MySQL 8.0.39
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socket.h
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25
26#ifndef MYSQL_HARNESS_NET_TS_SOCKET_H_
27#define MYSQL_HARNESS_NET_TS_SOCKET_H_
28
29#include <bitset>
30#include <stdexcept> // length_error
31#include <system_error>
32
33#ifdef _WIN32
34#include <WS2tcpip.h> // inet_ntop
35#include <WinSock2.h>
36#include <Windows.h>
37#else
38#include <sys/types.h> // before netinet* on FreeBSD for uint8_t
39
40#include <arpa/inet.h> // htons
41#include <netinet/in.h> // in_addr_t
42#include <netinet/ip6.h> // in6_addr_t
43#include <netinet/tcp.h> // TCP_NODELAY
44#include <sys/ioctl.h> // FIONREAD, SIOATMARK
45#include <termios.h> // TIOCOUTQ
46#ifdef __sun__
47#include <sys/filio.h> // FIONREAD
48#include <sys/sockio.h> // SIOATMARK
49#endif
50#endif
51
53
58
59namespace net {
60
61// 18.3 [socket.err]
62// implemented in impl/socket_error.h
63
64// 18.5 [socket.opt]
65
66namespace socket_option {
67
68/**
69 * base-class of socket options.
70 *
71 * can be used to implement type safe socket options.
72 *
73 * @see socket_option::integer
74 * @see socket_option::boolean
75 */
76template <int Level, int Name, class T, class V = T>
78 public:
79 using value_type = T;
80 using storage_type = V;
81
82 constexpr option_base() : value_{} {}
83
84 constexpr explicit option_base(value_type v)
85 : value_{static_cast<storage_type>(v)} {}
86
87 value_type value() const { return value_; }
88
89 template <typename Protocol>
90 constexpr int level(const Protocol & /* unused */) const noexcept {
91 return Level;
92 }
93
94 template <typename Protocol>
95 constexpr int name(const Protocol & /* unused */) const noexcept {
96 return Name;
97 }
98
99 template <typename Protocol>
100 const storage_type *data(const Protocol & /* unused */) const {
101 return std::addressof(value_);
102 }
103
104 template <typename Protocol>
105 storage_type *data(const Protocol & /* unused */) {
106 return std::addressof(value_);
107 }
108
109 template <typename Protocol>
110 constexpr size_t size(const Protocol & /* unused */) const {
111 return sizeof(value_);
112 }
113
114 template <class Protocol>
115 void resize(const Protocol & /* p */, size_t s) {
116 if (s != sizeof(value_)) {
117 throw std::length_error("size != sizeof(value_)");
118 }
119 }
120
121 private:
123};
124
125/**
126 * socket option that uses bool as value_type.
127 */
128template <int Level, int Name>
130
131/**
132 * socket option that uses int as value_type.
133 */
134template <int Level, int Name>
136
137} // namespace socket_option
138
139// 18.4 [socket.base]
140
142 public:
146 using error =
149
150 class linger;
151
158
160
166
171
172 enum class shutdown_type {
173#ifdef _WIN32
174 shutdown_receive = SD_RECEIVE,
175 shutdown_send = SD_SEND,
176 shutdown_both = SD_BOTH,
177#else
178 shutdown_receive = SHUT_RD,
179 shutdown_send = SHUT_WR,
180 shutdown_both = SHUT_RDWR,
181#endif
182 };
187
188 static const int max_listen_connections{SOMAXCONN};
189
190 protected:
191 // msg_hdr used by writev(), sendv(), sendmsg(), WSASend()
192 //
193 // windows and posix have slight different msghdr struct layouts.
195 std::array<impl::socket::iovec_base, 16> iov_{};
196
197 public:
198 template <class BufferSequence>
199 explicit msg_hdr(const BufferSequence &buffers)
200 : impl::socket::msghdr_base{} {
201 const size_t iovs_capacity = iov_.size();
202 const auto bufend = buffer_sequence_end(buffers);
203 size_t i = 0;
204
205 for (auto bufcur = buffer_sequence_begin(buffers);
206 (i < iovs_capacity) && (bufcur != bufend); ++i, ++bufcur) {
207#ifdef _WIN32
208 iov_[i].buf =
209 const_cast<CHAR *>(reinterpret_cast<const CHAR *>(bufcur->data()));
210 iov_[i].len = static_cast<DWORD>(bufcur->size());
211#else
212 iov_[i] = {const_cast<void *>(bufcur->data()), bufcur->size()};
213#endif
214 }
215
216#ifdef _WIN32
217 this->lpBuffers = iov_.data();
218 this->dwBufferCount = static_cast<DWORD>(i);
219#else
220 this->msg_iov = iov_.data();
221 this->msg_iovlen = i;
222#endif
223 }
224
225 /**
226 * set sender of the message.
227 *
228 * used by the UDP and Linux TCP Fast Open.
229 */
230 template <class endpoint_type>
231 void set_sender(endpoint_type &ep) {
232#ifdef _WIN32
233 this->name = static_cast<SOCKADDR *>(ep.data());
234 this->namelen = ep.capacity();
235#else
236 this->msg_name = ep.data();
237 this->msg_namelen = ep.capacity();
238#endif
239 }
240
241 /**
242 * set the size of the sender after data was received.
243 */
244 template <class endpoint_type>
245 void resize_sender(endpoint_type &ep) {
246#ifdef _WIN32
247 ep.resize(this->namelen);
248#else
249 ep.resize(this->msg_namelen);
250#endif
251 }
252
253 /**
254 * set recipient of the message.
255 */
256 template <class endpoint_type>
257 void set_recipient(const endpoint_type &ep) {
258#ifdef _WIN32
259 this->name =
260 const_cast<SOCKADDR *>(static_cast<const SOCKADDR *>(ep.data()));
261 this->namelen = ep.size();
262#else
263 this->msg_name = const_cast<void *>(ep.data());
264 this->msg_namelen = ep.size();
265#endif
266 }
267 };
268};
269
270// 18.5.1
271
272/**
273 * socket option for SO_LINGER
274 */
276 public:
277 linger() noexcept : value_{0, 0} {}
278
279 linger(bool e, std::chrono::seconds t) noexcept
280 : value_{e, static_cast<decltype(value_.l_linger)>(t.count())} {}
281
282 bool enabled() const noexcept { return value_.l_onoff != 0; }
283 void enabled(bool e) noexcept { value_.l_onoff = e; }
284
285 std::chrono::seconds timeout() const noexcept {
286 return std::chrono::seconds(value_.l_linger);
287 }
288 void timeout(std::chrono::seconds t) noexcept {
289 value_.l_linger = static_cast<int>(t.count());
290 }
291
292 template <class Protocol>
293 int level(const Protocol & /* p */) const noexcept {
294 return SOL_SOCKET;
295 }
296
297 template <class Protocol>
298 int name(const Protocol & /* p */) const noexcept {
299 return SO_LINGER;
300 }
301
302 template <class Protocol>
303 void *data(const Protocol & /* p */) noexcept {
304 return std::addressof(value_);
305 }
306
307 template <class Protocol>
308 const void *data(const Protocol & /* p */) const noexcept {
309 return std::addressof(value_);
310 }
311
312 template <class Protocol>
313 size_t size(const Protocol & /* p */) const noexcept {
314 return sizeof(value_);
315 }
316
317 template <class Protocol>
318 void resize(const Protocol & /* p */, size_t s) {
319 if (s != sizeof(value_)) {
320 throw std::length_error("size != sizeof(::linger)");
321 }
322 }
323
324 private:
326};
327
328/**
329 * template-less base-class of basic_socket_impl.
330 *
331 * all of the parts of basic_socket_impl that are not dependent on Protocol
332 * - native_handle
333 * - non-blocking flags
334 */
336 public:
339
340 constexpr explicit basic_socket_impl_base(io_context &ctx) : io_ctx_{&ctx} {}
341
344
346 : native_handle_{std::exchange(rhs.native_handle_,
348 non_blocking_{std::exchange(rhs.non_blocking_, 0)},
349 native_non_blocking_{std::exchange(rhs.native_non_blocking_, 0)},
350 io_ctx_{std::move(rhs.io_ctx_)} {}
351
354 std::exchange(rhs.native_handle_, impl::socket::kInvalidSocket);
355 non_blocking_ = std::exchange(rhs.non_blocking_, 0);
356 native_non_blocking_ = std::exchange(rhs.native_non_blocking_, 0);
357 io_ctx_ = rhs.io_ctx_;
358
359 return *this;
360 }
361
363
364 constexpr native_handle_type native_handle() const noexcept {
365 return native_handle_;
366 }
367
368 constexpr bool is_open() const noexcept {
370 }
371
372 constexpr bool non_blocking() const { return non_blocking_; }
373
375 if (!is_open()) {
377 std::make_error_code(std::errc::bad_file_descriptor));
378 }
380
381 return {};
382 }
383
384 bool native_non_blocking() const {
385 if (static_cast<char>(-1) != native_non_blocking_)
387
389 if (res) native_non_blocking_ = *res;
390
392 }
393
395 if (!is_open()) {
397 std::make_error_code(std::errc::bad_file_descriptor));
398 }
399
400 if (!mode && non_blocking()) {
402 std::make_error_code(std::errc::invalid_argument));
403 }
404
405 auto res =
407 if (!res) return res;
408
409 native_non_blocking_ = mode ? 1 : 0;
410
411 return res;
412 }
413
415
417 if (is_open()) {
418 cancel();
419
420 auto res = io_ctx_->socket_service()->close(native_handle());
421
422 // after close() finished, the socket's state is undefined even if it
423 // failed. See "man close" on Linux.
