mimalloc/test/main-override-static.c

169 lines
3.9 KiB
C
Raw Normal View History

2019-07-22 01:36:16 -07:00
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include <string.h>
#include <stdint.h>
2019-07-22 01:36:16 -07:00
#include <mimalloc.h>
#include <mimalloc-override.h> // redefines malloc etc.
static void double_free1();
static void double_free2();
static void corrupt_free();
static void block_overflow1();
static void invalid_free();
2020-09-04 10:41:10 -07:00
static void test_aslr(void);
2020-09-06 13:21:19 -07:00
static void test_process_info(void);
static void test_reserved(void);
2019-07-22 01:36:16 -07:00
int main() {
mi_version();
2020-01-15 10:53:54 -08:00
// detect double frees and heap corruption
// double_free1();
// double_free2();
// corrupt_free();
// block_overflow1();
2020-09-04 10:41:10 -07:00
// test_aslr();
// invalid_free();
// test_reserved();
2019-07-22 01:36:16 -07:00
void* p1 = malloc(78);
void* p2 = malloc(24);
free(p1);
p1 = mi_malloc(8);
2019-07-22 01:36:16 -07:00
//char* s = strdup("hello\n");
free(p2);
p2 = malloc(16);
p1 = realloc(p1, 32);
free(p1);
free(p2);
//free(s);
//mi_collect(true);
/* now test if override worked by allocating/freeing across the api's*/
//p1 = mi_malloc(32);
//free(p1);
//p2 = malloc(32);
//mi_free(p2);
mi_stats_print(NULL);
2020-09-06 13:21:19 -07:00
test_process_info();
2019-07-22 01:36:16 -07:00
return 0;
}
static void invalid_free() {
free((void*)0xBADBEEF);
realloc((void*)0xBADBEEF,10);
}
static void block_overflow1() {
uint8_t* p = (uint8_t*)mi_malloc(17);
p[18] = 0;
free(p);
}
// The double free samples come ArcHeap [1] by Insu Yun (issue #161)
// [1]: https://arxiv.org/pdf/1903.00503.pdf
static void double_free1() {
void* p[256];
//uintptr_t buf[256];
p[0] = mi_malloc(622616);
p[1] = mi_malloc(655362);
p[2] = mi_malloc(786432);
mi_free(p[2]);
// [VULN] Double free
mi_free(p[2]);
p[3] = mi_malloc(786456);
// [BUG] Found overlap
// p[3]=0x429b2ea2000 (size=917504), p[1]=0x429b2e42000 (size=786432)
fprintf(stderr, "p3: %p-%p, p1: %p-%p, p2: %p\n", p[3], (uint8_t*)(p[3]) + 786456, p[1], (uint8_t*)(p[1]) + 655362, p[2]);
}
static void double_free2() {
void* p[256];
//uintptr_t buf[256];
// [INFO] Command buffer: 0x327b2000
// [INFO] Input size: 182
p[0] = malloc(712352);
p[1] = malloc(786432);
free(p[0]);
// [VULN] Double free
free(p[0]);
p[2] = malloc(786440);
p[3] = malloc(917504);
p[4] = malloc(786440);
// [BUG] Found overlap
// p[4]=0x433f1402000 (size=917504), p[1]=0x433f14c2000 (size=786432)
fprintf(stderr, "p1: %p-%p, p2: %p-%p\n", p[4], (uint8_t*)(p[4]) + 917504, p[1], (uint8_t*)(p[1]) + 786432);
}
// Try to corrupt the heap through buffer overflow
#define N 256
#define SZ 64
static void corrupt_free() {
void* p[N];
// allocate
for (int i = 0; i < N; i++) {
p[i] = malloc(SZ);
}
// free some
for (int i = 0; i < N; i += (N/10)) {
free(p[i]);
p[i] = NULL;
}
// try to corrupt the free list
for (int i = 0; i < N; i++) {
if (p[i] != NULL) {
memset(p[i], 0, SZ+8);
}
}
// allocate more.. trying to trigger an allocation from a corrupted entry
// this may need many allocations to get there (if at all)
for (int i = 0; i < 4096; i++) {
malloc(SZ);
}
2020-01-15 10:53:54 -08:00
}
2020-09-04 10:41:10 -07:00
static void test_aslr(void) {
void* p[256];
p[0] = malloc(378200);
p[1] = malloc(1134626);
printf("p1: %p, p2: %p\n", p[0], p[1]);
}
2020-09-06 13:21:19 -07:00
static void test_process_info(void) {
size_t user_msecs = 0;
size_t system_msecs = 0;
2020-09-06 13:21:19 -07:00
size_t current_rss = 0;
size_t peak_rss = 0;
size_t current_commit = 0;
size_t peak_commit = 0;
size_t page_faults = 0;
for (int i = 0; i < 100000; i++) {
void* p = calloc(100,10);
free(p);
}
mi_process_info(&user_msecs, &system_msecs, &current_rss, &peak_rss, &current_commit, &peak_commit, &page_faults);
printf("\n\n*** process info: user: %3zd.%03zd s, rss: %zd b, commit: %zd b\n\n", user_msecs/1000, user_msecs%1000, peak_rss, peak_commit);
}
static void test_reserved(void) {
#define KiB 1024ULL
#define MiB (KiB*KiB)
#define GiB (MiB*KiB)
mi_reserve_os_memory(4*GiB, false, true);
void* p1 = malloc(100);
void* p2 = malloc(100000);
void* p3 = malloc(2*GiB);
void* p4 = malloc(1*GiB + 100000);
free(p1);
free(p2);
free(p3);
p3 = malloc(1*GiB);
free(p4);
}