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lsp_server/
lib.rs

1//! A language server scaffold, exposing a synchronous crossbeam-channel based API.
2//! This crate handles protocol handshaking and parsing messages, while you
3//! control the message dispatch loop yourself.
4//!
5//! Run with `RUST_LOG=lsp_server=debug` to see all the messages.
6
7#![warn(rust_2018_idioms, unused_lifetimes)]
8#![allow(clippy::print_stdout, clippy::disallowed_types)]
9
10mod error;
11mod msg;
12mod req_queue;
13mod socket;
14mod stdio;
15
16use std::{
17    io,
18    net::{TcpListener, TcpStream, ToSocketAddrs},
19};
20
21use crossbeam_channel::{Receiver, RecvError, RecvTimeoutError, Sender};
22
23pub use crate::{
24    error::{ExtractError, ProtocolError},
25    msg::{
26        ErrorCode, Message, Notification, Request, RequestId, Response, ResponseError, ResponseKind,
27    },
28    req_queue::{Incoming, Outgoing, ReqQueue},
29    stdio::IoThreads,
30};
31
32/// Connection is just a pair of channels of LSP messages.
33pub struct Connection {
34    pub sender: Sender<Message>,
35    pub receiver: Receiver<Message>,
36}
37
38impl Connection {
39    /// Create connection over standard in/standard out.
40    ///
41    /// Use this to create a real language server.
42    pub fn stdio() -> (Connection, IoThreads) {
43        let (sender, receiver, io_threads) = stdio::stdio_transport();
44        (Connection { sender, receiver }, io_threads)
45    }
46
47    /// Open a connection over tcp.
48    /// This call blocks until a connection is established.
49    ///
50    /// Use this to create a real language server.
51    pub fn connect<A: ToSocketAddrs>(addr: A) -> io::Result<(Connection, IoThreads)> {
52        let stream = TcpStream::connect(addr)?;
53        let (sender, receiver, io_threads) = socket::socket_transport(stream);
54        Ok((Connection { sender, receiver }, io_threads))
55    }
56
57    /// Listen for a connection over tcp.
58    /// This call blocks until a connection is established.
59    ///
60    /// Use this to create a real language server.
61    pub fn listen<A: ToSocketAddrs>(addr: A) -> io::Result<(Connection, IoThreads)> {
62        let listener = TcpListener::bind(addr)?;
63        let (stream, _) = listener.accept()?;
64        let (sender, receiver, io_threads) = socket::socket_transport(stream);
65        Ok((Connection { sender, receiver }, io_threads))
66    }
67
68    /// Creates a pair of connected connections.
69    ///
70    /// Use this for testing.
71    pub fn memory() -> (Connection, Connection) {
72        let (s1, r1) = crossbeam_channel::unbounded();
73        let (s2, r2) = crossbeam_channel::unbounded();
74        (Connection { sender: s1, receiver: r2 }, Connection { sender: s2, receiver: r1 })
75    }
76
77    /// Starts the initialization process by waiting for an initialize
78    /// request from the client. Use this for more advanced customization than
79    /// `initialize` can provide.
80    ///
81    /// Returns the request id and serialized `InitializeParams` from the client.
82    ///
83    /// # Example
84    ///
85    /// ```no_run
86    /// use std::error::Error;
87    /// use lsp_types::{ClientCapabilities, InitializeParams, ServerCapabilities};
88    ///
89    /// use lsp_server::{Connection, Message, Request, RequestId, Response};
90    ///
91    /// fn main() -> Result<(), Box<dyn Error + Sync + Send>> {
92    ///    // Create the transport. Includes the stdio (stdin and stdout) versions but this could
93    ///    // also be implemented to use sockets or HTTP.
94    ///    let (connection, io_threads) = Connection::stdio();
95    ///
96    ///    // Run the server
97    ///    let (id, params) = connection.initialize_start()?;
98    ///
99    ///    let init_params: InitializeParams = serde_json::from_value(params).unwrap();
100    ///    let client_capabilities: ClientCapabilities = init_params.capabilities;
101    ///    let server_capabilities = ServerCapabilities::default();
102    ///
103    ///    let initialize_data = serde_json::json!({
104    ///        "capabilities": server_capabilities,
105    ///        "serverInfo": {
106    ///            "name": "lsp-server-test",
107    ///            "version": "0.1"
108    ///        }
109    ///    });
110    ///
111    ///    connection.initialize_finish(id, initialize_data)?;
112    ///
113    ///    // ... Run main loop ...
