// Copyright 2015 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 testenv provides information about what functionality // is available in different testing environments run by the Go team. // // It is an internal package because these details are specific // to the Go team's test setup (on build.golang.org) and not // fundamental to tests in general. package testenv import ( "errors" "flag" "fmt" "os" "os/exec" "path/filepath" "runtime" "strconv" "strings" "sync" "testing" "github.com/gohugoio/hugo/tpl/internal/go_templates/cfg" ) // Builder reports the name of the builder running this test // (for example, "linux-amd64" or "windows-386-gce"). // If the test is not running on the build infrastructure, // Builder returns the empty string. func Builder() string { return os.Getenv("GO_BUILDER_NAME") } // HasGoBuild reports whether the current system can build programs with “go build” // and then run them with os.StartProcess or exec.Command. func HasGoBuild() bool { if os.Getenv("GO_GCFLAGS") != "" { // It's too much work to require every caller of the go command // to pass along "-gcflags="+os.Getenv("GO_GCFLAGS"). // For now, if $GO_GCFLAGS is set, report that we simply can't // run go build. return false } switch runtime.GOOS { case "android", "js", "ios": return false } return true } // MustHaveGoBuild checks that the current system can build programs with “go build” // and then run them with os.StartProcess or exec.Command. // If not, MustHaveGoBuild calls t.Skip with an explanation. func MustHaveGoBuild(t testing.TB) { if os.Getenv("GO_GCFLAGS") != "" { t.Skipf("skipping test: 'go build' not compatible with setting $GO_GCFLAGS") } if !HasGoBuild() { t.Skipf("skipping test: 'go build' not available on %s/%s", runtime.GOOS, runtime.GOARCH) } } // HasGoRun reports whether the current system can run programs with “go run.” func HasGoRun() bool { // For now, having go run and having go build are the same. return HasGoBuild() } // MustHaveGoRun checks that the current system can run programs with “go run.” // If not, MustHaveGoRun calls t.Skip with an explanation. func MustHaveGoRun(t testing.TB) { if !HasGoRun() { t.Skipf("skipping test: 'go run' not available on %s/%s", runtime.GOOS, runtime.GOARCH) } } // GoToolPath reports the path to the Go tool. // It is a convenience wrapper around GoTool. // If the tool is unavailable GoToolPath calls t.Skip. // If the tool should be available and isn't, GoToolPath calls t.Fatal. func GoToolPath(t testing.TB) string { MustHaveGoBuild(t) path, err := GoTool() if err != nil { t.Fatal(err) } // Add all environment variables that affect the Go command to test metadata. // Cached test results will be invalidate when these variables change. // See golang.org/issue/32285. for _, envVar := range strings.Fields(cfg.KnownEnv) { os.Getenv(envVar) } return path } var ( gorootOnce sync.Once gorootPath string gorootErr error ) func findGOROOT() (string, error) { gorootOnce.Do(func() { gorootPath = runtime.GOROOT() if gorootPath != "" { // If runtime.GOROOT() is non-empty, assume that it is valid. // // (It might not be: for example, the user may have explicitly set GOROOT // to the wrong directory, or explicitly set GOROOT_FINAL but not GOROOT // and hasn't moved the tree to GOROOT_FINAL yet. But those cases are // rare, and if that happens the user can fix what they broke.) return } // runtime.GOROOT doesn't know where GOROOT is (perhaps because the test // binary was built with -trimpath, or perhaps because GOROOT_FINAL was set // without GOROOT and the tree hasn't been moved there yet). // // Since this is internal/testenv, we can cheat and assume that the caller // is a test of some package in a subdirectory of GOROOT/src. ('go test' // runs the test in the directory containing the packaged under test.) That // means that if we start walking up the tree, we should eventually find // GOROOT/src/go.mod, and we can report the parent directory of that. cwd, err := os.Getwd() if err != nil { gorootErr = fmt.Errorf("finding GOROOT: %w", err) return } dir := cwd for { parent := filepath.Dir(dir) if parent == dir { // dir is either "." or only a volume name. gorootErr = fmt.Errorf("failed to locate GOROOT/src in any parent directory") return } if base := filepath.Base(dir); base != "src" { dir = parent continue // dir cannot be GOROOT/src if it doesn't end in "src". } b, err := os.ReadFile(filepath.Join(dir, "go.mod")) if err != nil { if os.IsNotExist(err) { dir = parent continue } gorootErr = fmt.Errorf("finding GOROOT: %w", err) return } goMod := string(b) for goMod != "" { var line string line, goMod, _ = strings.Cut(goMod, "\n") fields := strings.Fields(line) if len(fields) >= 2 && fields[0] == "module" && fields[1] == "std" { // Found "module std", which is the module declaration in GOROOT/src! gorootPath = parent return } } } }) return gorootPath, gorootErr } // GOROOT reports the path to the directory containing the root of the Go // project source tree. This is