mirror of
https://github.com/golang/go
synced 2024-11-05 14:56:10 -07:00
df83f4e7c1
Seems we've drifted a bit from go1.12 support, mostly due to error wrapping. Fix this, as well as some assorted other failures. I haven't tested 1.12 interactively. For golang/go#39146 Change-Id: Id347ead2a13e89b76d2ae0047750e6b6b49911eb Reviewed-on: https://go-review.googlesource.com/c/tools/+/250941 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org>
564 lines
18 KiB
Go
564 lines
18 KiB
Go
// Copyright 2020 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package lsprpc implements a jsonrpc2.StreamServer that may be used to
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// serve the LSP on a jsonrpc2 channel.
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package lsprpc
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import (
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"context"
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"encoding/json"
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"fmt"
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"log"
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"net"
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"os"
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"strconv"
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"sync/atomic"
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"time"
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"golang.org/x/tools/internal/event"
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"golang.org/x/tools/internal/gocommand"
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"golang.org/x/tools/internal/jsonrpc2"
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"golang.org/x/tools/internal/lsp"
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"golang.org/x/tools/internal/lsp/cache"
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"golang.org/x/tools/internal/lsp/debug"
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"golang.org/x/tools/internal/lsp/debug/tag"
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"golang.org/x/tools/internal/lsp/protocol"
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errors "golang.org/x/xerrors"
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)
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// AutoNetwork is the pseudo network type used to signal that gopls should use
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// automatic discovery to resolve a remote address.
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const AutoNetwork = "auto"
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// Unique identifiers for client/server.
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var serverIndex int64
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// The StreamServer type is a jsonrpc2.StreamServer that handles incoming
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// streams as a new LSP session, using a shared cache.
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type StreamServer struct {
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cache *cache.Cache
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// logConnections controls whether or not to log new connections.
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logConnections bool
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// serverForTest may be set to a test fake for testing.
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serverForTest protocol.Server
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}
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// NewStreamServer creates a StreamServer using the shared cache. If
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// withTelemetry is true, each session is instrumented with telemetry that
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// records RPC statistics.
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func NewStreamServer(cache *cache.Cache, logConnections bool) *StreamServer {
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return &StreamServer{cache: cache, logConnections: logConnections}
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}
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// ServeStream implements the jsonrpc2.StreamServer interface, by handling
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// incoming streams using a new lsp server.
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func (s *StreamServer) ServeStream(ctx context.Context, conn jsonrpc2.Conn) error {
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client := protocol.ClientDispatcher(conn)
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session := s.cache.NewSession(ctx)
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server := s.serverForTest
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if server == nil {
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server = lsp.NewServer(session, client)
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}
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// Clients may or may not send a shutdown message. Make sure the server is
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// shut down.
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// TODO(rFindley): this shutdown should perhaps be on a disconnected context.
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defer func() {
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if err := server.Shutdown(ctx); err != nil {
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event.Error(ctx, "error shutting down", err)
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}
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}()
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executable, err := os.Executable()
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if err != nil {
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log.Printf("error getting gopls path: %v", err)
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executable = ""
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}
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ctx = protocol.WithClient(ctx, client)
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conn.Go(ctx,
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protocol.Handlers(
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handshaker(session, executable, s.logConnections,
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protocol.ServerHandler(server,
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jsonrpc2.MethodNotFound))))
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if s.logConnections {
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log.Printf("Session %s: connected", session.ID())
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defer log.Printf("Session %s: exited", session.ID())
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}
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<-conn.Done()
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return conn.Err()
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}
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// A Forwarder is a jsonrpc2.StreamServer that handles an LSP stream by
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// forwarding it to a remote. This is used when the gopls process started by
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// the editor is in the `-remote` mode, which means it finds and connects to a
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// separate gopls daemon. In these cases, we still want the forwarder gopls to
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// be instrumented with telemetry, and want to be able to in some cases hijack
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// the jsonrpc2 connection with the daemon.
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type Forwarder struct {
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network, addr string
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// goplsPath is the path to the current executing gopls binary.
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goplsPath string
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// configuration for the auto-started gopls remote.