425
426 return res;
427 }
428
429 return {};
430 }
431
433 if (!is_open()) {
435 make_error_code(std::errc::bad_file_descriptor));
436 }
437
439 return {};
440 }
441
443 if (is_open()) {
444 cancel();
445 }
446 return std::exchange(native_handle_, impl::socket::kInvalidSocket);
447 }
448
449 protected:
451
452 bool non_blocking_{false};
454#ifdef _WIN32
455 // on windows we can't detect the non-blocking state.
456 //
457 // Let's assume it defaults to 0. *fingerscross*
458 0
459#else
460 // on unixes we don't know what the state of non-blocking is after
461 // accept(), better check for it.
462 static_cast<char>(-1)
463#endif
464 };
465
467};
468
469// 18.6 [socket.basic]
470template <typename Protocol>
472 public:
474
477 using endpoint_type = typename protocol_type::endpoint;
478 using error_type = std::error_code;
480
481 constexpr explicit basic_socket_impl(io_context &ctx) noexcept
482 : __base{ctx} {}
483
487
489 if (this == std::addressof(rhs)) {
490 return *this;
491 }
492
493 close();
494 __base::operator=(std::move(rhs));
495
496 return *this;
497 }
498
500 if (is_open()) close();
501 }
502
504 const protocol_type &protocol = protocol_type(), int flags = 0) {
505 if (is_open()) {
507 }
508 auto res = io_ctx_->socket_service()->socket(
509 protocol.family(), protocol.type() | flags, protocol.protocol());
510 if (!res) return stdx::make_unexpected(res.error());
511#ifdef SOCK_NONBLOCK
512 if ((flags & SOCK_NONBLOCK) != 0) {
514 }
515#endif
516
517 return assign(protocol, res.value());
518 }
519
521 const protocol_type &protocol, const native_handle_type &native_handle) {
522 if (is_open()) {
524 }
525 protocol_ = protocol;
527
528 return {};
529 }
530
532 return io_ctx_->socket_service()->bind(
534 reinterpret_cast<const struct sockaddr *>(endpoint.data()),
535 endpoint.size());
536 }
537
539 struct sockaddr *endpoint_data,
540 socklen_t *endpoint_size,
541 int flags = 0) {
542 if (flags != 0) {
543 auto res = io_ctx_->socket_service()->accept4(
544 native_handle(), endpoint_data, endpoint_size, flags);
545 if (res) {
546 return socket_type{io_ctx, protocol_, res.value()};
547 } else if (res.error() != std::errc::operation_not_supported) {
548 return stdx::make_unexpected(res.error());
549 }
550
551 // otherwise fall through to accept without flags
552 }
553 auto res = io_ctx_->socket_service()->accept(native_handle(), endpoint_data,
554 endpoint_size);
555 if (!res) return stdx::make_unexpected(res.error());
556
557 return {std::in_place, io_ctx, protocol_, std::move(res.value())};
558 }
559
561 int flags = 0) {
562 return accept(io_ctx, static_cast<struct sockaddr *>(nullptr), nullptr,
563 flags);
564 }
565
567 endpoint_type &endpoint,
568 int flags = 0) {
569 socklen_t endpoint_len = endpoint.capacity();
570
571 auto res = accept(io_ctx, static_cast<struct sockaddr *>(endpoint.data()),
572 &endpoint_len, flags);
573 if (res) {
574 endpoint.resize(endpoint_len);
575 }
576 return res;
577 }
578
581 return io_ctx_->socket_service()->listen(native_handle(), backlog);
582 }
583
584 template <typename SettableSocketOption>
586 const SettableSocketOption &option) {
588 native_handle(), option.level(protocol_), option.name(protocol_),
589 option.data(protocol_), static_cast<socklen_t>(option.size(protocol_)));
590 }
591
592 template <typename GettableSocketOption>
594 GettableSocketOption &option) const {
595 socklen_t option_len = option.size(protocol_);
596 auto res = io_ctx_->socket_service()->getsockopt(
597 native_handle(), option.level(protocol_), option.name(protocol_),
598 option.data(protocol_), &option_len);
599
600 if (!res) return res;
601
602 option.resize(protocol_, option_len);
603
604 return {};
605 }
606
608 endpoint_type ep;
609 size_t ep_len = ep.capacity();
610
611 auto res = io_ctx_->socket_service()->getsockname(
612 native_handle(), reinterpret_cast<struct sockaddr *>(ep.data()),
613 &ep_len);
614 if (!res) return stdx::make_unexpected(res.error());
615
616 ep.resize(ep_len);
617
618 return ep;
619 }
620
622 endpoint_type ep;
623 size_t ep_len = ep.capacity();
624
625 auto res = io_ctx_->socket_service()->getpeername(
626 native_handle(), reinterpret_cast<struct sockaddr *>(ep.data()),
627 &ep_len);
628 if (!res) return stdx::make_unexpected(res.error());
629
630 ep.resize(ep_len);
631
632 return ep;
633 }
634
635 // NOLINTNEXTLINE(google-runtime-int)
636 template <unsigned long Name, class T>
637 class IoControl {
638 public:
639 using value_type = T;
640
641 constexpr IoControl() : val_{} {}
642
643 constexpr explicit IoControl(value_type v) : val_{v} {}
644
645 // NOLINTNEXTLINE(google-runtime-int)
646 constexpr unsigned long name() const { return Name; }
647
648 constexpr void *data() { return &val_; }
649
650 constexpr value_type value() const { return val_; }
651
652 private:
654 };
655
658#ifndef _WIN32
660#else
661 using io_control_socket_set_high_water_mark = IoControl<SIOCSHIWAT, int>;
662 using io_control_socket_get_high_water_mark = IoControl<SIOCGHIWAT, int>;
663 using io_control_socket_set_low_water_mark = IoControl<SIOCSLOWAT, int>;
664 using io_control_socket_get_low_water_mark = IoControl<SIOCGLOWAT, int>;
665#endif
666
667 template <class IoControlCommand>
668 stdx::expected<void, error_type> io_control(IoControlCommand &cmd) const {
669 return io_ctx_->socket_service()->ioctl(native_handle(), cmd.name(),
670 cmd.data());
671 }
672
675
676 auto res = io_control(ioc);
677 if (!res) return stdx::make_unexpected(res.error());
678
679 if (ioc.value() < 0) {
680 return stdx::make_unexpected(make_error_code(std::errc::invalid_seek));
681 }
682
683 // value is not negative, safe to cast to unsigned
684 return static_cast<size_t>(ioc.value());
685 }
686
689
690 auto res = io_control(ioc);
691 if (!res) return stdx::make_unexpected(res.error());
692
693 return ioc.value();
694 }
695
699 static_cast<int>(st));
700 }
701
703 return io_ctx_->socket_service()->wait(native_handle(), wt);
704 }
705
706 private:
708};
709
710template <typename Protocol>
711class basic_socket : public socket_base, private basic_socket_impl<Protocol> {
713
714 public:
719 using endpoint_type = typename protocol_type::endpoint;
720
722
724 const protocol_type &protocol, const native_handle_type &native_handle) {
725 return __base::assign(protocol, native_handle);
726 }
727
729 const protocol_type &protocol = protocol_type(), int flags = 0) {
730 return __base::open(protocol, flags);
731 }
732
734 if (!is_open()) {
735 auto res = open(endpoint.protocol());
736 if (!res) return res;
737 }
740 reinterpret_cast<const struct sockaddr *>(endpoint.data()),
741 endpoint.size());
742 }
743
744 template <class CompletionToken>
745 auto async_connect(const endpoint_type &endpoint, CompletionToken &&token) {
746 async_completion<CompletionToken, void(std::error_code)> init{token};
747
748 if (!is_open()) {
749 auto res = open(endpoint.protocol());
750 if (!res) {
751 init.completion_handler(res.error());
752
753 return;
754 }
755 }
756
757 net::defer(get_executor(), [this, endpoint,
758 __compl_handler =
759 std::move(init.completion_handler)]() {
760 // remember the non-blocking flag.
761 const auto old_non_blocking = native_non_blocking();
762 if (old_non_blocking == false) native_non_blocking(true);
763
764 auto res = connect(endpoint);
765
766 // restore the non-blocking flag if needed.
