv.GoToolPath(t), args...) if b, err := cmd.CombinedOutput(); err != nil { t.Fatalf("covdata merge failed (%v): %s", err, b) } } // buildHarness builds the helper program "harness.exe". func buildHarness(t *testing.T, dir string, opts []string) string { harnessPath := filepath.Join(dir, "harness.exe") harnessSrc := filepath.Join("testdata", "harness.go") args := []string{"build", "-o", harnessPath} args = append(args, opts...) args = append(args, harnessSrc) //t.Logf("harness build: go %+v\n", args) cmd := exec.Command(testenv.GoToolPath(t), args...) if b, err := cmd.CombinedOutput(); err != nil { t.Fatalf("build failed (%v): %s", err, b) } return harnessPath } func mkdir(t *testing.T, d string) string { t.Helper() if err := os.Mkdir(d, 0777); err != nil { t.Fatalf("mkdir failed: %v", err) } return d } // updateGoCoverDir updates the specified environment 'env' to set // GOCOVERDIR to 'gcd' (if setGoCoverDir is TRUE) or removes // GOCOVERDIR from the environment (if setGoCoverDir is false). func updateGoCoverDir(env []string, gcd string, setGoCoverDir bool) []string { rv := []string{} found := false for _, v := range env { if strings.HasPrefix(v, "GOCOVERDIR=") { if !setGoCoverDir { continue } v = "GOCOVERDIR=" + gcd found = true } rv = append(rv, v) } if !found && setGoCoverDir { rv = append(rv, "GOCOVERDIR="+gcd) } return rv } func runHarness(t *testing.T, harnessPath string, tp string, setGoCoverDir bool, rdir, edir string) (string, error) { t.Logf("running: %s -tp %s -o %s with rdir=%s and GOCOVERDIR=%v", harnessPath, tp, edir, rdir, setGoCoverDir) cmd := exec.Command(harnessPath, "-tp", tp, "-o", edir) cmd.Dir = rdir cmd.Env = updateGoCoverDir(os.Environ(), rdir, setGoCoverDir) b, err := cmd.CombinedOutput() //t.Logf("harness run output: %s\n", string(b)) return string(b), err } func testForSpecificFunctions(t *testing.T, dir string, want []string, avoid []string) string { args := []string{"tool", "covdata", "debugdump", "-live", "-pkg=command-line-arguments", "-i=" + dir} t.Logf("running: go %v\n", args) cmd := exec.Command(testenv.GoToolPath(t), args...) b, err := cmd.CombinedOutput() if err != nil { t.Fatalf("'go tool covdata failed (%v): %s", err, b) } output := string(b) rval := "" for _, f := range want { wf := "Func: " + f + "\n" if strings.Contains(output, wf) { continue } rval += fmt.Sprintf("error: output should contain %q but does not\n", wf) } for _, f := range avoid { wf := "Func: " + f + "\n" if strings.Contains(output, wf) { rval += fmt.Sprintf("error: output should not contain %q but does\n", wf) } } if rval != "" { t.Logf("=-= begin output:\n" + output + "\n=-= end output\n") } return rval } func withAndWithoutRunner(f func(setit bool, tag string)) { // Run 'f' with and without GOCOVERDIR set. for i := 0; i < 2; i++ { tag := "x" setGoCoverDir := true if i == 0 { setGoCoverDir = false tag = "y" } f(setGoCoverDir, tag) } } func mktestdirs(t *testing.T, tag, tp, dir string) (string, string) { t.Helper() rdir := mkdir(t, filepath.Join(dir, tp+"-rdir-"+tag)) edir := mkdir(t, filepath.Join(dir, tp+"-edir-"+tag)) return rdir, edir } func testEmitToDir(t *testing.T, harnessPath string, dir string) { withAndWithoutRunner(func(setGoCoverDir bool, tag string) { tp := "emitToDir" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, setGoCoverDir, rdir, edir) if err != nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp emitDir': %v", err) } // Just check to make sure meta-data file and counter data file were // written. Another alternative would be to run "go tool covdata" // or equivalent, but for now, this is what we've got. dents, err := os.ReadDir(edir) if err != nil { t.Fatalf("os.ReadDir(%s) failed: %v", edir, err) } mfc := 0 cdc := 0 for _, e := range dents { if e.IsDir() { continue } if strings.HasPrefix(e.Name(), coverage.MetaFilePref) { mfc++ } else if strings.HasPrefix(e.Name(), coverage.CounterFilePref) { cdc++ } } wantmf := 1 wantcf := 1 if mfc != wantmf { t.Errorf("EmitToDir: want %d meta-data files, got %d\n", wantmf, mfc) } if cdc != wantcf { t.Errorf("EmitToDir: