// Copyright 2018 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package modload // This file contains the module-mode package loader, as well as some accessory // functions pertaining to the package import graph. // // There are two exported entry points into package loading — LoadPackages and // ImportFromFiles — both implemented in terms of loadFromRoots, which itself // manipulates an instance of the loader struct. // // Although most of the loading state is maintained in the loader struct, // one key piece - the build list - is a global, so that it can be modified // separate from the loading operation, such as during "go get" // upgrades/downgrades or in "go mod" operations. // TODO(#40775): It might be nice to make the loader take and return // a buildList rather than hard-coding use of the global. // // Loading is an iterative process. On each iteration, we try to load the // requested packages and their transitive imports, then try to resolve modules // for any imported packages that are still missing. // // The first step of each iteration identifies a set of “root” packages. // Normally the root packages are exactly those matching the named pattern // arguments. However, for the "all" meta-pattern, the final set of packages is // computed from the package import graph, and therefore cannot be an initial // input to loading that graph. Instead, the root packages for the "all" pattern // are those contained in the main module, and allPatternIsRoot parameter to the // loader instructs it to dynamically expand those roots to the full "all" // pattern as loading progresses. // // The pkgInAll flag on each loadPkg instance tracks whether that // package is known to match the "all" meta-pattern. // A package matches the "all" pattern if: // - it is in the main module, or // - it is imported by any test in the main module, or // - it is imported by another package in "all", or // - the main module specifies a go version ≤ 1.15, and the package is imported // by a *test of* another package in "all". // // When we implement lazy loading, we will record the modules providing packages // in "all" even when we are only loading individual packages, so we set the // pkgInAll flag regardless of the whether the "all" pattern is a root. // (This is necessary to maintain the “import invariant” described in // https://golang.org/design/36460-lazy-module-loading.) // // Because "go mod vendor" prunes out the tests of vendored packages, the // behavior of the "all" pattern with -mod=vendor in Go 1.11–1.15 is the same // as the "all" pattern (regardless of the -mod flag) in 1.16+. // The allClosesOverTests parameter to the loader indicates whether the "all" // pattern should close over tests (as in Go 1.11–1.15) or stop at only those // packages transitively imported by the packages and tests in the main module // ("all" in Go 1.16+ and "go mod vendor" in Go 1.11+). // // Note that it is possible for a loaded package NOT to be in "all" even when we // are loading the "all" pattern. For example, packages that are transitive // dependencies of other roots named on the command line must be loaded, but are // not in "all". (The mod_notall test illustrates this behavior.) // Similarly, if the LoadTests flag is set but the "all" pattern does not close // over test dependencies, then when we load the test of a package that is in // "all" but outside the main module, the dependencies of that test will not // necessarily themselves be in "all". (That configuration does not arise in Go // 1.11–1.15, but it will be possible in Go 1.16+.) // // Loading proceeds from the roots, using a parallel work-queue with a limit on // the amount of active work (to avoid saturating disks, CPU cores, and/or // network connections). Each package is added to the queue the first time it is // imported by another package. When we have finished identifying the imports of // a package, we add the test for that package if it is needed. A test may be // needed if: // - the package matches a root pattern and tests of the roots were requested, or // - the package is in the main module and the "all" pattern is requested // (because the "all" pattern includes the dependencies of tests in the main // module), or // - the package is in "all" and the definition of "all" we are using includes // dependencies of tests (as is the case in Go ≤1.15). // // After all available packages have been loaded, we examine the results to // identify any requested or imported packages that are still missing, and if // so, which modules we could add to the module graph in order to make the // missing packages available. We add those to the module graph and iterate, // until either all packages resolve successfully or we cannot identify any // module that would resolve any remaining missing package. // // If the main module is “tidy” (that is, if "go mod tidy" is a no-op for it) // and all requested packages are in "all", then loading completes in a single // iteration. // TODO(bcmills): We should also be able to load in a single iteration if the // requested packages all come from modules that are themselves tidy, regardless // of whether those packages are in "all". Today, that requires two iterations // if those packages are not found in existing dependencies of the main module. import ( "bytes" "context" "errors" "fmt" "go/build" "io/fs" "os" "path" pathpkg "path" "path/filepath" "reflect" "runtime" "sort" "strings" "sync" "sync/atomic" "cmd/go/internal/base" "cmd/go/internal/cfg" "cmd/go/internal/fsys" "cmd/go/internal/imports" "cmd/go/internal/modfetch" "cmd/go/internal/mvs" "cmd/go/internal/par" "cmd/go/internal/search" "cmd/go/internal/str" "golang.org/x/mod/module" ) // loaded is the most recently-used package loader. // It holds details about individual packages. var loaded *loader // PackageOpts control the behavior of the LoadPackages function. type PackageOpts struct { // Tags are the build tags in effect (as interpreted by the // cmd/go/internal/imports package). // If nil, treated as equivalent to imports.Tags(). Tags map[string]bool // ResolveMissingImports indicates that we should attempt to add module // dependencies as needed to resolve imports of packages that are not found. // // For commands that support the -mod flag, resolving imports may still fail // if the flag is set to "readonly" (the default) or "vendor". ResolveMissingImports bool // AllowPackage, if non-nil, is called after identifying the module providing // each package. If AllowPackage returns a non-nil error, that error is set // for the package, and the imports and test of that package will not be // loaded. // // AllowPackage may be invoked concurrently by multiple goroutines, // and may be invoked multiple times for a given package path. AllowPackage func(ctx context.Context, path string, mod module.Version) error // LoadTests loads the test dependencies of each package matching a requested // pattern. If ResolveMissingImports is also true, test dependencies will be // resolved if missing. LoadTests bool // UseVendorAll causes the "all" package pattern to be interpreted as if // running "go mod vendor" (or building with "-mod=vendor"). // // This is a no-op for modules that declare 'go 1.16' or higher, for which this // is the default (and only) interpretation of the "all" pattern in module mode. UseVendorAll bool // AllowErrors indicates that LoadPackages should not terminate the process if // an error occurs. AllowErrors bool // SilenceErrors indicates that LoadPackages should not print errors // that occur while loading packages. SilenceErrors implies AllowErrors. SilenceErrors bool // SilenceMissingStdImports indicates that LoadPackages should not print // errors or terminate the process if an imported package is missing, and the // import path looks like it might be in the standard library (perhaps in a // future version). SilenceMissingStdImports bool // SilenceUnmatchedWarnings suppresses the warnings normally emitted for // patterns that did not match any packages. SilenceUnmatchedWarnings bool } // LoadPackages identifies the set of packages matching the given patterns and // loads the packages in the import graph rooted at that set. func LoadPackages(ctx context.Context, opts PackageOpts, patterns ...string) (matches []*search.Match, loadedPackages []string) { LoadModFile(ctx) if opts.Tags == nil { opts.Tags = imports.Tags() } patterns = search.CleanPatterns(patterns) matches = make([]*search.Match, 0, len(patterns)) allPatternIsRoot := false for _, pattern := range patterns { matches = append(matches, search.NewMatch(pattern)) if pattern == "all" { allPatternIsRoot = true } } updateMatches := func(ld *loader) { for _, m := range matches { switch { case m.IsLocal(): // Evaluate list of file system directories on first iteration. if m.Dirs == nil { matchLocalDirs(m) } // Make a copy of the directory list and translate to import paths. // Note that whether a directory corresponds to an import path // changes as the build list is updated, and a directory can change // from not being in the build list to being in it and back as // the exact version of a particular module increases during // the loader iterations. m.Pkgs = m.Pkgs[:0] for _, dir := range m.Dirs { pkg, err := resolveLocalPackage(dir) if err != nil { if !m.IsLiteral() && (err == errPkgIsBuiltin || err == errPkgIsGorootSrc) { continue // Don't include "builtin" or GOROOT/src in wildcard patterns. } // If we're outside of a module, ensure that the failure mode // indicates that. ModRoot() if ld != nil { m.AddError(err) } continue } m.Pkgs = append(m.Pkgs, pkg) } case m.IsLiteral(): m.Pkgs = []string{m.Pattern()} case strings.Contains(m.Pattern(), "..."): m.Errs = m.Errs[:0] matchPackages(ctx, m, opts.Tags, includeStd, buildList) case m.Pattern() == "all": if ld == nil { // The initial roots are the packages in the main module. // loadFromRoots will expand that to "all". m.Errs = m.Errs[:0] matchPackages(ctx, m, opts.Tags, omitStd, []module.Version{Target}) } else { // Starting with the packages in the main module, // enumerate the full list of "all". m.Pkgs = ld.computePatternAll() } case m.Pattern() == "std" || m.Pattern() == "cmd": if m.Pkgs == nil { m.MatchPackages() // Locate the packages within GOROOT/src. } default: panic(fmt.Sprintf("internal error: modload missing case for pattern %s", m.Pattern())) } } } loaded = loadFromRoots(loaderParams{ PackageOpts: opts, allClosesOverTests: index.allPatternClosesOverTests() && !opts.UseVendorAll, allPatternIsRoot: allPatternIsRoot, listRoots: func() (roots []string) { updateMatches(nil) for _, m := range matches { roots = append(roots, m.Pkgs...) } return roots }, }) // One last pass to finalize wildcards. updateMatches(loaded) // Report