1 /*--------------------------------------------------------------------*/ 2 /*--- Client-space code for DRD. drd_pthread_intercepts.c ---*/ 3 /*--------------------------------------------------------------------*/ 4 5 /* 6 This file is part of DRD, a thread error detector. 7 8 Copyright (C) 2006-2012 Bart Van Assche <bvanassche (at) acm.org>. 9 10 This program is free software; you can redistribute it and/or 11 modify it under the terms of the GNU General Public License as 12 published by the Free Software Foundation; either version 2 of the 13 License, or (at your option) any later version. 14 15 This program is distributed in the hope that it will be useful, but 16 WITHOUT ANY WARRANTY; without even the implied warranty of 17 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 18 General Public License for more details. 19 20 You should have received a copy of the GNU General Public License 21 along with this program; if not, write to the Free Software 22 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 23 02111-1307, USA. 24 25 The GNU General Public License is contained in the file COPYING. 26 */ 27 28 /* --------------------------------------------------------------------- 29 ALL THE CODE IN THIS FILE RUNS ON THE SIMULATED CPU. 30 31 These functions are not called directly - they're the targets of code 32 redirection or load notifications (see pub_core_redir.h for info). 33 They're named weirdly so that the intercept code can find them when the 34 shared object is initially loaded. 35 36 Note that this filename has the "drd_" prefix because it can appear 37 in stack traces, and the "drd_" makes it a little clearer that it 38 originates from Valgrind. 39 ------------------------------------------------------------------ */ 40 41 /* 42 * Define _GNU_SOURCE to make sure that pthread_spinlock_t is available when 43 * compiling with older glibc versions (2.3 or before). 44 */ 45 #ifndef _GNU_SOURCE 46 #define _GNU_SOURCE 47 #endif 48 49 #include <assert.h> /* assert() */ 50 #include <errno.h> 51 #include <pthread.h> /* pthread_mutex_t */ 52 #include <semaphore.h> /* sem_t */ 53 #include <stdint.h> /* uintptr_t */ 54 #include <stdio.h> /* fprintf() */ 55 #include <stdlib.h> /* malloc(), free() */ 56 #include <unistd.h> /* confstr() */ 57 #include "config.h" /* HAVE_PTHREAD_MUTEX_ADAPTIVE_NP etc. */ 58 #ifdef HAVE_USABLE_LINUX_FUTEX_H 59 #include <asm/unistd.h> /* __NR_futex */ 60 #include <linux/futex.h> /* FUTEX_WAIT */ 61 #ifndef FUTEX_PRIVATE_FLAG 62 #define FUTEX_PRIVATE_FLAG 0 63 #endif 64 #endif 65 #include "drd_basics.h" /* DRD_() */ 66 #include "drd_clientreq.h" 67 #include "pub_tool_redir.h" /* VG_WRAP_FUNCTION_ZZ() */ 68 69 70 /* 71 * Notes regarding thread creation: 72 * - sg_init() runs on the context of the created thread and copies the vector 73 * clock of the creator thread. This only works reliably if the creator 74 * thread waits until this copy has been performed. 75 * - DRD_(thread_compute_minimum_vc)() does not take the vector clocks into 76 * account that are involved in thread creation and for which the 77 * corresponding thread has not yet been created. So not waiting until the 78 * created thread has been started would make it possible that segments get 79 * discarded that should not yet be discarded. Or: some data races are not 80 * detected. 81 */ 82 83 /** 84 * Macro for generating a Valgrind interception function. 85 * @param[in] ret_ty Return type of the function to be generated. 86 * @param[in] zf Z-encoded name of the interception function. 87 * @param[in] implf Name of the function that implements the intercept. 88 * @param[in] arg_decl Argument declaration list enclosed in parentheses. 89 * @param[in] argl Argument list enclosed in parentheses. 90 */ 91 #ifdef VGO_darwin 92 static int never_true; 93 #define PTH_FUNC(ret_ty, zf, implf, argl_decl, argl) \ 94 ret_ty VG_WRAP_FUNCTION_ZZ(VG_Z_LIBPTHREAD_SONAME,zf) argl_decl; \ 95 ret_ty VG_WRAP_FUNCTION_ZZ(VG_Z_LIBPTHREAD_SONAME,zf) argl_decl \ 96 { \ 97 ret_ty pth_func_result = implf argl; \ 98 /* Apparently inserting a function call in wrapper functions */ \ 99 /* is sufficient to avoid misaligned stack errors. */ \ 100 if (never_true) \ 101 fflush(stdout); \ 102 return pth_func_result; \ 103 } 104 #else 105 #define PTH_FUNC(ret_ty, zf, implf, argl_decl, argl) \ 106 ret_ty VG_WRAP_FUNCTION_ZZ(VG_Z_LIBPTHREAD_SONAME,zf) argl_decl; \ 107 ret_ty VG_WRAP_FUNCTION_ZZ(VG_Z_LIBPTHREAD_SONAME,zf) argl_decl \ 108 { return implf argl; } 109 #endif 110 111 /** 112 * Macro for generating three Valgrind interception functions: one with the 113 * Z-encoded name zf, one with ZAZa ("@*") appended to the name zf and one 114 * with ZDZa ("$*") appended to the name zf. The second generated interception 115 * function will intercept versioned symbols on Linux, and the third will 116 * intercept versioned symbols on Darwin. 117 */ 118 #define PTH_FUNCS(ret_ty, zf, implf, argl_decl, argl) \ 119 PTH_FUNC(ret_ty, zf, implf, argl_decl, argl); \ 120 PTH_FUNC(ret_ty, zf ## ZAZa, implf, argl_decl, argl); \ 121 PTH_FUNC(ret_ty, zf ## ZDZa, implf, argl_decl, argl); 122 123 /* 124 * Not inlining one of the intercept functions will cause the regression 125 * tests to fail because this would cause an additional stackfram to appear 126 * in the output. The __always_inline macro guarantees that inlining will 127 * happen, even when compiling with optimization disabled. 