767 if (old_non_blocking == false) native_non_blocking(false);
768
769 if (res) {
770 __compl_handler({});
771 } else {
772 const auto ec = res.error();
773
774 if ((ec !=
775 make_error_condition(std::errc::operation_in_progress)) /* posix */
776 && (ec != make_error_condition(
777 std::errc::operation_would_block)) /* windows */) {
778 __compl_handler(ec);
779 } else {
780 get_executor().context().async_wait(
781 native_handle(), net::socket_base::wait_write,
782 [this, __compl_handler = std::move(__compl_handler)](
783 std::error_code ec) mutable {
784 if (ec) {
785 __compl_handler(ec);
786 return;
787 }
788
789 // finish the non-blocking connect
790 net::socket_base::error so_error;
791
792 auto res = get_option(so_error);
793 if (!res) {
794 __compl_handler(res.error());
795 return;
796 }
797
798 // if so_error.value() is 0, the error_code will be 0 too
799 __compl_handler(
800 impl::socket::make_error_code(so_error.value()));
801 });
802 }
803 }
804 });
805
806 return init.result.get();
807 }
808
810 return __base::bind(endpoint);
811 }
812
814 return __base::native_handle();
815 }
816
817 template <typename SettableSocketOption>
819 const SettableSocketOption &option) {
820 return __base::set_option(option);
821 }
822
823 template <typename GettableSocketOption>
825 GettableSocketOption &option) const {
826 return __base::get_option(option);
827 }
828
830
831 stdx::expected<void, error_type> cancel() { return __base::cancel(); }
832
834 return __base::release();
835 }
836
837 constexpr bool is_open() const { return __base::is_open(); }
838
840 return __base::local_endpoint();
841 }
842
844 return __base::remote_endpoint();
845 }
846
848 return __base::available();
849 }
850
851 bool non_blocking() const { return __base::non_blocking(); }
852
854 return __base::non_blocking(mode);
855 }
856
858
861 }
862
864 return __base::wait(wt);
865 }
866
869 return __base::shutdown(st);
870 }
871
872#if defined(ALL_COMPILERS_FULLY_SUPPORT_CPP14)
873 // the define ALL_COMPILERS_FULLY_SUPPORT_CPP14 is a placeholder.
874 //
875 // The code below assumes the compiler supports generalized lambda
876 // capture from C++14, allowing use move the ownership into the lambda.
877 //
878 // The code works with:
879 //
880 // - gcc 5.x and later
881 // - clang 4 and later
882 // - MSVC ...
883 //
884 // but it fails for move-only completion handlers with:
885 //
886 // - sun pro 15.6
887 //
888 // As soon as sun pro is fixed or supported for it is dropped,
889 // C++11 implementation below and this comment can be removed.
890 template <typename CompletionToken>
891 auto async_wait(wait_type w, CompletionToken &&token) {
892 async_completion<CompletionToken, void(std::error_code)> init{token};
893
894 get_executor().context().async_wait(
895 native_handle(), w,
896 [__compl_handler = std::move(init.completion_handler)](
897 std::error_code ec) mutable { __compl_handler(ec); });
898
899 return init.result.get();
900 }
901#else
902 // C++11 compatible implementation of async_wait() which allows move-only
903 // completion handlers
904 //
905 // to be removed, once all supported compilers fully support C++14 generalized
906 // lambda capture
907
908 template <typename CompletionToken>
909 typename async_result<std::decay_t<CompletionToken>,
910 void(std::error_code)>::return_type
911 async_wait(wait_type w, CompletionToken &&token) {
912 async_completion<CompletionToken, void(std::error_code)> init{token};
913
914 using async_completion_handler_type =
915 typename decltype(init)::completion_handler_type;
916
917 // capture the completion handler
918 class ClosureType {
919 public:
920 explicit ClosureType(async_completion_handler_type &&compl_handler)
921 : compl_handler_{
922 std::forward<decltype(compl_handler)>(compl_handler)} {}
923
924 void operator()(std::error_code ec) { compl_handler_(ec); }
925
926 private:
927 async_completion_handler_type compl_handler_;
928 };
929
930 // get native-handle before std::move()ing the completion handler into the
931 // async_wait(). Otherwise the native_handle() may refer to the moved-from
932 // object
933 const auto handle = native_handle();
934
935 get_executor().context().async_wait(
936 handle, w,
937 ClosureType(std::forward<async_completion_handler_type>(
938 init.completion_handler)));
939
940 return init.result.get();
941 }
942#endif
943
944 protected:
945 explicit basic_socket(io_context &ctx) : __base{ctx} {}
946
948 : __base{ctx, proto} {}
949
952 : __base{ctx} {
953 assign(proto, native_handle);
954 }
955
956 // as demanded by networking-ts
957 // NOLINTNEXTLINE(hicpp-use-equals-delete,modernize-use-equals-delete)
958 basic_socket(const basic_socket &) = delete;
959 // NOLINTNEXTLINE(hicpp-use-equals-delete,modernize-use-equals-delete)
961 // NOLINTNEXTLINE(hicpp-noexcept-move,performance-noexcept-move-constructor)
962 basic_socket(basic_socket &&other) = default;
963 // NOLINTNEXTLINE(hicpp-noexcept-move,performance-noexcept-move-constructor)
965
966 ~basic_socket() = default;
967};
968
969// 18.7 [socket.dgram]
970template <typename Protocol>
971class basic_datagram_socket : public basic_socket<Protocol> {
973
974 public:
977 using endpoint_type = typename protocol_type::endpoint;
978 using error_type = std::error_code;
979
980 explicit basic_datagram_socket(io_context &ctx) : __base(ctx) {}
982 : __base(ctx, proto) {}
983
986
987 // NOLINTNEXTLINE(hicpp-noexcept-move,performance-noexcept-move-constructor)
989 // NOLINTNEXTLINE(hicpp-noexcept-move,performance-noexcept-move-constructor)
991
993
994 //
997 : __base(ctx, protocol, native_handle) {}
998
999 template <class MutableBufferSequence>
1001 const MutableBufferSequence &buffers, socket_base::message_flags flags) {
1002 socket_base::msg_hdr msg(buffers);
1003
1004 return this->get_executor().context().socket_service()->recvmsg(
1006 }
1007
1008 template <class MutableBufferSequence>
1010 const MutableBufferSequence &buffers) {
1011 return receive(buffers, 0);
1012 }
1013
1014 template <class MutableBufferSequence>
1016 const MutableBufferSequence &buffers, endpoint_type &sender,
1018 socket_base::msg_hdr msg(buffers);
1019 msg.set_sender(sender);
1020
1021 auto res = this->get_executor().context().socket_service()->recvmsg(
1023
1024 if (res) {
1025 // resize the endpoint
1026 msg.resize_sender(sender);
1027 }
1028
1029 return res;
1030 }
1031
1032 template <class MutableBufferSequence>
1034 const MutableBufferSequence &buffers, endpoint_type &sender) {
1035 return receive_from(buffers, sender, 0);
1036 }
1037
1038 template <class MutableBufferSequence>
1040 const MutableBufferSequence &buffers) {
1041 return receive(buffers);
1042 }
1043
1044 template <class ConstBufferSequence>
1046 const ConstBufferSequence &buffers, socket_base::message_flags flags) {
1048 "");
1049 socket_base::msg_hdr msg(buffers);
1050
1051 return this->get_executor().context().socket_service()->sendmsg(
1053 }
1054
1055 template <class ConstBufferSequence>
1057 const ConstBufferSequence &buffers) {
1059 "");
1060 return send(buffers, 0);
1061 }
1062
1063 template <class ConstBufferSequence>
1065 const ConstBufferSequence &buffers, const endpoint_type &recipient,
1068 "");
1069 socket_base::msg_hdr msg(buffers);
1070 msg.set_recipient(recipient);
1071
