// 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 cache implements the caching layer for gopls. package cache import ( "context" "encoding/json" "fmt" "io" "io/ioutil" "os" "os/exec" "path" "path/filepath" "reflect" "regexp" "sort" "strings" "sync" "time" "golang.org/x/mod/modfile" "golang.org/x/mod/semver" "golang.org/x/tools/internal/event" "golang.org/x/tools/internal/event/keys" "golang.org/x/tools/internal/gocommand" "golang.org/x/tools/internal/imports" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/memoize" "golang.org/x/tools/internal/span" "golang.org/x/tools/internal/xcontext" errors "golang.org/x/xerrors" ) type View struct { session *Session id string optionsMu sync.Mutex options *source.Options // mu protects most mutable state of the view. mu sync.Mutex // baseCtx is the context handed to NewView. This is the parent of all // background contexts created for this view. baseCtx context.Context // backgroundCtx is the current context used by background tasks initiated // by the view. backgroundCtx context.Context // cancel is called when all action being performed by the current view // should be stopped. cancel context.CancelFunc // name is the user visible name of this view. name string // folder is the folder with which this view was constructed. folder span.URI // root is the root directory of this view. If we are in GOPATH mode, this // is just the folder. If we are in module mode, this is the module root. root span.URI // TODO: The modules and workspaceModule fields should probably be moved to // the snapshot and invalidated on file changes. // modules is the set of modules currently in this workspace. modules map[span.URI]*moduleRoot // workspaceModule is an in-memory representation of the go.mod file for // the workspace module. workspaceModule *modfile.File // importsMu guards imports-related state, particularly the ProcessEnv. importsMu sync.Mutex // processEnv is the process env for this view. // Some of its fields can be changed dynamically by modifications to // the view's options. These fields are repopulated for every use. // Note: this contains cached module and filesystem state. // // TODO(suzmue): the state cached in the process env is specific to each view, // however, there is state that can be shared between views that is not currently // cached, like the module cache. processEnv *imports.ProcessEnv cleanupProcessEnv func() cacheRefreshDuration time.Duration cacheRefreshTimer *time.Timer cachedModFileIdentifier string cachedBuildFlags []string // keep track of files by uri and by basename, a single file may be mapped // to multiple uris, and the same basename may map to multiple files filesByURI map[span.URI]*fileBase filesByBase map[string][]*fileBase snapshotMu sync.Mutex snapshot *snapshot // initialized is closed when the view has been fully initialized. On // initialization, the view's workspace packages are loaded. All of the // fields below are set as part of initialization. If we failed to load, we // only retry if the go.mod file changes, to avoid too many go/packages // calls. // // When the view is created, initializeOnce is non-nil, initialized is // open, and initCancelFirstAttempt can be used to terminate // initialization. Once initialization completes, initializedErr may be set // and initializeOnce becomes nil. If initializedErr is non-nil, // initialization may be retried (depending on how files are changed). To // indicate that initialization should be retried, initializeOnce will be // set. The next time a caller requests workspace packages, the // initialization will retry. initialized chan struct{} initCancelFirstAttempt context.CancelFunc // initializationSema is used as a mutex to guard initializeOnce and // initializedErr, which will be updated after each attempt to initialize // the view. We use a channel instead of a mutex to avoid blocking when a // context is canceled. initializationSema chan struct{} initializeOnce *sync.Once initializedErr error // True if the