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[/] [s80186/] [trunk/] [scripts/] [debug] - Rev 2
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#!/usr/bin/env python# Copyright Jamie Iles, 2017## This file is part of s80x86.## s80x86 is free software: you can redistribute it and/or modify# it under the terms of the GNU General Public License as published by# the Free Software Foundation, either version 3 of the License, or# (at your option) any later version.## s80x86 is distributed in the hope that it will be useful,# but WITHOUT ANY WARRANTY; without even the implied warranty of# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the# GNU General Public License for more details.## You should have received a copy of the GNU General Public License# along with s80x86. If not, see <http://www.gnu.org/licenses/>.import cmdfrom shlex import splitimport distorm3from py8086sim.Cpu import JTAGCPU, GPR, Flagregdict = {'AX': GPR.AX,'CX': GPR.CX,'DX': GPR.DX,'BX': GPR.BX,'SP': GPR.SP,'BP': GPR.BP,'SI': GPR.SI,'DI': GPR.DI,'ES': GPR.ES,'CS': GPR.CS,'SS': GPR.SS,'DS': GPR.DS,'IP': GPR.IP}class Debugger(cmd.Cmd):def __init__(self):cmd.Cmd.__init__(self)self.c = JTAGCPU("debugger")self._update_prompt()def _update_prompt(self):self.prompt = 'debug {0:04x}:{1:04x}> '.format(self.c.read_reg(GPR.CS), self.c.read_reg(GPR.IP))def do_reset(self, line):'''Reset the CPU'''self.c.reset()self._update_prompt()return Falsedef do_disassemble(self, line):'''Disassemble the instruction at CS:IP'''cs = self.c.read_reg(GPR.CS)ip = self.c.read_reg(GPR.IP)buf = [chr(self.c.read_mem8(cs, ip + i)) for i in xrange(15)]instruction = distorm3.Decode(ip, ''.join(buf), distorm3.Decode16Bits)[0]_, size, instruction, _ = instructionhexbytes = ['{0:02x}'.format(ord(b)) for b in buf[:size]]print('{0:s}\t{1:s}'.format(' '.join(hexbytes), instruction.lower()))return Falsedef do_regs(self, line):'''Display the CPU registers'''regnames = ['AX', 'CX', 'DX', 'BX', 'SP', 'BP', 'SI', 'DI', 'ES','CS', 'SS', 'DS', 'IP']for name in regnames:print('{name}: {val:04x}'.format(name=name,val=self.c.read_reg(GPR.names[name])))flagnames = ['CF', 'PF', 'AF', 'ZF', 'SF', 'TF', 'IF', 'DF', 'OF']flags = self.c.read_flags()set_flags = filter(lambda x: flags & Flag.names[x], flagnames)print('FLAGS: {0:04x} {1:s}'.format(self.c.read_flags(),' '.join(set_flags)))return Falsedef do_step(self, line):'''Single step the CPU'''self.c.step()self._update_prompt()return Falsedef do_write_reg(self, line):'''Write a GPRREG := VAL'''tokens = split(line)assert len(tokens) == 2self.c.write_reg(regdict[tokens[0]], int(tokens[1], 16))self._update_prompt()return Falsedef do_in16(self, line):'''Read a 16-bit IO port'''tokens = split(line)assert len(tokens) == 1print('{0:04x}'.format(self.c.read_io16(int(tokens[0], 16))))self._update_prompt()return Falsedef do_out16(self, line):'''Write a 16-bit IO port'''tokens = split(line)assert len(tokens) == 2self.c.write_io16(int(tokens[0], 16), int(tokens[1], 16))self._update_prompt()return Falsedef do_in8(self, line):'''Read a 8-bit IO port'''tokens = split(line)assert len(tokens) == 1print('{0:04x}'.format(self.c.read_io8(int(tokens[0], 16))))self._update_prompt()return Falsedef do_out8(self, line):'''Write a 8-bit IO port'''tokens = split(line)assert len(tokens) == 2self.c.write_io8(int(tokens[0], 16), int(tokens[1], 16))self._update_prompt()return Falsedef do_w16(self, line):'''Write a 16-bit value to memory'''tokens = split(line)assert len(tokens) == 2seg, offset = tokens[0].split(':')self.c.write_mem16(int(seg, 16), int(offset, 16), int(tokens[1], 16))self._update_prompt()return Falsedef do_r16(self, line):'''Read a 16-bit value from memory'''tokens = split(line)assert len(tokens) == 1seg, offset = tokens[0].split(':')v = self.c.read_mem16(int(seg, 16), int(offset, 16))print('{0:04x}'.format(v))self._update_prompt()return Falsedef do_EOF(self, line):print('')return TrueDebugger().cmdloop()