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go/internal/lsp/lsprpc/lsprpc.go

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internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
// Copyright 2020 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 lsprpc implements a jsonrpc2.StreamServer that may be used to
// serve the LSP on a jsonrpc2 channel.
package lsprpc
import (
"context"
"encoding/json"
"fmt"
"log"
"net"
"os"
"strconv"
"sync/atomic"
"time"
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
"golang.org/x/tools/internal/event"
"golang.org/x/tools/internal/gocommand"
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
"golang.org/x/tools/internal/jsonrpc2"
"golang.org/x/tools/internal/lsp"
"golang.org/x/tools/internal/lsp/cache"
"golang.org/x/tools/internal/lsp/debug"
"golang.org/x/tools/internal/lsp/debug/tag"
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
"golang.org/x/tools/internal/lsp/protocol"
)
// AutoNetwork is the pseudo network type used to signal that gopls should use
// automatic discovery to resolve a remote address.
const AutoNetwork = "auto"
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
// Unique identifiers for client/server.
var serverIndex int64
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
// The StreamServer type is a jsonrpc2.StreamServer that handles incoming
// streams as a new LSP session, using a shared cache.
type StreamServer struct {
cache *cache.Cache
// logConnections controls whether or not to log new connections.
logConnections bool
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
// serverForTest may be set to a test fake for testing.
serverForTest protocol.Server
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
}
// NewStreamServer creates a StreamServer using the shared cache. If
// withTelemetry is true, each session is instrumented with telemetry that
// records RPC statistics.
func NewStreamServer(cache *cache.Cache, logConnections bool) *StreamServer {
return &StreamServer{cache: cache, logConnections: logConnections}
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
}
// ServeStream implements the jsonrpc2.StreamServer interface, by handling
// incoming streams using a new lsp server.
func (s *StreamServer) ServeStream(ctx context.Context, conn jsonrpc2.Conn) error {
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
client := protocol.ClientDispatcher(conn)
session := s.cache.NewSession(ctx)
server := s.serverForTest
if server == nil {
server = lsp.NewServer(session, client)
}
// Clients may or may not send a shutdown message. Make sure the server is
// shut down.
// TODO(rFindley): this shutdown should perhaps be on a disconnected context.
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
defer func() {
if err := server.Shutdown(ctx); err != nil {
event.Error(ctx, "error shutting down", err)
}
}()
executable, err := os.Executable()
if err != nil {
log.Printf("error getting gopls path: %v", err)
executable = ""
}
ctx = protocol.WithClient(ctx, client)
conn.Go(ctx,
protocol.Handlers(
handshaker(session, executable,
protocol.ServerHandler(server,
jsonrpc2.MethodNotFound))))
if s.logConnections {
log.Printf("Session %s: connected", session.ID())
defer log.Printf("Session %s: exited", session.ID())
}
<-conn.Done()
return conn.Err()
internal/lsp: refactor LSP server instantiation Previously, the process of instantiating and running the LSP server was sharded across the lsp, protocol, and cmd packages, and this resulted in some APIs that are hard to work with. For example, it's hard to guess the difference between lsp.NewClientServer, lsp.NewServer, protocol.NewServer (which returns a client), and protocol.NewClient (which returns a server). This change reorganizes Server instantiation as follows: + The lsp.Server is now purely an implementation of the protocol.Server interface. It is no longer responsible for installing itself into the jsonrpc2 Stream, nor for running itself. + A new package 'lsprpc' is added, to implement the logic of binding an incoming connection to an LSP server session. This is put in a separate package for lack of a clear home: it didn't really philosophically belong in any of the lsp, cmd, or protocol packages. We can perhaps move it to cmd in the future, but I'd like to keep it as a separate package while I develop request forwarding. simplified import graph: jsonrpc2 ⭠ lsprpc ⭠ cmd ⭩ ⭦ lsp (t.b.d. client tests) ⭩ ⭨ protocol source + The jsonrpc2 package is extended to have a minimal API for running a 'StreamServer': something analogous to an HTTP server that listens for new connections and delegates to a handler (but we couldn't use the word 'Handler' for this delegate as it was already taken). After these changes, I hope that the concerns of "serving the LSP", "serving jsonrpc2", and "installing the LSP on jsonrpc2" are more logically organized, though one legitimate criticism is that the word 'Server' is still heavily overloaded. This change prepares a subsequent change which hijacks the