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source: vbox/trunk/include/iprt/thread.h@ 25337

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iprt/thread.h: more docs.

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1/** @file
2 * IPRT - Threads.
3 */
4
5/*
6 * Copyright (C) 2006-2007 Sun Microsystems, Inc.
7 *
8 * This file is part of VirtualBox Open Source Edition (OSE), as
9 * available from http://www.virtualbox.org. This file is free software;
10 * you can redistribute it and/or modify it under the terms of the GNU
11 * General Public License (GPL) as published by the Free Software
12 * Foundation, in version 2 as it comes in the "COPYING" file of the
13 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
14 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
15 *
16 * The contents of this file may alternatively be used under the terms
17 * of the Common Development and Distribution License Version 1.0
18 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
19 * VirtualBox OSE distribution, in which case the provisions of the
20 * CDDL are applicable instead of those of the GPL.
21 *
22 * You may elect to license modified versions of this file under the
23 * terms and conditions of either the GPL or the CDDL or both.
24 *
25 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
26 * Clara, CA 95054 USA or visit http://www.sun.com if you need
27 * additional information or have any questions.
28 */
29
30#ifndef ___iprt_thread_h
31#define ___iprt_thread_h
32
33#include <iprt/cdefs.h>
34#include <iprt/types.h>
35#include <iprt/stdarg.h>
36
37#ifdef IN_RC
38# error "There are no threading APIs available Guest Context!"
39#endif
40
41
42
43RT_C_DECLS_BEGIN
44
45/** @defgroup grp_rt_thread RTThread - Thread Management
46 * @ingroup grp_rt
47 * @{
48 */
49
50/**
51 * The thread state.
52 */
53typedef enum RTTHREADSTATE
54{
55 /** The usual invalid 0 value. */
56 RTTHREADSTATE_INVALID = 0,
57 /** The thread is being initialized. */
58 RTTHREADSTATE_INITIALIZING,
59 /** The thread has terminated */
60 RTTHREADSTATE_TERMINATED,
61 /** Probably running. */
62 RTTHREADSTATE_RUNNING,
63 /** Waiting on a critical section. */
64 RTTHREADSTATE_CRITSECT,
65 /** Waiting on a mutex. */
66 RTTHREADSTATE_MUTEX,
67 /** Waiting on a event semaphore. */
68 RTTHREADSTATE_EVENT,
69 /** Waiting on a event multiple wakeup semaphore. */
70 RTTHREADSTATE_EVENTMULTI,
71 /** Waiting on a read write semaphore, read (shared) access. */
72 RTTHREADSTATE_RW_READ,
73 /** Waiting on a read write semaphore, write (exclusive) access. */
74 RTTHREADSTATE_RW_WRITE,
75 /** The thread is sleeping. */
76 RTTHREADSTATE_SLEEP,
77 /** The usual 32-bit size hack. */
78 RTTHREADSTATE_32BIT_HACK = 0x7fffffff
79} RTTHREADSTATE;
80
81/** Checks if a thread state indicates that the thread is sleeping. */
82#define RTTHREAD_IS_SLEEPING(enmState) ( (enmState) == RTTHREADSTATE_CRITSECT \
83 || (enmState) == RTTHREADSTATE_MUTEX \
84 || (enmState) == RTTHREADSTATE_EVENT \
85 || (enmState) == RTTHREADSTATE_EVENTMULTI \
86 || (enmState) == RTTHREADSTATE_RW_READ \
87 || (enmState) == RTTHREADSTATE_RW_WRITE \
88 || (enmState) == RTTHREADSTATE_SLEEP \
89 )
90
91/**
92 * Get the thread handle of the current thread.
93 *
94 * @returns Thread handle.
95 */
96RTDECL(RTTHREAD) RTThreadSelf(void);
97
98/**
99 * Get the native thread handle of the current thread.
100 *
101 * @returns Native thread handle.
102 */
103RTDECL(RTNATIVETHREAD) RTThreadNativeSelf(void);
104
105/**
106 * Millisecond granular sleep function.
