// 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 lsp import ( "context" "crypto/sha256" "fmt" "os" "path/filepath" "strings" "sync" "golang.org/x/tools/internal/event" "golang.org/x/tools/internal/lsp/debug/tag" "golang.org/x/tools/internal/lsp/mod" "golang.org/x/tools/internal/lsp/protocol" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/span" "golang.org/x/tools/internal/xcontext" errors "golang.org/x/xerrors" ) // idWithAnalysis is used to track if the diagnostics for a given file were // computed with analyses. type idWithAnalysis struct { id source.VersionedFileIdentity withAnalysis bool } func (s *Server) diagnoseDetached(snapshot source.Snapshot) { ctx := snapshot.View().BackgroundContext() ctx = xcontext.Detach(ctx) reports, shows := s.diagnose(ctx, snapshot, false) if shows != nil { // If a view has been created or the configuration changed, warn the user. s.client.ShowMessage(ctx, shows) } s.publishReports(ctx, snapshot, reports) } func (s *Server) diagnoseSnapshot(snapshot source.Snapshot) { ctx := snapshot.View().BackgroundContext() // Ignore possible workspace configuration warnings in the normal flow. reports, _ := s.diagnose(ctx, snapshot, false) s.publishReports(ctx, snapshot, reports) } // diagnose is a helper function for running diagnostics with a given context. // Do not call it directly. func (s *Server) diagnose(ctx context.Context, snapshot source.Snapshot, alwaysAnalyze bool) (map[idWithAnalysis]map[string]*source.Diagnostic, *protocol.ShowMessageParams) { ctx, done := event.Start(ctx, "lsp:background-worker") defer done() // Wait for a free diagnostics slot. select { case <-ctx.Done(): return nil, nil case s.diagnosticsSema <- struct{}{}: } defer func() { <-s.diagnosticsSema }() var reportsMu sync.Mutex reports := map[idWithAnalysis]map[string]*source.Diagnostic{} // First, diagnose the go.mod file. modReports, modErr := mod.Diagnostics(ctx, snapshot) if ctx.Err() != nil { return nil, nil } if modErr != nil { event.Error(ctx, "warning: diagnose go.mod", modErr, tag.Directory.Of(snapshot.View().Folder().Filename())) } for id, diags := range modReports { if id.URI == "" { event.Error(ctx, "missing URI for module diagnostics", fmt.Errorf("empty URI"), tag.Directory.Of(snapshot.View().Folder().Filename())) continue } key := idWithAnalysis{ id: id, withAnalysis: true, // treat go.mod diagnostics like analyses } if _, ok := reports[key]; !ok { reports[key] = map[string]*source.Diagnostic{} } for _, d := range diags { reports[key][diagnosticKey(d)] = d } } // Diagnose all of the packages in the workspace. wsPkgs, err := snapshot.WorkspacePackages(ctx) if err != nil { if errors.Is(err, context.Canceled) { return nil, nil } // Try constructing a more helpful error message out of this error. if s.handleFatalErrors(ctx, snapshot, modErr, err) { return nil, nil } event.Error(ctx, "errors diagnosing workspace", err, tag.Snapshot.Of(snapshot.ID()), tag.Directory.Of(snapshot.View().Folder())) // Present any `go list` errors directly to the user. if errors.Is(err, source.PackagesLoadError) { if err := s.client.ShowMessage(ctx, &protocol.ShowMessageParams{ Type: protocol.Error, Message: fmt.Sprintf(`The code in the workspace failed to compile (see the error message below). If you believe this is a mistake, please file an issue: https://github.com/golang/go/issues/new. %v`, err), }); err != nil { event.Error(ctx, "ShowMessage failed", err, tag.Directory.Of(snapshot.View().Folder().Filename())) } } return nil, nil } var ( showMsg *protocol.ShowMessageParams wg sync.WaitGroup ) for _, pkg := range wsPkgs { wg.Add(1) go func(pkg source.Package) { defer wg.Done() withAnalysis := alwaysAnalyze // only run analyses for packages with open files var gcDetailsDir span.URI // find the package's optimization details, if available for _, pgf := range pkg.CompiledGoFiles() { if snapshot.IsOpen(pgf.URI) { withAnalysis = true } if