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[Samba.git] / lib / tevent / tevent.h
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1 /*
2 Unix SMB/CIFS implementation.
4 generalised event loop handling
6 Copyright (C) Andrew Tridgell 2005
7 Copyright (C) Stefan Metzmacher 2005-2009
8 Copyright (C) Volker Lendecke 2008
10 ** NOTE! The following LGPL license applies to the tevent
11 ** library. This does NOT imply that all of Samba is released
12 ** under the LGPL
14 This library is free software; you can redistribute it and/or
15 modify it under the terms of the GNU Lesser General Public
16 License as published by the Free Software Foundation; either
17 version 3 of the License, or (at your option) any later version.
19 This library is distributed in the hope that it will be useful,
20 but WITHOUT ANY WARRANTY; without even the implied warranty of
21 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
22 Lesser General Public License for more details.
24 You should have received a copy of the GNU Lesser General Public
25 License along with this library; if not, see <http://www.gnu.org/licenses/>.
28 #ifndef __TEVENT_H__
29 #define __TEVENT_H__
31 #include <stdint.h>
32 #include <talloc.h>
33 #include <sys/time.h>
34 #include <stdbool.h>
36 struct tevent_context;
37 struct tevent_ops;
38 struct tevent_fd;
39 struct tevent_timer;
40 struct tevent_immediate;
41 struct tevent_signal;
42 struct tevent_thread_proxy;
43 struct tevent_threaded_context;
45 /**
46 * @defgroup tevent The tevent API
48 * The tevent low-level API
50 * This API provides the public interface to manage events in the tevent
51 * mainloop. Functions are provided for managing low-level events such
52 * as timer events, fd events and signal handling.
54 * @{
57 /* event handler types */
58 /**
59 * Called when a file descriptor monitored by tevent has
60 * data to be read or written on it.
62 typedef void (*tevent_fd_handler_t)(struct tevent_context *ev,
63 struct tevent_fd *fde,
64 uint16_t flags,
65 void *private_data);
67 /**
68 * Called when tevent is ceasing the monitoring of a file descriptor.
70 typedef void (*tevent_fd_close_fn_t)(struct tevent_context *ev,
71 struct tevent_fd *fde,
72 int fd,
73 void *private_data);
75 /**
76 * Called when a tevent timer has fired.
78 typedef void (*tevent_timer_handler_t)(struct tevent_context *ev,
79 struct tevent_timer *te,
80 struct timeval current_time,
81 void *private_data);
83 /**
84 * Called when a tevent immediate event is invoked.
86 typedef void (*tevent_immediate_handler_t)(struct tevent_context *ctx,
87 struct tevent_immediate *im,
88 void *private_data);
90 /**
91 * Called after tevent detects the specified signal.
93 typedef void (*tevent_signal_handler_t)(struct tevent_context *ev,
94 struct tevent_signal *se,
95 int signum,
96 int count,
97 void *siginfo,
98 void *private_data);
101 * @brief Create a event_context structure.
103 * This must be the first events call, and all subsequent calls pass this
104 * event_context as the first element. Event handlers also receive this as
105 * their first argument.
107 * @param[in] mem_ctx The memory context to use.
109 * @return An allocated tevent context, NULL on error.
111 * @see tevent_context_init()
113 struct tevent_context *tevent_context_init(TALLOC_CTX *mem_ctx);
116 * @brief Create a event_context structure and select a specific backend.
118 * This must be the first events call, and all subsequent calls pass this
119 * event_context as the first element. Event handlers also receive this as
120 * their first argument.
122 * @param[in] mem_ctx The memory context to use.
124 * @param[in] name The name of the backend to use.
126 * @return An allocated tevent context, NULL on error.
128 struct tevent_context *tevent_context_init_byname(TALLOC_CTX *mem_ctx, const char *name);
131 * @brief Create a custom event context
133 * @param[in] mem_ctx The memory context to use.
134 * @param[in] ops The function pointer table of the backend.
135 * @param[in] additional_data The additional/private data to this instance
137 * @return An allocated tevent context, NULL on error.
140 struct tevent_context *tevent_context_init_ops(TALLOC_CTX *mem_ctx,
141 const struct tevent_ops *ops,
142 void *additional_data);
145 * @brief List available backends.
147 * @param[in] mem_ctx The memory context to use.
149 * @return A string vector with a terminating NULL element, NULL
150 * on error.
152 const char **tevent_backend_list(TALLOC_CTX *mem_ctx);
155 * @brief Set the default tevent backend.
157 * @param[in] backend The name of the backend to set.
159 void tevent_set_default_backend(const char *backend);
161 #ifdef DOXYGEN
163 * @brief Add a file descriptor based event.
165 * @param[in] ev The event context to work on.
167 * @param[in] mem_ctx The talloc memory context to use.
169 * @param[in] fd The file descriptor to base the event on.
171 * @param[in] flags #TEVENT_FD_READ or #TEVENT_FD_WRITE
173 * @param[in] handler The callback handler for the event.
175 * @param[in] private_data The private data passed to the callback handler.
177 * @return The file descriptor based event, NULL on error.
179 * @note To cancel the monitoring of a file descriptor, call talloc_free()
180 * on the object returned by this function.
182 * @note The caller should avoid closing the file descriptor before
183 * calling talloc_free()! Otherwise the behaviour is undefined which
184 * might result in crashes. See https://bugzilla.samba.org/show_bug.cgi?id=11141
185 * for an example.
187 struct tevent_fd *tevent_add_fd(struct tevent_context *ev,
188 TALLOC_CTX *mem_ctx,
189 int fd,
190 uint16_t flags,
191 tevent_fd_handler_t handler,
192 void *private_data);
193 #else
194 struct tevent_fd *_tevent_add_fd(struct tevent_context *ev,
195 TALLOC_CTX *mem_ctx,
196 int fd,
197 uint16_t flags,
198 tevent_fd_handler_t handler,
199 void *private_data,
200 const char *handler_name,
201 const char *location);
202 #define tevent_add_fd(ev, mem_ctx, fd, flags, handler, private_data) \
203 _tevent_add_fd(ev, mem_ctx, fd, flags, handler, private_data, \
204 #handler, __location__)
205 #endif
207 #ifdef DOXYGEN
209 * @brief Add a timed event
211 * @param[in] ev The event context to work on.
213 * @param[in] mem_ctx The talloc memory context to use.
215 * @param[in] next_event Timeval specifying the absolute time to fire this
216 * event. This is not an offset.
218 * @param[in] handler The callback handler for the event.
220 * @param[in] private_data The private data passed to the callback handler.
222 * @return The newly-created timer event, or NULL on error.
224 * @note To cancel a timer event before it fires, call talloc_free() on the
225 * event returned from this function. This event is automatically
226 * talloc_free()-ed after its event handler files, if it hasn't been freed yet.
228 * @note Unlike some mainloops, tevent timers are one-time events. To set up
229 * a recurring event, it is necessary to call tevent_add_timer() again during
230 * the handler processing.
232 * @note Due to the internal mainloop processing, a timer set to run
233 * immediately will do so after any other pending timers fire, but before
234 * any further file descriptor or signal handling events fire. Callers should
235 * not rely on this behavior!
237 struct tevent_timer *tevent_add_timer(struct tevent_context *ev,
238 TALLOC_CTX *mem_ctx,
239 struct timeval next_event,
240 tevent_timer_handler_t handler,
241 void *private_data);
242 #else
243 struct tevent_timer *_tevent_add_timer(struct tevent_context *ev,
244 TALLOC_CTX *mem_ctx,
245 struct timeval next_event,
246 tevent_timer_handler_t handler,
247 void *private_data,
248 const char *handler_name,
249 const char *location);
250 #define tevent_add_timer(ev, mem_ctx, next_event, handler, private_data) \
251 _tevent_add_timer(ev, mem_ctx, next_event, handler, private_data, \
252 #handler, __location__)
253 #endif
256 * @brief Set the time a tevent_timer fires
258 * @param[in] te The timer event to reset
260 * @param[in] next_event Timeval specifying the absolute time to fire this
261 * event. This is not an offset.
263 void tevent_update_timer(struct tevent_timer *te, struct timeval next_event);
265 #ifdef DOXYGEN
267 * Initialize an immediate event object
269 * This object can be used to trigger an event to occur immediately after
270 * returning from the current event (before any other event occurs)
272 * @param[in] mem_ctx The talloc memory context to use as the parent
274 * @return An empty tevent_immediate object. Use tevent_schedule_immediate
275 * to populate and use it.
277 * @note Available as of tevent 0.9.8
279 struct tevent_immediate *tevent_create_immediate(TALLOC_CTX *mem_ctx);
280 #else
281 struct tevent_immediate *_tevent_create_immediate(TALLOC_CTX *mem_ctx,
282 const char *location);
283 #define tevent_create_immediate(mem_ctx) \
284 _tevent_create_immediate(mem_ctx, __location__)
285 #endif
287 #ifdef DOXYGEN
290 * Schedule an event for immediate execution. This event will occur
291 * immediately after returning from the current event (before any other
292 * event occurs)
294 * @param[in] im The tevent_immediate object to populate and use
295 * @param[in] ctx The tevent_context to run this event
296 * @param[in] handler The event handler to run when this event fires
297 * @param[in] private_data Data to pass to the event handler
299 void tevent_schedule_immediate(struct tevent_immediate *im,
300 struct tevent_context *ctx,
301 tevent_immediate_handler_t handler,
302 void *private_data);
303 #else
304 void _tevent_schedule_immediate(struct tevent_immediate *im,
305 struct tevent_context *ctx,
306 tevent_immediate_handler_t handler,
307 void *private_data,
308 const char *handler_name,
309 const char *location);
310 #define tevent_schedule_immediate(im, ctx, handler, private_data) \
311 _tevent_schedule_immediate(im, ctx, handler, private_data, \
312 #handler, __location__);
313 #endif
315 #ifdef DOXYGEN
317 * @brief Add a tevent signal handler
319 * tevent_add_signal() creates a new event for handling a signal the next
320 * time through the mainloop. It implements a very simple traditional signal
321 * handler whose only purpose is to add the handler event into the mainloop.