107 *
108 * @returns VINF_SUCCESS on success.
109 * @returns VERR_INTERRUPTED if a signal or other asynchronous stuff happend
110 * which interrupt the peaceful sleep.
111 * @param cMillies Number of milliseconds to sleep.
112 * 0 milliseconds means yielding the timeslice - deprecated!
113 * @remark See RTThreadNanoSleep() for sleeping for smaller periods of time.
114 */
115RTDECL(int) RTThreadSleep(unsigned cMillies);
116
117/**
118 * Yields the CPU.
119 *
120 * @returns true if we yielded.
121 * @returns false if it's probable that we didn't yield.
122 */
123RTDECL(bool) RTThreadYield(void);
124
125
126
127/**
128 * Thread function.
129 *
130 * @returns 0 on success.
131 * @param ThreadSelf Thread handle to this thread.
132 * @param pvUser User argument.
133 */
134typedef DECLCALLBACK(int) FNRTTHREAD(RTTHREAD ThreadSelf, void *pvUser);
135/** Pointer to a FNRTTHREAD(). */
136typedef FNRTTHREAD *PFNRTTHREAD;
137
138/**
139 * Thread types.
140 * Besides identifying the purpose of the thread, the thread type is
141 * used to select the scheduling properties.
142 *
143 * The types in are placed in a rough order of ascending priority.
144 */
145typedef enum RTTHREADTYPE
146{
147 /** Invalid type. */
148 RTTHREADTYPE_INVALID = 0,
149 /** Infrequent poller thread.
150 * This type of thread will sleep for the most of the time, and do
151 * infrequent polls on resources at 0.5 sec or higher intervals.
152 */
153 RTTHREADTYPE_INFREQUENT_POLLER,
154 /** Main heavy worker thread.
155 * Thread of this type is driving asynchronous tasks in the Main
156 * API which takes a long time and might involve a bit of CPU. Like
157 * for instance creating a fixed sized VDI.
158 */
159 RTTHREADTYPE_MAIN_HEAVY_WORKER,
160 /** The emulation thread type.
161 * While being a thread with very high workload it still is vital
162 * that it gets scheduled frequently. When possible all other thread
163 * types except DEFAULT and GUI should interrupt this one ASAP when
164 * they become ready.
165 */
166 RTTHREADTYPE_EMULATION,
167 /** The default thread type.
168 * Since it doesn't say much about the purpose of the thread
169 * nothing special is normally done to the scheduling. This type
170 * should be avoided.
171 * The main thread is registered with default type during RTR3Init()
172 * and that's what the default process priority is derived from.
173 */
174 RTTHREADTYPE_DEFAULT,
175 /** The GUI thread type
176 * The GUI normally have a low workload but is frequently scheduled
177 * to handle events. When possible the scheduler should not leave
178 * threads of this kind waiting for too long (~50ms).
179 */
180 RTTHREADTYPE_GUI,
181 /** Main worker thread.
182 * Thread of this type is driving asynchronous tasks in the Main API.
183 * In most cases this means little work an a lot of waiting.
184 */
185 RTTHREADTYPE_MAIN_WORKER,
186 /** VRDP I/O thread.
187 * These threads are I/O threads in the RDP server will hang around
188 * waiting for data, process it and pass it on.
189 */
190 RTTHREADTYPE_VRDP_IO,
191 /** The debugger type.
192 * Threads involved in servicing the debugger. It must remain
193 * responsive even when things are running wild in.
194 */
195 RTTHREADTYPE_DEBUGGER,
196 /** Message pump thread.
197 * Thread pumping messages from one thread/process to another
198 * thread/process. The workload is very small, most of the time
199 * it's blocked waiting for messages to be procduced or processed.
200 * This type of thread will be favored after I/O threads.
201 */
202 RTTHREADTYPE_MSG_PUMP,
203 /** The I/O thread type.
204 * Doing I/O means shuffling data, waiting for request to arrive and
205 * for them to complete. The thread should be favored when competing
206 * with any other threads except timer threads.
