// 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 packages // See doc.go for package documentation and implementation notes. import ( "context" "encoding/json" "fmt" "go/ast" "go/parser" "go/scanner" "go/token" "go/types" "io/ioutil" "log" "os" "path/filepath" "strings" "sync" "time" "golang.org/x/tools/go/gcexportdata" "golang.org/x/tools/internal/gocommand" "golang.org/x/tools/internal/packagesinternal" "golang.org/x/tools/internal/typesinternal" ) // A LoadMode controls the amount of detail to return when loading. // The bits below can be combined to specify which fields should be // filled in the result packages. // The zero value is a special case, equivalent to combining // the NeedName, NeedFiles, and NeedCompiledGoFiles bits. // ID and Errors (if present) will always be filled. // Load may return more information than requested. type LoadMode int // TODO(matloob): When a V2 of go/packages is released, rename NeedExportsFile to // NeedExportFile to make it consistent with the Package field it's adding. const ( // NeedName adds Name and PkgPath. NeedName LoadMode = 1 << iota // NeedFiles adds GoFiles and OtherFiles. NeedFiles // NeedCompiledGoFiles adds CompiledGoFiles. NeedCompiledGoFiles // NeedImports adds Imports. If NeedDeps is not set, the Imports field will contain // "placeholder" Packages with only the ID set. NeedImports // NeedDeps adds the fields requested by the LoadMode in the packages in Imports. NeedDeps // NeedExportsFile adds ExportFile. NeedExportsFile // NeedTypes adds Types, Fset, and IllTyped. NeedTypes // NeedSyntax adds Syntax. NeedSyntax // NeedTypesInfo adds TypesInfo. NeedTypesInfo // NeedTypesSizes adds TypesSizes. NeedTypesSizes // typecheckCgo enables full support for type checking cgo. Requires Go 1.15+. // Modifies CompiledGoFiles and Types, and has no effect on its own. typecheckCgo // NeedModule adds Module. NeedModule ) const ( // Deprecated: LoadFiles exists for historical compatibility // and should not be used. Please directly specify the needed fields using the Need values. LoadFiles = NeedName | NeedFiles | NeedCompiledGoFiles // Deprecated: LoadImports exists for historical compatibility // and should not be used. Please directly specify the needed fields using the Need values. LoadImports = LoadFiles | NeedImports // Deprecated: LoadTypes exists for historical compatibility // and should not be used. Please directly specify the needed fields using the Need values. LoadTypes = LoadImports | NeedTypes | NeedTypesSizes // Deprecated: LoadSyntax exists for historical compatibility // and should not be used. Please directly specify the needed fields using the Need values. LoadSyntax = LoadTypes | NeedSyntax | NeedTypesInfo // Deprecated: LoadAllSyntax exists for historical compatibility // and should not be used. Please directly specify the needed fields using the Need values. LoadAllSyntax = LoadSyntax | NeedDeps ) // A Config specifies details about how packages should be loaded. // The zero value is a valid configuration. // Calls to Load do not modify this struct. type Config struct { // Mode controls the level of information returned for each package. Mode LoadMode // Context specifies the context for the load operation. // If the context is cancelled, the loader may stop early // and return an ErrCancelled error. // If Context is nil, the load cannot be cancelled. Context context.Context // Logf is the logger for the config. // If the user provides a logger, debug logging is enabled. // If the GOPACKAGESDEBUG environment variable is set to true, // but the logger is nil, default to log.Printf. Logf func(format string, args ...interface{}) // Dir is the directory in which to run the build system's query tool // that provides information about the packages. // If Dir is empty, the tool is run in the current directory. Dir string // Env is the environment to use when invoking the build system's query tool. // If Env is nil, the current environment is used. // As in os/exec's Cmd, only the last value in the slice for // each environment key is used. To specify the setting of only // a few variables, append to the current environment, as in: // // opt.Env = append(os.Environ(), "GOOS=plan9", "GOARCH=386") // Env []string // gocmdRunner guards go command calls from concurrency errors. gocmdRunner *gocommand.Runner // BuildFlags is a list of command-line flags to be passed through to // the build system's query tool. BuildFlags []string // Fset provides source position