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remoteConfig remoteConfig
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}
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type remoteConfig struct {
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debug string
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listenTimeout time.Duration
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logfile string
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}
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// A RemoteOption configures the behavior of the auto-started remote.
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type RemoteOption interface {
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set(*remoteConfig)
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}
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// RemoteDebugAddress configures the address used by the auto-started Gopls daemon
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// for serving debug information.
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type RemoteDebugAddress string
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func (d RemoteDebugAddress) set(cfg *remoteConfig) {
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cfg.debug = string(d)
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}
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// RemoteListenTimeout configures the amount of time the auto-started gopls
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// daemon will wait with no client connections before shutting down.
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type RemoteListenTimeout time.Duration
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func (d RemoteListenTimeout) set(cfg *remoteConfig) {
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cfg.listenTimeout = time.Duration(d)
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}
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// RemoteLogfile configures the logfile location for the auto-started gopls
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// daemon.
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type RemoteLogfile string
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func (l RemoteLogfile) set(cfg *remoteConfig) {
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cfg.logfile = string(l)
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}
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func defaultRemoteConfig() remoteConfig {
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return remoteConfig{
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listenTimeout: 1 * time.Minute,
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}
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}
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// NewForwarder creates a new Forwarder, ready to forward connections to the
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// remote server specified by network and addr.
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func NewForwarder(network, addr string, opts ...RemoteOption) *Forwarder {
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gp, err := os.Executable()
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if err != nil {
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log.Printf("error getting gopls path for forwarder: %v", err)
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gp = ""
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}
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rcfg := defaultRemoteConfig()
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for _, opt := range opts {
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opt.set(&rcfg)
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}
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fwd := &Forwarder{
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network: network,
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addr: addr,
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goplsPath: gp,
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remoteConfig: rcfg,
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}
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return fwd
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}
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// QueryServerState queries the server state of the current server.
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func QueryServerState(ctx context.Context, network, address string) (*ServerState, error) {
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if network == AutoNetwork {
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gp, err := os.Executable()
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if err != nil {
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return nil, errors.Errorf("getting gopls path: %w", err)
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}
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network, address = autoNetworkAddress(gp, address)
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}
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netConn, err := net.DialTimeout(network, address, 5*time.Second)
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if err != nil {
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return nil, errors.Errorf("dialing remote: %w", err)
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}
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serverConn := jsonrpc2.NewConn(jsonrpc2.NewHeaderStream(netConn))
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serverConn.Go(ctx, jsonrpc2.MethodNotFound)
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var state ServerState
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if err := protocol.Call(ctx, serverConn, sessionsMethod, nil, &state); err != nil {
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return nil, errors.Errorf("querying server state: %w", err)
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}
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return &state, nil
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}
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// ServeStream dials the forwarder remote and binds the remote to serve the LSP
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// on the incoming stream.
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func (f *Forwarder) ServeStream(ctx context.Context, clientConn jsonrpc2.Conn) error {
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client := protocol.ClientDispatcher(clientConn)
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netConn, err := f.connectToRemote(ctx)
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if err != nil {
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return errors.Errorf("forwarder: connecting to remote: %w", err)
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}
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serverConn := jsonrpc2.NewConn(jsonrpc2.NewHeaderStream(netConn))
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server := protocol.ServerDispatcher(serverConn)
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// Forward between connections.
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serverConn.Go(ctx,
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protocol.Handlers(
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protocol.ClientHandler(client,
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jsonrpc2.MethodNotFound)))
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// Don't run the clientConn yet, so that we can complete the handshake before
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// processing any client messages.
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// Do a handshake with the server instance to exchange debug information.
