internal/lsp/cache/session.go - tools - Git at Google

 // 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"
 	"fmt"
 	"os"
 	"strconv"
 	"sync"
 	"sync/atomic"

 	"golang.org/x/tools/internal/event"
 	"golang.org/x/tools/internal/gocommand"
 	"golang.org/x/tools/internal/imports"
 	"golang.org/x/tools/internal/lsp/source"
 	"golang.org/x/tools/internal/span"
 	"golang.org/x/tools/internal/xcontext"
 	errors "golang.org/x/xerrors"
 )

 type Session struct {
 	cache *Cache
 	id    string

 	optionsMu sync.Mutex
 	options   *source.Options

 	viewMu  sync.Mutex
 	views   []*View
 	viewMap map[span.URI]*View

 	overlayMu sync.Mutex
 	overlays  map[span.URI]*overlay

 	// gocmdRunner guards go command calls from concurrency errors.
 	gocmdRunner *gocommand.Runner
 }

 type overlay struct {
 	session *Session
 	uri     span.URI
 	text    []byte
 	hash    string
 	version float64
 	kind    source.FileKind

 	// saved is true if a file matches the state on disk,
 	// and therefore does not need to be part of the overlay sent to go/packages.
 	saved bool
 }

 func (o *overlay) Read() ([]byte, error) {
 	return o.text, nil
 }

 func (o *overlay) FileIdentity() source.FileIdentity {
 	return source.FileIdentity{
 		URI:  o.uri,
 		Hash: o.hash,
 		Kind: o.kind,
 	}
 }

 func (o *overlay) VersionedFileIdentity() source.VersionedFileIdentity {
 	return source.VersionedFileIdentity{
 		URI:       o.uri,
 		SessionID: o.session.id,
 		Version:   o.version,
 	}
 }

 func (o *overlay) Kind() source.FileKind {
 	return o.kind
 }

 func (o *overlay) URI() span.URI {
 	return o.uri
 }

 func (o *overlay) Version() float64 {
 	return o.version
 }

 func (o *overlay) Session() string {
 	return o.session.id
 }

 func (o *overlay) Saved() bool {
 	return o.saved
 }

 // closedFile implements LSPFile for a file that the editor hasn't told us about.
 type closedFile struct {
 	source.FileHandle
 }

 func (c *closedFile) VersionedFileIdentity() source.VersionedFileIdentity {
 	return source.VersionedFileIdentity{
 		URI:       c.FileHandle.URI(),
 		SessionID: "",
 		Version:   0,
 	}
 }

 func (c *closedFile) Saved() bool {
 	return true
 }

 func (c *closedFile) Session() string {
 	return ""
 }

 func (c *closedFile) Version() float64 {
 	return 0
 }

 func (s *Session) ID() string     { return s.id }
 func (s *Session) String() string { return s.id }

 func (s *Session) Options() *source.Options {
 	s.optionsMu.Lock()
 	defer s.optionsMu.Unlock()
 	return s.options
 }

 func (s *Session) SetOptions(options *source.Options) {
 	s.optionsMu.Lock()
 	defer s.optionsMu.Unlock()
 	s.options = options
 }

 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
 	event.Log(ctx, "Shutdown session", KeyShutdownSession.Of(s))
 }

 func (s *Session) Cache() interface{} {
 	return s.cache
 }

 func (s *Session) NewView(ctx context.Context, name string, folder, tempWorkspace span.URI, options *source.Options) (source.View, source.Snapshot, func(), error) {
 	s.viewMu.Lock()
 	defer s.viewMu.Unlock()
 	view, snapshot, release, err := s.createView(ctx, name, folder, tempWorkspace, options, 0)
 	if err != nil {
 		return nil, nil, func() {}, err
 	}
 	s.views = append(s.views, view)
 	// we always need to drop the view map
 	s.viewMap = make(map[span.URI]*View)
 	return view, snapshot, release, nil
 }

 func (s *Session) createView(ctx context.Context, name string, folder, tempWorkspace span.URI, options *source.Options, snapshotID uint64) (*View, *snapshot, func(), error) {
 	index := atomic.AddInt64(&viewIndex, 1)

 	if s.cache.options != nil {
 		s.cache.options(options)
 	}

 	// Set the module-specific information.
 	ws, err := s.getWorkspaceInformation(ctx, folder, options)
 	if err != nil {
 		return nil, nil, func() {}, err
 	}
 	root := folder
 	if options.ExpandWorkspaceToModule {
 		root, err = findWorkspaceRoot(ctx, root, s, pathExcludedByFilterFunc(options), options.ExperimentalWorkspaceModule)
 		if err != nil {
 			return nil, nil, func() {}, err
 		}
 	}

 	// Build the gopls workspace, collecting active modules in the view.
 	workspace, err := newWorkspace(ctx, root, s, pathExcludedByFilterFunc(options), ws.userGo111Module == off, options.ExperimentalWorkspaceModule)
 	if err != nil {
 		return nil, nil, func() {}, err
 	}

