// Copyright 2018 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 load import ( "bytes" "context" "errors" "fmt" "go/ast" "go/build" "go/doc" "go/parser" "go/token" "internal/lazytemplate" "path/filepath" "slices" "sort" "strings" "unicode" "unicode/utf8" "cmd/go/internal/cfg" "cmd/go/internal/fsys" "cmd/go/internal/str" "cmd/go/internal/trace" ) var TestMainDeps = []string{ // Dependencies for testmain. "os", "reflect", "testing", "testing/internal/testdeps", } type TestCover struct { Mode string Local bool Pkgs []*Package Paths []string Vars []coverInfo } // TestPackagesFor is like TestPackagesAndErrors but it returns // an error if the test packages or their dependencies have errors. // Only test packages without errors are returned. func TestPackagesFor(ctx context.Context, opts PackageOpts, p *Package, cover *TestCover) (pmain, ptest, pxtest *Package, err error) { pmain, ptest, pxtest = TestPackagesAndErrors(ctx, nil, opts, p, cover) for _, p1 := range []*Package{ptest, pxtest, pmain} { if p1 == nil { // pxtest may be nil continue } if p1.Error != nil { err = p1.Error break } if p1.Incomplete { ps := PackageList([]*Package{p1}) for _, p := range ps { if p.Error != nil { err = p.Error break } } break } } if pmain.Error != nil || pmain.Incomplete { pmain = nil } if ptest.Error != nil || ptest.Incomplete { ptest = nil } if pxtest != nil && (pxtest.Error != nil || pxtest.Incomplete) { pxtest = nil } return pmain, ptest, pxtest, err } // TestPackagesAndErrors returns three packages: // - pmain, the package main corresponding to the test binary (running tests in ptest and pxtest). // - ptest, the package p compiled with added "package p" test files. // - pxtest, the result of compiling any "package p_test" (external) test files. // // If the package has no "package p_test" test files, pxtest will be nil. // If the non-test compilation of package p can be reused // (for example, if there are no "package p" test files and // package p need not be instrumented for coverage or any other reason), // then the returned ptest == p. // // If done is non-nil, TestPackagesAndErrors will finish filling out the returned // package structs in a goroutine and call done once finished. The members of the // returned packages should not be accessed until done is called. // // The caller is expected to have checked that len(p.TestGoFiles)+len(p.XTestGoFiles) > 0, // or else there's no point in any of this. func TestPackagesAndErrors(ctx context.Context, done func(), opts PackageOpts, p *Package, cover *TestCover) (pmain, ptest, pxtest *Package) { ctx, span := trace.StartSpan(ctx, "load.TestPackagesAndErrors") defer span.Done() pre := newPreload() defer pre.flush() allImports := append([]string{}, p.TestImports...) allImports = append(allImports, p.XTestImports...) pre.preloadImports(ctx, opts, allImports, p.Internal.Build) var ptestErr, pxtestErr *PackageError var imports, ximports []*Package var stk ImportStack var testEmbed, xtestEmbed map[string][]string var incomplete bool stk.Push(p.ImportPath + " (test)") rawTestImports := str.StringList(p.TestImports) for i, path := range p.TestImports { p1, err := loadImport(ctx, opts, pre, path, p.Dir, p, &stk, p.Internal.Build.TestImportPos[path], ResolveImport) if err != nil && ptestErr == nil { ptestErr = err incomplete = true } if p1.Incomplete { incomplete = true } p.TestImports[i] = p1.ImportPath imports = append(imports, p1) } var err error p.TestEmbedFiles, testEmbed, err = resolveEmbed(p.Dir, p.TestEmbedPatterns) if err != nil { ptestErr = &PackageError{ ImportStack: stk.Copy(), Err: err, } incomplete = true embedErr := err.