. /include/boost/corosio /native /detail /select /select_scheduler.hpp
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1   // 1   //
2   // Copyright (c) 2026 Steve Gerbino 2   // Copyright (c) 2026 Steve Gerbino
3   // 3   //
4   // Distributed under the Boost Software License, Version 1.0. (See accompanying 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) 5   // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
6   // 6   //
7   // Official repository: https://github.com/cppalliance/corosio 7   // Official repository: https://github.com/cppalliance/corosio
8   // 8   //
9   9  
10   #ifndef BOOST_COROSIO_NATIVE_DETAIL_SELECT_SELECT_SCHEDULER_HPP 10   #ifndef BOOST_COROSIO_NATIVE_DETAIL_SELECT_SELECT_SCHEDULER_HPP
11   #define BOOST_COROSIO_NATIVE_DETAIL_SELECT_SELECT_SCHEDULER_HPP 11   #define BOOST_COROSIO_NATIVE_DETAIL_SELECT_SELECT_SCHEDULER_HPP
12   12  
13   #include <boost/corosio/detail/platform.hpp> 13   #include <boost/corosio/detail/platform.hpp>
14   14  
15   #if BOOST_COROSIO_HAS_SELECT 15   #if BOOST_COROSIO_HAS_SELECT
16   16  
17   #include <boost/corosio/detail/config.hpp> 17   #include <boost/corosio/detail/config.hpp>
18   #include <boost/capy/ex/execution_context.hpp> 18   #include <boost/capy/ex/execution_context.hpp>
19   19  
20   #include <boost/corosio/native/detail/reactor/reactor_scheduler.hpp> 20   #include <boost/corosio/native/detail/reactor/reactor_scheduler.hpp>
21   21  
22   #include <boost/corosio/native/detail/select/select_traits.hpp> 22   #include <boost/corosio/native/detail/select/select_traits.hpp>
23   #include <boost/corosio/detail/timer_service.hpp> 23   #include <boost/corosio/detail/timer_service.hpp>
24   #include <boost/corosio/native/detail/make_err.hpp> 24   #include <boost/corosio/native/detail/make_err.hpp>
25   #include <boost/corosio/native/detail/posix/posix_resolver_service.hpp> 25   #include <boost/corosio/native/detail/posix/posix_resolver_service.hpp>
26   #include <boost/corosio/native/detail/posix/posix_signal_service.hpp> 26   #include <boost/corosio/native/detail/posix/posix_signal_service.hpp>
27   #include <boost/corosio/native/detail/posix/posix_stream_file_service.hpp> 27   #include <boost/corosio/native/detail/posix/posix_stream_file_service.hpp>
28   #include <boost/corosio/native/detail/posix/posix_random_access_file_service.hpp> 28   #include <boost/corosio/native/detail/posix/posix_random_access_file_service.hpp>
29   29  
30   #include <boost/corosio/detail/except.hpp> 30   #include <boost/corosio/detail/except.hpp>
31   31  
32   #include <sys/select.h> 32   #include <sys/select.h>
33   #include <unistd.h> 33   #include <unistd.h>
34   #include <errno.h> 34   #include <errno.h>
35   #include <fcntl.h> 35   #include <fcntl.h>
36   36  
37   #include <atomic> 37   #include <atomic>
38   #include <chrono> 38   #include <chrono>
39   #include <cstdint> 39   #include <cstdint>
40   #include <limits> 40   #include <limits>
41   #include <mutex> 41   #include <mutex>
42   #include <unordered_map> 42   #include <unordered_map>
43   43  
44   namespace boost::corosio::detail { 44   namespace boost::corosio::detail {
45   45  
46   struct select_op; 46   struct select_op;
47   47  
48   /** POSIX scheduler using select() for I/O multiplexing. 48   /** POSIX scheduler using select() for I/O multiplexing.
49   49  
50   This scheduler implements the scheduler interface using the POSIX select() 50   This scheduler implements the scheduler interface using the POSIX select()
51   call for I/O event notification. It inherits the shared reactor threading 51   call for I/O event notification. It inherits the shared reactor threading
52   model from reactor_scheduler: signal state machine, inline completion 52   model from reactor_scheduler: signal state machine, inline completion
53   budget, work counting, and the do_one event loop. 53   budget, work counting, and the do_one event loop.