207 */
208 RTTHREADTYPE_IO,
209 /** The timer thread type.
210 * A timer thread is mostly waiting for the timer to tick
211 * and then perform a little bit of work. Accuracy is important here,
212 * so the thread should be favoured over all threads. If premention can
213 * be configured at thread level, it could be made very short.
214 */
215 RTTHREADTYPE_TIMER,
216 /** Only used for validation. */
217 RTTHREADTYPE_END
218} RTTHREADTYPE;
219
220
221/**
222 * Thread creation flags.
223 */
224typedef enum RTTHREADFLAGS
225{
226 /**
227 * This flag is used to keep the thread structure around so it can
228 * be waited on after termination.
229 */
230 RTTHREADFLAGS_WAITABLE = RT_BIT(0),
231 /** The bit number corresponding to the RTTHREADFLAGS_WAITABLE mask. */
232 RTTHREADFLAGS_WAITABLE_BIT = 0,
233
234 /** Mask of valid flags, use for validation. */
235 RTTHREADFLAGS_MASK = RT_BIT(0)
236} RTTHREADFLAGS;
237
238
239/**
240 * Create a new thread.
241 *
242 * @returns iprt status code.
243 * @param pThread Where to store the thread handle to the new thread. (optional)
244 * @param pfnThread The thread function.
245 * @param pvUser User argument.
246 * @param cbStack The size of the stack for the new thread.
247 * Use 0 for the default stack size.
248 * @param enmType The thread type. Used for deciding scheduling attributes
249 * of the thread.
250 * @param fFlags Flags of the RTTHREADFLAGS type (ORed together).
251 * @param pszName Thread name.
252 *
253 * @remark When called in Ring-0, this API will create a new kernel thread and not a thread in
254 * the context of the calling process.
255 */
256RTDECL(int) RTThreadCreate(PRTTHREAD pThread, PFNRTTHREAD pfnThread, void *pvUser, size_t cbStack,
257 RTTHREADTYPE enmType, unsigned fFlags, const char *pszName);
258
259/**
260 * Create a new thread.
261 *
262 * Same as RTThreadCreate except the name is given in the RTStrPrintfV form.
263 *
264 * @returns iprt status code.
265 * @param pThread See RTThreadCreate.
266 * @param pfnThread See RTThreadCreate.
267 * @param pvUser See RTThreadCreate.
268 * @param cbStack See RTThreadCreate.
269 * @param enmType See RTThreadCreate.
270 * @param fFlags See RTThreadCreate.
271 * @param pszName Thread name format.
272 * @param va Format arguments.
273 */
274RTDECL(int) RTThreadCreateV(PRTTHREAD pThread, PFNRTTHREAD pfnThread, void *pvUser, size_t cbStack,
275 RTTHREADTYPE enmType, uint32_t fFlags, const char *pszNameFmt, va_list va);
276
277/**
278 * Create a new thread.
279 *
280 * Same as RTThreadCreate except the name is given in the RTStrPrintf form.
281 *
282 * @returns iprt status code.
283 * @param pThread See RTThreadCreate.
284 * @param pfnThread See RTThreadCreate.
285 * @param pvUser See RTThreadCreate.
286 * @param cbStack See RTThreadCreate.
287 * @param enmType See RTThreadCreate.
288 * @param fFlags See RTThreadCreate.
289 * @param pszName Thread name format.
290 * @param ... Format arguments.
291 */
292RTDECL(int) RTThreadCreateF(PRTTHREAD pThread, PFNRTTHREAD pfnThread, void *pvUser, size_t cbStack,
293 RTTHREADTYPE enmType, uint32_t fFlags, const char *pszNameFmt, ...);
294
295/**
296 * Gets the native thread id of a IPRT thread.
297 *
298 * @returns The native thread id.
299 * @param Thread The IPRT thread.
300 */
301RTDECL(RTNATIVETHREAD) RTThreadGetNative(RTTHREAD Thread);
302
303/**
304 * Gets the IPRT thread of a native thread.
305 *
306 * @returns The IPRT thread handle
307 * @returns NIL_RTTHREAD if not a thread known to IPRT.