 	// We want a true background context and not a detached context here
 	// the spans need to be unrelated and no tag values should pollute it.
 	baseCtx := event.Detach(xcontext.Detach(ctx))
 	backgroundCtx, cancel := context.WithCancel(baseCtx)

 	v := &View{
 		session:              s,
 		initialWorkspaceLoad: make(chan struct{}),
 		initializationSema:   make(chan struct{}, 1),
 		id:                   strconv.FormatInt(index, 10),
 		options:              options,
 		baseCtx:              baseCtx,
 		name:                 name,
 		folder:               folder,
 		filesByURI:           make(map[span.URI]*fileBase),
 		filesByBase:          make(map[string][]*fileBase),
 		rootURI:              root,
 		workspaceInformation: *ws,
 		tempWorkspace:        tempWorkspace,
 	}
 	v.importsState = &importsState{
 		ctx: backgroundCtx,
 		processEnv: &imports.ProcessEnv{
 			GocmdRunner: s.gocmdRunner,
 		},
 	}
 	v.snapshot = &snapshot{
 		id:                snapshotID,
 		view:              v,
 		backgroundCtx:     backgroundCtx,
 		cancel:            cancel,
 		initializeOnce:    &sync.Once{},
 		generation:        s.cache.store.Generation(generationName(v, 0)),
 		packages:          make(map[packageKey]*packageHandle),
 		ids:               make(map[span.URI][]packageID),
 		metadata:          make(map[packageID]*metadata),
 		files:             make(map[span.URI]source.VersionedFileHandle),
 		goFiles:           make(map[parseKey]*parseGoHandle),
 		importedBy:        make(map[packageID][]packageID),
 		actions:           make(map[actionKey]*actionHandle),
 		workspacePackages: make(map[packageID]packagePath),
 		unloadableFiles:   make(map[span.URI]struct{}),
 		parseModHandles:   make(map[span.URI]*parseModHandle),
 		modTidyHandles:    make(map[span.URI]*modTidyHandle),
 		modUpgradeHandles: make(map[span.URI]*modUpgradeHandle),
 		modWhyHandles:     make(map[span.URI]*modWhyHandle),
 		workspace:         workspace,
 	}

 	// Initialize the view without blocking.
 	initCtx, initCancel := context.WithCancel(xcontext.Detach(ctx))
 	v.initCancelFirstAttempt = initCancel
 	snapshot := v.snapshot
 	release := snapshot.generation.Acquire(initCtx)
 	go func() {
 		snapshot.initialize(initCtx, true)
 		if v.tempWorkspace != "" {
 			var err error
 			if err = os.Mkdir(v.tempWorkspace.Filename(), 0700); err == nil {
 				var wsdir span.URI
 				wsdir, err = snapshot.getWorkspaceDir(initCtx)
 				if err == nil {
 					err = copyWorkspace(v.tempWorkspace, wsdir)
 				}
 			}
 			if err != nil {
 				event.Error(initCtx, "creating workspace dir", err)
 			}
 		}
 		release()
 	}()
 	return v, snapshot, snapshot.generation.Acquire(ctx), nil
 }

 // 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, error) {
 	return s.viewOf(uri)
 }

 func (s *Session) viewOf(uri span.URI) (*View, error) {
 	s.viewMu.Lock()
 	defer s.viewMu.Unlock()

 	// Check if we already know this file.
 	if v, found := s.viewMap[uri]; found {
 		return v, nil
 	}
 	// Pick the best view for this file and memoize the result.
 	if len(s.views) == 0 {
 		return nil, fmt.Errorf("no views in session")
 	}
 	s.viewMap[uri] = bestViewForURI(uri, s.views)
 	return s.viewMap[uri], nil
 }

 func (s *Session) viewsOf(uri span.URI) []*View {
 	s.viewMu.Lock()
 	defer s.viewMu.Unlock()

 	var views []*View
 	for _, view := range s.views {
 		if source.InDir(view.folder.Filename(), uri.Filename()) {
 			views = append(views, view)
 		}
 	}
 	return views
 }

 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
 }

 // bestViewForURI returns the most closely matching view for the given URI
 // out of the given set of views.
 func bestViewForURI(uri span.URI, views []*View) *View {
 	// we need to find the best view for this file
 	var longest *View
 	for _, view := range views {
 		if longest != nil && len(longest.Folder()) > len(view.Folder()) {
 			continue
 		}
 		if view.contains(uri) {
 			longest = view
 		}
 	}
 	if longest != nil {
 		return longest
 	}
 	// Try our best to return a view that knows the file.
 	for _, view := range views {
 		if view.knownFile(uri) {
 			return view
 		}
 	}
 	// TODO: are there any more heuristics we can use?
 	return views[0]
 }

 func (s *Session) removeView(ctx context.Context, view *View) error {
 	s.viewMu.Lock()
 	defer s.viewMu.Unlock()
 	i, err := s.dropView(ctx, view)
 	if err != nil {
 		return err
 	}
 	// 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]
 	return nil
 }

 func (s *Session) updateView(ctx context.Context, view *View, options *source.Options) (*View, error) {
 	s.viewMu.Lock()
 	defer s.viewMu.Unlock()
 	i, err := s.dropView(ctx, view)
 	if err != nil {
 		return nil, err
 	}
 	// Preserve the snapshot ID if we are recreating the view.
 	view.snapshotMu.Lock()
 	snapshotID := view.snapshot.id
 	view.snapshotMu.Unlock()
 	v, _, release, err := s.createView(ctx, view.name, view.folder, view.tempWorkspace, options, snapshotID)
 	release()
 	if err != nil {
 		// we have dropped the old view, but could not create the new one
 		// this should not happen and is very bad, but we still need to clean
 		// up the view array if it happens
 		s.views[i] = s.views[len(s.views)-1]
 		s.views[len(s.views)-1] = nil
 		s.views = s.views[:len(s.views)-1]
 		return nil, err
 	}
 	// substitute the new view into the array where the old view was
 	s.views[i] = v
 	return v, nil
 }