information for syntax trees and types. // If Fset is nil, Load will use a new fileset, but preserve Fset's value. Fset *token.FileSet // ParseFile is called to read and parse each file // when preparing a package's type-checked syntax tree. // It must be safe to call ParseFile simultaneously from multiple goroutines. // If ParseFile is nil, the loader will uses parser.ParseFile. // // ParseFile should parse the source from src and use filename only for // recording position information. // // An application may supply a custom implementation of ParseFile // to change the effective file contents or the behavior of the parser, // or to modify the syntax tree. For example, selectively eliminating // unwanted function bodies can significantly accelerate type checking. ParseFile func(fset *token.FileSet, filename string, src []byte) (*ast.File, error) // If Tests is set, the loader includes not just the packages // matching a particular pattern but also any related test packages, // including test-only variants of the package and the test executable. // // For example, when using the go command, loading "fmt" with Tests=true // returns four packages, with IDs "fmt" (the standard package), // "fmt [fmt.test]" (the package as compiled for the test), // "fmt_test" (the test functions from source files in package fmt_test), // and "fmt.test" (the test binary). // // In build systems with explicit names for tests, // setting Tests may have no effect. Tests bool // Overlay provides a mapping of absolute file paths to file contents. // If the file with the given path already exists, the parser will use the // alternative file contents provided by the map. // // Overlays provide incomplete support for when a given file doesn't // already exist on disk. See the package doc above for more details. Overlay map[string][]byte } // driver is the type for functions that query the build system for the // packages named by the patterns. type driver func(cfg *Config, patterns ...string) (*driverResponse, error) // driverResponse contains the results for a driver query. type driverResponse struct { // NotHandled is returned if the request can't be handled by the current // driver. If an external driver returns a response with NotHandled, the // rest of the driverResponse is ignored, and go/packages will fallback // to the next driver. If go/packages is extended in the future to support // lists of multiple drivers, go/packages will fall back to the next driver. NotHandled bool // Sizes, if not nil, is the types.Sizes to use when type checking. Sizes *types.StdSizes // Roots is the set of package IDs that make up the root packages. // We have to encode this separately because when we encode a single package // we cannot know if it is one of the roots as that requires knowledge of the // graph it is part of. Roots []string `json:",omitempty"` // Packages is the full set of packages in the graph. // The packages are not connected into a graph. // The Imports if populated will be stubs that only have their ID set. // Imports will be connected and then type and syntax information added in a // later pass (see refine). Packages []*Package } // Load loads and returns the Go packages named by the given patterns. // // Config specifies loading options; // nil behaves the same as an empty Config. // // Load returns an error if any of the patterns was invalid // as defined by the underlying build system. // It may return an empty list of packages without an error, // for instance for an empty expansion of a valid wildcard. // Errors associated with a particular package are recorded in the // corresponding Package's Errors list, and do not cause Load to // return an error. Clients may need to handle such errors before // proceeding with further analysis. The PrintErrors function is // provided for convenient display of all errors. func Load(cfg *Config, patterns ...string) ([]*Package, error) { l := newLoader(cfg) response, err := defaultDriver(&l.Config, patterns...) if err != nil { return nil, err } l.sizes = response.Sizes return l.refine(response.Roots, response.Packages...) } // defaultDriver is a driver that implements go/packages' fallback behavior. // It will try to request to an external driver, if one exists. If there's // no external driver, or the driver returns a response with NotHandled set, // defaultDriver will fall back to the go list driver. func defaultDriver(cfg *Config, patterns ...string) (*driverResponse, error) { driver := findExternalDriver(cfg) if driver == nil { driver = goListDriver } response, err := driver(cfg, patterns...) if err != nil { return response, err } else if response.NotHandled { return goListDriver(cfg, patterns...) } return response, nil } // A Package describes a loaded Go package. type Package struct { // ID is a unique identifier for a package, // in a syntax provided by the underlying build system. // // Because the syntax varies based on the build system, // clients should treat IDs as opaque and not attempt to // interpret them. ID string // Name is the package name as it appears in the package source code. Name string // PkgPath is the package path as used by the go/types package. PkgPath string // Errors contains any errors encountered querying the metadata // of the package, or while parsing or type-checking its files. Errors []Error // GoFiles lists the absolute file paths of the package's Go source files. GoFiles []string // CompiledGoFiles lists the absolute file paths of the package's source // files that are suitable for type checking. // This may differ from GoFiles if files are processed before compilation. CompiledGoFiles []string // OtherFiles lists the absolute file paths of the package's non-Go source files, // including assembly, C, C++, Fortran, Objective-C, SWIG, and so on. OtherFiles []string // ExportFile is the absolute path to a file containing type // information for the package as provided by the build system. ExportFile string // Imports maps import paths appearing in the package's Go source files // to corresponding loaded Packages. Imports map[string]*Package // Types provides type information for the package. // The NeedTypes LoadMode bit sets this field for packages matching the // patterns; type information for dependencies may be missing or incomplete, // unless NeedDeps and NeedImports are also set. Types *types.Package // Fset provides position information for Types, TypesInfo, and Syntax. // It is set only when Types is set. Fset *token.FileSet // IllTyped indicates whether the package or any dependency contains errors. // It is set only when Types is set. IllTyped bool // Syntax is the package's syntax trees, for the files listed in CompiledGoFiles. // // The NeedSyntax LoadMode bit populates this field for packages matching the patterns. // If NeedDeps and NeedImports are also set, this field will also be populated // for dependencies. Syntax []*ast.File // TypesInfo provides type information about the package's syntax trees. // It is set only when Syntax is set. TypesInfo *types.Info // TypesSizes provides the effective size function for types in TypesInfo. TypesSizes types.Sizes // forTest is the package under test, if any. forTest string // module is the module information for the package if it exists. Module *Module } // Module provides module information for a package. type Module struct { Path string // module path Version string // module version Replace *Module // replaced by this module Time *time.Time // time version was created 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 used when loading this module, if any GoVersion string // go version used in module Error *ModuleError // error loading module } // ModuleError holds errors loading a module. type ModuleError struct { Err string // the error itself } func init() { packagesinternal.GetForTest = func(p interface{}) string { return p.(*Package).forTest } packagesinternal.GetGoCmdRunner = func(config interface{}) *gocommand.Runner { return config.(*Config).gocmdRunner } packagesinternal.SetGoCmdRunner = func(config interface{}, runner *gocommand.Runner) { config.(*Config).gocmdRunner = runner } packagesinternal.TypecheckCgo = int(typecheckCgo) } // An Error describes a problem with a package's metadata, syntax, or types. type Error struct { Pos string // "file:line:col" or "file:line" or "" or "-" Msg string Kind ErrorKind } // ErrorKind describes the source of the error, allowing the user to // differentiate between errors generated by the driver, the parser, or the // type-checker. type ErrorKind int const ( UnknownError ErrorKind = iota ListError ParseError TypeError ) func (err Error) Error() string { pos := err.Pos if pos == "" { pos = "-" // like token.Position{}.String() } return pos + ": " + err.Msg } // flatPackage is the JSON form of Package // It drops all the type and syntax fields, and transforms the Imports // // TODO(adonovan): identify this struct with Package, effectively // publishing the JSON