128 */ 129 #undef __always_inline /* since already defined in <cdefs.h> */ 130 #if __GNUC__ > 3 || __GNUC__ == 3 && __GNUC_MINOR__ >= 2 131 #define __always_inline __inline__ __attribute__((always_inline)) 132 #else 133 #define __always_inline __inline__ 134 #endif 135 136 /* Local data structures. */ 137 138 typedef struct { 139 pthread_mutex_t mutex; 140 int counter; 141 int waiters; 142 } DrdSema; 143 144 typedef struct 145 { 146 void* (*start)(void*); 147 void* arg; 148 int detachstate; 149 DrdSema* wrapper_started; 150 } DrdPosixThreadArgs; 151 152 153 /* Local function declarations. */ 154 155 static void DRD_(init)(void) __attribute__((constructor)); 156 static void DRD_(check_threading_library)(void); 157 static void DRD_(set_main_thread_state)(void); 158 static void DRD_(sema_init)(DrdSema* sema); 159 static void DRD_(sema_destroy)(DrdSema* sema); 160 static void DRD_(sema_down)(DrdSema* sema); 161 static void DRD_(sema_up)(DrdSema* sema); 162 163 164 /* Function definitions. */ 165 166 /** 167 * Shared library initialization function. The function init() is called after 168 * dlopen() has loaded the shared library with DRD client intercepts because 169 * the constructor attribute was specified in the declaration of this function. 170 * Note: do specify the -nostdlib option to gcc when linking this code into a 171 * shared library because doing so would cancel the effect of the constructor 172 * attribute ! Using the gcc option -nodefaultlibs is fine because this last 173 * option preserves the shared library initialization code that calls 174 * constructor and destructor functions. 175 */ 176 static void DRD_(init)(void) 177 { 178 DRD_(check_threading_library)(); 179 DRD_(set_main_thread_state)(); 180 } 181 182 static void DRD_(sema_init)(DrdSema* sema) 183 { 184 DRD_IGNORE_VAR(sema->counter); 185 pthread_mutex_init(&sema->mutex, NULL); 186 sema->counter = 0; 187 sema->waiters = 0; 188 } 189 190 static void DRD_(sema_destroy)(DrdSema* sema) 191 { 192 pthread_mutex_destroy(&sema->mutex); 193 } 194 195 static void DRD_(sema_down)(DrdSema* sema) 196 { 197 int res = ENOSYS; 198 199 pthread_mutex_lock(&sema->mutex); 200 if (sema->counter == 0) { 201 sema->waiters++; 202 while (sema->counter == 0) { 203 pthread_mutex_unlock(&sema->mutex); 204 #ifdef HAVE_USABLE_LINUX_FUTEX_H 205 if (syscall(__NR_futex, (UWord)&sema->counter, 206 FUTEX_WAIT | FUTEX_PRIVATE_FLAG, 0) == 0) 207 res = 0; 208 else 209 res = errno; 210 #endif 211 /* 212 * Invoke sched_yield() on non-Linux systems, if the futex syscall has 213 * not been invoked or if this code has been built on a Linux system 214 * where __NR_futex is defined and is run on a Linux system that does 215 * not support the futex syscall. 216 */ 217 if (res != 0 && res != EWOULDBLOCK) 218 sched_yield(); 219 pthread_mutex_lock(&sema->mutex); 220 } 221 sema->waiters--; 222 } 223 sema->counter--; 224 pthread_mutex_unlock(&sema->mutex); 225 } 226 227 static void DRD_(sema_up)(DrdSema* sema) 228 { 229 pthread_mutex_lock(&sema->mutex); 230 sema->counter++; 231 #ifdef HAVE_USABLE_LINUX_FUTEX_H 232 if (sema->waiters > 0) 233 syscall(__NR_futex, (UWord)&sema->counter, 234 FUTEX_WAKE | FUTEX_PRIVATE_FLAG, 1); 235 #endif 236 pthread_mutex_unlock(&sema->mutex); 237 } 238 239 /** 240 * POSIX threads and DRD each have their own mutex type identification. 241 * Convert POSIX threads' mutex type to DRD's mutex type. In the code below 242 * if-statements are used to test the value of 'kind' instead of a switch 243 * statement because some of the PTHREAD_MUTEX_ macro's may have the same 244 * value. 245 */ 246 static MutexT DRD_(pthread_to_drd_mutex_type)(const int kind) 247 { 248 if (kind == PTHREAD_MUTEX_RECURSIVE) 249 return mutex_type_recursive_mutex; 250 else if (kind == PTHREAD_MUTEX_ERRORCHECK) 251 return mutex_type_errorcheck_mutex; 252 else if (kind == PTHREAD_MUTEX_NORMAL) 253 return mutex_type_default_mutex; 254 else if (kind == PTHREAD_MUTEX_DEFAULT) 255 return mutex_type_default_mutex; 256 #if defined(HAVE_PTHREAD_MUTEX_ADAPTIVE_NP) 257 else if (kind == PTHREAD_MUTEX_ADAPTIVE_NP) 258 return mutex_type_default_mutex; 259 #endif 260 else 261 { 262 return mutex_type_invalid_mutex; 263 } 264 } 265 266 #define IS_ALIGNED(p) (((uintptr_t)(p) & (sizeof(*(p)) - 1)) == 0) 267 268 /** 269 * Read the mutex type stored in the client memory used for the mutex 270 * implementation. 271 * 272 * @note This function depends on the implementation of the POSIX threads 273 * library -- the POSIX standard does not define the name of the member in 274 * which the mutex type is stored. 275 * @note The function mutex_type() has been declared inline in order 276 * to avoid that it shows up in call stacks (drd/tests/...exp* files). 277 * @note glibc stores the mutex type in the lowest two bits, and uses the 278 * higher bits for flags like PTHREAD_MUTEXATTR_FLAG_ROBUST and 279 * PTHREAD_MUTEXATTR_FLAG_PSHARED. 280 */ 281 static __always_inline MutexT DRD_(mutex_type)(pthread_mutex_t* mutex) 282 { 283 #if defined(HAVE_PTHREAD_MUTEX_T__M_KIND) 284 /* glibc + LinuxThreads. */ 285 if (IS_ALIGNED(&mutex->__m_kind)) 286 { 287 const int kind = mutex->__m_kind & 3; 288 return DRD_(pthread_to_drd_mutex_type)(kind); 289 } 290 #elif defined(HAVE_PTHREAD_MUTEX_T__DATA__KIND) 291 /* glibc + NPTL. */ 292 if (IS_ALIGNED(&mutex->__data.