 func (s *Session) dropView(ctx context.Context, v *View) (int, error) {
 	// we always need to drop the view map
 	s.viewMap = make(map[span.URI]*View)
 	for i := range s.views {
 		if v == s.views[i] {
 			// we found the view, drop it and return the index it was found at
 			s.views[i] = nil
 			v.shutdown(ctx)
 			return i, nil
 		}
 	}
 	return -1, errors.Errorf("view %s for %v not found", v.Name(), v.Folder())
 }

 func (s *Session) ModifyFiles(ctx context.Context, changes []source.FileModification) error {
 	_, releases, err := s.DidModifyFiles(ctx, changes)
 	for _, release := range releases {
 		release()
 	}
 	return err
 }

 type fileChange struct {
 	content    []byte
 	exists     bool
 	fileHandle source.VersionedFileHandle
 }

 func (s *Session) DidModifyFiles(ctx context.Context, changes []source.FileModification) (map[source.Snapshot][]span.URI, []func(), error) {
 	views := make(map[*View]map[span.URI]*fileChange)
 	affectedViews := map[span.URI][]*View{}

 	overlays, err := s.updateOverlays(ctx, changes)
 	if err != nil {
 		return nil, nil, err
 	}
 	var forceReloadMetadata bool
 	for _, c := range changes {
 		if c.Action == source.InvalidateMetadata {
 			forceReloadMetadata = true
 		}

 		// Build the list of affected views.
 		var changedViews []*View
 		for _, view := range s.views {
 			// Don't propagate changes that are outside of the view's scope
 			// or knowledge.
 			if !view.relevantChange(c) {
 				continue
 			}
 			changedViews = append(changedViews, view)
 		}
 		// If the change is not relevant to any view, but the change is
 		// happening in the editor, assign it the most closely matching view.
 		if len(changedViews) == 0 {
 			if c.OnDisk {
 				continue
 			}
 			bestView, err := s.viewOf(c.URI)
 			if err != nil {
 				return nil, nil, err
 			}
 			changedViews = append(changedViews, bestView)
 		}
 		affectedViews[c.URI] = changedViews

 		// Apply the changes to all affected views.
 		for _, view := range changedViews {
 			// Make sure that the file is added to the view.
 			if _, err := view.getFile(c.URI); err != nil {
 				return nil, nil, err
 			}
 			if _, ok := views[view]; !ok {
 				views[view] = make(map[span.URI]*fileChange)
 			}
 			if fh, ok := overlays[c.URI]; ok {
 				views[view][c.URI] = &fileChange{
 					content:    fh.text,
 					exists:     true,
 					fileHandle: fh,
 				}
 			} else {
 				fsFile, err := s.cache.getFile(ctx, c.URI)
 				if err != nil {
 					return nil, nil, err
 				}
 				content, err := fsFile.Read()
 				fh := &closedFile{fsFile}
 				views[view][c.URI] = &fileChange{
 					content:    content,
 					exists:     err == nil,
 					fileHandle: fh,
 				}
 			}
 		}
 	}

 	var releases []func()
 	viewToSnapshot := map[*View]*snapshot{}
 	for view, changed := range views {
 		snapshot, release := view.invalidateContent(ctx, changed, forceReloadMetadata)
 		releases = append(releases, release)
 		viewToSnapshot[view] = snapshot
 	}

 	// We only want to diagnose each changed file once, in the view to which
 	// it "most" belongs. We do this by picking the best view for each URI,
 	// and then aggregating the set of snapshots and their URIs (to avoid
 	// diagnosing the same snapshot multiple times).
 	snapshotURIs := map[source.Snapshot][]span.URI{}
 	for _, mod := range changes {
 		viewSlice, ok := affectedViews[mod.URI]
 		if !ok || len(viewSlice) == 0 {
 			continue
 		}
 		view := bestViewForURI(mod.URI, viewSlice)
 		snapshot, ok := viewToSnapshot[view]
 		if !ok {
 			panic(fmt.Sprintf("no snapshot for view %s", view.Folder()))
 		}
 		snapshotURIs[snapshot] = append(snapshotURIs[snapshot], mod.URI)
 	}
 	return snapshotURIs, releases, nil
 }

 func (s *Session) ExpandModificationsToDirectories(ctx context.Context, changes []source.FileModification) []source.FileModification {
 	var snapshots []*snapshot
 	for _, v := range s.views {
 		snapshot, release := v.getSnapshot(ctx)
 		defer release()
 		snapshots = append(snapshots, snapshot)
 	}
 	knownDirs := knownDirectories(ctx, snapshots)
 	var result []source.FileModification
 	for _, c := range changes {
 		if _, ok := knownDirs[c.URI]; !ok {
 			result = append(result, c)
 			continue
 		}
 		affectedFiles := knownFilesInDir(ctx, snapshots, c.URI)
 		var fileChanges []source.FileModification
 		for uri := range affectedFiles {
 			fileChanges = append(fileChanges, source.FileModification{
 				URI:        uri,
 				Action:     c.Action,
 				LanguageID: "",
 				OnDisk:     c.OnDisk,
 				// changes to directories cannot include text or versions
 			})
 		}
 		result = append(result, fileChanges...)
 	}
 	return result
 }

