1use serde::{Deserialize, Serialize, de::DeserializeOwned};
4
5use crate::error::ProtocolResult;
6
7pub const PROTOCOL_VERSION: u8 = 6;
13
14pub const FLAG_TERMINAL: u8 = 0b0000_0001;
18
19pub const FLAG_SESSION_START: u8 = 0b0000_0010;
23
24pub const FLAG_SHUTDOWN: u8 = 0b0000_0100;
29
30pub const FRAME_HEADER_SIZE: usize = 5;
33
34#[derive(Debug, Clone, Serialize, Deserialize)]
47pub struct Message {
48 pub v: u8,
56
57 pub t: MessageType,
59
60 #[serde(skip)]
65 pub id: u32,
66
67 #[serde(skip)]
71 pub flags: u8,
72
73 #[serde(with = "serde_bytes")]
75 pub p: Vec<u8>,
76}
77
78#[derive(
86 Debug,
87 Clone,
88 Copy,
89 PartialEq,
90 Eq,
91 Hash,
92 strum::IntoStaticStr,
93 strum::EnumString,
94 strum::EnumIter,
95)]
96pub enum MessageType {
97 #[strum(serialize = "core.ready")]
99 Ready,
100
101 #[strum(serialize = "core.init.resolved")]
103 InitResolved,
104
105 #[strum(serialize = "core.init.ack")]
107 InitAck,
108
109 #[strum(serialize = "core.shutdown")]
111 Shutdown,
112
113 #[strum(serialize = "core.relay.client.disconnected")]
115 RelayClientDisconnected,
116
117 #[strum(serialize = "core.clock.sync")]
119 ClockSync,
120
121 #[strum(serialize = "core.ping")]
123 Ping,
124
125 #[strum(serialize = "core.pong")]
127 Pong,
128
129 #[strum(serialize = "core.touch")]
131 Touch,
132
133 #[strum(serialize = "core.touched")]
135 Touched,
136
137 #[strum(serialize = "core.error")]
139 CoreError,
140
141 #[strum(serialize = "core.exec.request")]
143 ExecRequest,
144
145 #[strum(serialize = "core.exec.started")]
147 ExecStarted,
148
149 #[strum(serialize = "core.exec.stdin")]
151 ExecStdin,
152
153 #[strum(serialize = "core.exec.stdin.error")]
158 ExecStdinError,
159
160 #[strum(serialize = "core.exec.stdout")]
162 ExecStdout,
163
164 #[strum(serialize = "core.exec.stderr")]
166 ExecStderr,
167
168 #[strum(serialize = "core.exec.exited")]
170 ExecExited,
171
172 #[strum(serialize = "core.exec.failed")]
176 ExecFailed,
177
178 #[strum(serialize = "core.exec.resize")]
180 ExecResize,
181
182 #[strum(serialize = "core.exec.signal")]
184 ExecSignal,
185
186 #[strum(serialize = "core.fs.request")]
188 FsRequest,
189
190 #[strum(serialize = "core.fs.response")]
192 FsResponse,
193
194 #[strum(serialize = "core.fs.data")]
196 FsData,
197
198 #[strum(serialize = "core.tcp.connect")]
200 TcpConnect,
201
202 #[strum(serialize = "core.tcp.connected")]
204 TcpConnected,
205
206 #[strum(serialize = "core.tcp.data")]
208 TcpData,
209
210 #[strum(serialize = "core.tcp.eof")]
212 TcpEof,
213
214 #[strum(serialize = "core.tcp.close")]
216 TcpClose,
217
218 #[strum(serialize = "core.tcp.closed")]
220 TcpClosed,
221
222 #[strum(serialize = "core.tcp.failed")]
224 TcpFailed,
225}
226
227impl Message {
232 pub fn new(t: MessageType, id: u32, p: Vec<u8>) -> Self {
234 let flags = t.flags();
235 Self {
236 v: PROTOCOL_VERSION,
237 t,
238 id,
239 flags,
240 p,
241 }
242 }
243
244 pub fn with_payload<T: Serialize>(
246 t: MessageType,
247 id: u32,
248 payload: &T,
249 ) -> ProtocolResult<Self> {
250 let mut p = Vec::new();
251 ciborium::into_writer(payload, &mut p)?;
252 let flags = t.flags();
253 Ok(Self {
254 v: PROTOCOL_VERSION,
255 t,
256 id,
257 flags,
258 p,
259 })