view is either in GOPATH, a module, or some other // non go command build system. hasValidBuildConfiguration bool // The real go.mod and go.sum files that are attributed to a view. modURI, sumURI span.URI // The Go version in use: X in Go 1.X. goversion int // workspaceMode describes the way in which the view's workspace should be // loaded. workspaceMode workspaceMode // hasGopackagesDriver is true if the user has a value set for the // GOPACKAGESDRIVER environment variable or a gopackagesdriver binary on // their machine. hasGopackagesDriver bool // `go env` variables that need to be tracked by gopls. gocache, gomodcache, gopath, goprivate string // goEnv is the `go env` output collected when a view is created. // It includes the values of the environment variables above. goEnv map[string]string } type workspaceMode int const ( moduleMode workspaceMode = 1 << iota // tempModfile indicates whether or not the -modfile flag should be used. tempModfile // usesWorkspaceModule indicates support for the experimental workspace module // feature. usesWorkspaceModule ) type builtinPackageHandle struct { handle *memoize.Handle } type builtinPackageData struct { parsed *source.BuiltinPackage err error } type moduleRoot struct { rootURI span.URI modURI, sumURI span.URI } // fileBase holds the common functionality for all files. // It is intended to be embedded in the file implementations type fileBase struct { uris []span.URI fname string view *View } func (f *fileBase) URI() span.URI { return f.uris[0] } func (f *fileBase) filename() string { return f.fname } func (f *fileBase) addURI(uri span.URI) int { f.uris = append(f.uris, uri) return len(f.uris) } func (v *View) ID() string { return v.id } func (v *View) ValidBuildConfiguration() bool { return v.hasValidBuildConfiguration } func (v *View) ModFile() span.URI { return v.modURI } // tempModFile creates a temporary go.mod file based on the contents of the // given go.mod file. It is the caller's responsibility to clean up the files // when they are done using them. func tempModFile(modFh, sumFH source.FileHandle) (tmpURI span.URI, cleanup func(), err error) { filenameHash := hashContents([]byte(modFh.URI().Filename())) tmpMod, err := ioutil.TempFile("", fmt.Sprintf("go.%s.*.mod", filenameHash)) if err != nil { return "", nil, err } defer tmpMod.Close() tmpURI = span.URIFromPath(tmpMod.Name()) tmpSumName := sumFilename(tmpURI) content, err := modFh.Read() if err != nil { return "", nil, err } if _, err := tmpMod.Write(content); err != nil { return "", nil, err } cleanup = func() { _ = os.Remove(tmpSumName) _ = os.Remove(tmpURI.Filename()) } // Be careful to clean up if we return an error from this function. defer func() { if err != nil { cleanup() cleanup = nil } }() // Create an analogous go.sum, if one exists. if sumFH != nil { sumContents, err := sumFH.Read() if err != nil { return "", cleanup, err } if err := ioutil.WriteFile(tmpSumName, sumContents, 0655); err != nil { return "", cleanup, err } } return tmpURI, cleanup, nil } func (v *View) Session() source.Session { return v.session } // Name returns the user visible name of this view. func (v *View) Name() string { return v.name } // Folder returns the root of this view. func (v *View) Folder() span.URI { return v.folder } func (v *View) Options() *source.Options { v.optionsMu.Lock() defer v.optionsMu.Unlock() return v.options } func minorOptionsChange(a, b *source.Options) bool { // Check if any of the settings that modify our understanding of files have been changed mapEnv := func(env []string) map[string]string { m := make(map[string]string, len(env)) for _, x := range env { split := strings.SplitN(x, "=", 2) if len(split) != 2 { continue } m[split[0]] = split[1] } return m } aEnv := mapEnv(a.Env) bEnv := mapEnv(b.Env) if !reflect.DeepEqual(aEnv, bEnv) { return false } aBuildFlags := make([]string, len(a.BuildFlags)) bBuildFlags := make([]string, len(b.BuildFlags)) copy(aBuildFlags, a.BuildFlags) copy(bBuildFlags, b.BuildFlags) sort.Strings(aBuildFlags) sort.Strings(bBuildFlags) if !reflect.DeepEqual(aBuildFlags, bBuildFlags) { return false } // the rest of the options are benign return true } func (v *View) SetOptions(ctx context.Context, options *source.Options) (source.View, error) { // no need to rebuild the view if the options were not materially changed v.optionsMu.Lock() if minorOptionsChange(v.options, options) { v.options = options v.optionsMu.Unlock() return v, nil } v.optionsMu.Unlock() newView, err := v.session.updateView(ctx, v, options) return newView, err } func (v *View) Rebuild(ctx context.Context) (source.Snapshot, func(), error) { newView, err := v.session.updateView(ctx, v, v.Options()) if err != nil { return nil, func() {}, err } snapshot, release := newView.Snapshot(ctx) return snapshot, release, nil } func (v *View) WriteEnv(ctx context.Context, w io.Writer) error { v.optionsMu.Lock() env, buildFlags := v.envLocked() v.optionsMu.Unlock() fullEnv := make(map[string]string) for k, v := range v.goEnv { fullEnv[k] = v } for _, v := range env { s := strings.SplitN(v, "=", 2) if len(s) != 2 { continue } if _, ok := fullEnv[s[0]]; ok { fullEnv[s[0]] = s[1] } } fmt.Fprintf(w, "go env for %v\n(root %s)\n(valid build configuration = %v)\n(build flags: %v)\n", v.folder.Filename(), v.root.Filename(), v.hasValidBuildConfiguration, buildFlags) for k, v := range fullEnv { fmt.Fprintf(w, "%s=%s\n", k, v) } return nil } func (v *View) RunProcessEnvFunc(ctx context.Context, fn func(*imports.Options) error) error { v.importsMu.Lock() defer v.importsMu.Unlock() // Use temporary go.mod files, but always go to disk for the contents. // Rebuilding the cache is expensive, and we don't want to do it for // transient changes. var modFH, sumFH source.FileHandle var modFileIdentifier string var err error if v.modURI != "" { modFH, err = v.session.cache.getFile(ctx, v.modURI) if err != nil { return err } modFileIdentifier = modFH.FileIdentity().Hash } if v.sumURI != "" { sumFH, err = v.session.cache.getFile(ctx, v.sumURI) if err != nil { return err } } // v.goEnv is immutable -- changes make a new view. Options can change. // We can't compare build flags directly because we may add -modfile. v.optionsMu.Lock() localPrefix := v.options.Local currentBuildFlags := v.options.BuildFlags changed := !reflect.DeepEqual(currentBuildFlags, v.cachedBuildFlags) || v.options.VerboseOutput != (v.processEnv.Logf != nil) || modFileIdentifier != v.cachedModFileIdentifier v.optionsMu.Unlock() // If anything relevant to imports has changed, clear caches and // update the processEnv. Clearing caches blocks on any background // scans. if changed { // As a special case, skip cleanup the first time -- we haven't fully // initialized the environment yet and calling GetResolver will do // unnecessary work and potentially mess up the go.mod file. if v.cleanupProcessEnv != nil { if resolver, err := v.processEnv.GetResolver(); err == nil { resolver.(*imports.ModuleResolver).ClearForNewMod() } v.cleanupProcessEnv() } v.cachedModFileIdentifier = modFileIdentifier v.cachedBuildFlags = currentBuildFlags v.cleanupProcessEnv, err = v.populateProcessEnv(ctx, modFH, sumFH) if err != nil { return err } } // Run the user function. opts := &imports.Options{ // Defaults. AllErrors: true, Comments: true, Fragment: true, FormatOnly: false, TabIndent: true, TabWidth: 8, Env: v.processEnv, LocalPrefix: localPrefix, } if err := fn(opts); err != nil { return err } if v.cacheRefreshTimer == nil { // Don't refresh more than twice per minute. delay := 30 * time.Second // Don't spend more than a couple percent of the time refreshing. if adaptive := 50 * v.cacheRefreshDuration; adaptive > delay { delay = adaptive } v.cacheRefreshTimer = time.AfterFunc(delay, v.refreshProcessEnv) } return nil } func (v *View) refreshProcessEnv() { start := time.Now() v.importsMu.Lock() env := v.processEnv if resolver, err := v.processEnv.GetResolver(); err == nil { resolver.ClearForNewScan() } v.importsMu.Unlock() // We don't have a