errors, if any. checkMultiplePaths() for _, pkg := range loaded.pkgs { if pkg.err != nil { if sumErr := (*ImportMissingSumError)(nil); errors.As(pkg.err, &sumErr) { if importer := pkg.stack; importer != nil { sumErr.importer = importer.path sumErr.importerVersion = importer.mod.Version sumErr.importerIsTest = importer.testOf != nil } } silence := opts.SilenceErrors if stdErr := (*ImportMissingError)(nil); errors.As(pkg.err, &stdErr) && stdErr.isStd && opts.SilenceMissingStdImports { silence = true } if !silence { if opts.AllowErrors { fmt.Fprintf(os.Stderr, "%s: %v\n", pkg.stackText(), pkg.err) } else { base.Errorf("%s: %v", pkg.stackText(), pkg.err) } } } if !pkg.isTest() { loadedPackages = append(loadedPackages, pkg.path) } } if !opts.SilenceErrors { // Also list errors in matching patterns (such as directory permission // errors for wildcard patterns). for _, match := range matches { for _, err := range match.Errs { if opts.AllowErrors { fmt.Fprintf(os.Stderr, "%v\n", err) } else { base.Errorf("%v", err) } } } } base.ExitIfErrors() if !opts.SilenceUnmatchedWarnings { search.WarnUnmatched(matches) } // Success! Update go.mod (if needed) and return the results. WriteGoMod() sort.Strings(loadedPackages) return matches, loadedPackages } // matchLocalDirs is like m.MatchDirs, but tries to avoid scanning directories // outside of the standard library and active modules. func matchLocalDirs(m *search.Match) { if !m.IsLocal() { panic(fmt.Sprintf("internal error: resolveLocalDirs on non-local pattern %s", m.Pattern())) } if i := strings.Index(m.Pattern(), "..."); i >= 0 { // The pattern is local, but it is a wildcard. Its packages will // only resolve to paths if they are inside of the standard // library, the main module, or some dependency of the main // module. Verify that before we walk the filesystem: a filesystem // walk in a directory like /var or /etc can be very expensive! dir := filepath.Dir(filepath.Clean(m.Pattern()[:i+3])) absDir := dir if !filepath.IsAbs(dir) { absDir = filepath.Join(base.Cwd, dir) } if search.InDir(absDir, cfg.GOROOTsrc) == "" && search.InDir(absDir, ModRoot()) == "" && pathInModuleCache(absDir) == "" { m.Dirs = []string{} m.AddError(fmt.Errorf("directory prefix %s outside available modules", base.ShortPath(absDir))) return } } m.MatchDirs() } // resolveLocalPackage resolves a filesystem path to a package path. func resolveLocalPackage(dir string) (string, error) { var absDir string if filepath.IsAbs(dir) { absDir = filepath.Clean(dir) } else { absDir = filepath.Join(base.Cwd, dir) } bp, err := cfg.BuildContext.ImportDir(absDir, 0) if err != nil && (bp == nil || len(bp.IgnoredGoFiles) == 0) { // golang.org/issue/32917: We should resolve a relative path to a // package path only if the relative path actually contains the code // for that package. // // If the named directory does not exist or contains no Go files, // the package does not exist. // Other errors may affect package loading, but not resolution. if _, err := fsys.Stat(absDir); err != nil { if os.IsNotExist(err) { // Canonicalize OS-specific errors to errDirectoryNotFound so that error // messages will be easier for users to search for. return "", &fs.PathError{Op: "stat", Path: absDir, Err: errDirectoryNotFound} } return "", err } if _, noGo := err.(*build.NoGoError); noGo { // A directory that does not contain any Go source files — even ignored // ones! — is not a Go package, and we can't resolve it to a package // path because that path could plausibly be provided by some other // module. // // Any other error indicates that the package “exists” (at least in the // sense that it cannot exist in any other module), but has some other // problem (such as a syntax error). return "", err } } if modRoot != "" && absDir == modRoot { if absDir == cfg.GOROOTsrc { return "", errPkgIsGorootSrc } return targetPrefix, nil } // Note: The checks for @ here are just to avoid misinterpreting // the module cache directories (formerly GOPATH/src/mod/foo@v1.5.2/bar). // It's not strictly necessary but helpful to keep the checks. if modRoot != "" && strings.HasPrefix(absDir, modRoot+string(filepath.Separator)) && !strings.Contains(absDir[len(modRoot):], "@") { suffix := filepath.ToSlash(absDir[len(modRoot):]) if strings.HasPrefix(suffix, "/vendor/") { if cfg.BuildMod != "vendor" { return "", fmt.Errorf("without -mod=vendor, directory %s has no package path", absDir) } readVendorList() pkg := strings.TrimPrefix(suffix, "/vendor/") if _, ok := vendorPkgModule[pkg]; !ok { return "", fmt.Errorf("directory %s is not a package listed in vendor/modules.txt", absDir) } return pkg, nil } if targetPrefix == "" { pkg := strings.TrimPrefix(suffix, "/") if pkg == "builtin" { // "builtin" is a pseudo-package with a real source file. // It's not included in "std", so it shouldn't resolve from "." // within module "std" either. return "", errPkgIsBuiltin } return pkg, nil } pkg := targetPrefix + suffix if _, ok, err := dirInModule(pkg, targetPrefix, modRoot, true); err != nil { return "", err } else if !ok { return "", &PackageNotInModuleError{Mod: Target, Pattern: pkg} } return pkg, nil } if sub := search.InDir(absDir, cfg.GOROOTsrc); sub != "" && sub != "." && !strings.Contains(sub, "@") { pkg := filepath.ToSlash(sub) if pkg == "builtin" { return "", errPkgIsBuiltin } return pkg, nil } pkg := pathInModuleCache(absDir) if pkg == "" { return "", fmt.Errorf("directory %s outside available modules", base.ShortPath(absDir)) } return pkg, nil } var ( errDirectoryNotFound = errors.New("directory not found") errPkgIsGorootSrc = errors.New("GOROOT/src is not an importable package") errPkgIsBuiltin = errors.New(`"builtin" is a pseudo-package, not an importable package`) ) // pathInModuleCache returns the import path of the directory dir, // if dir is in the module cache copy of a module in our build list. func pathInModuleCache(dir string) string { tryMod := func(m module.Version) (string, bool) { var root string var err error if repl := Replacement(m); repl.Path != "" && repl.Version == "" { root = repl.Path if !filepath.IsAbs(root) { root = filepath.Join(ModRoot(), root) } } else if repl.Path != "" { root, err = modfetch.DownloadDir(repl) } else { root, err = modfetch.DownloadDir(m) } if err != nil { return "", false } sub := search.InDir(dir, root) if sub == "" { return "", false } sub = filepath.ToSlash(sub) if strings.Contains(sub, "/vendor/") || strings.HasPrefix(sub, "vendor/") || strings.Contains(sub, "@") { return "", false } return path.Join(m.Path, filepath.ToSlash(sub)), true } for _, m := range buildList[1:] { if importPath, ok := tryMod(m); ok { // checkMultiplePaths ensures that a module can be used for at most one // requirement, so this must be it. return importPath } } return "" } // ImportFromFiles adds modules to the build list as needed // to satisfy the imports in the named Go source files. func ImportFromFiles(ctx context.Context, gofiles []string) { LoadModFile(ctx) tags := imports.Tags() imports, testImports, err := imports.ScanFiles(gofiles, tags) if err != nil { base.Fatalf("go: %v", err) } loaded = loadFromRoots(loaderParams{ PackageOpts: PackageOpts{ Tags: tags, ResolveMissingImports: true, }, allClosesOverTests: index.allPatternClosesOverTests(), listRoots: func() (roots []string) { roots = append(roots, imports...) roots = append(roots, testImports...) return roots }, }) WriteGoMod() } // DirImportPath returns the effective import path for dir, // provided it is within the main module, or else returns ".". func DirImportPath(dir string) string { if !HasModRoot() { return "." } LoadModFile(context.TODO()) if !filepath.IsAbs(dir) { dir = filepath.Join(base.Cwd, dir) } else { dir = filepath.Clean(dir) } if dir == modRoot { return targetPrefix } if strings.HasPrefix(dir, modRoot+string(filepath.Separator)) { suffix := filepath.ToSlash(dir[len(modRoot):]) if strings.HasPrefix(suffix, "/vendor/") { return strings.TrimPrefix(suffix, "/vendor/") } return targetPrefix + suffix } return "." } // TargetPackages returns the list of packages in the target (top-level) module // matching pattern, which may be relative to the working directory, under all // build tag settings. func TargetPackages(ctx context.Context, pattern string) *search.Match { // TargetPackages is relative to the main module, so ensure that the main // module is a thing that can contain packages. LoadModFile(ctx) ModRoot() m := search.NewMatch(pattern) matchPackages(ctx, m, imports.AnyTags(), omitStd, []module.Version{Target}) return m } // ImportMap returns the actual package import path // for an import path found in source code. // If the given import path does not appear in the source code // for the packages that have been loaded, ImportMap returns the empty string. func ImportMap(path string) string { pkg, ok := loaded.pkgCache.Get(path).(*loadPkg) if !ok { return "" } return pkg.path } // PackageDir returns the directory containing the source code // for the package named by the import path. func PackageDir(path string) string { pkg, ok := loaded.pkgCache.Get(path).(*loadPkg) if !ok { return "" } return pkg.dir } // PackageModule returns the module providing the package named by the import path. func PackageModule(path string) module.Version { pkg, ok := loaded.pkgCache.Get(path).(*loadPkg) if !ok { return module.Version{} } return pkg.mod } // PackageImports returns the imports for the package named by the import path. // Test imports will be returned as well if tests were loaded for the package // (i.e., if "all" was loaded or if LoadTests was set and the path was matched // by a command line argument). PackageImports will return nil for // unknown package paths. func PackageImports(path string) (imports, testImports []string) { pkg, ok := loaded.pkgCache.Get(path).(*loadPkg) if !ok { return nil, nil } imports = make([]string, len(pkg.imports)) for i, p := range pkg.imports { imports[i] = p.path } if pkg.test != nil { testImports = make([]string, len(pkg.test.imports)) for i, p := range pkg.test.imports { testImports[i] = p.path } } return imports, testImports } // Lookup returns the source directory, import path, and any loading error for // the package at path as imported from the package in parentDir. // Lookup requires that one of the Load functions in this package has already // been called. func Lookup(parentPath string, parentIsStd bool, path string) (dir, realPath string, err error) { if path == "" { panic("Lookup called with empty package path") } if parentIsStd { path = loaded.stdVendor(parentPath, path) } pkg, ok := loaded.pkgCache.Get(path).