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include/boost/corosio/native/detail/epoll/epoll_socket_service.hpp

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include/boost/corosio/native/detail/epoll/epoll_socket_service.hpp
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1 //
2 // Copyright (c) 2026 Steve Gerbino
3 //
4 // Distributed under the Boost Software License, Version 1.0. (See accompanying
5 // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
6 //
7 // Official repository: https://github.com/cppalliance/corosio
8 //
9
10 #ifndef BOOST_COROSIO_NATIVE_DETAIL_EPOLL_EPOLL_SOCKET_SERVICE_HPP
11 #define BOOST_COROSIO_NATIVE_DETAIL_EPOLL_EPOLL_SOCKET_SERVICE_HPP
12
13 #include <boost/corosio/detail/platform.hpp>
14
15 #if BOOST_COROSIO_HAS_EPOLL
16
17 #include <boost/corosio/detail/config.hpp>
18 #include <boost/capy/ex/execution_context.hpp>
19 #include <boost/corosio/detail/socket_service.hpp>
20
21 #include <boost/corosio/native/detail/epoll/epoll_socket.hpp>
22 #include <boost/corosio/native/detail/epoll/epoll_scheduler.hpp>
23
24 #include <boost/corosio/detail/endpoint_convert.hpp>
25 #include <boost/corosio/detail/make_err.hpp>
26 #include <boost/corosio/detail/dispatch_coro.hpp>
27 #include <boost/corosio/detail/except.hpp>
28 #include <boost/capy/buffers.hpp>
29
30 #include <coroutine>
31 #include <mutex>
32 #include <unordered_map>
33 #include <utility>
34
35 #include <errno.h>
36 #include <netinet/in.h>
37 #include <netinet/tcp.h>
38 #include <sys/epoll.h>
39 #include <sys/socket.h>
40 #include <unistd.h>
41
42 /*
43 epoll Socket Implementation
44 ===========================
45
46 Each I/O operation follows the same pattern:
47 1. Try the syscall immediately (non-blocking socket)
48 2. If it succeeds or fails with a real error, post to completion queue
49 3. If EAGAIN/EWOULDBLOCK, register with epoll and wait
50
51 This "try first" approach avoids unnecessary epoll round-trips for
52 operations that can complete immediately (common for small reads/writes
53 on fast local connections).
54
55 One-Shot Registration
56 ---------------------
57 We use one-shot epoll registration: each operation registers, waits for
58 one event, then unregisters. This simplifies the state machine since we
59 don't need to track whether an fd is currently registered or handle
60 re-arming. The tradeoff is slightly more epoll_ctl calls, but the
61 simplicity is worth it.
62
63 Cancellation
64 ------------
65 See op.hpp for the completion/cancellation race handling via the
66 `registered` atomic. cancel() must complete pending operations (post
67 them with cancelled flag) so coroutines waiting on them can resume.
68 close_socket() calls cancel() first to ensure this.
69
70 Impl Lifetime with shared_ptr
71 -----------------------------
72 Socket impls use enable_shared_from_this. The service owns impls via
73 shared_ptr maps (socket_ptrs_) keyed by raw pointer for O(1) lookup and
74 removal. When a user calls close(), we call cancel() which posts pending
75 ops to the scheduler.
76
77 CRITICAL: The posted ops must keep the impl alive until they complete.
78 Otherwise the scheduler would process a freed op (use-after-free). The
79 cancel() method captures shared_from_this() into op.impl_ptr before
80 posting. When the op completes, impl_ptr is cleared, allowing the impl
81 to be destroyed if no other references exist.
82
83 Service Ownership
84 -----------------
85 epoll_socket_service owns all socket impls. destroy_impl() removes the
86 shared_ptr from the map, but the impl may survive if ops still hold
87 impl_ptr refs. shutdown() closes all sockets and clears the map; any
88 in-flight ops will complete and release their refs.