__kind)) 293 { 294 const int kind = mutex->__data.__kind & 3; 295 return DRD_(pthread_to_drd_mutex_type)(kind); 296 } 297 #else 298 /* 299 * Another POSIX threads implementation. The mutex type won't be printed 300 * when enabling --trace-mutex=yes. 301 */ 302 #endif 303 return mutex_type_unknown; 304 } 305 306 /** 307 * Tell DRD whether 'tid' is a joinable thread or a detached thread. 308 */ 309 static void DRD_(set_joinable)(const pthread_t tid, const int joinable) 310 { 311 assert(joinable == 0 || joinable == 1); 312 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__SET_JOINABLE, 313 tid, joinable, 0, 0, 0); 314 } 315 316 /** Tell DRD that the calling thread is about to enter pthread_create(). */ 317 static __always_inline void DRD_(entering_pthread_create)(void) 318 { 319 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__ENTERING_PTHREAD_CREATE, 320 0, 0, 0, 0, 0); 321 } 322 323 /** Tell DRD that the calling thread has left pthread_create(). */ 324 static __always_inline void DRD_(left_pthread_create)(void) 325 { 326 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__LEFT_PTHREAD_CREATE, 327 0, 0, 0, 0, 0); 328 } 329 330 /** 331 * Entry point for newly created threads. This function is called from the 332 * thread created by pthread_create(). 333 */ 334 static void* DRD_(thread_wrapper)(void* arg) 335 { 336 DrdPosixThreadArgs* arg_ptr; 337 DrdPosixThreadArgs arg_copy; 338 339 arg_ptr = (DrdPosixThreadArgs*)arg; 340 arg_copy = *arg_ptr; 341 342 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__SET_PTHREADID, 343 pthread_self(), 0, 0, 0, 0); 344 345 DRD_(set_joinable)(pthread_self(), 346 arg_copy.detachstate == PTHREAD_CREATE_JOINABLE); 347 348 /* 349 * Only set 'wrapper_started' after VG_USERREQ__SET_PTHREADID and 350 * DRD_(set_joinable)() have been invoked to avoid a race with 351 * a pthread_detach() invocation for this thread from another thread. 352 */ 353 DRD_(sema_up)(arg_copy.wrapper_started); 354 355 return (arg_copy.start)(arg_copy.arg); 356 } 357 358 /** 359 * Return 1 if the LinuxThreads implementation of POSIX Threads has been 360 * detected, and 0 otherwise. 361 * 362 * @see For more information about the confstr() function, see also 363 * http://www.opengroup.org/onlinepubs/009695399/functions/confstr.html 364 */ 365 static int DRD_(detected_linuxthreads)(void) 366 { 367 #if defined(linux) 368 #if defined(_CS_GNU_LIBPTHREAD_VERSION) 369 /* Linux with a recent glibc. */ 370 char buffer[256]; 371 unsigned len; 372 len = confstr(_CS_GNU_LIBPTHREAD_VERSION, buffer, sizeof(buffer)); 373 assert(len <= sizeof(buffer)); 374 return len > 0 && buffer[0] == 'l'; 375 #else 376 /* Linux without _CS_GNU_LIBPTHREAD_VERSION: most likely LinuxThreads. */ 377 return 1; 378 #endif 379 #else 380 /* Another OS than Linux, hence no LinuxThreads. */ 381 return 0; 382 #endif 383 } 384 385 /** 386 * Stop and print an error message in case a non-supported threading 387 * library implementation (LinuxThreads) has been detected. 388 */ 389 static void DRD_(check_threading_library)(void) 390 { 391 if (DRD_(detected_linuxthreads)()) 392 { 393 if (getenv("LD_ASSUME_KERNEL")) 394 { 395 fprintf(stderr, 396 "Detected the LinuxThreads threading library. Sorry, but DRD only supports\n" 397 "the newer NPTL (Native POSIX Threads Library). Please try to rerun DRD\n" 398 "after having unset the environment variable LD_ASSUME_KERNEL. Giving up.\n" 399 ); 400 } 401 else 402 { 403 fprintf(stderr, 404 "Detected the LinuxThreads threading library. Sorry, but DRD only supports\n" 405 "the newer NPTL (Native POSIX Threads Library). Please try to rerun DRD\n" 406 "after having upgraded to a newer version of your Linux distribution.\n" 407 "Giving up.\n" 408 ); 409 } 410 abort(); 411 } 412 } 413 414 /** 415 * The main thread is the only thread not created by pthread_create(). 416 * Update DRD's state information about the main thread. 417 */ 418 static void DRD_(set_main_thread_state)(void) 419 { 420 // Make sure that DRD knows about the main thread's POSIX thread ID. 421 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__SET_PTHREADID, 422 pthread_self(), 0, 0, 0, 0); 423 } 424 425 /* 426 * Note: as of today there exist three different versions of pthread_create 427 * in Linux: 428 * - pthread_create (at) GLIBC_2.0 429 * - pthread_create@@GLIBC_2.1 430 * - pthread_create@@GLIBC_2.2.5 431 * As an example, in libpthread-2.3.4 both pthread_create (at) GLIBC_2.0 and 432 * pthread_create@@GLIBC_2.1 are defined, while in libpthread-2.9 all three 433 * versions have been implemented. In any glibc version where more than one 434 * pthread_create function has been implemented, older versions call the 435 * newer versions. Or: the pthread_create* wrapper defined below can be 436 * called recursively. Any code in this wrapper should take this in account. 437 * As an example, it is not safe to invoke the DRD_STOP_RECORDING 438 * / DRD_START_RECORDING client requests from the pthread_create wrapper. 