114    ///
115    ///    Ok(())
116    /// }
117    /// ```
118    pub fn initialize_start(&self) -> Result<(RequestId, serde_json::Value), ProtocolError> {
119        self.initialize_start_while(|| true)
120    }
121
122    /// Starts the initialization process by waiting for an initialize as described in
123    /// [`Self::initialize_start`] as long as `running` returns
124    /// `true` while the return value can be changed through a sig handler such as `CTRL + C`.
125    ///
126    /// # Example
127    ///
128    /// ```rust
129    /// use std::sync::atomic::{AtomicBool, Ordering};
130    /// use std::sync::Arc;
131    /// # use std::error::Error;
132    /// # use lsp_types::{ClientCapabilities, InitializeParams, ServerCapabilities};
133    /// # use lsp_server::{Connection, Message, Request, RequestId, Response};
134    /// # fn main() -> Result<(), Box<dyn Error + Sync + Send>> {
135    /// let running = Arc::new(AtomicBool::new(true));
136    /// # running.store(true, Ordering::SeqCst);
137    /// let r = running.clone();
138    ///
139    /// ctrlc::set_handler(move || {
140    ///     r.store(false, Ordering::SeqCst);
141    /// }).expect("Error setting Ctrl-C handler");
142    ///
143    /// let (connection, io_threads) = Connection::stdio();
144    ///
145    /// let res = connection.initialize_start_while(|| running.load(Ordering::SeqCst));
146    /// # assert!(res.is_err());
147    ///
148    /// # Ok(())
149    /// # }
150    /// ```
151    pub fn initialize_start_while<C>(
152        &self,
153        running: C,
154    ) -> Result<(RequestId, serde_json::Value), ProtocolError>
155    where
156        C: Fn() -> bool,
157    {
158        while running() {
159            let msg = match self.receiver.recv_timeout(std::time::Duration::from_secs(1)) {
160                Ok(msg) => msg,
161                Err(RecvTimeoutError::Timeout) => {
162                    continue;
163                }
164                Err(RecvTimeoutError::Disconnected) => return Err(ProtocolError::disconnected()),
165            };
166
167            match msg {
168                Message::Request(req) if req.is_initialize() => return Ok((req.id, req.params)),
169                // Respond to non-initialize requests with ServerNotInitialized
170                Message::Request(req) => {
171                    let resp = Response::new_err(
172                        req.id.clone(),
173                        ErrorCode::ServerNotInitialized as i32,
174                        format!("expected initialize request, got {req:?}"),
175                    );
176                    self.sender.send(resp.into()).unwrap();
177                    continue;
178                }
179                Message::Notification(n) if !n.is_exit() => {
180                    continue;
181                }
182                msg => {
183                    return Err(ProtocolError::new(format!(
184                        "expected initialize request, got {msg:?}"
185                    )));
186                }
187            };
188        }
189
190        Err(ProtocolError::new(String::from(
191            "Initialization has been aborted during initialization",
192        )))
193    }
194
195    /// Finishes the initialization process by sending an `InitializeResult` to the client
196    pub fn initialize_finish(
197        &self,
198        initialize_id: RequestId,
199        initialize_result: serde_json::Value,
200    ) -> Result<(), ProtocolError> {
201        let resp = Response::new_ok(initialize_id, initialize_result);
202        self.sender.send(resp.into()).unwrap();
203        match &self.receiver.recv() {
204            Ok(Message::Notification(n)) if n.is_initialized() => Ok(()),
205            Ok(msg) => Err(ProtocolError::new(format!(
206                r#"expected initialized notification, got: {msg:?}"#
207            ))),
208            Err(RecvError) => Err(ProtocolError::disconnected()),
209        }
210    }
211
212    /// Finishes the initialization process as described in [`Self::initialize_finish`] as
213    /// long as `running` returns `true` while the return value can be changed through a sig
214    /// handler such as `CTRL + C`.