context handy to use for logging, so use the stdlib for now. event.Log(v.baseCtx, "background imports cache refresh starting") if err := imports.PrimeCache(context.Background(), env); err == nil { event.Log(v.baseCtx, fmt.Sprintf("background refresh finished after %v", time.Since(start))) } else { event.Log(v.baseCtx, fmt.Sprintf("background refresh finished after %v", time.Since(start)), keys.Err.Of(err)) } v.importsMu.Lock() v.cacheRefreshDuration = time.Since(start) v.cacheRefreshTimer = nil v.importsMu.Unlock() } // populateProcessEnv sets the dynamically configurable fields for the view's // process environment. Assumes that the caller is holding the s.view.importsMu. func (v *View) populateProcessEnv(ctx context.Context, modFH, sumFH source.FileHandle) (cleanup func(), err error) { cleanup = func() {} pe := v.processEnv v.optionsMu.Lock() pe.BuildFlags = append([]string(nil), v.options.BuildFlags...) if v.options.VerboseOutput { pe.Logf = func(format string, args ...interface{}) { event.Log(ctx, fmt.Sprintf(format, args...)) } } else { pe.Logf = nil } v.optionsMu.Unlock() pe.Env = map[string]string{} for k, v := range v.goEnv { pe.Env[k] = v } modmod, err := v.needsModEqualsMod(ctx, modFH) if err != nil { return cleanup, err } if modmod { // -mod isn't really a build flag, but we can get away with it given // the set of commands that goimports wants to run. pe.BuildFlags = append([]string{"-mod=mod"}, pe.BuildFlags...) } // Add -modfile to the build flags, if we are using it. if v.workspaceMode&tempModfile != 0 && modFH != nil { var tmpURI span.URI tmpURI, cleanup, err = tempModFile(modFH, sumFH) if err != nil { return nil, err } pe.BuildFlags = append(pe.BuildFlags, fmt.Sprintf("-modfile=%s", tmpURI.Filename())) } return cleanup, nil } // envLocked returns the environment and build flags for the current view. // It assumes that the caller is holding the view's optionsMu. func (v *View) envLocked() ([]string, []string) { env := append(os.Environ(), v.options.Env...) buildFlags := append([]string{}, v.options.BuildFlags...) return env, buildFlags } func (v *View) contains(uri span.URI) bool { return strings.HasPrefix(string(uri), string(v.root)) } func (v *View) mapFile(uri span.URI, f *fileBase) { v.filesByURI[uri] = f if f.addURI(uri) == 1 { basename := basename(f.filename()) v.filesByBase[basename] = append(v.filesByBase[basename], f) } } func basename(filename string) string { return strings.ToLower(filepath.Base(filename)) } func (v *View) relevantChange(c source.FileModification) bool { // If the file is known to the view, the change is relevant. known := v.knownFile(c.URI) // If the file is not known to the view, and the change is only on-disk, // we should not invalidate the snapshot. This is necessary because Emacs // sends didChangeWatchedFiles events for temp files. if !known && c.OnDisk && (c.Action == source.Change || c.Action == source.Delete) { return false } return v.contains(c.URI) || known } func (v *View) knownFile(uri span.URI) bool { v.mu.Lock() defer v.mu.Unlock() f, err := v.findFile(uri) return f != nil && err == nil } // getFile returns a file for the given URI. It will always succeed because it // adds the file to the managed set if needed. func (v *View) getFile(uri span.URI) (*fileBase, error) { v.mu.Lock() defer v.mu.Unlock() f, err := v.findFile(uri) if err != nil { return nil, err } else if f != nil { return f, nil } f = &fileBase{ view: v, fname: uri.Filename(), } v.mapFile(uri, f) return f, nil } // findFile checks the cache for any file matching the given uri. // // An error is only returned for an irreparable failure, for example, if the // filename in question does not exist. func (v *View) findFile(uri span.URI) (*fileBase, error) { if f := v.filesByURI[uri]; f != nil { // a perfect match return f, nil } // no exact match stored, time to do some real work // check for any files with the same basename fname := uri.Filename() basename := basename(fname) if candidates := v.filesByBase[basename]; candidates != nil { pathStat, err := os.Stat(fname) if os.IsNotExist(err) { return nil, err } if err != nil { return nil, nil // the file may exist, return without an error } for _, c := range candidates { if cStat, err := os.Stat(c.filename()); err == nil { if os.SameFile(pathStat, cStat) { // same file, map it v.mapFile(uri, c) return c, nil } } } } // no file with a matching name was found, it wasn't in our cache return nil, nil } func (v *View) Shutdown(ctx context.Context) { v.session.removeView(ctx, v) } func (v *View) shutdown(ctx context.Context) { // Cancel the initial workspace load if it is still running. v.initCancelFirstAttempt() v.mu.Lock() if v.cancel != nil { v.cancel() v.cancel = nil } v.mu.Unlock() v.snapshotMu.Lock() go v.snapshot.generation.Destroy() v.snapshotMu.Unlock() } func (v *View) BackgroundContext() context.Context { v.mu.Lock() defer v.mu.Unlock() return v.backgroundCtx } func (v *View) IgnoredFile(uri span.URI) bool { filename := uri.Filename() var prefixes []string if v.modURI == "" { for _, entry := range filepath.SplitList(v.gopath) { prefixes = append(prefixes, filepath.Join(entry, "src")) } } else { mainMod := filepath.Dir(v.modURI.Filename()) prefixes = []string{mainMod, v.gomodcache} } for _, prefix := range prefixes { if strings.HasPrefix(filename, prefix) { return checkIgnored(filename[len(prefix):]) } } return false } // checkIgnored implements go list's exclusion rules. go help list: // Directory and file names that begin with "." or "_" are ignored // by the go tool, as are directories named "testdata". func checkIgnored(suffix string) bool { for _, component := range strings.Split(suffix, string(filepath.Separator)) { if len(component) == 0 { continue } if component[0] == '.' || component[0] == '_' || component == "testdata" { return true } } return false } func (v *View) Snapshot(ctx context.Context) (source.Snapshot, func()) { s := v.getSnapshot() return s, s.generation.Acquire(ctx) } func (v *View) getSnapshot() *snapshot { v.snapshotMu.Lock() defer v.snapshotMu.Unlock() return v.snapshot } func (v *View) initialize(ctx context.Context, s *snapshot, firstAttempt bool) { select { case <-ctx.Done(): return case v.initializationSema <- struct{}{}: } defer func() { <-v.initializationSema }() if v.initializeOnce == nil { return } v.initializeOnce.Do(func() { defer func() { v.initializeOnce = nil if firstAttempt { close(v.initialized) } }() // If we have multiple modules, we need to load them by paths. var scopes []interface{} if len(v.modules) > 0 { // TODO(rstambler): Retry the initial workspace load for whichever // modules we failed to load. for _, mod := range v.modules { fh, err := s.GetFile(ctx, mod.modURI) if err != nil { v.initializedErr = err continue } parsed, err := s.ParseMod(ctx, fh) if err != nil { v.initializedErr = err continue } path := parsed.File.Module.Mod.Path scopes = append(scopes, moduleLoadScope(path)) } } else { scopes = append(scopes, viewLoadScope("LOAD_VIEW")) } err := s.load(ctx, append(scopes, packagePath("builtin"))...) if ctx.Err() != nil { return } if err != nil { event.Error(ctx, "initial workspace load failed", err) } v.initializedErr = err }) } // AwaitInitialized waits until a view is initialized func (v *View) AwaitInitialized(ctx context.Context) { select { case <-ctx.Done(): return case <-v.initialized: } // We typically prefer to run something as intensive as the IWL without // blocking. I'm not sure if there is a way to do that here. v.initialize(ctx, v.getSnapshot(), false) } // invalidateContent invalidates the content of a Go file, // including any position and type information that depends on it. // It returns true if we were already tracking the given file, false otherwise. func (v *View) invalidateContent(ctx context.Context, uris map[span.URI]source.VersionedFileHandle, forceReloadMetadata bool) (source.Snapshot, func()) { // Detach the context so that content invalidation cannot be canceled. ctx = xcontext.Detach(ctx) // Cancel all still-running