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index := atomic.AddInt64(&serverIndex, 1)
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serverID := strconv.FormatInt(index, 10)
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var (
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hreq = handshakeRequest{
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ServerID: serverID,
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GoplsPath: f.goplsPath,
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}
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hresp handshakeResponse
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)
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if di := debug.GetInstance(ctx); di != nil {
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hreq.Logfile = di.Logfile
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hreq.DebugAddr = di.ListenedDebugAddress
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}
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if err := protocol.Call(ctx, serverConn, handshakeMethod, hreq, &hresp); err != nil {
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event.Error(ctx, "forwarder: gopls handshake failed", err)
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}
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if hresp.GoplsPath != f.goplsPath {
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event.Error(ctx, "", fmt.Errorf("forwarder: gopls path mismatch: forwarder is %q, remote is %q", f.goplsPath, hresp.GoplsPath))
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}
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event.Log(ctx, "New server",
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tag.NewServer.Of(serverID),
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tag.Logfile.Of(hresp.Logfile),
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tag.DebugAddress.Of(hresp.DebugAddr),
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tag.GoplsPath.Of(hresp.GoplsPath),
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tag.ClientID.Of(hresp.SessionID),
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)
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clientConn.Go(ctx,
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protocol.Handlers(
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forwarderHandler(
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protocol.ServerHandler(server,
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jsonrpc2.MethodNotFound))))
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select {
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case <-serverConn.Done():
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clientConn.Close()
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case <-clientConn.Done():
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serverConn.Close()
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}
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err = serverConn.Err()
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if err == nil {
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err = clientConn.Err()
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}
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return err
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}
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func (f *Forwarder) connectToRemote(ctx context.Context) (net.Conn, error) {
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return connectToRemote(ctx, f.network, f.addr, f.goplsPath, f.remoteConfig)
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}
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func ConnectToRemote(ctx context.Context, network, addr string, opts ...RemoteOption) (net.Conn, error) {
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rcfg := defaultRemoteConfig()
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for _, opt := range opts {
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opt.set(&rcfg)
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}
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// This is not strictly necessary, as it won't be used if not connecting to
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// the 'auto' remote.
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goplsPath, err := os.Executable()
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if err != nil {
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return nil, fmt.Errorf("unable to resolve gopls path: %v", err)
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}
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return connectToRemote(ctx, network, addr, goplsPath, rcfg)
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}
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func connectToRemote(ctx context.Context, inNetwork, inAddr, goplsPath string, rcfg remoteConfig) (net.Conn, error) {
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var (
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netConn net.Conn
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err error
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network, address = inNetwork, inAddr
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)
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if inNetwork == AutoNetwork {
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// f.network is overloaded to support a concept of 'automatic' addresses,
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// which signals that the gopls remote address should be automatically
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// derived.
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// So we need to resolve a real network and address here.
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network, address = autoNetworkAddress(goplsPath, inAddr)
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}
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// Attempt to verify that we own the remote. This is imperfect, but if we can
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// determine that the remote is owned by a different user, we should fail.
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ok, err := verifyRemoteOwnership(network, address)
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if err != nil {
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// If the ownership check itself failed, we fail open but log an error to
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// the user.
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event.Error(ctx, "unable to check daemon socket owner, failing open", err)
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} else if !ok {
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// We succesfully checked that the socket is not owned by us, we fail
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// closed.
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return nil, fmt.Errorf("socket %q is owned by a different user", address)
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}
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const dialTimeout = 1 * time.Second
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// Try dialing our remote once, in case it is already running.
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netConn, err = net.DialTimeout(network, address, dialTimeout)
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if err == nil {
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return netConn, nil
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}
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// If our remote is on the 'auto' network, start it if it doesn't exist.
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if inNetwork == AutoNetwork {
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if goplsPath == "" {
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return nil, fmt.Errorf("cannot auto-start remote: gopls path is unknown")
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}
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if network == "unix" {
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// Sometimes the socketfile isn't properly cleaned up when gopls shuts
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// down. Since we have already tried and failed to dial this address, it
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// should *usually* be safe to remove the socket before binding to the
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// address.
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// TODO(rfindley): there is probably a race here if multiple gopls
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// instances are simultaneously starting up.
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if _, err := os.Stat(address); err == nil {
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if err := os.Remove(address); err != nil {
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return nil, errors.Errorf("removing remote socket file: %w", err)
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}
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}
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}
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args := []string{"serve",
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"-listen", fmt.Sprintf(`%s;%s`, network, address),
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"-listen.timeout", rcfg.listenTimeout.String(),
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}
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if rcfg.logfile != "" {
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args = append(args, "-logfile", rcfg.logfile)
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}
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if rcfg.debug != "" {
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args = append(args, "-debug", rcfg.debug)
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}
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if err := startRemote(goplsPath, args...); err != nil {
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return nil, errors.Errorf("startRemote(%q, %v): %w", goplsPath, args, err)
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}
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}
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const retries = 5
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// It can take some time for the newly started server to bind to our address,
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// so we retry for a bit.
