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// 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"
"io/ioutil"
"log"
"os"
"reflect"
"sort"
"strings"
"sync"
"text/tabwriter"
"time"
"golang.org/x/tools/gopls/internal/lsp"
"golang.org/x/tools/gopls/internal/lsp/browser"
"golang.org/x/tools/gopls/internal/lsp/cache"
"golang.org/x/tools/gopls/internal/lsp/debug"
"golang.org/x/tools/gopls/internal/lsp/filecache"
"golang.org/x/tools/gopls/internal/lsp/lsprpc"
"golang.org/x/tools/gopls/internal/lsp/protocol"
"golang.org/x/tools/gopls/internal/lsp/source"
"golang.org/x/tools/gopls/internal/span"
"golang.org/x/tools/internal/jsonrpc2"
"golang.org/x/tools/internal/tool"
"golang.org/x/tools/internal/xcontext"
)
// 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
// the options configuring function to invoke when building a server
options func(*source.Options)
// The name of the binary, used in help and telemetry.
name string
// The working directory to run commands in.
wd string
// The environment variables to use.
env []string
// Support for remote LSP server.
Remote string `flag:"remote" help:"forward all commands to a remote lsp specified by this flag. With no special prefix, this is assumed to be a TCP address. If prefixed by 'unix;', the subsequent address is assumed to be a unix domain socket. If 'auto', or prefixed by 'auto;', the remote address is automatically resolved based on the executing environment."`
// Verbose enables verbose logging.
Verbose bool `flag:"v,verbose" help:"verbose output"`
// VeryVerbose enables a higher level of verbosity in logging output.
VeryVerbose bool `flag:"vv,veryverbose" help:"very verbose output"`
// Control ocagent export of telemetry
OCAgent string `flag:"ocagent" help:"the address of the ocagent (e.g. http://localhost:55678), or off"`
// PrepareOptions is called to update the options when a new view is built.
// It is primarily to allow the behavior of gopls to be modified by hooks.
PrepareOptions func(*source.Options)
}
func (app *Application) verbose() bool {
return app.Verbose || app.VeryVerbose
}
// New returns a new Application ready to run.
func New(name, wd string, env []string, options func(*source.Options)) *Application {
if wd == "" {
wd, _ = os.Getwd()
}
app := &Application{
options: options,
name: name,
wd: wd,
env: env,
OCAgent: "off", //TODO: Remove this line to default the exporter to on
Serve: Serve{
RemoteListenTimeout: 1 * time.Minute,
},
}
app.Serve.app = app
return app
}
// Name implements tool.Application returning the binary name.
func (app *Application) Name() string { return app.name }
// Usage implements tool.Application returning empty extra argument usage.
func (app *Application) Usage() string { return "" }
// ShortHelp implements tool.Application returning the main binary help.
func (app *Application) ShortHelp() string {
return ""
}
// 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) {
w := tabwriter.NewWriter(f.Output(), 0, 0, 2, ' ', 0)
defer w.Flush()
fmt.Fprint(w, `
gopls is a Go language server.
It is typically used with an editor to provide language features. When no
command is specified, gopls will default to the 'serve' command. The language
features can also be accessed via the gopls command-line interface.
Usage:
gopls help [<subject>]
Command:
`)
fmt.Fprint(w, "\nMain\t\n")
for _, c := range app.mainCommands() {
fmt.Fprintf(w, " %s\t%s\n", c.Name(), c.ShortHelp())
}
fmt.Fprint(w, "\t\nFeatures\t\n")
for _, c := range app.featureCommands() {
fmt.Fprintf(w, " %s\t%s\n", c.Name(), c.ShortHelp())
}
fmt.Fprint(w, "\nflags:\n")
printFlagDefaults(f)
}
// this is a slightly modified version of flag.PrintDefaults to give us control
func printFlagDefaults(s *flag.FlagSet) {
var flags [][]*flag.Flag
seen := map[flag.Value]int{}
s.VisitAll(func(f *flag.Flag) {
if i, ok := seen[f.Value]; !ok {
seen[f.Value] = len(flags)
flags = append(flags, []*flag.Flag{f})
} else {
flags[i] = append(flags[i], f)
}
})
for _, entry := range flags {
sort.SliceStable(entry, func(i, j int) bool {
return len(entry[i].Name) < len(entry[j].Name)
})
var b strings.Builder
for i, f := range entry {
switch i {
case 0:
b.WriteString(" -")
default:
b.WriteString(",-")
}
b.WriteString(f.Name)
}
f := entry[0]
name, usage := flag.UnquoteUsage(f)
if len(name) > 0 {
b.WriteString("=")
b.WriteString(name)
}
// Boolean flags of one ASCII letter are so common we
// treat them specially, putting their usage on the same line.