439 * See also the implementation of pthread_create (at) GLIBC_2.0 in 440 * glibc-2.9/nptl/pthread_create.c. 441 */ 442 443 static __always_inline 444 int pthread_create_intercept(pthread_t* thread, const pthread_attr_t* attr, 445 void* (*start)(void*), void* arg) 446 { 447 int ret; 448 OrigFn fn; 449 DrdSema wrapper_started; 450 DrdPosixThreadArgs thread_args; 451 452 VALGRIND_GET_ORIG_FN(fn); 453 454 DRD_(sema_init)(&wrapper_started); 455 thread_args.start = start; 456 thread_args.arg = arg; 457 thread_args.wrapper_started = &wrapper_started; 458 /* 459 * Find out whether the thread will be started as a joinable thread 460 * or as a detached thread. If no thread attributes have been specified, 461 * this means that the new thread will be started as a joinable thread. 462 */ 463 thread_args.detachstate = PTHREAD_CREATE_JOINABLE; 464 if (attr) 465 { 466 if (pthread_attr_getdetachstate(attr, &thread_args.detachstate) != 0) 467 assert(0); 468 } 469 assert(thread_args.detachstate == PTHREAD_CREATE_JOINABLE 470 || thread_args.detachstate == PTHREAD_CREATE_DETACHED); 471 472 DRD_(entering_pthread_create)(); 473 CALL_FN_W_WWWW(ret, fn, thread, attr, DRD_(thread_wrapper), &thread_args); 474 DRD_(left_pthread_create)(); 475 476 if (ret == 0) { 477 /* Wait until the thread wrapper started. */ 478 DRD_(sema_down)(&wrapper_started); 479 } 480 481 DRD_(sema_destroy)(&wrapper_started); 482 483 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__DRD_START_NEW_SEGMENT, 484 pthread_self(), 0, 0, 0, 0); 485 486 return ret; 487 } 488 489 PTH_FUNCS(int, pthreadZucreate, pthread_create_intercept, 490 (pthread_t *thread, const pthread_attr_t *attr, 491 void *(*start) (void *), void *arg), 492 (thread, attr, start, arg)); 493 494 static __always_inline 495 int pthread_join_intercept(pthread_t pt_joinee, void **thread_return) 496 { 497 int ret; 498 OrigFn fn; 499 500 VALGRIND_GET_ORIG_FN(fn); 501 /* 502 * Avoid that the sys_futex(td->tid) call invoked by the NPTL pthread_join() 503 * implementation triggers a (false positive) race report. 504 */ 505 ANNOTATE_IGNORE_READS_AND_WRITES_BEGIN(); 506 CALL_FN_W_WW(ret, fn, pt_joinee, thread_return); 507 if (ret == 0) 508 { 509 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_THREAD_JOIN, 510 pt_joinee, 0, 0, 0, 0); 511 } 512 ANNOTATE_IGNORE_READS_AND_WRITES_END(); 513 return ret; 514 } 515 516 PTH_FUNCS(int, pthreadZujoin, pthread_join_intercept, 517 (pthread_t pt_joinee, void **thread_return), 518 (pt_joinee, thread_return)); 519 520 static __always_inline 521 int pthread_detach_intercept(pthread_t pt_thread) 522 { 523 int ret; 524 OrigFn fn; 525 526 VALGRIND_GET_ORIG_FN(fn); 527 CALL_FN_W_W(ret, fn, pt_thread); 528 DRD_(set_joinable)(pt_thread, 0); 529 530 return ret; 531 } 532 533 PTH_FUNCS(int, pthreadZudetach, pthread_detach_intercept, 534 (pthread_t thread), (thread)); 535 536 // Don't intercept pthread_cancel() because pthread_cancel_init() loads 537 // libgcc.so. That library is loaded by calling _dl_open(). The function 538 // dl_open_worker() looks up from which object the caller is calling in 539 // GL(dn_ns)[]. Since the DRD intercepts are linked into vgpreload_drd-*.so 540 // and since that object file is not loaded through glibc, glibc does not 541 // have any information about that object. That results in the following 542 // segmentation fault on at least Fedora 17 x86_64: 543 // Process terminating with default action of signal 11 (SIGSEGV) 544 // General Protection Fault 545 // at 0x4006B75: _dl_map_object_from_fd (dl-load.c:1580) 546 // by 0x4008312: _dl_map_object (dl-load.c:2355) 547 // by 0x4012FFB: dl_open_worker (dl-open.c:226) 548 // by 0x400ECB5: _dl_catch_error (dl-error.c:178) 549 // by 0x4012B2B: _dl_open (dl-open.c:652) 550 // by 0x5184511: do_dlopen (dl-libc.c:89) 551 // by 0x400ECB5: _dl_catch_error (dl-error.c:178) 552 // by 0x51845D1: __libc_dlopen_mode (dl-libc.c:48) 553 // by 0x4E4A703: pthread_cancel_init (unwind-forcedunwind.c:53) 554 // by 0x4E476F2: pthread_cancel (pthread_cancel.c:40) 555 // by 0x4C2C050: pthread_cancel (drd_pthread_intercepts.c:547) 556 // by 0x400B3A: main (bar_bad.c:83) 557 #if 0 558 // NOTE: be careful to intercept only pthread_cancel() and not 559 // pthread_cancel_init() on Linux. 560 561 static __always_inline 562 int pthread_cancel_intercept(pthread_t pt_thread) 563 { 564 int ret; 565 OrigFn fn; 566 VALGRIND_GET_ORIG_FN(fn); 567 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_THREAD_CANCEL, 568 pt_thread, 0, 0, 0, 0); 569 CALL_FN_W_W(ret, fn, pt_thread); 570 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_THREAD_CANCEL, 571 pt_thread, ret==0, 0, 0, 0); 572 return ret; 573 } 574 575 PTH_FUNCS(int, pthreadZucancel, pthread_cancel_intercept, 576 (pthread_t thread), (thread)) 577 #endif 578 579 static __always_inline 580 int pthread_once_intercept(pthread_once_t *once_control, 581 void (*init_routine)(void)) 582 { 583 int ret; 584 OrigFn fn; 585 VALGRIND_GET_ORIG_FN(fn); 586 /* 587 * Ignore any data races triggered by the implementation of pthread_once(). 588 * Necessary for Darwin. This is not necessary for Linux but doesn't have 589 * any known adverse effects. 