54   54  
55   The design mirrors epoll_scheduler for behavioral consistency: 55   The design mirrors epoll_scheduler for behavioral consistency:
56   - Same single-reactor thread coordination model 56   - Same single-reactor thread coordination model
57   - Same deferred I/O pattern (reactor marks ready; workers do I/O) 57   - Same deferred I/O pattern (reactor marks ready; workers do I/O)
58   - Same timer integration pattern 58   - Same timer integration pattern
59   59  
60   Known Limitations: 60   Known Limitations:
61   - FD_SETSIZE (~1024) limits maximum concurrent connections 61   - FD_SETSIZE (~1024) limits maximum concurrent connections
62   - O(n) scanning: rebuilds fd_sets each iteration 62   - O(n) scanning: rebuilds fd_sets each iteration
63   - Level-triggered only (no edge-triggered mode) 63   - Level-triggered only (no edge-triggered mode)
64   64  
65   @par Thread Safety 65   @par Thread Safety
66   All public member functions are thread-safe. 66   All public member functions are thread-safe.
67   */ 67   */
68   class BOOST_COROSIO_DECL select_scheduler final : public reactor_scheduler 68   class BOOST_COROSIO_DECL select_scheduler final : public reactor_scheduler
69   { 69   {
70   public: 70   public:
71   /** Construct the scheduler. 71   /** Construct the scheduler.
72   72  
73   Creates a self-pipe for reactor interruption. 73   Creates a self-pipe for reactor interruption.
74   74  
75   @param ctx Reference to the owning execution_context. 75   @param ctx Reference to the owning execution_context.
76   @param concurrency_hint Hint for expected thread count (unused). 76   @param concurrency_hint Hint for expected thread count (unused).
77   */ 77   */
78   select_scheduler(capy::execution_context& ctx, int concurrency_hint = -1); 78   select_scheduler(capy::execution_context& ctx, int concurrency_hint = -1);
79   79  
80   /// Destroy the scheduler. 80   /// Destroy the scheduler.
81   ~select_scheduler() override; 81   ~select_scheduler() override;
82   82  
83   select_scheduler(select_scheduler const&) = delete; 83   select_scheduler(select_scheduler const&) = delete;
84   select_scheduler& operator=(select_scheduler const&) = delete; 84   select_scheduler& operator=(select_scheduler const&) = delete;
85   85  
86   /// Shut down the scheduler, draining pending operations. 86   /// Shut down the scheduler, draining pending operations.
87   void shutdown() override; 87   void shutdown() override;
88   88  
89   /** Return the maximum file descriptor value supported. 89   /** Return the maximum file descriptor value supported.
90   90  
91   Returns FD_SETSIZE - 1, the maximum fd value that can be 91   Returns FD_SETSIZE - 1, the maximum fd value that can be
92   monitored by select(). Operations with fd >= FD_SETSIZE 92   monitored by select(). Operations with fd >= FD_SETSIZE
93   will fail with EINVAL. 93   will fail with EINVAL.
94   94  
95   @return The maximum supported file descriptor value. 95   @return The maximum supported file descriptor value.
96   */ 96   */
97   static constexpr int max_fd() noexcept 97   static constexpr int max_fd() noexcept
98   { 98   {
99   return FD_SETSIZE - 1; 99   return FD_SETSIZE - 1;
100   } 100   }
101   101  
102   /** Register a descriptor for persistent monitoring. 102   /** Register a descriptor for persistent monitoring.
103   103  
104   The fd is added to the registered_descs_ map and will be 104   The fd is added to the registered_descs_ map and will be
105   included in subsequent select() calls. The reactor is 105   included in subsequent select() calls. The reactor is
106   interrupted so a blocked select() rebuilds its fd_sets. 106   interrupted so a blocked select() rebuilds its fd_sets.
107   107  
108   @param fd The file descriptor to register. 108   @param fd The file descriptor to register.
109   @param desc Pointer to descriptor state for this fd. 109   @param desc Pointer to descriptor state for this fd.
110   */ 110   */
111   void register_descriptor(int fd, reactor_descriptor_state* desc) const; 111   void register_descriptor(int fd, reactor_descriptor_state* desc) const;
112   112  
113   /** Deregister a persistently registered descriptor. 113   /** Deregister a persistently registered descriptor.
114   114  
115   @param fd The file descriptor to deregister. 115   @param fd The file descriptor to deregister.