308 * @param NativeThread The native thread handle/id.
309 */
310RTDECL(RTTHREAD) RTThreadFromNative(RTNATIVETHREAD NativeThread);
311
312/**
313 * Changes the type of the specified thread.
314 *
315 * @returns iprt status code.
316 * @param Thread The thread which type should be changed.
317 * @param enmType The new thread type.
318 * @remark In Ring-0 it only works if Thread == RTThreadSelf().
319 */
320RTDECL(int) RTThreadSetType(RTTHREAD Thread, RTTHREADTYPE enmType);
321
322/**
323 * Wait for the thread to terminate, resume on interruption.
324 *
325 * @returns iprt status code.
326 * Will not return VERR_INTERRUPTED.
327 * @param Thread The thread to wait for.
328 * @param cMillies The number of milliseconds to wait. Use RT_INDEFINITE_WAIT for
329 * an indefinite wait.
330 * @param prc Where to store the return code of the thread. Optional.
331 */
332RTDECL(int) RTThreadWait(RTTHREAD Thread, unsigned cMillies, int *prc);
333
334/**
335 * Wait for the thread to terminate, return on interruption.
336 *
337 * @returns iprt status code.
338 * @param Thread The thread to wait for.
339 * @param cMillies The number of milliseconds to wait. Use RT_INDEFINITE_WAIT for
340 * an indefinite wait.
341 * @param prc Where to store the return code of the thread. Optional.
342 */
343RTDECL(int) RTThreadWaitNoResume(RTTHREAD Thread, unsigned cMillies, int *prc);
344
345/**
346 * Gets the name of the current thread thread.
347 *
348 * @returns Pointer to readonly name string.
349 * @returns NULL on failure.
350 */
351RTDECL(const char *) RTThreadSelfName(void);
352
353/**
354 * Gets the name of a thread.
355 *
356 * @returns Pointer to readonly name string.
357 * @returns NULL on failure.
358 * @param Thread Thread handle of the thread to query the name of.
359 */
360RTDECL(const char *) RTThreadGetName(RTTHREAD Thread);
361
362/**
363 * Gets the type of the specified thread.
364 *
365 * @returns The thread type.
366 * @returns RTTHREADTYPE_INVALID if the thread handle is invalid.
367 * @param Thread The thread in question.
368 */
369RTDECL(RTTHREADTYPE) RTThreadGetType(RTTHREAD Thread);
370
371/**
372 * Sets the name of a thread.
373 *
374 * @returns iprt status code.
375 * @param Thread Thread handle of the thread to query the name of.
376 * @param pszName The thread name.
377 */
378RTDECL(int) RTThreadSetName(RTTHREAD Thread, const char *pszName);
379
380/**
381 * Checks if the specified thread is the main thread.
382 *
383 * @returns true if it is, false if it isn't.
384 *
385 * @param hThread The thread handle.
386 */
387RTDECL(bool) RTThreadIsMain(RTTHREAD hThread);
388
389/**
390 * Signal the user event.
391 *
392 * @returns iprt status code.
393 */
394RTDECL(int) RTThreadUserSignal(RTTHREAD Thread);
395
396/**
397 * Wait for the user event.
398 *
399 * @returns iprt status code.
400 * @param Thread The thread to wait for.
401 * @param cMillies The number of milliseconds to wait. Use RT_INDEFINITE_WAIT for
402 * an indefinite wait.
403 */
404RTDECL(int) RTThreadUserWait(RTTHREAD Thread, unsigned cMillies);
405
406/**
407 * Wait for the user event, return on interruption.
408 *
409 * @returns iprt status code.
410 * @param Thread The thread to wait for.
411 * @param cMillies The number of milliseconds to wait. Use RT_INDEFINITE_WAIT for
412 * an indefinite wait.
413 */
414RTDECL(int) RTThreadUserWaitNoResume(RTTHREAD Thread, unsigned cMillies);
415
416/**
417 * Reset the user event.
418 *
419 * @returns iprt status code.