89 */
90
91 namespace boost::corosio::detail {
92
93 /** State for epoll socket service. */
94 class epoll_socket_state
95 {
96 public:
97 205 explicit epoll_socket_state(epoll_scheduler& sched) noexcept : sched_(sched)
98 {
99 205 }
100
101 epoll_scheduler& sched_;
102 std::mutex mutex_;
103 intrusive_list<epoll_socket> socket_list_;
104 std::unordered_map<epoll_socket*, std::shared_ptr<epoll_socket>>
105 socket_ptrs_;
106 };
107
108 /** epoll socket service implementation.
109
110 Inherits from socket_service to enable runtime polymorphism.
111 Uses key_type = socket_service for service lookup.
112 */
113 class BOOST_COROSIO_DECL epoll_socket_service final : public socket_service
114 {
115 public:
116 explicit epoll_socket_service(capy::execution_context& ctx);
117 ~epoll_socket_service() override;
118
119 epoll_socket_service(epoll_socket_service const&) = delete;
120 epoll_socket_service& operator=(epoll_socket_service const&) = delete;
121
122 void shutdown() override;
123
124 io_object::implementation* construct() override;
125 void destroy(io_object::implementation*) override;
126 void close(io_object::handle&) override;
127 std::error_code open_socket(tcp_socket::implementation& impl) override;
128
129 313411 epoll_scheduler& scheduler() const noexcept
130 {
131 313411 return state_->sched_;
132 }
133 void post(epoll_op* op);
134 void work_started() noexcept;
135 void work_finished() noexcept;
136
137 private:
138 std::unique_ptr<epoll_socket_state> state_;
139 };
140
141 //--------------------------------------------------------------------------
142 //
143 // Implementation
144 //
145 //--------------------------------------------------------------------------
146
147 // Register an op with the reactor, handling cached edge events.
148 // Called under the EAGAIN/EINPROGRESS path when speculative I/O failed.
149 inline void
150 4633 epoll_socket::register_op(
151 epoll_op& op,
152 epoll_op*& desc_slot,
153 bool& ready_flag,
154 bool& cancel_flag) noexcept
155 {
156 4633 svc_.work_started();
157
158 4633 std::lock_guard lock(desc_state_.mutex);
159 4633 bool io_done = false;
160 4633 if (ready_flag)
161 {
162 142 ready_flag = false;
163 142 op.perform_io();
164 142 io_done = (op.errn != EAGAIN && op.errn != EWOULDBLOCK);
165 142 if (!io_done)
166 142 op.errn = 0;
167 }
168
169 4633 if (cancel_flag)
170 {
171 95 cancel_flag = false;
172 95 op.cancelled.store(true, std::memory_order_relaxed);
173 }
174
175 4633 if (io_done || op.cancelled.load(std::memory_order_acquire))
176 {
177 95 svc_.post(&op);
178 95 svc_.work_finished();
179 }
180 else
181 {
182 4538 desc_slot = &op;
183 }
184 4633 }
185
186 inline void
187 104 epoll_op::canceller::operator()() const noexcept
188 {
189 104 op->cancel();
190 104 }
191
192 inline void
193 epoll_connect_op::cancel() noexcept
194 {
195 if (socket_impl_)
196 socket_impl_->cancel_single_op(*this);
197 else
198 request_cancel();
199 }
200
201 inline void
202 98 epoll_read_op::cancel() noexcept
203 {
204 98 if (socket_impl_)
205 98 socket_impl_->cancel_single_op(*this);
206 else
207 request_cancel();
208 98 }
209
210 inline void
211 epoll_write_op::cancel() noexcept
212 {
213 if (socket_impl_)
214 socket_impl_->cancel_single_op(*this);
215 else
216 request_cancel();
217 }
218
219 inline void
220 48644 epoll_op::operator()()
221 {
222 48644 stop_cb.reset();
223
224 48644 socket_impl_->svc_.scheduler().reset_inline_budget();
225
226 48644 if (cancelled.load(std::memory_order_acquire))
227 205 *ec_out = capy::error::canceled;
228 48439 else if (errn != 0)
229 *ec_out = make_err(errn);
230 48439 else if (is_read_operation() && bytes_transferred == 0)
231 *ec_out = capy::error::eof;
232 else
233 48439 *ec_out = {};
234
235 48644 *bytes_out = bytes_transferred;
236
237 // Move to stack before resuming coroutine. The coroutine might close
238 // the socket, releasing the last wrapper ref. If impl_ptr were the
239 // last ref and we destroyed it while still in operator(), we'd have
240 // use-after-free. Moving to local ensures destruction happens at
241 // function exit, after all member accesses are complete.
