Sunday, June 7, 2020

Interators are usually implemented using signed integers like the typical "for (int i=0; ..." and in fact is the type used indexing "cstr[i]", most of methods use the signed int, int by default is signed.
Nevertheless, the "std::string::operator[]" index is size_t which is unsigned, and so does size(), and same happens with vectors.
Besides the operator[] lack of negative index control, I will explain this later.

Do the compilers doesn't warn about this?


If his code got a large input it would index a negative numer, let see g++ and clang++ warnings:



No warnings so many bugs out there...

In order to reproduce the crash we can load a big string or vector from file, for example:


I've implemented a loading function, getting the file size with tellg() and malloc to allocate the buffer, then in this case used as a string.
Let see how the compiler write asm code based on this c++ code.



So the string constructor, getting size and adding -2 is clear. Then come the operator<< to concat the strings.
Then we see the operator[] when it will crash with the negative index.
In assembly is more clear, it will call operator[] to get the value, and there will hapen the magic dereference happens. The operator[] will end up returning an invalid address that will crash at [RAX]



In gdb the operator[] is a  allq  0x555555555180 <_znst7__cxx1112basic_stringicst11char_traitsicesaiceeixem plt="">

(gdb) i r rsi
rsi            0xfffffffffffefffe  -65538


The implmementation of operator ins in those functions below:

(gdb) bt
#0  0x00007ffff7feebf3 in strcmp () from /lib64/ld-linux-x86-64.so.2
#1  0x00007ffff7fdc9a5 in check_match () from /lib64/ld-linux-x86-64.so.2
#2  0x00007ffff7fdce7b in do_lookup_x () from /lib64/ld-linux-x86-64.so.2
#3  0x00007ffff7fdd739 in _dl_lookup_symbol_x () from /lib64/ld-linux-x86-64.so.2
#4  0x00007ffff7fe1eb7 in _dl_fixup () from /lib64/ld-linux-x86-64.so.2
#5  0x00007ffff7fe88ee in _dl_runtime_resolve_xsavec () from /lib64/ld-linux-x86-64.so.2
#6  0x00005555555554b3 in main (argc=2, argv=0x7fffffffe118) at main.cpp:29

Then crashes on the MOVZX EAX, byte ptr [RAX]

Program received signal SIGSEGV, Segmentation fault.
0x00005555555554b3 in main (argc=2, argv=0x7fffffffe118) at main.cpp:29
29     cout << "penultimate byte is " << hex << s[i] << endl;
(gdb)


What about negative indexing in std::string::operator[] ?
It's exploitable!

In a C char array is known that having control of the index, we can address memory.
Let's see what happens with C++ strings:






The operator[] function call returns the address of string plus 10, and yes, we can do abitrary writes.



Note that gdb displays by default with at&t asm format wich the operands are in oposite order:


And having a string that is in the stack, controlling the index we can perform a write on the stack.



To make sure we are writing outside the string, I'm gonna do 3 writes:


 See below the command "i r rax" to view the address where the write will be performed.


The beginning of the std::string object is 0x7fffffffde50.
Write -10 writes before the string 0x7fffffffde46.
And write -100 segfaults because is writting in non paged address.



So, C++ std::string probably is not vulnerable to buffer overflow based in concatenation, but the std::string::operator[] lack of negative indexing control and this could create vulnerable and exploitable situations, some times caused by a signed used of the unsigned std::string.size()










Continue reading


  1. Hacking Linux
  2. Rapid7 Pentest
  3. Pentest Basics
  4. Pentest
  5. Hacker News
  6. Hacker Kevin Mitnick
  7. Hacker Computer
  8. Hacking Tools
  9. Pentest Tutorial
  10. Hacking 3Ds
  11. Hacking Attack
  12. Rapid7 Pentest
  13. Pentest As A Service
  14. Pentest Xss
  15. Pentest Online Course
  16. Pentest Services
  17. Pentest Example Report

1 comments:

  1. CONTACT: onlineghosthacker247 @gmail. com
    -Find Out If Your Husband/Wife or Boyfriend/Girlfriend Is Cheating On You
    -Let them Help You Hack Any Website Or Database
    -Hack Into Any University Portal; To Change Your Grades Or Upgrade Any Personal Information/Examination Questions
    -Hack Email; Mobile Phones; Whatsapp; Text Messages; Call Logs; Facebook And Other Social Media Accounts
    -And All Related Services
    - let them help you in recovery any lost fund scam from you
    onlineghosthacker Will Get The Job Done For You
    onlineghosthacker247 @gmail. com
    TESTED AND TRUSTED!

    ReplyDelete