// Copyright 2011 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 importer import ( "bytes" "cmd/compile/internal/types2" "fmt" "internal/goexperiment" "internal/testenv" "os" "os/exec" "path/filepath" "runtime" "strings" "testing" "time" ) // skipSpecialPlatforms causes the test to be skipped for platforms where // builders (build.golang.org) don't have access to compiled packages for // import. func skipSpecialPlatforms(t *testing.T) { switch platform := runtime.GOOS + "-" + runtime.GOARCH; platform { case "darwin-arm64": t.Skipf("no compiled packages available for import on %s", platform) } } // compile runs the compiler on filename, with dirname as the working directory, // and writes the output file to outdirname. func compile(t *testing.T, dirname, filename, outdirname string) string { // filename must end with ".go" if !strings.HasSuffix(filename, ".go") { t.Fatalf("filename doesn't end in .go: %s", filename) } basename := filepath.Base(filename) outname := filepath.Join(outdirname, basename[:len(basename)-2]+"o") cmd := exec.Command(testenv.GoToolPath(t), "tool", "compile", "-o", outname, filename) cmd.Dir = dirname out, err := cmd.CombinedOutput() if err != nil { t.Logf("%s", out) t.Fatalf("go tool compile %s failed: %s", filename, err) } return outname } func testPath(t *testing.T, path, srcDir string) *types2.Package { t0 := time.Now() pkg, err := Import(make(map[string]*types2.Package), path, srcDir, nil) if err != nil { t.Errorf("testPath(%s): %s", path, err) return nil } t.Logf("testPath(%s): %v", path, time.Since(t0)) return pkg } const maxTime = 30 * time.Second func testDir(t *testing.T, dir string, endTime time.Time) (nimports int) { dirname := filepath.Join(runtime.GOROOT(), "pkg", runtime.GOOS+"_"+runtime.GOARCH, dir) list, err := os.ReadDir(dirname) if err != nil { t.Fatalf("testDir(%s): %s", dirname, err) } for _, f := range list { if time.Now().After(endTime) { t.Log("testing time used up") return } switch { case !f.IsDir(): // try extensions for _, ext := range pkgExts { if strings.HasSuffix(f.Name(), ext) { name := f.Name()[0 : len(f.Name())-len(ext)] // remove extension if testPath(t, filepath.Join(dir, name), dir) != nil { nimports++ } } } case f.IsDir(): nimports += testDir(t, filepath.Join(dir, f.Name()), endTime) } } return } func mktmpdir(t *testing.T) string { tmpdir, err := os.MkdirTemp("", "gcimporter_test") if err != nil { t.Fatal("mktmpdir:", err) } if err := os.Mkdir(filepath.Join(tmpdir, "testdata"), 0700); err != nil { os.RemoveAll(tmpdir) t.Fatal("mktmpdir:", err) } return tmpdir } func TestImportTestdata(t *testing.T) { // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } testfiles := map[string][]string{ "exports.go": {"go/ast", "go/token"}, } if !goexperiment.Unified { testfiles["generics.go"] = nil } for testfile, wantImports := range testfiles { tmpdir := mktmpdir(t) defer os.RemoveAll(tmpdir) compile(t, "testdata", testfile, filepath.Join(tmpdir, "testdata")) path := "./testdata/" + strings.TrimSuffix(testfile, ".go") if pkg := testPath(t, path, tmpdir); pkg != nil { // The package's Imports list must include all packages // explicitly imported by testfile, plus all packages // referenced indirectly via exported objects in testfile. got := fmt.Sprint(pkg.Imports()) for _, want := range wantImports { if !strings.Contains(got, want) { t.Errorf(`Package("exports").Imports() = %s, does not contain %s`, got, want) } } } } } func TestVersionHandling(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } const dir = "./testdata/versions" list, err := os.ReadDir(dir) if err != nil { t.Fatal(err) } tmpdir := mktmpdir(t) defer os.RemoveAll(tmpdir) corruptdir := filepath.Join(tmpdir, "testdata", "versions") if err := os.Mkdir(corruptdir, 0700); err != nil { t.Fatal(err) } for _, f := range list { name := f.Name() if !strings.HasSuffix(name, ".a") { continue // not a package file } if strings.Contains(name, "corrupted") { continue // don't process a leftover corrupted file } pkgpath := "./" + name[:len(name)-2] if testing.Verbose() { t.Logf("importing %s", name) } // test that export data can be imported _, err := Import(make(map[string]*types2.Package), pkgpath, dir, nil) if err != nil { // ok to fail if it fails with a no longer supported error for select files if strings.Contains(err.Error(), "no longer supported") { switch name { case "test_go1.7_0.a", "test_go1.7_1.a", "test_go1.8_4.a", "test_go1.8_5.a", "test_go1.11_6b.a", "test_go1.11_999b.a": continue } // fall through } // ok to fail if it fails with a newer version error for select files if strings.Contains(err.Error(), "newer version") { switch name { case "test_go1.11_999i.a": continue } // fall through } t.Errorf("import %q failed: %v", pkgpath, err) continue } // create file with corrupted export data // 1) read file data, err := os.ReadFile(filepath.Join(dir, name)) if err != nil { t.Fatal(err) } // 2) find export data i := bytes.Index(data, []byte("\n$$B\n")) + 5 j := bytes.Index(data[i:], []byte("\n$$\n")) + i if i < 0 || j < 0 || i > j { t.Fatalf("export data section not found (i = %d, j = %d)", i, j) } // 3) corrupt the data (increment every 7th byte) for k := j - 13; k >= i; k -= 7 { data[k]++ } // 4) write the file pkgpath += "_corrupted" filename := filepath.Join(corruptdir, pkgpath) + ".a" os.WriteFile(filename, data, 0666) // test that importing the corrupted file results in an error _, err = Import(make(map[string]*types2.Package), pkgpath, corruptdir, nil) if err == nil { t.Errorf("import corrupted %q succeeded", pkgpath) } else if msg := err.Error(); !strings.Contains(msg, "version skew") { t.Errorf("import %q error incorrect (%s)", pkgpath, msg) } } } func TestImportStdLib(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } dt := maxTime if testing.Short() && testenv.Builder() == "" { dt = 10 * time.Millisecond } nimports := testDir(t, "", time.Now().Add(dt)) // installed packages t.Logf("tested %d imports", nimports) } var importedObjectTests = []struct { name string want string }{ // non-interfaces {"crypto.Hash", "type Hash uint"}, {"go/ast.ObjKind", "type ObjKind int"}, {"go/types.Qualifier", "type Qualifier func(*Package) string"}, {"go/types.Comparable", "func Comparable(T Type) bool"}, {"math.Pi", "const Pi untyped float"}, {"math.Sin", "func Sin(x float64) float64"}, {"go/ast.NotNilFilter", "func NotNilFilter(_ string, v reflect.Value) bool"}, {"go/internal/gcimporter.FindPkg", "func FindPkg(path string, srcDir string) (filename string, id string)"}, // interfaces {"context.Context", "type Context interface{Deadline() (deadline time.Time, ok bool); Done() <-chan struct{}; Err() error; Value(key any) any}"}, {"crypto.Decrypter", "type Decrypter interface{Decrypt(rand io.Reader, msg []byte, opts DecrypterOpts) (plaintext []byte, err error); Public() PublicKey}"}, {"encoding.BinaryMarshaler", "type BinaryMarshaler interface{MarshalBinary() (data []byte, err error)}"}, {"io.Reader", "type Reader interface{Read(p []byte) (n int, err error)}"}, {"io.ReadWriter", "type ReadWriter interface{Reader; Writer}"}, {"go/ast.Node", "type Node interface{End() go/token.Pos; Pos() go/token.Pos}"}, {"go/types.Type", "type Type interface{String() string; Underlying() Type}"}, } func TestImportedTypes(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } for _, test := range importedObjectTests { s := strings.Split(test.name, ".") if len(s) != 2 { t.Fatal("inconsistent test data") } importPath := s[0] objName := s[1] pkg, err := Import(make(map[string]*types2.Package), importPath, ".", nil) if err != nil { t.Error(err) continue } obj := pkg.Scope().Lookup(objName) if obj == nil { t.Errorf("%s: object not found", test.name) continue } got := types2.ObjectString(obj, types2.RelativeTo(pkg)) if got != test.want { t.Errorf("%s: got %q; want %q", test.name, got, test.want) } if named, _ := obj.Type().