116   */ 116   */
117   void deregister_descriptor(int fd) const; 117   void deregister_descriptor(int fd) const;
118   118  
119   /** Interrupt the reactor so it rebuilds its fd_sets. 119   /** Interrupt the reactor so it rebuilds its fd_sets.
120   120  
121   Called when a write or connect op is registered after 121   Called when a write or connect op is registered after
122   the reactor's snapshot was taken. Without this, select() 122   the reactor's snapshot was taken. Without this, select()
123   may block not watching for writability on the fd. 123   may block not watching for writability on the fd.
124   */ 124   */
125   void notify_reactor() const; 125   void notify_reactor() const;
126   126  
127   private: 127   private:
128   void 128   void
129   run_task(lock_type& lock, context_type* ctx, 129   run_task(lock_type& lock, context_type* ctx,
130   long timeout_us) override; 130   long timeout_us) override;
131   void interrupt_reactor() const override; 131   void interrupt_reactor() const override;
132   long calculate_timeout(long requested_timeout_us) const; 132   long calculate_timeout(long requested_timeout_us) const;
133   133  
134   // Self-pipe for interrupting select() 134   // Self-pipe for interrupting select()
135   int pipe_fds_[2]; // [0]=read, [1]=write 135   int pipe_fds_[2]; // [0]=read, [1]=write
136   136  
137   // Per-fd tracking for fd_set building 137   // Per-fd tracking for fd_set building
138   mutable std::unordered_map<int, reactor_descriptor_state*> registered_descs_; 138   mutable std::unordered_map<int, reactor_descriptor_state*> registered_descs_;
139   mutable int max_fd_ = -1; 139   mutable int max_fd_ = -1;
140   }; 140   };
141   141  
HITCBC 142   428 inline select_scheduler::select_scheduler(capy::execution_context& ctx, int) 142   428 inline select_scheduler::select_scheduler(capy::execution_context& ctx, int)
HITCBC 143   428 : pipe_fds_{-1, -1} 143   428 : pipe_fds_{-1, -1}
HITCBC 144   428 , max_fd_(-1) 144   428 , max_fd_(-1)
145   { 145   {
HITCBC 146   428 if (::pipe(pipe_fds_) < 0) 146   428 if (::pipe(pipe_fds_) < 0)
MISUBC 147   detail::throw_system_error(make_err(errno), "pipe"); 147   detail::throw_system_error(make_err(errno), "pipe");
148   148  
HITCBC 149   1284 for (int i = 0; i < 2; ++i) 149   1284 for (int i = 0; i < 2; ++i)
150   { 150   {
HITCBC 151   856 int flags = ::fcntl(pipe_fds_[i], F_GETFL, 0); 151   856 int flags = ::fcntl(pipe_fds_[i], F_GETFL, 0);
HITCBC 152   856 if (flags == -1) 152   856 if (flags == -1)
153   { 153   {
MISUBC 154   int errn = errno; 154   int errn = errno;
MISUBC 155   ::close(pipe_fds_[0]); 155   ::close(pipe_fds_[0]);
MISUBC 156   ::close(pipe_fds_[1]); 156   ::close(pipe_fds_[1]);
MISUBC 157   detail::throw_system_error(make_err(errn), "fcntl F_GETFL"); 157   detail::throw_system_error(make_err(errn), "fcntl F_GETFL");
158   } 158   }
HITCBC 159   856 if (::fcntl(pipe_fds_[i], F_SETFL, flags | O_NONBLOCK) == -1) 159   856 if (::fcntl(pipe_fds_[i], F_SETFL, flags | O_NONBLOCK) == -1)
160   { 160   {
MISUBC 161   int errn = errno; 161   int errn = errno;
MISUBC 162   ::close(pipe_fds_[0]); 162   ::close(pipe_fds_[0]);
MISUBC 163   ::close(pipe_fds_[1]); 163   ::close(pipe_fds_[1]);
MISUBC 164   detail::throw_system_error(make_err(errn), "fcntl F_SETFL"); 164   detail::throw_system_error(make_err(errn), "fcntl F_SETFL");