want %d counter-data files, got %d\n", wantcf, cdc) } upmergeCoverData(t, edir, "atomic") upmergeCoverData(t, rdir, "atomic") }) } func testEmitToWriter(t *testing.T, harnessPath string, dir string) { withAndWithoutRunner(func(setGoCoverDir bool, tag string) { tp := "emitToWriter" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, setGoCoverDir, rdir, edir) if err != nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': %v", tp, err) } want := []string{"main", tp} avoid := []string{"final"} if msg := testForSpecificFunctions(t, edir, want, avoid); msg != "" { t.Errorf("coverage data from %q output match failed: %s", tp, msg) } upmergeCoverData(t, edir, "atomic") upmergeCoverData(t, rdir, "atomic") }) } func testEmitToNonexistentDir(t *testing.T, harnessPath string, dir string) { withAndWithoutRunner(func(setGoCoverDir bool, tag string) { tp := "emitToNonexistentDir" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, setGoCoverDir, rdir, edir) if err != nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': %v", tp, err) } upmergeCoverData(t, edir, "atomic") upmergeCoverData(t, rdir, "atomic") }) } func testEmitToUnwritableDir(t *testing.T, harnessPath string, dir string) { withAndWithoutRunner(func(setGoCoverDir bool, tag string) { tp := "emitToUnwritableDir" rdir, edir := mktestdirs(t, tag, tp, dir) // Make edir unwritable. if err := os.Chmod(edir, 0555); err != nil { t.Fatalf("chmod failed: %v", err) } defer os.Chmod(edir, 0777) output, err := runHarness(t, harnessPath, tp, setGoCoverDir, rdir, edir) if err != nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': %v", tp, err) } upmergeCoverData(t, edir, "atomic") upmergeCoverData(t, rdir, "atomic") }) } func testEmitToNilWriter(t *testing.T, harnessPath string, dir string) { withAndWithoutRunner(func(setGoCoverDir bool, tag string) { tp := "emitToNilWriter" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, setGoCoverDir, rdir, edir) if err != nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': %v", tp, err) } upmergeCoverData(t, edir, "atomic") upmergeCoverData(t, rdir, "atomic") }) } func testEmitToFailingWriter(t *testing.T, harnessPath string, dir string) { withAndWithoutRunner(func(setGoCoverDir bool, tag string) { tp := "emitToFailingWriter" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, setGoCoverDir, rdir, edir) if err != nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': %v", tp, err) } upmergeCoverData(t, edir, "atomic") upmergeCoverData(t, rdir, "atomic") }) } func testEmitWithCounterClear(t *testing.T, harnessPath string, dir string) { withAndWithoutRunner(func(setGoCoverDir bool, tag string) { tp := "emitWithCounterClear" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, setGoCoverDir, rdir, edir) if err != nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': %v", tp, err) } want := []string{tp, "postClear"} avoid := []string{"preClear", "main", "final"} if msg := testForSpecificFunctions(t, edir, want, avoid); msg != "" { t.Logf("%s", output) t.Errorf("coverage data from %q output match failed: %s", tp, msg) } upmergeCoverData(t, edir, "atomic") upmergeCoverData(t, rdir, "atomic") }) } func testEmitToDirNonAtomic(t *testing.T, harnessPath string, naMode string, dir string) { tp := "emitToDir" tag := "nonatomdir" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, true, rdir, edir) // We expect an error here. if err == nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': did not get expected error", tp) } got := strings.TrimSpace(string(output)) want := "WriteCountersDir invoked for program built" if !strings.Contains(got, want) { t.Errorf("running 'harness -tp %s': got:\n%s\nwant: %s", tp, got, want) } upmergeCoverData(t, edir, naMode) upmergeCoverData(t, rdir, naMode) } func testEmitToWriterNonAtomic(t *testing.T, harnessPath string, naMode string, dir string) { tp := "emitToWriter" tag := "nonatomw" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, true, rdir, edir) // We expect an error here. if err == nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s': did