323 * @param[in] ev The event context to work on.
325 * @param[in] mem_ctx The talloc memory context to use.
327 * @param[in] signum The signal to trap
329 * @param[in] handler The callback handler for the signal.
331 * @param[in] sa_flags sigaction flags for this signal handler.
333 * @param[in] private_data The private data passed to the callback handler.
335 * @return The newly-created signal handler event, or NULL on error.
337 * @note To cancel a signal handler, call talloc_free() on the event returned
338 * from this function.
340 * @see tevent_num_signals, tevent_sa_info_queue_count
342 struct tevent_signal *tevent_add_signal(struct tevent_context *ev,
343 TALLOC_CTX *mem_ctx,
344 int signum,
345 int sa_flags,
346 tevent_signal_handler_t handler,
347 void *private_data);
348 #else
349 struct tevent_signal *_tevent_add_signal(struct tevent_context *ev,
350 TALLOC_CTX *mem_ctx,
351 int signum,
352 int sa_flags,
353 tevent_signal_handler_t handler,
354 void *private_data,
355 const char *handler_name,
356 const char *location);
357 #define tevent_add_signal(ev, mem_ctx, signum, sa_flags, handler, private_data) \
358 _tevent_add_signal(ev, mem_ctx, signum, sa_flags, handler, private_data, \
359 #handler, __location__)
360 #endif
363 * @brief the number of supported signals
365 * This returns value of the configure time TEVENT_NUM_SIGNALS constant.
367 * The 'signum' argument of tevent_add_signal() must be less than
368 * TEVENT_NUM_SIGNALS.
370 * @see tevent_add_signal
372 size_t tevent_num_signals(void);
375 * @brief the number of pending realtime signals
377 * This returns value of TEVENT_SA_INFO_QUEUE_COUNT.
379 * The tevent internals remember the last TEVENT_SA_INFO_QUEUE_COUNT
380 * siginfo_t structures for SA_SIGINFO signals. If the system generates
381 * more some signals get lost.
383 * @see tevent_add_signal
385 size_t tevent_sa_info_queue_count(void);
387 #ifdef DOXYGEN
389 * @brief Pass a single time through the mainloop
391 * This will process any appropriate signal, immediate, fd and timer events
393 * @param[in] ev The event context to process
395 * @return Zero on success, nonzero if an internal error occurred
397 int tevent_loop_once(struct tevent_context *ev);
398 #else
399 int _tevent_loop_once(struct tevent_context *ev, const char *location);
400 #define tevent_loop_once(ev) \
401 _tevent_loop_once(ev, __location__)
402 #endif
404 #ifdef DOXYGEN
406 * @brief Run the mainloop
408 * The mainloop will run until there are no events remaining to be processed
410 * @param[in] ev The event context to process
412 * @return Zero if all events have been processed. Nonzero if an internal
413 * error occurred.
415 int tevent_loop_wait(struct tevent_context *ev);
416 #else
417 int _tevent_loop_wait(struct tevent_context *ev, const char *location);
418 #define tevent_loop_wait(ev) \
419 _tevent_loop_wait(ev, __location__)
420 #endif
424 * Assign a function to run when a tevent_fd is freed
426 * This function is a destructor for the tevent_fd. It does not automatically
427 * close the file descriptor. If this is the desired behavior, then it must be
428 * performed by the close_fn.
430 * @param[in] fde File descriptor event on which to set the destructor
431 * @param[in] close_fn Destructor to execute when fde is freed
433 * @note That the close_fn() on tevent_fd is *NOT* wrapped on contexts
434 * created by tevent_context_wrapper_create()!
436 * @see tevent_fd_set_close_fn
437 * @see tevent_context_wrapper_create
439 void tevent_fd_set_close_fn(struct tevent_fd *fde,
440 tevent_fd_close_fn_t close_fn);
443 * Automatically close the file descriptor when the tevent_fd is freed
445 * This function calls close(fd) internally.
447 * @param[in] fde File descriptor event to auto-close
449 * @see tevent_fd_set_close_fn
451 void tevent_fd_set_auto_close(struct tevent_fd *fde);
454 * Return the flags set on this file descriptor event
456 * @param[in] fde File descriptor event to query
458 * @return The flags set on the event. See #TEVENT_FD_READ and
459 * #TEVENT_FD_WRITE
461 uint16_t tevent_fd_get_flags(struct tevent_fd *fde);
464 * Set flags on a file descriptor event
466 * @param[in] fde File descriptor event to set
467 * @param[in] flags Flags to set on the event. See #TEVENT_FD_READ and
468 * #TEVENT_FD_WRITE
470 void tevent_fd_set_flags(struct tevent_fd *fde, uint16_t flags);
473 * Query whether tevent supports signal handling
475 * @param[in] ev An initialized tevent context
477 * @return True if this platform and tevent context support signal handling
479 bool tevent_signal_support(struct tevent_context *ev);
481 void tevent_set_abort_fn(void (*abort_fn)(const char *reason));
483 /* bits for file descriptor event flags */
486 * Monitor a file descriptor for data to be read
488 #define TEVENT_FD_READ 1
490 * Monitor a file descriptor for writeability
492 #define TEVENT_FD_WRITE 2
495 * Convenience function for declaring a tevent_fd writable
497 #define TEVENT_FD_WRITEABLE(fde) \
498 tevent_fd_set_flags(fde, tevent_fd_get_flags(fde) | TEVENT_FD_WRITE)
501 * Convenience function for declaring a tevent_fd readable
503 #define TEVENT_FD_READABLE(fde) \
504 tevent_fd_set_flags(fde, tevent_fd_get_flags(fde) | TEVENT_FD_READ)
507 * Convenience function for declaring a tevent_fd non-writable
509 #define TEVENT_FD_NOT_WRITEABLE(fde) \
510 tevent_fd_set_flags(fde, tevent_fd_get_flags(fde) & ~TEVENT_FD_WRITE)
513 * Convenience function for declaring a tevent_fd non-readable
515 #define TEVENT_FD_NOT_READABLE(fde) \
516 tevent_fd_set_flags(fde, tevent_fd_get_flags(fde) & ~TEVENT_FD_READ)
519 * Debug level of tevent
521 enum tevent_debug_level {
522 TEVENT_DEBUG_FATAL,
523 TEVENT_DEBUG_ERROR,
524 TEVENT_DEBUG_WARNING,
525 TEVENT_DEBUG_TRACE
529 * @brief The tevent debug callbac.
531 * @param[in] context The memory context to use.
533 * @param[in] level The debug level.
535 * @param[in] fmt The format string.
537 * @param[in] ap The arguments for the format string.
539 typedef void (*tevent_debug_fn)(void *context,
540 enum tevent_debug_level level,
541 const char *fmt,
542 va_list ap) PRINTF_ATTRIBUTE(3,0);
545 * Set destination for tevent debug messages
547 * @param[in] ev Event context to debug
548 * @param[in] debug Function to handle output printing
549 * @param[in] context The context to pass to the debug function.
551 * @return Always returns 0 as of version 0.9.8
553 * @note Default is to emit no debug messages
555 int tevent_set_debug(struct tevent_context *ev,
556 tevent_debug_fn debug,
557 void *context);
560 * Designate stderr for debug message output
562 * @param[in] ev Event context to debug
564 * @note This function will only output TEVENT_DEBUG_FATAL, TEVENT_DEBUG_ERROR
565 * and TEVENT_DEBUG_WARNING messages. For TEVENT_DEBUG_TRACE, please define a
566 * function for tevent_set_debug()
568 int tevent_set_debug_stderr(struct tevent_context *ev);
570 enum tevent_trace_point {
572 * Corresponds to a trace point just before waiting
574 TEVENT_TRACE_BEFORE_WAIT,
576 * Corresponds to a trace point just after waiting
578 TEVENT_TRACE_AFTER_WAIT,
579 #define TEVENT_HAS_LOOP_ONCE_TRACE_POINTS 1
581 * Corresponds to a trace point just before calling
582 * the loop_once() backend function.
584 TEVENT_TRACE_BEFORE_LOOP_ONCE,
586 * Corresponds to a trace point right after the
587 * loop_once() backend function has returned.
589 TEVENT_TRACE_AFTER_LOOP_ONCE,
592 typedef void (*tevent_trace_callback_t)(enum tevent_trace_point,
593 void *private_data);
596 * Register a callback to be called at certain trace points
598 * @param[in] ev Event context
599 * @param[in] cb Trace callback
600 * @param[in] private_data Data to be passed to callback
602 * @note The callback will be called at trace points defined by
603 * tevent_trace_point. Call with NULL to reset.
605 void tevent_set_trace_callback(struct tevent_context *ev,
606 tevent_trace_callback_t cb,
607 void *private_data);
610 * Retrieve the current trace callback
612 * @param[in] ev Event context
613 * @param[out] cb Registered trace callback
614 * @param[out] private_data Registered data to be passed to callback
616 * @note This can be used to allow one component that wants to
617 * register a callback to respect the callback that another component
618 * has already registered.
620 void tevent_get_trace_callback(struct tevent_context *ev,
621 tevent_trace_callback_t *cb,
622 void *private_data);
625 * @}
629 * @defgroup tevent_request The tevent request functions.
630 * @ingroup tevent
632 * A tevent_req represents an asynchronous computation.
634 * The tevent_req group of API calls is the recommended way of
635 * programming async computations within tevent. In particular the
636 * file descriptor (tevent_add_fd) and timer (tevent_add_timed) events
637 * are considered too low-level to be used in larger computations. To
638 * read and write from and to sockets, Samba provides two calls on top
639 * of tevent_add_fd: tstream_read_packet_send/recv and tstream_writev_send/recv.