previous requests, since they would be // operating on stale data. v.cancelBackground() // Do not clone a snapshot until its view has finished initializing. v.AwaitInitialized(ctx) // This should be the only time we hold the view's snapshot lock for any period of time. v.snapshotMu.Lock() defer v.snapshotMu.Unlock() oldSnapshot := v.snapshot v.snapshot = oldSnapshot.clone(ctx, uris, forceReloadMetadata) go oldSnapshot.generation.Destroy() return v.snapshot, v.snapshot.generation.Acquire(ctx) } func (v *View) cancelBackground() { v.mu.Lock() defer v.mu.Unlock() if v.cancel == nil { // this can happen during shutdown return } v.cancel() v.backgroundCtx, v.cancel = context.WithCancel(v.baseCtx) } func (v *View) maybeReinitialize() { v.initializationSema <- struct{}{} defer func() { <-v.initializationSema }() if v.initializedErr == nil { return } var once sync.Once v.initializeOnce = &once } func (v *View) setBuildInformation(ctx context.Context, options *source.Options) error { if err := checkPathCase(v.Folder().Filename()); err != nil { return errors.Errorf("invalid workspace configuration: %w", err) } var err error v.goversion, err = v.goVersion(ctx, v.Options().Env) if err != nil { return err } // Make sure to get the `go env` before continuing with initialization. modFile, err := v.setGoEnv(ctx, options.Env) if err != nil { return err } if modFile != "" { v.workspaceMode |= moduleMode } if modFile == os.DevNull { return nil } v.modURI = span.URIFromPath(modFile) // Set the sumURI, if the go.sum exists. sumFilename := filepath.Join(filepath.Dir(modFile), "go.sum") if stat, _ := os.Stat(sumFilename); stat != nil { v.sumURI = span.URIFromPath(sumFilename) } if options.ExpandWorkspaceToModule && v.modURI != "" { v.root = span.URIFromPath(filepath.Dir(v.modURI.Filename())) } // The user has disabled the use of the -modfile flag or has no go.mod file. if !options.TempModfile || v.modURI == "" { return nil } if v.goversion >= 14 { v.workspaceMode |= tempModfile } return nil } // OS-specific path case check, for case-insensitive filesystems. var checkPathCase = defaultCheckPathCase func defaultCheckPathCase(path string) error { return nil } func (v *View) setBuildConfiguration() (isValid bool) { defer func() { v.hasValidBuildConfiguration = isValid }() // Since we only really understand the `go` command, if the user has a // different GOPACKAGESDRIVER, assume that their configuration is valid. if v.hasGopackagesDriver { return true } // Check if the user is working within a module or if we have found // multiple modules in the workspace. if v.modURI != "" { return true } if len(v.modules) > 0 { return true } // The user may have a multiple directories in their GOPATH. // Check if the workspace is within any of them. for _, gp := range filepath.SplitList(v.gopath) { if isSubdirectory(filepath.Join(gp, "src"), v.folder.Filename()) { return true } } return false } func isSubdirectory(root, leaf string) bool { rel, err := filepath.Rel(root, leaf) return err == nil && !strings.HasPrefix(rel, "..") } // setGoEnv sets the view's various GO* values. It also returns the view's // GOMOD value, which need not be cached. func (v *View) setGoEnv(ctx context.Context, configEnv []string) (string, error) { var gomod string vars := map[string]*string{ "GOCACHE": &v.gocache, "GOPATH": &v.gopath, "GOPRIVATE": &v.goprivate, "GOMODCACHE": &v.gomodcache, "GOMOD": &gomod, } // We can save ~200 ms by requesting only the variables we care about. args := append([]string{"-json"}, imports.RequiredGoEnvVars...) for k := range vars { args = append(args, k) } inv := gocommand.Invocation{ Verb: "env", Args: args, Env: configEnv, WorkingDir: v.Folder().Filename(), } // Don't go through runGoCommand, as we don't need a temporary -modfile to // run `go env`. stdout, err := v.session.gocmdRunner.Run(ctx, inv) if err != nil { return "", err } if err := json.Unmarshal(stdout.Bytes(), &v.goEnv); err != nil { return "", err } for key, ptr := range vars { *ptr = v.goEnv[key] } // Old