• Stars
    star
    261
  • Rank 156,630 (Top 4 %)
  • Language
    Python
  • License
    MIT License
  • Created almost 5 years ago
  • Updated over 1 year ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

Automatic ROPChain Generation

Exrop

Exrop is automatic ROP chains generator tool which can build gadget chain automatically from given binary and constraints

Requirements : Triton, ROPGadget

Only support for x86-64 for now!

Features:

  • handling non-return gadgets (jmp reg, call reg)
  • set registers (rdi=0xxxxxx, rsi=0xxxxxx)
  • set register to register (rdi=rax)
  • write to mem
  • write string/bytes to mem
  • function call (open('/etc/passwd',0))
  • pass register in function call (read('rax', bss, 0x100))
  • avoiding badchars
  • stack pivoting (Exrop.stack_pivot)
  • syscall (Exrop.syscall)
  • see examples

installation

  1. install python (3.6 is recomended and tested)
  2. install triton (https://triton.quarkslab.com/documentation/doxygen/index.html#linux_install_sec), make sure you add -DPYTHON36=on as cmake option
  3. install ropgadget (https://github.com/JonathanSalwan/ROPgadget)
  4. to install exrop, easily add export PYTHONPATH=/path/to/exrop:$PYTHONPATH in your .bashrc (depends on your shell)

demo

from Exrop import Exrop

rop = Exrop("/bin/ls")
rop.find_gadgets(cache=True)
print("write-regs gadgets: rdi=0x41414141, rsi:0x42424242, rdx: 0x43434343, rax:0x44444444, rbx=0x45454545")
chain = rop.set_regs({'rdi':0x41414141, 'rsi': 0x42424242, 'rdx':0x43434343, 'rax':0x44444444, 'rbx': 0x45454545})
chain.dump()
print("write-what-where gadgets: [0x41414141]=0xdeadbeefff, [0x43434343]=0x110011")
chain = rop.set_writes({0x41414141: 0xdeadbeefff, 0x43434343: 0x00110011})
chain.dump()
print("write-string gadgets 0x41414141=\"Hello world!\\n\"")
chain = rop.set_string({0x41414141: "Hello world!\n"})
chain.dump()
print("func-call gadgets 0x41414141(0x20, 0x30, \"Hello\")")
chain = rop.func_call(0x41414141, (0x20, 0x30, "Hello"), 0x7fffff00)
chain.dump()

Output:

write-regs gadget: rdi=0x41414141, rsi:0x42424242, rdx: 0x43434343, rax:0x44444444, rbx=0x45454545
$RSP+0x0000 : 0x00000000000060d0 # pop rbx; ret
$RSP+0x0008 : 0x0000000044444444
$RSP+0x0010 : 0x0000000000014852 # mov rax, rbx; pop rbx; ret
$RSP+0x0018 : 0x0000000000000000
$RSP+0x0020 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0028 : 0x0000000041414141
$RSP+0x0030 : 0x000000000000629c # pop rsi; ret
$RSP+0x0038 : 0x0000000042424242
$RSP+0x0040 : 0x0000000000003a62 # pop rdx; ret
$RSP+0x0048 : 0x0000000043434343
$RSP+0x0050 : 0x00000000000060d0 # pop rbx; ret
$RSP+0x0058 : 0x0000000045454545

write-what-where gadgets: [0x41414141]=0xdeadbeefff, [0x43434343]=0x110011
$RSP+0x0000 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0008 : 0x000000deadbeefff
$RSP+0x0010 : 0x000000000000d91f # mov rax, rdi; ret
$RSP+0x0018 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0020 : 0x0000000041414139
$RSP+0x0028 : 0x000000000000e0fb # mov qword ptr [rdi + 8], rax; ret
$RSP+0x0030 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0038 : 0x0000000000110011
$RSP+0x0040 : 0x000000000000d91f # mov rax, rdi; ret
$RSP+0x0048 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0050 : 0x000000004343433b
$RSP+0x0058 : 0x000000000000e0fb # mov qword ptr [rdi + 8], rax; ret

write-string gadgets 0x41414141="Hello world!\n"
$RSP+0x0000 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0008 : 0x6f77206f6c6c6548
$RSP+0x0010 : 0x000000000000d91f # mov rax, rdi; ret
$RSP+0x0018 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0020 : 0x0000000041414139
$RSP+0x0028 : 0x000000000000e0fb # mov qword ptr [rdi + 8], rax; ret
$RSP+0x0030 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0038 : 0x0000000a21646c72
$RSP+0x0040 : 0x000000000000d91f # mov rax, rdi; ret
$RSP+0x0048 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0050 : 0x0000000041414141
$RSP+0x0058 : 0x000000000000e0fb # mov qword ptr [rdi + 8], rax; ret

func-call gadgets 0x41414141(0x20, 0x30, "Hello")
$RSP+0x0000 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0008 : 0x0000006f6c6c6548
$RSP+0x0010 : 0x000000000000d91f # mov rax, rdi; ret
$RSP+0x0018 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0020 : 0x000000007ffffef8
$RSP+0x0028 : 0x000000000000e0fb # mov qword ptr [rdi + 8], rax; ret
$RSP+0x0030 : 0x0000000000004ce5 # pop rdi; ret
$RSP+0x0038 : 0x0000000000000020
$RSP+0x0040 : 0x000000000000629c # pop rsi; ret
$RSP+0x0048 : 0x0000000000000030
$RSP+0x0050 : 0x0000000000003a62 # pop rdx; ret
$RSP+0x0058 : 0x000000007fffff00
$RSP+0x0060 : 0x0000000041414141

python3 tests.py  1,48s user 0,05s system 97% cpu 1,566 total

Another example: open-read-write gadgets!