640 * These requests are much easier to compose than the low-level event
641 * handlers called from tevent_add_fd.
643 * A lot of the simplicity tevent_req has brought to the notoriously
644 * hairy async programming came via a set of conventions that every
645 * async computation programmed should follow. One central piece of
646 * these conventions is the naming of routines and variables.
648 * Every async computation needs a name (sensibly called "computation"
649 * down from here). From this name quite a few naming conventions are
650 * derived.
652 * Every computation that requires local state needs a
653 * @code
654 * struct computation_state {
655 * int local_var;
656 * };
657 * @endcode
658 * Even if no local variables are required, such a state struct should
659 * be created containing a dummy variable. Quite a few helper
660 * functions and macros (for example tevent_req_create()) assume such
661 * a state struct.
663 * An async computation is started by a computation_send
664 * function. When it is finished, its result can be received by a
665 * computation_recv function. For an example how to set up an async
666 * computation, see the code example in the documentation for
667 * tevent_req_create() and tevent_req_post(). The prototypes for _send
668 * and _recv functions should follow some conventions:
670 * @code
671 * struct tevent_req *computation_send(TALLOC_CTX *mem_ctx,
672 * struct tevent_req *ev,
673 * ... further args);
674 * int computation_recv(struct tevent_req *req, ... further output args);
675 * @endcode
677 * The "int" result of computation_recv() depends on the result the
678 * sync version of the function would have, "int" is just an example
679 * here.
681 * Another important piece of the conventions is that the program flow
682 * is interrupted as little as possible. Because a blocking
683 * sub-computation requires that the flow needs to continue in a
684 * separate function that is the logical sequel of some computation,
685 * it should lexically follow sending off the blocking
686 * sub-computation. Setting the callback function via
687 * tevent_req_set_callback() requires referencing a function lexically
688 * below the call to tevent_req_set_callback(), forward declarations
689 * are required. A lot of the async computations thus begin with a
690 * sequence of declarations such as
692 * @code
693 * static void computation_step1_done(struct tevent_req *subreq);
694 * static void computation_step2_done(struct tevent_req *subreq);
695 * static void computation_step3_done(struct tevent_req *subreq);
696 * @endcode
698 * It really helps readability a lot to do these forward declarations,
699 * because the lexically sequential program flow makes the async
700 * computations almost as clear to read as a normal, sync program
701 * flow.
703 * It is up to the user of the async computation to talloc_free it
704 * after it has finished. If an async computation should be aborted,
705 * the tevent_req structure can be talloc_free'ed. After it has
706 * finished, it should talloc_free'ed by the API user.
708 * tevent_req variable naming conventions:
710 * The name of the variable pointing to the tevent_req structure
711 * returned by a _send() function SHOULD be named differently between
712 * implementation and caller.
714 * From the point of view of the implementation (of the _send() and
715 * _recv() functions) the variable returned by tevent_req_create() is
716 * always called @em req.
718 * While the caller of the _send() function should use @em subreq to
719 * hold the result.
721 * @see tevent_req_create()
722 * @see tevent_req_fn()
724 * @{
728 * An async request moves from TEVENT_REQ_INIT to
729 * TEVENT_REQ_IN_PROGRESS. All other states are valid after a request
730 * has finished.
732 enum tevent_req_state {
734 * We are creating the request
736 TEVENT_REQ_INIT,
738 * We are waiting the request to complete
740 TEVENT_REQ_IN_PROGRESS,
742 * The request is finished successfully
744 TEVENT_REQ_DONE,
746 * A user error has occurred. The user error has been
747 * indicated by tevent_req_error(), it can be retrieved via
748 * tevent_req_is_error().
750 TEVENT_REQ_USER_ERROR,
752 * Request timed out after the timeout set by tevent_req_set_endtime.
754 TEVENT_REQ_TIMED_OUT,
756 * An internal allocation has failed, or tevent_req_nomem has
757 * been given a NULL pointer as the first argument.
759 TEVENT_REQ_NO_MEMORY,
761 * The request has been received by the caller. No further
762 * action is valid.
764 TEVENT_REQ_RECEIVED
768 * @brief An async request
770 struct tevent_req;
773 * @brief A tevent request callback function.
775 * @param[in] subreq The tevent async request which executed this callback.
777 typedef void (*tevent_req_fn)(struct tevent_req *subreq);
780 * @brief Set an async request callback.
782 * See the documentation of tevent_req_post() for an example how this
783 * is supposed to be used.
785 * @param[in] req The async request to set the callback.
787 * @param[in] fn The callback function to set.
789 * @param[in] pvt A pointer to private data to pass to the async request
790 * callback.
792 void tevent_req_set_callback(struct tevent_req *req, tevent_req_fn fn, void *pvt);
794 #ifdef DOXYGEN
796 * @brief Get the private data cast to the given type for a callback from
797 * a tevent request structure.
799 * @code
800 * static void computation_done(struct tevent_req *subreq) {
801 * struct tevent_req *req = tevent_req_callback_data(subreq, struct tevent_req);
802 * struct computation_state *state = tevent_req_data(req, struct computation_state);
803 * .... more things, eventually maybe call tevent_req_done(req);
805 * @endcode
807 * @param[in] req The structure to get the callback data from.
809 * @param[in] type The type of the private callback data to get.
811 * @return The type casted private data set NULL if not set.
813 void *tevent_req_callback_data(struct tevent_req *req, #type);
814 #else
815 void *_tevent_req_callback_data(struct tevent_req *req);
816 #define tevent_req_callback_data(_req, _type) \
817 talloc_get_type_abort(_tevent_req_callback_data(_req), _type)
818 #endif
820 #ifdef DOXYGEN
822 * @brief Get the private data for a callback from a tevent request structure.
824 * @param[in] req The structure to get the callback data from.
826 * @return The private data or NULL if not set.
828 void *tevent_req_callback_data_void(struct tevent_req *req);
829 #else
830 #define tevent_req_callback_data_void(_req) \
831 _tevent_req_callback_data(_req)
832 #endif
834 #ifdef DOXYGEN
836 * @brief Get the private data from a tevent request structure.
838 * When the tevent_req has been created by tevent_req_create, the
839 * result of tevent_req_data() is the state variable created by
840 * tevent_req_create() as a child of the req.
842 * @param[in] req The structure to get the private data from.
844 * @param[in] type The type of the private data
846 * @return The private data or NULL if not set.
848 void *tevent_req_data(struct tevent_req *req, #type);
849 #else
850 void *_tevent_req_data(struct tevent_req *req);
851 #define tevent_req_data(_req, _type) \
852 talloc_get_type_abort(_tevent_req_data(_req), _type)
853 #endif
856 * @brief The print function which can be set for a tevent async request.
858 * @param[in] req The tevent async request.
860 * @param[in] ctx A talloc memory context which can be uses to allocate
861 * memory.
863 * @return An allocated string buffer to print.
865 * Example:
866 * @code
867 * static char *my_print(struct tevent_req *req, TALLOC_CTX *mem_ctx)
869 * struct my_data *data = tevent_req_data(req, struct my_data);
870 * char *result;
872 * result = tevent_req_default_print(mem_ctx, req);
873 * if (result == NULL) {
874 * return NULL;
877 * return talloc_asprintf_append_buffer(result, "foo=%d, bar=%d",
878 * data->foo, data->bar);
880 * @endcode
882 typedef char *(*tevent_req_print_fn)(struct tevent_req *req, TALLOC_CTX *ctx);
885 * @brief This function sets a print function for the given request.
887 * This function can be used to setup a print function for the given request.
888 * This will be triggered if the tevent_req_print() function was
889 * called on the given request.
891 * @param[in] req The request to use.
893 * @param[in] fn A pointer to the print function
895 * @note This function should only be used for debugging.
897 void tevent_req_set_print_fn(struct tevent_req *req, tevent_req_print_fn fn);
900 * @brief The default print function for creating debug messages.
902 * The function should not be used by users of the async API,
903 * but custom print function can use it and append custom text
904 * to the string.
906 * @param[in] req The request to be printed.
908 * @param[in] mem_ctx The memory context for the result.
910 * @return Text representation of request.
913 char *tevent_req_default_print(struct tevent_req *req, TALLOC_CTX *mem_ctx);
916 * @brief Print an tevent_req structure in debug messages.
918 * This function should be used by callers of the async API.
920 * @param[in] mem_ctx The memory context for the result.
922 * @param[in] req The request to be printed.
924 * @return Text representation of request.
926 char *tevent_req_print(TALLOC_CTX *mem_ctx, struct tevent_req *req);
929 * @brief A typedef for a cancel function for a tevent request.
931 * @param[in] req The tevent request calling this function.
933 * @return True if the request could be canceled, false if not.
935 typedef bool (*tevent_req_cancel_fn)(struct tevent_req *req);
938 * @brief This function sets a cancel function for the given tevent request.
940 * This function can be used to setup a cancel function for the given request.
941 * This will be triggered if the tevent_req_cancel() function was
942 * called on the given request.
944 * @param[in] req The request to use.
946 * @param[in] fn A pointer to the cancel function.
948 void tevent_req_set_cancel_fn(struct tevent_req *req, tevent_req_cancel_fn fn);
950 #ifdef DOXYGEN
952 * @brief Try to cancel the given tevent request.
954 * This function can be used to cancel the given request.
956 * It is only possible to cancel a request when the implementation
957 * has registered a cancel function via the tevent_req_set_cancel_fn().
959 * @param[in] req The request to use.
961 * @return This function returns true if the request is
962 * cancelable, otherwise false is returned.
964 * @note Even if the function returns true, the caller need to wait
965 * for the function to complete normally.
966 * Only the _recv() function of the given request indicates
967 * if the request was really canceled.
969 bool tevent_req_cancel(struct tevent_req *req);
970 #else
971 bool _tevent_req_cancel(struct tevent_req *req, const char *location);
972 #define tevent_req_cancel(req) \
973 _tevent_req_cancel(req, __location__)
974 #endif
977 * @brief A typedef for a cleanup function for a tevent request.