590 */ 591 DRD_IGNORE_VAR(*once_control); 592 ANNOTATE_IGNORE_READS_AND_WRITES_BEGIN(); 593 CALL_FN_W_WW(ret, fn, once_control, init_routine); 594 ANNOTATE_IGNORE_READS_AND_WRITES_END(); 595 DRD_STOP_IGNORING_VAR(*once_control); 596 return ret; 597 } 598 599 PTH_FUNCS(int, pthreadZuonce, pthread_once_intercept, 600 (pthread_once_t *once_control, void (*init_routine)(void)), 601 (once_control, init_routine)); 602 603 static __always_inline 604 int pthread_mutex_init_intercept(pthread_mutex_t *mutex, 605 const pthread_mutexattr_t* attr) 606 { 607 int ret; 608 OrigFn fn; 609 int mt; 610 VALGRIND_GET_ORIG_FN(fn); 611 mt = PTHREAD_MUTEX_DEFAULT; 612 if (attr) 613 pthread_mutexattr_gettype(attr, &mt); 614 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_INIT, 615 mutex, DRD_(pthread_to_drd_mutex_type)(mt), 616 0, 0, 0); 617 CALL_FN_W_WW(ret, fn, mutex, attr); 618 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_INIT, 619 mutex, 0, 0, 0, 0); 620 return ret; 621 } 622 623 PTH_FUNCS(int, pthreadZumutexZuinit, pthread_mutex_init_intercept, 624 (pthread_mutex_t *mutex, const pthread_mutexattr_t* attr), 625 (mutex, attr)); 626 627 static __always_inline 628 int pthread_mutex_destroy_intercept(pthread_mutex_t* mutex) 629 { 630 int ret; 631 OrigFn fn; 632 VALGRIND_GET_ORIG_FN(fn); 633 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_DESTROY, 634 mutex, 0, 0, 0, 0); 635 CALL_FN_W_W(ret, fn, mutex); 636 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_DESTROY, 637 mutex, DRD_(mutex_type)(mutex), 0, 0, 0); 638 return ret; 639 } 640 641 PTH_FUNCS(int, pthreadZumutexZudestroy, pthread_mutex_destroy_intercept, 642 (pthread_mutex_t *mutex), (mutex)); 643 644 static __always_inline 645 int pthread_mutex_lock_intercept(pthread_mutex_t* mutex) 646 { 647 int ret; 648 OrigFn fn; 649 VALGRIND_GET_ORIG_FN(fn); 650 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_LOCK, 651 mutex, DRD_(mutex_type)(mutex), 0, 0, 0); 652 CALL_FN_W_W(ret, fn, mutex); 653 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_LOCK, 654 mutex, ret == 0, 0, 0, 0); 655 return ret; 656 } 657 658 PTH_FUNCS(int, pthreadZumutexZulock, pthread_mutex_lock_intercept, 659 (pthread_mutex_t *mutex), (mutex)); 660 661 static __always_inline 662 int pthread_mutex_trylock_intercept(pthread_mutex_t* mutex) 663 { 664 int ret; 665 OrigFn fn; 666 VALGRIND_GET_ORIG_FN(fn); 667 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_LOCK, 668 mutex, DRD_(mutex_type)(mutex), 1, 0, 0); 669 CALL_FN_W_W(ret, fn, mutex); 670 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_LOCK, 671 mutex, ret == 0, 0, 0, 0); 672 return ret; 673 } 674 675 PTH_FUNCS(int, pthreadZumutexZutrylock, pthread_mutex_trylock_intercept, 676 (pthread_mutex_t *mutex), (mutex)); 677 678 static __always_inline 679 int pthread_mutex_timedlock_intercept(pthread_mutex_t *mutex, 680 const struct timespec *abs_timeout) 681 { 682 int ret; 683 OrigFn fn; 684 VALGRIND_GET_ORIG_FN(fn); 685 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_LOCK, 686 mutex, DRD_(mutex_type)(mutex), 0, 0, 0); 687 CALL_FN_W_WW(ret, fn, mutex, abs_timeout); 688 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_LOCK, 689 mutex, ret == 0, 0, 0, 0); 690 return ret; 691 } 692 693 PTH_FUNCS(int, pthreadZumutexZutimedlock, pthread_mutex_timedlock_intercept, 694 (pthread_mutex_t *mutex, const struct timespec *abs_timeout), 695 (mutex, abs_timeout)); 696 697 static __always_inline 698 int pthread_mutex_unlock_intercept(pthread_mutex_t *mutex) 699 { 700 int ret; 701 OrigFn fn; 702 VALGRIND_GET_ORIG_FN(fn); 703 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_UNLOCK, 704 mutex, DRD_(mutex_type)(mutex), 0, 0, 0); 705 CALL_FN_W_W(ret, fn, mutex); 706 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_UNLOCK, 707 mutex, 0, 0, 0, 0); 708 return ret; 709 } 710 711 PTH_FUNCS(int, pthreadZumutexZuunlock, pthread_mutex_unlock_intercept, 712 (pthread_mutex_t *mutex), (mutex)); 713 714 static __always_inline 715 int pthread_cond_init_intercept(pthread_cond_t* cond, 716 const pthread_condattr_t* attr) 717 { 718 int ret; 719 OrigFn fn; 720 VALGRIND_GET_ORIG_FN(fn); 721 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_COND_INIT, 722 cond, 0, 0, 0, 0); 723 CALL_FN_W_WW(ret, fn, cond, attr); 724 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_COND_INIT, 725 cond, 0, 0, 0, 0); 726 return ret; 727 } 728 729 PTH_FUNCS(int, pthreadZucondZuinit, pthread_cond_init_intercept, 730 (pthread_cond_t* cond, const pthread_condattr_t* attr), 731 (cond, attr)); 732 733 static __always_inline 734 int pthread_cond_destroy_intercept(pthread_cond_t* cond) 735 { 736 int ret; 737 OrigFn fn; 738 VALGRIND_GET_ORIG_FN(fn); 739 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_COND_DESTROY, 740 cond, 0, 0, 0, 0); 741 CALL_FN_W_W(ret, fn, cond); 742 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_COND_DESTROY, 743 cond, 0, 0, 0, 0); 744 return ret; 745 } 746 747 PTH_FUNCS(int, pthreadZucondZudestroy, pthread_cond_destroy_intercept, 748 (pthread_cond_t* cond), (cond)); 749 750 static __always_inline 751 int pthread_cond_wait_intercept(pthread_cond_t *cond, pthread_mutex_t *mutex) 752 { 753 int ret; 754 OrigFn fn; 755 VALGRIND_GET_ORIG_FN(fn); 756 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_COND_WAIT, 757 cond, mutex, DRD_(mutex_type)(mutex), 0, 0); 758 CALL_FN_W_WW(ret, fn, cond, mutex); 759 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_COND_WAIT, 760 cond, mutex, 1, 0, 0); 761 return ret; 762 } 763 764 PTH_FUNCS(int, pthreadZucondZuwait, pthread_cond_wait_intercept, 765 (pthread_cond_t *cond, pthread_mutex_t *mutex), 766 (cond, mutex)); 767 768 static __always_inline 769 int pthread_cond_timedwait_intercept(pthread_cond_t *cond, 770 pthread_mutex_t *mutex, 771 const struct timespec* abstime) 772 { 773 int ret; 774 OrigFn fn; 775 VALGRIND_GET_ORIG_FN(fn); 776 