/* * Copyright 2002-2019 Intel Corporation. * * This software is provided to you as Sample Source Code as defined in the accompanying * End User License Agreement for the Intel(R) Software Development Products ("Agreement") * section 1.L. * * This software and the related documents are provided as is, with no express or implied * warranties, other than those that are expressly stated in the License. */ /* Test the scenario when Pin attaches to an application, using PIN_AttachProbed API, which one of its secondary thread is a zombie thread . Pin wouldn't attach to the zombie thread and wouldn't give a thread detach callbacks on detach to the zombie thread. */ #include #include #include #include #include #include #include #include #include "zombie_utils.h" #include #define MAX_COMMAND_LINE_SIZE 15 // the size for the array of arguments to execv (this value is arbitrary) EXPORT_SYM bool AfterAttach1(); const char *imageToLoad; pid_t zombieThreadPid; pid_t parentPid; bool AfterAttach1() { // Pin sets an analysis function here to notify the application when Pin attaches to it. return false; } // This function is invoked when the secondary thread starts to execute. void* SecondaryThreadMain(void* v) { void *handle = dlopen(imageToLoad, RTLD_LAZY); if(!handle) { fprintf(stderr, " Failed to load: %s because: %s\n", imageToLoad, dlerror()); fflush(stderr); exit(RES_LOAD_FAILED); } pthread_exit(0); return NULL; } // Expected argv arguments: // [1] pin executable // [2] Pin flags (e.g. -slow_asserts) // >> zero or more flags possible // [3] "-t" // [4] tool // [5] imageName // [6] output file int main(int argc, char** argv) { if(argc < 6) { fprintf(stderr, "Not enough arguments\n" ); fflush(stderr); exit(RES_INVALID_ARGS); } if (argc > MAX_COMMAND_LINE_SIZE - 4){ // added: -pid attachPid -probe -o NULL fprintf(stderr, "Too many arguments\n" ); fflush(stderr); exit(RES_INVALID_ARGS); } imageToLoad = argv[argc-2]; // argv[argc-2] is imageName parentPid = getpid(); pid_t child = fork(); if (child < 0) { perror("Fork failed while creating application process"); exit(RES_FORK_FAILED); } if (child) { // Pin sets an analysis function here to notify the application // when Pin attaches to it in the first attach session. while(!AfterAttach1()) { sleep(1); } NotifyTestType(TEST_TYPE_SECONDARY_THREAD_ZOMBIE_IN_REATTACH); pthread_t tid; pthread_create(&tid, NULL, SecondaryThreadMain, NULL); fprintf(stderr, "APP: tid of zombie: %d\n", (int)tid); while(1); } if (child == 0) { // Inside child pid_t second_child_pid = fork (); if (second_child_pid < 0) { perror("Fork failed while creating application process"); exit(RES_FORK_FAILED); } if (second_child_pid > 0) { // Inside parent 2 waitpid(second_child_pid, 0, 0); // wait until Pin is injected to the application process. exit(RES_SUCCESS); } else { // Inside child 2 char attachPid[MAX_SIZE]; snprintf(attachPid, MAX_SIZE , "%d", parentPid); char* args[MAX_COMMAND_LINE_SIZE] = {NULL}; // arguments for execv command int args_count = 0; int argv_count = 1; // to start from argv[1]... args[args_count++] = argv[argv_count++]; // by convention, first arg is the filename of the executed file (pin) args[args_count++] = (char*)"-probe"; args[args_count++] = (char*)"-pid"; args[args_count++] = attachPid; while (strcmp(argv[argv_count], "-t") != 0){ // additional Pin flags (optional) args[args_count++] = argv[argv_count++]; } args[args_count++] = argv[argv_count++]; // "-t" args[args_count++] = argv[argv_count++]; // tool argv_count++; // skip the imageName, not needed for the execv command args[args_count++] = (char*)"-o"; args[args_count++] = argv[argv_count++]; // output file args[args_count++] = NULL; // end // Pin attaches to the application. execv(argv[1], (char * const *)args); // never returns perror("execv failed while trying to attach Pin to the application\n"); exit(RES_EXEC_FAILED); } } return RES_SUCCESS; }