242 48644 capy::executor_ref saved_ex(ex);
243 48644 std::coroutine_handle<> saved_h(h);
244 48644 auto prevent_premature_destruction = std::move(impl_ptr);
245 48644 dispatch_coro(saved_ex, saved_h).resume();
246 48644 }
247
248 inline void
249 4432 epoll_connect_op::operator()()
250 {
251 4432 stop_cb.reset();
252
253 4432 socket_impl_->svc_.scheduler().reset_inline_budget();
254
255 4432 bool success = (errn == 0 && !cancelled.load(std::memory_order_acquire));
256
257 // Cache endpoints on successful connect
258 4432 if (success && socket_impl_)
259 {
260 // Query local endpoint via getsockname (may fail, but remote is always known)
261 4431 endpoint local_ep;
262 4431 sockaddr_in local_addr{};
263 4431 socklen_t local_len = sizeof(local_addr);
264 4431 if (::getsockname(
265 4431 fd, reinterpret_cast<sockaddr*>(&local_addr), &local_len) == 0)
266 4431 local_ep = from_sockaddr_in(local_addr);
267 // Always cache remote endpoint; local may be default if getsockname failed
268 4431 static_cast<epoll_socket*>(socket_impl_)
269 4431 ->set_endpoints(local_ep, target_endpoint);
270 }
271
272 4432 if (cancelled.load(std::memory_order_acquire))
273 *ec_out = capy::error::canceled;
274 4432 else if (errn != 0)
275 1 *ec_out = make_err(errn);
276 else
277 4431 *ec_out = {};
278
279 // Move to stack before resuming. See epoll_op::operator()() for rationale.
280 4432 capy::executor_ref saved_ex(ex);
281 4432 std::coroutine_handle<> saved_h(h);
282 4432 auto prevent_premature_destruction = std::move(impl_ptr);
283 4432 dispatch_coro(saved_ex, saved_h).resume();
284 4432 }
285
286 13350 inline epoll_socket::epoll_socket(epoll_socket_service& svc) noexcept
287 13350 : svc_(svc)
288 {
289 13350 }
290
291 13350 inline epoll_socket::~epoll_socket() = default;
292
293 inline std::coroutine_handle<>
294 4432 epoll_socket::connect(
295 std::coroutine_handle<> h,
296 capy::executor_ref ex,
297 endpoint ep,
298 std::stop_token token,
299 std::error_code* ec)
300 {
301 4432 auto& op = conn_;
302
303 4432 sockaddr_in addr = detail::to_sockaddr_in(ep);
304 int result =
305 4432 ::connect(fd_, reinterpret_cast<sockaddr*>(&addr), sizeof(addr));
306
307 4432 if (result == 0)
308 {
309 sockaddr_in local_addr{};
310 socklen_t local_len = sizeof(local_addr);
311 if (::getsockname(
312 fd_, reinterpret_cast<sockaddr*>(&local_addr), &local_len) == 0)
313 local_endpoint_ = detail::from_sockaddr_in(local_addr);
314 remote_endpoint_ = ep;
315 }
316
317 4432 if (result == 0 || errno != EINPROGRESS)
318 {
319 int err = (result < 0) ? errno : 0;
320 if (svc_.scheduler().try_consume_inline_budget())
321 {
322 *ec = err ? make_err(err) : std::error_code{};
323 return dispatch_coro(ex, h);
324 }
325 op.reset();
326 op.h = h;
327 op.ex = ex;
328 op.ec_out = ec;
329 op.fd = fd_;
330 op.target_endpoint = ep;
331 op.start(token, this);
332 op.impl_ptr = shared_from_this();
333 op.complete(err, 0);
334 svc_.post(&op);
335 return std::noop_coroutine();
336 }
337
338 // EINPROGRESS — register with reactor
339 4432 op.reset();
340 4432 op.h = h;
341 4432 op.ex = ex;
342 4432 op.ec_out = ec;
343 4432 op.fd = fd_;
344 4432 op.target_endpoint = ep;
345 4432 op.start(token, this);
346 4432 op.impl_ptr = shared_from_this();
347
348 4432 register_op(
349 4432 op, desc_state_.connect_op, desc_state_.write_ready,