 // knownDirectories returns all of the directories known to the given
 // snapshots, including workspace directories and their subdirectories.
 func knownDirectories(ctx context.Context, snapshots []*snapshot) map[span.URI]struct{} {
 	result := map[span.URI]struct{}{}
 	for _, snapshot := range snapshots {
 		dirs := snapshot.workspace.dirs(ctx, snapshot)
 		for _, dir := range dirs {
 			result[dir] = struct{}{}
 		}
 		subdirs := snapshot.allKnownSubdirs(ctx)
 		for dir := range subdirs {
 			result[dir] = struct{}{}
 		}
 	}
 	return result
 }

 // knownFilesInDir returns the files known to the snapshots in the session.
 // It does not respect symlinks.
 func knownFilesInDir(ctx context.Context, snapshots []*snapshot, dir span.URI) map[span.URI]struct{} {
 	files := map[span.URI]struct{}{}

 	for _, snapshot := range snapshots {
 		for _, uri := range snapshot.knownFilesInDir(ctx, dir) {
 			files[uri] = struct{}{}
 		}
 	}
 	return files
 }

 func (s *Session) updateOverlays(ctx context.Context, changes []source.FileModification) (map[span.URI]*overlay, error) {
 	s.overlayMu.Lock()
 	defer s.overlayMu.Unlock()

 	for _, c := range changes {
 		// Don't update overlays for metadata invalidations.
 		if c.Action == source.InvalidateMetadata {
 			continue
 		}

 		o, ok := s.overlays[c.URI]

 		// If the file is not opened in an overlay and the change is on disk,
 		// there's no need to update an overlay. If there is an overlay, we
 		// may need to update the overlay's saved value.
 		if !ok && c.OnDisk {
 			continue
 		}

 		// Determine the file kind on open, otherwise, assume it has been cached.
 		var kind source.FileKind
 		switch c.Action {
 		case source.Open:
 			kind = source.DetectLanguage(c.LanguageID, c.URI.Filename())
 		default:
 			if !ok {
 				return nil, errors.Errorf("updateOverlays: modifying unopened overlay %v", c.URI)
 			}
 			kind = o.kind
 		}
 		if kind == source.UnknownKind {
 			return nil, errors.Errorf("updateOverlays: unknown file kind for %s", c.URI)
 		}

 		// Closing a file just deletes its overlay.
 		if c.Action == source.Close {
 			delete(s.overlays, c.URI)
 			continue
 		}

 		// If the file is on disk, check if its content is the same as in the
 		// overlay. Saves and on-disk file changes don't come with the file's
 		// content.
 		text := c.Text
 		if text == nil && (c.Action == source.Save || c.OnDisk) {
 			if !ok {
 				return nil, fmt.Errorf("no known content for overlay for %s", c.Action)
 			}
 			text = o.text
 		}
 		// On-disk changes don't come with versions.
 		version := c.Version
 		if c.OnDisk {
 			version = o.version
 		}
 		hash := hashContents(text)
 		var sameContentOnDisk bool
 		switch c.Action {
 		case source.Delete:
 			// Do nothing. sameContentOnDisk should be false.
 		case source.Save:
 			// Make sure the version and content (if present) is the same.
 			if o.version != version {
 				return nil, errors.Errorf("updateOverlays: saving %s at version %v, currently at %v", c.URI, c.Version, o.version)
 			}
 			if c.Text != nil && o.hash != hash {
 				return nil, errors.Errorf("updateOverlays: overlay %s changed on save", c.URI)
 			}
 			sameContentOnDisk = true
 		default:
 			fh, err := s.cache.getFile(ctx, c.URI)
 			if err != nil {
 				return nil, err
 			}
 			_, readErr := fh.Read()
 			sameContentOnDisk = (readErr == nil && fh.FileIdentity().Hash == hash)
 		}
 		o = &overlay{
 			session: s,
 			uri:     c.URI,
 			version: version,
 			text:    text,
 			kind:    kind,
 			hash:    hash,
 			saved:   sameContentOnDisk,
 		}
 		s.overlays[c.URI] = o
 	}

 	// Get the overlays for each change while the session's overlay map is
 	// locked.
 	overlays := make(map[span.URI]*overlay)
 	for _, c := range changes {
 		if o, ok := s.overlays[c.URI]; ok {
 			overlays[c.URI] = o
 		}
 	}
 	return overlays, nil
 }

 func (s *Session) GetFile(ctx context.Context, uri span.URI) (source.FileHandle, error) {
 	if overlay := s.readOverlay(uri); overlay != nil {
 		return overlay, nil
 	}
 	// Fall back to the cache-level file system.
 	return s.cache.getFile(ctx, uri)
 }

 func (s *Session) readOverlay(uri span.URI) *overlay {
 	s.overlayMu.Lock()
 	defer s.overlayMu.Unlock()

