import os import sys from miasm2.jitter.csts import PAGE_READ, PAGE_WRITE from miasm2.analysis.machine import Machine from pdb import pm # Shellcode # main: # MOV EAX, 0x10 # MOV EBX, 0x1 # loop_main: # SUB EAX, 0x1 # CMOVZ ECX, EBX # JNZ loop_main # loop_end: # RET data = "b810000000bb0100000083e8010f44cb75f8c3".decode("hex") run_addr = 0x40000000 def code_sentinelle(jitter): jitter.run = False jitter.pc = 0 return True def init_jitter(): global data, run_addr # Create jitter myjit = Machine("x86_32").jitter(sys.argv[1]) myjit.vm.add_memory_page(run_addr, PAGE_READ | PAGE_WRITE, data) # Init jitter myjit.init_stack() myjit.jit.log_regs = True myjit.jit.log_mn = True myjit.push_uint32_t(0x1337beef) myjit.add_breakpoint(0x1337beef, code_sentinelle) return myjit # Test 'max_exec_per_call' print "[+] First run, to jit blocks" myjit = init_jitter() myjit.init_run(run_addr) myjit.continue_run() assert myjit.run is False assert myjit.cpu.EAX == 0x0 ## Let's specify a max_exec_per_call ## 5: main/loop_main, loop_main myjit.jit.options["max_exec_per_call"] = 5 first_call = True def cb(jitter): global first_call if first_call: # Avoid breaking on the first pass (before any execution) first_call = False return True return False ## Second run print "[+] Second run" myjit.push_uint32_t(0x1337beef) myjit.cpu.EAX = 0 myjit.init_run(run_addr) myjit.exec_cb = cb myjit.continue_run() assert myjit.run is True # Use a '>=' because it's a 'max_...' assert myjit.cpu.EAX >= 0xA # Test 'jit_maxline' print "[+] Run instr one by one" myjit = init_jitter() myjit.jit.options["jit_maxline"] = 1 myjit.jit.options["max_exec_per_call"] = 1 counter = 0 def cb(jitter): global counter counter += 1 return True myjit.init_run(run_addr) myjit.exec_cb = cb myjit.continue_run() assert myjit.run is False assert myjit.cpu.EAX == 0x00 ## main(2) + (loop_main(3))*(0x10) + loop_end(1) + 0x1337beef (1) assert counter == 52