// 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 load loads packages. package load import ( "bytes" "context" "crypto/sha256" "encoding/json" "errors" "fmt" "go/build" "go/scanner" "go/token" "internal/platform" "io/fs" "os" pathpkg "path" "path/filepath" "runtime" "runtime/debug" "slices" "sort" "strconv" "strings" "time" "unicode" "unicode/utf8" "cmd/go/internal/base" "cmd/go/internal/cfg" "cmd/go/internal/fsys" "cmd/go/internal/gover" "cmd/go/internal/imports" "cmd/go/internal/modfetch" "cmd/go/internal/modindex" "cmd/go/internal/modinfo" "cmd/go/internal/modload" "cmd/go/internal/search" "cmd/go/internal/str" "cmd/go/internal/trace" "cmd/go/internal/vcs" "cmd/internal/par" "cmd/internal/pathcache" "cmd/internal/pkgpattern" "golang.org/x/mod/modfile" "golang.org/x/mod/module" ) // A Package describes a single package found in a directory. type Package struct { PackagePublic // visible in 'go list' Internal PackageInternal // for use inside go command only } type PackagePublic struct { // Note: These fields are part of the go command's public API. // See list.go. It is okay to add fields, but not to change or // remove existing ones. Keep in sync with ../list/list.go Dir string `json:",omitempty"` // directory containing package sources ImportPath string `json:",omitempty"` // import path of package in dir ImportComment string `json:",omitempty"` // path in import comment on package statement Name string `json:",omitempty"` // package name Doc string `json:",omitempty"` // package documentation string Target string `json:",omitempty"` // installed target for this package (may be executable) Shlib string `json:",omitempty"` // the shared library that contains this package (only set when -linkshared) Root string `json:",omitempty"` // Go root, Go path dir, or module root dir containing this package ConflictDir string `json:",omitempty"` // Dir is hidden by this other directory ForTest string `json:",omitempty"` // package is only for use in named test Export string `json:",omitempty"` // file containing export data (set by go list -export) BuildID string `json:",omitempty"` // build ID of the compiled package (set by go list -export) Module *modinfo.ModulePublic `json:",omitempty"` // info about package's module, if any Match []string `json:",omitempty"` // command-line patterns matching this package Goroot bool `json:",omitempty"` // is this package found in the Go root? Standard bool `json:",omitempty"` // is this package part of the standard Go library? DepOnly bool `json:",omitempty"` // package is only as a dependency, not explicitly listed BinaryOnly bool `json:",omitempty"` // package cannot be recompiled Incomplete bool `json:",omitempty"` // was there an error loading this package or dependencies? DefaultGODEBUG string `json:",omitempty"` // default GODEBUG setting (only for Name=="main") // Stale and StaleReason remain here *only* for the list command. // They are only initialized in preparation for list execution. // The regular build determines staleness on the fly during action execution. Stale bool `json:",omitempty"` // would 'go install' do anything for this package? StaleReason string `json:",omitempty"` // why is Stale true? // Source files // If you add to this list you MUST add to p.AllFiles (below) too. // Otherwise file name security lists will not apply to any new additions. GoFiles []string `json:",omitempty"` // .go source files (excluding CgoFiles, TestGoFiles, XTestGoFiles) CgoFiles []string `json:",omitempty"` // .go source files that import "C" CompiledGoFiles []string `json:",omitempty"` // .go output from running cgo on CgoFiles IgnoredGoFiles []string `json:",omitempty"` // .go source files ignored due to build constraints InvalidGoFiles []string `json:",omitempty"` // .go source files with detected problems (parse error, wrong package name, and so on) IgnoredOtherFiles []string `json:",omitempty"` // non-.go source files ignored due to build constraints CFiles []string `json:",omitempty"` // .c source files CXXFiles []string `json:",omitempty"` // .cc, .cpp and .cxx source files MFiles []string `json:",omitempty"` // .m source files HFiles []string `json:",omitempty"` // .h, .hh, .hpp and .hxx source files FFiles []string `json:",omitempty"` // .f, .F, .for and .f90 Fortran source files SFiles []string `json:",omitempty"` // .s source files SwigFiles []string `json:",omitempty"` // .swig files SwigCXXFiles []string `json:",omitempty"` // .swigcxx files SysoFiles []string `json:",omitempty"` // .syso system object files added to package // Embedded files EmbedPatterns []string `json:",omitempty"` // //go:embed patterns EmbedFiles []string `json:",omitempty"` // files matched by EmbedPatterns // Cgo directives CgoCFLAGS []string `json:",omitempty"` // cgo: flags for C compiler CgoCPPFLAGS []string `json:",omitempty"` // cgo: flags for C preprocessor CgoCXXFLAGS []string `json:",omitempty"` // cgo: flags for C++ compiler CgoFFLAGS []string `json:",omitempty"` // cgo: flags for Fortran compiler CgoLDFLAGS []string `json:",omitempty"` // cgo: flags for linker CgoPkgConfig []string `json:",omitempty"` // cgo: pkg-config names // Dependency information Imports []string `json:",omitempty"` // import paths used by this package ImportMap map[string]string `json:",omitempty"` // map from source import to ImportPath (identity entries omitted) Deps []string `json:",omitempty"` // all (recursively) imported dependencies // Error information // Incomplete is above, packed into the other bools Error *PackageError `json:",omitempty"` // error loading this package (not dependencies) DepsErrors []*PackageError `json:",omitempty"` // errors loading dependencies, collected by go list before output // Test information // If you add to this list you MUST add to p.AllFiles (below) too. // Otherwise file name security lists will not apply to any new additions. TestGoFiles []string `json:",omitempty"` // _test.go files in package TestImports []string `json:",omitempty"` // imports from TestGoFiles TestEmbedPatterns []string `json:",omitempty"` // //go:embed patterns TestEmbedFiles []string `json:",omitempty"` // files matched by TestEmbedPatterns XTestGoFiles []string `json:",omitempty"` // _test.go files outside package XTestImports []string `json:",omitempty"` // imports from XTestGoFiles XTestEmbedPatterns []string `json:",omitempty"` // //go:embed patterns XTestEmbedFiles []string `json:",omitempty"` // files matched by XTestEmbedPatterns } // AllFiles returns the names of all the files considered for the package. // This is used for sanity and security checks, so we include all files, // even IgnoredGoFiles, because some subcommands consider them. // The go/build package filtered others out (like foo_wrongGOARCH.s) // and that's OK. func (p *Package) AllFiles() []string { files := str.StringList( p.GoFiles, p.CgoFiles, // no p.CompiledGoFiles, because they are from GoFiles or generated by us p.IgnoredGoFiles, // no p.InvalidGoFiles, because they are from GoFiles p.IgnoredOtherFiles, p.CFiles, p.CXXFiles, p.MFiles, p.HFiles, p.FFiles, p.SFiles, p.SwigFiles, p.SwigCXXFiles, p.SysoFiles, p.TestGoFiles, p.XTestGoFiles, ) // EmbedFiles may overlap with the other files. // Dedup, but delay building the map as long as possible. // Only files in the current directory (no slash in name) // need to be checked against the files variable above. var have map[string]bool for _, file := range p.EmbedFiles { if !strings.Contains(file, "/") { if have == nil { have = make(map[string]bool) for _, file := range files { have[file] = true } } if have[file] { continue } } files = append(files, file) } return files } // Desc returns the package "description", for use in b.showOutput. func (p *Package) Desc() string { if p.ForTest != "" { return p.ImportPath + " [" + p.ForTest + ".test]" } if p.Internal.ForMain != "" { return p.ImportPath + " [" + p.Internal.ForMain + "]" } return p.ImportPath } // IsTestOnly reports whether p is a test-only package. // // A “test-only” package is one that: // - is a test-only variant of an ordinary package, or // - is a synthesized "main" package for a test binary, or // - contains only _test.go files. func (p *Package) IsTestOnly() bool { return p.ForTest != "" || p.Internal.TestmainGo != nil || len(p.TestGoFiles)+len(p.XTestGoFiles) > 0 && len(p.GoFiles)+len(p.CgoFiles) == 0 } type PackageInternal struct { // Unexported fields are not part of the public API. Build *build.Package Imports []*Package // this package's direct imports CompiledImports []string // additional Imports necessary when using CompiledGoFiles (all from standard library); 1:1 with the end of PackagePublic.Imports RawImports []string // this package's original imports as they appear in the text of the program; 1:1 with the end of PackagePublic.Imports ForceLibrary bool // this package is a library (even if named "main") CmdlineFiles bool // package built from files listed on command line CmdlinePkg bool // package listed on command line CmdlinePkgLiteral bool // package listed as literal on command line (not via wildcard) Local bool // imported via local path (./ or ../) LocalPrefix string // interpret ./ and ../ imports relative to this prefix ExeName string // desired name for temporary executable FuzzInstrument bool // package should be instrumented for fuzzing Cover CoverSetup // coverage mode and other setup info of -cover is being applied to this package CoverVars map[string]*CoverVar // variables created by coverage analysis OmitDebug bool // tell linker not to write debug information GobinSubdir bool // install target would be subdir of GOBIN BuildInfo *debug.BuildInfo // add this info to package main TestmainGo *[]byte // content for _testmain.go Embed map[string][]string // //go:embed comment mapping OrigImportPath string // original import path before adding '_test' suffix PGOProfile string // path to PGO profile ForMain string // the main package if this package is built specifically for it Asmflags []string // -asmflags for this package Gcflags []string // -gcflags for this package Ldflags []string // -ldflags for this package Gccgoflags []string // -gccgoflags for this package } // A NoGoError indicates that no Go files for the package were applicable to the // build for that package. // // That may be because there were no files whatsoever, or because all files were // excluded, or because all non-excluded files were test sources. type NoGoError struct { Package *Package } func (e *NoGoError) Error() string { if len(e.Package.IgnoredGoFiles) > 0 { // Go files exist, but they were ignored due to build constraints. return "build constraints exclude all Go files in " + e.Package.Dir } if len(e.Package.TestGoFiles)+len(e.Package.XTestGoFiles) > 0 { // Test Go files exist, but we're not interested in them. // The double-negative is unfortunate but we want e.Package.Dir // to appear at the end of error message. return "no non-test Go files in " + e.Package.Dir } return "no Go files in " + e.Package.Dir } // setLoadPackageDataError presents an error found when loading package data // as a *PackageError. It has special cases for some common errors to improve // messages shown to users and reduce redundancy. // // setLoadPackageDataError returns true if it's safe to load information about // imported packages, for example, if there was a parse error loading imports // in one file, but other files are okay. func (p *Package) setLoadPackageDataError(err error, path string, stk *ImportStack, importPos []token.Position) { matchErr, isMatchErr := err.(*search.MatchError) if isMatchErr && matchErr.Match.Pattern() == path { if matchErr.Match.IsLiteral() { // The error has a pattern has a pattern similar to the import path. // It may be slightly different (./foo matching example.com/foo), // but close enough to seem redundant. // Unwrap the error so we don't show the pattern. err = matchErr.Err } } // Replace (possibly wrapped) *build.NoGoError with *load.NoGoError. // The latter is more specific about the cause. var nogoErr *build.NoGoError if errors.As(err, &nogoErr) { if p.Dir == "" && nogoErr.Dir != "" { p.Dir = nogoErr.Dir } err = &NoGoError{Package: p} } // Take only the first error from a scanner.ErrorList. PackageError only // has room for one position, so we report the first error with a position // instead of all of the errors without a position. var pos string var isScanErr bool if scanErr, ok := err.(scanner.ErrorList); ok && len(scanErr) > 0 { isScanErr = true // For stack push/pop below. scanPos := scanErr[0].Pos scanPos.Filename = base.ShortPath(scanPos.Filename) pos = scanPos.String() err = errors.New(scanErr[0].Msg) } // Report the error on the importing package if the problem is with the import declaration // for example, if the package doesn't exist or if the import path is malformed. // On the other hand, don't include a position if the problem is with the imported package, // for example there are no Go files (NoGoError), or there's a problem in the imported // package's source files themselves (scanner errors). // // TODO(matloob): Perhaps make each of those the errors in the first group // (including modload.ImportMissingError, ImportMissingSumError, and the // corresponding "cannot find package %q in any of" GOPATH-mode error // produced in build.