// 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. package cache import ( "context" "go/ast" "go/types" "sort" "sync" "golang.org/x/tools/go/analysis" "golang.org/x/tools/go/packages" "golang.org/x/tools/internal/lsp/protocol" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/span" errors "golang.org/x/xerrors" ) // pkg contains the type information needed by the source package. type pkg struct { view *view // ID and package path have their own types to avoid being used interchangeably. id packageID pkgPath packagePath files []source.ParseGoHandle errors []packages.Error imports map[packagePath]*pkg types *types.Package typesInfo *types.Info typesSizes types.Sizes // The analysis cache holds analysis information for all the packages in a view. // Each graph node (action) is one unit of analysis. // Edges express package-to-package (vertical) dependencies, // and analysis-to-analysis (horizontal) dependencies. mu sync.Mutex analyses map[*analysis.Analyzer]*analysisEntry diagMu sync.Mutex diagnostics map[*analysis.Analyzer][]source.Diagnostic } // Declare explicit types for package paths and IDs to ensure that we never use // an ID where a path belongs, and vice versa. If we confused the two, it would // result in confusing errors because package IDs often look like package paths. type packageID string type packagePath string type analysisEntry struct { done chan struct{} succeeded bool *source.Action } func (p *pkg) GetActionGraph(ctx context.Context, a *analysis.Analyzer) (*source.Action, error) { p.mu.Lock() e, ok := p.analyses[a] if ok { // cache hit p.mu.Unlock() // wait for entry to become ready or the context to be cancelled select { case <-e.done: // If the goroutine we are waiting on was cancelled, we should retry. // If errors other than cancelation/timeout become possible, it may // no longer be appropriate to always retry here. if !e.succeeded { return p.GetActionGraph(ctx, a) } case <-ctx.Done(): return nil, ctx.Err() } } else { // cache miss e = &analysisEntry{ done: make(chan struct{}), Action: &source.Action{ Analyzer: a, Pkg: p, }, } p.analyses[a] = e p.mu.Unlock() defer func() { // If we got an error, clear out our defunct cache entry. We don't cache // errors since they could depend on our dependencies, which can change. // Currently the only possible error is context.Canceled, though, which // should also not be cached. if !e.succeeded { p.mu.Lock() delete(p.analyses, a) p.mu.Unlock() } // Always close done so waiters don't get stuck. close(e.done) }() // This goroutine becomes responsible for populating // the entry and broadcasting its readiness. // Add a dependency on each required analyzers. for _, req := range a.Requires { act, err := p.GetActionGraph(ctx, req) if err != nil { return nil, err } e.Deps = append(e.Deps, act) } // An analysis that consumes/produces facts // must run on the package's dependencies too. if len(a.FactTypes) > 0 { importPaths := make([]string, 0, len(p.imports)) for importPath := range p.imports { importPaths = append(importPaths, string(importPath)) } sort.Strings(importPaths) // for determinism for _, importPath := range importPaths { dep, err := p.GetImport(ctx, importPath) if err != nil { return nil, err } act, err := dep.GetActionGraph(ctx, a) if err != nil { return nil, err } e.Deps = append(e.Deps, act) } } e.succeeded = true } return e.Action, nil } func (p *pkg) ID() string { return string(p.id) } func (p *pkg) PkgPath() string { return string(p.pkgPath) } func (p *pkg) Files() []source.ParseGoHandle { return p.files } func (p *pkg) File(uri span.URI) (source.ParseGoHandle, error) { for _, ph := range p.Files() { if ph.File().Identity().URI == uri { return ph, nil } } return nil, errors.Errorf("no ParseGoHandle for %s", uri) } func (p *pkg) GetSyntax(ctx context.Context) []*ast.File { var syntax []*ast.File for _, ph := range p.files { file, _, _, err := ph.Cached(ctx) if err == nil { syntax = append(syntax, file) } } return syntax } func (p *pkg) GetErrors() []packages.Error { return p.errors } func (p *pkg) GetTypes() *types.Package { return p.types } func (p *pkg) GetTypesInfo() *types.Info { return p.typesInfo } func (p *pkg) GetTypesSizes() types.Sizes { return p.typesSizes } func (p *pkg) IsIllTyped() bool { return p.types == nil || p.typesInfo == nil || p.typesSizes == nil } func (p *pkg) GetImport(ctx context.Context, pkgPath string) (source.Package, error) { if imp := p.imports[packagePath(pkgPath)]; imp != nil { return imp, nil } // Don't return a nil pointer because that still satisfies the interface. return nil, errors.Errorf("no imported package for %s", pkgPath) } func (p *pkg) SetDiagnostics(a *analysis.Analyzer, diags []source.Diagnostic) { p.diagMu.Lock() defer p.diagMu.Unlock() if p.diagnostics == nil { p.diagnostics = make(map[*analysis.Analyzer][]source.Diagnostic) } p.diagnostics[a] = diags } func (pkg *pkg) FindDiagnostic(pdiag protocol.Diagnostic) (*source.Diagnostic, error) { pkg.diagMu.Lock() defer pkg.diagMu.Unlock() for a, diagnostics := range pkg.diagnostics { if a.Name != pdiag.Source { continue } for _, d := range diagnostics { if d.Message != pdiag.Message { continue } if protocol.CompareRange(d.Range, pdiag.Range) != 0 { continue } return &d, nil } } return nil, errors.Errorf("no matching diagnostic for %v", pdiag) } func (p *pkg) FindFile(ctx context.Context, uri span.URI) (source.ParseGoHandle, source.Package, error) { // Special case for ignored files. if p.view.Ignore(uri) { return p.view.findIgnoredFile(ctx, uri) } queue := []*pkg{p} seen := make(map[string]bool) for len(queue) > 0 { pkg := queue[0] queue = queue[1:] seen[pkg.ID()] = true for _, ph := range pkg.files { if ph.File().Identity().URI == uri { return ph, pkg, nil } } for _, dep := range pkg.imports { if !seen[dep.ID()] { queue = append(queue, dep) } } } return nil, nil, errors.Errorf("no file for %s", uri) }