260 }
261
262 pub fn payload<T: DeserializeOwned>(&self) -> ProtocolResult<T> {
264 Ok(ciborium::from_reader(&self.p[..])?)
265 }
266}
267
268impl MessageType {
269 pub fn flags(&self) -> u8 {
271 match self {
272 Self::Pong
273 | Self::Touched
274 | Self::CoreError
275 | Self::ExecExited
276 | Self::ExecFailed
277 | Self::FsResponse
278 | Self::TcpClosed
279 | Self::TcpFailed => FLAG_TERMINAL,
280 Self::ExecRequest | Self::FsRequest | Self::TcpConnect => FLAG_SESSION_START,
281 Self::Shutdown => FLAG_SHUTDOWN,
282 _ => 0,
283 }
284 }
285
286 pub fn min_protocol_version(&self) -> u8 {
307 match self {
308 Self::Ready
309 | Self::InitResolved
310 | Self::InitAck
311 | Self::Shutdown
312 | Self::RelayClientDisconnected
313 | Self::ClockSync
314 | Self::ExecRequest
315 | Self::ExecStarted
316 | Self::ExecStdin
317 | Self::ExecStdinError
318 | Self::ExecStdout
319 | Self::ExecStderr
320 | Self::ExecExited
321 | Self::ExecFailed
322 | Self::ExecResize
323 | Self::ExecSignal => 1,
324 Self::FsRequest | Self::FsResponse | Self::FsData => 2,
325 Self::CoreError => 5,
326 Self::Ping | Self::Pong | Self::Touch | Self::Touched => 6,
327 Self::TcpConnect
328 | Self::TcpConnected
329 | Self::TcpData
330 | Self::TcpEof
331 | Self::TcpClose
332 | Self::TcpClosed
333 | Self::TcpFailed => 4,
334 }
335 }
336
337 pub fn is_available_at(&self, peer_generation: u8) -> bool {
346 self.min_protocol_version() <= peer_generation
347 }
348
349 pub fn as_str(&self) -> &'static str {
354 (*self).into()
355 }
356
357 pub fn from_wire_str(s: &str) -> Option<Self> {
360 s.parse().ok()
361 }
362}
363
364impl Serialize for MessageType {
369 fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
370 where
371 S: serde::Serializer,
372 {
373 serializer.serialize_str(self.as_str())
374 }
375}
376
377impl<'de> Deserialize<'de> for MessageType {
378 fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
379 where
380 D: serde::Deserializer<'de>,
381 {
382 let s = String::deserialize(deserializer)?;
383 Self::from_wire_str(&s)
384 .ok_or_else(|| serde::de::Error::custom(format!("unknown message type: {s}")))
385 }
386}
387
388#[cfg(test)]
393mod tests {
394 use super::*;
395
396 #[test]
397 fn test_message_type_roundtrip() {
398 let types = [
399 (MessageType::Ready, "core.ready"),
400 (MessageType::InitResolved, "core.init.resolved"),
401 (MessageType::InitAck, "core.init.ack"),
402 (MessageType::Shutdown, "core.shutdown"),
403 (
404 MessageType::RelayClientDisconnected,
405 "core.relay.client.disconnected",
406 ),
407 (MessageType::ClockSync, "core.clock.sync"),
408 (MessageType::Ping, "core.ping"),
409 (MessageType::Pong, "core.pong"),
410 (MessageType::Touch, "core.touch"),
411 (MessageType::Touched, "core.touched"),
412 (MessageType::CoreError, "core.error"),
413 (MessageType::ExecRequest, "core.exec.request"),
414 (MessageType::ExecStarted, "core.exec.started"),
415 (MessageType::ExecStdin, "core.exec.stdin"),
416 (MessageType::ExecStdinError, "core.exec.stdin.error"),
417 (MessageType::ExecStdout, "core.exec.stdout"),
418 (MessageType::ExecStderr, "core.exec.stderr"),
419 (MessageType::ExecExited, "core.exec.exited"),
420 (MessageType::ExecFailed, "core.exec.failed"),
421 (MessageType::ExecResize, "core.exec.resize"),
422 (MessageType::ExecSignal, "core.exec.signal"),
423 (MessageType::FsRequest, "core.fs.request"),
424 (MessageType::FsResponse, "core.fs.response"),