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_COND_WAIT, 777 cond, mutex, DRD_(mutex_type)(mutex), 0, 0); 778 CALL_FN_W_WWW(ret, fn, cond, mutex, abstime); 779 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_COND_WAIT, 780 cond, mutex, 1, 0, 0); 781 return ret; 782 } 783 784 PTH_FUNCS(int, pthreadZucondZutimedwait, pthread_cond_timedwait_intercept, 785 (pthread_cond_t *cond, pthread_mutex_t *mutex, 786 const struct timespec* abstime), 787 (cond, mutex, abstime)); 788 789 // NOTE: be careful to intercept only pthread_cond_signal() and not Darwin's 790 // pthread_cond_signal_thread_np(). The former accepts one argument; the latter 791 // two. Intercepting all pthread_cond_signal* functions will cause only one 792 // argument to be passed to pthread_cond_signal_np() and hence will cause this 793 // last function to crash. 794 795 static __always_inline 796 int pthread_cond_signal_intercept(pthread_cond_t* cond) 797 { 798 int ret; 799 OrigFn fn; 800 VALGRIND_GET_ORIG_FN(fn); 801 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_COND_SIGNAL, 802 cond, 0, 0, 0, 0); 803 CALL_FN_W_W(ret, fn, cond); 804 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_COND_SIGNAL, 805 cond, 0, 0, 0, 0); 806 return ret; 807 } 808 809 PTH_FUNCS(int, pthreadZucondZusignal, pthread_cond_signal_intercept, 810 (pthread_cond_t* cond), (cond)); 811 812 static __always_inline 813 int pthread_cond_broadcast_intercept(pthread_cond_t* cond) 814 { 815 int ret; 816 OrigFn fn; 817 VALGRIND_GET_ORIG_FN(fn); 818 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_COND_BROADCAST, 819 cond, 0, 0, 0, 0); 820 CALL_FN_W_W(ret, fn, cond); 821 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_COND_BROADCAST, 822 cond, 0, 0, 0, 0); 823 return ret; 824 } 825 826 PTH_FUNCS(int, pthreadZucondZubroadcast, pthread_cond_broadcast_intercept, 827 (pthread_cond_t* cond), (cond)); 828 829 #if defined(HAVE_PTHREAD_SPIN_LOCK) 830 static __always_inline 831 int pthread_spin_init_intercept(pthread_spinlock_t *spinlock, int pshared) 832 { 833 int ret; 834 OrigFn fn; 835 VALGRIND_GET_ORIG_FN(fn); 836 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SPIN_INIT_OR_UNLOCK, 837 spinlock, 0, 0, 0, 0); 838 CALL_FN_W_WW(ret, fn, spinlock, pshared); 839 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SPIN_INIT_OR_UNLOCK, 840 spinlock, 0, 0, 0, 0); 841 return ret; 842 } 843 844 PTH_FUNCS(int, pthreadZuspinZuinit, pthread_spin_init_intercept, 845 (pthread_spinlock_t *spinlock, int pshared), (spinlock, pshared)); 846 847 static __always_inline 848 int pthread_spin_destroy_intercept(pthread_spinlock_t *spinlock) 849 { 850 int ret; 851 OrigFn fn; 852 VALGRIND_GET_ORIG_FN(fn); 853 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_DESTROY, 854 spinlock, 0, 0, 0, 0); 855 CALL_FN_W_W(ret, fn, spinlock); 856 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_DESTROY, 857 spinlock, mutex_type_spinlock, 0, 0, 0); 858 return ret; 859 } 860 861 PTH_FUNCS(int, pthreadZuspinZudestroy, pthread_spin_destroy_intercept, 862 (pthread_spinlock_t *spinlock), (spinlock)); 863 864 static __always_inline 865 int pthread_spin_lock_intercept(pthread_spinlock_t *spinlock) 866 { 867 int ret; 868 OrigFn fn; 869 VALGRIND_GET_ORIG_FN(fn); 870 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_LOCK, 871 spinlock, mutex_type_spinlock, 0, 0, 0); 872 CALL_FN_W_W(ret, fn, spinlock); 873 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_LOCK, 874 spinlock, ret == 0, 0, 0, 0); 875 return ret; 876 } 877 878 PTH_FUNCS(int, pthreadZuspinZulock, pthread_spin_lock_intercept, 879 (pthread_spinlock_t *spinlock), (spinlock)); 880 881 static __always_inline 882 int pthread_spin_trylock_intercept(pthread_spinlock_t *spinlock) 883 { 884 int ret; 885 OrigFn fn; 886 VALGRIND_GET_ORIG_FN(fn); 887 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_MUTEX_LOCK, 888 spinlock, mutex_type_spinlock, 0, 0, 0); 889 CALL_FN_W_W(ret, fn, spinlock); 890 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_MUTEX_LOCK, 891 spinlock, ret == 0, 0, 0, 0); 892 return ret; 893 } 894 895 PTH_FUNCS(int, pthreadZuspinZutrylock, pthread_spin_trylock_intercept, 896 (pthread_spinlock_t *spinlock), (spinlock)); 897 898 static __always_inline 899 int pthread_spin_unlock_intercept(pthread_spinlock_t *spinlock) 900 { 901 int ret; 902 OrigFn fn; 903 VALGRIND_GET_ORIG_FN(fn); 904 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SPIN_INIT_OR_UNLOCK, 905 spinlock, mutex_type_spinlock, 0, 0, 0); 906 CALL_FN_W_W(ret, fn, spinlock); 907 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SPIN_INIT_OR_UNLOCK, 908 spinlock, 0, 0, 0, 0); 909 return ret; 910 } 911 912 PTH_FUNCS(int, pthreadZuspinZuunlock, pthread_spin_unlock_intercept, 913 (pthread_spinlock_t *spinlock), (spinlock)); 914 #endif // HAVE_PTHREAD_SPIN_LOCK 915 916 917 #if defined(HAVE_PTHREAD_BARRIER_INIT) 918 static __always_inline 919 int pthread_barrier_init_intercept(pthread_barrier_t* barrier, 920 const pthread_barrierattr_t* attr, 921 unsigned count) 922 { 923 int ret; 924 OrigFn fn; 925 VALGRIND_GET_ORIG_FN(fn); 926 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_BARRIER_INIT, 927 barrier, pthread_barrier, count, 0, 0); 928 CALL_FN_W_WWW(ret, fn, barrier, attr, count); 929 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_BARRIER_INIT, 930 barrier, pthread_barrier, 0, 0, 0); 931 return ret; 932 } 933 934 