gcDetailsDir == "" { dirURI := span.URIFromPath(filepath.Dir(pgf.URI.Filename())) s.gcOptimizationDetailsMu.Lock() _, ok := s.gcOptimizatonDetails[dirURI] s.gcOptimizationDetailsMu.Unlock() if ok { gcDetailsDir = dirURI } } } pkgReports, warn, err := source.Diagnostics(ctx, snapshot, pkg, withAnalysis) // Check if might want to warn the user about their build configuration. // Our caller decides whether to send the message. if warn && !snapshot.View().ValidBuildConfiguration() { showMsg = &protocol.ShowMessageParams{ Type: protocol.Warning, Message: `You are neither in a module nor in your GOPATH. If you are using modules, please open your editor to a directory in your module. If you believe this warning is incorrect, please file an issue: https://github.com/golang/go/issues/new.`, } } if err != nil { event.Error(ctx, "warning: diagnose package", err, tag.Snapshot.Of(snapshot.ID()), tag.Package.Of(pkg.ID())) return } // Add all reports to the global map, checking for duplicates. reportsMu.Lock() for id, diags := range pkgReports { key := idWithAnalysis{ id: id, withAnalysis: withAnalysis, } if _, ok := reports[key]; !ok { reports[key] = map[string]*source.Diagnostic{} } for _, d := range diags { reports[key][diagnosticKey(d)] = d } } // If gc optimization details are available, add them to the // diagnostic reports. if gcDetailsDir != "" { gcReports, err := source.GCOptimizationDetails(ctx, snapshot, gcDetailsDir) if err != nil { event.Error(ctx, "warning: gc details", err, tag.Snapshot.Of(snapshot.ID())) } for id, diags := range gcReports { key := idWithAnalysis{ id: id, withAnalysis: withAnalysis, } if _, ok := reports[key]; !ok { reports[key] = map[string]*source.Diagnostic{} } for _, d := range diags { reports[key][diagnosticKey(d)] = d } } } reportsMu.Unlock() }(pkg) } wg.Wait() return reports, showMsg } // diagnosticKey creates a unique identifier for a given diagnostic, since we // cannot use source.Diagnostics as map keys. This is used to de-duplicate // diagnostics. func diagnosticKey(d *source.Diagnostic) string { var tags, related string for _, t := range d.Tags { tags += fmt.Sprintf("%s", t) } for _, r := range d.Related { related += fmt.Sprintf("%s%s%s", r.URI, r.Message, r.Range) } key := fmt.Sprintf("%s%s%s%s%s%s", d.Message, d.Range, d.Severity, d.Source, tags, related) return fmt.Sprintf("%x", sha256.Sum256([]byte(key))) } func (s *Server) publishReports(ctx context.Context, snapshot source.Snapshot, reports map[idWithAnalysis]map[string]*source.Diagnostic) { // Check for context cancellation before publishing diagnostics. if ctx.Err() != nil { return } s.deliveredMu.Lock() defer s.deliveredMu.Unlock() for key, diagnosticsMap := range reports { // Don't deliver diagnostics if the context has already been canceled. if ctx.Err() != nil { break } // Pre-sort diagnostics to avoid extra work when we compare them. var diagnostics []*source.Diagnostic for _, d := range diagnosticsMap { diagnostics = append(diagnostics, d) } source.SortDiagnostics(diagnostics) toSend := sentDiagnostics{ id: key.id, sorted: diagnostics, withAnalysis: key.withAnalysis, snapshotID: snapshot.ID(), } // We use the zero values if this is an unknown file. delivered := s.delivered[key.id.URI] // Snapshot IDs are always increasing, so we use them instead of file // versions to create the correct order for diagnostics. // If we've already delivered diagnostics for a future snapshot for this file, // do not deliver them. if delivered.snapshotID > toSend.snapshotID { // Do not update the delivered map since it already contains newer diagnostics. continue } // Check if we should reuse the cached diagnostics. if equalDiagnostics(delivered.sorted, diagnostics) { // Make sure to update the delivered map. s.delivered[key.id.URI] = toSend continue } // If we've already delivered diagnostics for this file, at this // snapshot, with analyses, do not send diagnostics