1 //===-- main.cpp ------------------------------------------------*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 10 // This test is intended to create a situation in which one thread will exit 11 // while a breakpoint is being handled in another thread. This may not always 12 // happen because it's possible that the exiting thread will exit before the 13 // breakpoint is hit. The test case should be flexible enough to treat that 14 // as success. 15 16 #include <pthread.h> 17 #include <unistd.h> 18 #include <atomic> 19 20 volatile int g_test = 0; 21 22 // Note that although hogging the CPU while waiting for a variable to change 23 // would be terrible in production code, it's great for testing since it 24 // avoids a lot of messy context switching to get multiple threads synchronized. 25 #define do_nothing() 26 27 #define pseudo_barrier_wait(bar) \ 28 --bar; \ 29 while (bar > 0) \ 30 do_nothing(); 31 32 #define pseudo_barrier_init(bar, count) (bar = count) 33 34 // A barrier to synchronize all the threads. 35 std::atomic_int g_barrier1; 36 37 // A barrier to keep the threads from exiting until after the breakpoint has 38 // been passed. 39 std::atomic_int g_barrier2; 40 41 void * 42 break_thread_func (void *input) 43 { 44 // Wait until all the threads are running 45 pseudo_barrier_wait(g_barrier1); 46 47 // Wait for the join thread to join 48 usleep(50); 49 50 // Do something 51 g_test++; // Set breakpoint here 52 53 // Synchronize after the breakpoint 54 pseudo_barrier_wait(g_barrier2); 55 56 // Return 57 return NULL; 58 } 59 60 void * 61 wait_thread_func (void *input) 62 { 63 // Wait until the entire first group of threads is running 64 pseudo_barrier_wait(g_barrier1); 65 66 // Wait until the breakpoint has been passed 67 pseudo_barrier_wait(g_barrier2); 68 69 // Return 70 return NULL; 71 } 72 73 void * 74 join_thread_func (void *input) 75 { 76 pthread_t *thread_to_join = (pthread_t*)input; 77 78 // Sync up with the rest of the threads. 79 pseudo_barrier_wait(g_barrier1); 80 81 // Join the other thread 82 pthread_join(*thread_to_join, NULL); 83 84 // Return 85 return NULL; 86 } 87 88 int main () 89 { 90 pthread_t thread_1; 91 pthread_t thread_2; 92 pthread_t thread_3; 93 pthread_t thread_4; 94 pthread_t thread_5; 95 96 // The first barrier waits for the non-joining threads to start. 97 // This thread will also participate in that barrier. 98 // The idea here is to guarantee that the joining thread will be 99 // last in the internal list maintained by the debugger. 100 pseudo_barrier_init(g_barrier1, 5); 101 102 // The second barrier keeps the waiting threads around until the breakpoint 103 // has been passed. 104 pseudo_barrier_init(g_barrier2, 4); 105 106 // Create a thread to hit the breakpoint 107 pthread_create (&thread_1, NULL, break_thread_func, NULL); 108 109 // Create more threads to slow the debugger down during processing. 110 pthread_create (&thread_2, NULL, wait_thread_func, NULL); 111 pthread_create (&thread_3, NULL, wait_thread_func, NULL); 112 pthread_create (&thread_4, NULL, wait_thread_func, NULL); 113 114 // Create a thread to join the breakpoint thread 115 pthread_create (&thread_5, NULL, join_thread_func, &thread_4); 116 117 // Wait for the threads to finish 118 pthread_join(thread_5, NULL); 119 pthread_join(thread_4, NULL); 120 pthread_join(thread_3, NULL); 121 pthread_join(thread_2, NULL); 122 pthread_join(thread_1, NULL); 123 124 return 0; 125 } 126