979 * @param[in] req The tevent request calling this function.
981 * @param[in] req_state The current tevent_req_state.
984 typedef void (*tevent_req_cleanup_fn)(struct tevent_req *req,
985 enum tevent_req_state req_state);
988 * @brief This function sets a cleanup function for the given tevent request.
990 * This function can be used to setup a cleanup function for the given request.
991 * This will be triggered when the tevent_req_done() or tevent_req_error()
992 * function was called, before notifying the callers callback function,
993 * and also before scheduling the deferred trigger.
995 * This might be useful if more than one tevent_req belong together
996 * and need to finish both requests at the same time.
998 * The cleanup function is able to call tevent_req_done() or tevent_req_error()
999 * recursively, the cleanup function is only triggered the first time.
1001 * The cleanup function is also called by tevent_req_received()
1002 * (possibly triggered from tevent_req_destructor()) before destroying
1003 * the private data of the tevent_req.
1005 * @param[in] req The request to use.
1007 * @param[in] fn A pointer to the cancel function.
1009 void tevent_req_set_cleanup_fn(struct tevent_req *req, tevent_req_cleanup_fn fn);
1011 #ifdef DOXYGEN
1013 * @brief Create an async tevent request.
1015 * The new async request will be initialized in state TEVENT_REQ_IN_PROGRESS.
1017 * @code
1018 * struct tevent_req *req;
1019 * struct computation_state *state;
1020 * req = tevent_req_create(mem_ctx, &state, struct computation_state);
1021 * @endcode
1023 * Tevent_req_create() allocates and zeros the state variable as a talloc
1024 * child of its result. The state variable should be used as the talloc
1025 * parent for all temporary variables that are allocated during the async
1026 * computation. This way, when the user of the async computation frees
1027 * the request, the state as a talloc child will be free'd along with
1028 * all the temporary variables hanging off the state.
1030 * @param[in] mem_ctx The memory context for the result.
1031 * @param[in] pstate Pointer to the private request state.
1032 * @param[in] type The name of the request.
1034 * @return A new async request. NULL on error.
1036 struct tevent_req *tevent_req_create(TALLOC_CTX *mem_ctx,
1037 void **pstate, #type);
1038 #else
1039 struct tevent_req *_tevent_req_create(TALLOC_CTX *mem_ctx,
1040 void *pstate,
1041 size_t state_size,
1042 const char *type,
1043 const char *location);
1045 #define tevent_req_create(_mem_ctx, _pstate, _type) \
1046 _tevent_req_create((_mem_ctx), (_pstate), sizeof(_type), \
1047 #_type, __location__)
1048 #endif
1051 * @brief Set a timeout for an async request. On failure, "req" is already
1052 * set to state TEVENT_REQ_NO_MEMORY.
1054 * @param[in] req The request to set the timeout for.
1056 * @param[in] ev The event context to use for the timer.
1058 * @param[in] endtime The endtime of the request.
1060 * @return True if succeeded, false if not.
1062 bool tevent_req_set_endtime(struct tevent_req *req,
1063 struct tevent_context *ev,
1064 struct timeval endtime);
1067 * @brief Reset the timer set by tevent_req_set_endtime.
1069 * @param[in] req The request to reset the timeout for
1071 void tevent_req_reset_endtime(struct tevent_req *req);
1073 #ifdef DOXYGEN
1075 * @brief Call the notify callback of the given tevent request manually.
1077 * @param[in] req The tevent request to call the notify function from.
1079 * @see tevent_req_set_callback()
1081 void tevent_req_notify_callback(struct tevent_req *req);
1082 #else
1083 void _tevent_req_notify_callback(struct tevent_req *req, const char *location);
1084 #define tevent_req_notify_callback(req) \
1085 _tevent_req_notify_callback(req, __location__)
1086 #endif
1088 #ifdef DOXYGEN
1090 * @brief An async request has successfully finished.
1092 * This function is to be used by implementors of async requests. When a
1093 * request is successfully finished, this function calls the user's completion
1094 * function.
1096 * @param[in] req The finished request.
1098 void tevent_req_done(struct tevent_req *req);
1099 #else
1100 void _tevent_req_done(struct tevent_req *req,
1101 const char *location);
1102 #define tevent_req_done(req) \
1103 _tevent_req_done(req, __location__)
1104 #endif
1106 #ifdef DOXYGEN
1108 * @brief An async request has seen an error.
1110 * This function is to be used by implementors of async requests. When a
1111 * request can not successfully completed, the implementation should call this
1112 * function with the appropriate status code.
1114 * If error is 0 the function returns false and does nothing more.
1116 * @param[in] req The request with an error.
1118 * @param[in] error The error code.
1120 * @return On success true is returned, false if error is 0.
1122 * @code
1123 * int error = first_function();
1124 * if (tevent_req_error(req, error)) {
1125 * return;
1128 * error = second_function();
1129 * if (tevent_req_error(req, error)) {
1130 * return;
1133 * tevent_req_done(req);
1134 * return;
1135 * @endcode
1137 bool tevent_req_error(struct tevent_req *req,
1138 uint64_t error);
1139 #else
1140 bool _tevent_req_error(struct tevent_req *req,
1141 uint64_t error,
1142 const char *location);
1143 #define tevent_req_error(req, error) \
1144 _tevent_req_error(req, error, __location__)
1145 #endif
1147 #ifdef DOXYGEN
1149 * @brief Helper function for nomem check.
1151 * Convenience helper to easily check alloc failure within a callback
1152 * implementing the next step of an async request.
1154 * @param[in] p The pointer to be checked.
1156 * @param[in] req The request being processed.
1158 * @code
1159 * p = talloc(mem_ctx, bla);
1160 * if (tevent_req_nomem(p, req)) {
1161 * return;
1163 * @endcode
1165 bool tevent_req_nomem(const void *p,
1166 struct tevent_req *req);
1167 #else
1168 bool _tevent_req_nomem(const void *p,
1169 struct tevent_req *req,
1170 const char *location);
1171 #define tevent_req_nomem(p, req) \
1172 _tevent_req_nomem(p, req, __location__)
1173 #endif
1175 #ifdef DOXYGEN
1177 * @brief Indicate out of memory to a request
1179 * @param[in] req The request being processed.
1181 void tevent_req_oom(struct tevent_req *req);
1182 #else
1183 void _tevent_req_oom(struct tevent_req *req,
1184 const char *location);
1185 #define tevent_req_oom(req) \
1186 _tevent_req_oom(req, __location__)
1187 #endif
1190 * @brief Finish a request before the caller had a chance to set the callback.
1192 * An implementation of an async request might find that it can either finish
1193 * the request without waiting for an external event, or it can not even start
1194 * the engine. To present the illusion of a callback to the user of the API,
1195 * the implementation can call this helper function which triggers an
1196 * immediate event. This way the caller can use the same calling
1197 * conventions, independent of whether the request was actually deferred.
1199 * @code
1200 * struct tevent_req *computation_send(TALLOC_CTX *mem_ctx,
1201 * struct tevent_context *ev)
1203 * struct tevent_req *req, *subreq;
1204 * struct computation_state *state;
1205 * req = tevent_req_create(mem_ctx, &state, struct computation_state);
1206 * if (req == NULL) {
1207 * return NULL;
1209 * subreq = subcomputation_send(state, ev);
1210 * if (tevent_req_nomem(subreq, req)) {
1211 * return tevent_req_post(req, ev);
1213 * tevent_req_set_callback(subreq, computation_done, req);
1214 * return req;
1216 * @endcode
1218 * @param[in] req The finished request.
1220 * @param[in] ev The tevent_context for the immediate event.
1222 * @return The given request will be returned.
1224 struct tevent_req *tevent_req_post(struct tevent_req *req,
1225 struct tevent_context *ev);
1228 * @brief Finish multiple requests within one function
1230 * Normally tevent_req_notify_callback() and all wrappers
1231 * (e.g. tevent_req_done() and tevent_req_error())
1232 * need to be the last thing an event handler should call.
1233 * This is because the callback is likely to destroy the
1234 * context of the current function.
1236 * If a function wants to notify more than one caller,
1237 * it is dangerous if it just triggers multiple callbacks
1238 * in a row. With tevent_req_defer_callback() it is possible
1239 * to set an event context that will be used to defer the callback
1240 * via an immediate event (similar to tevent_req_post()).
1242 * @code
1243 * struct complete_state {
1244 * struct tevent_context *ev;
1246 * struct tevent_req **reqs;
1247 * };
1249 * void complete(struct complete_state *state)
1251 * size_t i, c = talloc_array_length(state->reqs);
1253 * for (i=0; i < c; i++) {
1254 * tevent_req_defer_callback(state->reqs[i], state->ev);
1255 * tevent_req_done(state->reqs[i]);
1258 * @endcode
1260 * @param[in] req The finished request.
1262 * @param[in] ev The tevent_context for the immediate event.
1264 * @return The given request will be returned.
1266 void tevent_req_defer_callback(struct tevent_req *req,
1267 struct tevent_context *ev);
1270 * @brief Check if the given request is still in progress.
1272 * It is typically used by sync wrapper functions.
1274 * @param[in] req The request to poll.
1276 * @return The boolean form of "is in progress".
1278 bool tevent_req_is_in_progress(struct tevent_req *req);
1281 * @brief Actively poll for the given request to finish.
1283 * This function is typically used by sync wrapper functions.
1285 * @param[in] req The request to poll.
1287 * @param[in] ev The tevent_context to be used.
1289 * @return On success true is returned. If a critical error has
1290 * happened in the tevent loop layer false is returned.
1291 * This is not the return value of the given request!
1293 * @note This should only be used if the given tevent context was created by the
1294 * caller, to avoid event loop nesting.