not get expected error", tp) } got := strings.TrimSpace(string(output)) want := "WriteCounters invoked for program built" if !strings.Contains(got, want) { t.Errorf("running 'harness -tp %s': got:\n%s\nwant: %s", tp, got, want) } upmergeCoverData(t, edir, naMode) upmergeCoverData(t, rdir, naMode) } func testEmitWithCounterClearNonAtomic(t *testing.T, harnessPath string, naMode string, dir string) { tp := "emitWithCounterClear" tag := "cclear" rdir, edir := mktestdirs(t, tag, tp, dir) output, err := runHarness(t, harnessPath, tp, true, rdir, edir) // We expect an error here. if err == nil { t.Logf("%s", output) t.Fatalf("running 'harness -tp %s' nonatomic: did not get expected error", tp) } got := strings.TrimSpace(string(output)) want := "ClearCounters invoked for program built" if !strings.Contains(got, want) { t.Errorf("running 'harness -tp %s': got:\n%s\nwant: %s", tp, got, want) } upmergeCoverData(t, edir, naMode) upmergeCoverData(t, rdir, naMode) } func TestApisOnNocoverBinary(t *testing.T) { if testing.Short() { t.Skipf("skipping test: too long for short mode") } testenv.MustHaveGoBuild(t) dir := t.TempDir() // Build harness with no -cover. bdir := mkdir(t, filepath.Join(dir, "nocover")) edir := mkdir(t, filepath.Join(dir, "emitDirNo")) harnessPath := buildHarness(t, bdir, nil) output, err := runHarness(t, harnessPath, "emitToDir", false, edir, edir) if err == nil { t.Fatalf("expected error on TestApisOnNocoverBinary harness run") } const want = "not built with -cover" if !strings.Contains(output, want) { t.Errorf("error output does not contain %q: %s", want, output) } } func TestIssue56006EmitDataRaceCoverRunningGoroutine(t *testing.T) { if testing.Short() { t.Skipf("skipping test: too long for short mode") } if !goexperiment.CoverageRedesign { t.Skipf("skipping new coverage tests (experiment not enabled)") } // This test requires "go test -race -cover", meaning that we need // go build, go run, and "-race" support. testenv.MustHaveGoRun(t) if !platform.RaceDetectorSupported(runtime.GOOS, runtime.GOARCH) || !testenv.HasCGO() { t.Skip("skipped due to lack of race detector support / CGO") } // This will run a program with -cover and -race where we have a // goroutine still running (and updating counters) at the point where // the test runtime is trying to write out counter data. cmd := exec.Command(testenv.GoToolPath(t), "test", "-cover", "-race") cmd.Dir = filepath.Join("testdata", "issue56006") b, err := cmd.CombinedOutput() if err != nil { t.Fatalf("go test -cover -race failed: %v", err) } // Don't want to see any data races in output. avoid := []string{"DATA RACE"} for _, no := range avoid { if strings.Contains(string(b), no) { t.Logf("%s\n", string(b)) t.Fatalf("found %s in test output, not permitted", no) } } } func TestIssue59563TruncatedCoverPkgAll(t *testing.T) { if testing.Short() { t.Skipf("skipping test: too long for short mode") } testenv.MustHaveGoRun(t) tmpdir := t.TempDir() ppath := filepath.Join(tmpdir, "foo.cov") cmd := exec.Command(testenv.GoToolPath(t), "test", "-coverpkg=all", "-coverprofile="+ppath) cmd.Dir = filepath.Join("testdata", "issue59563") b, err := cmd.CombinedOutput() if err != nil { t.Fatalf("go test -cover failed: %v", err) } cmd = exec.Command(testenv.GoToolPath(t), "tool", "cover", "-func="+ppath) b, err = cmd.CombinedOutput() if err != nil { t.Fatalf("go tool cover -func failed: %v", err) } lines := strings.Split(string(b), "\n") nfound := 0 bad := false for _, line := range lines { f := strings.Fields(line) if len(f) == 0 { continue } // We're only interested in the specific function "large" for // the testcase being built. See the #59563 for details on why // size matters. if !(strings.HasPrefix(f[0], "runtime/coverage/testdata/issue59563/repro.go") && strings.Contains(line, "large")) { continue } nfound++ want := "100.0%" if f[len(f)-1] != want { t.Errorf("wanted %s got: %q\n", want, line) bad = true } } if nfound != 1 { t.Errorf("wanted 1 found, got %d\n", nfound) bad = true } if bad { t.Logf("func output:\n%s\n", string(b)) } }