215    pub fn initialize_finish_while<C>(
216        &self,
217        initialize_id: RequestId,
218        initialize_result: serde_json::Value,
219        running: C,
220    ) -> Result<(), ProtocolError>
221    where
222        C: Fn() -> bool,
223    {
224        let resp = Response::new_ok(initialize_id, initialize_result);
225        self.sender.send(resp.into()).unwrap();
226
227        while running() {
228            let msg = match self.receiver.recv_timeout(std::time::Duration::from_secs(1)) {
229                Ok(msg) => msg,
230                Err(RecvTimeoutError::Timeout) => {
231                    continue;
232                }
233                Err(RecvTimeoutError::Disconnected) => {
234                    return Err(ProtocolError::disconnected());
235                }
236            };
237
238            match msg {
239                Message::Notification(n) if n.is_initialized() => {
240                    return Ok(());
241                }
242                msg => {
243                    return Err(ProtocolError::new(format!(
244                        r#"expected initialized notification, got: {msg:?}"#
245                    )));
246                }
247            }
248        }
249
250        Err(ProtocolError::new(String::from(
251            "Initialization has been aborted during initialization",
252        )))
253    }
254
255    /// Initialize the connection. Sends the server capabilities
256    /// to the client and returns the serialized client capabilities
257    /// on success. If more fine-grained initialization is required use
258    /// `initialize_start`/`initialize_finish`.
259    ///
260    /// # Example
261    ///
262    /// ```no_run
263    /// use std::error::Error;
264    /// use lsp_types::ServerCapabilities;
265    ///
266    /// use lsp_server::{Connection, Message, Request, RequestId, Response};
267    ///
268    /// fn main() -> Result<(), Box<dyn Error + Sync + Send>> {
269    ///    // Create the transport. Includes the stdio (stdin and stdout) versions but this could
270    ///    // also be implemented to use sockets or HTTP.
271    ///    let (connection, io_threads) = Connection::stdio();
272    ///
273    ///    // Run the server
274    ///    let server_capabilities = serde_json::to_value(&ServerCapabilities::default()).unwrap();
275    ///    let initialization_params = connection.initialize(server_capabilities)?;
276    ///
277    ///    // ... Run main loop ...
278    ///
279    ///    Ok(())
280    /// }
281    /// ```
282    pub fn initialize(
283        &self,
284        server_capabilities: serde_json::Value,
285    ) -> Result<serde_json::Value, ProtocolError> {
286        let (id, params) = self.initialize_start()?;
287
288        let initialize_data = serde_json::json!({
289            "capabilities": server_capabilities,
290        });
291
292        self.initialize_finish(id, initialize_data)?;
293
294        Ok(params)
295    }
296
297    /// Initialize the connection as described in [`Self::initialize`] as long as `running` returns
298    /// `true` while the return value can be changed through a sig handler such as `CTRL + C`.