1072 return this->get_executor().context().socket_service()->sendmsg(
1074 }
1075
1076 template <class ConstBufferSequence>
1078 const ConstBufferSequence &buffers, const endpoint_type &recipient) {
1080 "");
1081 return send_to(buffers, recipient, 0);
1082 }
1083
1084 template <class ConstBufferSequence>
1086 const ConstBufferSequence &buffers) {
1088 "");
1089 return send(buffers);
1090 }
1091
1093 socket_base::shutdown_type st) const {
1094 return __base::shutdown(st);
1095 }
1096
1097 template <class MutableBufferSequence, class CompletionToken>
1098 auto async_receive(const MutableBufferSequence &buffers,
1100 CompletionToken &&token) {
1101 async_completion<CompletionToken, void(std::error_code, size_t)> init{
1102 token};
1103
1104 if ((flags & socket_base::message_peek).any()) {
1105 // required by std::
1106 init.completion_handler(make_error_code(std::errc::invalid_argument), 0);
1107
1108 return init.result.get();
1109 }
1110
1111 this->get_executor().context().async_wait(
1112 this->native_handle(), socket_base::wait_read,
1113 [this, __compl_handler = std::move(init.completion_handler), &buffers,
1114 __fd = this->native_handle(),
1115 __flags = flags](std::error_code ec) mutable {
1116 if (ec) {
1117 __compl_handler(ec, 0);
1118 return;
1119 }
1120
1121 socket_base::msg_hdr msgs(buffers);
1122
1123 auto res = this->get_executor().context().socket_service()->recvmsg(
1124 __fd, msgs, __flags);
1125 if (!res) {
1126 __compl_handler(res.error(), 0);
1127 } else {
1128 __compl_handler({}, res.value());
1129 }
1130 });
1131
1132 return init.result.get();
1133 }
1134
1135 template <class MutableBufferSequence, class CompletionToken>
1136 auto async_receive(const MutableBufferSequence &buffers,
1137 CompletionToken &&token) {
1138 return async_receive(buffers, 0, std::forward<CompletionToken>(token));
1139 }
1140};
1141
1142// 18.8 [socket.stream]
1143template <typename Protocol>
1144class basic_stream_socket : public basic_socket<Protocol> {
1146
1147 public:
1150 using endpoint_type = typename protocol_type::endpoint;
1151 using error_type = std::error_code;
1152
1153 explicit basic_stream_socket(io_context &ctx) : __base(ctx) {}
1155 : __base(ctx, proto) {}
1156
1159 // NOLINTNEXTLINE(hicpp-noexcept-move,performance-noexcept-move-constructor)
1161 // NOLINTNEXTLINE(hicpp-noexcept-move,performance-noexcept-move-constructor)
1163
1165 //
1168 : __base(ctx, protocol, native_handle) {}
1169
1170 template <class MutableBufferSequence>
1172 const MutableBufferSequence &buffers, socket_base::message_flags flags) {
1173 if (buffer_size(buffers) == 0) return 0;
1174
1175 socket_base::msg_hdr msg(buffers);
1176
1177 auto res = this->get_executor().context().socket_service()->recvmsg(
1179
1180 if (res && res.value() == 0) {
1181 // remote did a orderly shutdown
1183 }
1184
1185 return res;
1186 }
1187
1188 template <class MutableBufferSequence>
1190 const MutableBufferSequence &buffers) {
1191 return receive(buffers, 0);
1192 }
1193
1194 template <class MutableBufferSequence>
1196 const MutableBufferSequence &buffers) {
1197 return receive(buffers);
1198 }
1199
1200 template <class ConstBufferSequence>
1202 const ConstBufferSequence &buffers, socket_base::message_flags flags) {
1204 "");
1205 if (buffer_size(buffers) == 0) return 0;
1206
1207 socket_base::msg_hdr msg(buffers);
1208
1209 auto res = this->get_executor().context().socket_service()->sendmsg(
1211
1212 if (res && res.value() == 0) {
1213 // remote did a orderly shutdown
1215 }
1216
1217 return res;
1218 }
1219
1220 template <class ConstBufferSequence>
1222 const ConstBufferSequence &buffers) {
1224 "");
1225 return send(buffers, 0);
1226 }
1227
1228 template <class ConstBufferSequence>
1230 const ConstBufferSequence &buffers) {
1232 "");
1233 return send(buffers);
1234 }
1235
1237 socket_base::shutdown_type st) const {
1238 return __base::shutdown(st);
1239 }
1240
1241 template <class MutableBufferSequence, class CompletionToken>
1242 auto async_receive(const MutableBufferSequence &buffers,
1244 CompletionToken &&token) {
1245 async_completion<CompletionToken, void(std::error_code, size_t)> init{
1246 token};
1247 if ((flags & socket_base::message_peek).any()) {
1248 // required by std::
1249 init.completion_handler(make_error_code(std::errc::invalid_argument), 0);
1250
1251 return init.result.get();
1252 }
1253
1254 if (buffer_size(buffers) == 0) {
1255 init.completion_handler({}, 0);
1256
1257 return init.result.get();
1258 }
1259
1260 /*
1261 * as we use C++14, we could use a lambda here which supports movable
1262 * arguments, but sun-cc 15.6 generates the wrong constructor:
1263 *
1264 * "...::{lambda at socket.h,1203:9}::<constructor>(
1265 * net::basic_stream_socket<net::ip::tcp>*,
1266 * const server_mock::MySQLServerMockSessionClassic::StateMachine&,
1267 * const std::list<net::const_buffer>&, int, std::bitset<31>&)"
1268 *
1269 * The "const StateMachine &" should have been "StateMachine &&".
1270 */
1271
1272 using compl_handler_type = typename decltype(init)::completion_handler_type;
1273
1274 class Completor {
1275 public:
1276 Completor(net::impl::socket::SocketServiceBase *socket_service,
1277 compl_handler_type &&compl_handler,
1278 const MutableBufferSequence &buffers,
1281 : socket_service_{socket_service},
1282 compl_handler_(std::move(compl_handler)),
1283 buffers_{buffers},
1284 native_handle_{native_handle},
1285 flags_{flags} {}
1286
1287 Completor(const Completor &) = delete;
1288 Completor(Completor &&) = default;
1289
1290 void operator()(std::error_code ec) {
1291 if (ec) {
1292 compl_handler_(ec, 0);
1293 return;
1294 }
1295
1296 socket_base::msg_hdr msgs(buffers_);
1297
1298 const auto res = socket_service_->recvmsg(native_handle_, msgs, flags_);
1299 if (!res) {
1300 compl_handler_(res.error(), 0);
1301 } else if (res.value() == 0) {
1302 // remote did a orderly shutdown
1303 compl_handler_(make_error_code(stream_errc::eof), 0);
1304 } else {
1305 compl_handler_({}, res.value());
1306 }
1307
1308 return;
1309 }
1310
1311 private:
1312 net::impl::socket::SocketServiceBase *socket_service_;
1313 compl_handler_type compl_handler_;
1314 const MutableBufferSequence &buffers_;
1315 impl::socket::native_handle_type native_handle_;
1317 };
1318
1319 this->get_executor().context().async_wait(
1320 this->native_handle(), socket_base::wait_read,
1321 Completor(this->get_executor().context().socket_service(),
1322 std::move(init.completion_handler), buffers,
1323 this->native_handle(), flags));
1324
1325 return init.result.get();
1326 }
1327
1328 template <class MutableBufferSequence, class CompletionToken>
1329 auto async_receive(const MutableBufferSequence &buffers,
1330 CompletionToken &&token) {
1331 return async_receive(buffers, 0, std::forward<CompletionToken>(token));
1332 }
1333
1334 template <class ConstBufferSequence, class CompletionToken>
1335 auto async_send(const ConstBufferSequence &buffers,
1336 socket_base::message_flags flags, CompletionToken &&token) {
1338 "");
1339 async_completion<CompletionToken, void(std::error_code, size_t)> init{
1340 token};
1341 if (buffer_size(buffers) == 0) {
1342 init.completion_handler({}, 0);
1343
1344 return init.result.get();
1345 }
1346
1347 // see async_receive() for why this isn't a lambda.
