def get_instruction_info(self, data, addr): result = InstructionInfo() result.length = ISIZE insn = disasm_single(data, addr) if not insn: return result result.length = insn.size Brancher.find_branches(insn, result) return result
def get_instruction_info(self, data, addr): if self.get_reg1(data) == self.get_reg2(data): # unconditional info = InstructionInfo() info.add_branch(BranchType.UnconditionalBranch, self.get_imm(data)) info.length = self.length return info else: # conditional info = InstructionInfo() info.add_branch(BranchType.TrueBranch, self.get_imm(data)) info.add_branch(BranchType.FalseBranch, addr + 5) info.length = self.length return info
def get_instruction_info(self, data, addr): try: (_, inst_length, _, inst_type, mode, value) = M6800._decode_instruction(data, addr) except LookupError as error: log_error(error.__str__()) return None inst = InstructionInfo() inst.length = inst_length if inst_type == InstructionType.CONDITIONAL_BRANCH: if mode == AddressMode.INDEXED: inst.add_branch(BranchType.UnresolvedBranch) else: inst.add_branch(BranchType.TrueBranch, value) inst.add_branch(BranchType.FalseBranch, addr + inst_length) elif inst_type == InstructionType.UNCONDITIONAL_BRANCH: if mode == AddressMode.INDEXED: inst.add_branch(BranchType.UnresolvedBranch) else: inst.add_branch(BranchType.UnconditionalBranch, value) elif inst_type == InstructionType.CALL: if mode == AddressMode.INDEXED: inst.add_branch(BranchType.UnresolvedBranch) else: inst.add_branch(BranchType.CallDestination, value) elif inst_type == InstructionType.RETURN: inst.add_branch(BranchType.FunctionReturn) return inst
def get_instruction_info(self, data, addr): info = InstructionInfo() info.add_branch(BranchType.TrueBranch, addr + self.imm6 + 4) info.add_branch(BranchType.FalseBranch, addr + self.length) info.length = self.length return info
def get_instruction_info(self, data, addr): instr_obj = self.decode_instruction(data, addr) if not instr_obj: return None result = InstructionInfo() result.length = instr_obj.length instr_name = instr_obj.getName() # TODO: update this properly # Add branches if instr_name in ['ret', 'end']: result.add_branch(BranchType.FunctionReturn) elif instr_name.startswith('jmp'): result.add_branch(BranchType.UnconditionalBranch, instr_obj.dst_value) elif instr_name in BRANCH_INSTRUCTIONS: result.add_branch(BranchType.TrueBranch, instr_obj.dst_value) result.add_branch(BranchType.FalseBranch, addr + instr_obj.length) elif instr_name == 'call': result.add_branch(BranchType.CallDestination, instr_obj.dst_value) elif instr_name == 'syscall': result.add_branch(BranchType.SystemCall) return result
def perform_get_instruction_info(self, data, addr): instruction, opcode = self.retrieve_instruction(data) if not instruction: return result = InstructionInfo() result.length = self.address_size inst_name = instruction.name if inst_name in ('bi', 'iret'): result.add_branch(FunctionReturn) elif inst_name in ('brsl', 'brasl'): branch_addr, _ = instruction.decode(opcode, addr) result.add_branch(CallDestination, branch_addr) elif inst_name == ('bisl', 'biz', 'binz', 'bihnz', 'bisled'): _, ra, _ = instruction.decode(opcode, addr) result.add_branch(IndirectBranch, ra) elif inst_name in ('brz', 'brnz', 'brhz', 'brhnz'): branch_addr, _ = instruction.decode(opcode, addr) result.add_branch(TrueBranch, branch_addr) result.add_branch(FalseBranch, addr + self.address_size) elif inst_name in ('br', 'bra'): branch_addr, _ = instruction.decode(opcode, addr) result.add_branch(UnconditionalBranch, branch_addr) return result