without analyses. if delivered.snapshotID == toSend.snapshotID && delivered.id == toSend.id && delivered.withAnalysis && !toSend.withAnalysis { // Do not update the delivered map since it already contains better diagnostics. continue } if err := s.client.PublishDiagnostics(ctx, &protocol.PublishDiagnosticsParams{ Diagnostics: toProtocolDiagnostics(diagnostics), URI: protocol.URIFromSpanURI(key.id.URI), Version: key.id.Version, }); err != nil { event.Error(ctx, "publishReports: failed to deliver diagnostic", err, tag.URI.Of(key.id.URI)) continue } // Update the delivered map. s.delivered[key.id.URI] = toSend } } // equalDiagnostics returns true if the 2 lists of diagnostics are equal. // It assumes that both a and b are already sorted. func equalDiagnostics(a, b []*source.Diagnostic) bool { if len(a) != len(b) { return false } for i := 0; i < len(a); i++ { if source.CompareDiagnostic(a[i], b[i]) != 0 { return false } } return true } func toProtocolDiagnostics(diagnostics []*source.Diagnostic) []protocol.Diagnostic { reports := []protocol.Diagnostic{} for _, diag := range diagnostics { related := make([]protocol.DiagnosticRelatedInformation, 0, len(diag.Related)) for _, rel := range diag.Related { related = append(related, protocol.DiagnosticRelatedInformation{ Location: protocol.Location{ URI: protocol.URIFromSpanURI(rel.URI), Range: rel.Range, }, Message: rel.Message, }) } reports = append(reports, protocol.Diagnostic{ // diag.Message might start with \n or \t Message: strings.TrimSpace(diag.Message), Range: diag.Range, Severity: diag.Severity, Source: diag.Source, Tags: diag.Tags, RelatedInformation: related, }) } return reports } func (s *Server) handleFatalErrors(ctx context.Context, snapshot source.Snapshot, modErr, loadErr error) bool { modURI := snapshot.View().ModFile() // If the folder has no Go code in it, we shouldn't spam the user with a warning. var hasGo bool _ = filepath.Walk(snapshot.View().Folder().Filename(), func(path string, info os.FileInfo, err error) error { if !strings.HasSuffix(info.Name(), ".go") { return nil } hasGo = true return errors.New("done") }) if !hasGo { return true } // All other workarounds are for errors associated with modules. if modURI == "" { return false } switch loadErr { case source.InconsistentVendoring: item, err := s.client.ShowMessageRequest(ctx, &protocol.ShowMessageRequestParams{ Type: protocol.Error, Message: `Inconsistent vendoring detected. Please re-run "go mod vendor". See https://github.com/golang/go/issues/39164 for more detail on this issue.`, Actions: []protocol.MessageActionItem{ {Title: "go mod vendor"}, }, }) // If the user closes the pop-up, don't show them further errors. if item == nil { return true } if err != nil { event.Error(ctx, "go mod vendor ShowMessageRequest failed", err, tag.Directory.Of(snapshot.View().Folder().Filename())) return true } if err := s.directGoModCommand(ctx, protocol.URIFromSpanURI(modURI), "mod", []string{"vendor"}...); err != nil { if err := s.client.ShowMessage(ctx, &protocol.ShowMessageParams{ Type: protocol.Error, Message: fmt.Sprintf(`"go mod vendor" failed with %v`, err), }); err != nil { if err != nil { event.Error(ctx, "go mod vendor ShowMessage failed", err, tag.Directory.Of(snapshot.View().Folder().Filename())) } } } return true } // If there is a go.mod-related error, as well as a workspace load error, // there is likely an issue with the go.mod file. Try to parse the error // message and create a diagnostic. if modErr == nil { return false } if errors.Is(loadErr, source.PackagesLoadError) { fh, err := snapshot.GetFile(ctx, modURI) if err != nil { return false } diag, err := mod.ExtractGoCommandError(ctx, snapshot, fh, loadErr) if err != nil { return false } s.publishReports(ctx, snapshot, map[idWithAnalysis]map[string]*source.Diagnostic{ {id: fh.VersionedFileIdentity()}: {diagnosticKey(diag): diag}, }) return true } return false }