165   } 165   }
HITCBC 166   856 if (::fcntl(pipe_fds_[i], F_SETFD, FD_CLOEXEC) == -1) 166   856 if (::fcntl(pipe_fds_[i], F_SETFD, FD_CLOEXEC) == -1)
167   { 167   {
MISUBC 168   int errn = errno; 168   int errn = errno;
MISUBC 169   ::close(pipe_fds_[0]); 169   ::close(pipe_fds_[0]);
MISUBC 170   ::close(pipe_fds_[1]); 170   ::close(pipe_fds_[1]);
MISUBC 171   detail::throw_system_error(make_err(errn), "fcntl F_SETFD"); 171   detail::throw_system_error(make_err(errn), "fcntl F_SETFD");
172   } 172   }
173   } 173   }
174   174  
HITCBC 175   428 timer_svc_ = &get_timer_service(ctx, *this); 175   428 timer_svc_ = &get_timer_service(ctx, *this);
HITCBC 176   428 timer_svc_->set_on_earliest_changed( 176   428 timer_svc_->set_on_earliest_changed(
HITCBC 177   4243 timer_service::callback(this, [](void* p) { 177   4182 timer_service::callback(this, [](void* p) {
HITCBC 178   3815 static_cast<select_scheduler*>(p)->interrupt_reactor(); 178   3754 static_cast<select_scheduler*>(p)->interrupt_reactor();
HITCBC 179   3815 })); 179   3754 }));
180   180  
HITCBC 181   428 get_resolver_service(ctx, *this); 181   428 get_resolver_service(ctx, *this);
HITCBC 182   428 get_signal_service(ctx, *this); 182   428 get_signal_service(ctx, *this);
HITCBC 183   428 get_stream_file_service(ctx, *this); 183   428 get_stream_file_service(ctx, *this);
HITCBC 184   428 get_random_access_file_service(ctx, *this); 184   428 get_random_access_file_service(ctx, *this);
185   185  
HITCBC 186   428 completed_ops_.push(&task_op_); 186   428 completed_ops_.push(&task_op_);
HITCBC 187   428 } 187   428 }
188   188  
HITCBC 189   856 inline select_scheduler::~select_scheduler() 189   856 inline select_scheduler::~select_scheduler()
190   { 190   {
HITCBC 191   428 if (pipe_fds_[0] >= 0) 191   428 if (pipe_fds_[0] >= 0)
HITCBC 192   428 ::close(pipe_fds_[0]); 192   428 ::close(pipe_fds_[0]);
HITCBC 193   428 if (pipe_fds_[1] >= 0) 193   428 if (pipe_fds_[1] >= 0)
HITCBC 194   428 ::close(pipe_fds_[1]); 194   428 ::close(pipe_fds_[1]);
HITCBC 195   856 } 195   856 }
196   196  
197   inline void 197   inline void
HITCBC 198   428 select_scheduler::shutdown() 198   428 select_scheduler::shutdown()
199   { 199   {
HITCBC 200   428 shutdown_drain(); 200   428 shutdown_drain();
201   201  
HITCBC 202   428 if (pipe_fds_[1] >= 0) 202   428 if (pipe_fds_[1] >= 0)
HITCBC 203   428 interrupt_reactor(); 203   428 interrupt_reactor();
HITCBC 204   428 } 204   428 }
205   205  
206   inline void 206   inline void
HITCBC 207   7440 select_scheduler::register_descriptor( 207   7341 select_scheduler::register_descriptor(
208   int fd, reactor_descriptor_state* desc) const 208   int fd, reactor_descriptor_state* desc) const
209   { 209   {
HITCBC 210   7440 if (fd < 0 || fd >= FD_SETSIZE) 210   7341 if (fd < 0 || fd >= FD_SETSIZE)
MISUBC 211   detail::throw_system_error(make_err(EINVAL), "select: fd out of range"); 211   detail::throw_system_error(make_err(EINVAL), "select: fd out of range");
212   212  
HITCBC 213   7440 desc->registered_events = reactor_event_read | reactor_event_write; 213   7341 desc->registered_events = reactor_event_read | reactor_event_write;
HITCBC 214   7440 desc->fd = fd; 214   7341 desc->fd = fd;
HITCBC 215   7440 desc->scheduler_ = this; 215   7341 desc->scheduler_ = this;