425 (MessageType::FsData, "core.fs.data"),
426 (MessageType::TcpConnect, "core.tcp.connect"),
427 (MessageType::TcpConnected, "core.tcp.connected"),
428 (MessageType::TcpData, "core.tcp.data"),
429 (MessageType::TcpEof, "core.tcp.eof"),
430 (MessageType::TcpClose, "core.tcp.close"),
431 (MessageType::TcpClosed, "core.tcp.closed"),
432 (MessageType::TcpFailed, "core.tcp.failed"),
433 ];
434
435 for (mt, expected_str) in &types {
436 assert_eq!(mt.as_str(), *expected_str);
437 assert_eq!(MessageType::from_wire_str(expected_str).unwrap(), *mt);
438 }
439 }
440
441 #[test]
442 fn test_message_type_serde_roundtrip() {
443 let types = [
444 MessageType::Ready,
445 MessageType::InitResolved,
446 MessageType::InitAck,
447 MessageType::Shutdown,
448 MessageType::RelayClientDisconnected,
449 MessageType::ClockSync,
450 MessageType::Ping,
451 MessageType::Pong,
452 MessageType::Touch,
453 MessageType::Touched,
454 MessageType::CoreError,
455 MessageType::ExecRequest,
456 MessageType::ExecStarted,
457 MessageType::ExecStdin,
458 MessageType::ExecStdinError,
459 MessageType::ExecStdout,
460 MessageType::ExecStderr,
461 MessageType::ExecExited,
462 MessageType::ExecFailed,
463 MessageType::ExecResize,
464 MessageType::ExecSignal,
465 MessageType::FsRequest,
466 MessageType::FsResponse,
467 MessageType::FsData,
468 MessageType::TcpConnect,
469 MessageType::TcpConnected,
470 MessageType::TcpData,
471 MessageType::TcpEof,
472 MessageType::TcpClose,
473 MessageType::TcpClosed,
474 MessageType::TcpFailed,
475 ];
476
477 for mt in &types {
478 let mut buf = Vec::new();
479 ciborium::into_writer(mt, &mut buf).unwrap();
480 let decoded: MessageType = ciborium::from_reader(&buf[..]).unwrap();
481 assert_eq!(&decoded, mt);
482 }
483 }
484
485 #[test]
486 fn test_unknown_message_type() {
487 assert!(MessageType::from_wire_str("core.unknown").is_none());
488 }
489
490 #[test]
491 fn test_message_with_payload_roundtrip() {
492 use crate::exec::ExecExited;
493
494 let msg =
495 Message::with_payload(MessageType::ExecExited, 7, &ExecExited { code: 42 }).unwrap();
496
497 assert_eq!(msg.t, MessageType::ExecExited);
498 assert_eq!(msg.id, 7);
499 assert_eq!(msg.flags, FLAG_TERMINAL);
500
501 let payload: ExecExited = msg.payload().unwrap();
502 assert_eq!(payload.code, 42);
503 }
504
505 #[test]
506 fn test_message_type_flags() {
507 assert_eq!(MessageType::ExecExited.flags(), FLAG_TERMINAL);
508 assert_eq!(MessageType::ExecFailed.flags(), FLAG_TERMINAL);
509 assert_eq!(MessageType::FsResponse.flags(), FLAG_TERMINAL);
510 assert_eq!(MessageType::TcpClosed.flags(), FLAG_TERMINAL);
511 assert_eq!(MessageType::TcpFailed.flags(), FLAG_TERMINAL);
512 assert_eq!(MessageType::Pong.flags(), FLAG_TERMINAL);
513 assert_eq!(MessageType::Touched.flags(), FLAG_TERMINAL);
514 assert_eq!(MessageType::ExecRequest.flags(), FLAG_SESSION_START);
515 assert_eq!(MessageType::FsRequest.flags(), FLAG_SESSION_START);
516 assert_eq!(MessageType::TcpConnect.flags(), FLAG_SESSION_START);
517 assert_eq!(MessageType::Ready.flags(), 0);
518 assert_eq!(MessageType::InitResolved.flags(), 0);
519 assert_eq!(MessageType::InitAck.flags(), 0);
520 assert_eq!(MessageType::Shutdown.flags(), FLAG_SHUTDOWN);
521 assert_eq!(MessageType::ClockSync.flags(), 0);
522 assert_eq!(MessageType::Ping.flags(), 0);
523 assert_eq!(MessageType::Touch.flags(), 0);
524 assert_eq!(MessageType::ExecStarted.flags(), 0);