 	if overlay, ok := s.overlays[uri]; ok {
 		return overlay
 	}
 	return nil
 }

 func (s *Session) Overlays() []source.Overlay {
 	s.overlayMu.Lock()
 	defer s.overlayMu.Unlock()

 	overlays := make([]source.Overlay, 0, len(s.overlays))
 	for _, overlay := range s.overlays {
 		overlays = append(overlays, overlay)
 	}
 	return overlays
 }

 func (s *Session) FileWatchingGlobPatterns(ctx context.Context) map[string]struct{} {
 	patterns := map[string]struct{}{}
 	for _, view := range s.views {
 		snapshot, release := view.getSnapshot(ctx)
 		for k, v := range snapshot.fileWatchingGlobPatterns(ctx) {
 			patterns[k] = v
 		}
 		release()
 	}
 	return patterns
 }
	// 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"
	"fmt"
	"os"
	"strconv"
	"sync"
	"sync/atomic"

	"golang.org/x/tools/internal/event"
	"golang.org/x/tools/internal/gocommand"
	"golang.org/x/tools/internal/imports"
	"golang.org/x/tools/internal/lsp/source"
	"golang.org/x/tools/internal/span"
	"golang.org/x/tools/internal/xcontext"
	errors "golang.org/x/xerrors"
	)

	type Session struct {
	cache *Cache
	id string

	optionsMu sync.Mutex
	options *source.Options

	viewMu sync.Mutex
	views []*View
	viewMap map[span.URI]*View

	overlayMu sync.Mutex
	overlays map[span.URI]*overlay

	// gocmdRunner guards go command calls from concurrency errors.
	gocmdRunner *gocommand.Runner
	}

	type overlay struct {
	session *Session
	uri span.URI
	text []byte
	hash string
	version float64
	kind source.FileKind

	// saved is true if a file matches the state on disk,
	// and therefore does not need to be part of the overlay sent to go/packages.
	saved bool
	}

	func (o *overlay) Read() ([]byte, error) {
	return o.text, nil
	}

	func (o *overlay) FileIdentity() source.FileIdentity {
	return source.FileIdentity{
	URI: o.uri,
	Hash: o.hash,
	Kind: o.kind,
	}
	}

	func (o *overlay) VersionedFileIdentity() source.VersionedFileIdentity {
	return source.VersionedFileIdentity{
	URI: o.uri,
	SessionID: o.session.id,
	Version: o.version,
	}
	}

	func (o *overlay) Kind() source.FileKind {
	return o.kind
	}

	func (o *overlay) URI() span.URI {
	return o.uri
	}

	func (o *overlay) Version() float64 {
	return o.version
	}

	func (o *overlay) Session() string {
	return o.session.id
	}

	func (o *overlay) Saved() bool {
	return o.saved
	}

	// closedFile implements LSPFile for a file that the editor hasn't told us about.
	type closedFile struct {
	source.FileHandle
	}

	func (c *closedFile) VersionedFileIdentity() source.VersionedFileIdentity {
	return source.VersionedFileIdentity{
	URI: c.FileHandle.URI(),
	SessionID: "",
	Version: 0,
	}
	}

	func (c *closedFile) Saved() bool {
	return true
	}

	func (c *closedFile) Session() string {
	return ""
	}

	func (c *closedFile) Version() float64 {
	return 0
	}

	func (s *Session) ID() string { return s.id }
	func (s *Session) String() string { return s.id }

	func (s Session) Options() source.Options {
	s.optionsMu.Lock()
	defer s.optionsMu.Unlock()
	return s.options
	}

	func (s Session) SetOptions(options source.Options) {
	s.optionsMu.Lock()
	defer s.optionsMu.Unlock()
	s.options = options
	}

	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
	event.Log(ctx, "Shutdown session", KeyShutdownSession.Of(s))
	}

	func (s *Session) Cache() interface{} {
	return s.cache
	}

	func (s Session) NewView(ctx context.Context, name string, folder, tempWorkspace span.URI, options source.Options) (source.View, source.Snapshot, func(), error) {
	s.viewMu.Lock()
	defer s.viewMu.Unlock()
	view, snapshot, release, err := s.createView(ctx, name, folder, tempWorkspace, options, 0)
	if err != nil {
	return nil, nil, func() {}, err
	}
	s.views = append(s.views, view)
	// we always need to drop the view map
	s.viewMap = make(map[span.URI]*View)
	return view, snapshot, release, nil
	}

	func (s Session) createView(ctx context.Context, name string, folder, tempWorkspace span.URI, options source.Options, snapshotID uint64) (View, snapshot, func(), error) {
	index := atomic.AddInt64(&viewIndex, 1)

	if s.cache.options != nil {
	s.cache.options(options)
	}

	// Set the module-specific information.
	ws, err := s.getWorkspaceInformation(ctx, folder, options)
	if err != nil {
	return nil, nil, func() {}, err
	}
	root := folder
	if options.ExpandWorkspaceToModule {
	root, err = findWorkspaceRoot(ctx, root, s, pathExcludedByFilterFunc(options), options.ExperimentalWorkspaceModule)
	if err != nil {
	return nil, nil, func() {}, err
	}
	}

	// Build the gopls workspace, collecting active modules in the view.
	workspace, err := newWorkspace(ctx, root, s, pathExcludedByFilterFunc(options), ws.userGo111Module == off, options.ExperimentalWorkspaceModule)
	if err != nil {
	return nil, nil, func() {}, err
	}