from pwn import *
import time
from Exrop import Exrop

binname = "/lib/x86_64-linux-gnu/libc.so.6"
libc = ELF(binname, checksec=False)
open = libc.symbols['open']
read = libc.symbols['read']
write = libc.symbols['write']
bss = libc.bss()

t = time.mktime(time.gmtime())
rop = Exrop(binname)
rop.find_gadgets(cache=True)
print("open('/etc/passwd', 0)")
chain = rop.func_call(open, ("/etc/passwd", 0), bss)
chain.set_base_addr(0x00007ffff79e4000)
chain.dump()
print("read('rax', bss, 0x100)") # register can be used as argument too!
chain = rop.func_call(read, ('rax', bss, 0x100))
chain.set_base_addr(0x00007ffff79e4000)
chain.dump()
print("write(1, bss, 0x100)")
chain = rop.func_call(write, (1, bss, 0x100))
chain.set_base_addr(0x00007ffff79e4000)
chain.dump()
print("done in {}s".format(time.mktime(time.gmtime()) - t))

Output:

open('/etc/passwd', 0)
$RSP+0x0000 : 0x00007ffff7a05a45 # pop r13 ; ret
$RSP+0x0008 : 0x00000000003ec860
$RSP+0x0010 : 0x00007ffff7a7630c # xor edi, edi ; pop rbx ; mov rax, rdi ; pop rbp ; pop r12 ; ret
$RSP+0x0018 : 0x00007ffff7a0555f
$RSP+0x0020 : 0x0000000000000000
$RSP+0x0028 : 0x0000000000000000
$RSP+0x0030 : 0x00007ffff7a06b8a # mov r9, r13 ; call rbx: next -> (0x0002155f) # pop rdi ; ret
$RSP+0x0038 : 0x00007ffff7a0555f # pop rdi ; ret
$RSP+0x0040 : 0x7361702f6374652f
$RSP+0x0048 : 0x00007ffff7b251c7 # mov qword ptr [r9], rdi ; ret
$RSP+0x0050 : 0x00007ffff7a05a45 # pop r13 ; ret
$RSP+0x0058 : 0x00000000003ec868
$RSP+0x0060 : 0x00007ffff7a7630c # xor edi, edi ; pop rbx ; mov rax, rdi ; pop rbp ; pop r12 ; ret
$RSP+0x0068 : 0x00007ffff7a0555f
$RSP+0x0070 : 0x0000000000000000
$RSP+0x0078 : 0x0000000000000000
$RSP+0x0080 : 0x00007ffff7a06b8a # mov r9, r13 ; call rbx: next -> (0x0002155f) # pop rdi ; ret
$RSP+0x0088 : 0x00007ffff7a0555f # pop rdi ; ret
$RSP+0x0090 : 0x0000000000647773
$RSP+0x0098 : 0x00007ffff7b251c7 # mov qword ptr [r9], rdi ; ret
$RSP+0x00a0 : 0x00007ffff7a62c70 # xor esi, esi ; mov rax, rsi ; ret
$RSP+0x00a8 : 0x00007ffff7a0555f # pop rdi ; ret
$RSP+0x00b0 : 0x00000000003ec860
$RSP+0x00b8 : 0x000000000010fc40

read('rax', bss, 0x100)
$RSP+0x0000 : 0x00007ffff7a71362 # mov dh, 0xc5 ; pop rbx ; pop rbp ; pop r12 ; ret
$RSP+0x0008 : 0x0000000000000000
$RSP+0x0010 : 0x0000000000000000
$RSP+0x0018 : 0x00007ffff7a0555f
$RSP+0x0020 : 0x00007ffff7aea899 # mov r8, rax ; call r12: next -> (0x0002155f) # pop rdi ; ret
$RSP+0x0028 : 0x00007ffff7b4a3b1 # pop rax ; pop rdx ; pop rbx ; ret
$RSP+0x0030 : 0x00007ffff79e5b96
$RSP+0x0038 : 0x0000000000000000
$RSP+0x0040 : 0x0000000000000000
$RSP+0x0048 : 0x00007ffff7a7fa08 # mov rdi, r8 ; call rax: next -> (0x00001b96) # pop rdx ; ret
$RSP+0x0050 : 0x00007ffff79e5b96 # pop rdx ; ret
$RSP+0x0058 : 0x0000000000000100
$RSP+0x0060 : 0x00007ffff7a07e6a # pop rsi ; ret
$RSP+0x0068 : 0x00000000003ec860
$RSP+0x0070 : 0x0000000000110070

write(1, bss, 0x100)
$RSP+0x0000 : 0x00007ffff7a0555f # pop rdi ; ret
$RSP+0x0008 : 0x0000000000000001
$RSP+0x0010 : 0x00007ffff79e5b96 # pop rdx ; ret
$RSP+0x0018 : 0x0000000000000100
$RSP+0x0020 : 0x00007ffff7a07e6a # pop rsi ; ret
$RSP+0x0028 : 0x00000000003ec860
$RSP+0x0030 : 0x0000000000110140

done in 3.0s (Running on: A9-9420 RADEON R5 2C+3G (2) @ 3.000GHz (using cached))