350 4432 desc_state_.connect_cancel_pending);
351 4432 return std::noop_coroutine();
352 }
353
354 inline std::coroutine_handle<>
355 121495 epoll_socket::read_some(
356 std::coroutine_handle<> h,
357 capy::executor_ref ex,
358 io_buffer_param param,
359 std::stop_token token,
360 std::error_code* ec,
361 std::size_t* bytes_out)
362 {
363 121495 auto& op = rd_;
364 121495 op.reset();
365
366 121495 capy::mutable_buffer bufs[epoll_read_op::max_buffers];
367 121495 op.iovec_count =
368 121495 static_cast<int>(param.copy_to(bufs, epoll_read_op::max_buffers));
369
370 121495 if (op.iovec_count == 0 || (op.iovec_count == 1 && bufs[0].size() == 0))
371 {
372 1 op.empty_buffer_read = true;
373 1 op.h = h;
374 1 op.ex = ex;
375 1 op.ec_out = ec;
376 1 op.bytes_out = bytes_out;
377 1 op.start(token, this);
378 1 op.impl_ptr = shared_from_this();
379 1 op.complete(0, 0);
380 1 svc_.post(&op);
381 1 return std::noop_coroutine();
382 }
383
384 242988 for (int i = 0; i < op.iovec_count; ++i)
385 {
386 121494 op.iovecs[i].iov_base = bufs[i].data();
387 121494 op.iovecs[i].iov_len = bufs[i].size();
388 }
389
390 // Speculative read
391 ssize_t n;
392 do
393 {
394 121494 n = ::readv(fd_, op.iovecs, op.iovec_count);
395 }
396 121494 while (n < 0 && errno == EINTR);
397
398 121494 if (n >= 0 || (errno != EAGAIN && errno != EWOULDBLOCK))
399 {
400 121293 int err = (n < 0) ? errno : 0;
401 121293 auto bytes = (n > 0) ? static_cast<std::size_t>(n) : std::size_t(0);
402
403 121293 if (svc_.scheduler().try_consume_inline_budget())
404 {
405 97082 if (err)
406 *ec = make_err(err);
407 97082 else if (n == 0)
408 5 *ec = capy::error::eof;
409 else
410 97077 *ec = {};
411 97082 *bytes_out = bytes;
412 97082 return dispatch_coro(ex, h);
413 }
414 24211 op.h = h;
415 24211 op.ex = ex;
416 24211 op.ec_out = ec;
417 24211 op.bytes_out = bytes_out;
418 24211 op.start(token, this);
419 24211 op.impl_ptr = shared_from_this();
420 24211 op.complete(err, bytes);
421 24211 svc_.post(&op);
422 24211 return std::noop_coroutine();
423 }
424
425 // EAGAIN — register with reactor
426 201 op.h = h;
427 201 op.ex = ex;
428 201 op.ec_out = ec;
429 201 op.bytes_out = bytes_out;
430 201 op.fd = fd_;
431 201 op.start(token, this);
432 201 op.impl_ptr = shared_from_this();
433
434 201 register_op(
435 201 op, desc_state_.read_op, desc_state_.read_ready,
436 201 desc_state_.read_cancel_pending);
437 201 return std::noop_coroutine();
438 }
439
440 inline std::coroutine_handle<>
441 121295 epoll_socket::write_some(
442 std::coroutine_handle<> h,
443 capy::executor_ref ex,
444 io_buffer_param param,
445 std::stop_token token,
446 std::error_code* ec,
447 std::size_t* bytes_out)
448 {
449 121295 auto& op = wr_;
450 121295 op.reset();
451
452 121295 capy::mutable_buffer bufs[epoll_write_op::max_buffers];
453 121295 op.iovec_count =
454 121295 static_cast<int>(param.copy_to(bufs, epoll_write_op::max_buffers));
455
456 121295 if (op.iovec_count == 0 || (op.iovec_count == 1 && bufs[0].size() == 0))
457 {
458 1 op.h = h;
459 1 op.ex = ex;
460 1 op.ec_out = ec;
461 1 op.bytes_out = bytes_out;
462 1 op.start(token, this);
463 1 op.impl_ptr = shared_from_this();
464 1 op.complete(0, 0);
465 1 svc_.post(&op);
466 1 return std::noop_coroutine();
467 }
468
469 242588 for (int i = 0; i < op.iovec_count; ++i)
470 {
