from miasm2.jitter.jitload import jitter from miasm2.core import asmbloc from miasm2.core.utils import * from miasm2.arch.arm.sem import ir_arm import logging log = logging.getLogger('jit_arm') hnd = logging.StreamHandler() hnd.setFormatter(logging.Formatter("[%(levelname)s]: %(message)s")) log.addHandler(hnd) log.setLevel(logging.CRITICAL) class jitter_arm(jitter): def __init__(self, *args, **kwargs): sp = asmbloc.asm_symbol_pool() jitter.__init__(self, ir_arm(sp), *args, **kwargs) self.my_ir.jit_pc = self.my_ir.arch.regs.PC def vm_push_uint32_t(self, v): self.cpu.SP -= 4 self.vm.vm_set_mem(self.cpu.SP, pck32(v)) def vm_pop_uint32_t(self): x = upck32(self.vm.vm_get_mem(self.cpu.SP, 4)) self.cpu.SP += 4 return x def get_stack_arg(self, n): x = upck32(self.vm.vm_get_mem(self.cpu.SP + 4 * n, 4)) return x # calling conventions def func_args_stdcall(self, n_args): args = [] for i in xrange(min(n_args, 4)): args.append(self.cpu.vm_get_gpreg()['R%d' % i]) for i in xrange(max(0, n_args - 4)): args.append(self.get_stack_arg(i)) ret_ad = self.cpu.LR log.debug('%s %s %s' % (whoami(), hex(ret_ad), [hex(x) for x in args])) return ret_ad, args def func_ret_stdcall(self, ret_addr, ret_value=None): self.pc = self.cpu.PC = ret_addr if ret_value is not None: self.cpu.R0 = ret_value return True def get_arg_n_stdcall(self, n): if n < 4: arg = self.cpu.vm_get_gpreg()['R%d' % n] else: arg = self.get_stack_arg(n-4) return arg def add_lib_handler(self, libs): from miasm2.jitter.os_dep import linux_stdlib for offset, fname in libs.fad2cname.iteritems(): if fname in linux_stdlib.__dict__: self.add_breakpoint(offset, linux_stdlib.__dict__[fname]) else: log.warning( 'jitter libhandler: %s function not found!' % fname) def init_run(self, *args, **kwargs): jitter.init_run(self, *args, **kwargs) self.cpu.PC = self.pc