PTH_FUNCS(int, pthreadZubarrierZuinit, pthread_barrier_init_intercept, 935 (pthread_barrier_t* barrier, const pthread_barrierattr_t* attr, 936 unsigned count), (barrier, attr, count)); 937 938 static __always_inline 939 int pthread_barrier_destroy_intercept(pthread_barrier_t* barrier) 940 { 941 int ret; 942 OrigFn fn; 943 VALGRIND_GET_ORIG_FN(fn); 944 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_BARRIER_DESTROY, 945 barrier, pthread_barrier, 0, 0, 0); 946 CALL_FN_W_W(ret, fn, barrier); 947 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_BARRIER_DESTROY, 948 barrier, pthread_barrier, 0, 0, 0); 949 return ret; 950 } 951 952 PTH_FUNCS(int, pthreadZubarrierZudestroy, pthread_barrier_destroy_intercept, 953 (pthread_barrier_t* barrier), (barrier)); 954 955 static __always_inline 956 int pthread_barrier_wait_intercept(pthread_barrier_t* barrier) 957 { 958 int ret; 959 OrigFn fn; 960 VALGRIND_GET_ORIG_FN(fn); 961 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_BARRIER_WAIT, 962 barrier, pthread_barrier, 0, 0, 0); 963 CALL_FN_W_W(ret, fn, barrier); 964 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_BARRIER_WAIT, 965 barrier, pthread_barrier, 966 ret == 0 || ret == PTHREAD_BARRIER_SERIAL_THREAD, 967 ret == PTHREAD_BARRIER_SERIAL_THREAD, 0); 968 return ret; 969 } 970 971 PTH_FUNCS(int, pthreadZubarrierZuwait, pthread_barrier_wait_intercept, 972 (pthread_barrier_t* barrier), (barrier)); 973 #endif // HAVE_PTHREAD_BARRIER_INIT 974 975 976 static __always_inline 977 int sem_init_intercept(sem_t *sem, int pshared, unsigned int value) 978 { 979 int ret; 980 OrigFn fn; 981 VALGRIND_GET_ORIG_FN(fn); 982 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_INIT, 983 sem, pshared, value, 0, 0); 984 CALL_FN_W_WWW(ret, fn, sem, pshared, value); 985 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_INIT, 986 sem, 0, 0, 0, 0); 987 return ret; 988 } 989 990 PTH_FUNCS(int, semZuinit, sem_init_intercept, 991 (sem_t *sem, int pshared, unsigned int value), (sem, pshared, value)); 992 993 static __always_inline 994 int sem_destroy_intercept(sem_t *sem) 995 { 996 int ret; 997 OrigFn fn; 998 VALGRIND_GET_ORIG_FN(fn); 999 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_DESTROY, 1000 sem, 0, 0, 0, 0); 1001 CALL_FN_W_W(ret, fn, sem); 1002 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_DESTROY, 1003 sem, 0, 0, 0, 0); 1004 return ret; 1005 } 1006 1007 PTH_FUNCS(int, semZudestroy, sem_destroy_intercept, (sem_t *sem), (sem)); 1008 1009 static __always_inline 1010 sem_t* sem_open_intercept(const char *name, int oflag, mode_t mode, 1011 unsigned int value) 1012 { 1013 sem_t *ret; 1014 OrigFn fn; 1015 VALGRIND_GET_ORIG_FN(fn); 1016 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_OPEN, 1017 name, oflag, mode, value, 0); 1018 CALL_FN_W_WWWW(ret, fn, name, oflag, mode, value); 1019 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_OPEN, 1020 ret != SEM_FAILED ? ret : 0, 1021 name, oflag, mode, value); 1022 return ret; 1023 } 1024 1025 PTH_FUNCS(sem_t *, semZuopen, sem_open_intercept, 1026 (const char *name, int oflag, mode_t mode, unsigned int value), 1027 (name, oflag, mode, value)); 1028 1029 static __always_inline int sem_close_intercept(sem_t *sem) 1030 { 1031 int ret; 1032 OrigFn fn; 1033 VALGRIND_GET_ORIG_FN(fn); 1034 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_CLOSE, 1035 sem, 0, 0, 0, 0); 1036 CALL_FN_W_W(ret, fn, sem); 1037 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_CLOSE, 1038 sem, 0, 0, 0, 0); 1039 return ret; 1040 } 1041 1042 PTH_FUNCS(int, semZuclose, sem_close_intercept, (sem_t *sem), (sem)); 1043 1044 static __always_inline int sem_wait_intercept(sem_t *sem) 1045 { 1046 int ret; 1047 OrigFn fn; 1048 VALGRIND_GET_ORIG_FN(fn); 1049 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_WAIT, 1050 sem, 0, 0, 0, 0); 1051 CALL_FN_W_W(ret, fn, sem); 1052 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_WAIT, 1053 sem, ret == 0, 0, 0, 0); 1054 return ret; 1055 } 1056 1057 PTH_FUNCS(int, semZuwait, sem_wait_intercept, (sem_t *sem), (sem)); 1058 1059 static __always_inline int sem_trywait_intercept(sem_t *sem) 1060 { 1061 int ret; 1062 OrigFn fn; 1063 VALGRIND_GET_ORIG_FN(fn); 1064 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_WAIT, 1065 sem, 0, 0, 0, 0); 1066 CALL_FN_W_W(ret, fn, sem); 1067 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_WAIT, 1068 sem, ret == 0, 0, 0, 0); 1069 return ret; 1070 } 1071 1072 PTH_FUNCS(int, semZutrywait, sem_trywait_intercept, (sem_t *sem), (sem)); 1073 1074 static __always_inline 1075 int sem_timedwait_intercept(sem_t *sem, const struct timespec *abs_timeout) 1076 { 1077 int ret; 1078 OrigFn fn; 1079 VALGRIND_GET_ORIG_FN(fn); 1080 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_WAIT, 1081 sem, 0, 0, 0, 0); 1082 CALL_FN_W_WW(ret, fn, sem, abs_timeout); 1083 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_WAIT, 1084 sem, ret == 0, 0, 0, 0); 1085 return ret; 1086 } 1087 1088 PTH_FUNCS(int, semZutimedwait, sem_timedwait_intercept, 1089 (sem_t *sem, const struct timespec *abs_timeout), 1090 (sem, abs_timeout)); 1091 1092 static __always_inline int sem_post_intercept(sem_t *sem) 1093 { 1094 int ret; 1095 OrigFn fn; 1096 VALGRIND_GET_ORIG_FN(fn); 1097 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_SEM_POST, 1098 sem, 0, 0, 0, 0); 1099 CALL_FN_W_W(ret, fn, sem); 1100 