// Copyright 2019 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. // This file is largely based on go/analysis/internal/checker/checker.go. package source import ( "context" "fmt" "go/token" "go/types" "log" "reflect" "sort" "strings" "sync" "time" "golang.org/x/sync/errgroup" "golang.org/x/tools/go/analysis" ) func analyze(ctx context.Context, v View, pkgs []Package, analyzers []*analysis.Analyzer) ([]*Action, error) { if ctx.Err() != nil { return nil, ctx.Err() } // Build nodes for initial packages. var roots []*Action for _, a := range analyzers { for _, pkg := range pkgs { root, err := pkg.GetActionGraph(ctx, a) if err != nil { return nil, err } root.isroot = true root.view = v roots = append(roots, root) } } // Execute the graph in parallel. if err := execAll(ctx, v.Session().Cache().FileSet(), roots); err != nil { return nil, err } return roots, nil } // An action represents one unit of analysis work: the application of // one analysis to one package. Actions form a DAG, both within a // package (as different analyzers are applied, either in sequence or // parallel), and across packages (as dependencies are analyzed). type Action struct { once sync.Once Analyzer *analysis.Analyzer Pkg Package Deps []*Action pass *analysis.Pass isroot bool objectFacts map[objectFactKey]analysis.Fact packageFacts map[packageFactKey]analysis.Fact inputs map[*analysis.Analyzer]interface{} result interface{} diagnostics []analysis.Diagnostic err error duration time.Duration view View } type objectFactKey struct { obj types.Object typ reflect.Type } type packageFactKey struct { pkg *types.Package typ reflect.Type } func (act *Action) String() string { return fmt.Sprintf("%s@%s", act.Analyzer, act.Pkg) } func execAll(ctx context.Context, fset *token.FileSet, actions []*Action) error { g, ctx := errgroup.WithContext(ctx) for _, act := range actions { act := act g.Go(func() error { return act.exec(ctx, fset) }) } return g.Wait() } func (act *Action) exec(ctx context.Context, fset *token.FileSet) error { var err error act.once.Do(func() { err = act.execOnce(ctx, fset) }) return err } func (act *Action) execOnce(ctx context.Context, fset *token.FileSet) error { // Analyze dependencies. if err := execAll(ctx, fset, act.Deps); err != nil { return err } // Report an error if any dependency failed. var failed []string for _, dep := range act.Deps { if dep.err != nil { failed = append(failed, dep.String()) } } if failed != nil { sort.Strings(failed) act.err = fmt.Errorf("failed prerequisites: %s", strings.Join(failed, ", ")) return act.err } // Plumb the output values of the dependencies // into the inputs of this action. Also facts. inputs := make(map[*analysis.Analyzer]interface{}) act.objectFacts = make(map[objectFactKey]analysis.Fact) act.packageFacts = make(map[packageFactKey]analysis.Fact) for _, dep := range act.Deps { if dep.Pkg == act.Pkg { // Same package, different analysis (horizontal edge): // in-memory outputs of prerequisite analyzers // become inputs to this analysis pass. inputs[dep.Analyzer] = dep.result } else if dep.Analyzer == act.Analyzer { // (always true) // Same analysis, different package (vertical edge): // serialized facts produced by prerequisite analysis // become available to this analysis pass. inheritFacts(act, dep) } } // Run the analysis. pass := &analysis.Pass{ Analyzer: act.Analyzer, Fset: fset, Files: act.Pkg.GetSyntax(), Pkg: act.Pkg.GetTypes(), TypesInfo: act.Pkg.GetTypesInfo(), TypesSizes: act.Pkg.GetTypesSizes(), ResultOf: inputs, Report: func(d analysis.Diagnostic) { act.diagnostics = append(act.diagnostics, d) }, ImportObjectFact: act.importObjectFact, ExportObjectFact: act.exportObjectFact, ImportPackageFact: act.importPackageFact, ExportPackageFact: act.exportPackageFact, } act.pass = pass if len(act.Pkg.GetErrors()) > 0 && !pass.Analyzer.RunDespiteErrors { act.err = fmt.Errorf("analysis