1348 using compl_handler_type = typename decltype(init)::completion_handler_type;
1349
1350 class Completor {
1351 public:
1352 Completor(net::impl::socket::SocketServiceBase *socket_service,
1353 compl_handler_type &&compl_handler,
1354 const ConstBufferSequence &buffers,
1357 : socket_service_{socket_service},
1358 compl_handler_(std::move(compl_handler)),
1359 buffers_{buffers},
1360 native_handle_{native_handle},
1361 flags_{flags} {}
1362
1363 Completor(const Completor &) = delete;
1364 Completor(Completor &&) = default;
1365
1366 void operator()(std::error_code ec) {
1367 if (ec) {
1368 compl_handler_(ec, 0);
1369 return;
1370 }
1371
1372 socket_base::msg_hdr msgs(buffers_);
1373
1374 const auto res = socket_service_->sendmsg(native_handle_, msgs, flags_);
1375 if (!res) {
1376 compl_handler_(res.error(), 0);
1377 } else {
1378 compl_handler_({}, res.value());
1379 }
1380
1381 return;
1382 }
1383
1384 net::impl::socket::SocketServiceBase *socket_service_;
1385 compl_handler_type compl_handler_;
1386 const ConstBufferSequence &buffers_;
1387 impl::socket::native_handle_type native_handle_;
1389 };
1390
1391 // do something
1392 this->get_executor().context().async_wait(
1393 this->native_handle(), socket_base::wait_write,
1394 Completor(this->get_executor().context().socket_service(),
1395 std::move(init.completion_handler), buffers,
1396 this->native_handle(), flags));
1397
1398 return init.result.get();
1399 }
1400
1401 template <class ConstBufferSequence, class CompletionToken>
1402 auto async_send(const ConstBufferSequence &buffers, CompletionToken &&token) {
1404 "");
1405 return async_send(buffers, 0, std::forward<CompletionToken>(token));
1406 }
1407};
1408
1409// 18.9 [socket.acceptor]
1410template <typename AcceptableProtocol>
1412 private basic_socket_impl<AcceptableProtocol> {
1414
1415 public:
1418 using protocol_type = AcceptableProtocol;
1420 using endpoint_type = typename protocol_type::endpoint;
1421 using error_type = std::error_code;
1422
1424 : __base(ctx), protocol_{endpoint_type().protocol()} {}
1425
1426 executor_type get_executor() noexcept { return __base::get_executor(); }
1427
1429 const protocol_type &protocol = protocol_type(), int flags = 0) {
1430 return __base::open(protocol, flags);
1431 }
1432
1434 const protocol_type &protocol,
1435 const native_handle_type &native_acceptor) {
1436 return __base::assign(protocol, native_acceptor);
1437 }
1438
1440 return __base::release();
1441 }
1442
1444
1445 constexpr bool is_open() const { return __base::is_open(); }
1446
1448
1449 stdx::expected<void, error_type> cancel() { return __base::cancel(); }
1450
1451 template <typename SettableSocketOption>
1453 const SettableSocketOption &option) {
1454 return __base::set_option(option);
1455 }
1456
1457 template <typename GettableSocketOption>
1459 GettableSocketOption &option) const {
1460 return __base::get_option(option);
1461 }
1462
1463 bool non_blocking() const { return __base::non_blocking(); }
1464
1466 return __base::non_blocking(mode);
1467 }
1468
1470
1473 }
1474
1476 return __base::bind(endpoint);
1477 }
1478
1480 return __base::listen(backlog);
1481 }
1482
1484 return __base::local_endpoint();
1485 }
1486
1487 // enable_connection_aborted(bool) - not implemented
1488
1489 bool enable_connection_aborted() const { return enable_connection_aborted_; }
1490
1492 return accept(get_executor().context(), flags);
1493 }
1494
1496 int flags = 0) {
1497 // in case of ECONNABORTED, retry if not explicitly enabled
1498 while (true) {
1499 auto accept_res = __base::accept(io_ctx, flags);
1500
1501 if (accept_res || enable_connection_aborted() ||
1502 accept_res.error() !=
1503 make_error_condition(std::errc::connection_aborted)) {
1504 return accept_res;
1505 }
1506 }
1507 }
1508
1510 int flags = 0) {
1511 return accept(get_executor().context(), endpoint, flags);
1512 }
1513
1515 endpoint_type &endpoint,
1516 int flags = 0) {
1517 // in case of ECONNABORTED, retry if not explicitly enabled
1518 while (true) {
1519 auto accept_res = __base::accept(io_ctx, endpoint, flags);
1520
1521 if (accept_res || enable_connection_aborted() ||
1522 accept_res.error() !=
1523 make_error_condition(std::errc::connection_aborted)) {
1524 return accept_res;
1525 }
1526 }
1527 }
1528
1529 template <class CompletionToken>
1530 auto async_accept(io_context &io_ctx, CompletionToken &&token) {
1531 async_completion<CompletionToken, void(std::error_code, socket_type)> init{
1532 token};
1533
1534 // do something
1535 io_ctx.get_executor().context().async_wait(
1536 native_handle(), socket_base::wait_read,
1537 [this, __compl_handler = std::move(init.completion_handler),
1538 __protocol = protocol_, __fd = native_handle(),
1539 &io_ctx](std::error_code ec) mutable {
1540 if (ec) {
1541 __compl_handler(ec, socket_type(io_ctx));
1542 return;
1543 }
1544
1545 while (true) {
1546 auto res = this->get_executor().context().socket_service()->accept(
1547 __fd, nullptr, nullptr);
1548
1549 if (!res && !enable_connection_aborted() &&
1550 res.error() ==
1551 make_error_condition(std::errc::connection_aborted)) {
1552 continue;
1553 }
1554
1555 if (!res) {
1556 __compl_handler(res.error(), socket_type(io_ctx));
1557 } else {
1558 __compl_handler({}, socket_type{io_ctx, __protocol, res.value()});
1559 }
1560 return;
1561 }
1562 });
1563
1564 return init.result.get();
1565 }
1566
1567 template <class CompletionToken>
1568 auto async_accept(endpoint_type &endpoint, CompletionToken &&token) {
1569 return async_accept(get_executor().context(), endpoint,
1570 std::forward<CompletionToken>(token));
1571 }
1572
1573 /**
1574 * accept a connection with endpoint async'.
1575 *
1576 * - returns immediately
1577 * - calls completiontoken when finished
1578 *
1579 * @param [in,out] io_ctx io-context to execute the waiting/execution in
1580 * @param [out] endpoint remote endpoint of the accepted connection
1581 * @param [in] token completion token of type 'void(std::error_code,
1582 * socket_type)'
1583 */
1584 template <class CompletionToken>
1585 auto async_accept(io_context &io_ctx, endpoint_type &endpoint,
1586 CompletionToken &&token) {
1587 async_completion<CompletionToken, void(std::error_code, socket_type)> init{
1588 token};
1589
1590 // - wait for acceptor to become readable
1591 // - accept() it.
1592 // - call completion with socket
1593 io_ctx.get_executor().context().async_wait(
1594 native_handle(), socket_base::wait_read,
1595 [this, __compl_handler = std::move(init.completion_handler),
1596 __protocol = protocol_, __fd = native_handle(), &__ep = endpoint,
1597 &io_ctx](std::error_code ec) mutable {
1598 if (ec) {
1599 __compl_handler(ec, socket_type(io_ctx));
1600 return;
1601 }
1602
1603 while (true) {
1604 socklen_t endpoint_len = __ep.capacity();
1605
1606 auto res = this->get_executor().context().socket_service()->accept(
1607 __fd, static_cast<sockaddr *>(__ep.data()), &endpoint_len);
1608
1609 if (!res && !enable_connection_aborted() &&
1610 res.error() ==
1611 make_error_condition(std::errc::connection_aborted)) {
1612 continue;
1613 }
1614
1615 if (!res) {
1616 __compl_handler(res.error(), socket_type(io_ctx));
1617 } else {
1618 __ep.resize(endpoint_len);
1619
1620 __compl_handler({}, socket_type{io_ctx, __protocol, res.value()});
1621 }
1622 return;
1623 }
1624 });
1625
1626 return init.result.get();
1627 }
1628
1629 template <class CompletionToken>
1630 auto async_accept(CompletionToken &&token) {
1631 return async_accept(get_executor().context(),
1632 std::forward<CompletionToken>(token));
1633 }
1634
1636 return __base::wait(wt);
1637 }
1638
1639#if defined(ALL_COMPILERS_FULLY_SUPPORT_CPP14)
1640 // the define ALL_COMPILERS_FULLY_SUPPORT_CPP14 is a placeholder.
1641 //
1642 // The code below assumes the compiler supports generalized lambda
1643 // capture from C++14, allowing use move the ownership into the lambda.
1644 //
1645 // The code works with:
1646 //
1647 // - gcc 5.x and later
1648 // - clang 4 and later
1649 // - MSVC ...
1650 //
1651 // but it fails for move-only completion handlers with:
1652 //
1653 // - sun pro 15.6
1654 //
1655 // As soon as sun pro is fixed or supported for it is dropped,
1656 // C++11 implementation below and this comment can be removed.
1657 template <typename CompletionToken>
1658 auto async_wait(wait_type w, CompletionToken &&token) {
1659 async_completion<CompletionToken, void(std::error_code)> init{token};
1660
1661 get_executor().context().async_wait(
1662 native_handle(), w,
1663 [__compl_handler = std::move(init.completion_handler)](
1664 std::error_code ec) mutable { __compl_handler(ec); });
1665
1666 return init.result.get();
1667 }
1668#else
1669 // C++11 compatible implementation of async_wait() which allows move-only
1670 // completion handlers
1671 //
1672 // to be removed, once all supported compilers fully support C++14 generalized
1673 // lambda capture
1674
1675 template <typename CompletionToken>
1676 typename async_result<std::decay_t<CompletionToken>,
1677 void(std::error_code)>::return_type
1678 async_wait(wait_type w, CompletionToken &&token) {
1679 async_completion<CompletionToken, void(std::error_code)> init{token};
1680
1681 using async_completion_handler_type =
1682 typename decltype(init)::completion_handler_type;
1683
1684 // capture the completion handler
1685 class ClosureType {
1686 public:
1687 explicit ClosureType(async_completion_handler_type &&compl_handler)
1688 : compl_handler_{
1689 std::forward<decltype(compl_handler)>(compl_handler)} {}
1690
1691 void operator()(std::error_code ec) { compl_handler_(ec); }
1692
1693 private:
1694 async_completion_handler_type compl_handler_;
1695 };
1696
1697 // get native-handle before std::move()ing the completion handler into the
1698 // async_wait(). Otherwise the native_handle() may refer to the moved-from
1699 // object
1700 const auto handle = native_handle();
1701
1702 get_executor().context().async_wait(
1703 handle, w,
1704 ClosureType(std::forward<async_completion_handler_type>(
1705 init.completion_handler)));
1706
1707 return init.result.get();
1708 }
1709#endif
1710
1711 private:
1713 bool enable_connection_aborted_{false};
1714};
1715
1716// 20.1 [socket.algo.connect]
1717
1718/**
1719 * connect to the first endpoint that is connectable from a sequence of
1720 * endpoints.