471 121294 op.iovecs[i].iov_base = bufs[i].data();
472 121294 op.iovecs[i].iov_len = bufs[i].size();
473 }
474
475 // Speculative write
476 121294 msghdr msg{};
477 121294 msg.msg_iov = op.iovecs;
478 121294 msg.msg_iovlen = static_cast<std::size_t>(op.iovec_count);
479
480 ssize_t n;
481 do
482 {
483 121294 n = ::sendmsg(fd_, &msg, MSG_NOSIGNAL);
484 }
485 121294 while (n < 0 && errno == EINTR);
486
487 121294 if (n >= 0 || (errno != EAGAIN && errno != EWOULDBLOCK))
488 {
489 121294 int err = (n < 0) ? errno : 0;
490 121294 auto bytes = (n > 0) ? static_cast<std::size_t>(n) : std::size_t(0);
491
492 121294 if (svc_.scheduler().try_consume_inline_budget())
493 {
494 97064 *ec = err ? make_err(err) : std::error_code{};
495 97064 *bytes_out = bytes;
496 97064 return dispatch_coro(ex, h);
497 }
498 24230 op.h = h;
499 24230 op.ex = ex;
500 24230 op.ec_out = ec;
501 24230 op.bytes_out = bytes_out;
502 24230 op.start(token, this);
503 24230 op.impl_ptr = shared_from_this();
504 24230 op.complete(err, bytes);
505 24230 svc_.post(&op);
506 24230 return std::noop_coroutine();
507 }
508
509 // EAGAIN — register with reactor
510 op.h = h;
511 op.ex = ex;
512 op.ec_out = ec;
513 op.bytes_out = bytes_out;
514 op.fd = fd_;
515 op.start(token, this);
516 op.impl_ptr = shared_from_this();
517
518 register_op(
519 op, desc_state_.write_op, desc_state_.write_ready,
520 desc_state_.write_cancel_pending);
521 return std::noop_coroutine();
522 }
523
524 inline std::error_code
525 3 epoll_socket::shutdown(tcp_socket::shutdown_type what) noexcept
526 {
527 int how;
528 3 switch (what)
529 {
530 1 case tcp_socket::shutdown_receive:
531 1 how = SHUT_RD;
532 1 break;
533 1 case tcp_socket::shutdown_send:
534 1 how = SHUT_WR;
535 1 break;
536 1 case tcp_socket::shutdown_both:
537 1 how = SHUT_RDWR;
538 1 break;
539 default:
540 return make_err(EINVAL);
541 }
542 3 if (::shutdown(fd_, how) != 0)
543 return make_err(errno);
544 3 return {};
545 }
546
547 inline std::error_code
548 5 epoll_socket::set_no_delay(bool value) noexcept
549 {
550 5 int flag = value ? 1 : 0;
551 5 if (::setsockopt(fd_, IPPROTO_TCP, TCP_NODELAY, &flag, sizeof(flag)) != 0)
552 return make_err(errno);
553 5 return {};
554 }
555
556 inline bool
557 5 epoll_socket::no_delay(std::error_code& ec) const noexcept
558 {
559 5 int flag = 0;
560 5 socklen_t len = sizeof(flag);
561 5 if (::getsockopt(fd_, IPPROTO_TCP, TCP_NODELAY, &flag, &len) != 0)
562 {
563 ec = make_err(errno);
564 return false;
565 }
566 5 ec = {};
567 5 return flag != 0;
568 }
569
570 inline std::error_code
571 4 epoll_socket::set_keep_alive(bool value) noexcept
572 {
573 4 int flag = value ? 1 : 0;
574 4 if (::setsockopt(fd_, SOL_SOCKET, SO_KEEPALIVE, &flag, sizeof(flag)) != 0)
575 return make_err(errno);
576 4 return {};
577 }
578
579 inline bool
580 4 epoll_socket::keep_alive(std::error_code& ec) const noexcept
581 {
582 4 int flag = 0;
583 4 socklen_t len = sizeof(flag);
584 4 if (::getsockopt(fd_, SOL_SOCKET, SO_KEEPALIVE, &flag, &len) != 0)
585 {
586 ec = make_err(errno);
587 return false;
588 }
589 4 ec = {};
590 4 return flag != 0;
591 }
592
593 inline std::error_code
594 1 epoll_socket::set_receive_buffer_size(int size) noexcept
595 {
596 1 if (::setsockopt(fd_, SOL_SOCKET, SO_RCVBUF, &size, sizeof(size)) != 0)
597 return make_err(errno);
598 1 return {};