(*types2.Named); named != nil { verifyInterfaceMethodRecvs(t, named, 0) } } } // verifyInterfaceMethodRecvs verifies that method receiver types // are named if the methods belong to a named interface type. func verifyInterfaceMethodRecvs(t *testing.T, named *types2.Named, level int) { // avoid endless recursion in case of an embedding bug that lead to a cycle if level > 10 { t.Errorf("%s: embeds itself", named) return } iface, _ := named.Underlying().(*types2.Interface) if iface == nil { return // not an interface } // check explicitly declared methods for i := 0; i < iface.NumExplicitMethods(); i++ { m := iface.ExplicitMethod(i) recv := m.Type().(*types2.Signature).Recv() if recv == nil { t.Errorf("%s: missing receiver type", m) continue } if recv.Type() != named { t.Errorf("%s: got recv type %s; want %s", m, recv.Type(), named) } } // check embedded interfaces (if they are named, too) for i := 0; i < iface.NumEmbeddeds(); i++ { // embedding of interfaces cannot have cycles; recursion will terminate if etype, _ := iface.EmbeddedType(i).(*types2.Named); etype != nil { verifyInterfaceMethodRecvs(t, etype, level+1) } } } func TestIssue5815(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } pkg := importPkg(t, "strings", ".") scope := pkg.Scope() for _, name := range scope.Names() { obj := scope.Lookup(name) if obj.Pkg() == nil { t.Errorf("no pkg for %s", obj) } if tname, _ := obj.(*types2.TypeName); tname != nil { named := tname.Type().(*types2.Named) for i := 0; i < named.NumMethods(); i++ { m := named.Method(i) if m.Pkg() == nil { t.Errorf("no pkg for %s", m) } } } } } // Smoke test to ensure that imported methods get the correct package. func TestCorrectMethodPackage(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } imports := make(map[string]*types2.Package) _, err := Import(imports, "net/http", ".", nil) if err != nil { t.Fatal(err) } mutex := imports["sync"].Scope().Lookup("Mutex").(*types2.TypeName).Type() obj, _, _ := types2.LookupFieldOrMethod(types2.NewPointer(mutex), false, nil, "Lock") lock := obj.(*types2.Func) if got, want := lock.Pkg().Path(), "sync"; got != want { t.Errorf("got package path %q; want %q", got, want) } } func TestIssue13566(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } // On windows, we have to set the -D option for the compiler to avoid having a drive // letter and an illegal ':' in the import path - just skip it (see also issue #3483). if runtime.GOOS == "windows" { t.Skip("avoid dealing with relative paths/drive letters on windows") } tmpdir := mktmpdir(t) defer os.RemoveAll(tmpdir) testoutdir := filepath.Join(tmpdir, "testdata") // b.go needs to be compiled from the output directory so that the compiler can // find the compiled package a. We pass the full path to compile() so that we // don't have to copy the file to that directory. bpath, err := filepath.Abs(filepath.Join("testdata", "b.go")) if err != nil { t.Fatal(err) } compile(t, "testdata", "a.go", testoutdir) compile(t, testoutdir, bpath, testoutdir) // import must succeed (test for issue at hand) pkg := importPkg(t, "./testdata/b", tmpdir) // make sure all indirectly imported packages have names for _, imp := range pkg.Imports() { if imp.Name() == "" { t.Errorf("no name for %s package", imp.Path()) } } } func TestIssue13898(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } // import go/internal/gcimporter which imports go/types partially imports := make(map[string]*types2.Package) _, err := Import(imports, "go/internal/gcimporter", ".", nil) if err != nil { t.Fatal(err) } // look for go/types package var goTypesPkg *types2.Package for path, pkg := range imports { if path == "go/types" { goTypesPkg = pkg break } } if goTypesPkg == nil { t.Fatal("go/types not found") } // look for go/types.Object type obj := lookupObj(t, goTypesPkg.Scope(), "Object") typ, ok := obj.Type().