HITCBC 216   7440 desc->mutex.set_enabled(!single_threaded_); 216   7341 desc->mutex.set_enabled(!single_threaded_);
HITCBC 217   7440 desc->ready_events_.store(0, std::memory_order_relaxed); 217   7341 desc->ready_events_.store(0, std::memory_order_relaxed);
218   218  
219   { 219   {
HITCBC 220   7440 conditionally_enabled_mutex::scoped_lock lock(desc->mutex); 220   7341 conditionally_enabled_mutex::scoped_lock lock(desc->mutex);
HITCBC 221   7440 desc->impl_ref_.reset(); 221   7341 desc->impl_ref_.reset();
HITCBC 222   7440 desc->read_ready = false; 222   7341 desc->read_ready = false;
HITCBC 223   7440 desc->write_ready = false; 223   7341 desc->write_ready = false;
HITCBC 224   7440 } 224   7341 }
225   225  
226   { 226   {
HITCBC 227   7440 mutex_type::scoped_lock lock(mutex_); 227   7341 mutex_type::scoped_lock lock(mutex_);
HITCBC 228   7440 registered_descs_[fd] = desc; 228   7341 registered_descs_[fd] = desc;
HITCBC 229   7440 if (fd > max_fd_) 229   7341 if (fd > max_fd_)
HITCBC 230   7436 max_fd_ = fd; 230   7337 max_fd_ = fd;
HITCBC 231   7440 } 231   7341 }
232   232  
HITCBC 233   7440 interrupt_reactor(); 233   7341 interrupt_reactor();
HITCBC 234   7440 } 234   7341 }
235   235  
236   inline void 236   inline void
HITCBC 237   7440 select_scheduler::deregister_descriptor(int fd) const 237   7341 select_scheduler::deregister_descriptor(int fd) const
238   { 238   {
HITCBC 239   7440 mutex_type::scoped_lock lock(mutex_); 239   7341 mutex_type::scoped_lock lock(mutex_);
240   240  
HITCBC 241   7440 auto it = registered_descs_.find(fd); 241   7341 auto it = registered_descs_.find(fd);
HITCBC 242   7440 if (it == registered_descs_.end()) 242   7341 if (it == registered_descs_.end())
MISUBC 243   return; 243   return;
244   244  
HITCBC 245   7440 registered_descs_.erase(it); 245   7341 registered_descs_.erase(it);
246   246  
HITCBC 247   7440 if (fd == max_fd_) 247   7341 if (fd == max_fd_)
248   { 248   {
HITCBC 249   7336 max_fd_ = pipe_fds_[0]; 249   7236 max_fd_ = pipe_fds_[0];
HITCBC 250   14461 for (auto& [registered_fd, state] : registered_descs_) 250   14261 for (auto& [registered_fd, state] : registered_descs_)
251   { 251   {
HITCBC 252   7125 if (registered_fd > max_fd_) 252   7025 if (registered_fd > max_fd_)
HITCBC 253   7100 max_fd_ = registered_fd; 253   7000 max_fd_ = registered_fd;
254   } 254   }
255   } 255   }
HITCBC 256   7440 } 256   7341 }
257   257  
258   inline void 258   inline void
HITCBC 259   3579 select_scheduler::notify_reactor() const 259   3530 select_scheduler::notify_reactor() const
260   { 260   {
HITCBC 261   3579 interrupt_reactor(); 261   3530 interrupt_reactor();
HITCBC 262   3579 } 262   3530 }
263   263  
264   inline void 264   inline void
HITCBC 265   15548 select_scheduler::interrupt_reactor() const 265   15339 select_scheduler::interrupt_reactor() const
266   { 266   {
HITCBC 267   15548 char byte = 1; 267   15339 char byte = 1;
HITCBC 268   15548 [[maybe_unused]] auto r = ::write(pipe_fds_[1], &byte, 1); 268   15339 [[maybe_unused]] auto r = ::write(pipe_fds_[1], &byte, 1);
HITCBC 269   15548 } 269   15339 }
270   270  
271   inline long 271   inline long
HITCBC 272   256296 select_scheduler::calculate_timeout(long requested_timeout_us) const 272   204318 select_scheduler::calculate_timeout(long requested_timeout_us) const