599 }
600
601 inline int
602 3 epoll_socket::receive_buffer_size(std::error_code& ec) const noexcept
603 {
604 3 int size = 0;
605 3 socklen_t len = sizeof(size);
606 3 if (::getsockopt(fd_, SOL_SOCKET, SO_RCVBUF, &size, &len) != 0)
607 {
608 ec = make_err(errno);
609 return 0;
610 }
611 3 ec = {};
612 3 return size;
613 }
614
615 inline std::error_code
616 1 epoll_socket::set_send_buffer_size(int size) noexcept
617 {
618 1 if (::setsockopt(fd_, SOL_SOCKET, SO_SNDBUF, &size, sizeof(size)) != 0)
619 return make_err(errno);
620 1 return {};
621 }
622
623 inline int
624 3 epoll_socket::send_buffer_size(std::error_code& ec) const noexcept
625 {
626 3 int size = 0;
627 3 socklen_t len = sizeof(size);
628 3 if (::getsockopt(fd_, SOL_SOCKET, SO_SNDBUF, &size, &len) != 0)
629 {
630 ec = make_err(errno);
631 return 0;
632 }
633 3 ec = {};
634 3 return size;
635 }
636
637 inline std::error_code
638 10 epoll_socket::set_linger(bool enabled, int timeout) noexcept
639 {
640 10 if (timeout < 0)
641 1 return make_err(EINVAL);
642 struct ::linger lg;
643 9 lg.l_onoff = enabled ? 1 : 0;
644 9 lg.l_linger = timeout;
645 9 if (::setsockopt(fd_, SOL_SOCKET, SO_LINGER, &lg, sizeof(lg)) != 0)
646 return make_err(errno);
647 9 return {};
648 }
649
650 inline tcp_socket::linger_options
651 3 epoll_socket::linger(std::error_code& ec) const noexcept
652 {
653 3 struct ::linger lg{};
654 3 socklen_t len = sizeof(lg);
655 3 if (::getsockopt(fd_, SOL_SOCKET, SO_LINGER, &lg, &len) != 0)
656 {
657 ec = make_err(errno);
658 return {};
659 }
660 3 ec = {};
661 3 return {.enabled = lg.l_onoff != 0, .timeout = lg.l_linger};
662 }
663
664 inline void
665 187 epoll_socket::cancel() noexcept
666 {
667 187 auto self = weak_from_this().lock();
668 187 if (!self)
669 return;
670
671 187 conn_.request_cancel();
672 187 rd_.request_cancel();
673 187 wr_.request_cancel();
674
675 187 epoll_op* conn_claimed = nullptr;
676 187 epoll_op* rd_claimed = nullptr;
677 187 epoll_op* wr_claimed = nullptr;
678 {
679 187 std::lock_guard lock(desc_state_.mutex);
680 187 if (desc_state_.connect_op == &conn_)
681 conn_claimed = std::exchange(desc_state_.connect_op, nullptr);
682 else
683 187 desc_state_.connect_cancel_pending = true;
684 187 if (desc_state_.read_op == &rd_)
685 3 rd_claimed = std::exchange(desc_state_.read_op, nullptr);
686 else
687 184 desc_state_.read_cancel_pending = true;
688 187 if (desc_state_.write_op == &wr_)
689 wr_claimed = std::exchange(desc_state_.write_op, nullptr);
690 else
691 187 desc_state_.write_cancel_pending = true;
692 187 }
693
694 187 if (conn_claimed)
695 {
696 conn_.impl_ptr = self;
697 svc_.post(&conn_);
698 svc_.work_finished();
699 }
700 187 if (rd_claimed)
701 {
702 3 rd_.impl_ptr = self;
703 3 svc_.post(&rd_);
704 3 svc_.work_finished();
705 }
706 187 if (wr_claimed)
707 {
708 wr_.impl_ptr = self;
709 svc_.post(&wr_);
710 svc_.work_finished();
711 }
712 187 }
713
714 inline void
715 98 epoll_socket::cancel_single_op(epoll_op& op) noexcept
716 {
717 98 auto self = weak_from_this().lock();
718 98 if (!self)
719 return;
720
721 98 op.request_cancel();
722
723 98 epoll_op** desc_op_ptr = nullptr;
724 98 if (&op == &conn_)
725 desc_op_ptr = &desc_state_.connect_op;
726 98 else if (&op == &rd_)
727 98 desc_op_ptr = &desc_state_.read_op;
728 else if (&op == &wr_)