(*Context).Import; modload.AmbiguousImportError, // and modload.PackageNotInModuleError; and the malformed module path errors // produced in golang.org/x/mod/module.CheckMod) implement an interface // to make it easier to check for them? That would save us from having to // move the modload errors into this package to avoid a package import cycle, // and from having to export an error type for the errors produced in build. if !isMatchErr && (nogoErr != nil || isScanErr) { stk.Push(ImportInfo{Pkg: path, Pos: extractFirstImport(importPos)}) defer stk.Pop() } p.Error = &PackageError{ ImportStack: stk.Copy(), Pos: pos, Err: err, } p.Incomplete = true top, ok := stk.Top() if ok && path != top.Pkg { p.Error.setPos(importPos) } } // Resolve returns the resolved version of imports, // which should be p.TestImports or p.XTestImports, NOT p.Imports. // The imports in p.TestImports and p.XTestImports are not recursively // loaded during the initial load of p, so they list the imports found in // the source file, but most processing should be over the vendor-resolved // import paths. We do this resolution lazily both to avoid file system work // and because the eventual real load of the test imports (during 'go test') // can produce better error messages if it starts with the original paths. // The initial load of p loads all the non-test imports and rewrites // the vendored paths, so nothing should ever call p.vendored(p.Imports). func (p *Package) Resolve(imports []string) []string { if len(imports) > 0 && len(p.Imports) > 0 && &imports[0] == &p.Imports[0] { panic("internal error: p.Resolve(p.Imports) called") } seen := make(map[string]bool) var all []string for _, path := range imports { path = ResolveImportPath(p, path) if !seen[path] { seen[path] = true all = append(all, path) } } sort.Strings(all) return all } // CoverVar holds the name of the generated coverage variables targeting the named file. type CoverVar struct { File string // local file name Var string // name of count struct } // CoverSetup holds parameters related to coverage setup for a given package (covermode, etc). type CoverSetup struct { Mode string // coverage mode for this package Cfg string // path to config file to pass to "go tool cover" GenMeta bool // ask cover tool to emit a static meta data if set } func (p *Package) copyBuild(opts PackageOpts, pp *build.Package) { p.Internal.Build = pp if pp.PkgTargetRoot != "" && cfg.BuildPkgdir != "" { old := pp.PkgTargetRoot pp.PkgRoot = cfg.BuildPkgdir pp.PkgTargetRoot = cfg.BuildPkgdir if pp.PkgObj != "" { pp.PkgObj = filepath.Join(cfg.BuildPkgdir, strings.TrimPrefix(pp.PkgObj, old)) } } p.Dir = pp.Dir p.ImportPath = pp.ImportPath p.ImportComment = pp.ImportComment p.Name = pp.Name p.Doc = pp.Doc p.Root = pp.Root p.ConflictDir = pp.ConflictDir p.BinaryOnly = pp.BinaryOnly // TODO? Target p.Goroot = pp.Goroot p.Standard = p.Goroot && p.ImportPath != "" && search.IsStandardImportPath(p.ImportPath) p.GoFiles = pp.GoFiles p.CgoFiles = pp.CgoFiles p.IgnoredGoFiles = pp.IgnoredGoFiles p.InvalidGoFiles = pp.InvalidGoFiles p.IgnoredOtherFiles = pp.IgnoredOtherFiles p.CFiles = pp.CFiles p.CXXFiles = pp.CXXFiles p.MFiles = pp.MFiles p.HFiles = pp.HFiles p.FFiles = pp.FFiles p.SFiles = pp.SFiles p.SwigFiles = pp.SwigFiles p.SwigCXXFiles = pp.SwigCXXFiles p.SysoFiles = pp.SysoFiles if cfg.BuildMSan { // There's no way for .syso files to be built both with and without // support for memory sanitizer. Assume they are built without, // and drop them. p.SysoFiles = nil } p.CgoCFLAGS = pp.CgoCFLAGS p.CgoCPPFLAGS = pp.CgoCPPFLAGS p.CgoCXXFLAGS = pp.CgoCXXFLAGS p.CgoFFLAGS = pp.CgoFFLAGS p.CgoLDFLAGS = pp.CgoLDFLAGS p.CgoPkgConfig = pp.CgoPkgConfig // We modify p.Imports in place, so make copy now. p.Imports = make([]string, len(pp.Imports)) copy(p.Imports, pp.Imports) p.Internal.RawImports = pp.Imports p.TestGoFiles = pp.TestGoFiles p.TestImports = pp.TestImports p.XTestGoFiles = pp.XTestGoFiles p.XTestImports = pp.XTestImports if opts.IgnoreImports { p.Imports = nil p.Internal.RawImports = nil p.TestImports = nil p.XTestImports = nil } p.EmbedPatterns = pp.EmbedPatterns p.TestEmbedPatterns = pp.TestEmbedPatterns p.XTestEmbedPatterns = pp.XTestEmbedPatterns p.Internal.OrigImportPath = pp.ImportPath } // A PackageError describes an error loading information about a package. type PackageError struct { ImportStack ImportStack // shortest path from package named on command line to this one with position Pos string // position of error Err error // the error itself IsImportCycle bool // the error is an import cycle alwaysPrintStack bool // whether to always print the ImportStack } func (p *PackageError) Error() string { // TODO(#43696): decide when to print the stack or the position based on // the error type and whether the package is in the main module. // Document the rationale. if p.Pos != "" && (len(p.ImportStack) == 0 || !p.alwaysPrintStack) { // Omit import stack. The full path to the file where the error // is the most important thing. return p.Pos + ": " + p.Err.Error() } // If the error is an ImportPathError, and the last path on the stack appears // in the error message, omit that path from the stack to avoid repetition. // If an ImportPathError wraps another ImportPathError that matches the // last path on the stack, we don't omit the path. An error like // "package A imports B: error loading C caused by B" would not be clearer // if "imports B" were omitted. if len(p.ImportStack) == 0 { return p.Err.Error() } var optpos string if p.Pos != "" { optpos = "\n\t" + p.Pos } imports := p.ImportStack.Pkgs() if p.IsImportCycle { imports = p.ImportStack.PkgsWithPos() } return "package " + strings.Join(imports, "\n\timports ") + optpos + ": " + p.Err.Error() } func (p *PackageError) Unwrap() error { return p.Err } // PackageError implements MarshalJSON so that Err is marshaled as a string // and non-essential fields are omitted. func (p *PackageError) MarshalJSON() ([]byte, error) { perr := struct { ImportStack []string // use []string for package names Pos string Err string }{p.ImportStack.Pkgs(), p.Pos, p.Err.Error()} return json.Marshal(perr) } func (p *PackageError) setPos(posList []token.Position) { if len(posList) == 0 { return } pos := posList[0] pos.Filename = base.ShortPath(pos.Filename) p.Pos = pos.String() } // ImportPathError is a type of error that prevents a package from being loaded // for a given import path. When such a package is loaded, a *Package is // returned with Err wrapping an ImportPathError: the error is attached to // the imported package, not the importing package. // // The string returned by ImportPath must appear in the string returned by // Error. Errors that wrap ImportPathError (such as PackageError) may omit // the import path. type ImportPathError interface { error ImportPath() string } var ( _ ImportPathError = (*importError)(nil) _ ImportPathError = (*mainPackageError)(nil) _ ImportPathError = (*modload.ImportMissingError)(nil) _ ImportPathError = (*modload.ImportMissingSumError)(nil) _ ImportPathError = (*modload.DirectImportFromImplicitDependencyError)(nil) ) type importError struct { importPath string err error // created with fmt.Errorf } func ImportErrorf(path, format string, args ...any) ImportPathError { err := &importError{importPath: path, err: fmt.Errorf(format, args...)} if errStr := err.Error(); !strings.Contains(errStr, path) && !strings.Contains(errStr, strconv.Quote(path)) { panic(fmt.Sprintf("path %q not in error %q", path, errStr)) } return err } func (e *importError) Error() string { return e.err.Error() } func (e *importError) Unwrap() error { // Don't return e.err directly, since we're only wrapping an error if %w // was passed to ImportErrorf. return errors.Unwrap(e.err) } func (e *importError) ImportPath() string { return e.importPath } type ImportInfo struct { Pkg string Pos *token.Position } // An ImportStack is a stack of import paths, possibly with the suffix " (test)" appended. // The import path of a test package is the import path of the corresponding // non-test package with the suffix "_test" added. type ImportStack []ImportInfo func NewImportInfo(pkg string, pos *token.Position) ImportInfo { return ImportInfo{Pkg: pkg, Pos: pos} } func (s *ImportStack) Push(p ImportInfo) { *s = append(*s, p) } func (s *ImportStack) Pop() { *s = (*s)[0 : len(*s)-1] } func (s *ImportStack) Copy() ImportStack { return slices.Clone(*s) } func (s *ImportStack) Pkgs() []string { ss := make([]string, 0, len(*s)) for _, v := range *s { ss = append(ss, v.Pkg) } return ss } func (s *ImportStack) PkgsWithPos() []string { ss := make([]string, 0, len(*s)) for _, v := range *s { if v.Pos != nil { ss = append(ss, v.Pkg+" from "+filepath.Base(v.Pos.Filename)) } else { ss = append(ss, v.Pkg) } } return ss } func (s *ImportStack) Top() (ImportInfo, bool) { if len(*s) == 0 { return ImportInfo{}, false } return (*s)[len(*s)-1], true } // shorterThan reports whether sp is shorter than t. // We use this to record the shortest import sequence // that leads to a particular package. func (sp *ImportStack) shorterThan(t []string) bool { s := *sp if len(s) != len(t) { return len(s) < len(t) } // If they are the same length, settle ties using string ordering. for i := range s { siPkg := s[i].Pkg if siPkg != t[i] { return siPkg < t[i] } } return false // they are equal } // packageCache is a lookup cache for LoadImport, // so that if we look up a package multiple times // we return the same pointer each time. var packageCache = map[string]*Package{} // dirToImportPath returns the pseudo-import path we use for a package // outside the Go path. It begins with _/ and then contains the full path // to the directory. If the package lives in c:\home\gopher\my\pkg then // the pseudo-import path is _/c_/home/gopher/my/pkg. // Using a pseudo-import path like this makes the ./ imports no longer // a special case, so that all the code to deal with ordinary imports works // automatically. func dirToImportPath(dir string) string { return pathpkg.Join("_", strings.Map(makeImportValid, filepath.ToSlash(dir))) } func makeImportValid(r rune) rune { // Should match Go spec, compilers, and ../../go/parser/parser.go:/isValidImport. const illegalChars = `!"#$%&'()*,:;<=>?[\]^{|}` + "`\uFFFD" if !unicode.IsGraphic(r) || unicode.IsSpace(r) || strings.ContainsRune(illegalChars, r) { return '_' } return r } // Mode flags for loadImport and download (in get.go). const ( // ResolveImport means that loadImport should do import path expansion. // That is, ResolveImport means that the import path came from // a source file and has not been expanded yet to account for // vendoring or possible module adjustment. // Every import path should be loaded initially with ResolveImport, // and then the expanded version (for example with the /vendor/ in it) // gets recorded as the canonical import path. At that point, future loads // of that package must not pass ResolveImport, because // disallowVendor will reject direct use of paths containing /vendor/. ResolveImport = 1 << iota // ResolveModule is for download (part of "go get") and indicates // that the module adjustment should be done, but not vendor adjustment. ResolveModule // GetTestDeps is for download (part of "go get") and indicates // that test dependencies should be fetched too. GetTestDeps // The remainder are internal modes for calls to loadImport. // cmdlinePkg is for a package mentioned on the command line. cmdlinePkg // cmdlinePkgLiteral is for a package mentioned on the command line // without using any wildcards or meta-patterns. cmdlinePkgLiteral ) // LoadPackage does Load import, but without a parent package load context func LoadPackage(ctx context.Context, opts PackageOpts, path, srcDir string, stk *ImportStack, importPos []token.Position, mode int) *Package { p, err := loadImport(ctx, opts, nil, path, srcDir, nil, stk, importPos, mode) if err != nil { base.Fatalf("internal error: loadImport of %q with nil parent returned an error", path) } return p } // loadImport scans the directory named by path, which must be an import path, // but possibly a local import path (an absolute file system path or one beginning // with ./ or ../). A local relative path is interpreted relative to srcDir. // It returns a *Package describing the package found in that directory. // loadImport does not set tool flags and should only be used by // this package, as part of a bigger load operation. // The returned PackageError, if any, describes why parent is not allowed // to import the named package, with the error referring to importPos. // The PackageError can only be non-nil when parent is not nil. func loadImport(ctx context.Context, opts PackageOpts, pre *preload, path, srcDir string, parent *Package, stk *ImportStack, importPos []token.Position, mode int) (*Package, *PackageError) { ctx, span := trace.StartSpan(ctx, "modload.loadImport "+path) defer span.Done() if path == "" { panic("LoadImport called with empty package path") } var parentPath, parentRoot string parentIsStd := false if parent != nil { parentPath = parent.ImportPath parentRoot = parent.Root parentIsStd = parent.Standard } bp, loaded, err := loadPackageData(ctx, path, parentPath, srcDir, parentRoot, parentIsStd, mode) if loaded && pre != nil && !opts.IgnoreImports { pre.preloadImports(ctx, opts, bp.Imports, bp) } if bp == nil { p := &Package{ PackagePublic: PackagePublic{ ImportPath: path, Incomplete: true, }, } if importErr, ok := err.(ImportPathError); !ok || importErr.ImportPath() != path { // Only add path to the error's import stack if it's not already present // in the error. // // TODO(bcmills): setLoadPackageDataError itself has a similar Push / Pop // sequence that empirically doesn't trigger for these errors, guarded by // a somewhat complex condition. Figure out how to generalize that // condition and eliminate the explicit calls here. stk.Push(ImportInfo{Pkg: path, Pos: extractFirstImport(importPos)}) defer stk.Pop() } p.setLoadPackageDataError(err, path, stk, nil) return p, nil } setCmdline := func(p *Package) { if mode&cmdlinePkg != 0 { p.Internal.CmdlinePkg = true } if mode&cmdlinePkgLiteral != 0 { p.Internal.CmdlinePkgLiteral = true } } importPath := bp.ImportPath p := packageCache[importPath] if p != nil { stk.Push(ImportInfo{Pkg: path, Pos: extractFirstImport(importPos)}) p = reusePackage(p, stk) stk.Pop() setCmdline(p) } else { p = new(Package) p.Internal.Local = build.IsLocalImport(path) p.ImportPath = importPath packageCache[importPath] = p setCmdline(p) // Load package. // loadPackageData may return bp != nil even if an error occurs, // in order to return partial information. p.load(ctx, opts, path, stk, importPos, bp, err) if !cfg.ModulesEnabled && path != cleanImport(path) { p.Error = &PackageError{ ImportStack: stk.Copy(), Err: ImportErrorf(path, "non-canonical import path %q: should be %q", path, pathpkg.Clean(path)), } p.Incomplete = true p.Error.setPos(importPos) } } // Checked on every import because the rules depend on the code doing the importing. if perr := disallowInternal(ctx, srcDir, parent, parentPath, p, stk); perr != nil { perr.setPos(importPos) return p, perr } if mode&ResolveImport != 0 { if perr := disallowVendor(srcDir, path, parentPath, p, stk); perr != nil { perr.setPos(importPos) return p, perr } } if p.Name == "main" && parent != nil && parent.Dir != p.Dir { perr := &PackageError{ ImportStack: stk.Copy(), Err: ImportErrorf(path, "import %q is a program, not an importable package", path), } perr.setPos(importPos) return p, perr } if p.Internal.Local && parent != nil && !parent.Internal.Local { var err error if path == "." { err = ImportErrorf(path, "%s: cannot import current directory", path) } else { err = ImportErrorf(path, "local import %q in non-local package", path) } perr := &PackageError{ ImportStack: stk.Copy(), Err: err, } perr.setPos(importPos) return p, perr } return p, nil } func extractFirstImport(importPos []token.Position) *token.Position { if len(importPos) == 0 { return nil } return &importPos[0] } // loadPackageData loads information needed to construct a *Package. The result // is cached, and later calls to loadPackageData for the same package will return // the same data. // // loadPackageData returns a non-nil package even if err is non-nil unless // the package path is malformed (for example, the path contains "mod/" or "@"). // // loadPackageData returns a boolean, loaded, which is true if this is the // first time the package was loaded. Callers may preload imports in this case. func loadPackageData(ctx context.Context, path, parentPath, parentDir, parentRoot string, parentIsStd bool, mode int) (bp *build.Package, loaded bool, err error) { ctx, span := trace.StartSpan(ctx, "load.loadPackageData "+path) defer span.Done() if path == "" { panic("loadPackageData called with empty package path") } if strings.HasPrefix(path, "mod/") { // Paths beginning with "mod/" might accidentally // look in the module cache directory tree in $GOPATH/pkg/mod/. // This prefix is owned by the Go core for possible use in the // standard library (since it does not begin with a domain name), // so it's OK to disallow entirely. return nil, false, fmt.Errorf("disallowed import path %q", path) } if strings.Contains(path, "@") { return nil, false, errors.New("can only use path@version syntax with 'go get' and 'go install' in module-aware mode") } // Determine canonical package path and directory. // For a local import the identifier is the pseudo-import path // we create from the full directory to the package. // Otherwise it is the usual import path. // For vendored imports, it is the expanded form. // // Note that when modules are enabled, local import paths are normally // canonicalized by modload.LoadPackages before now. However, if there's an // error resolving a local path, it will be returned untransformed // so that 'go list -e' reports something useful. importKey := importSpec{ path: path, parentPath: parentPath, parentDir: parentDir, parentRoot: parentRoot, parentIsStd: parentIsStd, mode: mode, } r := resolvedImportCache.Do(importKey, func() resolvedImport { var r resolvedImport if cfg.ModulesEnabled { r.dir, r.path, r.err = modload.Lookup(parentPath, parentIsStd, path) } else if build.IsLocalImport(path) { r.dir = filepath.Join(parentDir, path) r.path = dirToImportPath(r.dir) } else if mode&ResolveImport != 0 { // We do our own path resolution, because we want to // find out the key to use in packageCache without the // overhead of repeated calls to buildContext.Import. // The code is also needed in a few other places anyway. r.path = resolveImportPath(path, parentPath, parentDir, parentRoot, parentIsStd) } else if mode&ResolveModule != 0 { r.path = moduleImportPath(path, parentPath, parentDir, parentRoot) } if r.path == "" { r.path = path } return r }) // Invariant: r.path is set to the resolved import path. If the path cannot // be resolved, r.path is set to path, the source import path. // r.path is never empty. // Load the package from its directory. If we already found the package's // directory when resolving its import path, use that. p, err := packageDataCache.Do(r.path, func() (*build.Package, error) { loaded = true var data struct { p *build.Package err error } if r.dir != "" { var buildMode build.ImportMode buildContext := cfg.BuildContext if !cfg.ModulesEnabled { buildMode = build.ImportComment } else { buildContext.GOPATH = "" // Clear GOPATH so packages are imported as pure module packages } modroot := modload.PackageModRoot(ctx, r.path) if modroot == "" && str.HasPathPrefix(r.dir, cfg.GOROOTsrc) { modroot = cfg.GOROOTsrc gorootSrcCmd := filepath.Join(cfg.GOROOTsrc, "cmd") if str.HasPathPrefix(r.dir, gorootSrcCmd) { modroot = gorootSrcCmd } } if modroot != "" { if rp, err := modindex.GetPackage(modroot, r.dir); err == nil { data.p, data.err = rp.Import(cfg.BuildContext, buildMode) goto Happy } else if !errors.Is(err, modindex.ErrNotIndexed) { base.Fatal(err) } } data.p, data.err = buildContext.ImportDir(r.dir, buildMode) Happy: if cfg.ModulesEnabled { // Override data.p.Root, since ImportDir sets it to $GOPATH, if // the module is inside $GOPATH/src. if info := modload.PackageModuleInfo(ctx, path); info != nil { data.p.Root = info.Dir } } if r.err != nil { if data.err != nil { // ImportDir gave us one error, and the module loader gave us another. // We arbitrarily choose to keep the error from ImportDir because // that's what our tests already expect, and it seems to provide a bit // more detail in most cases. } else if errors.Is(r.err, imports.ErrNoGo) { // ImportDir said there were files in the package, but the module // loader said there weren't. Which one is right? // Without this special-case hack, the TestScript/test_vet case fails // on the vetfail/p1 package (added in CL 83955). // Apparently, imports.ShouldBuild biases toward rejecting files // with invalid build constraints, whereas ImportDir biases toward // accepting them. // // TODO(#41410: Figure out how this actually ought to work and fix // this mess). } else { data.err = r.err } } } else if r.err != nil { data.p = new(build.Package) data.err = r.err } else if cfg.ModulesEnabled && path != "unsafe" { data.p = new(build.Package) data.err = fmt.Errorf("unknown import path %q: internal error: module loader did not resolve import", r.path) } else { buildMode := build.ImportComment if mode&ResolveImport == 0 || r.path != path { // Not vendoring, or we already found the vendored path. buildMode |= build.IgnoreVendor } data.p, data.err = cfg.BuildContext.Import(r.path, parentDir, buildMode) } data.p.ImportPath = r.path // Set data.p.BinDir in cases where go/build.Context.Import // may give us a path we don't want. if !data.p.Goroot { if cfg.GOBIN != "" { data.p.BinDir = cfg.GOBIN } else if cfg.ModulesEnabled { data.p.BinDir = modload.BinDir() } } if !cfg.ModulesEnabled && data.err == nil && data.p.ImportComment != "" && data.p.ImportComment != path && !strings.Contains(path, "/vendor/") && !strings.HasPrefix(path, "vendor/") { data.err = fmt.Errorf("code in directory %s expects import %q", data.p.Dir, data.p.ImportComment) } return data.p, data.err }) return p, loaded, err } // importSpec describes an import declaration in source code. It is used as a // cache key for resolvedImportCache. type importSpec struct { path string parentPath, parentDir, parentRoot string parentIsStd bool mode int } // resolvedImport holds a canonical identifier for a package. It may also contain // a path to the package's directory and an error if one occurred. resolvedImport // is the value type in resolvedImportCache. type resolvedImport struct { path, dir string err error } // resolvedImportCache maps import strings to canonical package names. var resolvedImportCache par.Cache[importSpec, resolvedImport] // packageDataCache maps canonical package names (string) to package metadata. var packageDataCache par.ErrCache[string, *build.Package] // preloadWorkerCount is the number of concurrent goroutines that can load // packages. Experimentally, there are diminishing returns with more than // 4 workers. This was measured on the following machines. // // * MacBookPro with a 4-core Intel Core i7 CPU // * Linux workstation with 6-core Intel Xeon CPU // * Linux workstation with 24-core Intel Xeon CPU // // It is very likely (though not confirmed) that this workload is limited // by memory bandwidth. We don't have a good way to determine the number of // workers that would saturate the bus though, so runtime.GOMAXPROCS // seems like a reasonable default. var preloadWorkerCount = runtime.GOMAXPROCS(0) // preload holds state for managing concurrent preloading of package data. // // A preload should be created with newPreload before loading a large // package graph. flush must be called when package loading is complete // to ensure preload goroutines are no longer active. This is necessary // because of global mutable state that cannot safely be read and written // concurrently. In particular, packageDataCache may be cleared by "go get" // in GOPATH mode, and modload.loaded (accessed via modload.Lookup) may be // modified by modload.LoadPackages. type preload struct { cancel chan struct{} sema chan struct{} } // newPreload creates a new preloader. flush must be called later to avoid // accessing global state while it is being modified. func newPreload() *preload { pre := &preload{ cancel: make(chan struct{}), sema: make(chan struct{}, preloadWorkerCount), } return pre } // preloadMatches loads data for package paths matched by patterns. // When preloadMatches returns, some packages may not be loaded yet, but // loadPackageData and loadImport are always safe to call. func (pre *preload) preloadMatches(ctx context.Context, opts PackageOpts, matches []*search.Match) { for _, m := range matches { for _, pkg := range m.Pkgs { select { case <-pre.cancel: return case pre.sema <- struct{}{}: go func(pkg string) { mode := 0 // don't use vendoring or module import resolution bp, loaded, err := loadPackageData(ctx, pkg, "", base.Cwd(), "", false, mode) <-pre.sema if bp != nil && loaded && err == nil && !opts.IgnoreImports { pre.preloadImports(ctx, opts, bp.Imports, bp) } }(pkg) } } } } // preloadImports queues a list of imports for preloading. // When preloadImports returns, some packages may not be loaded yet, // but loadPackageData and loadImport are always safe to call. func (pre *preload) preloadImports(ctx context.Context, opts PackageOpts, imports []string, parent *build.Package) { parentIsStd := parent.Goroot && parent.ImportPath != "" && search.IsStandardImportPath(parent.ImportPath) for _, path := range imports { if path == "C" || path == "unsafe" { continue } select { case <-pre.cancel: return case pre.sema <- struct{}{}: go func(path string) { bp, loaded, err := loadPackageData(ctx, path, parent.ImportPath, parent.Dir, parent.Root, parentIsStd, ResolveImport) <-pre.sema if bp != nil && loaded && err == nil && !opts.IgnoreImports { pre.preloadImports(ctx, opts, bp.Imports, bp) } }(path) } } } // flush stops pending preload operations. flush blocks until preload calls to // loadPackageData have completed. The preloader will not make any new calls // to loadPackageData. func (pre *preload) flush() { // flush is usually deferred. // Don't hang program waiting for workers on panic. if v := recover(); v != nil { panic(v) } close(pre.cancel) for i := 0; i < preloadWorkerCount; i++ { pre.sema <- struct{}{} } } func cleanImport(path string) string { orig := path path = pathpkg.Clean(path) if strings.HasPrefix(orig, "./") && path != ".." && !strings.HasPrefix(path, "../") { path = "./" + path } return path } var isDirCache par.Cache[string, bool] func isDir(path string) bool { return isDirCache.Do(path, func() bool { fi, err := fsys.Stat(path) return err == nil && fi.IsDir() }) } // ResolveImportPath returns the true meaning of path when it appears in parent. // There are two different resolutions applied. // First, there is Go 1.5 vendoring (golang.org/s/go15vendor). // If vendor expansion doesn't trigger, then the path is also subject to // Go 1.11 module legacy conversion (golang.org/issue/25069). func ResolveImportPath(parent *Package, path string) (found string) { var parentPath, parentDir, parentRoot string parentIsStd := false if parent != nil { parentPath = parent.ImportPath parentDir = parent.Dir parentRoot = parent.Root parentIsStd = parent.Standard } return resolveImportPath(path, parentPath, parentDir, parentRoot, parentIsStd) } func resolveImportPath(path, parentPath, parentDir, parentRoot string, parentIsStd bool) (found string) { if cfg.ModulesEnabled { if _, p, e := modload.Lookup(parentPath, parentIsStd, path); e == nil { return p } return path } found = vendoredImportPath(path, parentPath, parentDir, parentRoot) if found != path { return found } return moduleImportPath(path, parentPath, parentDir, parentRoot) } // dirAndRoot returns the source directory and workspace root // for the package p, guaranteeing that root is a path prefix of dir. func dirAndRoot(path string, dir, root string) (string, string) { origDir, origRoot := dir, root dir = filepath.Clean(dir) root = filepath.Join(root, "src") if !str.HasFilePathPrefix(dir, root) || path != "command-line-arguments" && filepath.Join(root, path) != dir { // Look for symlinks before reporting error. dir = expandPath(dir) root = expandPath(root) } if !str.HasFilePathPrefix(dir, root) || len(dir) <= len(root) || dir[len(root)] != filepath.Separator || path != "command-line-arguments" && !build.IsLocalImport(path) && filepath.Join(root, path) != dir { debug.PrintStack() base.Fatalf("unexpected directory layout:\n"+ " import path: %s\n"+ " root: %s\n"+ " dir: %s\n"+ " expand root: %s\n"+ " expand dir: %s\n"+ " separator: %s", path, filepath.Join(origRoot, "src"), filepath.Clean(origDir), origRoot, origDir, string(filepath.Separator)) } return dir, root } // vendoredImportPath returns the vendor-expansion of path when it appears in parent. // If parent is x/y/z, then path might expand to x/y/z/vendor/path, x/y/vendor/path, // x/vendor/path, vendor/path, or else stay path if none of those exist. // vendoredImportPath returns the expanded path or, if no expansion is found, the original. func vendoredImportPath(path, parentPath, parentDir, parentRoot string) (found string) { if parentRoot == "" { return path } dir, root := dirAndRoot(parentPath, parentDir, parentRoot) vpath := "vendor/" + path for i := len(dir); i >= len(root); i-- { if i < len(dir) && dir[i] != filepath.Separator { continue } // Note: checking for the vendor directory before checking // for the vendor/path directory helps us hit the // isDir cache more often. It also helps us prepare a more useful // list of places we looked, to report when an import is not found. if !isDir(filepath.Join(dir[:i], "vendor")) { continue } targ := filepath.Join(dir[:i], vpath) if isDir(targ) && hasGoFiles(targ) { importPath := parentPath if importPath == "command-line-arguments" { // If parent.ImportPath is 'command-line-arguments'. // set to relative directory to root (also chopped root directory) importPath = dir[len(root)+1:] } // We started with parent's dir c:\gopath\src\foo\bar\baz\quux\xyzzy. // We know the import path for parent's dir. // We chopped off some number of path elements and // added vendor\path to produce c:\gopath\src\foo\bar\baz\vendor\path. // Now we want to know the import path for that directory. // Construct it by chopping the same number of path elements // (actually the same number of bytes) from parent's import path // and then append /vendor/path. chopped := len(dir) - i if chopped == len(importPath)+1 { // We walked up from c:\gopath\src\foo\bar // and found c:\gopath\src\vendor\path. // We chopped \foo\bar (length 8) but the import path is "foo/bar" (length 7). // Use "vendor/path" without any prefix. return vpath } return importPath[:len(importPath)-chopped] + "/" + vpath } } return path } var ( modulePrefix = []byte("\nmodule ") goModPathCache par.Cache[string, string] ) // goModPath returns the module path in the go.mod in dir, if any. func goModPath(dir string) (path string) { return goModPathCache.Do(dir, func() string { data, err := os.ReadFile(filepath.Join(dir, "go.mod")) if err != nil { return "" } var i int if bytes.HasPrefix(data, modulePrefix[1:]) { i = 0 } else { i = bytes.Index(data, modulePrefix) if i < 0 { return "" } i++ } line := data[i:] // Cut line at \n, drop trailing \r if present. if j := bytes.IndexByte(line, '\n'); j >= 0 { line = line[:j] } if line[len(line)-1] == '\r' { line = line[:len(line)-1] } line = line[len("module "):] // If quoted, unquote. path = strings.TrimSpace(string(line)) if path != "" && path[0] == '"' { s, err := strconv.Unquote(path) if err != nil { return "" } path = s } return path }) } // findVersionElement returns the slice indices of the final version element /vN in path. // If there is no such element, it returns -1, -1. func findVersionElement(path string) (i, j int) { j = len(path) for i = len(path) - 1; i >= 0; i-- { if path[i] == '/' { if isVersionElement(path[i+1 : j]) { return i, j } j = i } } return -1, -1 } // isVersionElement reports whether s is a well-formed path version element: // v2, v3, v10, etc, but not v0, v05, v1. func isVersionElement(s string) bool { if len(s) < 2 || s[0] != 'v' || s[1] == '0' || s[1] == '1' && len(s) == 2 { return false } for i := 1; i < len(s); i++ { if s[i] < '0' || '9' < s[i] { return false } } return true } // moduleImportPath translates import paths found in go modules // back down to paths that can be resolved in ordinary builds. // // Define “new” code as code with a go.mod file in the same directory // or a parent directory. If an import in new code says x/y/v2/z but // x/y/v2/z does not exist and x/y/go.mod says “module x/y/v2”, // then go build will read the import as x/y/z instead. // See golang.org/issue/25069. func moduleImportPath(path, parentPath, parentDir, parentRoot string) (found string) { if parentRoot == "" { return path } // If there are no vN elements in path, leave it alone. // (The code below would do the same, but only after // some other file system accesses that we can avoid // here by returning early.) if i, _ := findVersionElement(path); i < 0 { return path } dir, root := dirAndRoot(parentPath, parentDir, parentRoot) // Consider dir and parents, up to and including root. for i := len(dir); i >= len(root); i-- { if i < len(dir) && dir[i] != filepath.Separator { continue } if goModPath(dir[:i]) != "" { goto HaveGoMod } } // This code is not in a tree with a go.mod, // so apply no changes to the path. return path HaveGoMod: // This import is in a tree with a go.mod. // Allow it to refer to code in GOPATH/src/x/y/z as x/y/v2/z // if GOPATH/src/x/y/go.mod says module "x/y/v2", // If x/y/v2/z exists, use it unmodified. if bp, _ := cfg.BuildContext.Import(path, "", build.IgnoreVendor); bp.Dir != "" { return path } // Otherwise look for a go.mod supplying a version element. // Some version-like elements may appear in paths but not // be module versions; we skip over those to look for module // versions. For example the module m/v2 might have a // package m/v2/api/v1/foo. limit := len(path) for limit > 0 { i, j := findVersionElement(path[:limit]) if i < 0 { return path } if bp, _ := cfg.BuildContext.Import(path[:i], "", build.IgnoreVendor); bp.Dir != "" { if mpath := goModPath(bp.Dir); mpath != "" { // Found a valid go.mod file, so we're stopping the search. // If the path is m/v2/p and we found m/go.mod that says // "module m/v2", then we return "m/p". if mpath == path[:j] { return path[:i] + path[j:] } // Otherwise just return the original path. // We didn't find anything worth rewriting, // and the go.mod indicates that we should // not consider parent directories. return path } } limit = i } return path } // hasGoFiles reports whether dir contains any files with names ending in .go. // For a vendor check we must exclude directories that contain no .go files. // Otherwise it is not possible to vendor just a/b/c and still import the // non-vendored a/b. See golang.org/issue/13832. func hasGoFiles(dir string) bool { files, _ := os.ReadDir(dir) for _, f := range files { if !f.IsDir() && strings.HasSuffix(f.Name(), ".go") { return true } } return false } // reusePackage reuses package p to satisfy the import at the top // of the import stack stk. If this use causes an import loop, // reusePackage updates p's error information to record the loop. func reusePackage(p *Package, stk *ImportStack) *Package { // We use p.Internal.Imports==nil to detect a package that // is in the midst of its own loadPackage call // (all the recursion below happens before p.Internal.Imports gets set). if p.Internal.Imports == nil { if p.Error == nil { p.Error = &PackageError{ ImportStack: stk.Copy(), Err: errors.New("import cycle not allowed"), IsImportCycle: true, } } else if !p.Error.IsImportCycle { // If the error is already set, but it does not indicate that // we are in an import cycle, set IsImportCycle so that we don't // end up stuck in a loop down the road. p.Error.IsImportCycle = true } p.Incomplete = true } // Don't rewrite the import stack in the error if we have an import cycle. // If we do, we'll lose the path that describes the cycle. if p.Error != nil && p.Error.ImportStack != nil && !p.Error.IsImportCycle && stk.shorterThan(p.Error.ImportStack.Pkgs()) { p.Error.ImportStack = stk.Copy() } return p } // disallowInternal checks that srcDir (containing package importerPath, if non-empty) // is allowed to import p. // If the import is allowed, disallowInternal returns the original package p. // If not, it returns a new package containing just an appropriate error. func disallowInternal(ctx context.Context, srcDir string, importer *Package, importerPath string, p *Package, stk *ImportStack) *PackageError { // golang.org/s/go14internal: // An import of a path containing the element “internal” // is disallowed if the importing code is outside the tree // rooted at the parent of the “internal” directory. // There was an error loading the package; stop here. if p.Error != nil { return nil } // The generated 'testmain' package is allowed to access testing/internal/..., // as if it were generated into the testing directory tree // (it's actually in a temporary directory outside any Go tree). // This cleans up a former kludge in passing functionality to the testing package. if str.HasPathPrefix(p.ImportPath, "testing/internal") && importerPath == "testmain" { return nil } // We can't check standard packages with gccgo. if cfg.BuildContext.Compiler == "gccgo" && p.Standard { return nil } // The sort package depends on internal/reflectlite, but during bootstrap // the path rewriting causes the normal internal checks to fail. // Instead, just ignore the internal rules during bootstrap. if p.Standard && strings.HasPrefix(importerPath, "bootstrap/") { return nil } // importerPath is empty: we started // with a name given on the command line, not an // import. Anything listed on the command line is fine. if importerPath == "" { return nil } // Check for "internal" element: three cases depending on begin of string and/or end of string. i, ok := findInternal(p.ImportPath) if !ok { return nil } // Internal is present. // Map import path back to directory corresponding to parent of internal. if i > 0 { i-- // rewind over slash in ".../internal" } if p.Module == nil { parent := p.Dir[:i+len(p.Dir)-len(p.ImportPath)] if str.HasFilePathPrefix(filepath.Clean(srcDir), filepath.Clean(parent)) { return nil } // Look for symlinks before reporting error. srcDir = expandPath(srcDir) parent = expandPath(parent) if str.HasFilePathPrefix(filepath.Clean(srcDir), filepath.Clean(parent)) { return nil } } else { // p is in a module, so make it available based on the importer's import path instead // of the file path (https://golang.org/issue/23970). if importer.Internal.CmdlineFiles { // The importer is a list of command-line files. // Pretend that the import path is the import path of the // directory containing them. // If the directory is outside the main modules, this will resolve to ".", // which is not a prefix of any valid module. importerPath, _ = modload.MainModules.DirImportPath(ctx, importer.Dir) } parentOfInternal := p.ImportPath[:i] if str.HasPathPrefix(importerPath, parentOfInternal) { return nil } } // Internal is present, and srcDir is outside parent's tree. Not allowed. perr := &PackageError{ alwaysPrintStack: true, ImportStack: stk.Copy(), Err: ImportErrorf(p.ImportPath, "use of internal package %s not allowed", p.ImportPath), } return perr } // findInternal looks for the final "internal" path element in the given import path. // If there isn't one, findInternal returns ok=false. // Otherwise, findInternal returns ok=true and the index of the "internal". func findInternal(path string) (index int, ok bool) { // Three cases, depending on internal at start/end of string or not. // The order matters: we must return the index of the final element, // because the final one produces the most restrictive requirement // on the importer. switch { case strings.HasSuffix(path, "/internal"): return len(path) - len("internal"), true case strings.Contains(path, "/internal/"): return strings.LastIndex(path, "/internal/") + 1, true case path == "internal", strings.HasPrefix(path, "internal/"): return 0, true } return 0, false } // disallowVendor checks that srcDir is allowed to import p as path. // If the import is allowed, disallowVendor returns the original package p. // If not, it returns a PackageError. func disallowVendor(srcDir string, path string, importerPath string, p *Package, stk *ImportStack) *PackageError { // If the importerPath is empty, we started // with a name given on the command line, not an // import. Anything listed on the command line is fine. if importerPath == "" { return nil } if perr := disallowVendorVisibility(srcDir, p, importerPath, stk); perr != nil { return perr } // Paths like x/vendor/y must be imported as y, never as x/vendor/y. if i, ok := FindVendor(path); ok { perr := &PackageError{ ImportStack: stk.Copy(), Err: ImportErrorf(path, "%s must be imported as %s", path, path[i+len("vendor/"):]), } return perr } return nil } // disallowVendorVisibility checks that srcDir is allowed to import p. // The rules are the same as for /internal/ except that a path ending in /vendor // is not subject to the rules, only subdirectories of vendor. // This allows people to have packages and commands named vendor, // for maximal compatibility with existing source trees. func disallowVendorVisibility(srcDir string, p *Package, importerPath string, stk *ImportStack) *PackageError { // The stack does not include p.ImportPath. // If there's nothing on the stack, we started // with a name given on the command line, not an // import. Anything listed on the command line is fine. if importerPath == "" { return nil } // Check for "vendor" element. i, ok := FindVendor(p.ImportPath) if !ok { return nil } // Vendor is present. // Map import path back to directory corresponding to parent of vendor. if i > 0 { i-- // rewind over slash in ".../vendor" } truncateTo := i + len(p.Dir) - len(p.ImportPath) if truncateTo < 0 || len(p.Dir) < truncateTo { return nil } parent := p.Dir[:truncateTo] if str.HasFilePathPrefix(filepath.Clean(srcDir), filepath.Clean(parent)) { return nil } // Look for symlinks before reporting error. srcDir = expandPath(srcDir) parent = expandPath(parent) if str.HasFilePathPrefix(filepath.Clean(srcDir), filepath.Clean(parent)) { return nil } // Vendor is present, and srcDir is outside parent's tree. Not allowed. perr := &PackageError{ ImportStack: stk.Copy(), Err: errors.New("use of vendored package not allowed"), } return perr } // FindVendor looks for the last non-terminating "vendor" path element in the given import path. // If there isn't one, FindVendor returns ok=false. // Otherwise, FindVendor returns ok=true and the index of the "vendor". // // Note that terminating "vendor" elements don't count: "x/vendor" is its own package, // not the vendored copy of an import "" (the empty import path). // This will allow people to have packages or commands named vendor. // This may help reduce breakage, or it may just be confusing. We'll see. func FindVendor(path string) (index int, ok bool) { // Two cases, depending on internal at start of string or not. // The order matters: we must return the index of the final element, // because the final one is where the effective import path starts. switch { case strings.Contains(path, "/vendor/"): return strings.LastIndex(path, "/vendor/") + 1, true case strings.HasPrefix(path, "vendor/"): return 0, true } return 0, false } type TargetDir int const ( ToTool TargetDir = iota // to GOROOT/pkg/tool (default for cmd/*) ToBin // to bin dir inside package root (default for non-cmd/*) StalePath // an old import path; fail to build ) // InstallTargetDir reports the target directory for installing the command p. func InstallTargetDir(p *Package) TargetDir { if strings.HasPrefix(p.ImportPath, "code.google.com/p/go.tools/cmd/") { return StalePath } if p.Goroot && strings.HasPrefix(p.ImportPath, "cmd/") && p.Name == "main" { switch p.ImportPath { case "cmd/go", "cmd/gofmt": return ToBin } return ToTool } return ToBin } var cgoExclude = map[string]bool{ "runtime/cgo": true, } var cgoSyscallExclude = map[string]bool{ "runtime/cgo": true, "runtime/race": true, "runtime/msan": true, "runtime/asan": true, } var foldPath = make(map[string]string) // exeFromImportPath returns an executable name // for a package using the import path. // // The executable name is the last element of the import path. // In module-aware mode, an additional rule is used on import paths // consisting of two or more path elements. If the last element is // a vN path element specifying the major version, then the // second last element of the import path is used instead. func (p *Package) exeFromImportPath() string { _, elem := pathpkg.Split(p.ImportPath) if cfg.ModulesEnabled { // If this is example.com/mycmd/v2, it's more useful to // install it as mycmd than as v2. See golang.org/issue/24667. if elem != p.ImportPath && isVersionElement(elem) { _, elem = pathpkg.Split(pathpkg.Dir(p.ImportPath)) } } return elem } // exeFromFiles returns an executable name for a package // using the first element in GoFiles or CgoFiles collections without the prefix. // // Returns empty string in case of empty collection. func (p *Package) exeFromFiles() string { var src string if len(p.GoFiles) > 0 { src = p.GoFiles[0] } else if len(p.CgoFiles) > 0 { src = p.CgoFiles[0] } else { return "" } _, elem := filepath.Split(src) return elem[:len(elem)-len(".go")] } // DefaultExecName returns the default executable name for a package func (p *Package) DefaultExecName() string { if p.Internal.CmdlineFiles { return p.exeFromFiles() } return p.exeFromImportPath() } // load populates p using information from bp, err, which should // be the result of calling build.Context.Import. // stk contains the import stack, not including path itself. func (p *Package) load(ctx context.Context, opts PackageOpts, path string, stk *ImportStack, importPos []token.Position, bp *build.Package, err error) { p.copyBuild(opts, bp) // The localPrefix is the path we interpret ./ imports relative to, // if we support them at all (not in module mode!). // Synthesized main packages sometimes override this. if p.Internal.Local && !cfg.ModulesEnabled { p.Internal.LocalPrefix = dirToImportPath(p.Dir) } // setError sets p.Error if it hasn't already been set. We may proceed // after encountering some errors so that 'go list -e' has more complete // output. If there's more than one error, we should report the first. setError := func(err error) { if p.Error == nil { p.Error = &PackageError{ ImportStack: stk.Copy(), Err: err, } p.Incomplete = true // Add the importer's position information if the import position exists, and // the current package being examined is the importer. // If we have not yet accepted package p onto the import stack, // then the cause of the error is not within p itself: the error // must be either in an explicit command-line argument, // or on the importer side (indicated by a non-empty importPos). top, ok := stk.Top() if ok && path != top.Pkg && len(importPos) > 0 { p.Error.setPos(importPos) } } } if err != nil { p.Incomplete = true p.setLoadPackageDataError(err, path, stk, importPos) } useBindir := p.Name == "main" if !p.Standard { switch cfg.BuildBuildmode { case "c-archive", "c-shared", "plugin": useBindir = false } } if useBindir { // Report an error when the old code.google.com/p/go.tools paths are used. if InstallTargetDir(p) == StalePath { // TODO(matloob): remove this branch, and StalePath itself. code.google.com/p/go is so // old, even this code checking for it is stale now! newPath := strings.Replace(p.ImportPath, "code.google.com/p/go.", "golang.org/x/", 1) e := ImportErrorf(p.ImportPath, "the %v command has moved; use %v instead.", p.ImportPath, newPath) setError(e) return } elem := p.DefaultExecName() + cfg.ExeSuffix full := filepath.Join(cfg.BuildContext.GOOS+"_"+cfg.BuildContext.GOARCH, elem) if cfg.BuildContext.GOOS != runtime.GOOS || cfg.BuildContext.GOARCH != runtime.GOARCH { // Install cross-compiled binaries to subdirectories of bin. elem = full } if p.Internal.Build.BinDir == "" && cfg.ModulesEnabled { p.Internal.Build.BinDir = modload.BinDir() } if p.Internal.Build.BinDir != "" { // Install to GOBIN or bin of GOPATH entry. p.Target = filepath.Join(p.Internal.Build.BinDir, elem) if !p.Goroot && strings.Contains(elem, string(filepath.Separator)) && cfg.GOBIN != "" { // Do not create $GOBIN/goos_goarch/elem. p.Target = "" p.Internal.GobinSubdir = true } } if InstallTargetDir(p) == ToTool { // This is for 'go tool'. // Override all the usual logic and force it into the tool directory. if cfg.BuildToolchainName == "gccgo" { p.Target = filepath.Join(build.ToolDir, elem) } else { p.Target = filepath.Join(cfg.GOROOTpkg, "tool", full) } } } else if p.Internal.Local { // Local import turned into absolute path. // No permanent install target. p.Target = "" } else if p.Standard && cfg.BuildContext.Compiler == "gccgo" { // gccgo has a preinstalled standard library that cmd/go cannot rebuild. p.Target = "" } else { p.Target = p.Internal.Build.PkgObj if cfg.BuildBuildmode == "shared" && p.Internal.Build.PkgTargetRoot != "" { // TODO(matloob): This shouldn't be necessary, but the cmd/cgo/internal/testshared // test fails without Target set for this condition. Figure out why and // fix it. p.Target = filepath.Join(p.Internal.Build.PkgTargetRoot, p.ImportPath+".a") } if cfg.BuildLinkshared && p.Internal.Build.PkgTargetRoot != "" { // TODO(bcmills): The reliance on PkgTargetRoot implies that -linkshared does // not work for any package that lacks a PkgTargetRoot — such as a non-main // package in module mode. We should probably fix that. targetPrefix := filepath.Join(p.Internal.Build.PkgTargetRoot, p.ImportPath) p.Target = targetPrefix + ".a" shlibnamefile := targetPrefix + ".shlibname" shlib, err := os.ReadFile(shlibnamefile) if err != nil && !os.IsNotExist(err) { base.Fatalf("reading shlibname: %v", err) } if err == nil { libname := strings.TrimSpace(string(shlib)) if cfg.BuildContext.Compiler == "gccgo" { p.Shlib = filepath.Join(p.Internal.Build.PkgTargetRoot, "shlibs", libname) } else { p.Shlib = filepath.Join(p.Internal.Build.PkgTargetRoot, libname) } } } } // Build augmented import list to add implicit dependencies. // Be careful not to add imports twice, just to avoid confusion. importPaths := p.Imports addImport := func(path string, forCompiler bool) { for _, p := range importPaths { if path == p { return } } importPaths = append(importPaths, path) if forCompiler { p.Internal.CompiledImports = append(p.Internal.CompiledImports, path) } } if !opts.IgnoreImports { // Cgo translation adds imports of "unsafe", "runtime/cgo" and "syscall", // except for certain packages, to avoid circular dependencies. if p.UsesCgo() { addImport("unsafe", true) } if p.UsesCgo() && (!p.Standard || !cgoExclude[p.ImportPath]) && cfg.BuildContext.Compiler != "gccgo" { addImport("runtime/cgo", true) } if p.UsesCgo() && (!p.Standard || !cgoSyscallExclude[p.ImportPath]) { addImport("syscall", true) } // SWIG adds imports of some standard packages. if p.UsesSwig() { addImport("unsafe", true) if cfg.BuildContext.Compiler != "gccgo" { addImport("runtime/cgo", true) } addImport("syscall", true) addImport("sync", true) // TODO: The .swig and .swigcxx files can use // %go_import directives to import other packages. } // The linker loads implicit dependencies. if p.Name == "main" && !p.Internal.ForceLibrary { ldDeps, err := LinkerDeps(p) if err != nil { setError(err) return } for _, dep := range ldDeps { addImport(dep, false) } } } // Check for case-insensitive collisions of import paths. // If modifying, consider changing checkPathCollisions() in // src/cmd/go/internal/modcmd/vendor.go fold := str.ToFold(p.ImportPath) if other := foldPath[fold]; other == "" { foldPath[fold] = p.ImportPath } else if other != p.ImportPath { setError(ImportErrorf(p.ImportPath, "case-insensitive import collision: %q and %q", p.ImportPath, other)) return } if !SafeArg(p.ImportPath) { setError(ImportErrorf(p.ImportPath, "invalid import path %q", p.ImportPath)) return } // Errors after this point are caused by this package, not the importing // package. Pushing the path here prevents us from reporting the error // with the position of the import declaration. stk.Push(ImportInfo{Pkg: path, Pos: extractFirstImport(importPos)}) defer stk.Pop() pkgPath := p.ImportPath if p.Internal.CmdlineFiles { pkgPath = "command-line-arguments" } if cfg.ModulesEnabled { p.Module = modload.PackageModuleInfo(ctx, pkgPath) } p.DefaultGODEBUG = defaultGODEBUG(p, nil, nil, nil) if !opts.SuppressEmbedFiles { p.EmbedFiles, p.Internal.Embed, err = resolveEmbed(p.Dir, p.EmbedPatterns) if err != nil { p.Incomplete = true setError(err) embedErr := err.(*EmbedError) p.Error.setPos(p.Internal.Build.EmbedPatternPos[embedErr.Pattern]) } } // Check for case-insensitive collision of input files. // To avoid problems on case-insensitive files, we reject any package // where two different input files have equal names under a case-insensitive // comparison. inputs := p.AllFiles() f1, f2 := str.FoldDup(inputs) if f1 != "" { setError(fmt.Errorf("case-insensitive file name collision: %q and %q", f1, f2)) return } // If first letter of input file is ASCII, it must be alphanumeric. // This avoids files turning into flags when invoking commands, // and other problems we haven't thought of yet. // Also, _cgo_ files must be generated by us, not supplied. // They are allowed to have //go:cgo_ldflag directives. // The directory scan ignores files beginning with _, // so we shouldn't see any _cgo_ files anyway, but just be safe. for _, file := range inputs { if !SafeArg(file) || strings.HasPrefix(file, "_cgo_") { setError(fmt.Errorf("invalid input file name %q", file)) return } } if name := pathpkg.Base(p.ImportPath); !SafeArg(name) { setError(fmt.Errorf("invalid input directory name %q", name)) return } if strings.ContainsAny(p.Dir, "\r\n") { setError(fmt.Errorf("invalid package directory %q", p.Dir)) return } // Build list of imported packages and full dependency list. imports := make([]*Package, 0, len(p.Imports)) for i, path := range importPaths { if path == "C" { continue } p1, err := loadImport(ctx, opts, nil, path, p.Dir, p, stk, p.Internal.Build.ImportPos[path], ResolveImport) if err != nil && p.Error == nil { p.Error = err p.Incomplete = true } path = p1.ImportPath importPaths[i] = path if i < len(p.Imports) { p.Imports[i] = path } imports = append(imports, p1) if p1.Incomplete { p.Incomplete = true } } p.Internal.Imports = imports if p.Error == nil && p.Name == "main" && !p.Internal.ForceLibrary && !p.Incomplete && !opts.SuppressBuildInfo { // TODO(bcmills): loading VCS metadata can be fairly slow. // Consider starting this as a background goroutine and retrieving the result // asynchronously when we're actually ready to build the package, or when we // actually need to evaluate whether the package's metadata is stale. p.setBuildInfo(ctx, opts.AutoVCS) } // If cgo is not enabled, ignore cgo supporting sources // just as we ignore go files containing import "C". if !cfg.BuildContext.CgoEnabled { p.CFiles = nil p.CXXFiles = nil p.MFiles = nil p.SwigFiles = nil p.SwigCXXFiles = nil // Note that SFiles are okay (they go to the Go assembler) // and HFiles are okay (they might be used by the SFiles). // Also Sysofiles are okay (they might not contain object // code; see issue #16050). } // The gc toolchain only permits C source files with cgo or SWIG. if len(p.CFiles) > 0 && !p.UsesCgo() && !p.UsesSwig() && cfg.BuildContext.Compiler == "gc" { setError(fmt.Errorf("C source files not allowed when not using cgo or SWIG: %s", strings.Join(p.CFiles, " "))) return } // C++, Objective-C, and Fortran source files are permitted only with cgo or SWIG, // regardless of toolchain. if len(p.CXXFiles) > 0 && !p.UsesCgo() && !p.UsesSwig() { setError(fmt.Errorf("C++ source files not allowed when not using cgo or SWIG: %s", strings.Join(p.CXXFiles, " "))) return } if len(p.MFiles) > 0 && !p.UsesCgo() && !p.UsesSwig() { setError(fmt.Errorf("Objective-C source files not allowed when not using cgo or SWIG: %s", strings.Join(p.MFiles, " "))) return } if len(p.FFiles) > 0 && !p.UsesCgo() && !p.UsesSwig() { setError(fmt.Errorf("Fortran source files not allowed when not using cgo or SWIG: %s", strings.Join(p.FFiles, " "))) return } } // An EmbedError indicates a problem with a go:embed directive. type EmbedError struct { Pattern string Err error } func (e *EmbedError) Error() string { return fmt.Sprintf("pattern %s: %v", e.Pattern, e.Err) } func (e *EmbedError) Unwrap() error { return e.Err } // ResolveEmbed resolves //go:embed patterns and returns only the file list. // For use by go mod vendor to find embedded files it should copy into the // vendor directory. // TODO(#42504): Once go mod vendor uses load.PackagesAndErrors, just // call (*Package).ResolveEmbed func ResolveEmbed(dir string, patterns []string) ([]string, error) { files, _, err := resolveEmbed(dir, patterns) return files, err } // resolveEmbed resolves //go:embed patterns to precise file lists. // It sets files to the list of unique files matched (for go list), // and it sets pmap to the more precise mapping from // patterns to files. func resolveEmbed(pkgdir string, patterns []string) (files []string, pmap map[string][]string, err error) { var pattern string defer func() { if err != nil { err = &EmbedError{ Pattern: pattern, Err: err, } } }() // TODO(rsc): All these messages need position information for better error reports. pmap = make(map[string][]string) have := make(map[string]int) dirOK := make(map[string]bool) pid := 0 // pattern ID, to allow reuse of have map for _, pattern = range patterns { pid++ glob, all := strings.CutPrefix(pattern, "all:") // Check pattern is valid for //go:embed. if _, err := pathpkg.Match(glob, ""); err != nil || !validEmbedPattern(glob) { return nil, nil, fmt.Errorf("invalid pattern syntax") } // Glob to find matches. match, err := fsys.Glob(str.QuoteGlob(str.WithFilePathSeparator(pkgdir)) + filepath.FromSlash(glob)) if err != nil { return nil, nil, err } // Filter list of matches down to the ones that will still exist when // the directory is packaged up as a module. (If p.Dir is in the module cache, // only those files exist already, but if p.Dir is in the current module, // then there may be other things lying around, like symbolic links or .git directories.) var list []string for _, file := range match { // relative path to p.Dir which begins without prefix slash rel := filepath.ToSlash(str.TrimFilePathPrefix(file, pkgdir)) what := "file" info, err := fsys.Lstat(file) if err != nil { return nil, nil, err } if info.IsDir() { what = "directory" } // Check that directories along path do not begin a new module // (do not contain a go.mod). for dir := file; len(dir) > len(pkgdir)+1 && !dirOK[dir]; dir = filepath.Dir(dir) { if _, err := fsys.Stat(filepath.Join(dir, "go.mod")); err == nil { return nil, nil, fmt.Errorf("cannot embed %s %s: in different module", what, rel) } if dir != file { if info, err := fsys.Lstat(dir); err == nil && !info.IsDir() { return nil, nil, fmt.Errorf("cannot embed %s %s: in non-directory %s", what, rel, dir[len(pkgdir)+1:]) } } dirOK[dir] = true if elem := filepath.Base(dir); isBadEmbedName(elem) { if dir == file { return nil, nil, fmt.Errorf("cannot embed %s %s: invalid name %s", what, rel, elem) } else { return nil, nil, fmt.Errorf("cannot embed %s %s: in invalid directory %s", what, rel, elem) } } } switch { default: return nil, nil, fmt.Errorf("cannot embed irregular file %s", rel) case info.Mode().IsRegular(): if have[rel] != pid { have[rel] = pid list = append(list, rel) } case info.IsDir(): // Gather all files in the named directory, stopping at module boundaries // and ignoring files that wouldn't be packaged into a module. count := 0 err := fsys.Walk(file, func(path string, info os.FileInfo, err error) error { if err != nil { return err } rel := filepath.ToSlash(str.TrimFilePathPrefix(path, pkgdir)) name := info.Name() if path != file && (isBadEmbedName(name) || ((name[0] == '.' || name[0] == '_') && !all)) { // Ignore bad names, assuming they won't go into modules. // Also avoid hidden files that user may not know about. // See golang.org/issue/42328. if info.IsDir() { return fs.SkipDir } return nil } if info.IsDir() { if _, err := fsys.Stat(filepath.Join(path, "go.mod")); err == nil { return filepath.SkipDir } return nil } if !info.Mode().IsRegular() { return nil } count++ if have[rel] != pid { have[rel] = pid list = append(list, rel) } return nil }) if err != nil { return nil, nil, err } if count == 0 { return nil, nil, fmt.Errorf("cannot embed directory %s: contains no embeddable files", rel) } } } if len(list) == 0 { return nil, nil, fmt.Errorf("no matching files found") } sort.Strings(list) pmap[pattern] = list } for file := range have { files = append(files, file) } sort.Strings(files) return files, pmap, nil } func validEmbedPattern(pattern string) bool { return pattern != "." && fs.ValidPath(pattern) } // isBadEmbedName reports whether name is the base name of a file that // can't or won't be included in modules and therefore shouldn't be treated // as existing for embedding. func isBadEmbedName(name string) bool { if err := module.CheckFilePath(name); err != nil { return true } switch name { // Empty string should be impossible but make it bad. case "": return true // Version control directories won't be present in module. case ".bzr", ".hg", ".git", ".svn": return true } return false } // vcsStatusCache maps repository directories (string) // to their VCS information. var vcsStatusCache par.ErrCache[string, vcs.Status] func appendBuildSetting(info *debug.BuildInfo, key, value string) { value = strings.ReplaceAll(value, "\n", " ") // make value safe info.Settings = append(info.Settings, debug.BuildSetting{Key: key, Value: value}) } // setBuildInfo gathers build information and sets it into // p.Internal.BuildInfo, which will later be formatted as a string and embedded // in the binary. setBuildInfo should only be called on a main package with no // errors. // // This information can be retrieved using debug.ReadBuildInfo. // // Note that the GoVersion field is not set here to avoid encoding it twice. // It is stored separately in the binary, mostly for historical reasons. func (p *Package) setBuildInfo(ctx context.Context, autoVCS bool) { setPkgErrorf := func(format string, args ...any) { if p.Error == nil { p.Error = &PackageError{Err: fmt.Errorf(format, args...)} p.Incomplete = true } } var debugModFromModinfo func(*modinfo.ModulePublic) *debug.Module debugModFromModinfo = func(mi *modinfo.ModulePublic) *debug.Module { version := mi.Version if version == "" { version = "(devel)" } dm := &debug.Module{ Path: mi.Path, Version: version, } if mi.Replace != nil { dm.Replace = debugModFromModinfo(mi.Replace) } else if mi.Version != "" && cfg.BuildMod != "vendor" { dm.Sum = modfetch.Sum(ctx, module.Version{Path: mi.Path, Version: mi.Version}) } return dm } var main debug.Module if p.Module != nil { main = *debugModFromModinfo(p.Module) } visited := make(map[*Package]bool) mdeps := make(map[module.Version]*debug.Module) var q []*Package q = append(q, p.Internal.Imports...) for len(q) > 0 { p1 := q[0] q = q[1:] if visited[p1] { continue } visited[p1] = true if p1.Module != nil { m := module.Version{Path: p1.Module.Path, Version: p1.Module.Version} if p1.Module.Path != main.Path && mdeps[m] == nil { mdeps[m] = debugModFromModinfo(p1.Module) } } q = append(q, p1.Internal.Imports...) } sortedMods := make([]module.Version, 0, len(mdeps)) for mod := range mdeps { sortedMods = append(sortedMods, mod) } gover.ModSort(sortedMods) deps := make([]*debug.Module, len(sortedMods)) for i, mod := range sortedMods { deps[i] = mdeps[mod] } pkgPath := p.ImportPath if p.Internal.CmdlineFiles { pkgPath = "command-line-arguments" } info := &debug.BuildInfo{ Path: pkgPath, Main: main, Deps: deps, } appendSetting := func(key, value string) { appendBuildSetting(info, key, value) } // Add command-line flags relevant to the build. // This is informational, not an exhaustive list. // Please keep the list sorted. if cfg.BuildASan { appendSetting("-asan", "true") } if BuildAsmflags.present { appendSetting("-asmflags", BuildAsmflags.String()) } buildmode := cfg.BuildBuildmode if buildmode == "default" { if p.Name == "main" { buildmode = "exe" } else { buildmode = "archive" } } appendSetting("-buildmode", buildmode) appendSetting("-compiler", cfg.BuildContext.Compiler) if gccgoflags := BuildGccgoflags.String(); gccgoflags != "" && cfg.BuildContext.Compiler == "gccgo" { appendSetting("-gccgoflags", gccgoflags) } if gcflags := BuildGcflags.String(); gcflags != "" && cfg.BuildContext.Compiler == "gc" { appendSetting("-gcflags", gcflags) } if ldflags := BuildLdflags.String(); ldflags != "" { // https://go.dev/issue/52372: only include ldflags if -trimpath is not set, // since it can include system paths through various linker flags (notably // -extar, -extld, and -extldflags). // // TODO: since we control cmd/link, in theory we can parse ldflags to // determine whether they may refer to system paths. If we do that, we can // redact only those paths from the recorded -ldflags setting and still // record the system-independent parts of the flags. if !cfg.BuildTrimpath { appendSetting("-ldflags", ldflags) } } if cfg.BuildCover { appendSetting("-cover", "true") } if cfg.BuildMSan { appendSetting("-msan", "true") } // N.B. -pgo added later by setPGOProfilePath. if cfg.BuildRace { appendSetting("-race", "true") } if tags := cfg.BuildContext.BuildTags; len(tags) > 0 { appendSetting("-tags", strings.Join(tags, ",")) } if cfg.BuildTrimpath { appendSetting("-trimpath", "true") } if p.DefaultGODEBUG != "" { appendSetting("DefaultGODEBUG", p.DefaultGODEBUG) } cgo := "0" if cfg.BuildContext.CgoEnabled { cgo = "1" } appendSetting("CGO_ENABLED", cgo) // https://go.dev/issue/52372: only include CGO flags if -trimpath is not set. // (If -trimpath is set, it is possible that these flags include system paths.) // If cgo is involved, reproducibility is already pretty well ruined anyway, // given that we aren't stamping header or library versions. // // TODO(bcmills): perhaps we could at least parse the flags and stamp the // subset of flags that are known not to be paths? if cfg.BuildContext.CgoEnabled && !cfg.BuildTrimpath { for _, name := range []string{"CGO_CFLAGS", "CGO_CPPFLAGS", "CGO_CXXFLAGS", "CGO_LDFLAGS"} { appendSetting(name, cfg.Getenv(name)) } } appendSetting("GOARCH", cfg.BuildContext.GOARCH) if cfg.RawGOEXPERIMENT != "" { appendSetting("GOEXPERIMENT", cfg.RawGOEXPERIMENT) } appendSetting("GOOS", cfg.BuildContext.GOOS) if key, val, _ := cfg.GetArchEnv(); key != "" && val != "" { appendSetting(key, val) } // Add VCS status if all conditions are true: // // - -buildvcs is enabled. // - p is a non-test contained within a main module (there may be multiple // main modules in a workspace, but local replacements don't count). // - Both the current directory and p's module's root directory are contained // in the same local repository. // - We know the VCS commands needed to get the status. setVCSError := func(err error) { setPkgErrorf("error obtaining VCS status: %v\n\tUse -buildvcs=false to disable VCS stamping.", err) } var repoDir string var vcsCmd *vcs.Cmd var err error const allowNesting = true wantVCS := false switch cfg.BuildBuildvcs { case "true": wantVCS = true // Include VCS metadata even for tests if requested explicitly; see https://go.dev/issue/52648. case "auto": wantVCS = autoVCS && !p.IsTestOnly() case "false": default: panic(fmt.Sprintf("unexpected value for cfg.BuildBuildvcs: %q", cfg.BuildBuildvcs)) } if wantVCS && p.Module != nil && p.Module.Version == "" && !p.Standard { if p.Module.Path == "bootstrap" && cfg.GOROOT == os.Getenv("GOROOT_BOOTSTRAP") { // During bootstrapping, the bootstrap toolchain is built in module // "bootstrap" (instead of "std"), with GOROOT set to GOROOT_BOOTSTRAP // (so the bootstrap toolchain packages don't even appear to be in GOROOT). goto omitVCS } repoDir, vcsCmd, err = vcs.FromDir(base.Cwd(), "", allowNesting) if err != nil && !errors.Is(err, os.ErrNotExist) { setVCSError(err) return } if !str.HasFilePathPrefix(p.Module.Dir, repoDir) && !str.HasFilePathPrefix(repoDir, p.Module.Dir) { // The module containing the main package does not overlap with the // repository containing the working directory. Don't include VCS info. // If the repo contains the module or vice versa, but they are not // the same directory, it's likely an error (see below). goto omitVCS } if cfg.BuildBuildvcs == "auto" && vcsCmd != nil && vcsCmd.Cmd != "" { if _, err := pathcache.LookPath(vcsCmd.Cmd); err != nil { // We fould a repository, but the required VCS tool is not present. // "-buildvcs=auto" means that we should silently drop the VCS metadata. goto omitVCS } } } if repoDir != "" && vcsCmd.Status != nil { // Check that the current directory, package, and module are in the same // repository. vcs.FromDir allows nested Git repositories, but nesting // is not allowed for other VCS tools. The current directory may be outside // p.Module.Dir when a workspace is used. pkgRepoDir, _, err := vcs.FromDir(p.Dir, "", allowNesting) if err != nil { setVCSError(err) return } if pkgRepoDir != repoDir { if cfg.BuildBuildvcs != "auto" { setVCSError(fmt.Errorf("main package is in repository %q but current directory is in repository %q", pkgRepoDir, repoDir)) return } goto omitVCS } modRepoDir, _, err := vcs.FromDir(p.Module.Dir, "", allowNesting) if err != nil { setVCSError(err) return } if modRepoDir != repoDir { if cfg.BuildBuildvcs != "auto" { setVCSError(fmt.Errorf("main module is in repository %q but current directory is in repository %q", modRepoDir, repoDir)) return } goto omitVCS } st, err := vcsStatusCache.Do(repoDir, func() (vcs.Status, error) { return vcsCmd.Status(vcsCmd, repoDir) }) if err != nil { setVCSError(err) return } appendSetting("vcs", vcsCmd.Cmd) if st.Revision != "" { appendSetting("vcs.revision", st.Revision) } if !st.CommitTime.IsZero() { stamp := st.CommitTime.UTC().Format(time.RFC3339Nano) appendSetting("vcs.time", stamp) } appendSetting("vcs.modified", strconv.FormatBool(st.Uncommitted)) // Determine the correct version of this module at the current revision and update the build metadata accordingly. repo := modfetch.LookupLocal(ctx, repoDir) revInfo, err := repo.Stat(ctx, st.Revision) if err != nil { goto omitVCS } vers := revInfo.Version if vers != "" { if st.Uncommitted { vers += "+dirty" } info.Main.Version = vers } } omitVCS: p.Internal.BuildInfo = info } // SafeArg reports whether arg is a "safe" command-line argument, // meaning that when it appears in a command-line, it probably // doesn't have some special meaning other than its own name. // Obviously args beginning with - are not safe (they look like flags). // Less obviously, args beginning with @ are not safe (they look like // GNU binutils flagfile specifiers, sometimes called "response files"). // To be conservative, we reject almost any arg beginning with non-alphanumeric ASCII. // We accept leading . _ and / as likely in file system paths. // There is a copy of this function in cmd/compile/internal/gc/noder.go. func SafeArg(name string) bool { if name == "" { return false } c := name[0] return '0' <= c && c <= '9' || 'A' <= c && c <= 'Z' || 'a' <= c && c <= 'z' || c == '.' || c == '_' || c == '/' || c >= utf8.RuneSelf } // LinkerDeps returns the list of linker-induced dependencies for main package p. func LinkerDeps(p *Package) ([]string, error) { // Everything links runtime. deps := []string{"runtime"} // External linking mode forces an import of runtime/cgo. if what := externalLinkingReason(p); what != "" && cfg.BuildContext.Compiler != "gccgo" { if !cfg.BuildContext.CgoEnabled { return nil, fmt.Errorf("%s requires external (cgo) linking, but cgo is not enabled", what) } deps = append(deps, "runtime/cgo") } // On ARM with GOARM=5, it forces an import of math, for soft floating point. if cfg.Goarch == "arm" { deps = append(deps, "math") } // Using the race detector forces an import of runtime/race. if cfg.BuildRace { deps = append(deps, "runtime/race") } // Using memory sanitizer forces an import of runtime/msan. if cfg.BuildMSan { deps = append(deps, "runtime/msan") } // Using address sanitizer forces an import of runtime/asan. if cfg.BuildASan { deps = append(deps, "runtime/asan") } // Building for coverage forces an import of runtime/coverage. if cfg.BuildCover && cfg.Experiment.CoverageRedesign { deps = append(deps, "runtime/coverage") } return deps, nil } // externalLinkingReason reports the reason external linking is required // even for programs that do not use cgo, or the empty string if external // linking is not required. func externalLinkingReason(p *Package) (what string) { // Some targets must use external linking even inside GOROOT. if platform.MustLinkExternal(cfg.Goos, cfg.Goarch, false) { return cfg.Goos + "/" + cfg.Goarch } // Some build modes always require external linking. switch cfg.BuildBuildmode { case "c-shared": if cfg.BuildContext.GOARCH == "wasm" { break } fallthrough case "plugin": return "-buildmode=" + cfg.BuildBuildmode } // Using -linkshared always requires external linking. if cfg.BuildLinkshared { return "-linkshared" } // Decide whether we are building a PIE, // bearing in mind that some systems default to PIE. isPIE := false if cfg.BuildBuildmode == "pie" { isPIE = true } else if cfg.BuildBuildmode == "default" && platform.DefaultPIE(cfg.BuildContext.GOOS, cfg.BuildContext.GOARCH, cfg.BuildRace) { isPIE = true } // If we are building a PIE, and we are on a system // that does not support PIE with internal linking mode, // then we must use external linking. if isPIE && !platform.InternalLinkPIESupported(cfg.BuildContext.GOOS, cfg.BuildContext.GOARCH) { if cfg.BuildBuildmode == "pie" { return "-buildmode=pie" } return "default PIE binary" } // Using -ldflags=-linkmode=external forces external linking. // If there are multiple -linkmode options, the last one wins. if p != nil { ldflags := BuildLdflags.For(p) for i := len(ldflags) - 1; i >= 0; i-- { a := ldflags[i] if a == "-linkmode=external" || a == "-linkmode" && i+1 < len(ldflags) && ldflags[i+1] == "external" { return a } else if a == "-linkmode=internal" || a == "-linkmode" && i+1 < len(ldflags) && ldflags[i+1] == "internal" { return "" } } } return "" } // mkAbs rewrites list, which must be paths relative to p.Dir, // into a sorted list of absolute paths. It edits list in place but for // convenience also returns list back to its caller. func (p *Package) mkAbs(list []string) []string { for i, f := range list { list[i] = filepath.Join(p.Dir, f) } sort.Strings(list) return list } // InternalGoFiles returns the list of Go files being built for the package, // using absolute paths. func (p *Package) InternalGoFiles() []string { return p.mkAbs(str.StringList(p.GoFiles, p.CgoFiles, p.TestGoFiles)) } // InternalXGoFiles returns the list of Go files being built for the XTest package, // using absolute paths. func (p *Package) InternalXGoFiles() []string { return p.mkAbs(p.XTestGoFiles) } // InternalAllGoFiles returns the list of all Go files possibly relevant for the package, // using absolute paths. "Possibly relevant" means that files are not excluded // due to build tags, but files with names beginning with . or _ are still excluded. func (p *Package) InternalAllGoFiles() []string { return p.mkAbs(str.StringList(p.IgnoredGoFiles, p.GoFiles, p.CgoFiles, p.TestGoFiles, p.XTestGoFiles)) } // UsesSwig reports whether the package needs to run SWIG. func (p *Package) UsesSwig() bool { return len(p.SwigFiles) > 0 || len(p.SwigCXXFiles) > 0 } // UsesCgo reports whether the package needs to run cgo func (p *Package) UsesCgo() bool { return len(p.CgoFiles) > 0 } // PackageList returns the list of packages in the dag rooted at roots // as visited in a depth-first post-order traversal. func PackageList(roots []*Package) []*Package { seen := map[*Package]bool{} all := []*Package{} var walk func(*Package) walk = func(p *Package) { if seen[p] { return } seen[p] = true for _, p1 := range p.Internal.Imports { walk(p1) } all = append(all, p) } for _, root := range roots { walk(root) } return all } // TestPackageList returns the list of packages in the dag rooted at roots // as visited in a depth-first post-order traversal, including the test // imports of the roots. This ignores errors in test packages. func TestPackageList(ctx context.Context, opts PackageOpts, roots []*Package) []*Package { seen := map[*Package]bool{} all := []*Package{} var walk func(*Package) walk = func(p *Package) { if seen[p] { return } seen[p] = true for _, p1 := range p.Internal.Imports { walk(p1) } all = append(all, p) } walkTest := func(root *Package, path string) { var stk ImportStack p1, err := loadImport(ctx, opts, nil, path, root.Dir, root, &stk, root.Internal.Build.TestImportPos[path], ResolveImport) if err != nil && root.Error == nil { // Assign error importing the package to the importer. root.Error = err root.Incomplete = true } if p1.Error == nil { walk(p1) } } for _, root := range roots { walk(root) for _, path := range root.TestImports { walkTest(root, path) } for _, path := range root.XTestImports { walkTest(root, path) } } return all } // LoadImportWithFlags loads the package with the given import path and // sets tool flags on that package. This function is useful loading implicit // dependencies (like sync/atomic for coverage). // TODO(jayconrod): delete this function and set flags automatically // in LoadImport instead. func LoadImportWithFlags(path, srcDir string, parent *Package, stk *ImportStack, importPos []token.Position, mode int) (*Package, *PackageError) { p, err := loadImport(context.TODO(), PackageOpts{}, nil, path, srcDir, parent, stk, importPos, mode) setToolFlags(p) return p, err } // LoadPackageWithFlags is the same as LoadImportWithFlags but without a parent. // It's then guaranteed to not return an error func LoadPackageWithFlags(path, srcDir string, stk *ImportStack, importPos []token.Position, mode int) *Package { p := LoadPackage(context.TODO(), PackageOpts{}, path, srcDir, stk, importPos, mode) setToolFlags(p) return p } // PackageOpts control the behavior of PackagesAndErrors and other package // loading functions. type PackageOpts struct { // IgnoreImports controls whether we ignore explicit and implicit imports // when loading packages. Implicit imports are added when supporting Cgo // or SWIG and when linking main packages. IgnoreImports bool // ModResolveTests indicates whether calls to the module loader should also // resolve test dependencies of the requested packages. // // If ModResolveTests is true, then the module loader needs to resolve test // dependencies at the same time as packages; otherwise, the test dependencies // of those packages could be missing, and resolving those missing dependencies // could change the selected versions of modules that provide other packages. ModResolveTests bool // MainOnly is true if the caller only wants to load main packages. // For a literal argument matching a non-main package, a stub may be returned // with an error. For a non-literal argument (with "..."), non-main packages // are not be matched, and their dependencies may not be loaded. A warning // may be printed for non-literal arguments that match no main packages. MainOnly bool // AutoVCS controls whether we also load version-control metadata for main packages // when -buildvcs=auto (the default). AutoVCS bool // SuppressBuildInfo is true if the caller does not need p.Stale, p.StaleReason, or p.Internal.BuildInfo // to be populated on the package. SuppressBuildInfo bool // SuppressEmbedFiles is true if the caller does not need any embed files to be populated on the // package. SuppressEmbedFiles bool } // PackagesAndErrors returns the packages named by the command line arguments // 'patterns'. If a named package cannot be loaded, PackagesAndErrors returns // a *Package with the Error field describing the failure. If errors are found // loading imported packages, the DepsErrors field is set. The Incomplete field // may be set as well. // // To obtain a flat list of packages, use PackageList. // To report errors loading packages, use ReportPackageErrors. func PackagesAndErrors(ctx context.Context, opts PackageOpts, patterns []string) []*Package { ctx, span := trace.StartSpan(ctx, "load.PackagesAndErrors") defer span.Done() for _, p := range patterns { // Listing is only supported with all patterns referring to either: // - Files that are part of the same directory. // - Explicit package paths or patterns. if strings.HasSuffix(p, ".go") { // We need to test whether the path is an actual Go file and not a // package path or pattern ending in '.go' (see golang.org/issue/34653). if fi, err := fsys.Stat(p); err == nil && !fi.IsDir() { pkgs := []*Package{GoFilesPackage(ctx, opts, patterns)} setPGOProfilePath(pkgs) return pkgs } } } var matches []*search.Match if modload.Init(); cfg.ModulesEnabled { modOpts := modload.PackageOpts{ ResolveMissingImports: true, LoadTests: opts.ModResolveTests, SilencePackageErrors: true, } matches, _ = modload.LoadPackages(ctx, modOpts, patterns...) } else { noModRoots := []string{} matches = search.ImportPaths(patterns, noModRoots) } var ( pkgs []*Package stk ImportStack seenPkg = make(map[*Package]bool) ) pre := newPreload() defer pre.flush() pre.preloadMatches(ctx, opts, matches) for _, m := range matches { for _, pkg := range m.Pkgs { if pkg == "" { panic(fmt.Sprintf("ImportPaths returned empty package for pattern %s", m.Pattern())) } mode := cmdlinePkg if m.IsLiteral() { // Note: do not set = m.IsLiteral unconditionally // because maybe we'll see p matching both // a literal and also a non-literal pattern. mode |= cmdlinePkgLiteral } p, perr := loadImport(ctx, opts, pre, pkg, base.Cwd(), nil, &stk, nil, mode) if perr != nil { base.Fatalf("internal error: loadImport of %q with nil parent returned an error", pkg) } p.Match = append(p.Match, m.Pattern()) if seenPkg[p] { continue } seenPkg[p] = true pkgs = append(pkgs, p) } if len(m.Errs) > 0 { // In addition to any packages that were actually resolved from the // pattern, there was some error in resolving the pattern itself. // Report it as a synthetic package. p := new(Package) p.ImportPath = m.Pattern() // Pass an empty ImportStack and nil importPos: the error arose from a pattern, not an import. var stk ImportStack var importPos []token.Position p.setLoadPackageDataError(m.Errs[0], m.Pattern(), &stk, importPos) p.Incomplete = true p.Match = append(p.Match, m.Pattern()) p.Internal.CmdlinePkg = true if m.IsLiteral() { p.Internal.CmdlinePkgLiteral = true } pkgs = append(pkgs, p) } } if opts.MainOnly { pkgs = mainPackagesOnly(pkgs, matches) } // Now that CmdlinePkg is set correctly, // compute the effective flags for all loaded packages // (not just the ones matching the patterns but also // their dependencies). setToolFlags(pkgs...) setPGOProfilePath(pkgs) return pkgs } // setPGOProfilePath sets the PGO profile path for pkgs. // In -pgo=auto mode, it finds the default PGO profile. func setPGOProfilePath(pkgs []*Package) { updateBuildInfo := func(p *Package, file string) { // Don't create BuildInfo for packages that didn't already have it. if p.Internal.BuildInfo == nil { return } if cfg.BuildTrimpath { appendBuildSetting(p.Internal.BuildInfo, "-pgo", filepath.Base(file)) } else { appendBuildSetting(p.Internal.BuildInfo, "-pgo", file) } // Adding -pgo breaks the sort order in BuildInfo.Settings. Restore it. slices.SortFunc(p.Internal.BuildInfo.Settings, func(x, y debug.BuildSetting) int { return strings.Compare(x.Key, y.Key) }) } switch cfg.BuildPGO { case "off": return case "auto": // Locate PGO profiles from the main packages, and // attach the profile to the main package and its // dependencies. // If we're building multiple main packages, they may // have different profiles. We may need to split (unshare) // the dependency graph so they can attach different // profiles. for _, p := range pkgs { if p.Name != "main" { continue } pmain := p file := filepath.Join(pmain.Dir, "default.pgo") if _, err := os.Stat(file); err != nil { continue // no profile } // Packages already visited. The value should replace // the key, as it may be a forked copy of the original // Package. visited := make(map[*Package]*Package) var split func(p *Package) *Package split = func(p *Package) *Package { if p1 := visited[p]; p1 != nil { return p1 } if len(pkgs) > 1 && p != pmain { // Make a copy, then attach profile. // No need to copy if there is only one root package (we can // attach profile directly in-place). // Also no need to copy the main package. if p.Internal.PGOProfile != "" { panic("setPGOProfilePath: already have profile") } p1 := new(Package) *p1 = *p // Unalias the Imports and Internal.Imports slices, // which we're going to modify. We don't copy other slices as // we don't change them. p1.Imports = slices.Clone(p.Imports) p1.Internal.Imports = slices.Clone(p.Internal.Imports) p1.Internal.ForMain = pmain.ImportPath visited[p] = p1 p = p1 } else { visited[p] = p } p.Internal.PGOProfile = file updateBuildInfo(p, file) // Recurse to dependencies. for i, pp := range p.Internal.Imports { p.Internal.Imports[i] = split(pp) } return p } // Replace the package and imports with the PGO version. split(pmain) } default: // Profile specified from the command line. // Make it absolute path, as the compiler runs on various directories. file, err := filepath.Abs(cfg.BuildPGO) if err != nil { base.Fatalf("fail to get absolute path of PGO file %s: %v", cfg.BuildPGO, err) } for _, p := range PackageList(pkgs) { p.Internal.PGOProfile = file updateBuildInfo(p, file) } } } // CheckPackageErrors prints errors encountered loading pkgs and their // dependencies, then exits with a non-zero status if any errors were found. func CheckPackageErrors(pkgs []*Package) { var anyIncomplete bool for _, pkg := range pkgs { if pkg.Incomplete { anyIncomplete = true } } if anyIncomplete { all := PackageList(pkgs) for _, p := range all { if p.Error != nil { base.Errorf("%v", p.Error) } } } base.ExitIfErrors() // Check for duplicate loads of the same package. // That should be impossible, but if it does happen then // we end up trying to build the same package twice, // usually in parallel overwriting the same files, // which doesn't work very well. seen := map[string]bool{} reported := map[string]bool{} for _, pkg := range PackageList(pkgs) { // -pgo=auto with multiple main packages can cause a package being // built multiple times (with different profiles). // We check that package import path + profile path is unique. key := pkg.ImportPath if pkg.Internal.PGOProfile != "" { key += " pgo:" + pkg.Internal.PGOProfile } if seen[key] && !reported[key] { reported[key] = true base.Errorf("internal error: duplicate loads of %s", pkg.ImportPath) } seen[key] = true } base.ExitIfErrors() } // mainPackagesOnly filters out non-main packages matched only by arguments // containing "..." and returns the remaining main packages. // // Packages with missing, invalid, or ambiguous names may be treated as // possibly-main packages. // // mainPackagesOnly sets a non-main package's Error field and returns it if it // is named by a literal argument. // // mainPackagesOnly prints warnings for non-literal arguments that only match // non-main packages. func mainPackagesOnly(pkgs []*Package, matches []*search.Match) []*Package { treatAsMain := map[string]bool{} for _, m := range matches { if m.IsLiteral() { for _, path := range m.Pkgs { treatAsMain[path] = true } } } var mains []*Package for _, pkg := range pkgs { if pkg.Name == "main" || (pkg.Name == "" && pkg.Error != nil) { treatAsMain[pkg.ImportPath] = true mains = append(mains, pkg) continue } if len(pkg.InvalidGoFiles) > 0 { // TODO(#45999): && pkg.Name == "", but currently go/build sets pkg.Name arbitrarily if it is ambiguous. // The package has (or may have) conflicting names, and we can't easily // tell whether one of them is "main". So assume that it could be, and // report an error for the package. treatAsMain[pkg.ImportPath] = true } if treatAsMain[pkg.ImportPath] { if pkg.Error == nil { pkg.Error = &PackageError{Err: &mainPackageError{importPath: pkg.ImportPath}} pkg.Incomplete = true } mains = append(mains, pkg) } } for _, m := range matches { if m.IsLiteral() || len(m.Pkgs) == 0 { continue } foundMain := false for _, path := range m.Pkgs { if treatAsMain[path] { foundMain = true break } } if !foundMain { fmt.Fprintf(os.Stderr, "go: warning: %q matched only non-main packages\n", m.Pattern()) } } return mains } type mainPackageError struct { importPath string } func (e *mainPackageError) Error() string { return fmt.Sprintf("package %s is not a main package", e.importPath) } func (e *mainPackageError) ImportPath() string { return e.importPath } func setToolFlags(pkgs ...