// 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 cmd handles the gopls command line. // It contains a handler for each of the modes, along with all the flag handling // and the command line output format. package cmd import ( "context" "flag" "fmt" "go/ast" "go/parser" "go/token" "io/ioutil" "log" "net" "os" "strings" "sync" "golang.org/x/tools/go/packages" "golang.org/x/tools/internal/jsonrpc2" "golang.org/x/tools/internal/lsp" "golang.org/x/tools/internal/lsp/protocol" "golang.org/x/tools/internal/span" "golang.org/x/tools/internal/tool" ) // Application is the main application as passed to tool.Main // It handles the main command line parsing and dispatch to the sub commands. type Application struct { // Core application flags // Embed the basic profiling flags supported by the tool package tool.Profile // We include the server configuration directly for now, so the flags work // even without the verb. // TODO: Remove this when we stop allowing the serve verb by default. Serve Serve // An initial, common go/packages configuration Config packages.Config // Support for remote lsp server Remote string `flag:"remote" help:"*EXPERIMENTAL* - forward all commands to a remote lsp"` // Enable verbose logging Verbose bool `flag:"v" help:"Verbose output"` } // Name implements tool.Application returning the binary name. func (app *Application) Name() string { return "gopls" } // Usage implements tool.Application returning empty extra argument usage. func (app *Application) Usage() string { return " [command-flags] [command-args]" } // ShortHelp implements tool.Application returning the main binary help. func (app *Application) ShortHelp() string { return "The Go Language source tools." } // DetailedHelp implements tool.Application returning the main binary help. // This includes the short help for all the sub commands. func (app *Application) DetailedHelp(f *flag.FlagSet) { fmt.Fprint(f.Output(), ` Available commands are: `) for _, c := range app.commands() { fmt.Fprintf(f.Output(), " %s : %v\n", c.Name(), c.ShortHelp()) } fmt.Fprint(f.Output(), ` gopls flags are: `) f.PrintDefaults() } // Run takes the args after top level flag processing, and invokes the correct // sub command as specified by the first argument. // If no arguments are passed it will invoke the server sub command, as a // temporary measure for compatibility. func (app *Application) Run(ctx context.Context, args ...string) error { app.Serve.app = app if len(args) == 0 { tool.Main(ctx, &app.Serve, args) return nil } if app.Config.Dir == "" { if wd, err := os.Getwd(); err == nil { app.Config.Dir = wd } } app.Config.Mode = packages.LoadSyntax app.Config.Tests = true if app.Config.Fset == nil { app.Config.Fset = token.NewFileSet() } app.Config.Context = ctx app.Config.ParseFile = func(fset *token.FileSet, filename string, src []byte) (*ast.File, error) { return parser.ParseFile(fset, filename, src, parser.AllErrors|parser.ParseComments) } command, args := args[0], args[1:] for _, c := range app.commands() { if c.Name() == command { tool.Main(ctx, c, args) return nil } } return tool.CommandLineErrorf("Unknown command %v", command) } // commands returns the set of commands supported by the gopls tool on the // command line. // The command is specified by the first non flag argument. func (app *Application) commands() []tool.Application { return []tool.Application{ &app.Serve, &bug{}, &check{app: app}, &format{app: app}, &query{app: app}, &version{app: app}, } } var ( internalMu sync.Mutex internalConnections = make(map[string]*connection) ) func (app *Application) connect(ctx context.Context) (*connection, error) { switch app.Remote { case "": connection := newConnection(app) connection.Server = lsp.NewClientServer(connection.Client) return connection, connection.initialize(ctx) case "internal": internalMu.Lock() defer internalMu.Unlock() if c := internalConnections[app.Config.Dir]; c != nil { return c, nil } connection := newConnection(app) ctx := context.Background() //TODO:a way of shutting down the internal server cr, sw, _ := os.Pipe() sr, cw, _ := os.Pipe() var jc *jsonrpc2.Conn jc, connection.Server, _ = protocol.NewClient(jsonrpc2.NewHeaderStream(cr, cw), connection.Client) go jc.Run(ctx) go lsp.NewServer(jsonrpc2.NewHeaderStream(sr, sw)).Run(ctx) if err := connection.initialize(ctx); err != nil { return nil, err } internalConnections[app.Config.Dir] = connection return connection, nil default: connection := newConnection(app) conn, err := net.Dial("tcp", app.Remote) if err != nil { return nil, err } stream := jsonrpc2.NewHeaderStream(conn, conn) var jc *jsonrpc2.Conn jc, connection.Server, _ = protocol.NewClient(stream, connection.Client) go jc.Run(ctx) return connection, connection.initialize(ctx) } } func (c *connection) initialize(ctx context.Context) error { params := &protocol.InitializeParams{} params.RootURI = string(span.FileURI(c.Client.app.Config.Dir)) params.Capabilities.Workspace.Configuration = true params.Capabilities.TextDocument.Hover.ContentFormat = []protocol.MarkupKind{protocol.PlainText} if _, err := c.Server.Initialize(ctx, params); err != nil { return err } if err := c.Server.Initialized(ctx, &protocol.InitializedParams{}); err != nil { return err } return nil } type connection struct { protocol.Server Client *cmdClient } type cmdClient struct { protocol.Server app *Application fset *token.FileSet filesMu sync.Mutex files map[span.URI]*cmdFile } type cmdFile struct { uri span.URI mapper *protocol.ColumnMapper err error added bool hasDiagnostics chan struct{} diagnostics []protocol.Diagnostic } func newConnection(app *Application) *connection { return &connection{ Client: &cmdClient{ app: app, fset: token.NewFileSet(), files: make(map[span.URI]*cmdFile), }, } } func (c *cmdClient) ShowMessage(ctx context.Context, p *protocol.ShowMessageParams) error { return nil } func (c *cmdClient) ShowMessageRequest(ctx context.Context, p *protocol.ShowMessageRequestParams) (*protocol.MessageActionItem, error) { return nil, nil } func (c *cmdClient) LogMessage(ctx context.Context, p *protocol.LogMessageParams) error { switch p.Type { case protocol.Error: log.Print("Error:", p.Message) case protocol.Warning: log.Print("Warning:", p.Message) case protocol.Info: if c.app.Verbose { log.Print("Info:", p.Message) } case protocol.Log: if c.app.Verbose { log.Print("Log:", p.Message) } default: if c.app.Verbose { log.Print(p.Message) } } return nil } func (c *cmdClient) Event(ctx context.Context, t *interface{}) error { return nil } func (c *cmdClient) RegisterCapability(ctx context.Context, p *protocol.RegistrationParams) error { return nil } func (c *cmdClient) UnregisterCapability(ctx context.Context, p *protocol.UnregistrationParams) error { return nil } func (c *cmdClient) WorkspaceFolders(ctx context.Context) ([]protocol.WorkspaceFolder, error) { return nil, nil } func (c *cmdClient) Configuration(ctx context.Context, p *protocol.ConfigurationParams) ([]interface{}, error) { results := make([]interface{}, len(p.Items)) for i, item := range p.Items { if item.Section != "gopls" { continue } env := map[string]interface{}{} for _, value := range c.app.Config.Env { l := strings.SplitN(value, "=", 2) if len(l) != 2 { continue } env[l[0]] = l[1] } results[i] = map[string]interface{}{"env": env} } return results, nil } func (c *cmdClient) ApplyEdit(ctx context.Context, p *protocol.ApplyWorkspaceEditParams) (*protocol.ApplyWorkspaceEditResponse, error) { return &protocol.ApplyWorkspaceEditResponse{Applied: false, FailureReason: "not implemented"}, nil } func (c *cmdClient) PublishDiagnostics(ctx context.Context, p *protocol.PublishDiagnosticsParams) error { c.filesMu.Lock() defer c.filesMu.Unlock() uri := span.URI(p.URI) file := c.getFile(ctx, uri) hadDiagnostics := file.diagnostics != nil file.diagnostics = p.Diagnostics if file.diagnostics == nil { file.diagnostics = []protocol.Diagnostic{} } if !hadDiagnostics { close(file.hasDiagnostics) } return nil } func (c *cmdClient) getFile(ctx context.Context, uri span.URI) *cmdFile { file, found := c.files[uri] if !found { file = &cmdFile{ uri: uri, hasDiagnostics: make(chan struct{}), } c.files[uri] = file } if file.mapper == nil { fname, err := uri.Filename() if err != nil { file.err = fmt.Errorf("%v: %v", uri, err) return file } content, err := ioutil.ReadFile(fname) if err != nil { file.err = fmt.Errorf("%v: %v", uri, err) return file } f := c.fset.AddFile(fname, -1, len(content)) f.SetLinesForContent(content) file.mapper = protocol.NewColumnMapper(uri, c.fset, f, content) } return file } func (c *connection) AddFile(ctx context.Context, uri span.URI) *cmdFile { c.Client.filesMu.Lock() defer c.Client.filesMu.Unlock() file := c.Client.getFile(ctx, uri) if !file.added { file.added = true p := &protocol.DidOpenTextDocumentParams{} p.TextDocument.URI = string(uri) p.TextDocument.Text = string(file.mapper.Content) if err := c.Server.DidOpen(ctx, p); err != nil { file.err = fmt.Errorf("%v: %v", uri, err) } } return file } func (c *connection) terminate(ctx context.Context) { if c.Client.app.Remote == "internal" { // internal connections need to be left alive for the next test return } //TODO: do we need to handle errors on these calls? c.Shutdown(ctx) //TODO: right now calling exit terminates the process, we should rethink that //server.Exit(ctx) }