1296 * @code
1297 * req = tstream_writev_queue_send(mem_ctx,
1298 * ev_ctx,
1299 * tstream,
1300 * send_queue,
1301 * iov, 2);
1302 * ok = tevent_req_poll(req, tctx->ev);
1303 * rc = tstream_writev_queue_recv(req, &sys_errno);
1304 * TALLOC_FREE(req);
1305 * @endcode
1307 bool tevent_req_poll(struct tevent_req *req,
1308 struct tevent_context *ev);
1311 * @brief Get the tevent request state and the actual error set by
1312 * tevent_req_error.
1314 * @code
1315 * int computation_recv(struct tevent_req *req, uint64_t *perr)
1317 * enum tevent_req_state state;
1318 * uint64_t err;
1319 * if (tevent_req_is_error(req, &state, &err)) {
1320 * *perr = err;
1321 * return -1;
1323 * return 0;
1325 * @endcode
1327 * @param[in] req The tevent request to get the error from.
1329 * @param[out] state A pointer to store the tevent request error state.
1331 * @param[out] error A pointer to store the error set by tevent_req_error().
1333 * @return True if the function could set error and state, false
1334 * otherwise.
1336 * @see tevent_req_error()
1338 bool tevent_req_is_error(struct tevent_req *req,
1339 enum tevent_req_state *state,
1340 uint64_t *error);
1343 * @brief Use as the last action of a _recv() function.
1345 * This function destroys the attached private data.
1347 * @param[in] req The finished request.
1349 void tevent_req_received(struct tevent_req *req);
1352 * @brief Mark a tevent_req for profiling
1354 * This will turn on profiling for this tevent_req an all subreqs that
1355 * are directly started as helper requests off this
1356 * tevent_req. subreqs are chained by walking up the talloc_parent
1357 * hierarchy at a subreq's tevent_req_create. This means to get the
1358 * profiling chain right the subreq that needs to be profiled as part
1359 * of this tevent_req's profile must be a talloc child of the requests
1360 * state variable.
1362 * @param[in] req The request to do tracing for
1364 * @return False if the profile could not be activated
1366 bool tevent_req_set_profile(struct tevent_req *req);
1368 struct tevent_req_profile;
1371 * @brief Get the a request's profile for inspection
1373 * @param[in] req The request to get the profile from
1375 * @return The request's profile
1377 const struct tevent_req_profile *tevent_req_get_profile(
1378 struct tevent_req *req);
1381 * @brief Move the profile out of a request
1383 * This function detaches the request's profile from the request, so
1384 * that the profile can outlive the request in a _recv function.
1386 * @param[in] req The request to move the profile out of
1387 * @param[in] mem_ctx The new talloc context for the profile
1389 * @return The moved profile
1392 struct tevent_req_profile *tevent_req_move_profile(struct tevent_req *req,
1393 TALLOC_CTX *mem_ctx);
1396 * @brief Get a profile description
1398 * @param[in] profile The profile to be queried
1399 * @param[in] req_name The name of the request (state's name)
1401 * "req_name" after this call is still in talloc-posession of "profile"
1403 void tevent_req_profile_get_name(const struct tevent_req_profile *profile,
1404 const char **req_name);
1407 * @brief Get a profile's start event data
1409 * @param[in] profile The profile to be queried
1410 * @param[in] start_location The location where this event started
1411 * @param[in] start_time The time this event started
1413 * "start_location" after this call is still in talloc-posession of "profile"
1415 void tevent_req_profile_get_start(const struct tevent_req_profile *profile,
1416 const char **start_location,
1417 struct timeval *start_time);
1420 * @brief Get a profile's stop event data
1422 * @param[in] profile The profile to be queried
1423 * @param[in] stop_location The location where this event stopped
1424 * @param[in] stop_time The time this event stopped
1426 * "stop_location" after this call is still in talloc-posession of "profile"
1428 void tevent_req_profile_get_stop(const struct tevent_req_profile *profile,
1429 const char **stop_location,
1430 struct timeval *stop_time);
1433 * @brief Get a profile's result data
1435 * @param[in] pid The process where this profile was taken
1436 * @param[in] state The status the profile's tevent_req finished with
1437 * @param[in] user_error The user error of the profile's tevent_req
1439 void tevent_req_profile_get_status(const struct tevent_req_profile *profile,
1440 pid_t *pid,
1441 enum tevent_req_state *state,
1442 uint64_t *user_error);
1445 * @brief Retrieve the first subreq's profile from a profile
1447 * @param[in] profile The profile to query
1449 * @return The first tevent subreq's profile
1451 const struct tevent_req_profile *tevent_req_profile_get_subprofiles(
1452 const struct tevent_req_profile *profile);
1455 * @brief Walk the chain of subreqs
1457 * @param[in] profile The subreq's profile to walk
1459 * @return The next subprofile in the list
1461 const struct tevent_req_profile *tevent_req_profile_next(
1462 const struct tevent_req_profile *profile);
1465 * @brief Create a fresh tevent_req_profile
1467 * @param[in] mem_ctx The talloc context to hang the fresh struct off
1469 * @return The fresh struct
1471 struct tevent_req_profile *tevent_req_profile_create(TALLOC_CTX *mem_ctx);
1474 * @brief Set a profile's name
1476 * @param[in] profile The profile to set the name for
1477 * @param[in] name The new name for the profile
1479 * @return True if the internal talloc_strdup succeeded
1481 bool tevent_req_profile_set_name(struct tevent_req_profile *profile,
1482 const char *name);
1485 * @brief Set a profile's start event
1487 * @param[in] profile The profile to set the start data for
1488 * @param[in] start_location The new start location
1489 * @param[in] start_time The new start time
1491 * @return True if the internal talloc_strdup succeeded
1493 bool tevent_req_profile_set_start(struct tevent_req_profile *profile,
1494 const char *start_location,
1495 struct timeval start_time);
1498 * @brief Set a profile's stop event
1500 * @param[in] profile The profile to set the stop data for
1501 * @param[in] stop_location The new stop location
1502 * @param[in] stop_time The new stop time
1504 * @return True if the internal talloc_strdup succeeded
1506 bool tevent_req_profile_set_stop(struct tevent_req_profile *profile,
1507 const char *stop_location,
1508 struct timeval stop_time);
1511 * @brief Set a profile's exit status
1513 * @param[in] profile The profile to set the exit status for
1514 * @param[in] pid The process where this profile was taken
1515 * @param[in] state The status the profile's tevent_req finished with
1516 * @param[in] user_error The user error of the profile's tevent_req
1518 void tevent_req_profile_set_status(struct tevent_req_profile *profile,
1519 pid_t pid,
1520 enum tevent_req_state state,
1521 uint64_t user_error);
1524 * @brief Add a subprofile to a profile
1526 * @param[in] parent_profile The profile to be modified
1527 * @param[in] sub_profile The subreqs profile profile to be added
1529 * "subreq" is talloc_move'ed into "parent_profile", so the talloc
1530 * ownership of "sub_profile" changes
1533 void tevent_req_profile_append_sub(struct tevent_req_profile *parent_profile,
1534 struct tevent_req_profile **sub_profile);
1537 * @brief Create a tevent subrequest at a given time.
1539 * The idea is that always the same syntax for tevent requests.
1541 * @param[in] mem_ctx The talloc memory context to use.
1543 * @param[in] ev The event handle to setup the request.
1545 * @param[in] wakeup_time The time to wakeup and execute the request.
1547 * @return The new subrequest, NULL on error.
1549 * Example:
1550 * @code
1551 * static void my_callback_wakeup_done(tevent_req *subreq)
1553 * struct tevent_req *req = tevent_req_callback_data(subreq,
1554 * struct tevent_req);
1555 * bool ok;
1557 * ok = tevent_wakeup_recv(subreq);
1558 * TALLOC_FREE(subreq);
1559 * if (!ok) {
1560 * tevent_req_error(req, -1);
1561 * return;
1563 * ...
1565 * @endcode
1567 * @code
1568 * subreq = tevent_wakeup_send(mem_ctx, ev, wakeup_time);
1569 * if (tevent_req_nomem(subreq, req)) {
1570 * return false;
1572 * tevent_set_callback(subreq, my_callback_wakeup_done, req);
1573 * @endcode
1575 * @see tevent_wakeup_recv()
1577 struct tevent_req *tevent_wakeup_send(TALLOC_CTX *mem_ctx,
1578 struct tevent_context *ev,
1579 struct timeval wakeup_time);
1582 * @brief Check if the wakeup has been correctly executed.
1584 * This function needs to be called in the callback function set after calling
1585 * tevent_wakeup_send().
1587 * @param[in] req The tevent request to check.
1589 * @return True on success, false otherwise.
1591 * @see tevent_wakeup_recv()
1593 bool tevent_wakeup_recv(struct tevent_req *req);
1595 /* @} */
1598 * @defgroup tevent_helpers The tevent helper functions
1599 * @ingroup tevent
1601 * @todo description
1603 * @{
1607 * @brief Compare two timeval values.
1609 * @param[in] tv1 The first timeval value to compare.
1611 * @param[in] tv2 The second timeval value to compare.
1613 * @return 0 if they are equal.
1614 * 1 if the first time is greater than the second.
1615 * -1 if the first time is smaller than the second.
1617 int tevent_timeval_compare(const struct timeval *tv1,
1618 const struct timeval *tv2);
1621 * @brief Get a zero timeval value.
1623 * @return A zero timeval value.
1625 struct timeval tevent_timeval_zero(void);
1628 * @brief Get a timeval value for the current time.
1630 * @return A timeval value with the current time.
1632 struct timeval tevent_timeval_current(void);
1635 * @brief Get a timeval structure with the given values.
1637 * @param[in] secs The seconds to set.
1639 * @param[in] usecs The microseconds to set.
1641 * @return A timeval structure with the given values.
1643 struct timeval tevent_timeval_set(uint32_t secs, uint32_t usecs);
1646 * @brief Get the difference between two timeval values.
