Firstly your code isn't producing segmentation fault. Instead it will bring up "Stack Smashing" and throws below libc_message in the output console.
*** stack smashing detected ***: _executable-name-with-path_ terminated.
Stack buffer overflow bugs are caused when a program writes more data to a buffer located on the stack than there was actually allocated for that buffer.
Stack Smashing Protector (SSP) is a GCC extension for protecting applications from such stack-smashing attacks.
And, as said in other answers, your problem gets resolved with incrementing (
strcat() function's first argument). from
char line; // size of line must be atleast `strlen(line) + strlen(mod) + 1`. Though 130 is not perfect, it is safer
Lets see where the issue exactly hits in your code:
For that I am bringing up disassembly code of your main.
(gdb) disas main
Dump of assembler code for function main:
0x0804857c <+0>: push %ebp
0x0804857d <+1>: mov %esp,%ebp
0x0804857f <+3>: and $0xfffffff0,%esp
0x08048582 <+6>: sub $0xb0,%esp
0x08048588 <+12>: mov %gs:0x14,%eax
0x0804858e <+18>: mov %eax,0xac(%esp)
..... //Leaving out Code after 0x0804858e till 0x08048671
0x08048671 <+245>: call 0x8048430 <strcat@plt>
0x08048676 <+250>: movl $0x80487d5,0x4(%esp)
.... //Leaving out Code after 0x08048676 till 0x08048704
0x08048704 <+392>: mov 0xac(%esp),%edx
0x0804870b <+399>: xor %gs:0x14,%edx
0x08048712 <+406>: je 0x8048719 <main+413>
0x08048714 <+408>: call 0x8048420 <__stack_chk_fail@plt>
0x08048719 <+413>: leave
0x0804871a <+414>: ret
Following the usual assembly language prologue,
0x08048582 : stack grows by b0(176 in decimal) bytes for allowing storage stack contents for the main function.
%gs:0x14 provides the random canary value used for stack protection.
0x08048588 : Stores above mentioned value into the eax register.
eax content(canary value) is pushed to stack at $esp with offset 172
Keep a breakpoint(1) at
(gdb) break *0x0804858e
Breakpoint 1 at 0x804858e: file program_name.c, line 6.
Run the program:
Starting program: /path-to-executable/executable-name
Breakpoint 1, 0x0804858e in main () at program_name.c:6
Once program pauses at the breakpoint(1), Retreive the random canary value by printing the contents of register 'eax'
(gdb) i r eax
eax 0xa3d24300 -1546501376
Keep a breakpoint(2) at
0x08048671 : Exactly before call
(gdb) break *0x08048671
Breakpoint 2 at 0x8048671: file program_name.c, line 33.
Continue the program execution to reach the breakpoint (2)
Breakpoint 2, 0x08048671 in main () at program_name.c:33
print out the second top stack content where we stored the random canary value by executing following command in gdb, to ensure it is the same before
strcat() is called.
(gdb) p *(int*)($esp + 172)
$1 = -1546501376
Keep a breakpoint (3) at
0x08048676 : Immediately after returning from call
(gdb) break *0x08048676
Breakpoint 3 at 0x8048676: file program_name.c, line 36.
Continue the program execution to reach the breakpoint (3)
Breakpoint 3, main () at program_name.c:36
print out the second top stack content where we stored the random canary value by executing following command in gdb, to ensure it is not corrupted by calling
(gdb) p *(int*)($esp + 172)
$2 = 1869111673
But it is corrupted by calling
strcat(). You can see
$2 are not same.
Lets see what happens because of corrupting the random canary value.
0x08048704 : Pulls the corrupted random canary value and stores in 'edx` register
0x0804870b : xor the actual random canary value and the contents of 'edx' register
0x08048712 : If they are same, jumps directly to end of main and returns safely. In our case random canary value is corrupted and 'edx' register contents is not the same as the actual random canary value. Hence Jump condition fails and __stack_chk_fail is called which throws libc_message mentioned in the top of the answer and aborts the application.
IBM SSP Page
Interesting Read on SSP - caution pdf.