package imports import ( "bytes" "context" "encoding/json" "fmt" "io/ioutil" "os" "path" "path/filepath" "regexp" "sort" "strconv" "strings" "golang.org/x/mod/module" "golang.org/x/mod/semver" "golang.org/x/tools/internal/gopathwalk" ) // ModuleResolver implements resolver for modules using the go command as little // as feasible. type ModuleResolver struct { env *ProcessEnv moduleCacheDir string dummyVendorMod *ModuleJSON // If vendoring is enabled, the pseudo-module that represents the /vendor directory. roots []gopathwalk.Root scanSema chan struct{} // scanSema prevents concurrent scans and guards scannedRoots. scannedRoots map[gopathwalk.Root]bool initialized bool main *ModuleJSON modsByModPath []*ModuleJSON // All modules, ordered by # of path components in module Path... modsByDir []*ModuleJSON // ...or Dir. // moduleCacheCache stores information about the module cache. moduleCacheCache *dirInfoCache otherCache *dirInfoCache } type ModuleJSON struct { Path string // module path Replace *ModuleJSON // replaced by this module Main bool // is this the main module? Indirect bool // is this module only an indirect dependency of main module? Dir string // directory holding files for this module, if any GoMod string // path to go.mod file for this module, if any GoVersion string // go version used in module } func newModuleResolver(e *ProcessEnv) *ModuleResolver { r := &ModuleResolver{ env: e, scanSema: make(chan struct{}, 1), } r.scanSema <- struct{}{} return r } func (r *ModuleResolver) init() error { if r.initialized { return nil } mainMod, vendorEnabled, err := vendorEnabled(r.env) if err != nil { return err } if mainMod != nil && vendorEnabled { // Vendor mode is on, so all the non-Main modules are irrelevant, // and we need to search /vendor for everything. r.main = mainMod r.dummyVendorMod = &ModuleJSON{ Path: "", Dir: filepath.Join(mainMod.Dir, "vendor"), } r.modsByModPath = []*ModuleJSON{mainMod, r.dummyVendorMod} r.modsByDir = []*ModuleJSON{mainMod, r.dummyVendorMod} } else { // Vendor mode is off, so run go list -m ... to find everything. r.initAllMods() } r.moduleCacheDir = filepath.Join(filepath.SplitList(r.env.GOPATH)[0], "/pkg/mod") sort.Slice(r.modsByModPath, func(i, j int) bool { count := func(x int) int { return strings.Count(r.modsByModPath[x].Path, "/") } return count(j) < count(i) // descending order }) sort.Slice(r.modsByDir, func(i, j int) bool { count := func(x int) int { return strings.Count(r.modsByDir[x].Dir, "/") } return count(j) < count(i) // descending order }) r.roots = []gopathwalk.Root{ {filepath.Join(r.env.GOROOT, "/src"), gopathwalk.RootGOROOT}, } if r.main != nil { r.roots = append(r.roots, gopathwalk.Root{r.main.Dir, gopathwalk.RootCurrentModule}) } if vendorEnabled { r.roots = append(r.roots, gopathwalk.Root{r.dummyVendorMod.Dir, gopathwalk.RootOther}) } else { addDep := func(mod *ModuleJSON) { if mod.Replace == nil { // This is redundant with the cache, but we'll skip it cheaply enough. r.roots = append(r.roots, gopathwalk.Root{mod.Dir, gopathwalk.RootModuleCache}) } else { r.roots = append(r.roots, gopathwalk.Root{mod.Dir, gopathwalk.RootOther}) } } // Walk dependent modules before scanning the full mod cache, direct deps first. for _, mod := range r.modsByModPath { if !mod.Indirect && !mod.Main { addDep(mod) } } for _, mod := range r.modsByModPath { if mod.Indirect && !mod.Main { addDep(mod) } } r.roots = append(r.roots, gopathwalk.Root{r.moduleCacheDir, gopathwalk.RootModuleCache}) } r.scannedRoots = map[gopathwalk.Root]bool{} if r.moduleCacheCache == nil { r.moduleCacheCache = &dirInfoCache{ dirs: map[string]*directoryPackageInfo{}, listeners: map[*int]cacheListener{}, } } if r.otherCache == nil { r.otherCache = &dirInfoCache{ dirs: map[string]*directoryPackageInfo{}, listeners: map[*int]cacheListener{}, } } r.initialized = true return nil } func (r *ModuleResolver) initAllMods() error { stdout, err := r.env.invokeGo(context.TODO(), "list", "-m", "-json", "...") if err != nil { return err } for dec := json.NewDecoder(stdout); dec.More(); { mod := &ModuleJSON{} if err := dec.Decode(mod); err != nil { return err } if mod.Dir == "" { if r.env.Logf != nil { r.env.Logf("module %v has not been downloaded and will be ignored", mod.Path) } // Can't do anything with a module that's not downloaded. continue } // golang/go#36193: the go command doesn't always clean paths. mod.Dir = filepath.Clean(mod.Dir) r.modsByModPath = append(r.modsByModPath, mod) r.modsByDir = append(r.modsByDir, mod) if mod.Main { r.main = mod } } return nil } func (r *ModuleResolver) ClearForNewScan() { <-r.scanSema r.scannedRoots = map[gopathwalk.Root]bool{} r.otherCache = &dirInfoCache{ dirs: map[string]*directoryPackageInfo{}, listeners: map[*int]cacheListener{}, } r.scanSema <- struct{}{} } func (r *ModuleResolver) ClearForNewMod() { <-r.scanSema *r = ModuleResolver{ env: r.env, moduleCacheCache: r.moduleCacheCache, otherCache: r.otherCache, scanSema: r.scanSema, } r.init() r.scanSema <- struct{}{} } // findPackage returns the module and directory that contains the package at // the given import path, or returns nil, "" if no module is in scope. func (r *ModuleResolver) findPackage(importPath string) (*ModuleJSON, string) { // This can't find packages in the stdlib, but that's harmless for all // the existing code paths. for _, m := range r.modsByModPath { if !strings.HasPrefix(importPath, m.Path) { continue } pathInModule := importPath[len(m.Path):] pkgDir := filepath.Join(m.Dir, pathInModule) if r.dirIsNestedModule(pkgDir, m) { continue } if info, ok := r.cacheLoad(pkgDir); ok { if loaded, err := info.reachedStatus(nameLoaded); loaded { if err != nil { continue // No package in this dir. } return m, pkgDir } if scanned, err := info.reachedStatus(directoryScanned); scanned && err != nil { continue // Dir is unreadable, etc. } // This is slightly wrong: a directory doesn't have to have an // importable package to count as a package for package-to-module // resolution. package main or _test files should count but // don't. // TODO(heschi): fix this. if _, err := r.cachePackageName(info); err == nil { return m, pkgDir } } // Not cached. Read the filesystem. pkgFiles, err := ioutil.ReadDir(pkgDir) if err != nil { continue } // A module only contains a package if it has buildable go // files in that directory. If not, it could be provided by an // outer module. See #29736. for _, fi := range pkgFiles { if ok, _ := r.env.buildContext().MatchFile(pkgDir, fi.Name()); ok { return m, pkgDir } } } return nil, "" } func (r *ModuleResolver) cacheLoad(dir string) (directoryPackageInfo, bool) { if info, ok := r.moduleCacheCache.Load(dir); ok { return info, ok } return r.otherCache.Load(dir) } func (r *ModuleResolver) cacheStore(info directoryPackageInfo) { if info.rootType == gopathwalk.RootModuleCache { r.moduleCacheCache.Store(info.dir, info) } else { r.otherCache.Store(info.dir, info) } } func (r *ModuleResolver) cacheKeys() []string { return append(r.moduleCacheCache.Keys(), r.otherCache.Keys()...) } // cachePackageName caches the package name for a dir already in the cache. func (r *ModuleResolver) cachePackageName(info directoryPackageInfo) (string, error) { if info.rootType == gopathwalk.RootModuleCache { return r.moduleCacheCache.CachePackageName(info) } return r.otherCache.CachePackageName(info) } func (r *ModuleResolver) cacheExports(ctx context.Context, env *ProcessEnv, info directoryPackageInfo) (string, []string, error) { if info.rootType == gopathwalk.RootModuleCache { return r.moduleCacheCache.CacheExports(ctx, env, info) } return r.otherCache.CacheExports(ctx, env, info) } // findModuleByDir returns the module that contains dir, or nil if no such // module is in scope. func (r *ModuleResolver) findModuleByDir(dir string) *ModuleJSON { // This is quite tricky and may not be correct. dir could be: // - a package in the main module. // - a replace target underneath the main module's directory. // - a nested module in the above. // - a replace target somewhere totally random. // - a nested module in the above. // - in the mod cache. // - in /vendor/ in -mod=vendor mode. // - nested module? Dunno. // Rumor has it that replace targets cannot contain other replace targets. for _, m := range r.modsByDir { if !strings.HasPrefix(dir, m.Dir) { continue } if r.dirIsNestedModule(dir, m) { continue } return m } return nil } // dirIsNestedModule reports if dir is contained in a nested module underneath // mod, not actually in mod. func (r *ModuleResolver) dirIsNestedModule(dir string, mod *ModuleJSON) bool { if !strings.HasPrefix(dir, mod.Dir) { return false } if r.dirInModuleCache(dir) { // Nested modules in the module cache are pruned, // so it cannot be a nested module. return false } if mod != nil && mod == r.dummyVendorMod { // The /vendor pseudomodule is flattened and doesn't actually count. return false } modDir, _ := r.modInfo(dir) if modDir == "" { return false } return modDir != mod.Dir } func (r *ModuleResolver) modInfo(dir string) (modDir string, modName string) { readModName := func(modFile string) string { modBytes, err := ioutil.ReadFile(modFile) if err != nil { return "" } return modulePath(modBytes) } if r.dirInModuleCache(dir) { matches := modCacheRegexp.FindStringSubmatch(dir) index := strings.Index(dir, matches[1]+"@"+matches[2]) modDir := filepath.Join(dir[:index], matches[1]+"@"+matches[2]) return modDir, readModName(filepath.Join(modDir, "go.mod")) } for { if info, ok := r.cacheLoad(dir); ok { return info.moduleDir, info.moduleName } f := filepath.Join(dir, "go.mod") info, err := os.Stat(f) if err == nil && !info.IsDir() { return dir, readModName(f) } d := filepath.Dir(dir) if len(d) >= len(dir) { return "", "" // reached top of file system, no go.mod } dir = d } } func (r *ModuleResolver) dirInModuleCache(dir string) bool { if r.moduleCacheDir == "" { return false } return strings.HasPrefix(dir, r.moduleCacheDir) } func (r *ModuleResolver) loadPackageNames(importPaths []string, srcDir string) (map[string]string, error) { if err := r.init(); err != nil { return nil, err } names := map[string]string{} for _, path := range importPaths { _, packageDir := r.findPackage(path) if packageDir == "" { continue } name, err := packageDirToName(packageDir) if err != nil { continue } names[path] = name } return names, nil } func (r *ModuleResolver) scan(ctx context.Context, callback *scanCallback) error { if err := r.init(); err != nil { return err } processDir := func(info directoryPackageInfo) { // Skip this directory if we were not able to get the package information successfully. if scanned, err := info.reachedStatus(directoryScanned); !scanned || err != nil { return } pkg, err := r.canonicalize(info) if err != nil { return } if !callback.dirFound(pkg) { return } pkg.packageName, err = r.cachePackageName(info) if err != nil { return } if !callback.packageNameLoaded(pkg) { return } _, exports, err := r.loadExports(ctx, pkg, false) if err != nil { return } callback.exportsLoaded(pkg, exports) } // Start processing everything in the cache, and listen for the new stuff // we discover in the walk below. stop1 := r.moduleCacheCache.ScanAndListen(ctx, processDir) defer stop1() stop2 := r.otherCache.ScanAndListen(ctx, processDir) defer stop2() // We assume cached directories are fully cached, including all their // children, and have not changed. We can skip them. skip := func(root gopathwalk.Root, dir string) bool { info, ok := r.cacheLoad(dir) if !ok { return false } // This directory can be skipped as long as we have already scanned it. // Packages with errors will continue to have errors, so there is