jsonrpc2 connection when forwarding messages to a shared gopls instance. To test this change, the following improvements are made: + A servertest package is added to make it easier to run a test against an in-process jsonrpc2 server. For now, this uses TCP but it could easily be modified to use io.Pipe. + cmd tests are updated to use the servertest package. Unfortunately it wasn't yet possible to eliminate the concept of `remote=internal` in favor of just using multiple sessions, because view initialization involves calling both `go env` and `packages.Load`, which slow down session startup significantly. See also golang.org/issue/35968. Instead, the syntax for `-remote=internal` is modified to be `-remote=internal@127.0.0.1:12345`. + An additional test for request cancellation is added for the sessionserver package. This test uncovered a bug: when calling Canceller.Cancel, we were using id rather than &id, which resulted in incorrect json serialization (as only the pointer receiver implements the json.Marshaller interface). Updates golang/go#34111 Change-Id: I75c219df634348cdf53a9e57839b98588311a9ef Reviewed-on: https://go-review.googlesource.com/c/tools/+/215742 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-01-21 17:34:50 -07:00
}
// A Forwarder is a jsonrpc2.StreamServer that handles an LSP stream by
// forwarding it to a remote. This is used when the gopls process started by
// the editor is in the `-remote` mode, which means it finds and connects to a
// separate gopls daemon. In these cases, we still want the forwarder gopls to
// be instrumented with telemetry, and want to be able to in some cases hijack
// the jsonrpc2 connection with the daemon.
type Forwarder struct {
network, addr string
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
// goplsPath is the path to the current executing gopls binary.
goplsPath string
// configuration
dialTimeout time.Duration
retries int
remoteDebug string
remoteListenTimeout time.Duration
remoteLogfile string
}
// A ForwarderOption configures the behavior of the LSP forwarder.
type ForwarderOption interface {
setForwarder(*Forwarder)
}
// RemoteDebugAddress configures the address used by the auto-started Gopls daemon
// for serving debug information.
type RemoteDebugAddress string
func (d RemoteDebugAddress) setForwarder(fwd *Forwarder) {
fwd.remoteDebug = string(d)
}
// RemoteListenTimeout configures the amount of time the auto-started gopls
// daemon will wait with no client connections before shutting down.
type RemoteListenTimeout time.Duration
func (d RemoteListenTimeout) setForwarder(fwd *Forwarder) {
fwd.remoteListenTimeout = time.Duration(d)
}
// RemoteLogfile configures the logfile location for the auto-started gopls
// daemon.
type RemoteLogfile string
func (l RemoteLogfile) setForwarder(fwd *Forwarder) {
fwd.remoteLogfile = string(l)
}
// NewForwarder creates a new Forwarder, ready to forward connections to the
// remote server specified by network and addr.
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
func NewForwarder(network, addr string, opts ...ForwarderOption) *Forwarder {
gp, err := os.Executable()
if err != nil {
log.Printf("error getting gopls path for forwarder: %v", err)
gp = ""
}
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
fwd := &Forwarder{
network: network,
addr: addr,
goplsPath: gp,
dialTimeout: 1 * time.Second,
retries: 5,
remoteListenTimeout: 1 * time.Minute,
}
for _, opt := range opts {
opt.setForwarder(fwd)
}
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
return fwd
}
// QueryServerState queries the server state of the current server.
func QueryServerState(ctx context.Context, network, address string) (*ServerState, error) {
if network == AutoNetwork {
gp, err := os.Executable()
if err != nil {
return nil, fmt.Errorf("getting gopls path: %w", err)
}
network, address = autoNetworkAddress(gp, address)
}
netConn, err := net.DialTimeout(network, address, 5*time.Second)
if err != nil {
return nil, fmt.Errorf("dialing remote: %w", err)
}
serverConn := jsonrpc2.NewConn(jsonrpc2.NewHeaderStream(netConn))
serverConn.Go(ctx, jsonrpc2.MethodNotFound)
var state ServerState
if err := protocol.Call(ctx, serverConn, sessionsMethod, nil, &state); err != nil {
return nil, fmt.Errorf("querying server state: %w", err)
}
return &state, nil
}
// ServeStream dials the forwarder remote and binds the remote to serve the LSP
// on the incoming stream.
func (f *Forwarder) ServeStream(ctx context.Context, clientConn jsonrpc2.Conn) error {
client := protocol.ClientDispatcher(clientConn)
netConn, err := f.connectToRemote(ctx)
if err != nil {
return fmt.Errorf("forwarder: connecting to remote: %w", err)
}
serverConn := jsonrpc2.NewConn(jsonrpc2.NewHeaderStream(netConn))
server := protocol.ServerDispatcher(serverConn)
// Forward between connections.
serverConn.Go(ctx,
protocol.Handlers(
protocol.ClientHandler(client,
jsonrpc2.MethodNotFound)))
// Don't run the clientConn yet, so that we can complete the handshake before
// processing any client messages.