273   { 273   {
HITCBC 274   256296 if (requested_timeout_us == 0) 274   204318 if (requested_timeout_us == 0)
MISUBC 275   return 0; 275   return 0;
276   276  
HITCBC 277   256296 auto nearest = timer_svc_->nearest_expiry(); 277   204318 auto nearest = timer_svc_->nearest_expiry();
HITCBC 278   256296 if (nearest == timer_service::time_point::max()) 278   204318 if (nearest == timer_service::time_point::max())
HITCBC 279   175 return requested_timeout_us; 279   175 return requested_timeout_us;
280   280  
HITCBC 281   256121 auto now = std::chrono::steady_clock::now(); 281   204143 auto now = std::chrono::steady_clock::now();
HITCBC 282   256121 if (nearest <= now) 282   204143 if (nearest <= now)
HITCBC 283   609 return 0; 283   749 return 0;
284   284  
285   auto timer_timeout_us = 285   auto timer_timeout_us =
HITCBC 286   255512 std::chrono::duration_cast<std::chrono::microseconds>(nearest - now) 286   203394 std::chrono::duration_cast<std::chrono::microseconds>(nearest - now)
HITCBC 287   255512 .count(); 287   203394 .count();
288   288  
HITCBC 289   255512 constexpr auto long_max = 289   203394 constexpr auto long_max =
290   static_cast<long long>((std::numeric_limits<long>::max)()); 290   static_cast<long long>((std::numeric_limits<long>::max)());
291   auto capped_timer_us = 291   auto capped_timer_us =
HITCBC 292   255512 (std::min)((std::max)(static_cast<long long>(timer_timeout_us), 292   203394 (std::min)((std::max)(static_cast<long long>(timer_timeout_us),
HITCBC 293   255512 static_cast<long long>(0)), 293   203394 static_cast<long long>(0)),
HITCBC 294   255512 long_max); 294   203394 long_max);
295   295  
HITCBC 296   255512 if (requested_timeout_us < 0) 296   203394 if (requested_timeout_us < 0)
HITCBC 297   255512 return static_cast<long>(capped_timer_us); 297   203394 return static_cast<long>(capped_timer_us);
298   298  
299   return static_cast<long>( 299   return static_cast<long>(
MISUBC 300   (std::min)(static_cast<long long>(requested_timeout_us), 300   (std::min)(static_cast<long long>(requested_timeout_us),
MISUBC 301   capped_timer_us)); 301   capped_timer_us));
302   } 302   }
303   303  
304   inline void 304   inline void
HITCBC 305   286005 select_scheduler::run_task( 305   227943 select_scheduler::run_task(
306   lock_type& lock, context_type* ctx, long timeout_us) 306   lock_type& lock, context_type* ctx, long timeout_us)
307   { 307   {
308   long effective_timeout_us = 308   long effective_timeout_us =
HITCBC 309   286005 task_interrupted_ ? 0 : calculate_timeout(timeout_us); 309   227943 task_interrupted_ ? 0 : calculate_timeout(timeout_us);
310   310  
311   // Snapshot registered descriptors while holding lock. 311   // Snapshot registered descriptors while holding lock.
312   // Record which fds need write monitoring to avoid a hot loop: 312   // Record which fds need write monitoring to avoid a hot loop:
313   // select is level-triggered so writable sockets (nearly always 313   // select is level-triggered so writable sockets (nearly always
314   // writable) would cause select() to return immediately every 314   // writable) would cause select() to return immediately every
315   // iteration if unconditionally added to write_fds. 315   // iteration if unconditionally added to write_fds.