no need // to rescan them. packageScanned, _ := info.reachedStatus(directoryScanned) return packageScanned } // Add anything new to the cache, and process it if we're still listening. add := func(root gopathwalk.Root, dir string) { r.cacheStore(r.scanDirForPackage(root, dir)) } // r.roots and the callback are not necessarily safe to use in the // goroutine below. Process them eagerly. roots := filterRoots(r.roots, callback.rootFound) // We can't cancel walks, because we need them to finish to have a usable // cache. Instead, run them in a separate goroutine and detach. scanDone := make(chan struct{}) go func() { select { case <-ctx.Done(): return case <-r.scanSema: } defer func() { r.scanSema <- struct{}{} }() // We have the lock on r.scannedRoots, and no other scans can run. for _, root := range roots { if ctx.Err() != nil { return } if r.scannedRoots[root] { continue } gopathwalk.WalkSkip([]gopathwalk.Root{root}, add, skip, gopathwalk.Options{Logf: r.env.Logf, ModulesEnabled: true}) r.scannedRoots[root] = true } close(scanDone) }() select { case <-ctx.Done(): case <-scanDone: } return nil } func (r *ModuleResolver) scoreImportPath(ctx context.Context, path string) int { if _, ok := stdlib[path]; ok { return MaxRelevance } mod, _ := r.findPackage(path) return modRelevance(mod) } func modRelevance(mod *ModuleJSON) int { switch { case mod == nil: // out of scope return MaxRelevance - 4 case mod.Indirect: return MaxRelevance - 3 case !mod.Main: return MaxRelevance - 2 default: return MaxRelevance - 1 // main module ties with stdlib } } // canonicalize gets the result of canonicalizing the packages using the results // of initializing the resolver from 'go list -m'. func (r *ModuleResolver) canonicalize(info directoryPackageInfo) (*pkg, error) { // Packages in GOROOT are already canonical, regardless of the std/cmd modules. if info.rootType == gopathwalk.RootGOROOT { return &pkg{ importPathShort: info.nonCanonicalImportPath, dir: info.dir, packageName: path.Base(info.nonCanonicalImportPath), relevance: MaxRelevance, }, nil } importPath := info.nonCanonicalImportPath mod := r.findModuleByDir(info.dir) // Check if the directory is underneath a module that's in scope. if mod != nil { // It is. If dir is the target of a replace directive, // our guessed import path is wrong. Use the real one. if mod.Dir == info.dir { importPath = mod.Path } else { dirInMod := info.dir[len(mod.Dir)+len("/"):] importPath = path.Join(mod.Path, filepath.ToSlash(dirInMod)) } } else if !strings.HasPrefix(importPath, info.moduleName) { // The module's name doesn't match the package's import path. It // probably needs a replace directive we don't have. return nil, fmt.Errorf("package in %q is not valid without a replace statement", info.dir) } res := &pkg{ importPathShort: importPath, dir: info.dir, relevance: modRelevance(mod), } // We may have discovered a package that has a different version // in scope already. Canonicalize to that one if possible. if _, canonicalDir := r.findPackage(importPath); canonicalDir != "" { res.dir = canonicalDir } return res, nil } func (r *ModuleResolver) loadExports(ctx context.Context, pkg *pkg, includeTest bool) (string, []string, error) { if err := r.init(); err != nil { return "", nil, err } if info, ok := r.cacheLoad(pkg.dir); ok && !includeTest { return r.cacheExports(ctx, r.env, info) } return loadExportsFromFiles(ctx, r.env, pkg.dir, includeTest) } func (r *ModuleResolver) scanDirForPackage(root gopathwalk.Root, dir string) directoryPackageInfo { subdir := "" if dir != root.Path { subdir = dir[len(root.Path)+len("/"):] } importPath := filepath.ToSlash(subdir) if strings.HasPrefix(importPath, "vendor/") { // Only enter vendor directories if they're explicitly requested as a root. return directoryPackageInfo{ status: directoryScanned, err: fmt.Errorf("unwanted vendor directory"), } } switch root.Type { case gopathwalk.RootCurrentModule: importPath = path.Join(r.main.Path, filepath.ToSlash(subdir)) case gopathwalk.RootModuleCache: matches := modCacheRegexp.FindStringSubmatch(subdir) if len(matches) == 0 { return directoryPackageInfo{ status: directoryScanned, err: fmt.Errorf("invalid module cache path: %v", subdir), } } modPath, err := module.UnescapePath(filepath.ToSlash(matches[1])) if err != nil { if r.env.Logf != nil { r.env.Logf("decoding module cache path %q: %v", subdir, err) } return directoryPackageInfo{ status: directoryScanned, err: fmt.Errorf("decoding module cache path %q: %v", subdir, err), } } importPath = path.Join(modPath, filepath.ToSlash(matches[3])) } modDir, modName := r.modInfo(dir) result := directoryPackageInfo{ status: directoryScanned, dir: dir, rootType: root.Type, nonCanonicalImportPath: importPath, moduleDir: modDir, moduleName: modName, } if root.Type == gopathwalk.RootGOROOT { // stdlib packages are always in scope, despite the confusing go.mod return result } return result } // modCacheRegexp splits a path in a module cache into module, module version, and package. var modCacheRegexp = regexp.MustCompile(`(.*)@([^/\\]*)(.*)`) var ( slashSlash = []byte("//") moduleStr = []byte("module") ) // modulePath returns the module path from the gomod file text. // If it cannot find a module path, it returns an empty string. // It is tolerant of unrelated problems in the go.mod file. // // Copied from cmd/go/internal/modfile. func modulePath(mod []byte) string { for len(mod) > 0 { line := mod mod = nil if i := bytes.IndexByte(line, '\n'); i >= 0 { line, mod = line[:i], line[i+1:] } if i := bytes.Index(line, slashSlash); i >= 0 { line = line[:i] } line = bytes.TrimSpace(line) if !bytes.HasPrefix(line, moduleStr) { continue } line = line[len(moduleStr):] n := len(line) line = bytes.TrimSpace(line) if len(line) == n || len(line) == 0 { continue } if line[0] == '"' || line[0] == '`' { p, err := strconv.Unquote(string(line)) if err != nil { return "" // malformed quoted string or multiline module path } return p } return string(line) } return "" // missing module path } var modFlagRegexp = regexp.MustCompile(`-mod[ =](\w+)`) // vendorEnabled indicates if vendoring is enabled. // Inspired by setDefaultBuildMod in modload/init.go func vendorEnabled(env *ProcessEnv) (*ModuleJSON, bool, error) { mainMod, go114, err := getMainModuleAnd114(env) if err != nil { return nil, false, err } matches := modFlagRegexp.FindStringSubmatch(env.GOFLAGS) var modFlag string if len(matches) != 0 { modFlag = matches[1] } if modFlag != "" { // Don't override an explicit '-mod=' argument. return mainMod, modFlag == "vendor", nil } if mainMod == nil || !go114 { return mainMod, false, nil } // Check 1.14's automatic vendor mode. if fi, err := os.Stat(filepath.Join(mainMod.Dir, "vendor")); err == nil && fi.IsDir() { if mainMod.GoVersion != "" && semver.Compare("v"+mainMod.GoVersion, "v1.14") >= 0 { // The Go version is at least 1.14, and a vendor directory exists. // Set -mod=vendor by default. return mainMod, true, nil } } return mainMod, false, nil } // getMainModuleAnd114 gets the main module's information and whether the // go command in use is 1.14+. This is the information needed to figure out // if vendoring should be enabled. func getMainModuleAnd114(env *ProcessEnv) (*ModuleJSON, bool, error) { const format = `{{.Path}} {{.Dir}} {{.GoMod}} {{.GoVersion}} {{range context.ReleaseTags}}{{if eq . "go1.14"}}{{.}}{{end}}{{end}} ` stdout, err := env.invokeGo(context.TODO(), "list", "-m", "-f", format) if err != nil { return nil, false, nil } lines := strings.Split(stdout.String(), "\n") if len(lines) < 5 { return nil, false, fmt.Errorf("unexpected stdout: %q", stdout) } mod := &ModuleJSON{ Path: lines[0], Dir: lines[1], GoMod: lines[2], GoVersion: lines[3], Main: true, } return mod, lines[4] == "go1.14", nil }