(*EmbedError) ptestErr.setPos(p.Internal.Build.TestEmbedPatternPos[embedErr.Pattern]) } stk.Pop() stk.Push(p.ImportPath + "_test") pxtestNeedsPtest := false var pxtestIncomplete bool rawXTestImports := str.StringList(p.XTestImports) for i, path := range p.XTestImports { p1, err := loadImport(ctx, opts, pre, path, p.Dir, p, &stk, p.Internal.Build.XTestImportPos[path], ResolveImport) if err != nil && pxtestErr == nil { pxtestErr = err } if p1.Incomplete { pxtestIncomplete = true } if p1.ImportPath == p.ImportPath { pxtestNeedsPtest = true } else { ximports = append(ximports, p1) } p.XTestImports[i] = p1.ImportPath } p.XTestEmbedFiles, xtestEmbed, err = resolveEmbed(p.Dir, p.XTestEmbedPatterns) if err != nil && pxtestErr == nil { pxtestErr = &PackageError{ ImportStack: stk.Copy(), Err: err, } embedErr := err.(*EmbedError) pxtestErr.setPos(p.Internal.Build.XTestEmbedPatternPos[embedErr.Pattern]) } pxtestIncomplete = pxtestIncomplete || pxtestErr != nil stk.Pop() // Test package. if len(p.TestGoFiles) > 0 || p.Name == "main" || cover != nil && cover.Local { ptest = new(Package) *ptest = *p ptest.Error = ptestErr ptest.Incomplete = incomplete ptest.ForTest = p.ImportPath ptest.GoFiles = nil ptest.GoFiles = append(ptest.GoFiles, p.GoFiles...) ptest.GoFiles = append(ptest.GoFiles, p.TestGoFiles...) ptest.Target = "" // Note: The preparation of the vet config requires that common // indexes in ptest.Imports and ptest.Internal.RawImports // all line up (but RawImports can be shorter than the others). // That is, for 0 ≤ i < len(RawImports), // RawImports[i] is the import string in the program text, and // Imports[i] is the expanded import string (vendoring applied or relative path expanded away). // Any implicitly added imports appear in Imports and Internal.Imports // but not RawImports (because they were not in the source code). // We insert TestImports, imports, and rawTestImports at the start of // these lists to preserve the alignment. // Note that p.Internal.Imports may not be aligned with p.Imports/p.Internal.RawImports, // but we insert at the beginning there too just for consistency. ptest.Imports = str.StringList(p.TestImports, p.Imports) ptest.Internal.Imports = append(imports, p.Internal.Imports...) ptest.Internal.RawImports = str.StringList(rawTestImports, p.Internal.RawImports) ptest.Internal.ForceLibrary = true ptest.Internal.BuildInfo = nil ptest.Internal.Build = new(build.Package) *ptest.Internal.Build = *p.Internal.Build m := map[string][]token.Position{} for k, v := range p.Internal.Build.ImportPos { m[k] = append(m[k], v...) } for k, v := range p.Internal.Build.TestImportPos { m[k] = append(m[k], v...) } ptest.Internal.Build.ImportPos = m if testEmbed == nil && len(p.Internal.Embed) > 0 { testEmbed = map[string][]string{} } for k, v := range p.Internal.Embed { testEmbed[k] = v } ptest.Internal.Embed = testEmbed ptest.EmbedFiles = str.StringList(p.EmbedFiles, p.TestEmbedFiles) ptest.Internal.OrigImportPath = p.Internal.OrigImportPath ptest.Internal.PGOProfile = p.Internal.PGOProfile ptest.Internal.Build.Directives = append(slices.Clip(p.Internal.Build.Directives), p.Internal.Build.TestDirectives...) } else { ptest = p } // External test package. if len(p.XTestGoFiles) > 0 { pxtest = &Package{ PackagePublic: PackagePublic{ Name: p.Name + "_test", ImportPath: p.ImportPath + "_test", Root: p.Root, Dir: p.Dir, Goroot: p.Goroot, GoFiles: p.XTestGoFiles, Imports: p.XTestImports, ForTest: p.ImportPath, Module: p.Module, Error: pxtestErr, Incomplete: pxtestIncomplete, EmbedFiles: p.XTestEmbedFiles, }, Internal: PackageInternal{ LocalPrefix: p.Internal.LocalPrefix, Build: &build.Package{ ImportPos: p.Internal.Build.XTestImportPos, Directives: p.Internal.Build.XTestDirectives, }, Imports: ximports, RawImports: rawXTestImports, Asmflags: p.Internal.Asmflags, Gcflags: p.Internal.Gcflags, Ldflags: p.Internal.Ldflags, Gccgoflags: p.Internal.Gccgoflags, Embed: xtestEmbed, OrigImportPath: p.Internal.OrigImportPath, PGOProfile: p.Internal.PGOProfile, }, } if pxtestNeedsPtest { pxtest.Internal.Imports = append(pxtest.Internal.Imports, ptest) } } // Arrange for testing.Testing to report true. ldflags := append(p.Internal.Ldflags, "-X", "testing.testBinary=1") gccgoflags := append(p.Internal.Gccgoflags, "-Wl,--defsym,testing.gccgoTestBinary=1") // Build main