316   struct fd_entry 316   struct fd_entry
317   { 317   {
318   int fd; 318   int fd;
319   reactor_descriptor_state* desc; 319   reactor_descriptor_state* desc;
320   bool needs_write; 320   bool needs_write;
321   }; 321   };
322   fd_entry snapshot[FD_SETSIZE]; 322   fd_entry snapshot[FD_SETSIZE];
HITCBC 323   286005 int snapshot_count = 0; 323   227943 int snapshot_count = 0;
324   324  
HITCBC 325   785646 for (auto& [fd, desc] : registered_descs_) 325   598542 for (auto& [fd, desc] : registered_descs_)
326   { 326   {
HITCBC 327   499641 if (snapshot_count < FD_SETSIZE) 327   370599 if (snapshot_count < FD_SETSIZE)
328   { 328   {
HITCBC 329   499641 conditionally_enabled_mutex::scoped_lock desc_lock(desc->mutex); 329   370599 conditionally_enabled_mutex::scoped_lock desc_lock(desc->mutex);
HITCBC 330   499641 snapshot[snapshot_count].fd = fd; 330   370599 snapshot[snapshot_count].fd = fd;
HITCBC 331   499641 snapshot[snapshot_count].desc = desc; 331   370599 snapshot[snapshot_count].desc = desc;
HITCBC 332   499641 snapshot[snapshot_count].needs_write = 332   370599 snapshot[snapshot_count].needs_write =
HITCBC 333   499641 (desc->write_op || desc->connect_op); 333   370599 (desc->write_op || desc->connect_op);
HITCBC 334   499641 ++snapshot_count; 334   370599 ++snapshot_count;
HITCBC 335   499641 } 335   370599 }
336   } 336   }
337   337  
HITCBC 338   286005 if (lock.owns_lock()) 338   227943 if (lock.owns_lock())
HITCBC 339   256296 lock.unlock(); 339   204318 lock.unlock();
340   340  
HITCBC 341   286005 task_cleanup on_exit{this, &lock, ctx}; 341   227943 task_cleanup on_exit{this, &lock, ctx};
342   342  
343   fd_set read_fds, write_fds, except_fds; 343   fd_set read_fds, write_fds, except_fds;
HITCBC 344   4862085 FD_ZERO(&read_fds); 344   3875031 FD_ZERO(&read_fds);
HITCBC 345   4862085 FD_ZERO(&write_fds); 345   3875031 FD_ZERO(&write_fds);
HITCBC 346   4862085 FD_ZERO(&except_fds); 346   3875031 FD_ZERO(&except_fds);
347   347  
HITCBC 348   286005 FD_SET(pipe_fds_[0], &read_fds); 348   227943 FD_SET(pipe_fds_[0], &read_fds);
HITCBC 349   286005 int nfds = pipe_fds_[0]; 349   227943 int nfds = pipe_fds_[0];
350   350  
HITCBC 351   785646 for (int i = 0; i < snapshot_count; ++i) 351   598542 for (int i = 0; i < snapshot_count; ++i)
352   { 352   {
HITCBC 353   499641 int fd = snapshot[i].fd; 353   370599 int fd = snapshot[i].fd;
HITCBC 354   499641 FD_SET(fd, &read_fds); 354   370599 FD_SET(fd, &read_fds);
HITCBC 355   499641 if (snapshot[i].needs_write) 355   370599 if (snapshot[i].needs_write)
HITCBC 356   3666 FD_SET(fd, &write_fds); 356   3617 FD_SET(fd, &write_fds);
HITCBC 357   499641 FD_SET(fd, &except_fds); 357   370599 FD_SET(fd, &except_fds);
HITCBC 358   499641 if (fd > nfds) 358   370599 if (fd > nfds)
HITCBC 359   285652 nfds = fd; 359   227588 nfds = fd;
360   } 360   }
361   361  
362   struct timeval tv; 362   struct timeval tv;
HITCBC 363   286005 struct timeval* tv_ptr = nullptr; 363   227943 struct timeval* tv_ptr = nullptr;
HITCBC 364   286005 if (effective_timeout_us >= 0) 364   227943 if (effective_timeout_us >= 0)
365   { 365   {
HITCBC 366   285831 tv.tv_sec = effective_timeout_us / 1000000; 366   227769 tv.tv_sec = effective_timeout_us / 1000000;
HITCBC 367   285831 tv.tv_usec = effective_timeout_us % 1000000; 367   227769 tv.tv_usec = effective_timeout_us % 1000000;
HITCBC 368   285831 tv_ptr = &tv; 368   227769 tv_ptr = &tv;
369   } 369   }
370   370  
HITCBC 371   286005 int ready = ::select(nfds + 1, &read_fds, &write_fds, &except_fds, tv_ptr); 371   227943 int ready = ::select(nfds + 1, &read_fds, &write_fds, &except_fds, tv_ptr);
372   372  
373   // EINTR: signal interrupted select(), just retry. 373   // EINTR: signal interrupted select(), just retry.
374   // EBADF: an fd was closed between snapshot and select(); retry 374   // EBADF: an fd was closed between snapshot and select(); retry
375   // with a fresh snapshot from registered_descs_. 375   // with a fresh snapshot from registered_descs_.