420 * @param Thread The thread to reset.
421 */
422RTDECL(int) RTThreadUserReset(RTTHREAD Thread);
423
424/**
425 * Pokes the thread.
426 *
427 * This will signal the thread, attempting to interrupt whatever it's currently
428 * doing. This is *NOT* implemented on all platforms and may cause unresolved
429 * symbols during linking or VERR_NOT_IMPLEMENTED at runtime.
430 *
431 * @returns IPRT status code.
432 *
433 * @param hThread The thread to poke. This must not be the
434 * calling thread.
435 */
436RTDECL(int) RTThreadPoke(RTTHREAD hThread);
437
438#ifdef IN_RING0
439
440/**
441 * Check if preemption is currently enabled or not for the current thread.
442 *
443 * @note This may return true even on systems where preemption isn't
444 * possible. In that case, it means no call to RTThreadPreemptDisable
445 * has been made and interrupts are still enabled.
446 *
447 * @returns true if preemtion is enabled, false if preemetion is disabled.
448 * @param hThread Must be NIL_RTTHREAD for now.
449 */
450RTDECL(bool) RTThreadPreemptIsEnabled(RTTHREAD hThread);
451
452/**
453 * Check if preemption is pending for the current thread.
454 *
455 * This function should be called regularly when executing larger portions of
456 * code with preemption disabled.
457 *
458 * @returns true if pending, false if not.
459 * @param hThread Must be NIL_RTTHREAD for now.
460 */
461RTDECL(bool) RTThreadPreemptIsPending(RTTHREAD hThread);
462
463/**
464 * Is RTThreadPreemptIsPending reliable?
465 *
466 * @returns true if reliable, false if not.
467 */
468RTDECL(bool) RTThreadPreemptIsPendingTrusty(void);
469
470/**
471 * Is preemption possible on this system.
472 *
473 * @returns true if possible, false if not.
474 */
475RTDECL(bool) RTThreadPreemptIsPossible(void);
476
477/**
478 * Preemption state saved by RTThreadPreemptDisable and used by
479 * RTThreadPreemptRestore to restore the previous state.
480 */
481typedef struct RTTHREADPREEMPTSTATE
482{
483 /** In debug builds this will be used to check for cpu migration. */
484 RTCPUID idCpu;
485#ifdef RT_OS_WINDOWS
486 /** The old IRQL. Don't touch! */
487 unsigned char uchOldIrql;
488 /** Reserved, MBZ. */
489 uint8_t bReserved1;
490 /** Reserved, MBZ. */
491 uint8_t bReserved2;
492 /** Reserved, MBZ. */
493 uint8_t bReserved3;
494# define RTTHREADPREEMPTSTATE_INITIALIZER { NIL_RTCPUID, 255, 0, 0, 0 }
495#elif defined(RT_OS_SOLARIS)
496 /** The Old PIL. Don't touch! */
497 uint32_t uOldPil;
498# define RTTHREADPREEMPTSTATE_INITIALIZER { NIL_RTCPUID, UINT32_MAX }
499#else
500 /** Reserved, MBZ. */
501 uint32_t u32Reserved;
502# define RTTHREADPREEMPTSTATE_INITIALIZER { NIL_RTCPUID, 0 }
503#endif
504} RTTHREADPREEMPTSTATE;
505/** Pointer to a preemption state. */
506typedef RTTHREADPREEMPTSTATE *PRTTHREADPREEMPTSTATE;
507
508/**
509 * Disable preemption.
510 *
511 * A call to this function must be matched by exactly one call to
512 * RTThreadPreemptRestore().
513 *
514 * @param pState Where to store the preemption state.
515 */
516RTDECL(void) RTThreadPreemptDisable(PRTTHREADPREEMPTSTATE pState);
517
518/**
519 * Restores the preemption state, undoing a previous call to
520 * RTThreadPreemptDisable.
521 *
522 * A call to this function must be matching a previous call to
523 * RTThreadPreemptDisable.
524 *
525 * @param pState The state return by RTThreadPreemptDisable.