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for retry := 0; retry < retries; retry++ {
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startDial := time.Now()
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netConn, err = net.DialTimeout(network, address, dialTimeout)
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if err == nil {
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return netConn, nil
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}
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event.Log(ctx, fmt.Sprintf("failed attempt #%d to connect to remote: %v\n", retry+2, err))
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// In case our failure was a fast-failure, ensure we wait at least
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// f.dialTimeout before trying again.
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if retry != retries-1 {
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time.Sleep(dialTimeout - time.Since(startDial))
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}
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}
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return nil, errors.Errorf("dialing remote: %w", err)
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}
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// forwarderHandler intercepts 'exit' messages to prevent the shared gopls
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// instance from exiting. In the future it may also intercept 'shutdown' to
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// provide more graceful shutdown of the client connection.
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func forwarderHandler(handler jsonrpc2.Handler) jsonrpc2.Handler {
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return func(ctx context.Context, reply jsonrpc2.Replier, r jsonrpc2.Request) error {
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// The gopls workspace environment defaults to the process environment in
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// which gopls daemon was started. To avoid discrepancies in Go environment
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// between the editor and daemon, inject any unset variables in `go env`
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// into the options sent by initialize.
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//
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// See also golang.org/issue/37830.
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if r.Method() == "initialize" {
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if newr, err := addGoEnvToInitializeRequest(ctx, r); err == nil {
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r = newr
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} else {
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log.Printf("unable to add local env to initialize request: %v", err)
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}
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}
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return handler(ctx, reply, r)
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}
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}
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// addGoEnvToInitializeRequest builds a new initialize request in which we set
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// any environment variables output by `go env` and not already present in the
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// request.
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//
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// It returns an error if r is not an initialize requst, or is otherwise
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// malformed.
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func addGoEnvToInitializeRequest(ctx context.Context, r jsonrpc2.Request) (jsonrpc2.Request, error) {
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var params protocol.ParamInitialize
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if err := json.Unmarshal(r.Params(), ¶ms); err != nil {
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return nil, err
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}
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var opts map[string]interface{}
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switch v := params.InitializationOptions.(type) {
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case nil:
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opts = make(map[string]interface{})
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case map[string]interface{}:
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opts = v
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default:
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return nil, fmt.Errorf("unexpected type for InitializationOptions: %T", v)
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}
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envOpt, ok := opts["env"]
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if !ok {
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envOpt = make(map[string]interface{})
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}
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env, ok := envOpt.(map[string]interface{})
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if !ok {
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return nil, fmt.Errorf(`env option is %T, expected a map`, envOpt)
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}
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goenv, err := getGoEnv(ctx, env)
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if err != nil {
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return nil, err
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}
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for govar, value := range goenv {
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env[govar] = value
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}
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opts["env"] = env
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params.InitializationOptions = opts
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call, ok := r.(*jsonrpc2.Call)
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if !ok {
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return nil, fmt.Errorf("%T is not a *jsonrpc2.Call", r)
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}
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return jsonrpc2.NewCall(call.ID(), "initialize", params)
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}
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func getGoEnv(ctx context.Context, env map[string]interface{}) (map[string]string, error) {
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var runEnv []string
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for k, v := range env {
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runEnv = append(runEnv, fmt.Sprintf("%s=%s", k, v))
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}
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runner := gocommand.Runner{}
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output, err := runner.Run(ctx, gocommand.Invocation{
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Verb: "env",
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Args: []string{"-json"},
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Env: runEnv,
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})
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if err != nil {
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return nil, err
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}
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envmap := make(map[string]string)
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if err := json.Unmarshal(output.Bytes(), &envmap); err != nil {
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return nil, err
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}
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return envmap, nil
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}
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// A handshakeRequest identifies a client to the LSP server.
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type handshakeRequest struct {
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// ServerID is the ID of the server on the client. This should usually be 0.