HITCBC 376   286005 if (ready < 0) 376   227943 if (ready < 0)
377   { 377   {
MISUBC 378   if (errno == EINTR || errno == EBADF) 378   if (errno == EINTR || errno == EBADF)
MISUBC 379   return; 379   return;
MISUBC 380   detail::throw_system_error(make_err(errno), "select"); 380   detail::throw_system_error(make_err(errno), "select");
381   } 381   }
382   382  
383   // Process timers outside the lock 383   // Process timers outside the lock
HITCBC 384   286005 timer_svc_->process_expired(); 384   227943 timer_svc_->process_expired();
385   385  
HITCBC 386   286005 op_queue local_ops; 386   227943 op_queue local_ops;
387   387  
HITCBC 388   286005 if (ready > 0) 388   227943 if (ready > 0)
389   { 389   {
HITCBC 390   264186 if (FD_ISSET(pipe_fds_[0], &read_fds)) 390   209686 if (FD_ISSET(pipe_fds_[0], &read_fds))
391   { 391   {
392   char buf[256]; 392   char buf[256];
HITCBC 393   15176 while (::read(pipe_fds_[0], buf, sizeof(buf)) > 0) 393   14954 while (::read(pipe_fds_[0], buf, sizeof(buf)) > 0)
394   { 394   {
395   } 395   }
396   } 396   }
397   397  
HITCBC 398   702507 for (int i = 0; i < snapshot_count; ++i) 398   530936 for (int i = 0; i < snapshot_count; ++i)
399   { 399   {
HITCBC 400   438321 int fd = snapshot[i].fd; 400   321250 int fd = snapshot[i].fd;
HITCBC 401   438321 reactor_descriptor_state* desc = snapshot[i].desc; 401   321250 reactor_descriptor_state* desc = snapshot[i].desc;
402   402  
HITCBC 403   438321 std::uint32_t flags = 0; 403   321250 std::uint32_t flags = 0;
HITCBC 404   438321 if (FD_ISSET(fd, &read_fds)) 404   321250 if (FD_ISSET(fd, &read_fds))
HITCBC 405   260392 flags |= reactor_event_read; 405   205944 flags |= reactor_event_read;
HITCBC 406   438321 if (FD_ISSET(fd, &write_fds)) 406   321250 if (FD_ISSET(fd, &write_fds))
HITCBC 407   3578 flags |= reactor_event_write; 407   3529 flags |= reactor_event_write;
HITCBC 408   438321 if (FD_ISSET(fd, &except_fds)) 408   321250 if (FD_ISSET(fd, &except_fds))
MISUBC 409   flags |= reactor_event_error; 409   flags |= reactor_event_error;
410   410  
HITCBC 411   438321 if (flags == 0) 411   321250 if (flags == 0)
HITCBC 412   174360 continue; 412   111787 continue;
413   413  
HITCBC 414   263961 desc->add_ready_events(flags); 414   209463 desc->add_ready_events(flags);
415   415  
HITCBC 416   263961 bool expected = false; 416   209463 bool expected = false;
HITCBC 417   263961 if (desc->is_enqueued_.compare_exchange_strong( 417   209463 if (desc->is_enqueued_.compare_exchange_strong(
418   expected, true, std::memory_order_release, 418   expected, true, std::memory_order_release,
419   std::memory_order_relaxed)) 419   std::memory_order_relaxed))
420   { 420   {
HITCBC 421   263961 local_ops.push(desc); 421   209463 local_ops.push(desc);
422   } 422   }
423   } 423   }
424   } 424   }
425   425  
HITCBC 426   286005 lock.lock(); 426   227943 lock.lock();
427   427  
HITCBC 428   286005 if (!local_ops.empty()) 428   227943 if (!local_ops.empty())
HITCBC 429   260388 completed_ops_.splice(local_ops); 429   205940 completed_ops_.splice(local_ops);
HITCBC 430   286005 } 430   227943 }
431   431  
432   } // namespace boost::corosio::detail 432   } // namespace boost::corosio::detail
433   433  
434   #endif // BOOST_COROSIO_HAS_SELECT 434   #endif // BOOST_COROSIO_HAS_SELECT
435   435  
436   #endif // BOOST_COROSIO_NATIVE_DETAIL_SELECT_SELECT_SCHEDULER_HPP 436   #endif // BOOST_COROSIO_NATIVE_DETAIL_SELECT_SELECT_SCHEDULER_HPP