526 */
527RTDECL(void) RTThreadPreemptRestore(PRTTHREADPREEMPTSTATE pState);
528
529/**
530 * Check if the thread is executing in interrupt context.
531 *
532 * @returns true if in interrupt context, false if not.
533 * @param hThread Must be NIL_RTTHREAD for now.
534 */
535RTDECL(bool) RTThreadIsInInterrupt(RTTHREAD hThread);
536
537#endif /* IN_RING0 */
538
539
540#ifdef IN_RING3
541
542/**
543 * Adopts a non-IPRT thread.
544 *
545 * @returns IPRT status code.
546 * @param enmType The thread type.
547 * @param fFlags The thread flags. RTTHREADFLAGS_WAITABLE is not currently allowed.
548 * @param pszName The thread name. Optional
549 * @param pThread Where to store the thread handle. Optional.
550 */
551RTDECL(int) RTThreadAdopt(RTTHREADTYPE enmType, unsigned fFlags, const char *pszName, PRTTHREAD pThread);
552
553/**
554 * Gets the affinity mask of the current thread.
555 *
556 * @returns The affinity mask (bit 0 = logical cpu 0).
557 */
558RTR3DECL(uint64_t) RTThreadGetAffinity(void);
559
560/**
561 * Sets the affinity mask of the current thread.
562 *
563 * @returns iprt status code.
564 * @param u64Mask Affinity mask (bit 0 = logical cpu 0).
565 */
566RTR3DECL(int) RTThreadSetAffinity(uint64_t u64Mask);
567
568/**
569 * Gets the number of write locks and critical sections the specified
570 * thread owns.
571 *
572 * This number does not include any nested lock/critect entries.
573 *
574 * Note that it probably will return 0 for non-strict builds since
575 * release builds doesn't do unnecessary diagnostic counting like this.
576 *
577 * @returns Number of locks on success (0+) and VERR_INVALID_HANDLER on failure
578 * @param Thread The thread we're inquiring about.
579 * @remarks Will only work for strict builds.
580 */
581RTDECL(int32_t) RTThreadGetWriteLockCount(RTTHREAD Thread);
582
583/**
584 * Works the THREADINT::cWriteLocks member, mostly internal.
585 *
586 * @param Thread The current thread.
587 */
588RTDECL(void) RTThreadWriteLockInc(RTTHREAD Thread);
589
590/**
591 * Works the THREADINT::cWriteLocks member, mostly internal.
592 *
593 * @param Thread The current thread.
594 */
595RTDECL(void) RTThreadWriteLockDec(RTTHREAD Thread);
596
597/**
598 * Gets the number of read locks the specified thread owns.
599 *
600 * Note that nesting read lock entry will be included in the
601 * total sum. And that it probably will return 0 for non-strict
602 * builds since release builds doesn't do unnecessary diagnostic
603 * counting like this.
604 *
605 * @returns Number of read locks on success (0+) and VERR_INVALID_HANDLER on failure
606 * @param Thread The thread we're inquiring about.
607 */
608RTDECL(int32_t) RTThreadGetReadLockCount(RTTHREAD Thread);
609
610/**
611 * Works the THREADINT::cReadLocks member.
612 *
613 * @param Thread The current thread.
614 */
615RTDECL(void) RTThreadReadLockInc(RTTHREAD Thread);
616
617/**
618 * Works the THREADINT::cReadLocks member.
619 *
620 * @param Thread The current thread.
621 */
622RTDECL(void) RTThreadReadLockDec(RTTHREAD Thread);
623
624/**
625 * Unblocks a thread.
626 *
627 * This function is paired with rtThreadBlocking.
628 *
629 * @param hThread The current thread.
630 * @param enmCurState The current state, used to check for nested blocking.
631 * The new state will be running.
632 */
633RTDECL(void) RTThreadUnblocked(RTTHREAD hThread, RTTHREADSTATE enmCurState);
634
635/**
636 * Change the thread state to blocking and do deadlock detection.
637 *
638 * This is a RT_STRICT method for debugging locks and detecting deadlocks.