(*loadPkg) if !ok { // The loader should have found all the relevant paths. // There are a few exceptions, though: // - during go list without -test, the p.Resolve calls to process p.TestImports and p.XTestImports // end up here to canonicalize the import paths. // - during any load, non-loaded packages like "unsafe" end up here. // - during any load, build-injected dependencies like "runtime/cgo" end up here. // - because we ignore appengine/* in the module loader, // the dependencies of any actual appengine/* library end up here. dir := findStandardImportPath(path) if dir != "" { return dir, path, nil } return "", "", errMissing } return pkg.dir, pkg.path, pkg.err } // A loader manages the process of loading information about // the required packages for a particular build, // checking that the packages are available in the module set, // and updating the module set if needed. type loader struct { loaderParams work *par.Queue // reset on each iteration roots []*loadPkg pkgCache *par.Cache // package path (string) → *loadPkg pkgs []*loadPkg // transitive closure of loaded packages and tests; populated in buildStacks // computed at end of iterations direct map[string]bool // imported directly by main module } // loaderParams configure the packages loaded by, and the properties reported // by, a loader instance. type loaderParams struct { PackageOpts allClosesOverTests bool // Does the "all" pattern include the transitive closure of tests of packages in "all"? allPatternIsRoot bool // Is the "all" pattern an additional root? listRoots func() []string } func (ld *loader) reset() { select { case <-ld.work.Idle(): default: panic("loader.reset when not idle") } ld.roots = nil ld.pkgCache = new(par.Cache) ld.pkgs = nil } // A loadPkg records information about a single loaded package. type loadPkg struct { // Populated at construction time: path string // import path testOf *loadPkg // Populated at construction time and updated by (*loader).applyPkgFlags: flags atomicLoadPkgFlags // Populated by (*loader).load: mod module.Version // module providing package dir string // directory containing source code err error // error loading package imports []*loadPkg // packages imported by this one testImports []string // test-only imports, saved for use by pkg.test. inStd bool // Populated by (*loader).pkgTest: testOnce sync.Once test *loadPkg // Populated by postprocessing in (*loader).buildStacks: stack *loadPkg // package importing this one in minimal import stack for this pkg } // loadPkgFlags is a set of flags tracking metadata about a package. type loadPkgFlags int8 const ( // pkgInAll indicates that the package is in the "all" package pattern, // regardless of whether we are loading the "all" package pattern. // // When the pkgInAll flag and pkgImportsLoaded flags are both set, the caller // who set the last of those flags must propagate the pkgInAll marking to all // of the imports of the marked package. // // A test is marked with pkgInAll if that test would promote the packages it // imports to be in "all" (such as when the test is itself within the main // module, or when ld.allClosesOverTests is true). pkgInAll loadPkgFlags = 1 << iota // pkgIsRoot indicates that the package matches one of the root package // patterns requested by the caller. // // If LoadTests is set, then when pkgIsRoot and pkgImportsLoaded are both set, // the caller who set the last of those flags must populate a test for the // package (in the pkg.test field). // // If the "all" pattern is included as a root, then non-test packages in "all" // are also roots (and must be marked pkgIsRoot). pkgIsRoot // pkgImportsLoaded indicates that the imports and testImports fields of a // loadPkg have been populated. pkgImportsLoaded ) // has reports whether all of the flags in cond are set in f. func (f loadPkgFlags) has(cond loadPkgFlags) bool { return f&cond == cond } // An atomicLoadPkgFlags stores a loadPkgFlags for which individual flags can be // added atomically. type atomicLoadPkgFlags struct { bits int32 } // update sets the given flags in af (in addition to any flags already set). // // update returns the previous flag state so that the caller may determine which // flags were newly-set. func (af *atomicLoadPkgFlags) update(flags loadPkgFlags) (old loadPkgFlags) { for { old := atomic.LoadInt32(&af.bits) new := old | int32(flags) if new == old || atomic.CompareAndSwapInt32(&af.bits, old, new) { return loadPkgFlags(old) } } } // has reports whether all of the flags in cond are set in af. func (af *atomicLoadPkgFlags) has(cond loadPkgFlags) bool { return loadPkgFlags(atomic.LoadInt32(&af.bits))&cond == cond } // isTest reports whether pkg is a test of another package. func (pkg *loadPkg) isTest() bool { return pkg.testOf != nil } var errMissing = errors.New("cannot find package") // loadFromRoots attempts to load the build graph needed to process a set of // root packages and their dependencies. // // The set of root packages is returned by the params.listRoots function, and // expanded to the full set of packages by tracing imports (and possibly tests) // as needed. func loadFromRoots(params loaderParams) *loader { ld := &loader{ loaderParams: params, work: par.NewQueue(runtime.GOMAXPROCS(0)), } var err error reqs := &mvsReqs{buildList: buildList} buildList, err = mvs.BuildList(Target, reqs) if err != nil { base.Fatalf("go: %v", err) } addedModuleFor := make(map[string]bool) for { ld.reset() // Load the root packages and their imports. // Note: the returned roots can change on each iteration, // since the