#include <assert.h> #include <errno.h> #include <pthread.h> #include <sched.h> #include <signal.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/cdefs.h> #include <sys/mman.h> #include <sys/ptrace.h> #include <sys/socket.h> #include <sys/wait.h> #include <unistd.h> #include <cutils/sockets.h> #include <log/log.h> #ifndef __unused #define __unused __attribute__((__unused__)) #endif extern const char* __progname; void crash1(void); void crashnostack(void); static int do_action(const char* arg); static void maybe_abort() { if (time(0) != 42) { abort(); } } static char* smash_stack_dummy_buf; __attribute__ ((noinline)) static void smash_stack_dummy_function(volatile int* plen) { smash_stack_dummy_buf[*plen] = 0; } // This must be marked with "__attribute__ ((noinline))", to ensure the // compiler generates the proper stack guards around this function. // Assign local array address to global variable to force stack guards. // Use another noinline function to corrupt the stack. __attribute__ ((noinline)) static int smash_stack(volatile int* plen) { printf("crasher: deliberately corrupting stack...\n"); char buf[128]; smash_stack_dummy_buf = buf; // This should corrupt stack guards and make process abort. smash_stack_dummy_function(plen); return 0; } static void* global = 0; // So GCC doesn't optimize the tail recursion out of overflow_stack. __attribute__((noinline)) static void overflow_stack(void* p) { void* buf[1]; buf[0] = p; global = buf; overflow_stack(&buf); } static void *noisy(void *x) { char c = (uintptr_t) x; for(;;) { usleep(250*1000); write(2, &c, 1); if(c == 'C') *((volatile unsigned*) 0) = 42; } return NULL; } static int ctest() { pthread_t thr; pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); pthread_create(&thr, &attr, noisy, (void*) 'A'); pthread_create(&thr, &attr, noisy, (void*) 'B'); pthread_create(&thr, &attr, noisy, (void*) 'C'); for(;;) ; return 0; } static void* thread_callback(void* raw_arg) { return (void*) (uintptr_t) do_action((const char*) raw_arg); } static int do_action_on_thread(const char* arg) { pthread_t t; pthread_create(&t, NULL, thread_callback, (void*) arg); void* result = NULL; pthread_join(t, &result); return (int) (uintptr_t) result; } __attribute__((noinline)) static int crash3(int a) { *((int*) 0xdead) = a; return a*4; } __attribute__((noinline)) static int crash2(int a) { a = crash3(a) + 2; return a*3; } __attribute__((noinline)) static int crash(int a) { a = crash2(a) + 1; return a*2; } static void abuse_heap() { char buf[16]; free((void*) buf); // GCC is smart enough to warn about this, but we're doing it deliberately. } static void sigsegv_non_null() { int* a = (int *)(&do_action); *a = 42; } static int do_action(const char* arg) { fprintf(stderr,"crasher: init pid=%d tid=%d\n", getpid(), gettid()); if (!strncmp(arg, "thread-", strlen("thread-"))) { return do_action_on_thread(arg + strlen("thread-")); } else if (!strcmp(arg, "SIGSEGV-non-null")) { sigsegv_non_null(); } else if (!strcmp(arg, "smash-stack")) { volatile int len = 128; return smash_stack(&len); } else if (!strcmp(arg, "stack-overflow")) { overflow_stack(NULL); } else if (!strcmp(arg, "nostack")) { crashnostack(); } else if (!strcmp(arg, "ctest")) { return ctest(); } else if (!strcmp(arg, "exit")) { exit(1); } else if (!strcmp(arg, "crash") || !strcmp(arg, "SIGSEGV")) { return crash(42); } else if (!strcmp(arg, "abort")) { maybe_abort(); } else if (!strcmp(arg, "assert")) { __assert("some_file.c", 123, "false"); } else if (!strcmp(arg, "assert2")) { __assert2("some_file.c", 123, "some_function", "false"); } else if (!strcmp(arg, "LOG_ALWAYS_FATAL")) { LOG_ALWAYS_FATAL("hello %s", "world"); } else if (!strcmp(arg, "LOG_ALWAYS_FATAL_IF")) { LOG_ALWAYS_FATAL_IF(true, "hello %s", "world"); } else if (!strcmp(arg, "SIGFPE")) { raise(SIGFPE); return EXIT_SUCCESS; } else if (!strcmp(arg, "SIGPIPE")) { int pipe_fds[2]; pipe(pipe_fds); close(pipe_fds[0]); write(pipe_fds[1], "oops", 4); return EXIT_SUCCESS; } else if (!strcmp(arg, "SIGTRAP")) { raise(SIGTRAP); return EXIT_SUCCESS; } else if (!strcmp(arg, "heap-usage")) { abuse_heap(); } else if (!strcmp(arg, "SIGSEGV-unmapped")) { char* map = mmap(NULL, sizeof(int), PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANONYMOUS, -1, 0); munmap(map, sizeof(int)); map[0] = '8'; } fprintf(stderr, "%s OP\n", __progname); fprintf(stderr, "where OP is:\n"); fprintf(stderr, " smash-stack overwrite a stack-guard canary\n"); fprintf(stderr, " stack-overflow recurse until the stack overflows\n"); fprintf(stderr, " heap-corruption cause a libc abort by corrupting the heap\n"); fprintf(stderr, " heap-usage cause a libc abort by abusing a heap function\n"); fprintf(stderr, " nostack crash with a NULL stack pointer\n"); fprintf(stderr, " ctest (obsoleted by thread-crash?)\n"); fprintf(stderr, " exit call exit(1)\n"); fprintf(stderr, " abort call abort()\n"); fprintf(stderr, " assert call assert() without a function\n"); fprintf(stderr, " assert2 call assert() with a function\n"); fprintf(stderr, " LOG_ALWAYS_FATAL call LOG_ALWAYS_FATAL\n"); fprintf(stderr, " LOG_ALWAYS_FATAL_IF call LOG_ALWAYS_FATAL\n"); fprintf(stderr, " SIGFPE cause a SIGFPE\n"); fprintf(stderr, " SIGPIPE cause a SIGPIPE\n"); fprintf(stderr, " SIGSEGV cause a SIGSEGV at address 0x0 (synonym: crash)\n"); fprintf(stderr, " SIGSEGV-non-null cause a SIGSEGV at a non-zero address\n"); fprintf(stderr, " SIGSEGV-unmapped mmap/munmap a region of memory and then attempt to access it\n"); fprintf(stderr, " SIGTRAP cause a SIGTRAP\n"); fprintf(stderr, "prefix any of the above with 'thread-' to not run\n"); fprintf(stderr, "on the process' main thread.\n"); return EXIT_SUCCESS; } int main(int argc, char **argv) { fprintf(stderr,"crasher: built at " __TIME__ "!@\n"); if(argc > 1) { return do_action(argv[1]); } else { crash1(); } return 0; }