versions of Go don't have GOMODCACHE, so emulate it. if v.gomodcache == "" && v.gopath != "" { v.gomodcache = filepath.Join(filepath.SplitList(v.gopath)[0], "pkg/mod") } // The value of GOPACKAGESDRIVER is not returned through the go command. gopackagesdriver := os.Getenv("GOPACKAGESDRIVER") for _, s := range configEnv { split := strings.SplitN(s, "=", 2) if split[0] == "GOPACKAGESDRIVER" { gopackagesdriver = split[1] } } // A user may also have a gopackagesdriver binary on their machine, which // works the same way as setting GOPACKAGESDRIVER. tool, _ := exec.LookPath("gopackagesdriver") v.hasGopackagesDriver = gopackagesdriver != "off" && (gopackagesdriver != "" || tool != "") return gomod, nil } func (v *View) IsGoPrivatePath(target string) bool { return globsMatchPath(v.goprivate, target) } // Copied from // https://cs.opensource.google/go/go/+/master:src/cmd/go/internal/str/path.go;l=58;drc=2910c5b4a01a573ebc97744890a07c1a3122c67a func globsMatchPath(globs, target string) bool { for globs != "" { // Extract next non-empty glob in comma-separated list. var glob string if i := strings.Index(globs, ","); i >= 0 { glob, globs = globs[:i], globs[i+1:] } else { glob, globs = globs, "" } if glob == "" { continue } // A glob with N+1 path elements (N slashes) needs to be matched // against the first N+1 path elements of target, // which end just before the N+1'th slash. n := strings.Count(glob, "/") prefix := target // Walk target, counting slashes, truncating at the N+1'th slash. for i := 0; i < len(target); i++ { if target[i] == '/' { if n == 0 { prefix = target[:i] break } n-- } } if n > 0 { // Not enough prefix elements. continue } matched, _ := path.Match(glob, prefix) if matched { return true } } return false } // This function will return the main go.mod file for this folder if it exists // and whether the -modfile flag exists for this version of go. func (v *View) goVersion(ctx context.Context, env []string) (int, error) { // Check the go version by running "go list" with modules off. // Borrowed from internal/imports/mod.go:620. const format = `{{context.ReleaseTags}}` inv := gocommand.Invocation{ Verb: "list", Args: []string{"-e", "-f", format}, Env: append(env, "GO111MODULE=off"), WorkingDir: v.root.Filename(), } stdoutBytes, err := v.session.gocmdRunner.Run(ctx, inv) if err != nil { return 0, err } stdout := stdoutBytes.String() if len(stdout) < 3 { return 0, fmt.Errorf("bad ReleaseTags output: %q", stdout) } // Split up "[go1.1 go1.15]" tags := strings.Fields(stdout[1 : len(stdout)-2]) for i := len(tags) - 1; i >= 0; i-- { var version int if _, err := fmt.Sscanf(tags[i], "go1.%d", &version); err != nil { continue } return version, nil } return 0, fmt.Errorf("no parseable ReleaseTags in %v", tags) } var modFlagRegexp = regexp.MustCompile(`-mod[ =](\w+)`) func (v *View) needsModEqualsMod(ctx context.Context, modFH source.FileHandle) (bool, error) { if v.goversion < 16 || v.workspaceMode&moduleMode == 0 { return false, nil } matches := modFlagRegexp.FindStringSubmatch(v.goEnv["GOFLAGS"]) var modFlag string if len(matches) != 0 { modFlag = matches[1] } if modFlag != "" { // Don't override an explicit '-mod=vendor' argument. // We do want to override '-mod=readonly': it would break various module code lenses, // and on 1.16 we know -modfile is available, so we won't mess with go.mod anyway. return modFlag == "vendor", nil } // In workspace module mode, there may not be a go.mod file. // TODO: Once vendor mode is designed, update to check if it's on, however that works. if modFH == nil { return true, nil } modBytes, err := modFH.Read() if err != nil { return false, err } modFile, err := modfile.Parse(modFH.URI().Filename(), modBytes, nil) if err != nil { return false, err } if fi, err := os.Stat(filepath.Join(filepath.Dir(v.modURI.Filename()), "vendor")); err != nil || !fi.IsDir() { return true, nil } vendorEnabled := modFile.Go.Version != "" && semver.Compare("v"+modFile.Go.Version, "v1.14") >= 0 return !vendorEnabled, nil }