525 assert_eq!(MessageType::ExecStdin.flags(), 0);
526 assert_eq!(MessageType::ExecStdout.flags(), 0);
527 assert_eq!(MessageType::ExecStderr.flags(), 0);
528 assert_eq!(MessageType::ExecResize.flags(), 0);
529 assert_eq!(MessageType::ExecSignal.flags(), 0);
530 assert_eq!(MessageType::FsData.flags(), 0);
531 assert_eq!(MessageType::TcpConnected.flags(), 0);
532 assert_eq!(MessageType::TcpData.flags(), 0);
533 assert_eq!(MessageType::TcpEof.flags(), 0);
534 assert_eq!(MessageType::TcpClose.flags(), 0);
535 }
536
537 #[test]
538 fn test_additive_fields_keep_old_and_new_compatible() {
539 use serde::{Deserialize, Serialize};
542
543 #[derive(Serialize, Deserialize)]
545 struct Old {
546 a: u32,
547 b: u32,
548 }
549
550 #[derive(Serialize, Deserialize, Debug, PartialEq)]
552 struct New {
553 a: u32,
554 b: u32,
555 #[serde(default)]
556 c: u32,
557 }
558
559 let mut new_bytes = Vec::new();
561 ciborium::into_writer(&New { a: 1, b: 2, c: 3 }, &mut new_bytes).unwrap();
562 let as_old: Old = ciborium::from_reader(&new_bytes[..]).unwrap();
563 assert_eq!((as_old.a, as_old.b), (1, 2));
564
565 let mut old_bytes = Vec::new();
567 ciborium::into_writer(&Old { a: 1, b: 2 }, &mut old_bytes).unwrap();
568 let as_new: New = ciborium::from_reader(&old_bytes[..]).unwrap();
569 assert_eq!(as_new, New { a: 1, b: 2, c: 0 });
570 }
571
572 #[test]
573 fn test_is_available_at() {
574 assert!(MessageType::ExecRequest.is_available_at(1));
576 assert!(MessageType::ExecRequest.is_available_at(2));
577 assert!(MessageType::ExecRequest.is_available_at(PROTOCOL_VERSION));
578 assert!(!MessageType::FsRequest.is_available_at(1));
580 assert!(MessageType::FsRequest.is_available_at(2));
581 assert!(MessageType::FsRequest.is_available_at(PROTOCOL_VERSION));
582 assert!(!MessageType::Ping.is_available_at(5));
584 assert!(MessageType::Ping.is_available_at(6));
585 assert!(MessageType::Ping.is_available_at(PROTOCOL_VERSION));
586 }
587
588 #[test]
589 fn test_min_protocol_version_per_type() {
590 let baseline = [
593 MessageType::Ready,
594 MessageType::InitResolved,
595 MessageType::InitAck,
596 MessageType::Shutdown,
597 MessageType::RelayClientDisconnected,
598 MessageType::ClockSync,
599 MessageType::ExecRequest,
600 MessageType::ExecStarted,
601 MessageType::ExecStdin,
602 MessageType::ExecStdinError,
603 MessageType::ExecStdout,
604 MessageType::ExecStderr,
605 MessageType::ExecExited,
606 MessageType::ExecFailed,
607 MessageType::ExecResize,
608 MessageType::ExecSignal,
609 ];
610 for mt in &baseline {
611 assert_eq!(mt.min_protocol_version(), 1, "{mt:?} should be v1 baseline");
612 }
613
614 for mt in [
617 MessageType::FsRequest,
618 MessageType::FsResponse,
619 MessageType::FsData,
620 ] {
621 assert_eq!(mt.min_protocol_version(), 2, "{mt:?} should require gen 2");
622 }
623
624 for mt in [
625 MessageType::Ping,
626 MessageType::Pong,
627 MessageType::Touch,
628 MessageType::Touched,
629 ] {
630 assert_eq!(mt.min_protocol_version(), 6, "{mt:?} should require gen 6");
631 }
632
633 assert!(MessageType::FsRequest.min_protocol_version() <= PROTOCOL_VERSION);
635 }
636
637 #[test]
638 fn test_message_new_computes_flags() {
639 let msg = Message::new(MessageType::ExecRequest, 1, Vec::new());
640 assert_eq!(msg.flags, FLAG_SESSION_START);
641
642 let msg = Message::new(MessageType::ExecStdout, 1, Vec::new());
643 assert_eq!(msg.flags, 0);
644 }
645}