729 desc_op_ptr = &desc_state_.write_op;
730
731 98 if (desc_op_ptr)
732 {
733 98 epoll_op* claimed = nullptr;
734 {
735 98 std::lock_guard lock(desc_state_.mutex);
736 98 if (*desc_op_ptr == &op)
737 98 claimed = std::exchange(*desc_op_ptr, nullptr);
738 else if (&op == &conn_)
739 desc_state_.connect_cancel_pending = true;
740 else if (&op == &rd_)
741 desc_state_.read_cancel_pending = true;
742 else if (&op == &wr_)
743 desc_state_.write_cancel_pending = true;
744 98 }
745 98 if (claimed)
746 {
747 98 op.impl_ptr = self;
748 98 svc_.post(&op);
749 98 svc_.work_finished();
750 }
751 }
752 98 }
753
754 inline void
755 40017 epoll_socket::close_socket() noexcept
756 {
757 40017 auto self = weak_from_this().lock();
758 40017 if (self)
759 {
760 40017 conn_.request_cancel();
761 40017 rd_.request_cancel();
762 40017 wr_.request_cancel();
763
764 40017 epoll_op* conn_claimed = nullptr;
765 40017 epoll_op* rd_claimed = nullptr;
766 40017 epoll_op* wr_claimed = nullptr;
767 {
768 40017 std::lock_guard lock(desc_state_.mutex);
769 40017 conn_claimed = std::exchange(desc_state_.connect_op, nullptr);
770 40017 rd_claimed = std::exchange(desc_state_.read_op, nullptr);
771 40017 wr_claimed = std::exchange(desc_state_.write_op, nullptr);
772 40017 desc_state_.read_ready = false;
773 40017 desc_state_.write_ready = false;
774 40017 desc_state_.read_cancel_pending = false;
775 40017 desc_state_.write_cancel_pending = false;
776 40017 desc_state_.connect_cancel_pending = false;
777 40017 }
778
779 40017 if (conn_claimed)
780 {
781 conn_.impl_ptr = self;
782 svc_.post(&conn_);
783 svc_.work_finished();
784 }
785 40017 if (rd_claimed)
786 {
787 1 rd_.impl_ptr = self;
788 1 svc_.post(&rd_);
789 1 svc_.work_finished();
790 }
791 40017 if (wr_claimed)
792 {
793 wr_.impl_ptr = self;
794 svc_.post(&wr_);
795 svc_.work_finished();
796 }
797
798 40017 if (desc_state_.is_enqueued_.load(std::memory_order_acquire))
799 94 desc_state_.impl_ref_ = self;
800 }
801
802 40017 if (fd_ >= 0)
803 {
804 8874 if (desc_state_.registered_events != 0)
805 8874 svc_.scheduler().deregister_descriptor(fd_);
806 8874 ::close(fd_);
807 8874 fd_ = -1;
808 }
809
810 40017 desc_state_.fd = -1;
811 40017 desc_state_.registered_events = 0;
812
813 40017 local_endpoint_ = endpoint{};
814 40017 remote_endpoint_ = endpoint{};
815 40017 }
816
817 205 inline epoll_socket_service::epoll_socket_service(capy::execution_context& ctx)
818 205 : state_(
819 std::make_unique<epoll_socket_state>(
820 205 ctx.use_service<epoll_scheduler>()))
821 {
822 205 }
823
824 410 inline epoll_socket_service::~epoll_socket_service() {}
825
826 inline void
827 205 epoll_socket_service::shutdown()
828 {
829 205 std::lock_guard lock(state_->mutex_);
830
831 205 while (auto* impl = state_->socket_list_.pop_front())
832 impl->close_socket();
833
834 // Don't clear socket_ptrs_ here. The scheduler shuts down after us and
835 // drains completed_ops_, calling destroy() on each queued op. If we
836 // released our shared_ptrs now, an epoll_op::destroy() could free the
837 // last ref to an impl whose embedded descriptor_state is still linked
838 // in the queue — use-after-free on the next pop(). Letting ~state_
839 // release the ptrs (during service destruction, after scheduler
840 // shutdown) keeps every impl alive until all ops have been drained.