package. pmain = &Package{ PackagePublic: PackagePublic{ Name: "main", Dir: p.Dir, GoFiles: []string{"_testmain.go"}, ImportPath: p.ImportPath + ".test", Root: p.Root, Imports: str.StringList(TestMainDeps), Module: p.Module, }, Internal: PackageInternal{ Build: &build.Package{Name: "main"}, BuildInfo: p.Internal.BuildInfo, Asmflags: p.Internal.Asmflags, Gcflags: p.Internal.Gcflags, Ldflags: ldflags, Gccgoflags: gccgoflags, OrigImportPath: p.Internal.OrigImportPath, PGOProfile: p.Internal.PGOProfile, }, } pb := p.Internal.Build pmain.DefaultGODEBUG = defaultGODEBUG(pmain, pb.Directives, pb.TestDirectives, pb.XTestDirectives) // The generated main also imports testing, regexp, and os. // Also the linker introduces implicit dependencies reported by LinkerDeps. stk.Push("testmain") deps := TestMainDeps // cap==len, so safe for append ldDeps, err := LinkerDeps(p) if err != nil && pmain.Error == nil { pmain.Error = &PackageError{Err: err} } for _, d := range ldDeps { deps = append(deps, d) } for _, dep := range deps { if dep == ptest.ImportPath { pmain.Internal.Imports = append(pmain.Internal.Imports, ptest) } else { p1, err := loadImport(ctx, opts, pre, dep, "", nil, &stk, nil, 0) if err != nil && pmain.Error == nil { pmain.Error = err pmain.Incomplete = true } pmain.Internal.Imports = append(pmain.Internal.Imports, p1) } } stk.Pop() parallelizablePart := func() { if cover != nil && cover.Pkgs != nil && !cfg.Experiment.CoverageRedesign { // Add imports, but avoid duplicates. seen := map[*Package]bool{p: true, ptest: true} for _, p1 := range pmain.Internal.Imports { seen[p1] = true } for _, p1 := range cover.Pkgs { if seen[p1] { // Don't add duplicate imports. continue } seen[p1] = true pmain.Internal.Imports = append(pmain.Internal.Imports, p1) } } allTestImports := make([]*Package, 0, len(pmain.Internal.Imports)+len(imports)+len(ximports)) allTestImports = append(allTestImports, pmain.Internal.Imports...) allTestImports = append(allTestImports, imports...) allTestImports = append(allTestImports, ximports...) setToolFlags(allTestImports...) // Do initial scan for metadata needed for writing _testmain.go // Use that metadata to update the list of imports for package main. // The list of imports is used by recompileForTest and by the loop // afterward that gathers t.Cover information. t, err := loadTestFuncs(p) if err != nil && pmain.Error == nil { pmain.setLoadPackageDataError(err, p.ImportPath, &stk, nil) } t.Cover = cover if len(ptest.GoFiles)+len(ptest.CgoFiles) > 0 { pmain.Internal.Imports = append(pmain.Internal.Imports, ptest) pmain.Imports = append(pmain.Imports, ptest.ImportPath) t.ImportTest = true } if pxtest != nil { pmain.Internal.Imports = append(pmain.Internal.Imports, pxtest) pmain.Imports = append(pmain.Imports, pxtest.ImportPath) t.ImportXtest = true } // Sort and dedup pmain.Imports. // Only matters for go list -test output. sort.Strings(pmain.Imports) w := 0 for _, path := range pmain.Imports { if w == 0 || path != pmain.Imports[w-1] { pmain.Imports[w] = path w++ } } pmain.Imports = pmain.Imports[:w] pmain.Internal.RawImports = str.StringList(pmain.Imports) // Replace pmain's transitive dependencies with test copies, as necessary. cycleErr := recompileForTest(pmain, p, ptest, pxtest) if cycleErr != nil { ptest.Error = cycleErr ptest.Incomplete = true } if cover != nil { if cfg.Experiment.CoverageRedesign { // Here ptest needs to inherit the proper coverage mode (since // it contains p's Go files), whereas pmain contains only // test harness code (don't want to instrument it, and // we don't want coverage hooks in the pkg init). ptest.Internal.Cover.Mode = p.Internal.Cover.Mode pmain.Internal.Cover.Mode = "testmain" } // Should we apply coverage analysis locally, only for this // package and only for this test? Yes, if -cover is on but // -coverpkg has not specified a list of packages for global // coverage. if cover.Local { ptest.Internal.Cover.Mode = cover.Mode if !cfg.Experiment.CoverageRedesign { var coverFiles []string coverFiles = append(coverFiles, ptest.GoFiles...) coverFiles = append(coverFiles, ptest.CgoFiles...) ptest.Internal.CoverVars = DeclareCoverVars(ptest, coverFiles...) } } if !cfg.Experiment.CoverageRedesign { for _, cp := range pmain.Internal.Imports { if len(cp.Internal.CoverVars) > 0 { t.Cover.Vars = append(t.Cover.Vars, coverInfo{cp, cp.Internal.CoverVars}) } } } } data, err := formatTestmain(t) if err != nil && pmain.Error == nil { pmain.Error = &PackageError{Err: err} pmain.Incomplete = true } // Set TestmainGo even if it is empty: the presence of a TestmainGo // indicates that this package is, in fact, a test main. pmain.Internal.TestmainGo = &data } if done != nil { go func() { parallelizablePart() done() }() } else { parallelizablePart() } return pmain, ptest, pxtest } // recompileForTest copies and replaces certain packages in pmain's dependency // graph. This is necessary for two reasons. First, if ptest is different than // preal, packages that import the package under test should get ptest instead // of preal. This is particularly important if pxtest depends on functionality // exposed in test sources in ptest. Second, if there is a main package // (other than pmain) anywhere, we need to set p.Internal.ForceLibrary and // clear p.Internal.BuildInfo in the test copy to prevent link conflicts. // This may happen if both -coverpkg and the command line patterns include // multiple main packages. func recompileForTest(pmain, preal, ptest, pxtest *Package) *PackageError { // The "test copy" of preal is ptest. // For each package that depends on preal, make a "test copy" // that depends on ptest. And so on, up the dependency tree. testCopy := map[*Package]*Package{preal: ptest} for _, p := range PackageList([]*Package{pmain}) { if p == preal { continue } // Copy on write. didSplit := p == pmain || p == pxtest || p == ptest split := func() { if didSplit { return } didSplit = true if testCopy[p] != nil { panic("recompileForTest loop") } p1 := new(Package) testCopy[p] = p1 *p1 = *p p1.ForTest = preal.ImportPath p1.Internal.Imports = make([]*Package, len(p.Internal.Imports)) copy(p1.Internal.Imports, p.Internal.Imports) p1.Imports = make([]string, len(p.Imports)) copy(p1.Imports, p.Imports) p = p1 p.Target = "" p.Internal.BuildInfo = nil p.Internal.ForceLibrary = true p.Internal.PGOProfile = preal.Internal.PGOProfile } // Update p.Internal.Imports to use test copies. for i, imp := range p.Internal.Imports { if p1 := testCopy[imp]; p1 != nil && p1 != imp { split() // If the test dependencies cause a cycle with pmain, this is // where it is introduced. // (There are no cycles in the graph until this assignment occurs.) p.Internal.Imports[i] = p1 } } // Force main packages the test imports to be built as libraries. // Normal imports of main packages are forbidden by the package loader, // but this can still happen if -coverpkg patterns include main packages: // covered packages are imported by pmain. Linking multiple packages // compiled with '-p main' causes duplicate symbol errors. // See golang.org/issue/30907, golang.org/issue/34114. if p.Name == "main" && p != pmain && p != ptest { split() } // Split and attach PGO information to test dependencies if preal // is built with PGO. if preal.Internal.PGOProfile != "" && p.Internal.PGOProfile == "" { split() } } // Do search to find cycle. // importerOf maps each import path to its importer nearest to p. importerOf := map[*Package]*Package{} for _, p := range ptest.Internal.Imports { importerOf[p] = nil } // q is a breadth-first queue of packages to search for target. // Every package added to q has a corresponding entry in pathTo. // // We search breadth-first for two reasons: // // 1. We want to report the shortest cycle. // // 2. If p contains multiple cycles, the first cycle we encounter might not // contain target. To ensure termination, we have to break all cycles // other than the first. q := slices.Clip(ptest.Internal.Imports) for