// Do a handshake with the server instance to exchange debug information.
index := atomic.AddInt64(&serverIndex, 1)
serverID := strconv.FormatInt(index, 10)
var (
hreq = handshakeRequest{
ServerID: serverID,
GoplsPath: f.goplsPath,
}
hresp handshakeResponse
)
if di := debug.GetInstance(ctx); di != nil {
hreq.Logfile = di.Logfile
hreq.DebugAddr = di.ListenedDebugAddress
}
if err := protocol.Call(ctx, serverConn, handshakeMethod, hreq, &hresp); err != nil {
event.Error(ctx, "forwarder: gopls handshake failed", err)
}
if hresp.GoplsPath != f.goplsPath {
event.Error(ctx, "", fmt.Errorf("forwarder: gopls path mismatch: forwarder is %q, remote is %q", f.goplsPath, hresp.GoplsPath))
}
event.Log(ctx, "New server",
tag.NewServer.Of(serverID),
tag.Logfile.Of(hresp.Logfile),
tag.DebugAddress.Of(hresp.DebugAddr),
tag.GoplsPath.Of(hresp.GoplsPath),
tag.ClientID.Of(hresp.SessionID),
)
clientConn.Go(ctx,
protocol.Handlers(
forwarderHandler(
protocol.ServerHandler(server,
jsonrpc2.MethodNotFound))))
select {
case <-serverConn.Done():
clientConn.Close()
case <-clientConn.Done():
serverConn.Close()
}
err = serverConn.Err()
if err == nil {
err = clientConn.Err()
}
return err
}
func (f *Forwarder) connectToRemote(ctx context.Context) (net.Conn, error) {
var (
netConn net.Conn
err error
network, address = f.network, f.addr
)
if f.network == AutoNetwork {
// f.network is overloaded to support a concept of 'automatic' addresses,
// which signals that the gopls remote address should be automatically
// derived.
// So we need to resolve a real network and address here.
network, address = autoNetworkAddress(f.goplsPath, f.addr)
}
// Attempt to verify that we own the remote. This is imperfect, but if we can
// determine that the remote is owned by a different user, we should fail.
ok, err := verifyRemoteOwnership(network, address)
if err != nil {
// If the ownership check itself failed, we fail open but log an error to
// the user.
event.Error(ctx, "unable to check daemon socket owner, failing open", err)
} else if !ok {
// We succesfully checked that the socket is not owned by us, we fail
// closed.
return nil, fmt.Errorf("socket %q is owned by a different user", address)
}
// Try dialing our remote once, in case it is already running.
netConn, err = net.DialTimeout(network, address, f.dialTimeout)
if err == nil {
return netConn, nil
}
// If our remote is on the 'auto' network, start it if it doesn't exist.
if f.network == AutoNetwork {
if f.goplsPath == "" {
return nil, fmt.Errorf("cannot auto-start remote: gopls path is unknown")
}
if network == "unix" {
// Sometimes the socketfile isn't properly cleaned up when gopls shuts
// down. Since we have already tried and failed to dial this address, it
// should *usually* be safe to remove the socket before binding to the
// address.
// TODO(rfindley): there is probably a race here if multiple gopls
// instances are simultaneously starting up.