639 *
640 * @param hThread The current thread.
641 * @param enmState The sleep state.
642 * @param u64Block The block data. A pointer or handle.
643 * @param pszFile Where we are blocking.
644 * @param uLine Where we are blocking.
645 * @param uId Where we are blocking.
646 */
647RTDECL(void) RTThreadBlocking(RTTHREAD hThread, RTTHREADSTATE enmState, uint64_t u64Block,
648 const char *pszFile, unsigned uLine, RTUINTPTR uId);
649
650
651
652/** @name Thread Local Storage
653 * @{
654 */
655/**
656 * Thread termination callback for destroying a non-zero TLS entry.
657 *
658 * @remarks It is not permittable to use any RTTls APIs at this time. Doing so
659 * may lead to endless loops, crashes, and other bad stuff.
660 *
661 * @param pvValue The current value.
662 */
663typedef DECLCALLBACK(void) FNRTTLSDTOR(void *pvValue);
664/** Pointer to a FNRTTLSDTOR. */
665typedef FNRTTLSDTOR *PFNRTTLSDTOR;
666
667/**
668 * Allocates a TLS entry (index).
669 *
670 * Example code:
671 * @code
672 RTTLS g_iTls = NIL_RTTLS;
673
674 ...
675
676 // once for the process, allocate the TLS index
677 if (g_iTls == NIL_RTTLS)
678 g_iTls = RTTlsAlloc();
679
680 // set the thread-local value.
681 RTTlsSet(g_iTls, pMyData);
682
683 ...
684
685 // get the thread-local value
686 PMYDATA pMyData = (PMYDATA)RTTlsGet(g_iTls);
687
688 @endcode
689 *
690 * @returns the index of the allocated TLS entry.
691 * @returns NIL_RTTLS on failure.
692 */
693RTR3DECL(RTTLS) RTTlsAlloc(void);
694
695/**
696 * Variant of RTTlsAlloc that returns a status code.
697 *
698 * @returns IPRT status code.
699 * @retval VERR_NOT_SUPPORTED if pfnDestructor is non-NULL and the platform
700 * doesn't support this feature.
701 *
702 * @param piTls Where to store the index of the allocated TLS entry.
703 * This is set to NIL_RTTLS on failure.
704 * @param pfnDestructor Optional callback function for cleaning up on
705 * thread termination. WARNING! This feature may not
706 * be implemented everywhere.
707 */
708RTR3DECL(int) RTTlsAllocEx(PRTTLS piTls, PFNRTTLSDTOR pfnDestructor);
709
710/**
711 * Frees a TLS entry.
712 *
713 * @returns IPRT status code.
714 * @param iTls The index of the TLS entry.
715 */
716RTR3DECL(int) RTTlsFree(RTTLS iTls);
717
718/**
719 * Get the (thread-local) value stored in a TLS entry.
720 *
721 * @returns value in given TLS entry.
722 * @retval NULL if RTTlsSet() has not yet been called on this thread, or if the
723 * TLS index is invalid.
724 *
725 * @param iTls The index of the TLS entry.
726 */
727RTR3DECL(void *) RTTlsGet(RTTLS iTls);
728
729/**
730 * Get the value stored in a TLS entry.
731 *
732 * @returns IPRT status code.
733 * @param iTls The index of the TLS entry.
734 * @param ppvValue Where to store the value. The value will be NULL if
735 * RTTlsSet has not yet been called on this thread.
736 */
737RTR3DECL(int) RTTlsGetEx(RTTLS iTls, void **ppvValue);
738
739/**
740 * Set the value stored in an allocated TLS entry.
741 *
742 * @returns IPRT status.
743 * @param iTls The index of the TLS entry.
744 * @param pvValue The value to store.
745 *
746 * @remarks Note that NULL is considered a special value.
747 */
748RTR3DECL(int) RTTlsSet(RTTLS iTls, void *pvValue);
749
750/** @} */
751
752#endif /* IN_RING3 */
753
754/** @} */
755
756RT_C_DECLS_END
757
758#endif
759
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