*Package) { for _, p := range PackageList(pkgs) { p.Internal.Asmflags = BuildAsmflags.For(p) p.Internal.Gcflags = BuildGcflags.For(p) p.Internal.Ldflags = BuildLdflags.For(p) p.Internal.Gccgoflags = BuildGccgoflags.For(p) } } // GoFilesPackage creates a package for building a collection of Go files // (typically named on the command line). The target is named p.a for // package p or named after the first Go file for package main. func GoFilesPackage(ctx context.Context, opts PackageOpts, gofiles []string) *Package { modload.Init() for _, f := range gofiles { if !strings.HasSuffix(f, ".go") { pkg := new(Package) pkg.Internal.Local = true pkg.Internal.CmdlineFiles = true pkg.Name = f pkg.Error = &PackageError{ Err: fmt.Errorf("named files must be .go files: %s", pkg.Name), } pkg.Incomplete = true return pkg } } var stk ImportStack ctxt := cfg.BuildContext ctxt.UseAllFiles = true // Synthesize fake "directory" that only shows the named files, // to make it look like this is a standard package or // command directory. So that local imports resolve // consistently, the files must all be in the same directory. var dirent []fs.FileInfo var dir string for _, file := range gofiles { fi, err := fsys.Stat(file) if err != nil { base.Fatalf("%s", err) } if fi.IsDir() { base.Fatalf("%s is a directory, should be a Go file", file) } dir1 := filepath.Dir(file) if dir == "" { dir = dir1 } else if dir != dir1 { base.Fatalf("named files must all be in one directory; have %s and %s", dir, dir1) } dirent = append(dirent, fi) } ctxt.ReadDir = func(string) ([]fs.FileInfo, error) { return dirent, nil } if cfg.ModulesEnabled { modload.ImportFromFiles(ctx, gofiles) } var err error if dir == "" { dir = base.Cwd() } dir, err = filepath.Abs(dir) if err != nil { base.Fatalf("%s", err) } bp, err := ctxt.ImportDir(dir, 0) pkg := new(Package) pkg.Internal.Local = true pkg.Internal.CmdlineFiles = true pkg.load(ctx, opts, "command-line-arguments", &stk, nil, bp, err) if !cfg.ModulesEnabled { pkg.Internal.LocalPrefix = dirToImportPath(dir) } pkg.ImportPath = "command-line-arguments" pkg.Target = "" pkg.Match = gofiles if pkg.Name == "main" { exe := pkg.DefaultExecName() + cfg.ExeSuffix if cfg.GOBIN != "" { pkg.Target = filepath.Join(cfg.GOBIN, exe) } else if cfg.ModulesEnabled { pkg.Target = filepath.Join(modload.BinDir(), exe) } } if opts.MainOnly && pkg.Name != "main" && pkg.Error == nil { pkg.Error = &PackageError{Err: &mainPackageError{importPath: pkg.ImportPath}} pkg.Incomplete = true } setToolFlags(pkg) return pkg } // PackagesAndErrorsOutsideModule is like PackagesAndErrors but runs in // module-aware mode and ignores the go.mod file in the current directory or any // parent directory, if there is one. This is used in the implementation of 'go // install pkg@version' and other commands that support similar forms. // // modload.ForceUseModules must be true, and modload.RootMode must be NoRoot // before calling this function. // // PackagesAndErrorsOutsideModule imposes several constraints to avoid // ambiguity. All arguments must have the same version suffix (not just a suffix // that resolves to the same version). They must refer to packages in the same // module, which must not be std or cmd. That module is not considered the main // module, but its go.mod file (if it has one) must not contain directives that // would cause it to be interpreted differently if it were the main module // (replace, exclude). func PackagesAndErrorsOutsideModule(ctx context.Context, opts PackageOpts, args []string) ([]*Package, error) { if !modload.ForceUseModules { panic("modload.ForceUseModules must be true") } if modload.RootMode != modload.NoRoot { panic("modload.RootMode must be NoRoot") } // Check that the arguments satisfy syntactic constraints. var version string var firstPath string for _, arg := range args { if i := strings.Index(arg, "@"); i >= 0 { firstPath, version = arg[:i], arg[i+1:] if version == "" { return nil, fmt.Errorf("%s: version must not be empty", arg) } break } } patterns := make([]string, len(args)) for i, arg := range args { p, found := strings.CutSuffix(arg, "@"+version) if !found { return nil, fmt.Errorf("%s: all arguments must refer to packages in the same module at the same version (@%s)", arg, version) } switch { case build.IsLocalImport(p): return nil, fmt.Errorf("%s: argument must be a package path, not a relative path", arg) case filepath.IsAbs(p): return nil, fmt.Errorf("%s: argument must be a package path, not an absolute path", arg) case search.IsMetaPackage(p): return nil, fmt.Errorf("%s: argument must be a package path, not a meta-package", arg) case pathpkg.Clean(p) != p: return nil, fmt.Errorf("%s: argument must be a clean package path", arg) case !strings.Contains(p, "...") && search.IsStandardImportPath(p) && modindex.IsStandardPackage(cfg.GOROOT, cfg.BuildContext.Compiler, p): return nil, fmt.Errorf("%s: argument must not be a package in the standard library", arg) default: patterns[i] = p } } // Query the module providing the first argument, load its go.mod file, and // check that it doesn't contain directives that would cause it to be // interpreted differently if it were the main module. // // If multiple modules match the first argument, accept the longest match // (first result). It's possible this module won't provide packages named by // later arguments, and other modules would. Let's not try to be too // magical though. allowed := modload.CheckAllowed if modload.IsRevisionQuery(firstPath, version) { // Don't check for retractions if a specific revision is requested. allowed = nil } noneSelected := func(path string) (version string) { return "none" } qrs, err := modload.QueryPackages(ctx, patterns[0], version, noneSelected, allowed) if err != nil { return nil, fmt.Errorf("%s: %w", args[0], err) } rootMod := qrs[0].Mod deprecation, err := modload.CheckDeprecation(ctx, rootMod) if err != nil { return nil, fmt.Errorf("%s: %w", args[0], err) } if deprecation != "" { fmt.Fprintf(os.Stderr, "go: module %s is deprecated: %s\n", rootMod.Path, modload.ShortMessage(deprecation, "")) } data, err := modfetch.GoMod(ctx, rootMod.Path, rootMod.Version) if err != nil { return nil, fmt.Errorf("%s: %w", args[0], err) } f, err := modfile.Parse("go.mod", data, nil) if err != nil { return nil, fmt.Errorf("%s (in %s): %w", args[0], rootMod, err) } directiveFmt := "%s (in %s):\n" + "\tThe go.mod file for the module providing named packages contains one or\n" + "\tmore %s directives. It must not contain directives that would cause\n" + "\tit to be interpreted differently than if it were the main module." if len(f.Replace) > 0 { return nil, fmt.Errorf(directiveFmt, args[0], rootMod, "replace") } if len(f.Exclude) > 0 { return nil, fmt.Errorf(directiveFmt, args[0], rootMod, "exclude") } // Since we are in NoRoot mode, the build list initially contains only // the dummy command-line-arguments module. Add a requirement on the // module that provides the packages named on the command line. if _, err := modload.EditBuildList(ctx, nil, []module.Version{rootMod}); err != nil { return nil, fmt.Errorf("%s: %w", args[0], err) } // Load packages for all arguments. pkgs := PackagesAndErrors(ctx, opts, patterns) // Check that named packages are all provided by the same module. for _, pkg := range pkgs { var pkgErr error if pkg.Module == nil { // Packages in std, cmd, and their vendored dependencies // don't have this field set. pkgErr = fmt.Errorf("package %s not provided by module %s", pkg.ImportPath, rootMod) } else if pkg.Module.Path != rootMod.Path || pkg.Module.Version != rootMod.Version { pkgErr = fmt.Errorf("package %s provided by module %s@%s\n\tAll packages must be provided by the same module (%s).", pkg.ImportPath, pkg.Module.Path, pkg.Module.Version, rootMod) } if pkgErr != nil && pkg.Error == nil { pkg.Error = &PackageError{Err: pkgErr} pkg.Incomplete = true } } matchers := make([]func(string) bool, len(patterns)) for i, p := range patterns { if strings.Contains(p, "...") { matchers[i] = pkgpattern.MatchPattern(p) } } return pkgs, nil } // EnsureImport ensures that package p imports the named package. func EnsureImport(p *Package, pkg string) { for _, d := range p.Internal.Imports { if d.Name == pkg { return } } p1, err := LoadImportWithFlags(pkg, p.Dir, p, &ImportStack{}, nil, 0) if err != nil { base.Fatalf("load %s: %v", pkg, err) } if p1.Error != nil { base.Fatalf("load %s: %v", pkg, p1.Error) } p.Internal.Imports = append(p.Internal.Imports, p1) } // PrepareForCoverageBuild is a helper invoked for "go install // -cover", "go run -cover", and "go build -cover" (but not used by // "go test -cover"). It walks through the packages being built (and // dependencies) and marks them for coverage instrumentation when // appropriate, and possibly adding additional deps where needed. func PrepareForCoverageBuild(pkgs []*Package) { var match []func(*Package) bool matchMainModAndCommandLine := func(p *Package) bool { // note that p.Standard implies p.Module == nil below. return p.Internal.CmdlineFiles || p.Internal.CmdlinePkg || (p.Module != nil && p.Module.Main) } if len(cfg.BuildCoverPkg) != 0 { // If -coverpkg has been specified, then we instrument only // the specific packages selected by the user-specified pattern(s). match = make([]func(*Package) bool, len(cfg.BuildCoverPkg)) for i := range cfg.BuildCoverPkg { match[i] = MatchPackage(cfg.BuildCoverPkg[i], base.Cwd()) } } else { // Without -coverpkg, instrument only packages in the main module // (if any), as well as packages/files specifically named on the // command line. match = []func(*Package) bool{matchMainModAndCommandLine} } // Visit the packages being built or installed, along with all of // their dependencies, and mark them to be instrumented, taking // into account the matchers we've set up in the sequence above. SelectCoverPackages(PackageList(pkgs), match, "build") } func SelectCoverPackages(roots []*Package, match []func(*Package) bool, op string) []*Package { var warntag string var includeMain bool switch op { case "build": warntag = "built" includeMain = true case "test": warntag = "tested" default: panic("internal error, bad mode passed to SelectCoverPackages") } covered := []*Package{} matched := make([]bool, len(match)) for _, p := range roots { haveMatch := false for i := range match { if match[i](p) { matched[i] = true haveMatch = true } } if !haveMatch { continue } // There is nothing to cover in package unsafe; it comes from // the compiler. if p.ImportPath == "unsafe" { continue } // A package which only has test files can't be imported as a // dependency, and at the moment we don't try to instrument it // for coverage. There isn't any technical reason why // *_test.go files couldn't be instrumented, but it probably // doesn't make much sense to lump together coverage metrics // (ex: percent stmts covered) of *_test.go files with // non-test Go code. if len(p.GoFiles)+len(p.CgoFiles) == 0 { continue } // Silently ignore attempts to run coverage on sync/atomic // and/or internal/runtime/atomic when using atomic coverage // mode. Atomic coverage mode uses sync/atomic, so we can't // also do coverage on it. if cfg.BuildCoverMode == "atomic" && p.Standard && (p.ImportPath == "sync/atomic" || p.ImportPath == "internal/runtime/atomic") { continue } // If using the race detector, silently ignore attempts to run // coverage on the runtime packages. It will cause the race // detector to be invoked before it has been initialized. Note // the use of "regonly" instead of just ignoring the package // completely-- we do this due to the requirements of the // package ID numbering scheme. See the comment in // $GOROOT/src/internal/coverage/pkid.go dealing with // hard-coding of runtime package IDs. cmode := cfg.BuildCoverMode if cfg.BuildRace && p.Standard && (p.ImportPath == "runtime" || strings.HasPrefix(p.ImportPath, "runtime/internal")) { cmode = "regonly" } // If -coverpkg is in effect and for some reason we don't want // coverage data for the main package, make sure that we at // least process it for registration hooks. if includeMain && p.Name == "main" && !haveMatch { haveMatch = true cmode = "regonly" } // Mark package for instrumentation. p.Internal.Cover.Mode = cmode covered = append(covered, p) // Force import of sync/atomic into package if atomic mode. if cfg.BuildCoverMode == "atomic" { EnsureImport(p, "sync/atomic") } // Generate covervars if using legacy coverage design. if !cfg.Experiment.CoverageRedesign { var coverFiles []string coverFiles = append(coverFiles, p.GoFiles...) coverFiles = append(coverFiles, p.CgoFiles...) p.Internal.CoverVars = DeclareCoverVars(p, coverFiles...) } } // Warn about -coverpkg arguments that are not actually used. for i := range cfg.BuildCoverPkg { if !matched[i] { fmt.Fprintf(os.Stderr, "warning: no packages being %s depend on matches for pattern %s\n", warntag, cfg.BuildCoverPkg[i]) } } return covered } // DeclareCoverVars attaches the required cover variables names // to the files, to be used when annotating the files. This // function only called when using legacy coverage test/build // (e.g. GOEXPERIMENT=coverageredesign is off). func DeclareCoverVars(p *Package, files ...string) map[string]*CoverVar { coverVars := make(map[string]*CoverVar) coverIndex := 0 // We create the cover counters as new top-level variables in the package. // We need to avoid collisions with user variables (GoCover_0 is unlikely but still) // and more importantly with dot imports of other covered packages, // so we append 12 hex digits from the SHA-256 of the import path. // The point is only to avoid accidents, not to defeat users determined to // break things. sum := sha256.Sum256([]byte(p.ImportPath)) h := fmt.Sprintf("%x", sum[:6]) for _, file := range files { if base.IsTestFile(file) { continue } // For a package that is "local" (imported via ./ import or command line, outside GOPATH), // we record the full path to the file name. // Otherwise we record the import path, then a forward slash, then the file name. // This makes profiles within GOPATH file system-independent. // These names appear in the cmd/cover HTML interface. var longFile string if p.Internal.Local { longFile = filepath.Join(p.Dir, file) } else { longFile = pathpkg.Join(p.ImportPath, file) } coverVars[file] = &CoverVar{ File: longFile, Var: fmt.Sprintf("GoCover_%d_%x", coverIndex, h), } coverIndex++ } return coverVars }