if _, err := os.Stat(address); err == nil {
if err := os.Remove(address); err != nil {
return nil, fmt.Errorf("removing remote socket file: %w", err)
}
}
}
args := []string{"serve",
"-listen", fmt.Sprintf(`%s;%s`, network, address),
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
"-listen.timeout", f.remoteListenTimeout.String(),
}
if f.remoteLogfile != "" {
args = append(args, "-logfile", f.remoteLogfile)
internal/lsp/lsprpc: expose configuration for auto-started daemon Three new flags are added to the serve command, and threaded through to the LSP forwarder: -remote.listen.timeout: -listen.timeout for the auto-started daemon -remote.debug: -debug for the auto-started daemon -remote.logfile: -logfile for the auto-started daemon As part of this change, no longer enable debugging the daemon by default. Notably none of this configuration affects serving, so modifying this configuration has been chosen not to change the path to the automatic daemon. In other words, this configuration has effect only for the forwarder process that starts the daemon: all others will connect to the daemon and inherit whatever configuration it had at startup. This should be OK, because in the common case this configuration should be static across all clients (e.g., many Vim sessions all sharing the same .vimrc). Exposing this configuration made the signature of lsprpc.NewForwarder a bit hard to understand, so I decided to go ahead and switch to a variadic options pattern for initializing both the Forwarder and StreamServer, the latter just for consistency with the Forwarder. Updates golang/go#34111 Change-Id: Iefb71e337befe08b23e451477d19fd57e69f36c6 Reviewed-on: https://go-review.googlesource.com/c/tools/+/222670 Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Rebecca Stambler <rstambler@golang.org> Reviewed-by: Heschi Kreinick <heschi@google.com>
2020-03-09 11:22:56 -06:00
}
if f.remoteDebug != "" {
args = append(args, "-debug", f.remoteDebug)
}
if err := startRemote(f.goplsPath, args...); err != nil {
return nil, fmt.Errorf("startRemote(%q, %v): %w", f.goplsPath, args, err)
}
}
// It can take some time for the newly started server to bind to our address,
// so we retry for a bit.
for retry := 0; retry < f.retries; retry++ {
startDial := time.Now()
netConn, err = net.DialTimeout(network, address, f.dialTimeout)
if err == nil {
return netConn, nil
}
event.Log(ctx, fmt.Sprintf("failed attempt #%d to connect to remote: %v\n", retry+2, err))
// In case our failure was a fast-failure, ensure we wait at least
// f.dialTimeout before trying again.
if retry != f.retries-1 {
time.Sleep(f.dialTimeout - time.Since(startDial))
}
}
return nil, fmt.Errorf("dialing remote: %w", err)
}
// forwarderHandler intercepts 'exit' messages to prevent the shared gopls
// instance from exiting. In the future it may also intercept 'shutdown' to
// provide more graceful shutdown of the client connection.
func forwarderHandler(handler jsonrpc2.Handler) jsonrpc2.Handler {
return func(ctx context.Context, reply jsonrpc2.Replier, r jsonrpc2.Request) error {
// The gopls workspace environment defaults to the process environment in
// which gopls daemon was started. To avoid discrepancies in Go environment
// between the editor and daemon, inject any unset variables in `go env`
// into the options sent by initialize.
//
// See also golang.org/issue/37830.
if r.Method() == "initialize" {
if newr, err := addGoEnvToInitializeRequest(ctx, r); err == nil {
r = newr
} else {
log.Printf("unable to add local env to initialize request: %v", err)
}
}
return handler(ctx, reply, r)
}
}
// addGoEnvToInitializeRequest builds a new initialize request in which we set
// any environment variables output by `go env` and not already present in the
// request.
//
// It returns an error if r is not an initialize requst, or is otherwise
// malformed.
func addGoEnvToInitializeRequest(ctx context.Context, r jsonrpc2.Request) (jsonrpc2.Request, error) {
var params protocol.ParamInitialize
if err := json.Unmarshal(r.Params(), &params); err != nil {
return nil, err
}
var opts map[string]interface{}
switch v := params.InitializationOptions.(type) {
case nil:
opts = make(map[string]interface{})
case map[string]interface{}:
opts = v
default:
return nil, fmt.Errorf("unexpected type for InitializationOptions: %T", v)
}
envOpt, ok := opts["env"]
if !ok {
envOpt = make(map[string]interface{})
}
env, ok := envOpt.(map[string]interface{})
if !ok {
return nil, fmt.Errorf(`env option is %T, expected a map`, envOpt)
}
goenv, err := getGoEnv(ctx, env)
if err != nil {
return nil, err
}
for govar, value := range goenv {
env[govar] = value
}
opts["env"] = env
params.InitializationOptions = opts
call, ok := r.(*jsonrpc2.Call)
if !ok {
return nil, fmt.Errorf("%T is not a *jsonrpc2.Call", r)
}
return jsonrpc2.NewCall(call.ID(), "initialize", params)
}
func getGoEnv(ctx context.Context, env map[string]interface{}) (map[string]string, error) {
var runEnv []string
for k, v := range env {
runEnv = append(runEnv, fmt.Sprintf("%s=%s", k, v))
}
runner := gocommand.Runner{}
output, err := runner.Run(ctx, gocommand.Invocation{
Verb: "env",
Args: []string{"-json"},
Env: runEnv,
})
if err != nil {
return nil, err
}
envmap := make(map[string]string)
if err := json.Unmarshal(output.Bytes(), &envmap); err != nil {
return nil, err
}
return envmap, nil
}
// A handshakeRequest identifies a client to the LSP server.
type handshakeRequest struct {
// ServerID is the ID of the server on the client. This should usually be 0.