protocol. type flatPackage struct { ID string Name string `json:",omitempty"` PkgPath string `json:",omitempty"` Errors []Error `json:",omitempty"` GoFiles []string `json:",omitempty"` CompiledGoFiles []string `json:",omitempty"` OtherFiles []string `json:",omitempty"` ExportFile string `json:",omitempty"` Imports map[string]string `json:",omitempty"` } // MarshalJSON returns the Package in its JSON form. // For the most part, the structure fields are written out unmodified, and // the type and syntax fields are skipped. // The imports are written out as just a map of path to package id. // The errors are written using a custom type that tries to preserve the // structure of error types we know about. // // This method exists to enable support for additional build systems. It is // not intended for use by clients of the API and we may change the format. func (p *Package) MarshalJSON() ([]byte, error) { flat := &flatPackage{ ID: p.ID, Name: p.Name, PkgPath: p.PkgPath, Errors: p.Errors, GoFiles: p.GoFiles, CompiledGoFiles: p.CompiledGoFiles, OtherFiles: p.OtherFiles, ExportFile: p.ExportFile, } if len(p.Imports) > 0 { flat.Imports = make(map[string]string, len(p.Imports)) for path, ipkg := range p.Imports { flat.Imports[path] = ipkg.ID } } return json.Marshal(flat) } // UnmarshalJSON reads in a Package from its JSON format. // See MarshalJSON for details about the format accepted. func (p *Package) UnmarshalJSON(b []byte) error { flat := &flatPackage{} if err := json.Unmarshal(b, &flat); err != nil { return err } *p = Package{ ID: flat.ID, Name: flat.Name, PkgPath: flat.PkgPath, Errors: flat.Errors, GoFiles: flat.GoFiles, CompiledGoFiles: flat.CompiledGoFiles, OtherFiles: flat.OtherFiles, ExportFile: flat.ExportFile, } if len(flat.Imports) > 0 { p.Imports = make(map[string]*Package, len(flat.Imports)) for path, id := range flat.Imports { p.Imports[path] = &Package{ID: id} } } return nil } func (p *Package) String() string { return p.ID } // loaderPackage augments Package with state used during the loading phase type loaderPackage struct { *Package importErrors map[string]error // maps each bad import to its error loadOnce sync.Once color uint8 // for cycle detection needsrc bool // load from source (Mode >= LoadTypes) needtypes bool // type information is either requested or depended on initial bool // package was matched by a pattern } // loader holds the working state of a single call to load. type loader struct { pkgs map[string]*loaderPackage Config sizes types.Sizes parseCache map[string]*parseValue parseCacheMu sync.Mutex exportMu sync.Mutex // enforces mutual exclusion of exportdata operations // Config.Mode contains the implied mode (see impliedLoadMode). // Implied mode contains all the fields we need the data for. // In requestedMode there are the actually requested fields. // We'll zero them out before returning packages to the user. // This makes it easier for us to get the conditions where // we need certain modes right. requestedMode LoadMode } type parseValue struct { f *ast.File err error ready chan struct{} } func newLoader(cfg *Config) *loader { ld := &loader{ parseCache: map[string]*parseValue{}, } if cfg != nil { ld.Config = *cfg // If the user has provided a logger, use it. ld.Config.Logf = cfg.Logf } if ld.Config.Logf == nil { // If the GOPACKAGESDEBUG environment variable is set to true, // but the user has not provided a logger, default to log.Printf. if debug { ld.Config.Logf = log.Printf } else { ld.Config.Logf = func(format string, args ...interface{}) {} } } if ld.Config.Mode == 0 { ld.Config.Mode = NeedName | NeedFiles | NeedCompiledGoFiles // Preserve zero behavior of Mode for backwards compatibility. } if ld.Config.Env == nil { ld.Config.Env = os.Environ() } if ld.Config.gocmdRunner == nil { ld.Config.gocmdRunner = &gocommand.Runner{} } if ld.Context == nil { ld.Context = context.Background() } if ld.Dir == "" { if dir, err := os.Getwd(); err == nil { ld.Dir = dir } } // Save the actually requested fields. We'll zero them out before returning packages to the user. ld.requestedMode = ld.Mode ld.Mode = impliedLoadMode(ld.Mode) if ld.Mode&NeedTypes != 0 || ld.Mode&NeedSyntax != 0 { if ld.Fset == nil { ld.Fset = token.NewFileSet() } // ParseFile is required even in LoadTypes mode // because we load source if export data is missing. if ld.ParseFile == nil { ld.ParseFile = func(fset *token.FileSet, filename string, src []byte) (*ast.File, error) { const mode = parser.AllErrors | parser.ParseComments return parser.ParseFile(fset, filename, src, mode) } } } return ld } // refine connects the supplied packages into a graph and then adds type and // and syntax information as requested by the LoadMode. func (ld *loader) refine(roots []string, list ...