/* Check that recycling thread slots doesn't cause new threads to inherit the disablement status of the previous thread to occupy that slot. 1. Create N threads, disable error reporting in them, and get them all to exit (join with them). That creates N thread slots that were vacated by threads with error reporting disabled. There should be N complaints about threads exiting with errors disabled. 2. Create N new threads and get them to wait at a barrier. 3. Let them all go past the barrier and call err(). There should be N resulting error reports. 4. Join with the N threads. */ #include #include #include #include #include #include /* PTHREAD_STACK_MIN */ #include "../include/valgrind.h" char* block = NULL; # if !defined(VGO_darwin) sem_t sem; # else sem_t *sem; static const char *semname = "Semaphore1"; # endif __attribute__((noinline)) void usechar ( char c ) { // Spook gcc into believing mysterious bad things are // happening behind its back, and that 'c' is definitely // used in some (unknown) way. __asm__ __volatile__("" : : "r"(c) : "memory","cc"); } __attribute__((noinline)) void err ( void ) { usechar( block[5] ); } void* child_fn_1 ( void* arg ) { // Disable error reporting, then wait to exit VALGRIND_DISABLE_ERROR_REPORTING; # if !defined(VGO_darwin) int r = sem_wait(&sem); assert(!r); # else int r = sem_wait(sem); assert(!r); # endif return NULL; } void* child_fn_2 ( void* arg ) { // make an error, then wait to exit err(); # if !defined(VGO_darwin) int r = sem_wait(&sem); assert(!r); # else int r = sem_wait(sem); assert(!r); # endif return NULL; } #define NTHREADS 498 // VG_N_THREADS - 2 int main ( void ) { int r, i; pthread_t child[NTHREADS]; block = malloc(10); free(block); // part 1 fprintf(stderr, "\n-------- Letting %d threads exit " "w/ errs disabled ------\n\n", NTHREADS); // set up the semaphore # if !defined(VGO_darwin) r = sem_init(&sem, 0, 0); assert(!r); # else sem = sem_open(semname, O_CREAT, 0777, 0); assert(!(sem == SEM_FAILED)); # endif pthread_attr_t attr; r = pthread_attr_init(&attr); assert(!r); r = pthread_attr_setstacksize(&attr, PTHREAD_STACK_MIN); // create N threads to do child_fn_1 ... for (i = 0; i < NTHREADS; i++) { r = pthread_create(&child[i], &attr, child_fn_1, NULL); assert(!r); } // let them all exit for (i = 0; i < NTHREADS; i++) { # if !defined(VGO_darwin) r = sem_post(&sem); assert(!r); # else r = sem_post(sem); assert(!r); # endif } // join for (i = 0; i < NTHREADS; i++) { r = pthread_join(child[i], NULL); assert(!r); } // part 2 fprintf(stderr, "\n-------- Letting %d threads make an error " "------\n\n", NTHREADS); // semaphore is already back at zero // create N threads to do child_fn_2 ... for (i = 0; i < NTHREADS; i++) { r = pthread_create(&child[i], &attr, child_fn_2, NULL); assert(!r); } // let them all exit for (i = 0; i < NTHREADS; i++) { # if !defined(VGO_darwin) r = sem_post(&sem); assert(!r); # else r = sem_post(sem); assert(!r); # endif } // join for (i = 0; i < NTHREADS; i++) { r = pthread_join(child[i], NULL); assert(!r); } // Print the final error counts. There need to be 498 errors // in 1 context. Anything else, and something is not right. int nerrors = VALGRIND_COUNT_ERRORS; fprintf(stderr, "\n-------- Got %d errors (expected %d ==> %s) ------\n\n", nerrors, NTHREADS, nerrors == NTHREADS ? "PASS" : "FAIL" ); return 0; }