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ServerID string `json:"serverID"`
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// Logfile is the location of the clients log file.
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Logfile string `json:"logfile"`
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// DebugAddr is the client debug address.
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DebugAddr string `json:"debugAddr"`
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// GoplsPath is the path to the Gopls binary running the current client
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// process.
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GoplsPath string `json:"goplsPath"`
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}
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// A handshakeResponse is returned by the LSP server to tell the LSP client
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// information about its session.
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type handshakeResponse struct {
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// SessionID is the server session associated with the client.
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SessionID string `json:"sessionID"`
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// Logfile is the location of the server logs.
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Logfile string `json:"logfile"`
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// DebugAddr is the server debug address.
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DebugAddr string `json:"debugAddr"`
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// GoplsPath is the path to the Gopls binary running the current server
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// process.
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GoplsPath string `json:"goplsPath"`
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}
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// ClientSession identifies a current client LSP session on the server. Note
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// that it looks similar to handshakeResposne, but in fact 'Logfile' and
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// 'DebugAddr' now refer to the client.
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type ClientSession struct {
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SessionID string `json:"sessionID"`
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Logfile string `json:"logfile"`
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DebugAddr string `json:"debugAddr"`
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}
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// ServerState holds information about the gopls daemon process, including its
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// debug information and debug information of all of its current connected
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// clients.
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type ServerState struct {
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Logfile string `json:"logfile"`
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DebugAddr string `json:"debugAddr"`
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GoplsPath string `json:"goplsPath"`
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CurrentClientID string `json:"currentClientID"`
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Clients []ClientSession `json:"clients"`
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}
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const (
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handshakeMethod = "gopls/handshake"
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sessionsMethod = "gopls/sessions"
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)
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func handshaker(session *cache.Session, goplsPath string, logHandshakes bool, handler jsonrpc2.Handler) jsonrpc2.Handler {
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return func(ctx context.Context, reply jsonrpc2.Replier, r jsonrpc2.Request) error {
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switch r.Method() {
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case handshakeMethod:
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// We log.Printf in this handler, rather than event.Log when we want logs
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// to go to the daemon log rather than being reflected back to the
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// client.
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var req handshakeRequest
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if err := json.Unmarshal(r.Params(), &req); err != nil {
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if logHandshakes {
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log.Printf("Error processing handshake for session %s: %v", session.ID(), err)
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}
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sendError(ctx, reply, err)
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return nil
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}
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if logHandshakes {
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log.Printf("Session %s: got handshake. Logfile: %q, Debug addr: %q", session.ID(), req.Logfile, req.DebugAddr)
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}
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event.Log(ctx, "Handshake session update",
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cache.KeyUpdateSession.Of(session),
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tag.DebugAddress.Of(req.DebugAddr),
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tag.Logfile.Of(req.Logfile),
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tag.ServerID.Of(req.ServerID),
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tag.GoplsPath.Of(req.GoplsPath),
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)
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resp := handshakeResponse{
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SessionID: session.ID(),
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GoplsPath: goplsPath,
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}
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if di := debug.GetInstance(ctx); di != nil {
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resp.Logfile = di.Logfile
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resp.DebugAddr = di.ListenedDebugAddress
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}
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return reply(ctx, resp, nil)
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case sessionsMethod:
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resp := ServerState{
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GoplsPath: goplsPath,
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CurrentClientID: session.ID(),
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}
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if di := debug.GetInstance(ctx); di != nil {
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resp.Logfile = di.Logfile
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resp.DebugAddr = di.ListenedDebugAddress
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for _, c := range di.State.Clients() {
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resp.Clients = append(resp.Clients, ClientSession{
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SessionID: c.Session.ID(),
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Logfile: c.Logfile,
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DebugAddr: c.DebugAddress,
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})
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}
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}
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return reply(ctx, resp, nil)
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}
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return handler(ctx, reply, r)
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}
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}
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func sendError(ctx context.Context, reply jsonrpc2.Replier, err error) {
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err = errors.Errorf("%v: %w", err, jsonrpc2.ErrParse)
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if err := reply(ctx, nil, err); err != nil {
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event.Error(ctx, "", err)
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}
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}
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