1721 *
1722 * @param s socket that should be connected to an endpoint
1723 * @param endpoints a sequence of endpoints
1724 * @param c ConnectionCondition that must return true if the provided endpoint
1725 * should be attempted to be connected to
1726 *
1727 * @returns endpoint the connect succeeded for on success, last error-code
1728 * otherwise
1729 */
1730template <class Protocol, class EndpointSequence, class ConnectCondition>
1732 basic_socket<Protocol> &s, const EndpointSequence &endpoints,
1733 ConnectCondition c) {
1734 return connect(s, std::begin(endpoints), std::end(endpoints), c);
1735}
1736
1737/**
1738 * connect to the first endpoint that is connectable.
1739 *
1740 * @param s socket that should be connected to an endpoint
1741 * @param endpoints a sequence of endpoints
1742 *
1743 * @returns endpoint the connect succeeded for on success, last error-code
1744 * otherwise
1745 */
1746template <class Protocol, class EndpointSequence>
1748 basic_socket<Protocol> &s, const EndpointSequence &endpoints) {
1749 return connect(s, endpoints, [](auto, auto) { return true; });
1750}
1751
1752/**
1753 * connect to the first endpoint that is connectable from a range [first, last).
1754 *
1755 * @param s socket that should be connected to an endpoint
1756 * @param first iterator to the first endpoint
1757 * @param last iterator after to the last endpoint
1758 * @param c ConnectionCondition that must return true if the provided endpoint
1759 * should be attempted to be connected to
1760 *
1761 * @returns endpoint the connect succeeded for on success, last error-code
1762 * otherwise
1763 */
1764template <class Protocol, class InputIterator, class ConnectCondition>
1766 basic_socket<Protocol> &s, InputIterator first, InputIterator last,
1767 ConnectCondition c) {
1768 // capture that last error-code for the connect-condition
1769 std::error_code ec;
1770
1771 for (InputIterator cur = first; cur != last; ++cur) {
1772 // check if the endpoint should be connected to
1773 if (!c(ec, *cur)) continue;
1774
1775 auto res = s.close();
1776 if (!res) {
1777 ec = res.error();
1778 continue;
1779 }
1780
1781 res = s.open(typename Protocol::endpoint(*cur).protocol());
1782 if (!res) {
1783 ec = res.error();
1784 continue;
1785 }
1786
1787 res = s.connect(*cur);
1788 if (!res) {
1789 ec = res.error();
1790 } else {
1791 return cur;
1792 }
1793 }
1794
1795 return stdx::make_unexpected(make_error_code(socket_errc::not_found));
1796}
1797
1798template <class Protocol, class InputIterator, class ConnectCondition>
1800 basic_socket<Protocol> &s, InputIterator first, InputIterator last) {
1801 return connect(s, first, last, [](auto, auto) { return true; });
1802}
1803
1804} // namespace net
1805
1806#if defined(MYSQL_HARNESS_HEADER_ONLY)
1808#endif
1809
1810#endif
Definition: protocol.h:33
Definition: executor.h:72
Definition: socket.h:971
stdx::expected< size_t, std::error_code > send_to(const ConstBufferSequence &buffers, const endpoint_type &recipient)
Definition: socket.h:1077
stdx::expected< size_t, std::error_code > receive_from(const MutableBufferSequence &buffers, endpoint_type &sender)
Definition: socket.h:1033
stdx::expected< bool, error_type > shutdown(socket_base::shutdown_type st) const
Definition: socket.h:1092
basic_datagram_socket & operator=(const basic_datagram_socket &)=delete
basic_datagram_socket(const basic_datagram_socket &)=delete
basic_datagram_socket(io_context &ctx, const protocol_type &proto)
Definition: socket.h:981
stdx::expected< size_t, std::error_code > receive(const MutableBufferSequence &buffers, socket_base::message_flags flags)
Definition: socket.h:1000
basic_datagram_socket(io_context &ctx, const protocol_type &protocol, const native_handle_type &native_handle)
Definition: socket.h:995
stdx::expected< size_t, std::error_code > receive_from(const MutableBufferSequence &buffers, endpoint_type &sender, socket_base::message_flags flags)
Definition: socket.h:1015
basic_datagram_socket(basic_datagram_socket &&other)=default
stdx::expected< size_t, std::error_code > receive(const MutableBufferSequence &buffers)
Definition: socket.h:1009
stdx::expected< size_t, std::error_code > send(const ConstBufferSequence &buffers, socket_base::message_flags flags)
Definition: socket.h:1045
auto async_receive(const MutableBufferSequence &buffers, socket_base::message_flags flags, CompletionToken &&token)
Definition: socket.h:1098
basic_datagram_socket & operator=(basic_datagram_socket &&)=default
stdx::expected< size_t, std::error_code > read_some(const MutableBufferSequence &buffers)
Definition: socket.h:1039
stdx::expected< size_t, std::error_code > send(const ConstBufferSequence &buffers)
Definition: socket.h:1056
basic_datagram_socket(io_context &ctx)
Definition: socket.h:980
stdx::expected< size_t, std::error_code > send_to(const ConstBufferSequence &buffers, const endpoint_type &recipient, socket_base::message_flags flags)
Definition: socket.h:1064
stdx::expected< size_t, std::error_code > write_some(const ConstBufferSequence &buffers)
Definition: socket.h:1085
auto async_receive(const MutableBufferSequence &buffers, CompletionToken &&token)
Definition: socket.h:1136
Definition: socket.h:1412
basic_socket_acceptor(io_context &ctx)
Definition: socket.h:1423
typename protocol_type::endpoint endpoint_type
Definition: socket.h:1420
auto async_accept(io_context &io_ctx, endpoint_type &endpoint, CompletionToken &&token)
accept a connection with endpoint async'.
Definition: socket.h:1585
std::error_code error_type
Definition: socket.h:1421
stdx::expected< endpoint_type, error_type > local_endpoint() const
Definition: socket.h:1483
bool native_non_blocking() const
Definition: socket.h:1469
bool non_blocking() const
Definition: socket.h:1463
stdx::expected< void, error_type > assign(const protocol_type &protocol, const native_handle_type &native_acceptor)
Definition: socket.h:1433
stdx::expected< native_handle_type, error_type > release()
Definition: socket.h:1439
async_result< std::decay_t< CompletionToken >, void(std::error_code)>::return_type async_wait(wait_type w, CompletionToken &&token)
Definition: socket.h:1678
stdx::expected< socket_type, error_type > accept(int flags=0)
Definition: socket.h:1491
native_handle_type native_handle() const
Definition: socket.h:1443
stdx::expected< void, error_type > listen(int backlog)
Definition: socket.h:1479
stdx::expected< void, error_type > open(const protocol_type &protocol=protocol_type(), int flags=0)
Definition: socket.h:1428
AcceptableProtocol protocol_type
Definition: socket.h:1418
stdx::expected< socket_type, error_type > accept(endpoint_type &endpoint, int flags=0)
Definition: socket.h:1509
typename protocol_type::socket socket_type
Definition: socket.h:1419
stdx::expected< void, error_type > bind(const endpoint_type &endpoint)
Definition: socket.h:1475
stdx::expected< socket_type, error_type > accept(io_context &io_ctx, endpoint_type &endpoint, int flags=0)
Definition: socket.h:1514
stdx::expected< void, error_type > close()
Definition: socket.h:1447
auto async_accept(endpoint_type &endpoint, CompletionToken &&token)
Definition: socket.h:1568
executor_type get_executor() noexcept
Definition: socket.h:1426
protocol_type protocol_
Definition: socket.h:1712
stdx::expected< void, std::error_code > wait(socket_base::wait_type wt)
Definition: socket.h:1635
auto async_accept(CompletionToken &&token)
Definition: socket.h:1630
stdx::expected< void, error_type > cancel()
Definition: socket.h:1449
bool enable_connection_aborted() const
Definition: socket.h:1489
stdx::expected< void, std::error_code > native_non_blocking(bool mode)
Definition: socket.h:1471
auto async_accept(io_context &io_ctx, CompletionToken &&token)
Definition: socket.h:1530
stdx::expected< void, error_type > get_option(GettableSocketOption &option) const
Definition: socket.h:1458
stdx::expected< void, std::error_code > non_blocking(bool mode)
Definition: socket.h:1465
constexpr bool is_open() const
Definition: socket.h:1445
stdx::expected< socket_type, error_type > accept(io_context &io_ctx, int flags=0)
Definition: socket.h:1495
stdx::expected< void, error_type > set_option(const SettableSocketOption &option)
Definition: socket.h:1452
Definition: socket.h:637
constexpr IoControl(value_type v)
Definition: socket.h:643
constexpr value_type value() const
Definition: socket.h:650
constexpr IoControl()
Definition: socket.h:641
T value_type
Definition: socket.h:639
constexpr void * data()
Definition: socket.h:648
constexpr unsigned long name() const
Definition: socket.h:646
value_type val_
Definition: socket.h:653
template-less base-class of basic_socket_impl.
