/** \file metatest.c * * \brief Test features of the test framework. * * When you run this program, it runs a single "meta-test". A meta-test * performs an operation which should be caught as a failure by our * test framework. The meta-test passes if this program calls `exit` with * a nonzero status, or aborts, or is terminated by a signal, or if the * framework running the program considers the run an error (this happens * with Valgrind for a memory leak). The non-success of the meta-test * program means that the test failure has been caught correctly. * * Some failures are purely functional: the logic of the code causes the * test result to be set to FAIL. Other failures come from extra * instrumentation which is not present in a normal build; for example, * Asan or Valgrind to detect memory leaks. This is reflected by the * "platform" associated with each meta-test. * * Use the companion script `tests/scripts/run-metatests.sh` to run all * the meta-tests for a given platform and validate that they trigger a * detected failure as expected. */ /* * Copyright The Mbed TLS Contributors * SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later */ #include #include #include "test/helpers.h" #include "test/threading_helpers.h" #include "test/macros.h" #include #include #if defined(MBEDTLS_THREADING_C) #include #endif /* This is an external variable, so the compiler doesn't know that we're never * changing its value. */ volatile int false_but_the_compiler_does_not_know = 0; /* Hide calls to calloc/free from static checkers such as * `gcc-12 -Wuse-after-free`, to avoid compile-time complaints about * code where we do mean to cause a runtime error. */ void * (* volatile calloc_but_the_compiler_does_not_know)(size_t, size_t) = mbedtls_calloc; void(*volatile free_but_the_compiler_does_not_know)(void *) = mbedtls_free; /* Set n bytes at the address p to all-bits-zero, in such a way that * the compiler should not know that p is all-bits-zero. */ static void set_to_zero_but_the_compiler_does_not_know(volatile void *p, size_t n) { memset((void *) p, false_but_the_compiler_does_not_know, n); } /****************************************************************/ /* Test framework features */ /****************************************************************/ void meta_test_fail(const char *name) { (void) name; mbedtls_test_fail("Forced test failure", __LINE__, __FILE__); } /****************************************************************/ /* Platform features */ /****************************************************************/ void null_pointer_dereference(const char *name) { (void) name; volatile char *volatile p; set_to_zero_but_the_compiler_does_not_know(&p, sizeof(p)); /* Undefined behavior (read from null data pointer) */ mbedtls_printf("%p -> %u\n", p, (unsigned) *p); } void null_pointer_call(const char *name) { (void) name; unsigned(*volatile p)(void); set_to_zero_but_the_compiler_does_not_know(&p, sizeof(p)); /* Undefined behavior (execute null function pointer) */ /* The pointer representation may be truncated, but we don't care: * the only point of printing it is to have some use of the pointer * to dissuade the compiler from optimizing it away. */ mbedtls_printf("%lx() -> %u\n", (unsigned long) (uintptr_t) p, p()); } /****************************************************************/ /* Memory */ /****************************************************************/ void read_after_free(const char *name) { (void) name; volatile char *p = calloc_but_the_compiler_does_not_know(1, 1); *p = 'a'; free_but_the_compiler_does_not_know((void *) p); /* Undefined behavior (read after free) */ mbedtls_printf("%u\n", (unsigned) *p); } void double_free(const char *name) { (void) name; volatile char *p = calloc_but_the_compiler_does_not_know(1, 1); *p = 'a'; free_but_the_compiler_does_not_know((void *) p); /* Undefined behavior (double free) */ free_but_the_compiler_does_not_know((void *) p); } void read_uninitialized_stack(const char *name) { (void) name; char buf[1]; if (false_but_the_compiler_does_not_know) { buf[0] = '!'; } char *volatile p = buf; if (*p != 0) { /* Unspecified result (read from uninitialized memory) */ mbedtls_printf("%u\n", (unsigned) *p); } } void memory_leak(const char *name) { (void) name; volatile char *p = calloc_but_the_compiler_does_not_know(1, 1); mbedtls_printf("%u\n", (unsigned) *p); /* Leak of a heap object */ } /****************************************************************/ /* Threading */ /****************************************************************/ void mutex_lock_not_initialized(const char *name) { (void) name; #if defined(MBEDTLS_THREADING_C) mbedtls_threading_mutex_t mutex; memset(&mutex, 0, sizeof(mutex)); /* This mutex usage error is detected by our test framework's mutex usage * verification framework. See tests/src/threading_helpers.c. Other * threading implementations (e.g. pthread without our instrumentation) * might consider this normal usage. */ TEST_ASSERT(mbedtls_mutex_lock(&mutex) == 0); exit: ; #endif } void mutex_unlock_not_initialized(const char *name) { (void) name; #if defined(MBEDTLS_THREADING_C) mbedtls_threading_mutex_t mutex; memset(&mutex, 0, sizeof(mutex)); /* This mutex usage error is detected by our test framework's mutex usage * verification framework. See tests/src/threading_helpers.c. Other * threading implementations (e.g. pthread without our instrumentation) * might consider this normal usage. */ TEST_ASSERT(mbedtls_mutex_unlock(&mutex) == 0); exit: ; #endif } void mutex_free_not_initialized(const char *name) { (void) name; #if