if b.Len() <= 4 { // space, space, '-', 'x'.
b.WriteString("\t")
} else {
// Four spaces before the tab triggers good alignment
// for both 4- and 8-space tab stops.
b.WriteString("\n \t")
}
b.WriteString(strings.ReplaceAll(usage, "\n", "\n \t"))
if !isZeroValue(f, f.DefValue) {
if reflect.TypeOf(f.Value).Elem().Name() == "stringValue" {
fmt.Fprintf(&b, " (default %q)", f.DefValue)
} else {
fmt.Fprintf(&b, " (default %v)", f.DefValue)
}
}
fmt.Fprint(s.Output(), b.String(), "\n")
}
}
// isZeroValue is copied from the flags package
func isZeroValue(f *flag.Flag, value string) bool {
// Build a zero value of the flag's Value type, and see if the
// result of calling its String method equals the value passed in.
// This works unless the Value type is itself an interface type.
typ := reflect.TypeOf(f.Value)
var z reflect.Value
if typ.Kind() == reflect.Ptr {
z = reflect.New(typ.Elem())
} else {
z = reflect.Zero(typ)
}
return value == z.Interface().(flag.Value).String()
}
// 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 {
// In the category of "things we can do while waiting for the Go command":
// Pre-initialize the filecache, which takes ~50ms to hash the gopls
// executable, and immediately runs a gc.
filecache.Start()
ctx = debug.WithInstance(ctx, app.wd, app.OCAgent)
if len(args) == 0 {
s := flag.NewFlagSet(app.Name(), flag.ExitOnError)
return tool.Run(ctx, s, &app.Serve, args)
}
command, args := args[0], args[1:]
for _, c := range app.Commands() {
if c.Name() == command {
s := flag.NewFlagSet(app.Name(), flag.ExitOnError)
return tool.Run(ctx, s, c, args)
}
}
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 {
var commands []tool.Application
commands = append(commands, app.mainCommands()...)
commands = append(commands, app.featureCommands()...)
return commands
}
func (app *Application) mainCommands() []tool.Application {
return []tool.Application{
&app.Serve,
&version{app: app},
&bug{app: app},
&help{app: app},
&apiJSON{app: app},
&licenses{app: app},
}
}
func (app *Application) featureCommands() []tool.Application {
return []tool.Application{
&callHierarchy{app: app},
&check{app: app},
&definition{app: app},
&foldingRanges{app: app},
&format{app: app},
&highlight{app: app},
&implementation{app: app},
&imports{app: app},
newRemote(app, ""),
newRemote(app, "inspect"),
&links{app: app},
&prepareRename{app: app},
&references{app: app},
&rename{app: app},
&semtok{app: app},
&signature{app: app},
&stats{app: app},
&suggestedFix{app: app},
&symbols{app: app},
&workspaceSymbol{app: app},
&vulncheck{app: app},
}
}
var (
internalMu sync.Mutex
internalConnections = make(map[string]*connection)
)
// connect creates and initializes a new in-process gopls session.
//
// If onProgress is set, it is called for each new progress notification.
func (app *Application) connect(ctx context.Context, onProgress func(*protocol.ProgressParams)) (*connection, error) {
switch {
case app.Remote == "":
client := newClient(app, onProgress)
server := lsp.NewServer(cache.NewSession(ctx, cache.New(nil), app.options), client)
conn := newConnection(server, client)
if err := conn.initialize(protocol.WithClient(ctx, client), app.options); err != nil {
return nil, err
}
return conn, nil
case strings.HasPrefix(app.Remote, "internal@"):
internalMu.Lock()
defer internalMu.Unlock()
opts := source.DefaultOptions().Clone()
if app.options != nil {
app.options(opts)
}
key := fmt.Sprintf("%s %v %v %v", app.wd, opts.PreferredContentFormat, opts.HierarchicalDocumentSymbolSupport, opts.SymbolMatcher)
if c := internalConnections[key]; c != nil {
return c, nil
}
remote := app.Remote[len("internal@"):]
ctx := xcontext.Detach(ctx) //TODO:a way of shutting down the internal server
connection, err := app.connectRemote(ctx, remote)
if err != nil {
return nil, err
}
internalConnections[key] = connection
return connection, nil
default:
return app.connectRemote(ctx, app.Remote)
}
}
// CloseTestConnections terminates shared connections used in command tests. It
// should only be called from tests.
