// 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" "os" "path/filepath" "sort" "strconv" "strings" "sync" "sync/atomic" "golang.org/x/tools/internal/lsp/debug" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/lsp/telemetry" "golang.org/x/tools/internal/lsp/telemetry/log" "golang.org/x/tools/internal/lsp/telemetry/trace" "golang.org/x/tools/internal/span" "golang.org/x/tools/internal/xcontext" errors "golang.org/x/xerrors" ) type session struct { cache *cache id string viewMu sync.Mutex views []*view viewMap map[span.URI]source.View overlayMu sync.Mutex overlays map[span.URI]*overlay openFiles sync.Map filesWatchMap *WatchMap } type overlay struct { session *session uri span.URI data []byte hash string kind source.FileKind // sameContentOnDisk is true if a file has been saved on disk, // and therefore does not need to be part of the overlay sent to go/packages. sameContentOnDisk bool } func (s *session) Shutdown(ctx context.Context) { s.viewMu.Lock() defer s.viewMu.Unlock() for _, view := range s.views { view.shutdown(ctx) } s.views = nil s.viewMap = nil debug.DropSession(debugSession{s}) } func (s *session) Cache() source.Cache { return s.cache } func (s *session) NewView(ctx context.Context, name string, folder span.URI) source.View { index := atomic.AddInt64(&viewIndex, 1) s.viewMu.Lock() defer s.viewMu.Unlock() // We want a true background context and not a detatched context here // the spans need to be unrelated and no tag values should pollute it. baseCtx := trace.Detach(xcontext.Detach(ctx)) backgroundCtx, cancel := context.WithCancel(baseCtx) v := &view{ session: s, id: strconv.FormatInt(index, 10), baseCtx: baseCtx, backgroundCtx: backgroundCtx, cancel: cancel, name: name, env: os.Environ(), folder: folder, filesByURI: make(map[span.URI]viewFile), filesByBase: make(map[string][]viewFile), mcache: &metadataCache{ packages: make(map[packageID]*metadata), ids: make(map[packagePath]packageID), }, ignoredURIs: make(map[span.URI]struct{}), } // Preemptively build the builtin package, // so we immediately add builtin.go to the list of ignored files. v.buildBuiltinPkg(ctx) s.views = append(s.views, v) // we always need to drop the view map s.viewMap = make(map[span.URI]source.View) debug.AddView(debugView{v}) return v } // View returns the view by name. func (s *session) View(name string) source.View { s.viewMu.Lock() defer s.viewMu.Unlock() for _, view := range s.views { if view.Name() == name { return view } } return nil } // ViewOf returns a view corresponding to the given URI. // If the file is not already associated with a view, pick one using some heuristics. func (s *session) ViewOf(uri span.URI) source.View { s.viewMu.Lock() defer s.viewMu.Unlock() // Check if we already know this file. if v, found := s.viewMap[uri]; found { return v } // Pick the best view for this file and memoize the result. v := s.bestView(uri) s.viewMap[uri] = v return v } func (s *session) Views() []source.View { s.viewMu.Lock() defer s.viewMu.Unlock() result := make([]source.View, len(s.views)) for i, v := range s.views { result[i] = v } return result } // bestView finds the best view to associate a given URI with. // viewMu must be held when calling this method. func (s *session) bestView(uri span.URI) source.View { // we need to find the best view for this file var longest source.View for _, view := range s.views { if longest != nil && len(longest.Folder()) > len(view.Folder()) { continue } if strings.HasPrefix(string(uri), string(view.Folder())) { longest = view } } if longest != nil { return longest } // TODO: are there any more heuristics we can use? return s.views[0] } func (s *session) removeView(ctx context.Context, view *view) error { s.viewMu.Lock() defer s.viewMu.Unlock() // we always need to drop the view map s.viewMap = make(map[span.URI]source.View) for i, v := range s.views { if view == v { // delete this view... we don't care about order but we do want to make // sure we can garbage collect the view s.views[i] = s.views[len(s.views)-1] s.views[len(s.views)-1] = nil s.views = s.views[:len(s.views)-1] v.shutdown(ctx) return nil } } return errors.Errorf("view %s for %v not found", view.Name(), view.Folder()) } // TODO: Propagate the language ID through to the view. func (s *session) DidOpen(ctx context.Context, uri span.URI, _ source.FileKind, text []byte) { ctx = telemetry.File.With(ctx, uri) // Files with _ prefixes are ignored. if strings.HasPrefix(filepath.Base(uri.Filename()), "_") { for _, view := range s.views { view.ignoredURIsMu.Lock() view.ignoredURIs[uri] = struct{}{} view.ignoredURIsMu.Unlock() } return } // Mark the file as open. s.openFiles.Store(uri, true) // Read the file on disk and compare it to the text provided. // If it is the same as on disk, we can avoid sending it as an overlay to go/packages. s.openOverlay(ctx, uri, text) // Mark the file as just opened so that we know to re-run packages.Load on it. // We do this because we may not be aware of all of the packages the file belongs to. // A file may be in multiple views. for _, view := range s.views { if strings.HasPrefix(string(uri), string(view.Folder())) { f, err := view.GetFile(ctx, uri) if err != nil { log.Error(ctx, "error getting file", nil, telemetry.File) return } gof, ok := f.(*goFile) if !ok { log.Error(ctx, "not a Go file", nil, telemetry.File) return } // Mark file as open. gof.mu.Lock() gof.justOpened = true gof.mu.Unlock() } } } func (s *session) DidSave(uri span.URI) { s.overlayMu.Lock() defer s.overlayMu.Unlock() if overlay, ok := s.overlays[uri]; ok { overlay.sameContentOnDisk = true } } func (s *session) DidClose(uri span.URI) { s.openFiles.Delete(uri) } func (s *session) IsOpen(uri span.URI) bool { _, open := s.openFiles.Load(uri) return open } func (s *session) GetFile(uri span.URI) source.FileHandle { if overlay := s.readOverlay(uri); overlay != nil { return overlay } // Fall back to the cache-level file system. return s.Cache().GetFile(uri) } func (s *session) SetOverlay(uri span.URI, data []byte) { s.overlayMu.Lock() defer func() { s.overlayMu.Unlock() s.filesWatchMap.Notify(uri) }() if data == nil { delete(s.overlays, uri) return } s.overlays[uri] = &overlay{ session: s, uri: uri, data: data, hash: hashContents(data), } } // openOverlay adds the file content to the overlay. // It also checks if the provided content is equivalent to the file's content on disk. func (s *session) openOverlay(ctx context.Context, uri span.URI, data []byte) { s.overlayMu.Lock() defer func() { s.overlayMu.Unlock() s.filesWatchMap.Notify(uri) }() s.overlays[uri] = &overlay{ session: s, uri: uri, data: data, hash: hashContents(data), } _, hash, err := s.cache.GetFile(uri).Read(ctx) if err != nil { log.Error(ctx, "failed to read", err, telemetry.File) return } if hash == s.overlays[uri].hash { s.overlays[uri].sameContentOnDisk = true } } func (s *session) readOverlay(uri span.URI) *overlay { s.overlayMu.Lock() defer s.overlayMu.Unlock() // We might have the content saved in an overlay. if overlay, ok := s.overlays[uri]; ok { return overlay } return nil } func (s *session) buildOverlay() map[string][]byte { s.overlayMu.Lock() defer s.overlayMu.Unlock() overlays := make(map[string][]byte) for uri, overlay := range s.overlays { if overlay.sameContentOnDisk { continue } overlays[uri.Filename()] = overlay.data } return overlays } func (o *overlay) FileSystem() source.FileSystem { return o.session } func (o *overlay) Identity() source.FileIdentity { return source.FileIdentity{ URI: o.uri, Version: o.hash, } } func (o *overlay) Kind() source.FileKind { // TODO: Determine the file kind using textDocument.languageId. return source.Go } func (o *overlay) Read(ctx context.Context) ([]byte, string, error) { return o.data, o.hash, nil } type debugSession struct{ *session } func (s debugSession) ID() string { return s.id } func (s debugSession) Cache() debug.Cache { return debugCache{s.cache} } func (s debugSession) Files() []*debug.File { var files []*debug.File seen := make(map[span.URI]*debug.File) s.openFiles.Range(func(key interface{}, value interface{}) bool { uri, ok := key.(span.URI) if ok { f := &debug.File{Session: s, URI: uri} seen[uri] = f files = append(files, f) } return true }) s.overlayMu.Lock() defer s.overlayMu.Unlock() for _, overlay := range s.overlays { f, ok := seen[overlay.uri] if !ok { f = &debug.File{Session: s, URI: overlay.uri} seen[overlay.uri] = f files = append(files, f) } f.Data = string(overlay.data) f.Error = nil f.Hash = overlay.hash } sort.Slice(files, func(i int, j int) bool { return files[i].URI < files[j].URI }) return files } func (s debugSession) File(hash string) *debug.File { s.overlayMu.Lock() defer s.overlayMu.Unlock() for _, overlay := range s.overlays { if overlay.hash == hash { return &debug.File{ Session: s, URI: overlay.uri, Data: string(overlay.data), Error: nil, Hash: overlay.hash, } } } return &debug.File{ Session: s, Hash: hash, } }