len(q) > 0 { p := q[0] q = q[1:] if p == ptest { // The stack is supposed to be in the order x imports y imports z. // We collect in the reverse order: z is imported by y is imported // by x, and then we reverse it. var stk []string for p != nil { stk = append(stk, p.ImportPath) p = importerOf[p] } // complete the cycle: we set importer[p] = nil to break the cycle // in importerOf, it's an implicit importerOf[p] == pTest. Add it // back here since we reached nil in the loop above to demonstrate // the cycle as (for example) package p imports package q imports package r // imports package p. stk = append(stk, ptest.ImportPath) slices.Reverse(stk) return &PackageError{ ImportStack: stk, Err: errors.New("import cycle not allowed in test"), IsImportCycle: true, } } for _, dep := range p.Internal.Imports { if _, ok := importerOf[dep]; !ok { importerOf[dep] = p q = append(q, dep) } } } return nil } // isTestFunc tells whether fn has the type of a testing function. arg // specifies the parameter type we look for: B, M or T. func isTestFunc(fn *ast.FuncDecl, arg string) bool { if fn.Type.Results != nil && len(fn.Type.Results.List) > 0 || fn.Type.Params.List == nil || len(fn.Type.Params.List) != 1 || len(fn.Type.Params.List[0].Names) > 1 { return false } ptr, ok := fn.Type.Params.List[0].Type.(*ast.StarExpr) if !ok { return false } // We can't easily check that the type is *testing.M // because we don't know how testing has been imported, // but at least check that it's *M or *something.M. // Same applies for B and T. if name, ok := ptr.X.(*ast.Ident); ok && name.Name == arg { return true } if sel, ok := ptr.X.(*ast.SelectorExpr); ok && sel.Sel.Name == arg { return true } return false } // isTest tells whether name looks like a test (or benchmark, according to prefix). // It is a Test (say) if there is a character after Test that is not a lower-case letter. // We don't want TesticularCancer. func isTest(name, prefix string) bool { if !strings.HasPrefix(name, prefix) { return false } if len(name) == len(prefix) { // "Test" is ok return true } rune, _ := utf8.DecodeRuneInString(name[len(prefix):]) return !unicode.IsLower(rune) } type coverInfo struct { Package *Package Vars map[string]*CoverVar } // loadTestFuncs returns the testFuncs describing the tests that will be run. // The returned testFuncs is always non-nil, even if an error occurred while // processing test files. func loadTestFuncs(ptest *Package) (*testFuncs, error) { t := &testFuncs{ Package: ptest, } var err error for _, file := range ptest.TestGoFiles { if lerr := t.load(filepath.Join(ptest.Dir, file), "_test", &t.ImportTest, &t.NeedTest); lerr != nil && err == nil { err = lerr } } for _, file := range ptest.XTestGoFiles { if lerr := t.load(filepath.Join(ptest.Dir, file), "_xtest", &t.ImportXtest, &t.NeedXtest); lerr != nil && err == nil { err = lerr } } return t, err } // formatTestmain returns the content of the _testmain.go file for t. func formatTestmain(t *testFuncs) ([]byte, error) { var buf bytes.Buffer tmpl := testmainTmpl if cfg.Experiment.CoverageRedesign { tmpl = testmainTmplNewCoverage } if err := tmpl.Execute(&buf, t); err != nil { return nil, err } return buf.Bytes(), nil } type testFuncs struct { Tests []testFunc Benchmarks []testFunc FuzzTargets []testFunc Examples []testFunc TestMain *testFunc Package *Package ImportTest bool NeedTest bool ImportXtest bool NeedXtest bool Cover *TestCover } // ImportPath returns the import path of the package being tested, if it is within GOPATH. // This is printed by the testing package when running benchmarks. func (t *testFuncs) ImportPath() string { pkg := t.Package.ImportPath if strings.HasPrefix(pkg, "_/") { return "" } if pkg == "command-line-arguments" { return "" } return pkg } // Covered returns a string describing which packages are being tested for coverage. // If the covered package is the same as the tested package, it returns the empty string. // Otherwise it is a comma-separated