skipped due to errors in package") } else { act.result, act.err = pass.Analyzer.Run(pass) if act.err == nil { if got, want := reflect.TypeOf(act.result), pass.Analyzer.ResultType; got != want { act.err = fmt.Errorf( "internal error: on package %s, analyzer %s returned a result of type %v, but declared ResultType %v", pass.Pkg.Path(), pass.Analyzer, got, want) } } } // disallow calls after Run pass.ExportObjectFact = nil pass.ExportPackageFact = nil return act.err } // inheritFacts populates act.facts with // those it obtains from its dependency, dep. func inheritFacts(act, dep *Action) { for key, fact := range dep.objectFacts { // Filter out facts related to objects // that are irrelevant downstream // (equivalently: not in the compiler export data). if !exportedFrom(key.obj, dep.Pkg.GetTypes()) { continue } act.objectFacts[key] = fact } for key, fact := range dep.packageFacts { // TODO: filter out facts that belong to // packages not mentioned in the export data // to prevent side channels. act.packageFacts[key] = fact } } // exportedFrom reports whether obj may be visible to a package that imports pkg. // This includes not just the exported members of pkg, but also unexported // constants, types, fields, and methods, perhaps belonging to oether packages, // that find there way into the API. // This is an overapproximation of the more accurate approach used by // gc export data, which walks the type graph, but it's much simpler. // // TODO(adonovan): do more accurate filtering by walking the type graph. func exportedFrom(obj types.Object, pkg *types.Package) bool { switch obj := obj.(type) { case *types.Func: return obj.Exported() && obj.Pkg() == pkg || obj.Type().(*types.Signature).Recv() != nil case *types.Var: return obj.Exported() && obj.Pkg() == pkg || obj.IsField() case *types.TypeName, *types.Const: return true } return false // Nil, Builtin, Label, or PkgName } // importObjectFact implements Pass.ImportObjectFact. // Given a non-nil pointer ptr of type *T, where *T satisfies Fact, // importObjectFact copies the fact value to *ptr. func (act *Action) importObjectFact(obj types.Object, ptr analysis.Fact) bool { if obj == nil { panic("nil object") } key := objectFactKey{obj, factType(ptr)} if v, ok := act.objectFacts[key]; ok { reflect.ValueOf(ptr).Elem().Set(reflect.ValueOf(v).Elem()) return true } return false } // exportObjectFact implements Pass.ExportObjectFact. func (act *Action) exportObjectFact(obj types.Object, fact analysis.Fact) { if act.pass.ExportObjectFact == nil { log.Panicf("%s: Pass.ExportObjectFact(%s, %T) called after Run", act, obj, fact) } if obj.Pkg() != act.Pkg.GetTypes() { log.Panicf("internal error: in analysis %s of package %s: Fact.Set(%s, %T): can't set facts on objects belonging another package", act.Analyzer, act.Pkg, obj, fact) } key := objectFactKey{obj, factType(fact)} act.objectFacts[key] = fact // clobber any existing entry } // importPackageFact implements Pass.ImportPackageFact. // Given a non-nil pointer ptr of type *T, where *T satisfies Fact, // fact copies the fact value to *ptr. func (act *Action) importPackageFact(pkg *types.Package, ptr analysis.Fact) bool { if pkg == nil { panic("nil package") } key := packageFactKey{pkg, factType(ptr)} if v, ok := act.packageFacts[key]; ok { reflect.ValueOf(ptr).Elem().Set(reflect.ValueOf(v).Elem()) return true } return false } // exportPackageFact implements Pass.ExportPackageFact. func (act *Action) exportPackageFact(fact analysis.Fact) { if act.pass.ExportPackageFact == nil { log.Panicf("%s: Pass.ExportPackageFact(%T) called after Run", act, fact) } key := packageFactKey{act.pass.Pkg, factType(fact)} act.packageFacts[key] = fact // clobber any existing entry } func factType(fact analysis.Fact) reflect.Type { t := reflect.TypeOf(fact) if t.Kind() != reflect.Ptr { log.Fatalf("invalid Fact type: got %T, want pointer", t) } return t }