	// We want a true background context and not a detached context here
	// the spans need to be unrelated and no tag values should pollute it.
	baseCtx := event.Detach(xcontext.Detach(ctx))
	backgroundCtx, cancel := context.WithCancel(baseCtx)

	v := &View{
	session: s,
	initialWorkspaceLoad: make(chan struct{}),
	initializationSema: make(chan struct{}, 1),
	id: strconv.FormatInt(index, 10),
	options: options,
	baseCtx: baseCtx,
	name: name,
	folder: folder,
	filesByURI: make(map[span.URI]*fileBase),
	filesByBase: make(map[string][]*fileBase),
	rootURI: root,
	workspaceInformation: *ws,
	tempWorkspace: tempWorkspace,
	}
	v.importsState = &importsState{
	ctx: backgroundCtx,
	processEnv: &imports.ProcessEnv{
	GocmdRunner: s.gocmdRunner,
	},
	}
	v.snapshot = &snapshot{
	id: snapshotID,
	view: v,
	backgroundCtx: backgroundCtx,
	cancel: cancel,
	initializeOnce: &sync.Once{},
	generation: s.cache.store.Generation(generationName(v, 0)),
	packages: make(map[packageKey]*packageHandle),
	ids: make(map[span.URI][]packageID),
	metadata: make(map[packageID]*metadata),
	files: make(map[span.URI]source.VersionedFileHandle),
	goFiles: make(map[parseKey]*parseGoHandle),
	importedBy: make(map[packageID][]packageID),
	actions: make(map[actionKey]*actionHandle),
	workspacePackages: make(map[packageID]packagePath),
	unloadableFiles: make(map[span.URI]struct{}),
	parseModHandles: make(map[span.URI]*parseModHandle),
	modTidyHandles: make(map[span.URI]*modTidyHandle),
	modUpgradeHandles: make(map[span.URI]*modUpgradeHandle),
	modWhyHandles: make(map[span.URI]*modWhyHandle),
	workspace: workspace,
	}

	// Initialize the view without blocking.
	initCtx, initCancel := context.WithCancel(xcontext.Detach(ctx))
	v.initCancelFirstAttempt = initCancel
	snapshot := v.snapshot
	release := snapshot.generation.Acquire(initCtx)
	go func() {
	snapshot.initialize(initCtx, true)
	if v.tempWorkspace != "" {
	var err error
	if err = os.Mkdir(v.tempWorkspace.Filename(), 0700); err == nil {
	var wsdir span.URI
	wsdir, err = snapshot.getWorkspaceDir(initCtx)
	if err == nil {
	err = copyWorkspace(v.tempWorkspace, wsdir)
	}
	}
	if err != nil {
	event.Error(initCtx, "creating workspace dir", err)
	}
	}
	release()
	}()
	return v, snapshot, snapshot.generation.Acquire(ctx), nil
	}

	// 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, error) {
	return s.viewOf(uri)
	}

	func (s Session) viewOf(uri span.URI) (View, error) {
	s.viewMu.Lock()
	defer s.viewMu.Unlock()

	// Check if we already know this file.
	if v, found := s.viewMap[uri]; found {
	return v, nil
	}
	// Pick the best view for this file and memoize the result.
	if len(s.views) == 0 {
	return nil, fmt.Errorf("no views in session")
	}
	s.viewMap[uri] = bestViewForURI(uri, s.views)
	return s.viewMap[uri], nil
	}

	func (s Session) viewsOf(uri span.URI) []View {
	s.viewMu.Lock()
	defer s.viewMu.Unlock()

	var views []*View
	for _, view := range s.views {
	if source.InDir(view.folder.Filename(), uri.Filename()) {
	views = append(views, view)
	}
	}
	return views
	}

	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
	}

	// bestViewForURI returns the most closely matching view for the given URI
	// out of the given set of views.
	func bestViewForURI(uri span.URI, views []View) View {
	// we need to find the best view for this file
	var longest *View
	for _, view := range views {
	if longest != nil && len(longest.Folder()) > len(view.Folder()) {
	continue
	}
	if view.contains(uri) {
	longest = view
	}
	}
	if longest != nil {
	return longest
	}
	// Try our best to return a view that knows the file.
	for _, view := range views {
	if view.knownFile(uri) {
	return view
	}
	}
	// TODO: are there any more heuristics we can use?
	return views[0]
	}

	func (s Session) removeView(ctx context.Context, view View) error {
	s.viewMu.Lock()
	defer s.viewMu.Unlock()
	i, err := s.dropView(ctx, view)
	if err != nil {
	return err
	}
	// 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]
	return nil
	}

	func (s Session) updateView(ctx context.Context, view View, options source.Options) (View, error) {
	s.viewMu.Lock()
	defer s.viewMu.Unlock()
	i, err := s.dropView(ctx, view)
	if err != nil {
	return nil, err
	}
	// Preserve the snapshot ID if we are recreating the view.
	view.snapshotMu.Lock()
	snapshotID := view.snapshot.id
	view.snapshotMu.Unlock()
	v, _, release, err := s.createView(ctx, view.name, view.folder, view.tempWorkspace, options, snapshotID)
	release()
	if err != nil {
	// we have dropped the old view, but could not create the new one
	// this should not happen and is very bad, but we still need to clean
	// up the view array if it happens
	s.views[i] = s.views[len(s.views)-1]
	s.views[len(s.views)-1] = nil
	s.views = s.views[:len(s.views)-1]
	return nil, err
	}
	// substitute the new view into the array where the old view was
	s.views[i] = v
	return v, nil
	}