expansion of package patterns depends on the // build list we're using. inRoots := map[*loadPkg]bool{} for _, path := range ld.listRoots() { root := ld.pkg(path, pkgIsRoot) if !inRoots[root] { ld.roots = append(ld.roots, root) inRoots[root] = true } } // ld.pkg adds imported packages to the work queue and calls applyPkgFlags, // which adds tests (and test dependencies) as needed. // // When all of the work in the queue has completed, we'll know that the // transitive closure of dependencies has been loaded. <-ld.work.Idle() ld.buildStacks() if !ld.ResolveMissingImports || (!HasModRoot() && !allowMissingModuleImports) { // We've loaded as much as we can without resolving missing imports. break } modAddedBy := ld.resolveMissingImports(addedModuleFor) if len(modAddedBy) == 0 { break } // Recompute buildList with all our additions. reqs = &mvsReqs{buildList: buildList} buildList, err = mvs.BuildList(Target, reqs) if err != nil { // If an error was found in a newly added module, report the package // import stack instead of the module requirement stack. Packages // are more descriptive. if err, ok := err.(*mvs.BuildListError); ok { if pkg := modAddedBy[err.Module()]; pkg != nil { base.Fatalf("go: %s: %v", pkg.stackText(), err.Err) } } base.Fatalf("go: %v", err) } } base.ExitIfErrors() // Compute directly referenced dependency modules. ld.direct = make(map[string]bool) for _, pkg := range ld.pkgs { if pkg.mod == Target { for _, dep := range pkg.imports { if dep.mod.Path != "" && dep.mod.Path != Target.Path && index != nil { _, explicit := index.require[dep.mod] if allowWriteGoMod && cfg.BuildMod == "readonly" && !explicit { // TODO(#40775): attach error to package instead of using // base.Errorf. Ideally, 'go list' should not fail because of this, // but today, LoadPackages calls WriteGoMod unconditionally, which // would fail with a less clear message. base.Errorf("go: %[1]s: package %[2]s imported from implicitly required module; to add missing requirements, run:\n\tgo get %[2]s@%[3]s", pkg.path, dep.path, dep.mod.Version) } ld.direct[dep.mod.Path] = true } } } } base.ExitIfErrors() // If we didn't scan all of the imports from the main module, or didn't use // imports.AnyTags, then we didn't necessarily load every package that // contributes “direct” imports — so we can't safely mark existing // dependencies as indirect-only. // Conservatively mark those dependencies as direct. if modFile != nil && (!ld.allPatternIsRoot || !reflect.DeepEqual(ld.Tags, imports.AnyTags())) { for _, r := range modFile.Require { if !r.Indirect { ld.direct[r.Mod.Path] = true } } } return ld } // resolveMissingImports adds module dependencies to the global build list // in order to resolve missing packages from pkgs. // // The newly-resolved packages are added to the addedModuleFor map, and // resolveMissingImports returns a map from each newly-added module version to // the first package for which that module was added. func (ld *loader) resolveMissingImports(addedModuleFor map[string]bool) (modAddedBy map[module.Version]*loadPkg) { var needPkgs []*loadPkg for _, pkg := range ld.pkgs { if pkg.err == nil { continue } if pkg.isTest() { // If we are missing a test, we are also missing its non-test version, and // we should only add the missing import once. continue } if !errors.As(pkg.err, new(*ImportMissingError)) { // Leave other errors for Import or load.Packages to report. continue } needPkgs = append(needPkgs, pkg) pkg := pkg ld.work.Add(func() { pkg.mod, pkg.err = queryImport(context.TODO(), pkg.path) }) } <-ld.work.Idle() modAddedBy = map[module.Version]*loadPkg{} for _, pkg := range needPkgs { if pkg.err != nil { continue } fmt.Fprintf(os.Stderr, "go: found %s in %s %s\n", pkg.path, pkg.mod.Path, pkg.mod.Version) if addedModuleFor[pkg.path] { // TODO(bcmills): This should only be an error if pkg.mod is the same // version we already tried to add previously. base.Fatalf("go: %s: looping trying to add package", pkg.stackText()) } if modAddedBy[pkg.mod] == nil { modAddedBy[pkg.mod] = pkg buildList = append(buildList, pkg.mod) } } return modAddedBy } // pkg locates the *loadPkg for path, creating and queuing it for loading if // needed, and updates its state to reflect the given flags. // // The imports of the returned *loadPkg will be loaded asynchronously in the // ld.work queue, and its test (if requested) will also be populated once // imports have been resolved. When ld.work goes idle, all transitive imports of // the requested package (and its test, if requested) will have been loaded. func (ld *loader) pkg(path string, flags loadPkgFlags) *loadPkg { if flags.has(pkgImportsLoaded) { panic("internal error: (*loader).pkg called with pkgImportsLoaded flag set") } pkg := ld.pkgCache.Do(path, func() interface{} { pkg := &loadPkg{ path: path, } ld.applyPkgFlags(pkg, flags) ld.work.Add(func() { ld.load(pkg) }) return pkg }).