ServerID string `json:"serverID"`
// Logfile is the location of the clients log file.
Logfile string `json:"logfile"`
// DebugAddr is the client debug address.
DebugAddr string `json:"debugAddr"`
// GoplsPath is the path to the Gopls binary running the current client
// process.
GoplsPath string `json:"goplsPath"`
}
// A handshakeResponse is returned by the LSP server to tell the LSP client
// information about its session.
type handshakeResponse struct {
// SessionID is the server session associated with the client.
SessionID string `json:"sessionID"`
// Logfile is the location of the server logs.
Logfile string `json:"logfile"`
// DebugAddr is the server debug address.
DebugAddr string `json:"debugAddr"`
// GoplsPath is the path to the Gopls binary running the current server
// process.
GoplsPath string `json:"goplsPath"`
}
// ClientSession identifies a current client LSP session on the server. Note
// that it looks similar to handshakeResposne, but in fact 'Logfile' and
// 'DebugAddr' now refer to the client.
type ClientSession struct {
SessionID string `json:"sessionID"`
Logfile string `json:"logfile"`
DebugAddr string `json:"debugAddr"`
}
// ServerState holds information about the gopls daemon process, including its
// debug information and debug information of all of its current connected
// clients.
type ServerState struct {
Logfile string `json:"logfile"`
DebugAddr string `json:"debugAddr"`
GoplsPath string `json:"goplsPath"`
CurrentClientID string `json:"currentClientID"`
Clients []ClientSession `json:"clients"`
}
const (
handshakeMethod = "gopls/handshake"
sessionsMethod = "gopls/sessions"
)
func handshaker(session *cache.Session, goplsPath string, handler jsonrpc2.Handler) jsonrpc2.Handler {
return func(ctx context.Context, reply jsonrpc2.Replier, r jsonrpc2.Request) error {
switch r.Method() {
case handshakeMethod:
// We log.Printf in this handler, rather than event.Log when we want logs
// to go to the daemon log rather than being reflected back to the
// client.
var req handshakeRequest
if err := json.Unmarshal(r.Params(), &req); err != nil {
log.Printf("Error processing handshake for session %s: %v", session.ID(), err)
sendError(ctx, reply, err)
return nil
}
log.Printf("Session %s: got handshake. Logfile: %q, Debug addr: %q", session.ID(), req.Logfile, req.DebugAddr)
event.Log(ctx, "Handshake session update",
cache.KeyUpdateSession.Of(session),
tag.DebugAddress.Of(req.DebugAddr),
tag.Logfile.Of(req.Logfile),
tag.ServerID.Of(req.ServerID),
tag.GoplsPath.Of(req.GoplsPath),
)
resp := handshakeResponse{
SessionID: session.ID(),
GoplsPath: goplsPath,
}
if di := debug.GetInstance(ctx); di != nil {
resp.Logfile = di.Logfile
resp.DebugAddr = di.ListenedDebugAddress
}
return reply(ctx, resp, nil)
case sessionsMethod:
resp := ServerState{
GoplsPath: goplsPath,
CurrentClientID: session.ID(),
}
if di := debug.GetInstance(ctx); di != nil {
resp.Logfile = di.Logfile
resp.DebugAddr = di.ListenedDebugAddress
for _, c := range di.State.Clients() {
resp.Clients = append(resp.Clients, ClientSession{
SessionID: c.Session.ID(),
Logfile: c.Logfile,
DebugAddr: c.DebugAddress,
})
}
}
return reply(ctx, resp, nil)
}
return handler(ctx, reply, r)
}
}
func sendError(ctx context.Context, reply jsonrpc2.Replier, err error) {
err = fmt.Errorf("%w: %v", jsonrpc2.ErrParse, err)
if err := reply(ctx, nil, err); err != nil {
event.Error(ctx, "", err)
}
}