	func (s Session) dropView(ctx context.Context, v View) (int, error) {
	// we always need to drop the view map
	s.viewMap = make(map[span.URI]*View)
	for i := range s.views {
	if v == s.views[i] {
	// we found the view, drop it and return the index it was found at
	s.views[i] = nil
	v.shutdown(ctx)
	return i, nil
	}
	}
	return -1, errors.Errorf("view %s for %v not found", v.Name(), v.Folder())
	}

	func (s *Session) ModifyFiles(ctx context.Context, changes []source.FileModification) error {
	_, releases, err := s.DidModifyFiles(ctx, changes)
	for _, release := range releases {
	release()
	}
	return err
	}

	type fileChange struct {
	content []byte
	exists bool
	fileHandle source.VersionedFileHandle
	}

	func (s *Session) DidModifyFiles(ctx context.Context, changes []source.FileModification) (map[source.Snapshot][]span.URI, []func(), error) {
	views := make(map[View]map[span.URI]fileChange)
	affectedViews := map[span.URI][]*View{}

	overlays, err := s.updateOverlays(ctx, changes)
	if err != nil {
	return nil, nil, err
	}
	var forceReloadMetadata bool
	for _, c := range changes {
	if c.Action == source.InvalidateMetadata {
	forceReloadMetadata = true
	}

	// Build the list of affected views.
	var changedViews []*View
	for _, view := range s.views {
	// Don't propagate changes that are outside of the view's scope
	// or knowledge.
	if !view.relevantChange(c) {
	continue
	}
	changedViews = append(changedViews, view)
	}
	// If the change is not relevant to any view, but the change is
	// happening in the editor, assign it the most closely matching view.
	if len(changedViews) == 0 {
	if c.OnDisk {
	continue
	}
	bestView, err := s.viewOf(c.URI)
	if err != nil {
	return nil, nil, err
	}
	changedViews = append(changedViews, bestView)
	}
	affectedViews[c.URI] = changedViews

	// Apply the changes to all affected views.
	for _, view := range changedViews {
	// Make sure that the file is added to the view.
	if _, err := view.getFile(c.URI); err != nil {
	return nil, nil, err
	}
	if _, ok := views[view]; !ok {
	views[view] = make(map[span.URI]*fileChange)
	}
	if fh, ok := overlays[c.URI]; ok {
	views[view][c.URI] = &fileChange{
	content: fh.text,
	exists: true,
	fileHandle: fh,
	}
	} else {
	fsFile, err := s.cache.getFile(ctx, c.URI)
	if err != nil {
	return nil, nil, err
	}
	content, err := fsFile.Read()
	fh := &closedFile{fsFile}
	views[view][c.URI] = &fileChange{
	content: content,
	exists: err == nil,
	fileHandle: fh,
	}
	}
	}
	}

	var releases []func()
	viewToSnapshot := map[View]snapshot{}
	for view, changed := range views {
	snapshot, release := view.invalidateContent(ctx, changed, forceReloadMetadata)
	releases = append(releases, release)
	viewToSnapshot[view] = snapshot
	}

	// We only want to diagnose each changed file once, in the view to which
	// it "most" belongs. We do this by picking the best view for each URI,
	// and then aggregating the set of snapshots and their URIs (to avoid
	// diagnosing the same snapshot multiple times).
	snapshotURIs := map[source.Snapshot][]span.URI{}
	for _, mod := range changes {
	viewSlice, ok := affectedViews[mod.URI]
	if !ok \|\| len(viewSlice) == 0 {
	continue
	}
	view := bestViewForURI(mod.URI, viewSlice)
	snapshot, ok := viewToSnapshot[view]
	if !ok {
	panic(fmt.Sprintf("no snapshot for view %s", view.Folder()))
	}
	snapshotURIs[snapshot] = append(snapshotURIs[snapshot], mod.URI)
	}
	return snapshotURIs, releases, nil
	}

	func (s *Session) ExpandModificationsToDirectories(ctx context.Context, changes []source.FileModification) []source.FileModification {
	var snapshots []*snapshot
	for _, v := range s.views {
	snapshot, release := v.getSnapshot(ctx)
	defer release()
	snapshots = append(snapshots, snapshot)
	}
	knownDirs := knownDirectories(ctx, snapshots)
	var result []source.FileModification
	for _, c := range changes {
	if _, ok := knownDirs[c.URI]; !ok {
	result = append(result, c)
	continue
	}
	affectedFiles := knownFilesInDir(ctx, snapshots, c.URI)
	var fileChanges []source.FileModification
	for uri := range affectedFiles {
	fileChanges = append(fileChanges, source.FileModification{
	URI: uri,
	Action: c.Action,
	LanguageID: "",
	OnDisk: c.OnDisk,
	// changes to directories cannot include text or versions
	})
	}
	result = append(result, fileChanges...)
	}
	return result
	}