func CloseTestConnections(ctx context.Context) {
for _, c := range internalConnections {
c.Shutdown(ctx)
c.Exit(ctx)
}
}
func (app *Application) connectRemote(ctx context.Context, remote string) (*connection, error) {
conn, err := lsprpc.ConnectToRemote(ctx, remote)
if err != nil {
return nil, err
}
stream := jsonrpc2.NewHeaderStream(conn)
cc := jsonrpc2.NewConn(stream)
server := protocol.ServerDispatcher(cc)
client := newClient(app, nil)
connection := newConnection(server, client)
ctx = protocol.WithClient(ctx, connection.client)
cc.Go(ctx,
protocol.Handlers(
protocol.ClientHandler(client, jsonrpc2.MethodNotFound)))
return connection, connection.initialize(ctx, app.options)
}
var matcherString = map[source.SymbolMatcher]string{
source.SymbolFuzzy: "fuzzy",
source.SymbolCaseSensitive: "caseSensitive",
source.SymbolCaseInsensitive: "caseInsensitive",
}
func (c *connection) initialize(ctx context.Context, options func(*source.Options)) error {
params := &protocol.ParamInitialize{}
params.RootURI = protocol.URIFromPath(c.client.app.wd)
params.Capabilities.Workspace.Configuration = true
// Make sure to respect configured options when sending initialize request.
opts := source.DefaultOptions().Clone()
if options != nil {
options(opts)
}
// If you add an additional option here, you must update the map key in connect.
params.Capabilities.TextDocument.Hover = &protocol.HoverClientCapabilities{
ContentFormat: []protocol.MarkupKind{opts.PreferredContentFormat},
}
params.Capabilities.TextDocument.DocumentSymbol.HierarchicalDocumentSymbolSupport = opts.HierarchicalDocumentSymbolSupport
params.Capabilities.TextDocument.SemanticTokens = protocol.SemanticTokensClientCapabilities{}
params.Capabilities.TextDocument.SemanticTokens.Formats = []protocol.TokenFormat{"relative"}
params.Capabilities.TextDocument.SemanticTokens.Requests.Range.Value = true
params.Capabilities.TextDocument.SemanticTokens.Requests.Full.Value = true
params.Capabilities.TextDocument.SemanticTokens.TokenTypes = lsp.SemanticTypes()
params.Capabilities.TextDocument.SemanticTokens.TokenModifiers = lsp.SemanticModifiers()
// If the subcommand has registered a progress handler, report the progress
// capability.
if c.client.onProgress != nil {
params.Capabilities.Window.WorkDoneProgress = true
}
params.InitializationOptions = map[string]interface{}{
"symbolMatcher": matcherString[opts.SymbolMatcher],
}
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
}
// cmdClient defines the protocol.Client interface behavior of the gopls CLI tool.
type cmdClient struct {
app *Application
onProgress func(*protocol.ProgressParams)
diagnosticsMu sync.Mutex
diagnosticsDone chan struct{}
filesMu sync.Mutex // guards files map and each cmdFile.diagnostics
files map[span.URI]*cmdFile
}
type cmdFile struct {
uri span.URI
mapper *protocol.Mapper
err error
diagnostics []protocol.Diagnostic
}
func newClient(app *Application, onProgress func(*protocol.ProgressParams)) *cmdClient {
return &cmdClient{
app: app,
onProgress: onProgress,
files: make(map[span.URI]*cmdFile),
}
}
func newConnection(server protocol.Server, client *cmdClient) *connection {
return &connection{
Server: server,
client: client,
}
}
// fileURI converts a DocumentURI to a file:// span.URI, panicking if it's not a file.
func fileURI(uri protocol.DocumentURI) span.URI {
sURI := uri.SpanURI()
if !sURI.IsFile() {
panic(fmt.Sprintf("%q is not a file URI", uri))
}
return sURI
}
func (c *cmdClient) CodeLensRefresh(context.Context) error { return nil }
func (c *cmdClient) LogTrace(context.Context, *protocol.LogTraceParams) error { return nil }
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.ParamConfiguration) ([]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.env {
l := strings.SplitN(value, "=", 2)
if len(l) != 2 {
continue
}
env[l[0]] = l[1]
}
m := map[string]interface{}{
"env": env,
"analyses": map[string]bool{
"fillreturns": true,
"nonewvars": true,
"noresultvalues": true,
"undeclaredname": true,
},
}
if c.app.VeryVerbose {
m["verboseOutput"] = true
}
results[i] = m
}
return results, nil
}
func (c *cmdClient) ApplyEdit(ctx context.Context, p *protocol.ApplyWorkspaceEditParams) (*protocol.ApplyWorkspaceEditResult, error) {
return &protocol.ApplyWorkspaceEditResult{Applied: false, FailureReason: "not implemented"}, nil
}
func (c *cmdClient) PublishDiagnostics(ctx context.Context, p *protocol.PublishDiagnosticsParams) error {
if p.URI == "gopls://diagnostics-done" {
close(c.diagnosticsDone)
}
// Don't worry about diagnostics without versions.
if p.Version == 0 {
return nil
}
c.filesMu.Lock()
defer c.filesMu.Unlock()
file := c.getFile(ctx, fileURI(p.URI))
file.diagnostics = append(file.diagnostics, p.Diagnostics...)