human-readable list of packages beginning with // " in", ready for use in the coverage message. func (t *testFuncs) Covered() string { if t.Cover == nil || t.Cover.Paths == nil { return "" } return " in " + strings.Join(t.Cover.Paths, ", ") } // Tested returns the name of the package being tested. func (t *testFuncs) Tested() string { return t.Package.Name } type testFunc struct { Package string // imported package name (_test or _xtest) Name string // function name Output string // output, for examples Unordered bool // output is allowed to be unordered. } var testFileSet = token.NewFileSet() func (t *testFuncs) load(filename, pkg string, doImport, seen *bool) error { // Pass in the overlaid source if we have an overlay for this file. src, err := fsys.Open(filename) if err != nil { return err } defer src.Close() f, err := parser.ParseFile(testFileSet, filename, src, parser.ParseComments|parser.SkipObjectResolution) if err != nil { return err } for _, d := range f.Decls { n, ok := d.(*ast.FuncDecl) if !ok { continue } if n.Recv != nil { continue } name := n.Name.String() switch { case name == "TestMain": if isTestFunc(n, "T") { t.Tests = append(t.Tests, testFunc{pkg, name, "", false}) *doImport, *seen = true, true continue } err := checkTestFunc(n, "M") if err != nil { return err } if t.TestMain != nil { return errors.New("multiple definitions of TestMain") } t.TestMain = &testFunc{pkg, name, "", false} *doImport, *seen = true, true case isTest(name, "Test"): err := checkTestFunc(n, "T") if err != nil { return err } t.Tests = append(t.Tests, testFunc{pkg, name, "", false}) *doImport, *seen = true, true case isTest(name, "Benchmark"): err := checkTestFunc(n, "B") if err != nil { return err } t.Benchmarks = append(t.Benchmarks, testFunc{pkg, name, "", false}) *doImport, *seen = true, true case isTest(name, "Fuzz"): err := checkTestFunc(n, "F") if err != nil { return err } t.FuzzTargets = append(t.FuzzTargets, testFunc{pkg, name, "", false}) *doImport, *seen = true, true } } ex := doc.Examples(f) sort.Slice(ex, func(i, j int) bool { return ex[i].Order < ex[j].Order }) for _, e := range ex { *doImport = true // import test file whether executed or not if e.Output == "" && !e.EmptyOutput { // Don't run examples with no output. continue } t.Examples = append(t.Examples, testFunc{pkg, "Example" + e.Name, e.Output, e.Unordered}) *seen = true } return nil } func checkTestFunc(fn *ast.FuncDecl, arg string) error { var why string if !isTestFunc(fn, arg) { why = fmt.Sprintf("must be: func %s(%s *testing.%s)", fn.Name.String(), strings.ToLower(arg), arg) } if fn.Type.TypeParams.NumFields() > 0 { why = "test functions cannot have type parameters" } if why != "" { pos := testFileSet.Position(fn.Pos()) return fmt.Errorf("%s: wrong signature for %s, %s", pos, fn.Name.String(), why) } return nil } var testmainTmpl = lazytemplate.New("main", ` // Code generated by 'go test'. DO NOT EDIT. package main import ( "os" {{if .TestMain}} "reflect" {{end}} "testing" "testing/internal/testdeps" {{if .ImportTest}} {{if .NeedTest}}_test{{else}}_{{end}} {{.Package.ImportPath | printf "%q"}} {{end}} {{if .ImportXtest}} {{if .NeedXtest}}_xtest{{else}}_{{end}} {{.Package.ImportPath | printf "%s_test" | printf "%q"}} {{end}} {{if .Cover}} {{range $i, $p := .Cover.Vars}} _cover{{$i}} {{$p.Package.ImportPath | printf "%q"}} {{end}} {{end}} ) var tests = []testing.InternalTest{ {{range .Tests}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var benchmarks = []testing.InternalBenchmark{ {{range .Benchmarks}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var fuzzTargets = []testing.InternalFuzzTarget{ {{range .FuzzTargets}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var examples = []testing.InternalExample{ {{range .Examples}} {"{{.Name}}", {{.Package}}.