	// knownDirectories returns all of the directories known to the given
	// snapshots, including workspace directories and their subdirectories.
	func knownDirectories(ctx context.Context, snapshots []*snapshot) map[span.URI]struct{} {
	result := map[span.URI]struct{}{}
	for _, snapshot := range snapshots {
	dirs := snapshot.workspace.dirs(ctx, snapshot)
	for _, dir := range dirs {
	result[dir] = struct{}{}
	}
	subdirs := snapshot.allKnownSubdirs(ctx)
	for dir := range subdirs {
	result[dir] = struct{}{}
	}
	}
	return result
	}

	// knownFilesInDir returns the files known to the snapshots in the session.
	// It does not respect symlinks.
	func knownFilesInDir(ctx context.Context, snapshots []*snapshot, dir span.URI) map[span.URI]struct{} {
	files := map[span.URI]struct{}{}

	for _, snapshot := range snapshots {
	for _, uri := range snapshot.knownFilesInDir(ctx, dir) {
	files[uri] = struct{}{}
	}
	}
	return files
	}

	func (s Session) updateOverlays(ctx context.Context, changes []source.FileModification) (map[span.URI]overlay, error) {
	s.overlayMu.Lock()
	defer s.overlayMu.Unlock()

	for _, c := range changes {
	// Don't update overlays for metadata invalidations.
	if c.Action == source.InvalidateMetadata {
	continue
	}

	o, ok := s.overlays[c.URI]

	// If the file is not opened in an overlay and the change is on disk,
	// there's no need to update an overlay. If there is an overlay, we
	// may need to update the overlay's saved value.
	if !ok && c.OnDisk {
	continue
	}

	// Determine the file kind on open, otherwise, assume it has been cached.
	var kind source.FileKind
	switch c.Action {
	case source.Open:
	kind = source.DetectLanguage(c.LanguageID, c.URI.Filename())
	default:
	if !ok {
	return nil, errors.Errorf("updateOverlays: modifying unopened overlay %v", c.URI)
	}
	kind = o.kind
	}
	if kind == source.UnknownKind {
	return nil, errors.Errorf("updateOverlays: unknown file kind for %s", c.URI)
	}

	// Closing a file just deletes its overlay.
	if c.Action == source.Close {
	delete(s.overlays, c.URI)
	continue
	}

	// If the file is on disk, check if its content is the same as in the
	// overlay. Saves and on-disk file changes don't come with the file's
	// content.
	text := c.Text
	if text == nil && (c.Action == source.Save \|\| c.OnDisk) {
	if !ok {
	return nil, fmt.Errorf("no known content for overlay for %s", c.Action)
	}
	text = o.text
	}
	// On-disk changes don't come with versions.
	version := c.Version
	if c.OnDisk {
	version = o.version
	}
	hash := hashContents(text)
	var sameContentOnDisk bool
	switch c.Action {
	case source.Delete:
	// Do nothing. sameContentOnDisk should be false.
	case source.Save:
	// Make sure the version and content (if present) is the same.
	if o.version != version {
	return nil, errors.Errorf("updateOverlays: saving %s at version %v, currently at %v", c.URI, c.Version, o.version)
	}
	if c.Text != nil && o.hash != hash {
	return nil, errors.Errorf("updateOverlays: overlay %s changed on save", c.URI)
	}
	sameContentOnDisk = true
	default:
	fh, err := s.cache.getFile(ctx, c.URI)
	if err != nil {
	return nil, err
	}
	_, readErr := fh.Read()
	sameContentOnDisk = (readErr == nil && fh.FileIdentity().Hash == hash)
	}
	o = &overlay{
	session: s,
	uri: c.URI,
	version: version,
	text: text,
	kind: kind,
	hash: hash,
	saved: sameContentOnDisk,
	}
	s.overlays[c.URI] = o
	}

	// Get the overlays for each change while the session's overlay map is
	// locked.
	overlays := make(map[span.URI]*overlay)
	for _, c := range changes {
	if o, ok := s.overlays[c.URI]; ok {
	overlays[c.URI] = o
	}
	}
	return overlays, nil
	}

	func (s *Session) GetFile(ctx context.Context, uri span.URI) (source.FileHandle, error) {
	if overlay := s.readOverlay(uri); overlay != nil {
	return overlay, nil
	}
	// Fall back to the cache-level file system.
	return s.cache.getFile(ctx, uri)
	}

	func (s Session) readOverlay(uri span.URI) overlay {
	s.overlayMu.Lock()
	defer s.overlayMu.Unlock()

	if overlay, ok := s.overlays[uri]; ok {
	return overlay
	}
	return nil
	}

	func (s *Session) Overlays() []source.Overlay {
	s.overlayMu.Lock()
	defer s.overlayMu.Unlock()

	overlays := make([]source.Overlay, 0, len(s.overlays))
	for _, overlay := range s.overlays {
	overlays = append(overlays, overlay)
	}
	return overlays
	}

	func (s *Session) FileWatchingGlobPatterns(ctx context.Context) map[string]struct{} {
	patterns := map[string]struct{}{}
	for _, view := range s.views {
	snapshot, release := view.getSnapshot(ctx)
	for k, v := range snapshot.fileWatchingGlobPatterns(ctx) {
	patterns[k] = v
	}
	release()
	}
	return patterns
	}