1648 * @param[in] tv1 The first timeval.
1650 * @param[in] tv2 The second timeval.
1652 * @return A timeval structure with the difference between the
1653 * first and the second value.
1655 struct timeval tevent_timeval_until(const struct timeval *tv1,
1656 const struct timeval *tv2);
1659 * @brief Check if a given timeval structure is zero.
1661 * @param[in] tv The timeval to check if it is zero.
1663 * @return True if it is zero, false otherwise.
1665 bool tevent_timeval_is_zero(const struct timeval *tv);
1668 * @brief Add the given amount of time to a timeval structure.
1670 * @param[in] tv The timeval structure to add the time.
1672 * @param[in] secs The seconds to add to the timeval.
1674 * @param[in] usecs The microseconds to add to the timeval.
1676 * @return The timeval structure with the new time.
1678 struct timeval tevent_timeval_add(const struct timeval *tv, uint32_t secs,
1679 uint32_t usecs);
1682 * @brief Get a timeval in the future with a specified offset from now.
1684 * @param[in] secs The seconds of the offset from now.
1686 * @param[in] usecs The microseconds of the offset from now.
1688 * @return A timval with the given offset in the future.
1690 struct timeval tevent_timeval_current_ofs(uint32_t secs, uint32_t usecs);
1692 /* @} */
1696 * @defgroup tevent_queue The tevent queue functions
1697 * @ingroup tevent
1699 * A tevent_queue is used to queue up async requests that must be
1700 * serialized. For example writing buffers into a socket must be
1701 * serialized. Writing a large lump of data into a socket can require
1702 * multiple write(2) or send(2) system calls. If more than one async
1703 * request is outstanding to write large buffers into a socket, every
1704 * request must individually be completed before the next one begins,
1705 * even if multiple syscalls are required.
1707 * Take a look at @ref tevent_queue_tutorial for more details.
1708 * @{
1711 struct tevent_queue;
1712 struct tevent_queue_entry;
1714 #ifdef DOXYGEN
1716 * @brief Create and start a tevent queue.
1718 * @param[in] mem_ctx The talloc memory context to allocate the queue.
1720 * @param[in] name The name to use to identify the queue.
1722 * @return An allocated tevent queue on success, NULL on error.
1724 * @see tevent_queue_start()
1725 * @see tevent_queue_stop()
1727 struct tevent_queue *tevent_queue_create(TALLOC_CTX *mem_ctx,
1728 const char *name);
1729 #else
1730 struct tevent_queue *_tevent_queue_create(TALLOC_CTX *mem_ctx,
1731 const char *name,
1732 const char *location);
1734 #define tevent_queue_create(_mem_ctx, _name) \
1735 _tevent_queue_create((_mem_ctx), (_name), __location__)
1736 #endif
1739 * @brief A callback trigger function run by the queue.
1741 * @param[in] req The tevent request the trigger function is executed on.
1743 * @param[in] private_data The private data pointer specified by
1744 * tevent_queue_add().
1746 * @see tevent_queue_add()
1747 * @see tevent_queue_add_entry()
1748 * @see tevent_queue_add_optimize_empty()
1750 typedef void (*tevent_queue_trigger_fn_t)(struct tevent_req *req,
1751 void *private_data);
1754 * @brief Add a tevent request to the queue.
1756 * @param[in] queue The queue to add the request.
1758 * @param[in] ev The event handle to use for the request.
1760 * @param[in] req The tevent request to add to the queue.
1762 * @param[in] trigger The function triggered by the queue when the request
1763 * is called. Since tevent 0.9.14 it's possible to
1764 * pass NULL, in order to just add a "blocker" to the
1765 * queue.
1767 * @param[in] private_data The private data passed to the trigger function.
1769 * @return True if the request has been successfully added, false
1770 * otherwise.
1772 bool tevent_queue_add(struct tevent_queue *queue,
1773 struct tevent_context *ev,
1774 struct tevent_req *req,
1775 tevent_queue_trigger_fn_t trigger,
1776 void *private_data);
1779 * @brief Add a tevent request to the queue.
1781 * The request can be removed from the queue by calling talloc_free()
1782 * (or a similar function) on the returned queue entry. This
1783 * is the only difference to tevent_queue_add().
1785 * @param[in] queue The queue to add the request.
1787 * @param[in] ev The event handle to use for the request.
1789 * @param[in] req The tevent request to add to the queue.
1791 * @param[in] trigger The function triggered by the queue when the request
1792 * is called. Since tevent 0.9.14 it's possible to
1793 * pass NULL, in order to just add a "blocker" to the
1794 * queue.
1796 * @param[in] private_data The private data passed to the trigger function.
1798 * @return a pointer to the tevent_queue_entry if the request
1799 * has been successfully added, NULL otherwise.
1801 * @see tevent_queue_add()
1802 * @see tevent_queue_add_optimize_empty()
1804 struct tevent_queue_entry *tevent_queue_add_entry(
1805 struct tevent_queue *queue,
1806 struct tevent_context *ev,
1807 struct tevent_req *req,
1808 tevent_queue_trigger_fn_t trigger,
1809 void *private_data);
1812 * @brief Add a tevent request to the queue using a possible optimization.
1814 * This tries to optimize for the empty queue case and may calls
1815 * the trigger function directly. This is the only difference compared
1816 * to tevent_queue_add_entry().
1818 * The caller needs to be prepared that the trigger function has
1819 * already called tevent_req_notify_callback(), tevent_req_error(),
1820 * tevent_req_done() or a similar function.
1822 * The trigger function has no chance to see the returned
1823 * queue_entry in the optimized case.
1825 * The request can be removed from the queue by calling talloc_free()
1826 * (or a similar function) on the returned queue entry.
1828 * @param[in] queue The queue to add the request.
1830 * @param[in] ev The event handle to use for the request.
1832 * @param[in] req The tevent request to add to the queue.
1834 * @param[in] trigger The function triggered by the queue when the request
1835 * is called. Since tevent 0.9.14 it's possible to
1836 * pass NULL, in order to just add a "blocker" to the
1837 * queue.
1839 * @param[in] private_data The private data passed to the trigger function.
1841 * @return a pointer to the tevent_queue_entry if the request
1842 * has been successfully added, NULL otherwise.
1844 * @see tevent_queue_add()
1845 * @see tevent_queue_add_entry()
1847 struct tevent_queue_entry *tevent_queue_add_optimize_empty(
1848 struct tevent_queue *queue,
1849 struct tevent_context *ev,
1850 struct tevent_req *req,
1851 tevent_queue_trigger_fn_t trigger,
1852 void *private_data);
1855 * @brief Untrigger an already triggered queue entry.
1857 * If a trigger function detects that it needs to remain
1858 * in the queue, it needs to call tevent_queue_stop()
1859 * followed by tevent_queue_entry_untrigger().
1861 * @note In order to call tevent_queue_entry_untrigger()
1862 * the queue must be already stopped and the given queue_entry
1863 * must be the first one in the queue! Otherwise it calls abort().
1865 * @note You can't use this together with tevent_queue_add_optimize_empty()
1866 * because the trigger function don't have access to the quene entry
1867 * in the case of an empty queue.
1869 * @param[in] queue_entry The queue entry to rearm.
1871 * @see tevent_queue_add_entry()
1872 * @see tevent_queue_stop()
1874 void tevent_queue_entry_untrigger(struct tevent_queue_entry *entry);
1877 * @brief Start a tevent queue.
1879 * The queue is started by default.
1881 * @param[in] queue The queue to start.
1883 void tevent_queue_start(struct tevent_queue *queue);
1886 * @brief Stop a tevent queue.
1888 * The queue is started by default.
1890 * @param[in] queue The queue to stop.
1892 void tevent_queue_stop(struct tevent_queue *queue);
1895 * @brief Get the length of the queue.
1897 * @param[in] queue The queue to get the length from.
1899 * @return The number of elements.
1901 size_t tevent_queue_length(struct tevent_queue *queue);
1904 * @brief Is the tevent queue running.
1906 * The queue is started by default.
1908 * @param[in] queue The queue.
1910 * @return Whether the queue is running or not..
1912 bool tevent_queue_running(struct tevent_queue *queue);
1915 * @brief Create a tevent subrequest that waits in a tevent_queue
1917 * The idea is that always the same syntax for tevent requests.
1919 * @param[in] mem_ctx The talloc memory context to use.
1921 * @param[in] ev The event handle to setup the request.
1923 * @param[in] queue The queue to wait in.
1925 * @return The new subrequest, NULL on error.
1927 * @see tevent_queue_wait_recv()
1929 struct tevent_req *tevent_queue_wait_send(TALLOC_CTX *mem_ctx,
1930 struct tevent_context *ev,
1931 struct tevent_queue *queue);
1934 * @brief Check if we no longer need to wait in the queue.
1936 * This function needs to be called in the callback function set after calling
1937 * tevent_queue_wait_send().
1939 * @param[in] req The tevent request to check.
1941 * @return True on success, false otherwise.
1943 * @see tevent_queue_wait_send()
1945 bool tevent_queue_wait_recv(struct tevent_req *req);
1947 typedef int (*tevent_nesting_hook)(struct tevent_context *ev,
1948 void *private_data,
1949 uint32_t level,
1950 bool begin,
1951 void *stack_ptr,
1952 const char *location);
1955 * @brief Create a tevent_thread_proxy for message passing between threads.
1957 * The tevent_context must have been allocated on the NULL
1958 * talloc context, and talloc_disable_null_tracking() must
1959 * have been called.
1961 * @param[in] dest_ev_ctx The tevent_context to receive events.
1963 * @return An allocated tevent_thread_proxy, NULL on error.
1964 * If tevent was compiled without PTHREAD support
1965 * NULL is always returned and errno set to ENOSYS.