// Perform a crude in-place deduplication.
// TODO(golang/go#60122): replace the ad-hoc gopls/diagnoseFiles
// non-standard request with support for textDocument/diagnostic,
// so that we don't need to do this de-duplication.
type key [6]interface{}
seen := make(map[key]bool)
out := file.diagnostics[:0]
for _, d := range file.diagnostics {
var codeHref string
if desc := d.CodeDescription; desc != nil {
codeHref = desc.Href
}
k := key{d.Range, d.Severity, d.Code, codeHref, d.Source, d.Message}
if !seen[k] {
seen[k] = true
out = append(out, d)
}
}
file.diagnostics = out
return nil
}
func (c *cmdClient) Progress(_ context.Context, params *protocol.ProgressParams) error {
if c.onProgress != nil {
c.onProgress(params)
}
return nil
}
func (c *cmdClient) ShowDocument(ctx context.Context, params *protocol.ShowDocumentParams) (*protocol.ShowDocumentResult, error) {
var success bool
if params.External {
// Open URI in external browser.
success = browser.Open(string(params.URI))
} else {
// Open file in editor, optionally taking focus and selecting a range.
// (cmdClient has no editor. Should it fork+exec $EDITOR?)
log.Printf("Server requested that client editor open %q (takeFocus=%t, selection=%+v)",
params.URI, params.TakeFocus, params.Selection)
success = true
}
return &protocol.ShowDocumentResult{Success: success}, nil
}
func (c *cmdClient) WorkDoneProgressCreate(context.Context, *protocol.WorkDoneProgressCreateParams) error {
return nil
}
func (c *cmdClient) DiagnosticRefresh(context.Context) error {
return nil
}
func (c *cmdClient) InlayHintRefresh(context.Context) error {
return nil
}
func (c *cmdClient) SemanticTokensRefresh(context.Context) error {
return nil
}
func (c *cmdClient) InlineValueRefresh(context.Context) error {
return nil
}
func (c *cmdClient) getFile(ctx context.Context, uri span.URI) *cmdFile {
file, found := c.files[uri]
if !found || file.err != nil {
file = &cmdFile{
uri: uri,
}
c.files[uri] = file
}
if file.mapper == nil {
content, err := ioutil.ReadFile(uri.Filename())
if err != nil {
file.err = fmt.Errorf("getFile: %v: %v", uri, err)
return file
}
file.mapper = protocol.NewMapper(uri, content)
}
return file
}
func (c *cmdClient) openFile(ctx context.Context, uri span.URI) *cmdFile {
c.filesMu.Lock()
defer c.filesMu.Unlock()
return c.getFile(ctx, uri)
}
// TODO(adonovan): provide convenience helpers to:
// - map a (URI, protocol.Range) to a MappedRange;
// - parse a command-line argument to a MappedRange.
func (c *connection) openFile(ctx context.Context, uri span.URI) (*cmdFile, error) {
file := c.client.openFile(ctx, uri)
if file.err != nil {
return nil, file.err
}
p := &protocol.DidOpenTextDocumentParams{
TextDocument: protocol.TextDocumentItem{
URI: protocol.URIFromSpanURI(uri),
LanguageID: "go",
Version: 1,
Text: string(file.mapper.Content),
},
}
if err := c.Server.DidOpen(ctx, p); err != nil {
// TODO(adonovan): is this assignment concurrency safe?
file.err = fmt.Errorf("%v: %v", uri, err)
return nil, file.err
}
return file, nil
}
func (c *connection) semanticTokens(ctx context.Context, p *protocol.SemanticTokensRangeParams) (*protocol.SemanticTokens, error) {
// use range to avoid limits on full
resp, err := c.Server.SemanticTokensRange(ctx, p)
if err != nil {
return nil, err
}
return resp, nil
}
func (c *connection) diagnoseFiles(ctx context.Context, files []span.URI) error {
var untypedFiles []interface{}
for _, file := range files {
untypedFiles = append(untypedFiles, string(file))
}
c.client.diagnosticsMu.Lock()
defer c.client.diagnosticsMu.Unlock()
c.client.diagnosticsDone = make(chan struct{})
_, err := c.Server.NonstandardRequest(ctx, "gopls/diagnoseFiles", map[string]interface{}{"files": untypedFiles})
if err != nil {
close(c.client.diagnosticsDone)
return err
}
<-c.client.diagnosticsDone
return nil
}
func (c *connection) terminate(ctx context.Context) {
if strings.HasPrefix(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)
}
// Implement io.Closer.
func (c *cmdClient) Close() error {
return nil
}