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decrypt_safe_linking.c
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decrypt_safe_linking.c
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#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
long decrypt(long cipher)
{
puts("The decryption uses the fact that the first 12bit of the plaintext (the fwd pointer) is known,");
puts("because of the 12bit sliding.");
puts("And the key, the ASLR value, is the same with the leading bits of the plaintext (the fwd pointer)");
long key = 0;
long plain;
for(int i=1; i<6; i++) {
int bits = 64-12*i;
if(bits < 0) bits = 0;
plain = ((cipher ^ key) >> bits) << bits;
key = plain >> 12;
printf("round %d:\n", i);
printf("key: %#016lx\n", key);
printf("plain: %#016lx\n", plain);
printf("cipher: %#016lx\n\n", cipher);
}
return plain;
}
int main()
{
/*
* This technique demonstrates how to recover the original content from a poisoned
* value because of the safe-linking mechanism.
* The attack uses the fact that the first 12 bit of the plaintext (pointer) is known
* and the key (ASLR slide) is the same to the pointer's leading bits.
* As a result, as long as the chunk where the pointer is stored is at the same page
* of the pointer itself, the value of the pointer can be fully recovered.
* Otherwise, we can also recover the pointer with the page-offset between the storer
* and the pointer. What we demonstrate here is a special case whose page-offset is 0.
* For demonstrations of other more general cases, plz refer to
* https://github.com/n132/Dec-Safe-Linking
*/
setbuf(stdin, NULL);
setbuf(stdout, NULL);
// step 1: allocate chunks
long *a = malloc(0x20);
long *b = malloc(0x20);
printf("First, we create chunk a @ %p and chunk b @ %p\n", a, b);
malloc(0x10);
puts("And then create a padding chunk to prevent consolidation.");
// step 2: free chunks
puts("Now free chunk a and then free chunk b.");
free(a);
free(b);
printf("Now the freelist is: [%p -> %p]\n", b, a);
printf("Due to safe-linking, the value actually stored at b[0] is: %#lx\n", b[0]);
// step 3: recover the values
puts("Now decrypt the poisoned value");
long plaintext = decrypt(b[0]);
printf("value: %p\n", a);
printf("recovered value: %#lx\n", plaintext);
assert(plaintext == (long)a);
}