1967 * @see tevent_thread_proxy_schedule()
1969 struct tevent_thread_proxy *tevent_thread_proxy_create(
1970 struct tevent_context *dest_ev_ctx);
1973 * @brief Schedule an immediate event on an event context from another thread.
1975 * Causes dest_ev_ctx, being run by another thread, to receive an
1976 * immediate event calling the handler with the *pp_private parameter.
1978 * *pp_im must be a pointer to an immediate event talloced on a context owned
1979 * by the calling thread, or the NULL context. Ownership will
1980 * be transferred to the tevent_thread_proxy and *pp_im will be returned as NULL.
1982 * *pp_private_data must be a talloced area of memory with no destructors.
1983 * Ownership of this memory will be transferred to the tevent library and
1984 * *pp_private_data will be set to NULL on successful completion of
1985 * the call. Set pp_private to NULL if no parameter transfer
1986 * needed (a pure callback). This is an asynchronous request, caller
1987 * does not wait for callback to be completed before returning.
1989 * @param[in] tp The tevent_thread_proxy to use.
1991 * @param[in] pp_im Pointer to immediate event pointer.
1993 * @param[in] handler The function that will be called.
1995 * @param[in] pp_private_data The talloced memory to transfer.
1997 * @see tevent_thread_proxy_create()
1999 void tevent_thread_proxy_schedule(struct tevent_thread_proxy *tp,
2000 struct tevent_immediate **pp_im,
2001 tevent_immediate_handler_t handler,
2002 void *pp_private_data);
2005 * @brief Create a context for threaded activation of immediates
2007 * A tevent_treaded_context provides a link into an event
2008 * context. Using tevent_threaded_schedule_immediate, it is possible
2009 * to activate an immediate event from within a thread.
2011 * It is the duty of the caller of tevent_threaded_context_create() to
2012 * keep the event context around longer than any
2013 * tevent_threaded_context. tevent will abort if ev is talloc_free'ed
2014 * with an active tevent_threaded_context.
2016 * If tevent is build without pthread support, this always returns
2017 * NULL with errno=ENOSYS.
2019 * @param[in] mem_ctx The talloc memory context to use.
2020 * @param[in] ev The event context to link this to.
2021 * @return The threaded context, or NULL with errno set.
2023 * @see tevent_threaded_schedule_immediate()
2025 * @note Available as of tevent 0.9.30
2027 struct tevent_threaded_context *tevent_threaded_context_create(
2028 TALLOC_CTX *mem_ctx, struct tevent_context *ev);
2030 #ifdef DOXYGEN
2032 * @brief Activate an immediate from a thread
2034 * Activate an immediate from within a thread.
2036 * This routine does not watch out for talloc hierarchies. This means
2037 * that it is highly recommended to create the tevent_immediate in the
2038 * thread owning tctx, allocate a threaded job description for the
2039 * thread, hand over both pointers to a helper thread and not touch it
2040 * in the main thread at all anymore.
2042 * tevent_threaded_schedule_immediate is intended as a job completion
2043 * indicator for simple threaded helpers.
2045 * Please be aware that tevent_threaded_schedule_immediate is very
2046 * picky about its arguments: An immediate may not already be
2047 * activated and the handler must exist. With
2048 * tevent_threaded_schedule_immediate memory ownership is transferred
2049 * to the main thread holding the tevent context behind tctx, the
2050 * helper thread can't access it anymore.
2052 * @param[in] tctx The threaded context to go through
2053 * @param[in] im The immediate event to activate
2054 * @param[in] handler The immediate handler to call in the main thread
2055 * @param[in] private_data Pointer for the immediate handler
2057 * @see tevent_threaded_context_create()
2059 * @note Available as of tevent 0.9.30
2061 void tevent_threaded_schedule_immediate(struct tevent_threaded_context *tctx,
2062 struct tevent_immediate *im,
2063 tevent_immediate_handler_t handler,
2064 void *private_data);
2065 #else
2066 void _tevent_threaded_schedule_immediate(struct tevent_threaded_context *tctx,
2067 struct tevent_immediate *im,
2068 tevent_immediate_handler_t handler,
2069 void *private_data,
2070 const char *handler_name,
2071 const char *location);
2072 #define tevent_threaded_schedule_immediate(tctx, im, handler, private_data) \
2073 _tevent_threaded_schedule_immediate(tctx, im, handler, private_data, \
2074 #handler, __location__);
2075 #endif
2077 #ifdef TEVENT_DEPRECATED
2078 #ifndef _DEPRECATED_
2079 #ifdef HAVE___ATTRIBUTE__
2080 #define _DEPRECATED_ __attribute__ ((deprecated))
2081 #else
2082 #define _DEPRECATED_
2083 #endif
2084 #endif
2085 void tevent_loop_allow_nesting(struct tevent_context *ev) _DEPRECATED_;
2086 void tevent_loop_set_nesting_hook(struct tevent_context *ev,
2087 tevent_nesting_hook hook,
2088 void *private_data) _DEPRECATED_;
2089 int _tevent_loop_until(struct tevent_context *ev,
2090 bool (*finished)(void *private_data),
2091 void *private_data,
2092 const char *location) _DEPRECATED_;
2093 #define tevent_loop_until(ev, finished, private_data) \
2094 _tevent_loop_until(ev, finished, private_data, __location__)
2095 #endif
2097 int tevent_re_initialise(struct tevent_context *ev);
2099 /* @} */
2102 * @defgroup tevent_ops The tevent operation functions
2103 * @ingroup tevent
2105 * The following structure and registration functions are exclusively
2106 * needed for people writing and pluggin a different event engine.
2107 * There is nothing useful for normal tevent user in here.
2108 * @{
2111 struct tevent_ops {
2112 /* context init */
2113 int (*context_init)(struct tevent_context *ev);
2115 /* fd_event functions */
2116 struct tevent_fd *(*add_fd)(struct tevent_context *ev,
2117 TALLOC_CTX *mem_ctx,
2118 int fd, uint16_t flags,
2119 tevent_fd_handler_t handler,
2120 void *private_data,
2121 const char *handler_name,
2122 const char *location);
2123 void (*set_fd_close_fn)(struct tevent_fd *fde,
2124 tevent_fd_close_fn_t close_fn);
2125 uint16_t (*get_fd_flags)(struct tevent_fd *fde);
2126 void (*set_fd_flags)(struct tevent_fd *fde, uint16_t flags);
2128 /* timed_event functions */
2129 struct tevent_timer *(*add_timer)(struct tevent_context *ev,
2130 TALLOC_CTX *mem_ctx,
2131 struct timeval next_event,
2132 tevent_timer_handler_t handler,
2133 void *private_data,
2134 const char *handler_name,
2135 const char *location);
2137 /* immediate event functions */
2138 void (*schedule_immediate)(struct tevent_immediate *im,
2139 struct tevent_context *ev,
2140 tevent_immediate_handler_t handler,
2141 void *private_data,
2142 const char *handler_name,
2143 const char *location);
2145 /* signal functions */
2146 struct tevent_signal *(*add_signal)(struct tevent_context *ev,
2147 TALLOC_CTX *mem_ctx,
2148 int signum, int sa_flags,
2149 tevent_signal_handler_t handler,
2150 void *private_data,
2151 const char *handler_name,
2152 const char *location);
2154 /* loop functions */
2155 int (*loop_once)(struct tevent_context *ev, const char *location);
2156 int (*loop_wait)(struct tevent_context *ev, const char *location);
2159 bool tevent_register_backend(const char *name, const struct tevent_ops *ops);
2161 /* @} */
2163 #ifdef TEVENT_DEPRECATED
2165 * @defgroup tevent_wrapper_ops The tevent wrapper operation functions
2166 * @ingroup tevent
2168 * The following structure and registration functions are exclusively
2169 * needed for people writing wrapper functions for event handlers
2170 * e.g. wrappers can be used for debugging/profiling or impersonation.
2172 * There is nothing useful for normal tevent user in here.
2174 * @note That the close_fn() on tevent_fd is *NOT* wrapped!
2176 * @see tevent_context_wrapper_create
2177 * @see tevent_fd_set_auto_close
2178 * @{
2181 struct tevent_wrapper_ops {
2182 const char *name;
2184 bool (*before_use)(struct tevent_context *wrap_ev,
2185 void *private_state,
2186 struct tevent_context *main_ev,
2187 const char *location);
2188 void (*after_use)(struct tevent_context *wrap_ev,
2189 void *private_state,
2190 struct tevent_context *main_ev,
2191 const char *location);
2193 void (*before_fd_handler)(struct tevent_context *wrap_ev,
2194 void *private_state,
2195 struct tevent_context *main_ev,
2196 struct tevent_fd *fde,
2197 uint16_t flags,
2198 const char *handler_name,
2199 const char *location);
2200 void (*after_fd_handler)(struct tevent_context *wrap_ev,
2201 void *private_state,
2202 struct tevent_context *main_ev,
2203 struct tevent_fd *fde,
2204 uint16_t flags,
2205 const char *handler_name,
2206 const char *location);
2208 void (*before_timer_handler)(struct tevent_context *wrap_ev,
2209 void *private_state,
2210 struct tevent_context *main_ev,
2211 struct tevent_timer *te,
2212 struct timeval requested_time,
2213 struct timeval trigger_time,
2214 const char *handler_name,
2215 const char *location);
2216 void (*after_timer_handler)(struct tevent_context *wrap_ev,
2217 void *private_state,
2218 struct tevent_context *main_ev,
2219 struct tevent_timer *te,
2220 struct timeval requested_time,
2221 struct timeval trigger_time,
2222 const char *handler_name,
2223 const char *location);
2225 void (*before_immediate_handler)(struct tevent_context *wrap_ev,
2226 void *private_state,
2227 struct tevent_context *main_ev,
2228 struct tevent_immediate *im,
2229 const char *handler_name,
2230 const char *location);
2231 void (*after_immediate_handler)(struct tevent_context *wrap_ev,
2232 void *private_state,
2233 struct tevent_context *main_ev,
2234 struct tevent_immediate *im,
2235 const char *handler_name,
2236 const char *location);
2238 void (*before_signal_handler)(struct tevent_context *wrap_ev,
2239 void *private_state,
2240 struct tevent_context *main_ev,
2241 struct tevent_signal *se,
2242 int signum,
2243 int count,
2244 void *siginfo,
2245 const char *handler_name,
2246 const char *location);
2247 void (*after_signal_handler)(struct tevent_context *wrap_ev,
2248 void *private_state,
2249 struct tevent_context *main_ev,
2250 struct tevent_signal *se,
2251 int signum,
2252 int count,
2253 void *siginfo,
2254 const char *handler_name,
2255 const char *location);
2258 #ifdef DOXYGEN
2260 * @brief Create a wrapper tevent_context.