defined(MBEDTLS_THREADING_C) mbedtls_threading_mutex_t mutex; memset(&mutex, 0, sizeof(mutex)); /* This mutex usage error is detected by our test framework's mutex usage * verification framework. See tests/src/threading_helpers.c. Other * threading implementations (e.g. pthread without our instrumentation) * might consider this normal usage. */ mbedtls_mutex_free(&mutex); #endif } void mutex_double_init(const char *name) { (void) name; #if defined(MBEDTLS_THREADING_C) mbedtls_threading_mutex_t mutex; mbedtls_mutex_init(&mutex); /* This mutex usage error is detected by our test framework's mutex usage * verification framework. See tests/src/threading_helpers.c. Other * threading implementations (e.g. pthread without our instrumentation) * might consider this normal usage. */ mbedtls_mutex_init(&mutex); mbedtls_mutex_free(&mutex); #endif } void mutex_double_free(const char *name) { (void) name; #if defined(MBEDTLS_THREADING_C) mbedtls_threading_mutex_t mutex; mbedtls_mutex_init(&mutex); mbedtls_mutex_free(&mutex); /* This mutex usage error is detected by our test framework's mutex usage * verification framework. See tests/src/threading_helpers.c. Other * threading implementations (e.g. pthread without our instrumentation) * might consider this normal usage. */ mbedtls_mutex_free(&mutex); #endif } void mutex_leak(const char *name) { (void) name; #if defined(MBEDTLS_THREADING_C) mbedtls_threading_mutex_t mutex; mbedtls_mutex_init(&mutex); #endif /* This mutex usage error is detected by our test framework's mutex usage * verification framework. See tests/src/threading_helpers.c. Other * threading implementations (e.g. pthread without our instrumentation) * might consider this normal usage. */ } /****************************************************************/ /* Command line entry point */ /****************************************************************/ typedef struct { /** Command line argument that will trigger that metatest. * * Conventionally matches "[a-z0-9_]+". */ const char *name; /** Platform under which that metatest is valid. * * - "any": should work anywhere. * - "asan": triggers ASan (Address Sanitizer). * - "msan": triggers MSan (Memory Sanitizer). * - "pthread": requires MBEDTLS_THREADING_PTHREAD and MBEDTLS_TEST_HOOKS, * which enables MBEDTLS_TEST_MUTEX_USAGE internally in the test * framework (see tests/src/threading_helpers.c). */ const char *platform; /** Function that performs the metatest. * * The function receives the name as an argument. This allows using the * same function to perform multiple variants of a test based on the name. * * When executed on a conforming platform, the function is expected to * either cause a test failure (mbedtls_test_fail()), or cause the * program to abort in some way (e.g. by causing a segfault or by * triggering a sanitizer). * * When executed on a non-conforming platform, the function may return * normally or may have unpredictable behavior. */ void (*entry_point)(const char *name); } metatest_t; /* The list of availble meta-tests. Remember to register new functions here! * * Note that we always compile all the functions, so that `metatest --list` * will always list all the available meta-tests. * * See the documentation of metatest_t::platform for the meaning of * platform values. */ metatest_t metatests[] = { { "test_fail", "any", meta_test_fail }, { "null_dereference", "any", null_pointer_dereference }, { "null_call", "any", null_pointer_call }, { "read_after_free", "asan", read_after_free }, { "double_free", "asan", double_free }, { "read_uninitialized_stack", "msan", read_uninitialized_stack }, { "memory_leak", "asan", memory_leak }, { "mutex_lock_not_initialized", "pthread", mutex_lock_not_initialized }, { "mutex_unlock_not_initialized", "pthread", mutex_unlock_not_initialized }, { "mutex_free_not_initialized", "pthread", mutex_free_not_initialized }, { "mutex_double_init", "pthread", mutex_double_init }, { "mutex_double_free", "pthread", mutex_double_free }, { "mutex_leak", "pthread", mutex_leak }, { NULL, NULL, NULL } }; static void help(FILE *out, const char *argv0) { mbedtls_fprintf(out, "Usage: %s list|TEST\n", argv0); mbedtls_fprintf(out, "Run a meta-test that should cause a test failure.\n"); mbedtls_fprintf(out, "With 'list', list the available tests and their platform requirement.\n"); } int main(int argc, char *argv[]) { const char *argv0 = argc > 0 ? argv[0] : "metatest"; if (argc != 2) { help(stderr, argv0); mbedtls_exit(MBEDTLS_EXIT_FAILURE); } /* Support "-help", "--help", "--list", etc. */ const char *command = argv[1]; while (*command == '-') { ++command; } if (strcmp(argv[1], "help") == 0) { help(stdout, argv0); mbedtls_exit(MBEDTLS_EXIT_SUCCESS); } if (strcmp(argv[1], "list") == 0) { for (const metatest_t *p = metatests; p->name != NULL; p++) { mbedtls_printf("%s %s\n", p->name, p->platform); } mbedtls_exit(MBEDTLS_EXIT_SUCCESS); } #if defined(MBEDTLS_TEST_MUTEX_USAGE) mbedtls_test_mutex_usage_init(); #endif for (const metatest_t *p = metatests; p->name != NULL; p++) { if (strcmp(argv[1], p->name) == 0) { mbedtls_printf("Running metatest %s...\n", argv[1]); p->entry_point(argv[1]); #if defined(MBEDTLS_TEST_MUTEX_USAGE) mbedtls_test_mutex_usage_check(); #endif int result = (int) mbedtls_test_get_result(); mbedtls_printf("Running metatest %s... done, result=%d\n", argv[1], result); mbedtls_exit(result == MBEDTLS_TEST_RESULT_SUCCESS ? MBEDTLS_EXIT_SUCCESS : MBEDTLS_EXIT_FAILURE); } } mbedtls_fprintf(stderr, "%s: FATAL: No such metatest: %s\n", argv0, command); mbedtls_exit(MBEDTLS_EXIT_FAILURE); }