{{.Name}}, {{.Output | printf "%q"}}, {{.Unordered}}}, {{end}} } func init() { testdeps.ImportPath = {{.ImportPath | printf "%q"}} } {{if .Cover}} // Only updated by init functions, so no need for atomicity. var ( coverCounters = make(map[string][]uint32) coverBlocks = make(map[string][]testing.CoverBlock) ) func init() { {{range $i, $p := .Cover.Vars}} {{range $file, $cover := $p.Vars}} coverRegisterFile({{printf "%q" $cover.File}}, _cover{{$i}}.{{$cover.Var}}.Count[:], _cover{{$i}}.{{$cover.Var}}.Pos[:], _cover{{$i}}.{{$cover.Var}}.NumStmt[:]) {{end}} {{end}} } func coverRegisterFile(fileName string, counter []uint32, pos []uint32, numStmts []uint16) { if 3*len(counter) != len(pos) || len(counter) != len(numStmts) { panic("coverage: mismatched sizes") } if coverCounters[fileName] != nil { // Already registered. return } coverCounters[fileName] = counter block := make([]testing.CoverBlock, len(counter)) for i := range counter { block[i] = testing.CoverBlock{ Line0: pos[3*i+0], Col0: uint16(pos[3*i+2]), Line1: pos[3*i+1], Col1: uint16(pos[3*i+2]>>16), Stmts: numStmts[i], } } coverBlocks[fileName] = block } {{end}} func main() { {{if .Cover}} testing.RegisterCover(testing.Cover{ Mode: {{printf "%q" .Cover.Mode}}, Counters: coverCounters, Blocks: coverBlocks, CoveredPackages: {{printf "%q" .Covered}}, }) {{end}} m := testing.MainStart(testdeps.TestDeps{}, tests, benchmarks, fuzzTargets, examples) {{with .TestMain}} {{.Package}}.{{.Name}}(m) os.Exit(int(reflect.ValueOf(m).Elem().FieldByName("exitCode").Int())) {{else}} os.Exit(m.Run()) {{end}} } `) var testmainTmplNewCoverage = lazytemplate.New("main", ` // Code generated by 'go test'. DO NOT EDIT. package main import ( "os" {{if .Cover}} _ "unsafe" {{end}} {{if .TestMain}} "reflect" {{end}} "testing" "testing/internal/testdeps" {{if .ImportTest}} {{if .NeedTest}}_test{{else}}_{{end}} {{.Package.ImportPath | printf "%q"}} {{end}} {{if .ImportXtest}} {{if .NeedXtest}}_xtest{{else}}_{{end}} {{.Package.ImportPath | printf "%s_test" | printf "%q"}} {{end}} ) var tests = []testing.InternalTest{ {{range .Tests}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var benchmarks = []testing.InternalBenchmark{ {{range .Benchmarks}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var fuzzTargets = []testing.InternalFuzzTarget{ {{range .FuzzTargets}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var examples = []testing.InternalExample{ {{range .Examples}} {"{{.Name}}", {{.Package}}.{{.Name}}, {{.Output | printf "%q"}}, {{.Unordered}}}, {{end}} } func init() { testdeps.ImportPath = {{.ImportPath | printf "%q"}} } {{if .Cover}} //go:linkname runtime_coverage_processCoverTestDir runtime/coverage.processCoverTestDir func runtime_coverage_processCoverTestDir(dir string, cfile string, cmode string, cpkgs string) error //go:linkname testing_registerCover2 testing.registerCover2 func testing_registerCover2(mode string, tearDown func(coverprofile string, gocoverdir string) (string, error), snapcov func() float64) //go:linkname runtime_coverage_markProfileEmitted runtime/coverage.markProfileEmitted func runtime_coverage_markProfileEmitted(val bool) //go:linkname runtime_coverage_snapshot runtime/coverage.snapshot func runtime_coverage_snapshot() float64 func coverTearDown(coverprofile string, gocoverdir string) (string, error) { var err error if gocoverdir == "" { gocoverdir, err = os.MkdirTemp("", "gocoverdir") if err != nil { return "error setting GOCOVERDIR: bad os.MkdirTemp return", err } defer os.RemoveAll(gocoverdir) } runtime_coverage_markProfileEmitted(true) cmode := {{printf "%q" .Cover.Mode}} if err := runtime_coverage_processCoverTestDir(gocoverdir, coverprofile, cmode, {{printf "%q" .Covered}}); err != nil { return "error generating coverage report", err } return "", nil } {{end}} func main() { {{if .Cover}} testing_registerCover2({{printf "%q" .Cover.Mode}}, coverTearDown, runtime_coverage_snapshot) {{end}} m := testing.MainStart(testdeps.TestDeps{}, tests, benchmarks, fuzzTargets, examples) {{with .TestMain}} {{.Package}}.{{.Name}}(m) os.Exit(int(reflect.ValueOf(m).Elem().FieldByName("exitCode").Int())) {{else}} os.Exit(m.Run()) {{end}} } `)