2262 * @param[in] main_ev The main event context to work on.
2264 * @param[in] mem_ctx The talloc memory context to use.
2266 * @param[in] ops The tevent_wrapper_ops function table.
2268 * @param[out] private_state The private state use by the wrapper functions.
2270 * @param[in] private_type The talloc type of the private_state.
2272 * @return The wrapper event context, NULL on error.
2274 * @note Available as of tevent 0.9.37
2275 * @note Deprecated as of tevent 0.9.38
2277 struct tevent_context *tevent_context_wrapper_create(struct tevent_context *main_ev,
2278 TALLOC_CTX *mem_ctx,
2279 const struct tevent_wrapper_ops *ops,
2280 void **private_state,
2281 const char *private_type);
2282 #else
2283 struct tevent_context *_tevent_context_wrapper_create(struct tevent_context *main_ev,
2284 TALLOC_CTX *mem_ctx,
2285 const struct tevent_wrapper_ops *ops,
2286 void *pstate,
2287 size_t psize,
2288 const char *type,
2289 const char *location) _DEPRECATED_;
2290 #define tevent_context_wrapper_create(main_ev, mem_ctx, ops, state, type) \
2291 _tevent_context_wrapper_create(main_ev, mem_ctx, ops, \
2292 state, sizeof(type), #type, __location__)
2293 #endif
2296 * @brief Check if the event context is a wrapper event context.
2298 * @param[in] ev The event context to work on.
2300 * @return Is a wrapper (true), otherwise (false).
2302 * @see tevent_context_wrapper_create()
2304 * @note Available as of tevent 0.9.37
2305 * @note Deprecated as of tevent 0.9.38
2307 bool tevent_context_is_wrapper(struct tevent_context *ev) _DEPRECATED_;
2309 #ifdef DOXYGEN
2311 * @brief Prepare the environment of a (wrapper) event context.
2313 * A caller might call this before passing a wrapper event context
2314 * to a tevent_req based *_send() function.
2316 * The wrapper event context might do something like impersonation.
2318 * tevent_context_push_use() must always be used in combination
2319 * with tevent_context_pop_use().
2321 * There is a global stack of currently active/busy wrapper event contexts.
2322 * Each wrapper can only appear once on that global stack!
2323 * The stack size is limited to 32 elements, which should be enough
2324 * for all useful scenarios.
2326 * In addition to an explicit tevent_context_push_use() also
2327 * the invocation of an immediate, timer or fd handler implicitly
2328 * pushes the wrapper on the stack.
2330 * Therefore there are some strict constraints for the usage of
2331 * tevent_context_push_use():
2332 * - It must not be called from within an event handler
2333 * that already acts on the wrapper.
2334 * - tevent_context_pop_use() must be called before
2335 * leaving the code block that called tevent_context_push_use().
2336 * - The caller is responsible ensure the correct stack ordering
2337 * - Any violation of these constraints results in calling
2338 * the abort handler of the given tevent context.
2340 * Calling tevent_context_push_use() on a raw event context
2341 * still consumes an element on the stack, but it's otherwise
2342 * a no-op.
2344 * If tevent_context_push_use() returns false, it means
2345 * that the wrapper's before_use() hook returned this failure,
2346 * in that case you must not call tevent_context_pop_use() as
2347 * the wrapper is not pushed onto the stack.
2349 * @param[in] ev The event context to work on.
2351 * @return Success (true) or failure (false).
2353 * @note This is only needed if wrapper event contexts are in use.
2355 * @see tevent_context_pop_use
2357 * @note Available as of tevent 0.9.37
2358 * @note Deprecated as of tevent 0.9.38
2360 bool tevent_context_push_use(struct tevent_context *ev);
2361 #else
2362 bool _tevent_context_push_use(struct tevent_context *ev,
2363 const char *location) _DEPRECATED_;
2364 #define tevent_context_push_use(ev) \
2365 _tevent_context_push_use(ev, __location__)
2366 #endif
2368 #ifdef DOXYGEN
2370 * @brief Release the environment of a (wrapper) event context.
2372 * The wrapper event context might undo something like impersonation.
2374 * This must be called after a succesful tevent_context_push_use().
2375 * Any ordering violation results in calling
2376 * the abort handler of the given tevent context.
2378 * This basically calls the wrapper's after_use() hook.
2380 * @param[in] ev The event context to work on.
2382 * @note This is only needed if wrapper event contexts are in use.
2384 * @see tevent_context_push_use
2386 * @note Available as of tevent 0.9.37
2387 * @note Deprecated as of tevent 0.9.38
2389 void tevent_context_pop_use(struct tevent_context *ev);
2390 #else
2391 void _tevent_context_pop_use(struct tevent_context *ev,
2392 const char *location) _DEPRECATED_;
2393 #define tevent_context_pop_use(ev) \
2394 _tevent_context_pop_use(ev, __location__)
2395 #endif
2398 * @brief Check is the two context pointers belong to the same low level loop
2400 * With the introduction of wrapper contexts it's not trivial
2401 * to check if two context pointers belong to the same low level
2402 * event loop. Some code may need to know this in order
2403 * to make some caching decisions.
2405 * @param[in] ev1 The first event context.
2406 * @param[in] ev2 The second event context.
2408 * @return true if both contexts belong to the same (still existing) context
2409 * loop, false otherwise.
2411 * @see tevent_context_wrapper_create
2413 * @note Available as of tevent 0.9.37
2414 * @note Deprecated as of tevent 0.9.38
2416 bool tevent_context_same_loop(struct tevent_context *ev1,
2417 struct tevent_context *ev2) _DEPRECATED_;
2419 /* @} */
2420 #endif /* TEVENT_DEPRECATED */
2423 * @defgroup tevent_compat The tevent compatibility functions
2424 * @ingroup tevent
2426 * The following definitions are usueful only for compatibility with the
2427 * implementation originally developed within the samba4 code and will be
2428 * soon removed. Please NEVER use in new code.
2430 * @todo Ignore it?
2432 * @{
2435 #ifdef TEVENT_COMPAT_DEFINES
2437 #define event_context tevent_context
2438 #define event_ops tevent_ops
2439 #define fd_event tevent_fd
2440 #define timed_event tevent_timer
2441 #define signal_event tevent_signal
2443 #define event_fd_handler_t tevent_fd_handler_t
2444 #define event_timed_handler_t tevent_timer_handler_t
2445 #define event_signal_handler_t tevent_signal_handler_t
2447 #define event_context_init(mem_ctx) \
2448 tevent_context_init(mem_ctx)
2450 #define event_context_init_byname(mem_ctx, name) \
2451 tevent_context_init_byname(mem_ctx, name)
2453 #define event_backend_list(mem_ctx) \
2454 tevent_backend_list(mem_ctx)
2456 #define event_set_default_backend(backend) \
2457 tevent_set_default_backend(backend)
2459 #define event_add_fd(ev, mem_ctx, fd, flags, handler, private_data) \
2460 tevent_add_fd(ev, mem_ctx, fd, flags, handler, private_data)
2462 #define event_add_timed(ev, mem_ctx, next_event, handler, private_data) \
2463 tevent_add_timer(ev, mem_ctx, next_event, handler, private_data)
2465 #define event_add_signal(ev, mem_ctx, signum, sa_flags, handler, private_data) \
2466 tevent_add_signal(ev, mem_ctx, signum, sa_flags, handler, private_data)
2468 #define event_loop_once(ev) \
2469 tevent_loop_once(ev)
2471 #define event_loop_wait(ev) \
2472 tevent_loop_wait(ev)
2474 #define event_get_fd_flags(fde) \
2475 tevent_fd_get_flags(fde)
2477 #define event_set_fd_flags(fde, flags) \
2478 tevent_fd_set_flags(fde, flags)
2480 #define EVENT_FD_READ TEVENT_FD_READ
2481 #define EVENT_FD_WRITE TEVENT_FD_WRITE
2483 #define EVENT_FD_WRITEABLE(fde) \
2484 TEVENT_FD_WRITEABLE(fde)
2486 #define EVENT_FD_READABLE(fde) \
2487 TEVENT_FD_READABLE(fde)
2489 #define EVENT_FD_NOT_WRITEABLE(fde) \
2490 TEVENT_FD_NOT_WRITEABLE(fde)
2492 #define EVENT_FD_NOT_READABLE(fde) \
2493 TEVENT_FD_NOT_READABLE(fde)
2495 #define ev_debug_level tevent_debug_level
2497 #define EV_DEBUG_FATAL TEVENT_DEBUG_FATAL
2498 #define EV_DEBUG_ERROR TEVENT_DEBUG_ERROR
2499 #define EV_DEBUG_WARNING TEVENT_DEBUG_WARNING
2500 #define EV_DEBUG_TRACE TEVENT_DEBUG_TRACE
2502 #define ev_set_debug(ev, debug, context) \
2503 tevent_set_debug(ev, debug, context)
2505 #define ev_set_debug_stderr(_ev) tevent_set_debug_stderr(ev)
2507 #endif /* TEVENT_COMPAT_DEFINES */
2509 /* @} */
2511 #endif /* __TEVENT_H__ */