From b750101eb236130cf056c675997decbac904cc49 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 17:35:18 +0200 Subject: Adding upstream version 252.22. Signed-off-by: Daniel Baumann --- src/test/test-alloc-util.c | 194 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 194 insertions(+) create mode 100644 src/test/test-alloc-util.c (limited to 'src/test/test-alloc-util.c') diff --git a/src/test/test-alloc-util.c b/src/test/test-alloc-util.c new file mode 100644 index 0000000..645ad42 --- /dev/null +++ b/src/test/test-alloc-util.c @@ -0,0 +1,194 @@ +/* SPDX-License-Identifier: LGPL-2.1-or-later */ + +#include +#include + +#include "alloc-util.h" +#include "macro.h" +#include "memory-util.h" +#include "random-util.h" +#include "tests.h" + +TEST(alloca) { + static const uint8_t zero[997] = { }; + char *t; + + t = alloca_align(17, 512); + assert_se(!((uintptr_t)t & 0xff)); + memzero(t, 17); + + t = alloca0_align(997, 1024); + assert_se(!((uintptr_t)t & 0x1ff)); + assert_se(!memcmp(t, zero, 997)); +} + +TEST(GREEDY_REALLOC) { + _cleanup_free_ int *a = NULL, *b = NULL; + size_t i, j; + + /* Give valgrind a chance to verify our realloc() operations */ + + for (i = 0; i < 20480; i++) { + assert_se(GREEDY_REALLOC(a, i + 1)); + assert_se(MALLOC_ELEMENTSOF(a) >= i + 1); + assert_se(MALLOC_SIZEOF_SAFE(a) >= (i + 1) * sizeof(int)); + a[i] = (int) i; + assert_se(GREEDY_REALLOC(a, i / 2)); + assert_se(MALLOC_ELEMENTSOF(a) >= i / 2); + assert_se(MALLOC_SIZEOF_SAFE(a) >= (i / 2) * sizeof(int)); + } + + for (j = 0; j < i / 2; j++) + assert_se(a[j] == (int) j); + + for (i = 30; i < 20480; i += 7) { + assert_se(GREEDY_REALLOC(b, i + 1)); + assert_se(MALLOC_ELEMENTSOF(b) >= i + 1); + assert_se(MALLOC_SIZEOF_SAFE(b) >= (i + 1) * sizeof(int)); + b[i] = (int) i; + assert_se(GREEDY_REALLOC(b, i / 2)); + assert_se(MALLOC_ELEMENTSOF(b) >= i / 2); + assert_se(MALLOC_SIZEOF_SAFE(b) >= (i / 2) * sizeof(int)); + } + + for (j = 30; j < i / 2; j += 7) + assert_se(b[j] == (int) j); +} + +TEST(memdup_multiply_and_greedy_realloc) { + static const int org[] = { 1, 2, 3 }; + _cleanup_free_ int *dup; + size_t i; + int *p; + + dup = memdup_suffix0_multiply(org, 3, sizeof(int)); + assert_se(dup); + assert_se(dup[0] == 1); + assert_se(dup[1] == 2); + assert_se(dup[2] == 3); + assert_se(((uint8_t*) dup)[sizeof(int) * 3] == 0); + free(dup); + + dup = memdup_multiply(org, 3, sizeof(int)); + assert_se(dup); + assert_se(dup[0] == 1); + assert_se(dup[1] == 2); + assert_se(dup[2] == 3); + + memzero(dup + 3, malloc_usable_size(dup) - sizeof(int) * 3); + + p = dup; + assert_se(GREEDY_REALLOC0(dup, 2) == p); + + p = GREEDY_REALLOC0(dup, 10); + assert_se(p == dup); + assert_se(MALLOC_ELEMENTSOF(p) >= 10); + assert_se(p[0] == 1); + assert_se(p[1] == 2); + assert_se(p[2] == 3); + for (i = 3; i < MALLOC_ELEMENTSOF(p); i++) + assert_se(p[i] == 0); +} + +TEST(bool_assign) { + bool b, c, *cp = &c, d, e, f, g, h; + + b = 123; + *cp = -11; + d = 0xF & 0xFF; + e = b & d; + f = 0x0; + g = cp; /* cast from pointer */ + h = NULL; /* cast from pointer */ + + assert_se(b); + assert_se(c); + assert_se(d); + assert_se(e); + assert_se(!f); + assert_se(g); + assert_se(!h); +} + +static int cleanup_counter = 0; + +static void cleanup1(void *a) { + log_info("%s(%p)", __func__, a); + assert_se(++cleanup_counter == *(int*) a); +} +static void cleanup2(void *a) { + log_info("%s(%p)", __func__, a); + assert_se(++cleanup_counter == *(int*) a); +} +static void cleanup3(void *a) { + log_info("%s(%p)", __func__, a); + assert_se(++cleanup_counter == *(int*) a); +} + +TEST(cleanup_order) { + _cleanup_(cleanup1) int x1 = 4, x2 = 3; + _cleanup_(cleanup3) int z = 2; + _cleanup_(cleanup2) int y = 1; + log_debug("x1: %p", &x1); + log_debug("x2: %p", &x2); + log_debug("y: %p", &y); + log_debug("z: %p", &z); +} + +TEST(auto_erase_memory) { + _cleanup_(erase_and_freep) uint8_t *p1, *p2; + + /* print address of p2, else e.g. clang-11 will optimize it out */ + log_debug("p1: %p p2: %p", &p1, &p2); + + assert_se(p1 = new(uint8_t, 4703)); /* use prime size, to ensure that there will be free space at the + * end of the allocation, since malloc() enforces alignment */ + assert_se(p2 = new(uint8_t, 4703)); + + assert_se(crypto_random_bytes(p1, 4703) == 0); + + /* before we exit the scope, do something with this data, so that the compiler won't optimize this away */ + memcpy(p2, p1, 4703); + for (size_t i = 0; i < 4703; i++) + assert_se(p1[i] == p2[i]); +} + +#define TEST_SIZES(f, n) \ + do { \ + log_debug("requested=%zu vs. malloc_size=%zu vs. gcc_size=%zu", \ + n * sizeof(*f), \ + malloc_usable_size(f), \ + __builtin_object_size(f, 0)); \ + assert_se(MALLOC_ELEMENTSOF(f) >= n); \ + assert_se(MALLOC_SIZEOF_SAFE(f) >= sizeof(*f) * n); \ + assert_se(malloc_usable_size(f) >= sizeof(*f) * n); \ + assert_se(__builtin_object_size(f, 0) >= sizeof(*f) * n); \ + } while (false) + +TEST(malloc_size_safe) { + _cleanup_free_ uint32_t *f = NULL; + size_t n = 4711; + + /* Let's check the macros and built-ins work on NULL and return the expected values */ + assert_se(MALLOC_ELEMENTSOF((float*) NULL) == 0); + assert_se(MALLOC_SIZEOF_SAFE((float*) NULL) == 0); + assert_se(malloc_usable_size(NULL) == 0); /* as per man page, this is safe and defined */ + assert_se(__builtin_object_size(NULL, 0) == SIZE_MAX); /* as per docs SIZE_MAX is returned for pointers where the size isn't known */ + + /* Then, let's try these macros once with constant size values, so that __builtin_object_size() + * definitely can work (as long as -O2 is used when compiling) */ + assert_se(f = new(uint32_t, n)); + TEST_SIZES(f, n); + + /* Finally, let's use some dynamically sized allocations, to make sure this doesn't deteriorate */ + for (unsigned i = 0; i < 50; i++) { + _cleanup_free_ uint64_t *g = NULL; + size_t m; + + m = random_u64_range(16*1024); + assert_se(g = new(uint64_t, m)); + TEST_SIZES(g, m); + } +} + +DEFINE_TEST_MAIN(LOG_DEBUG); -- cgit v1.2.3