841 205 }
842
843 inline io_object::implementation*
844 13350 epoll_socket_service::construct()
845 {
846 13350 auto impl = std::make_shared<epoll_socket>(*this);
847 13350 auto* raw = impl.get();
848
849 {
850 13350 std::lock_guard lock(state_->mutex_);
851 13350 state_->socket_list_.push_back(raw);
852 13350 state_->socket_ptrs_.emplace(raw, std::move(impl));
853 13350 }
854
855 13350 return raw;
856 13350 }
857
858 inline void
859 13350 epoll_socket_service::destroy(io_object::implementation* impl)
860 {
861 13350 auto* epoll_impl = static_cast<epoll_socket*>(impl);
862 13350 epoll_impl->close_socket();
863 13350 std::lock_guard lock(state_->mutex_);
864 13350 state_->socket_list_.remove(epoll_impl);
865 13350 state_->socket_ptrs_.erase(epoll_impl);
866 13350 }
867
868 inline std::error_code
869 4443 epoll_socket_service::open_socket(tcp_socket::implementation& impl)
870 {
871 4443 auto* epoll_impl = static_cast<epoll_socket*>(&impl);
872 4443 epoll_impl->close_socket();
873
874 4443 int fd = ::socket(AF_INET, SOCK_STREAM | SOCK_NONBLOCK | SOCK_CLOEXEC, 0);
875 4443 if (fd < 0)
876 return make_err(errno);
877
878 4443 epoll_impl->fd_ = fd;
879
880 // Register fd with epoll (edge-triggered mode)
881 4443 epoll_impl->desc_state_.fd = fd;
882 {
883 4443 std::lock_guard lock(epoll_impl->desc_state_.mutex);
884 4443 epoll_impl->desc_state_.read_op = nullptr;
885 4443 epoll_impl->desc_state_.write_op = nullptr;
886 4443 epoll_impl->desc_state_.connect_op = nullptr;
887 4443 }
888 4443 scheduler().register_descriptor(fd, &epoll_impl->desc_state_);
889
890 4443 return {};
891 }
892
893 inline void
894 22224 epoll_socket_service::close(io_object::handle& h)
895 {
896 22224 static_cast<epoll_socket*>(h.get())->close_socket();
897 22224 }
898
899 inline void
900 48640 epoll_socket_service::post(epoll_op* op)
901 {
902 48640 state_->sched_.post(op);
903 48640 }
904
905 inline void
906 4633 epoll_socket_service::work_started() noexcept
907 {
908 4633 state_->sched_.work_started();
909 4633 }
910
911 inline void
912 197 epoll_socket_service::work_finished() noexcept
913 {
914 197 state_->sched_.work_finished();
915 197 }
916
917 } // namespace boost::corosio::detail
918
919 #endif // BOOST_COROSIO_HAS_EPOLL
920
921 #endif // BOOST_COROSIO_NATIVE_DETAIL_EPOLL_EPOLL_SOCKET_SERVICE_HPP
922