normally equivalent to runtime.GOROOT, but // works even if the test binary was built with -trimpath. // // If GOROOT cannot be found, GOROOT skips t if t is non-nil, // or panics otherwise. func GOROOT(t testing.TB) string { path, err := findGOROOT() if err != nil { if t == nil { panic(err) } t.Helper() t.Skip(err) } return path } // GoTool reports the path to the Go tool. func GoTool() (string, error) { if !HasGoBuild() { return "", errors.New("platform cannot run go tool") } var exeSuffix string if runtime.GOOS == "windows" { exeSuffix = ".exe" } goroot, err := findGOROOT() if err != nil { return "", fmt.Errorf("cannot find go tool: %w", err) } path := filepath.Join(goroot, "bin", "go"+exeSuffix) if _, err := os.Stat(path); err == nil { return path, nil } goBin, err := exec.LookPath("go" + exeSuffix) if err != nil { return "", errors.New("cannot find go tool: " + err.Error()) } return goBin, nil } // HasSrc reports whether the entire source tree is available under GOROOT. func HasSrc() bool { switch runtime.GOOS { case "ios": return false } return true } // HasExternalNetwork reports whether the current system can use // external (non-localhost) networks. func HasExternalNetwork() bool { return !testing.Short() && runtime.GOOS != "js" } // MustHaveExternalNetwork checks that the current system can use // external (non-localhost) networks. // If not, MustHaveExternalNetwork calls t.Skip with an explanation. func MustHaveExternalNetwork(t testing.TB) { if runtime.GOOS == "js" { t.Skipf("skipping test: no external network on %s", runtime.GOOS) } if testing.Short() { t.Skipf("skipping test: no external network in -short mode") } } var haveCGO bool // HasCGO reports whether the current system can use cgo. func HasCGO() bool { return haveCGO } // MustHaveCGO calls t.Skip if cgo is not available. func MustHaveCGO(t testing.TB) { if !haveCGO { t.Skipf("skipping test: no cgo") } } // CanInternalLink reports whether the current system can link programs with // internal linking. func CanInternalLink() bool { panic("not implemented, not needed by Hugo") } // MustInternalLink checks that the current system can link programs with internal // linking. // If not, MustInternalLink calls t.Skip with an explanation. func MustInternalLink(t testing.TB) { if !CanInternalLink() { t.Skipf("skipping test: internal linking on %s/%s is not supported", runtime.GOOS, runtime.GOARCH) } } // HasSymlink reports whether the current system can use os.Symlink. func HasSymlink() bool { ok, _ := hasSymlink() return ok } // MustHaveSymlink reports whether the current system can use os.Symlink. // If not, MustHaveSymlink calls t.Skip with an explanation. func MustHaveSymlink(t testing.TB) { ok, reason := hasSymlink() if !ok { t.Skipf("skipping test: cannot make symlinks on %s/%s%s", runtime.GOOS, runtime.GOARCH, reason) } } // HasLink reports whether the current system can use os.Link. func HasLink() bool { // From Android release M (Marshmallow), hard linking files is blocked // and an attempt to call link() on a file will return EACCES. // - https://code.google.com/p/android-developer-preview/issues/detail?id=3150 return runtime.GOOS != "plan9" && runtime.GOOS != "android" } // MustHaveLink reports whether the current system can use os.Link. // If not, MustHaveLink calls t.Skip with an explanation. func MustHaveLink(t testing.TB) { if !HasLink() { t.Skipf("skipping test: hardlinks are not supported on %s/%s", runtime.GOOS, runtime.GOARCH) } } var flaky = flag.Bool("flaky", false, "run known-flaky tests too") func SkipFlaky(t testing.TB, issue int) { t.Helper() if !*flaky { t.Skipf("skipping known flaky test without the -flaky flag; see golang.org/issue/%d", issue) } } func SkipFlakyNet(t testing.TB) { t.Helper() if v, _ := strconv.ParseBool(os.Getenv("GO_BUILDER_FLAKY_NET")); v { t.Skip("skipping test on builder known to have frequent network failures") } } // CPUIsSlow reports whether the CPU running the test is suspected to be slow. func CPUIsSlow() bool { switch runtime.GOARCH { case "arm", "mips", "mipsle", "mips64", "mips64le": return true } return false } // SkipIfShortAndSlow skips t if -short is set and the CPU running the test is // suspected to be slow. // // (This is useful for CPU-intensive tests that otherwise complete quickly.) func SkipIfShortAndSlow(t testing.TB) { if testing.Short() && CPUIsSlow() { t.Helper() t.Skipf("skipping test in -short mode on %s", runtime.GOARCH) } } // SkipIfOptimizationOff skips t if optimization is disabled. func SkipIfOptimizationOff(t testing.TB) { if OptimizationOff() { t.Helper() t.Skip("skipping test with optimization disabled") } } // WriteImportcfg writes an importcfg file used by the compiler or linker to // dstPath containing entries for the packages in std and cmd in addition // to the package to package file mappings in additionalPackageFiles. func WriteImportcfg(t testing.TB, dstPath string, additionalPackageFiles map[string]string) { panic("not implemented, not needed by Hugo") }