def get_instruction_info(self, data, addr): instr = self.disassembler.decode(data, addr) if instr is None: return None result = InstructionInfo() result.length = instr.size dest = None if instr.imm is not None: dest = addr + instr.imm if instr.name == 'ret' or self._looks_like_ret(instr): result.add_branch(BranchType.FunctionReturn) elif instr.name in branch_ins: result.add_branch(BranchType.TrueBranch, dest) result.add_branch(BranchType.FalseBranch, addr + instr.size) elif instr.name in direct_jump_ins: result.add_branch(BranchType.UnconditionalBranch, dest) elif instr.name in indirect_jump_ins: result.add_branch(BranchType.UnresolvedBranch) elif instr.name in direct_call_ins: result.add_branch(BranchType.CallDestination, dest) elif instr.name in indirect_call_ins: result.add_branch(BranchType.UnresolvedBranch) return result
def get_instruction_info(self, data, addr): op = self.decode_operation(data, addr) if op is None: return None ii = InstructionInfo() ii.length = op.size op.branching(ii) return ii
def get_instruction_info(self, data, addr): ffi = self.ffi libvle = self.libvle # vle_handle = self.vle_handle vle_handle = self.ffi.new('vle_handle*') # vle_handle = ffi.new('vle_handle*') vle_instr = ffi.new('vle_t*') data_len = len(data[0:4]) data_buf = ffi.new('char[]', data[0:4]) return_code = libvle.vle_init(vle_handle, data_buf, data_len) decoding_success = libvle.vle_next(vle_handle, vle_instr); if not decoding_success or vle_instr.name == ffi.NULL or vle_instr.op_type == libvle.OP_TYPE_ILL: return None result = InstructionInfo() result.length = vle_instr.size if vle_instr.op_type == libvle.OP_TYPE_JMP: result.add_branch(BranchType.UnconditionalBranch, (vle_instr.fields[0].value + addr) & 0xffffffff) elif vle_instr.op_type == libvle.OP_TYPE_CJMP: if vle_instr.fields[0].type == libvle.TYPE_JMP: result.add_branch(BranchType.TrueBranch, (vle_instr.fields[0].value + addr) & 0xffffffff) result.add_branch(BranchType.FalseBranch, result.length + addr) elif vle_instr.fields[0].type == libvle.TYPE_CR: result.add_branch(BranchType.TrueBranch, (vle_instr.fields[1].value + addr) & 0xffffffff) result.add_branch(BranchType.FalseBranch, result.length + addr) else: return None elif vle_instr.op_type == libvle.OP_TYPE_CALL: target = (vle_instr.fields[0].value + addr) & 0xffffffff if target != addr + vle_instr.size: result.add_branch(BranchType.CallDestination, target) elif vle_instr.op_type == libvle.OP_TYPE_CCALL: result.add_branch(BranchType.FalseBranch, result.length + addr) result.add_branch(BranchType.CallDestination, (vle_instr.fields[0].value + addr) & 0xffffffff) elif vle_instr.op_type == libvle.OP_TYPE_RCALL: result.add_branch(BranchType.IndirectBranch) elif vle_instr.op_type == libvle.OP_TYPE_RJMP: result.add_branch(BranchType.IndirectBranch) elif vle_instr.op_type == libvle.OP_TYPE_RET: result.add_branch(BranchType.FunctionReturn) elif vle_instr.op_type == libvle.OP_TYPE_SWI: result.add_branch(BranchType.SystemCall) elif vle_instr.op_type == libvle.OP_TYPE_TRAP: result.add_branch(BranchType.FunctionReturn) # 0x18211100 # 1d53a: 18 21 11 00 e_stmvsprw 0(r1) # 1d53e: 18 81 11 10 e_stmvsrrw 16(r1) # 1d5a4: 18 81 10 10 e_ldmvsrrw 16(r1) # 1d5a8: 18 21 10 00 e_ldmvsprw 0(r1) return result
def get_instruction_info(self, data, addr): opcode, offset, value, length = self.parse_instruction(data, addr) info = InstructionInfo() info.length = length if opcodes[opcode] == 'hlt': info.add_branch(BranchType.FunctionReturn) return info
def perform_get_instruction_info(self, data, addr): instr = self.decode_instruction(data, addr) if instr is None: return None result = InstructionInfo() result.length = instr.SIZE instr.add_branches(result) return result
def get_instruction_info(self, data, addr): """ Default get_instruction_info, which sets up the InstructionInfo object and does not add a branch. :param data: :param addr: :return: """ info = InstructionInfo() info.length = self.length return info