(*loadPkg) ld.applyPkgFlags(pkg, flags) return pkg } // applyPkgFlags updates pkg.flags to set the given flags and propagate the // (transitive) effects of those flags, possibly loading or enqueueing further // packages as a result. func (ld *loader) applyPkgFlags(pkg *loadPkg, flags loadPkgFlags) { if flags == 0 { return } if flags.has(pkgInAll) && ld.allPatternIsRoot && !pkg.isTest() { // This package matches a root pattern by virtue of being in "all". flags |= pkgIsRoot } old := pkg.flags.update(flags) new := old | flags if new == old || !new.has(pkgImportsLoaded) { // We either didn't change the state of pkg, or we don't know anything about // its dependencies yet. Either way, we can't usefully load its test or // update its dependencies. return } if !pkg.isTest() { // Check whether we should add (or update the flags for) a test for pkg. // ld.pkgTest is idempotent and extra invocations are inexpensive, // so it's ok if we call it more than is strictly necessary. wantTest := false switch { case ld.allPatternIsRoot && pkg.mod == Target: // We are loading the "all" pattern, which includes packages imported by // tests in the main module. This package is in the main module, so we // need to identify the imports of its test even if LoadTests is not set. // // (We will filter out the extra tests explicitly in computePatternAll.) wantTest = true case ld.allPatternIsRoot && ld.allClosesOverTests && new.has(pkgInAll): // This variant of the "all" pattern includes imports of tests of every // package that is itself in "all", and pkg is in "all", so its test is // also in "all" (as above). wantTest = true case ld.LoadTests && new.has(pkgIsRoot): // LoadTest explicitly requests tests of “the root packages”. wantTest = true } if wantTest { var testFlags loadPkgFlags if pkg.mod == Target || (ld.allClosesOverTests && new.has(pkgInAll)) { // Tests of packages in the main module are in "all", in the sense that // they cause the packages they import to also be in "all". So are tests // of packages in "all" if "all" closes over test dependencies. testFlags |= pkgInAll } ld.pkgTest(pkg, testFlags) } } if new.has(pkgInAll) && !old.has(pkgInAll|pkgImportsLoaded) { // We have just marked pkg with pkgInAll, or we have just loaded its // imports, or both. Now is the time to propagate pkgInAll to the imports. for _, dep := range pkg.imports { ld.applyPkgFlags(dep, pkgInAll) } } } // load loads an individual package. func (ld *loader) load(pkg *loadPkg) { if strings.Contains(pkg.path, "@") { // Leave for error during load. return } if build.IsLocalImport(pkg.path) || filepath.IsAbs(pkg.path) { // Leave for error during load. // (Module mode does not allow local imports.) return } if search.IsMetaPackage(pkg.path) { pkg.err = &invalidImportError{ importPath: pkg.path, err: fmt.Errorf("%q is not an importable package; see 'go help packages'", pkg.path), } return } pkg.mod, pkg.dir, pkg.err = importFromBuildList(context.TODO(), pkg.path, buildList) if pkg.dir == "" { return } if pkg.mod == Target { // Go ahead and mark pkg as in "all". This provides the invariant that a // package that is *only* imported by other packages in "all" is always // marked as such before loading its imports. // // We don't actually rely on that invariant at the moment, but it may // improve efficiency somewhat and makes the behavior a bit easier to reason // about (by reducing churn on the flag bits of dependencies), and costs // essentially nothing (these atomic flag ops are essentially free compared // to scanning source code for imports). ld.applyPkgFlags(pkg, pkgInAll) } if ld.AllowPackage != nil { if err := ld.AllowPackage(context.TODO(), pkg.path, pkg.mod); err != nil { pkg.err = err } } pkg.inStd = (search.IsStandardImportPath(pkg.path) && search.InDir(pkg.dir, cfg.GOROOTsrc) != "") var imports, testImports []string if cfg.BuildContext.Compiler == "gccgo" && pkg.inStd { // We can't scan standard packages for gccgo. } else { var err error imports, testImports, err = scanDir(pkg.dir, ld.Tags) if err != nil { pkg.err = err return } } pkg.imports = make([]*loadPkg, 0, len(imports)) var importFlags loadPkgFlags if pkg.flags.has(pkgInAll) { importFlags = pkgInAll } for _, path := range imports { if pkg.inStd { // Imports from packages in "std" and "cmd" should resolve using // GOROOT/src/vendor even when "std" is not the main module. path = ld.stdVendor(pkg.path, path) } pkg.imports = append(pkg.imports, ld.pkg(path, importFlags)) } pkg.testImports = testImports ld.applyPkgFlags(pkg, pkgImportsLoaded) } // pkgTest locates the test of pkg, creating it if needed, and updates its state // to reflect the given flags. // // pkgTest requires that the imports of pkg have already been loaded (flagged // with pkgImportsLoaded). func (ld *loader) pkgTest(pkg *loadPkg, testFlags loadPkgFlags) *loadPkg { if pkg.isTest() { panic("pkgTest called on a test package") } createdTest := false pkg.testOnce.Do(func() { pkg.test = &loadPkg{ path: pkg.path, testOf: pkg, mod: pkg.mod, dir: pkg.dir, err: pkg.err, inStd: pkg.inStd, } ld.applyPkgFlags(pkg.test, testFlags) createdTest = true }) test := pkg.test if createdTest { test.imports = make([]*loadPkg, 0, len(pkg.testImports)) var importFlags loadPkgFlags if test.flags.has(pkgInAll) { importFlags = pkgInAll } for _, path := range pkg.testImports { if pkg.inStd { path = ld.stdVendor(test.path, path) } test.imports = append(test.imports, ld.pkg(path, importFlags)) } pkg.testImports = nil ld.applyPkgFlags(test, pkgImportsLoaded) } else { ld.applyPkgFlags(test, testFlags) } return test } // stdVendor returns the canonical import path for the package with the given // path when imported from the standard-library package at parentPath. func (ld *loader) stdVendor(parentPath, path string) string { if search.IsStandardImportPath(path) { return path } if str.HasPathPrefix(parentPath, "cmd") { if Target.Path != "cmd" { vendorPath := pathpkg.Join("cmd", "vendor", path) if _, err := os.Stat(filepath.Join(cfg.GOROOTsrc, filepath.FromSlash(vendorPath))); err == nil { return vendorPath } } } else if Target.Path != "std" || str.HasPathPrefix(parentPath, "vendor") { // If we are outside of the 'std' module, resolve imports from within 'std' // to the vendor directory. // // Do the same for importers beginning with the prefix 'vendor/' even if we // are *inside* of the 'std' module: the 'vendor/' packages that resolve // globally from GOROOT/src/vendor (and are listed as part of 'go list std') // are distinct from the real module dependencies, and cannot import // internal packages from the real module. // // (Note that although the 'vendor/' packages match the 'std' *package* // pattern, they are not part of the std *module*, and do not affect // 'go mod tidy' and similar module commands when working within std.) vendorPath := pathpkg.Join("vendor", path) if _, err := os.Stat(filepath.Join(cfg.GOROOTsrc, filepath.FromSlash(vendorPath))); err == nil { return vendorPath } } // Not vendored: resolve from modules. return path } // computePatternAll returns the list of packages matching pattern "all", // starting with a list of the import paths for the packages in the main module. func (ld *loader) computePatternAll() (all []string) { for _, pkg := range ld.pkgs { if pkg.flags.has(pkgInAll) && !pkg.isTest() { all = append(all, pkg.path) } } sort.Strings(all) return all } // scanDir is like imports.ScanDir but elides known magic imports from the list, // so that we do not go looking for packages that don't really exist. // // The standard magic import is "C", for cgo. // // The only other known magic imports are appengine and appengine/*. // These are so old that they predate "go get" and did not use URL-like paths. // Most code today now uses google.golang.org/appengine instead, // but not all code has been so updated. When we mostly ignore build tags // during "go vendor", we look into "// +build appengine" files and // may see these legacy imports. We drop them so that the module // search does not look for modules to try to satisfy them. func scanDir(dir string, tags map[string]bool) (imports_, testImports []string, err error) { imports_, testImports, err = imports.ScanDir(dir, tags) filter := func(x []string) []string { w := 0 for _, pkg := range x { if pkg != "C" && pkg != "appengine" && !strings.HasPrefix(pkg, "appengine/") && pkg != "appengine_internal" && !strings.HasPrefix(pkg, "appengine_internal/") { x[w] = pkg w++ } } return x[:w] } return filter(imports_), filter(testImports), err } // buildStacks computes minimal import stacks for each package, // for use in error messages. When it completes, packages that // are part of the original root set have pkg.stack == nil, // and other packages have pkg.stack pointing at the next // package up the import stack in their minimal chain. // As a side effect, buildStacks also constructs ld.pkgs, // the list of all packages loaded. func (ld *loader) buildStacks() { if len(ld.pkgs) > 0 { panic("buildStacks") } for _, pkg := range ld.roots { pkg.stack = pkg // sentinel to avoid processing in next loop ld.pkgs = append(ld.pkgs, pkg) } for i := 0; i < len(ld.pkgs); i++ { // not range: appending to ld.pkgs in loop pkg := ld.pkgs[i] for _, next := range pkg.imports { if next.stack == nil { next.stack = pkg ld.pkgs = append(ld.pkgs, next) } } if next := pkg.test; next != nil && next.stack == nil { next.stack = pkg ld.pkgs = append(ld.pkgs, next) } } for _, pkg := range ld.roots { pkg.stack = nil } } // stackText builds the import stack text to use when // reporting an error in pkg. It has the general form // // root imports // other imports // other2 tested by // other2.test imports // pkg // func (pkg *loadPkg) stackText() string { var stack []*loadPkg for p := pkg; p != nil; p = p.stack { stack = append(stack, p) } var buf bytes.Buffer for i := len(stack) - 1; i >= 0; i-- { p := stack[i] fmt.Fprint(&buf, p.path) if p.testOf != nil { fmt.Fprint(&buf, ".test") } if i > 0 { if stack[i-1].testOf == p { fmt.Fprint(&buf, " tested by\n\t") } else { fmt.Fprint(&buf, " imports\n\t") } } } return buf.String() } // why returns the text to use in "go mod why" output about the given package. // It is less ornate than the stackText but contains the same information. func (pkg *loadPkg) why() string { var buf strings.Builder var stack []*loadPkg for p := pkg; p != nil; p = p.stack { stack = append(stack, p) } for i := len(stack) - 1; i >= 0; i-- { p := stack[i] if p.testOf != nil { fmt.Fprintf(&buf, "%s.test\n", p.testOf.path) } else { fmt.Fprintf(&buf, "%s\n", p.path) } } return buf.String() } // Why returns the "go mod why" output stanza for the given package, // without the leading # comment. // The package graph must have been loaded already, usually by LoadPackages. // If there is no reason for the package to be in the current build, // Why returns an empty string. func Why(path string) string { pkg, ok := loaded.pkgCache.Get(path).(*loadPkg) if !ok { return "" } return pkg.why() } // WhyDepth returns the number of steps in the Why listing. // If there is no reason for the package to be in the current build, // WhyDepth returns 0. func WhyDepth(path string) int { n := 0 pkg, _ := loaded.pkgCache.Get(path).(*loadPkg) for p := pkg; p != nil; p = p.stack { n++ } return n }