299    ///
300    /// # Example
301    ///
302    /// ```rust
303    /// use std::sync::atomic::{AtomicBool, Ordering};
304    /// use std::sync::Arc;
305    /// # use std::error::Error;
306    /// # use lsp_types::ServerCapabilities;
307    /// # use lsp_server::{Connection, Message, Request, RequestId, Response};
308    ///
309    /// # fn main() -> Result<(), Box<dyn Error + Sync + Send>> {
310    /// let running = Arc::new(AtomicBool::new(true));
311    /// # running.store(true, Ordering::SeqCst);
312    /// let r = running.clone();
313    ///
314    /// ctrlc::set_handler(move || {
315    ///     r.store(false, Ordering::SeqCst);
316    /// }).expect("Error setting Ctrl-C handler");
317    ///
318    /// let (connection, io_threads) = Connection::stdio();
319    ///
320    /// let server_capabilities = serde_json::to_value(&ServerCapabilities::default()).unwrap();
321    /// let initialization_params = connection.initialize_while(
322    ///     server_capabilities,
323    ///     || running.load(Ordering::SeqCst)
324    /// );
325    ///
326    /// # assert!(initialization_params.is_err());
327    /// # Ok(())
328    /// # }
329    /// ```
330    pub fn initialize_while<C>(
331        &self,
332        server_capabilities: serde_json::Value,
333        running: C,
334    ) -> Result<serde_json::Value, ProtocolError>
335    where
336        C: Fn() -> bool,
337    {
338        let (id, params) = self.initialize_start_while(&running)?;
339
340        let initialize_data = serde_json::json!({
341            "capabilities": server_capabilities,
342        });
343
344        self.initialize_finish_while(id, initialize_data, running)?;
345
346        Ok(params)
347    }
348
349    /// If `req` is `Shutdown`, respond to it and return `true`, otherwise return `false`
350    pub fn handle_shutdown(&self, req: &Request) -> Result<bool, ProtocolError> {
351        if !req.is_shutdown() {
352            return Ok(false);
353        }
354        let resp = Response::new_ok(req.id.clone(), ());
355        let _ = self.sender.send(resp.into());
356        match &self.receiver.recv_timeout(std::time::Duration::from_secs(30)) {
357            Ok(Message::Notification(n)) if n.is_exit() => (),
358            Ok(msg) => {
359                return Err(ProtocolError::new(format!(
360                    "unexpected message during shutdown: {msg:?}"
361                )));
362            }
363            Err(RecvTimeoutError::Timeout) => {
364                return Err(ProtocolError::new(
365                    "timed out waiting for exit notification".to_owned(),
366                ));
367            }
368            Err(RecvTimeoutError::Disconnected) => {
369                return Err(ProtocolError::new(
370                    "channel disconnected waiting for exit notification".to_owned(),
371                ));
372            }
373        }
374        Ok(true)
375    }
376}
377
378#[cfg(test)]
379mod tests {
380    use crossbeam_channel::unbounded;
381    use lsp_types::{
382        ExitNotification, InitializeParams, InitializeRequest, InitializedNotification,
383        InitializedParams, Notification as _, Request as _,
384    };
385    use serde_json::to_value;
386
387    use crate::{Connection, Message, ProtocolError, RequestId};
388
389    struct TestCase {
390        test_messages: Vec<Message>,
391        expected_resp: Result<(RequestId, serde_json::Value), ProtocolError>,
392    }
393
394    fn initialize_start_test(test_case: TestCase) {
395        let (reader_sender, reader_receiver) = unbounded::<Message>();
396        let (writer_sender, writer_receiver) = unbounded::<Message>();
397        let conn = Connection { sender: writer_sender, receiver: reader_receiver };
398
399        for msg in test_case.test_messages {
400            assert!(reader_sender.send(msg).is_ok());
401        }
402
403        let resp = conn.initialize_start();
404        assert_eq!(test_case.expected_resp, resp);
405
406        assert!(writer_receiver.recv_timeout(std::time::Duration::from_secs(1)).is_err());
407    }
408
409    #[test]
410    fn not_exit_notification() {
411        let notification = crate::Notification {
412            method: InitializedNotification::METHOD.to_string(),
413            params: to_value(InitializedParams {}).unwrap(),
414        };
415
416        let params_as_value = to_value(InitializeParams::default()).unwrap();
417        let req_id = RequestId::from(234);
418        let request = crate::Request {
419            id: req_id.clone(),
420            method: InitializeRequest::METHOD.to_string(),
421            params: params_as_value.clone(),
422        };
423
424        initialize_start_test(TestCase {
425            test_messages: vec![notification.into(), request.into()],
426            expected_resp: Ok((req_id, params_as_value)),
427        });
428    }
429
430    #[test]
431    fn exit_notification() {
432        let notification = crate::Notification {
433            method: ExitNotification::METHOD.to_string(),
434            params: to_value(()).unwrap(),
435        };
436        let notification_msg = Message::from(notification);
437
438        initialize_start_test(TestCase {
439            test_messages: vec![notification_msg.clone()],
440            expected_resp: Err(ProtocolError::new(format!(
441                "expected initialize request, got {notification_msg:?}"
442            ))),
443        });
444    }
445}