*Package) ([]*Package, error) { rootMap := make(map[string]int, len(roots)) for i, root := range roots { rootMap[root] = i } ld.pkgs = make(map[string]*loaderPackage) // first pass, fixup and build the map and roots var initial = make([]*loaderPackage, len(roots)) for _, pkg := range list { rootIndex := -1 if i, found := rootMap[pkg.ID]; found { rootIndex = i } // Overlays can invalidate export data. // TODO(matloob): make this check fine-grained based on dependencies on overlaid files exportDataInvalid := len(ld.Overlay) > 0 || pkg.ExportFile == "" && pkg.PkgPath != "unsafe" // This package needs type information if the caller requested types and the package is // either a root, or it's a non-root and the user requested dependencies ... needtypes := (ld.Mode&NeedTypes|NeedTypesInfo != 0 && (rootIndex >= 0 || ld.Mode&NeedDeps != 0)) // This package needs source if the call requested source (or types info, which implies source) // and the package is either a root, or itas a non- root and the user requested dependencies... needsrc := ((ld.Mode&(NeedSyntax|NeedTypesInfo) != 0 && (rootIndex >= 0 || ld.Mode&NeedDeps != 0)) || // ... or if we need types and the exportData is invalid. We fall back to (incompletely) // typechecking packages from source if they fail to compile. (ld.Mode&NeedTypes|NeedTypesInfo != 0 && exportDataInvalid)) && pkg.PkgPath != "unsafe" lpkg := &loaderPackage{ Package: pkg, needtypes: needtypes, needsrc: needsrc, } ld.pkgs[lpkg.ID] = lpkg if rootIndex >= 0 { initial[rootIndex] = lpkg lpkg.initial = true } } for i, root := range roots { if initial[i] == nil { return nil, fmt.Errorf("root package %v is missing", root) } } // Materialize the import graph. const ( white = 0 // new grey = 1 // in progress black = 2 // complete ) // visit traverses the import graph, depth-first, // and materializes the graph as Packages.Imports. // // Valid imports are saved in the Packages.Import map. // Invalid imports (cycles and missing nodes) are saved in the importErrors map. // Thus, even in the presence of both kinds of errors, the Import graph remains a DAG. // // visit returns whether the package needs src or has a transitive // dependency on a package that does. These are the only packages // for which we load source code. var stack []*loaderPackage var visit func(lpkg *loaderPackage) bool var srcPkgs []*loaderPackage visit = func(lpkg *loaderPackage) bool { switch lpkg.color { case black: return lpkg.needsrc case grey: panic("internal error: grey node") } lpkg.color = grey stack = append(stack, lpkg) // push stubs := lpkg.Imports // the structure form has only stubs with the ID in the Imports // If NeedImports isn't set, the imports fields will all be zeroed out. if ld.Mode&NeedImports != 0 { lpkg.Imports = make(map[string]*Package, len(stubs)) for importPath, ipkg := range stubs { var importErr error imp := ld.pkgs[ipkg.ID] if imp == nil { // (includes package "C" when DisableCgo) importErr = fmt.Errorf("missing package: %q", ipkg.ID) } else if imp.color == grey { importErr = fmt.Errorf("import cycle: %s", stack) } if importErr != nil { if lpkg.importErrors == nil { lpkg.importErrors = make(map[string]error) } lpkg.importErrors[importPath] = importErr continue } if visit(imp) { lpkg.needsrc = true } lpkg.Imports[importPath] = imp.Package } } if lpkg.needsrc { srcPkgs = append(srcPkgs, lpkg) } if ld.Mode&NeedTypesSizes != 0 { lpkg.TypesSizes = ld.sizes } stack = stack[:len(stack)-1] // pop lpkg.color = black return lpkg.needsrc } if ld.Mode&NeedImports == 0 { // We do this to drop the stub import packages that we are not even going to try to resolve. for _, lpkg := range initial { lpkg.Imports = nil } } else { // For each initial package, create its import DAG. for _, lpkg := range initial { visit(lpkg) } } if ld.Mode&NeedImports != 0 && ld.Mode&NeedTypes != 0 { for _, lpkg := range srcPkgs { // Complete type information is required for the // immediate dependencies of each source package. for _, ipkg := range lpkg.Imports { imp := ld.pkgs[ipkg.ID] imp.needtypes = true } } } // Load type data and syntax if needed, starting at // the initial packages (roots of the import DAG). if ld.Mode&NeedTypes != 0 || ld.Mode&NeedSyntax != 0 { var wg sync.WaitGroup for _, lpkg := range initial { wg.Add(1) go func(lpkg *loaderPackage) { ld.loadRecursive(lpkg) wg.Done() }(lpkg) } wg.Wait() } result := make([]*Package, len(initial)) for i, lpkg := range initial { result[i] = lpkg.Package } for i := range ld.pkgs { // Clear all unrequested fields, for extra de-Hyrum-ization. if ld.requestedMode&NeedName == 0 { ld.pkgs[i].Name = "" ld.pkgs[i].PkgPath = "" } if ld.requestedMode&NeedFiles == 0 { ld.pkgs[i].GoFiles = nil ld.pkgs[i].OtherFiles = nil } if ld.requestedMode&NeedCompiledGoFiles == 0 { ld.pkgs[i].CompiledGoFiles = nil } if ld.requestedMode&NeedImports == 0 { ld.pkgs[i].Imports = nil } if ld.requestedMode&NeedExportsFile == 0 { ld.pkgs[i].ExportFile = "" } if ld.requestedMode&NeedTypes == 0 { ld.pkgs[i].Types = nil ld.pkgs[i].Fset = nil ld.pkgs[i].IllTyped = false } if ld.requestedMode&NeedSyntax == 0 { ld.pkgs[i].Syntax = nil } if ld.requestedMode&NeedTypesInfo == 0 { ld.pkgs[i].TypesInfo = nil } if ld.requestedMode&NeedTypesSizes == 0 { ld.pkgs[i].TypesSizes = nil } if ld.requestedMode&NeedModule == 0 { ld.pkgs[i].Module = nil } } return result, nil } // loadRecursive loads the specified package and its dependencies, // recursively, in parallel, in topological order. // It is atomic and idempotent. // Precondition: ld.Mode&NeedTypes. func (ld *loader) loadRecursive(lpkg *loaderPackage) { lpkg.loadOnce.Do(func() { // Load the direct dependencies, in parallel. var wg sync.WaitGroup for _, ipkg := range lpkg.Imports { imp := ld.pkgs[ipkg.ID] wg.Add(1) go func(imp *loaderPackage) { ld.loadRecursive(imp) wg.Done() }(imp) } wg.Wait() ld.loadPackage(lpkg) }) } // loadPackage loads the specified package. // It must be called only once per Package, // after immediate dependencies are loaded. // Precondition: ld.Mode & NeedTypes. func (ld *loader) loadPackage(lpkg *loaderPackage) { if lpkg.PkgPath == "unsafe" { // Fill in the blanks to avoid surprises. lpkg.Types = types.Unsafe lpkg.Fset = ld.Fset lpkg.Syntax = []*ast.File{} lpkg.TypesInfo = new(types.Info) lpkg.TypesSizes = ld.sizes return } // Call NewPackage directly with explicit name. // This avoids skew between golist and go/types when the files' // package declarations are inconsistent. lpkg.Types = types.NewPackage(lpkg.PkgPath, lpkg.Name) lpkg.Fset = ld.Fset // Subtle: we populate all Types fields with an empty Package // before loading export data so that export data processing // never has to create a types.Package for an indirect dependency, // which would then require that such created packages be explicitly // inserted back into the Import graph as a final step after export data loading. // The Diamond test exercises this case. if !lpkg.needtypes && !lpkg.needsrc { return } if !lpkg.needsrc { ld.loadFromExportData(lpkg) return // not a source package, don't get syntax trees } appendError := func(err error) { // Convert various error types into the one true Error. var errs []Error switch err := err.(type) { case Error: // from driver errs = append(errs, err) case *os.PathError: // from parser errs = append(errs, Error{ Pos: err.Path + ":1", Msg: err.Err.Error(), Kind: ParseError, }) case scanner.ErrorList: // from parser for _, err := range err { errs = append(errs, Error{ Pos: err.Pos.String(), Msg: err.Msg, Kind: ParseError, }) } case types.Error: // from type checker errs = append(errs, Error{ Pos: err.Fset.Position(err.Pos).String(), Msg: err.Msg, Kind: TypeError, }) default: // unexpected impoverished error from parser? errs = append(errs, Error{ Pos: "-", Msg: err.Error(), Kind: UnknownError, }) // If you see this error message, please file a bug. log.Printf("internal error: error %q (%T) without position", err, err) } lpkg.Errors = append(lpkg.Errors, errs...) } if ld.Config.Mode&NeedTypes != 0 && len(lpkg.CompiledGoFiles) == 0 && lpkg.ExportFile != "" { // The config requested loading sources and types, but sources are missing. // Add an error to the package and fall back to loading from export data. appendError(Error{"-", fmt.Sprintf("sources missing for package %s", lpkg.ID), ParseError}) ld.loadFromExportData(lpkg) return // can't get syntax trees for this package } files, errs := ld.parseFiles(lpkg.CompiledGoFiles) for _, err := range errs { appendError(err) } lpkg.Syntax = files if ld.Config.Mode&NeedTypes == 0 { return } lpkg.TypesInfo = &types.Info{ Types: make(map[ast.Expr]types.TypeAndValue), Defs: make(map[*ast.Ident]types.Object), Uses: make(map[*ast.Ident]types.Object), Implicits: make(map[ast.Node]types.Object), Scopes: make(map[ast.Node]*types.Scope), Selections: make(map[*ast.SelectorExpr]*types.Selection), } lpkg.TypesSizes = ld.sizes importer := importerFunc(func(path string) (*types.Package, error) { if path == "unsafe" { return types.Unsafe, nil } // The imports map is keyed by import path. ipkg := lpkg.Imports[path] if ipkg == nil { if err := lpkg.importErrors[path]; err != nil { return nil, err } // There was skew between the metadata and the // import declarations, likely due to an edit // race, or because the ParseFile feature was // used to supply alternative file contents. return nil, fmt.Errorf("no metadata for %s", path) } if ipkg.Types != nil && ipkg.Types.Complete() { return ipkg.Types, nil } log.Fatalf("internal error: package %q without types was imported from %q", path, lpkg) panic("unreachable") }) // type-check tc := &types.Config{ Importer: importer, // Type-check bodies of functions only in non-initial packages. // Example: for import graph A->B->C and initial packages {A,C}, // we can ignore function bodies in B. IgnoreFuncBodies: ld.Mode&NeedDeps == 0 && !lpkg.initial, Error: appendError, Sizes: ld.sizes, } if (ld.Mode & typecheckCgo) != 0 { if !typesinternal.SetUsesCgo(tc) { appendError(Error{ Msg: "typecheckCgo requires Go 1.15+", Kind: ListError, }) return } } types.NewChecker(tc, ld.Fset, lpkg.Types, lpkg.TypesInfo).Files(lpkg.Syntax) lpkg.importErrors = nil // no longer needed // If !Cgo, the type-checker uses FakeImportC mode, so // it doesn't invoke the importer for import "C", // nor report an error for the import, // or for any undefined C.f reference. // We must detect this explicitly and correctly // mark the package as IllTyped (by reporting an error). // TODO(adonovan): if these errors are annoying, // we could just set IllTyped quietly. if tc.FakeImportC { outer: for _, f := range lpkg.Syntax { for _, imp := range f.Imports { if imp.Path.Value == `"C"` { err := types.Error{Fset: ld.Fset, Pos: imp.Pos(), Msg: `import "C" ignored`} appendError(err) break outer } } } } // Record accumulated errors. illTyped := len(lpkg.Errors) > 0 if !illTyped { for _, imp := range lpkg.Imports { if imp.IllTyped { illTyped = true break } } } lpkg.IllTyped = illTyped } // An importFunc is an implementation of the single-method // types.Importer interface based on a function value. type importerFunc func(path string) (*types.Package, error) func (f importerFunc) Import(path string) (*types.Package, error) { return f(path) } // We use a counting semaphore to limit // the number of parallel I/O calls per process. var ioLimit = make(chan bool, 20) func (ld *loader) parseFile(filename string) (*ast.File, error) { ld.parseCacheMu.Lock() v, ok := ld.parseCache[filename] if ok { // cache hit ld.parseCacheMu.Unlock() <-v.ready } else { // cache miss v = &parseValue{ready: make(chan struct{})} ld.parseCache[filename] = v ld.parseCacheMu.Unlock() var src []byte for f, contents := range ld.Config.Overlay { if sameFile(f, filename) { src = contents } } var err error if src == nil { ioLimit <- true // wait src, err = ioutil.ReadFile(filename) <-ioLimit // signal } if err != nil { v.err = err } else { v.f, v.err = ld.ParseFile(ld.Fset, filename, src) } close(v.ready) } return v.f, v.err } // parseFiles reads and parses the Go source files and returns the ASTs // of the ones that could be at least partially parsed, along with a // list of I/O and parse errors encountered. // // Because files are scanned in parallel, the token.Pos // positions of the resulting ast.Files are not ordered. // func (ld *loader) parseFiles(filenames []string) ([]*ast.File, []error) { var wg sync.WaitGroup n := len(filenames) parsed := make([]*ast.File, n) errors := make([]error, n) for i, file := range filenames { if ld.Config.Context.Err() != nil { parsed[i] = nil errors[i] = ld.Config.Context.Err() continue } wg.Add(1) go func(i int, filename string) { parsed[i], errors[i] = ld.parseFile(filename) wg.Done() }(i, file) } wg.Wait() // Eliminate nils, preserving order. var o int for _, f := range parsed { if f != nil { parsed[o] = f o++ } } parsed = parsed[:o] o = 0 for _, err := range errors { if err != nil { errors[o] = err o++ } } errors = errors[:o] return parsed, errors } // sameFile returns true if x and y have the same basename and denote // the same file. // func sameFile(x, y string) bool { if x == y { // It could be the case that y doesn't exist. // For instance, it may be an overlay file that // hasn't been written to disk. To handle that