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_SEM_POST, 1101 sem, ret == 0, 0, 0, 0); 1102 return ret; 1103 } 1104 1105 PTH_FUNCS(int, semZupost, sem_post_intercept, (sem_t *sem), (sem)); 1106 1107 /* Android's pthread.h doesn't say anything about rwlocks, hence these 1108 functions have to be conditionally compiled. */ 1109 #if defined(HAVE_PTHREAD_RWLOCK_T) 1110 1111 static __always_inline 1112 int pthread_rwlock_init_intercept(pthread_rwlock_t* rwlock, 1113 const pthread_rwlockattr_t* attr) 1114 { 1115 int ret; 1116 OrigFn fn; 1117 VALGRIND_GET_ORIG_FN(fn); 1118 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_INIT, 1119 rwlock, 0, 0, 0, 0); 1120 CALL_FN_W_WW(ret, fn, rwlock, attr); 1121 return ret; 1122 } 1123 1124 PTH_FUNCS(int, 1125 pthreadZurwlockZuinit, pthread_rwlock_init_intercept, 1126 (pthread_rwlock_t* rwlock, const pthread_rwlockattr_t* attr), 1127 (rwlock, attr)); 1128 1129 static __always_inline 1130 int pthread_rwlock_destroy_intercept(pthread_rwlock_t* rwlock) 1131 { 1132 int ret; 1133 OrigFn fn; 1134 VALGRIND_GET_ORIG_FN(fn); 1135 CALL_FN_W_W(ret, fn, rwlock); 1136 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_DESTROY, 1137 rwlock, 0, 0, 0, 0); 1138 return ret; 1139 } 1140 1141 PTH_FUNCS(int, 1142 pthreadZurwlockZudestroy, pthread_rwlock_destroy_intercept, 1143 (pthread_rwlock_t* rwlock), (rwlock)); 1144 1145 static __always_inline 1146 int pthread_rwlock_rdlock_intercept(pthread_rwlock_t* rwlock) 1147 { 1148 int ret; 1149 OrigFn fn; 1150 VALGRIND_GET_ORIG_FN(fn); 1151 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_RDLOCK, 1152 rwlock, 0, 0, 0, 0); 1153 CALL_FN_W_W(ret, fn, rwlock); 1154 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_RDLOCK, 1155 rwlock, ret == 0, 0, 0, 0); 1156 return ret; 1157 } 1158 1159 PTH_FUNCS(int, 1160 pthreadZurwlockZurdlock, pthread_rwlock_rdlock_intercept, 1161 (pthread_rwlock_t* rwlock), (rwlock)); 1162 1163 static __always_inline 1164 int pthread_rwlock_wrlock_intercept(pthread_rwlock_t* rwlock) 1165 { 1166 int ret; 1167 OrigFn fn; 1168 VALGRIND_GET_ORIG_FN(fn); 1169 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_WRLOCK, 1170 rwlock, 0, 0, 0, 0); 1171 CALL_FN_W_W(ret, fn, rwlock); 1172 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_WRLOCK, 1173 rwlock, ret == 0, 0, 0, 0); 1174 return ret; 1175 } 1176 1177 PTH_FUNCS(int, 1178 pthreadZurwlockZuwrlock, pthread_rwlock_wrlock_intercept, 1179 (pthread_rwlock_t* rwlock), (rwlock)); 1180 1181 static __always_inline 1182 int pthread_rwlock_timedrdlock_intercept(pthread_rwlock_t* rwlock) 1183 { 1184 int ret; 1185 OrigFn fn; 1186 VALGRIND_GET_ORIG_FN(fn); 1187 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_RDLOCK, 1188 rwlock, 0, 0, 0, 0); 1189 CALL_FN_W_W(ret, fn, rwlock); 1190 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_RDLOCK, 1191 rwlock, ret == 0, 0, 0, 0); 1192 return ret; 1193 } 1194 1195 PTH_FUNCS(int, 1196 pthreadZurwlockZutimedrdlock, pthread_rwlock_timedrdlock_intercept, 1197 (pthread_rwlock_t* rwlock), (rwlock)); 1198 1199 static __always_inline 1200 int pthread_rwlock_timedwrlock_intercept(pthread_rwlock_t* rwlock) 1201 { 1202 int ret; 1203 OrigFn fn; 1204 VALGRIND_GET_ORIG_FN(fn); 1205 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_WRLOCK, 1206 rwlock, 0, 0, 0, 0); 1207 CALL_FN_W_W(ret, fn, rwlock); 1208 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_WRLOCK, 1209 rwlock, ret == 0, 0, 0, 0); 1210 return ret; 1211 } 1212 1213 PTH_FUNCS(int, 1214 pthreadZurwlockZutimedwrlock, pthread_rwlock_timedwrlock_intercept, 1215 (pthread_rwlock_t* rwlock), (rwlock)); 1216 1217 static __always_inline 1218 int pthread_rwlock_tryrdlock_intercept(pthread_rwlock_t* rwlock) 1219 { 1220 int ret; 1221 OrigFn fn; 1222 VALGRIND_GET_ORIG_FN(fn); 1223 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_RDLOCK, 1224 rwlock, 0, 0, 0, 0); 1225 CALL_FN_W_W(ret, fn, rwlock); 1226 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_RDLOCK, 1227 rwlock, ret == 0, 0, 0, 0); 1228 return ret; 1229 } 1230 1231 PTH_FUNCS(int, 1232 pthreadZurwlockZutryrdlock, pthread_rwlock_tryrdlock_intercept, 1233 (pthread_rwlock_t* rwlock), (rwlock)); 1234 1235 static __always_inline 1236 int pthread_rwlock_trywrlock_intercept(pthread_rwlock_t* rwlock) 1237 { 1238 int ret; 1239 OrigFn fn; 1240 VALGRIND_GET_ORIG_FN(fn); 1241 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_WRLOCK, 1242 rwlock, 0, 0, 0, 0); 1243 CALL_FN_W_W(ret, fn, rwlock); 1244 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_WRLOCK, 1245 rwlock, ret == 0, 0, 0, 0); 1246 return ret; 1247 } 1248 1249 PTH_FUNCS(int, 1250 pthreadZurwlockZutrywrlock, pthread_rwlock_trywrlock_intercept, 1251 (pthread_rwlock_t* rwlock), (rwlock)); 1252 1253 static __always_inline 1254 int pthread_rwlock_unlock_intercept(pthread_rwlock_t* rwlock) 1255 { 1256 int ret; 1257 OrigFn fn; 1258 VALGRIND_GET_ORIG_FN(fn); 1259 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__PRE_RWLOCK_UNLOCK, 1260 rwlock, 0, 0, 0, 0); 1261 CALL_FN_W_W(ret, fn, rwlock); 1262 VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__POST_RWLOCK_UNLOCK, 1263 rwlock, ret == 0, 0, 0, 0); 1264 return ret; 1265 } 1266 1267 PTH_FUNCS(int, 1268 pthreadZurwlockZuunlock, pthread_rwlock_unlock_intercept, 1269 (pthread_rwlock_t* rwlock), (rwlock)); 1270 1271 #endif /* defined(HAVE_PTHREAD_RWLOCK_T) */ 1272