Definition: socket.h:335
stdx::expected< void, std::error_code > native_non_blocking(bool mode)
Definition: socket.h:394
io_context * io_ctx_
Definition: socket.h:466
basic_socket_impl_base & operator=(const basic_socket_impl_base &rhs)=delete
bool non_blocking_
Definition: socket.h:452
stdx::expected< void, std::error_code > non_blocking(bool mode)
Definition: socket.h:374
constexpr bool non_blocking() const
Definition: socket.h:372
constexpr native_handle_type native_handle() const noexcept
Definition: socket.h:364
constexpr basic_socket_impl_base(io_context &ctx)
Definition: socket.h:340
stdx::expected< native_handle_type, std::error_code > release()
Definition: socket.h:442
stdx::expected< void, std::error_code > cancel()
Definition: socket.h:432
native_handle_type native_handle_
Definition: socket.h:450
stdx::expected< void, std::error_code > close()
Definition: socket.h:416
char native_non_blocking_
Definition: socket.h:453
executor_type get_executor() noexcept
Definition: socket.h:414
impl::socket::native_handle_type native_handle_type
Definition: socket.h:337
basic_socket_impl_base(const basic_socket_impl_base &rhs)=delete
basic_socket_impl_base & operator=(basic_socket_impl_base &&rhs) noexcept
Definition: socket.h:352
bool native_non_blocking() const
Definition: socket.h:384
basic_socket_impl_base(basic_socket_impl_base &&rhs) noexcept
Definition: socket.h:345
constexpr bool is_open() const noexcept
Definition: socket.h:368
Definition: socket.h:471
typename protocol_type::socket socket_type
Definition: socket.h:479
basic_socket_impl(basic_socket_impl &&rhs)=default
Protocol protocol_type
Definition: socket.h:476
stdx::expected< endpoint_type, error_type > local_endpoint() const
Definition: socket.h:607
stdx::expected< void, error_type > bind(const endpoint_type &endpoint)
Definition: socket.h:531
stdx::expected< socket_type, error_type > accept(io_context &io_ctx, int flags=0)
Definition: socket.h:560
~basic_socket_impl()
Definition: socket.h:499
stdx::expected< endpoint_type, error_type > remote_endpoint() const
Definition: socket.h:621
stdx::expected< void, error_type > open(const protocol_type &protocol=protocol_type(), int flags=0)
Definition: socket.h:503
stdx::expected< void, std::error_code > wait(socket_base::wait_type wt)
Definition: socket.h:702
stdx::expected< bool, error_type > at_mark() const
Definition: socket.h:687
typename protocol_type::endpoint endpoint_type
Definition: socket.h:477
stdx::expected< void, error_type > listen(int backlog=socket_base::max_listen_connections)
Definition: socket.h:579
basic_socket_impl(const basic_socket_impl &)=delete
stdx::expected< void, error_type > assign(const protocol_type &protocol, const native_handle_type &native_handle)
Definition: socket.h:520
stdx::expected< void, error_type > get_option(GettableSocketOption &option) const
Definition: socket.h:593
stdx::expected< void, error_type > set_option(const SettableSocketOption &option)
Definition: socket.h:585
constexpr basic_socket_impl(io_context &ctx) noexcept
Definition: socket.h:481
protocol_type protocol_
Definition: socket.h:707
std::error_code error_type
Definition: socket.h:478
stdx::expected< void, error_type > io_control(IoControlCommand &cmd) const
Definition: socket.h:668
stdx::expected< void, error_type > shutdown(socket_base::shutdown_type st) const
Definition: socket.h:696
basic_socket_impl & operator=(basic_socket_impl &&rhs) noexcept
Definition: socket.h:488
stdx::expected< socket_type, error_type > accept(io_context &io_ctx, endpoint_type &endpoint, int flags=0)
Definition: socket.h:566
stdx::expected< socket_type, error_type > accept(io_context &io_ctx, struct sockaddr *endpoint_data, socklen_t *endpoint_size, int flags=0)
Definition: socket.h:538
stdx::expected< size_t, error_type > available() const
Definition: socket.h:673
basic_socket_impl & operator=(const basic_socket_impl &)=delete
Definition: socket.h:711
stdx::expected< void, error_type > cancel()
Definition: socket.h:831
stdx::expected< size_t, error_type > available() const
Definition: socket.h:847
stdx::expected< void, std::error_code > native_non_blocking(bool mode)
Definition: socket.h:859
stdx::expected< void, error_type > set_option(const SettableSocketOption &option)
Definition: socket.h:818
bool non_blocking() const
Definition: socket.h:851
Protocol protocol_type
Definition: socket.h:716
stdx::expected< native_handle_type, error_type > release()
Definition: socket.h:833
stdx::expected< void, error_type > close()
Definition: socket.h:829
~basic_socket()=default
async_result< std::decay_t< CompletionToken >, void(std::error_code)>::return_type async_wait(wait_type w, CompletionToken &&token)
Definition: socket.h:911
executor_type get_executor() noexcept
Definition: socket.h:721
stdx::expected< void, error_type > connect(const endpoint_type &endpoint)
Definition: socket.h:733
basic_socket(basic_socket &&other)=default
constexpr bool is_open() const
Definition: socket.h:837
native_handle_type native_handle() const noexcept
Definition: socket.h:813
stdx::expected< void, error_type > shutdown(socket_base::shutdown_type st) const
Definition: socket.h:867
auto async_connect(const endpoint_type &endpoint, CompletionToken &&token)
Definition: socket.h:745
bool native_non_blocking() const
Definition: socket.h:857
stdx::expected< void, error_type > bind(const endpoint_type &endpoint)
Definition: socket.h:809
basic_socket & operator=(basic_socket &&)=default
basic_socket(const basic_socket &)=delete
stdx::expected< void, error_type > assign(const protocol_type &protocol, const native_handle_type &native_handle)
Definition: socket.h:723
basic_socket & operator=(const basic_socket &)=delete
basic_socket(io_context &ctx, const protocol_type &proto)
Definition: socket.h:947
basic_socket(io_context &ctx, const protocol_type &proto, const native_handle_type &native_handle)
Definition: socket.h:950
stdx::expected< void, error_type > get_option(GettableSocketOption &option) const
Definition: socket.h:824
stdx::expected< endpoint_type, error_type > remote_endpoint() const
Definition: socket.h:843
stdx::expected< void, error_type > open(const protocol_type &protocol=protocol_type(), int flags=0)
Definition: socket.h:728
basic_socket(io_context &ctx)
Definition: socket.h:945
stdx::expected< endpoint_type, error_type > local_endpoint() const
Definition: socket.h:839
stdx::expected< void, std::error_code > non_blocking(bool mode)
Definition: socket.h:853
stdx::expected< void, std::error_code > wait(socket_base::wait_type wt)
Definition: socket.h:863
Definition: socket.h:1144
stdx::expected< size_t, std::error_code > send(const ConstBufferSequence &buffers)
Definition: socket.h:1221
stdx::expected< size_t, std::error_code > read_some(const MutableBufferSequence &buffers)
Definition: socket.h:1195
stdx::expected< void, error_type > shutdown(socket_base::shutdown_type st) const
Definition: socket.h:1236
stdx::expected< size_t, std::error_code > receive(const MutableBufferSequence &buffers)
Definition: socket.h:1189
basic_stream_socket(const basic_stream_socket &)=delete
auto async_send(const ConstBufferSequence &buffers, CompletionToken &&token)
Definition: socket.h:1402
auto async_receive(const MutableBufferSequence &buffers, CompletionToken &&token)
Definition: socket.h:1329
stdx::expected< size_t, std::error_code > write_some(const ConstBufferSequence &buffers)
Definition: socket.h:1229
basic_stream_socket(io_context &ctx, const protocol_type &protocol, const native_handle_type &native_handle)
Definition: socket.h:1166
basic_stream_socket(basic_stream_socket &&other)=default
stdx::expected< size_t, std::error_code > receive(const MutableBufferSequence &buffers, socket_base::message_flags flags)
Definition: socket.h:1171
auto async_send(const ConstBufferSequence &buffers, socket_base::message_flags flags, CompletionToken &&token)
Definition: socket.h:1335
stdx::expected< size_t, std::error_code > send(const ConstBufferSequence &buffers, socket_base::message_flags flags)
Definition: socket.h:1201
basic_stream_socket(io_context &ctx)
Definition: socket.h:1153
basic_stream_socket & operator=(basic_stream_socket &&)=default
auto async_receive(const MutableBufferSequence &buffers, socket_base::message_flags flags, CompletionToken &&token)
Definition: socket.h:1242
basic_stream_socket & operator=(const basic_stream_socket &)=delete
basic_stream_socket(io_context &ctx, const protocol_type &proto)
Definition: socket.h:1154
Definition: socket_service_base.h:48
virtual stdx::expected< void, error_type > ioctl(native_handle_type native_handle, unsigned long cmd, void *data) const =0
virtual stdx::expected< void, error_type > bind(native_handle_type native_handle, const struct sockaddr *addr, size_t addr_len) const =0
virtual stdx::expected< void, error_type > getsockopt(native_handle_type native_handle, int level, int optname, void *optval, socklen_t *optlen) const =0
virtual stdx::expected< void, error_type > getsockname(native_handle_type native_handle, struct sockaddr *addr, size_t *addr_len) const =0
virtual stdx::expected< native_handle_type, error_type > socket(int family, int sock_type, int protocol) const =0
virtual stdx::expected< void, error_type > close(native_handle_type native_handle) const =0
virtual stdx::expected< void, error_type > getpeername(native_handle_type native_handle, struct sockaddr *addr, size_t *addr_len) const =0
virtual stdx::expected< native_handle_type, error_type > accept(native_handle_type native_handle, struct sockaddr *addr, socklen_t *addr_len) const =0
virtual stdx::expected< native_handle_type, error_type > accept4(native_handle_type native_handle, struct sockaddr *addr, socklen_t *addr_len, int flags=0) const =0
virtual stdx::expected< void, error_type > setsockopt(native_handle_type native_handle, int level, int optname, const void *optval, socklen_t optlen) const =0
virtual stdx::expected< bool, error_type > native_non_blocking(native_handle_type native_handle) const =0
virtual stdx::expected< void, error_type > listen(native_handle_type native_handle, int backlog) const =0
virtual stdx::expected< void, error_type > connect(native_handle_type native_handle, const struct sockaddr *addr, size_t addr_len) const =0
virtual stdx::expected< void, error_type > wait(native_handle_type fd, wait_type wt) const =0
virtual stdx::expected< void, error_type > shutdown(native_handle_type fd, int how) const =0
Definition: io_context.h:990
io_context & context() const noexcept
Definition: io_context.h:1002
Definition: io_context.h:61
impl::socket::SocketServiceBase * socket_service() const
Definition: io_context.h:135
void async_wait(native_handle_type fd, impl::socket::wait_type wt, Op &&op)
Definition: io_context.h:483
executor_type get_executor() noexcept
Definition: io_context.h:1080
stdx::expected< void, std::error_code > cancel(native_handle_type fd)
cancel all async-ops of a file-descriptor.
