However the exercise also mentions that it is possible to use just 1 argument vector to compromise this code. I'm curious to see how this can be done.
The problem here is that length needs to be overwritten in order for the overflow to take place and the return address to be compromised.
It seems pretty straightforward to me. That magic number 144 makes sense if
sizeof(int) == 8, which it would if you are building for 64-bit.
So assuming a stack layout where
to_be_exploited comes before
limit, you can simply pass in a very long string with junk in the bytes starting at offset 136 (i.e.,
128 + sizeof(int)), and then carefully crafted junk in the bytes starting with offset 144. This will overwrite
limit starting with that byte, thus disabling the length check. Then the carefully crafted junk overwrites the return address.
You could put almost anything into the 8 bytes starting at offset 136 and have them make a number that is large enough to disable the security check. Just make sure you don't end up with a negative number. For example, the string "HAHAHAHA" would evaluate, as an integer, to 5206522089439316033. This number is larger than 144... actually, it's too large as you want this function to stop copying once your string is copied. So you just need to figure out how long your attack string actually is and put the correct bytes for that length into that position, and the attack will be copied in.
Note that normal string-handling functions in C use a NUL byte as a terminator, and stop copying. This function doesn't do that; it just trusts
limit. So you could put any junk you want in the input string to exploit this function. However, if normal C library functions need to copy the input data, you might end up needing to avoid NUL bytes.
Of course nobody should put code this silly into production.
EDIT: I wrote the above in a hurry. Now that I have more time, I re-read your question and I think I better understand what you wanted to have explained.
You are wondering how a string can correctly clobber
limit with a correct length without having
strlen() chop it off short. This is impossible on a big-endian computer, but perfectly possible on a little-endian computer.
On a little-endian computer, the first byte is the least significant byte. See the Wikipedia entry:
Any number that is not ridiculously large must have zero in its most significant bytes. On a big-endian computer that means the first several bytes will all be zero, will act like a NUL, and will cause
strlen() to chop the string before the function can clobber
limit. However, on a little-endian computer, the important bytes you want copied will all come before the NUL bytes.
In the early days of the Internet, it was common for big-endian computers (often bought from Sun Microsystems) to run Internet server apps. These days, commodity x86 server hardware is most common, and x86 is little-endian. In practice, anyone deploying such exploitable code as the
TrickyOverflowSeq() function will get 0wned.
If you don't think this answer is thorough enough, please post a comment explaining what part you think I need to cover better and I'll update the answer.