def get_instruction_info(self, data, addr): opcode, length = self.parse_instruction(data, addr) info = InstructionInfo() info.length = length if opcodes[opcode] == 'Close': info.add_branch(BranchType.UnresolvedBranch) info.add_branch(BranchType.FalseBranch, addr + 1) elif opcodes[opcode] == 'Open': info.add_branch(BranchType.TrueBranch, addr + 1) info.add_branch(BranchType.UnresolvedBranch) return info
def get_instruction_info(self, data, addr): instruction = disassemble_one(data, addr) result = InstructionInfo() result.length = instruction.size if instruction.name == "JUMP": result.add_branch(BranchType.UnresolvedBranch) elif instruction.name == "JUMPI": result.add_branch(BranchType.UnresolvedBranch) result.add_branch(BranchType.FalseBranch, addr + 1) elif instruction.name in ('RETURN', 'REVERT', 'SUICIDE', 'INVALID', 'STOP', 'SELFDESTRUCT'): result.add_branch(BranchType.FunctionReturn) return result
def perform_get_instruction_info(self, data, addr): instr, src, src_op, dst, dst_op, src_value, dst_value, length = self.decode_instruction( data, addr) res = InstructionInfo() res.length = length if instr in {'ret'}: res.add_branch(BranchType.FunctionReturn) elif instr in BRANCH_INSTRUCTIONS: res.add_branch(BranchType.TrueBranch, dst_value) res.add_branch(BranchType.FalseBranch, addr + 16) elif instr == 'jsra': res.add_branch(BranchType.CallDestination, dst_value) elif instr == "jmpa": res.add_branch(BranchType.UnconditionalBranch, dst_value) return res
def perform_get_instruction_info(self, data, addr): instr, _, _, _, _, dst, length, src_value, _ = self.decode_instruction( data, addr) if instr is None: return None result = InstructionInfo() result.length = length if instr == 'ret': result.add_branch(BranchType.FunctionReturn) elif instr == 'reti': result.add_branch(BranchType.FunctionReturn) elif instr == 'call': result.add_branch(BranchType.CallDestination, dst * 2) elif instr == 'rcall': result.add_branch(BranchType.CallDestination, addr + dst * 2 + 1 * 2) elif instr == 'jmp': result.add_branch(BranchType.UnconditionalBranch, dst * 2) elif instr == 'rjmp': result.add_branch(BranchType.UnconditionalBranch, addr + dst * 2 + 1 * 2) elif (instr == 'breq' or instr == 'brne' or instr == 'brcs' or instr == 'brcc' or instr == 'brsh' or instr == 'brlo' or instr == 'brmi' or instr == 'brpl' or instr == 'brge' or instr == 'brlt' or instr == 'brhs' or instr == 'brhc' or instr == 'brts' or instr == 'brtc' or instr == 'brvs' or instr == 'brvc' or instr == 'brie' or instr == 'brid'): result.add_branch(BranchType.TrueBranch, addr + dst * 2 + 1 * 2) result.add_branch(BranchType.FalseBranch, addr + 1 * 2) elif (instr == 'brbs' or instr == 'brbc'): result.add_branch(BranchType.TrueBranch, addr + dst * 2 + 1 * 2) result.add_branch(BranchType.FalseBranch, addr + 1 * 2) elif (instr == 'cpse' or instr == 'sbrc' or instr == 'sbrs' or instr == 'sbic' or instr == 'sbis'): result.add_branch(BranchType.TrueBranch, addr + 2 * 2) result.add_branch(BranchType.FalseBranch, addr + 1 * 2) elif (instr == 'icall' or instr == 'ijmp'): result.add_branch(BranchType.IndirectBranch) #TODO return result
def perform_get_instruction_info(self, data, addr): instr, _, _, _, _, _, length, src_value, _ = self.decode_instruction( data, addr) if instr is None: return None result = InstructionInfo() result.length = length # Add branches if instr in ['ret', 'reti']: result.add_branch(BranchType.FunctionReturn) elif instr in ['jmp', 'br'] and src_value is not None: result.add_branch(BranchType.UnconditionalBranch, src_value) elif instr in TYPE3_INSTRUCTIONS: result.add_branch(BranchType.TrueBranch, src_value) result.add_branch(BranchType.FalseBranch, addr + 2) elif instr == 'call' and src_value is not None: result.add_branch(BranchType.CallDestination, src_value) return result