Definition: io_context.h:1087
socket option for SO_LINGER
Definition: socket.h:275
linger() noexcept
Definition: socket.h:277
int level(const Protocol &) const noexcept
Definition: socket.h:293
linger(bool e, std::chrono::seconds t) noexcept
Definition: socket.h:279
std::chrono::seconds timeout() const noexcept
Definition: socket.h:285
int name(const Protocol &) const noexcept
Definition: socket.h:298
::linger value_
Definition: socket.h:325
void timeout(std::chrono::seconds t) noexcept
Definition: socket.h:288
void resize(const Protocol &, size_t s)
Definition: socket.h:318
void * data(const Protocol &) noexcept
Definition: socket.h:303
size_t size(const Protocol &) const noexcept
Definition: socket.h:313
void enabled(bool e) noexcept
Definition: socket.h:283
const void * data(const Protocol &) const noexcept
Definition: socket.h:308
bool enabled() const noexcept
Definition: socket.h:282
Definition: socket.h:194
void set_recipient(const endpoint_type &ep)
set recipient of the message.
Definition: socket.h:257
void set_sender(endpoint_type &ep)
set sender of the message.
Definition: socket.h:231
void resize_sender(endpoint_type &ep)
set the size of the sender after data was received.
Definition: socket.h:245
std::array< impl::socket::iovec_base, 16 > iov_
Definition: socket.h:195
msg_hdr(const BufferSequence &buffers)
Definition: socket.h:199
Definition: socket.h:141
static constexpr wait_type wait_read
Definition: socket.h:168
static constexpr message_flags message_peek
Definition: socket.h:161
shutdown_type
Definition: socket.h:172
static constexpr shutdown_type shutdown_both
Definition: socket.h:186
static constexpr shutdown_type shutdown_receive
Definition: socket.h:183
static constexpr message_flags message_do_not_route
Definition: socket.h:164
static constexpr message_flags message_out_of_band
Definition: socket.h:162
impl::socket::message_flags message_flags
Definition: socket.h:159
static const int max_listen_connections
Definition: socket.h:188
static constexpr shutdown_type shutdown_send
Definition: socket.h:185
static constexpr wait_type wait_write
Definition: socket.h:169
static constexpr wait_type wait_error
Definition: socket.h:170
base-class of socket options.
Definition: socket.h:77
storage_type * data(const Protocol &)
Definition: socket.h:105
constexpr option_base()
Definition: socket.h:82
constexpr int name(const Protocol &) const noexcept
Definition: socket.h:95
storage_type value_
Definition: socket.h:122
constexpr int level(const Protocol &) const noexcept
Definition: socket.h:90
V storage_type
Definition: socket.h:80
T value_type
Definition: socket.h:79
constexpr size_t size(const Protocol &) const
Definition: socket.h:110
void resize(const Protocol &, size_t s)
Definition: socket.h:115
value_type value() const
Definition: socket.h:87
const storage_type * data(const Protocol &) const
Definition: socket.h:100
constexpr option_base(value_type v)
Definition: socket.h:84
Definition: expected.h:944
static int flags[50]
Definition: hp_test1.cc:40
mysql_service_status_t send(const char *tag, const unsigned char *data, const size_t data_length) noexcept
Definition: message_service.cc:32
static std::string get_option(const mysql_harness::ConfigSection *section, const std::string &key, const std::string &def_value)
Definition: metadata_cache_plugin.cc:107
Definition: authentication.cc:36
std::error_code make_error_code(DynamicLoaderErrc ec)
make error_code from a DynamicLoaderErrc.
Definition: dynamic_loader.cc:79
stdx::expected< void, error_type > listen(native_handle_type native_handle, int backlog)
Definition: socket.h:149
stdx::expected< native_handle_type, error_type > socket(int family, int sock_type, int protocol)
Definition: socket.h:63
stdx::expected< void, std::error_code > init()
Definition: socket.h:673
stdx::expected< void, error_type > bind(native_handle_type native_handle, const struct sockaddr *addr, size_t addr_len)
wrap bind() in a portable way.
Definition: socket.h:339
stdx::expected< void, error_type > native_non_blocking(native_handle_type native_handle, bool on)
Definition: socket.h:121
stdx::expected< native_handle_type, error_type > accept(native_handle_type native_handle, struct sockaddr *addr, socklen_t *addr_len)
wrap accept() in a portable way.
Definition: socket.h:367
stdx::expected< void, std::error_code > close(native_handle_type native_handle)
Definition: socket.h:75
wait_type
Definition: socket_constants.h:86
::msghdr msghdr_base
Definition: socket_constants.h:60
static constexpr message_flags message_out_of_band
Definition: socket_constants.h:67
static constexpr message_flags message_do_not_route
Definition: socket_constants.h:68
std::error_code error_type
Definition: socket_constants.h:55
std::bitset< 31 > message_flags
Definition: socket_constants.h:64
static constexpr message_flags message_peek
Definition: socket_constants.h:66
stdx::expected< void, error_type > shutdown(native_handle_type fd, int how)
Definition: socket.h:663
int native_handle_type
Definition: socket_constants.h:51
constexpr const native_handle_type kInvalidSocket
Definition: socket_constants.h:52
stdx::expected< void, error_type > wait(native_handle_type fd, wait_type wt)
Definition: socket.h:636
Definition: buffer.h:45
const const_buffer * buffer_sequence_end(const const_buffer &b) noexcept
Definition: buffer.h:185
auto defer(CompletionToken &&token)
Definition: executor.h:804
const const_buffer * buffer_sequence_begin(const const_buffer &b) noexcept
Definition: buffer.h:180
size_t buffer_size(const ConstBufferSequence &buffers) noexcept
Definition: buffer.h:315
stdx::expected< InputIterator, std::error_code > connect(basic_socket< Protocol > &s, InputIterator first, InputIterator last)
Definition: socket.h:1799
std::error_condition make_error_condition(net::stream_errc e) noexcept
Definition: buffer.h:107
std::error_code make_error_code(net::stream_errc e) noexcept
Definition: buffer.h:103
static int handle(int sql_errno, const char *sqlstate, const char *message, void *state)
Bridge function between the C++ API offered by this module and the C API of the parser service.
Definition: services.cc:64
stdx::expected< int, std::error_code > open(const char *fname, int flags, mode_t mode) noexcept
Definition: file_handle.cc:79
mode
Definition: file_handle.h:60
native_handle_type native_handle()
Definition: process.h:56
constexpr auto make_unexpected(E &&e) -> unexpected< std::decay_t< E > >
Definition: expected.h:125
struct sockaddr sockaddr
Definition: sock_probe_win32.h:63
case opt name
Definition: sslopt-case.h:33
Definition: buffer.h:261
double seconds()
Definition: task.cc:310