(*types2.Named) if !ok { t.Fatalf("go/types.Object type is %v; wanted named type", typ) } // lookup go/types.Object.Pkg method m, index, indirect := types2.LookupFieldOrMethod(typ, false, nil, "Pkg") if m == nil { t.Fatalf("go/types.Object.Pkg not found (index = %v, indirect = %v)", index, indirect) } // the method must belong to go/types if m.Pkg().Path() != "go/types" { t.Fatalf("found %v; want go/types", m.Pkg()) } } func TestIssue15517(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } // On windows, we have to set the -D option for the compiler to avoid having a drive // letter and an illegal ':' in the import path - just skip it (see also issue #3483). if runtime.GOOS == "windows" { t.Skip("avoid dealing with relative paths/drive letters on windows") } tmpdir := mktmpdir(t) defer os.RemoveAll(tmpdir) compile(t, "testdata", "p.go", filepath.Join(tmpdir, "testdata")) // Multiple imports of p must succeed without redeclaration errors. // We use an import path that's not cleaned up so that the eventual // file path for the package is different from the package path; this // will expose the error if it is present. // // (Issue: Both the textual and the binary importer used the file path // of the package to be imported as key into the shared packages map. // However, the binary importer then used the package path to identify // the imported package to mark it as complete; effectively marking the // wrong package as complete. By using an "unclean" package path, the // file and package path are different, exposing the problem if present. // The same issue occurs with vendoring.) imports := make(map[string]*types2.Package) for i := 0; i < 3; i++ { if _, err := Import(imports, "./././testdata/p", tmpdir, nil); err != nil { t.Fatal(err) } } } func TestIssue15920(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } // On windows, we have to set the -D option for the compiler to avoid having a drive // letter and an illegal ':' in the import path - just skip it (see also issue #3483). if runtime.GOOS == "windows" { t.Skip("avoid dealing with relative paths/drive letters on windows") } compileAndImportPkg(t, "issue15920") } func TestIssue20046(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } // On windows, we have to set the -D option for the compiler to avoid having a drive // letter and an illegal ':' in the import path - just skip it (see also issue #3483). if runtime.GOOS == "windows" { t.Skip("avoid dealing with relative paths/drive letters on windows") } // "./issue20046".V.M must exist pkg := compileAndImportPkg(t, "issue20046") obj := lookupObj(t, pkg.Scope(), "V") if m, index, indirect := types2.LookupFieldOrMethod(obj.Type(), false, nil, "M"); m == nil { t.Fatalf("V.M not found (index = %v, indirect = %v)", index, indirect) } } func TestIssue25301(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } // On windows, we have to set the -D option for the compiler to avoid having a drive // letter and an illegal ':' in the import path - just skip it (see also issue #3483). if runtime.GOOS == "windows" { t.Skip("avoid dealing with relative paths/drive letters on windows") } compileAndImportPkg(t, "issue25301") } func TestIssue25596(t *testing.T) { skipSpecialPlatforms(t) // This package only handles gc export data. if runtime.Compiler != "gc" { t.Skipf("gc-built packages not available (compiler = %s)", runtime.Compiler) } // On windows, we have to set the -D option for the compiler to avoid having a drive // letter and an illegal ':' in the import path - just skip it (see also issue #3483). if runtime.GOOS == "windows" { t.Skip("avoid dealing with relative paths/drive letters on windows") } compileAndImportPkg(t, "issue25596") } func importPkg(t *testing.T, path, srcDir string) *types2.Package { pkg, err := Import(make(map[string]*types2.Package), path, srcDir, nil) if err != nil { t.Fatal(err) } return pkg } func compileAndImportPkg(t *testing.T, name string) *types2.Package { tmpdir := mktmpdir(t) defer os.RemoveAll(tmpdir) compile(t, "testdata", name+".go", filepath.Join(tmpdir, "testdata")) return importPkg(t, "./testdata/"+name, tmpdir) } func lookupObj(t *testing.T, scope *types2.Scope, name string) types2.Object { if obj := scope.Lookup(name); obj != nil { return obj } t.Fatalf("%s not found", name) return nil }