def perform_get_instruction_info(self, data, addr): # If we can't decode an instruction return None if len(data) < 12: return None # Unpack our operands from the data a, b, c = struct.unpack('<3I', data[:12]) # Create the InstructionInfo object for our instruction res = InstructionInfo() res.length = 12 if c != 0: if b == a: # Unconditional branch jumps to integer index c res.add_branch(BranchType.UnconditionalBranch, c * 4) else: # True branch jumps to integer index c res.add_branch(BranchType.TrueBranch, c * 4) # False branch continues to next instruction res.add_branch(BranchType.FalseBranch, addr + 12) return res
def get_instruction_info(self, data, addr): info = InstructionInfo() addr_calc = addr + twos_comp(self.offset, 18) + 4 info.add_branch(BranchType.UnconditionalBranch, addr_calc) info.length = self.length return info
def get_instruction_info(self, data, addr): info = InstructionInfo() info.add_branch(BranchType.UnconditionalBranch) info.length = self.length return info
def perform_get_instruction_info(self, data, addr): reader = BitReader16(BytestringReader(data)) try: ins = disassemble(reader) except InvalidMachineCodeException as e: log_error("InvalidMachineCodeException at address: " + hex(addr) + " {0}".format(e)) return None insInfo = InstructionInfo() insInfo.length = reader.nytes_read() * 2 op = ins.mnemonic if op in ['re', 'ht']: insInfo.add_branch(BranchType.FunctionReturn) elif op in ['b', 'brr']: # relative direct unconditional insInfo.add_branch(BranchType.UnconditionalBranch, addr + 2 * ins.op1.value) elif op in [ 'bn', 'be', 'bl', 'ble', 'bg', 'bge', 'bno', 'bo', 'bns', 'bs', 'bsl', 'bsle', 'bsg', 'bsge' ]: # relative direct conditional insInfo.add_branch(BranchType.TrueBranch, addr + 2 * ins.op1.value) insInfo.add_branch(BranchType.FalseBranch, addr + insInfo.length) elif op == 'br': # absolute indirect unconditonal insInfo.add_branch(BranchType.IndirectBranch) elif op in [ 'brn', 'bre', 'brl', 'brle', 'brg', 'brge', 'brno', 'bro', 'brns', 'brs', 'brsl', 'brsle', 'brsg', 'brsge' ]: # absolute indirect conditonal insInfo.add_branch(BranchType.TrueBranch) insInfo.add_branch(BranchType.FalseBranch, addr + insInfo.length) elif op == 'bra': # absolute direct insInfo.add_branch(BranchType.UnconditionalBranch, 2 * ins.op1.value) elif op in ['c', 'car']: # relative direct unconditional insInfo.add_branch(BranchType.CallDestination, addr + 2 * ins.op1.value) elif op in [ 'cn', 'ce', 'cl', 'cle', 'cg', 'cge', 'cno', 'co', 'cns', 'cs', 'csl', 'csle', 'csg', 'csge' ]: # relative direct conditional insInfo.add_branch(BranchType.CallDestination, addr + 2 * ins.op1.value) #insInfo.add_branch(BranchType.TrueBranch, addr + 2 * ins.op1.value) insInfo.add_branch(BranchType.FalseBranch, addr + insInfo.length) elif op == 'caa': insInfo.add_branch(BranchType.CallDestination, 2 * ins.op1.value) elif op == 'cr': insInfo.add_branch(BranchType.CallDestination) elif op in [ 'crn', 'cre', 'crl', 'crle', 'crg', 'crge', 'crno', 'cro', 'crns', 'crs', 'crsl', 'crsle', 'crsg', 'crsge' ]: insInfo.add_branch(BranchType.CallDestination) insInfo.add_branch(BranchType.FalseBranch, addr + insInfo.length) return insInfo
def get_instruction_info(self, data, addr): info = InstructionInfo() info.add_branch(BranchType.CallDestination, self.get_imm(data)) info.length = self.length return info
def get_instruction_info(self, data, addr): info = InstructionInfo() info.add_branch(BranchType.FunctionReturn) info.length = self.length return info