case // let x == y through. (We added the exact absolute path // string to the CompiledGoFiles list, so the unwritten // overlay case implies x==y.) return true } if strings.EqualFold(filepath.Base(x), filepath.Base(y)) { // (optimisation) if xi, err := os.Stat(x); err == nil { if yi, err := os.Stat(y); err == nil { return os.SameFile(xi, yi) } } } return false } // loadFromExportData returns type information for the specified // package, loading it from an export data file on the first request. func (ld *loader) loadFromExportData(lpkg *loaderPackage) (*types.Package, error) { if lpkg.PkgPath == "" { log.Fatalf("internal error: Package %s has no PkgPath", lpkg) } // Because gcexportdata.Read has the potential to create or // modify the types.Package for each node in the transitive // closure of dependencies of lpkg, all exportdata operations // must be sequential. (Finer-grained locking would require // changes to the gcexportdata API.) // // The exportMu lock guards the Package.Pkg field and the // types.Package it points to, for each Package in the graph. // // Not all accesses to Package.Pkg need to be protected by exportMu: // graph ordering ensures that direct dependencies of source // packages are fully loaded before the importer reads their Pkg field. ld.exportMu.Lock() defer ld.exportMu.Unlock() if tpkg := lpkg.Types; tpkg != nil && tpkg.Complete() { return tpkg, nil // cache hit } lpkg.IllTyped = true // fail safe if lpkg.ExportFile == "" { // Errors while building export data will have been printed to stderr. return nil, fmt.Errorf("no export data file") } f, err := os.Open(lpkg.ExportFile) if err != nil { return nil, err } defer f.Close() // Read gc export data. // // We don't currently support gccgo export data because all // underlying workspaces use the gc toolchain. (Even build // systems that support gccgo don't use it for workspace // queries.) r, err := gcexportdata.NewReader(f) if err != nil { return nil, fmt.Errorf("reading %s: %v", lpkg.ExportFile, err) } // Build the view. // // The gcexportdata machinery has no concept of package ID. // It identifies packages by their PkgPath, which although not // globally unique is unique within the scope of one invocation // of the linker, type-checker, or gcexportdata. // // So, we must build a PkgPath-keyed view of the global // (conceptually ID-keyed) cache of packages and pass it to // gcexportdata. The view must contain every existing // package that might possibly be mentioned by the // current package---its transitive closure. // // In loadPackage, we unconditionally create a types.Package for // each dependency so that export data loading does not // create new ones. // // TODO(adonovan): it would be simpler and more efficient // if the export data machinery invoked a callback to // get-or-create a package instead of a map. // view := make(map[string]*types.Package) // view seen by gcexportdata seen := make(map[*loaderPackage]bool) // all visited packages var visit func(pkgs map[string]*Package) visit = func(pkgs map[string]*Package) { for _, p := range pkgs { lpkg := ld.pkgs[p.ID] if !seen[lpkg] { seen[lpkg] = true view[lpkg.PkgPath] = lpkg.Types visit(lpkg.Imports) } } } visit(lpkg.Imports) viewLen := len(view) + 1 // adding the self package // Parse the export data. // (May modify incomplete packages in view but not create new ones.) tpkg, err := gcexportdata.Read(r, ld.Fset, view, lpkg.PkgPath) if err != nil { return nil, fmt.Errorf("reading %s: %v", lpkg.ExportFile, err) } if viewLen != len(view) { log.Fatalf("Unexpected package creation during export data loading") } lpkg.Types = tpkg lpkg.IllTyped = false return tpkg, nil } // impliedLoadMode returns loadMode with its dependencies. func impliedLoadMode(loadMode LoadMode) LoadMode { if loadMode&NeedTypesInfo != 0 && loadMode&NeedImports == 0 { // If NeedTypesInfo, go/packages needs to do typechecking itself so it can // associate type info with the AST. To do so, we need the export data // for dependencies, which means we need to ask for the direct dependencies. // NeedImports is used to ask for the direct dependencies. loadMode |= NeedImports } if loadMode&NeedDeps != 0 && loadMode&NeedImports == 0 { // With NeedDeps we need to load at least direct dependencies. // NeedImports is used to ask for the direct dependencies. loadMode |= NeedImports } return loadMode } func usesExportData(cfg *Config) bool { return cfg.Mode&NeedExportsFile != 0 || cfg.Mode&NeedTypes != 0 && cfg.Mode&NeedDeps == 0 }