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qemu/tests/avocado/reverse_debugging.py

273 lines
9.2 KiB
Python

# Reverse debugging test
#
# Copyright (c) 2020 ISP RAS
#
# Author:
# Pavel Dovgalyuk <Pavel.Dovgalyuk@ispras.ru>
#
# This work is licensed under the terms of the GNU GPL, version 2 or
# later. See the COPYING file in the top-level directory.
import os
import logging
from avocado import skipUnless
from avocado_qemu import BUILD_DIR
from avocado.utils import datadrainer
from avocado.utils import gdb
from avocado.utils import process
from avocado.utils.network.ports import find_free_port
from avocado.utils.path import find_command
from boot_linux_console import LinuxKernelTest
class ReverseDebugging(LinuxKernelTest):
"""
Test GDB reverse debugging commands: reverse step and reverse continue.
Recording saves the execution of some instructions and makes an initial
VM snapshot to allow reverse execution.
Replay saves the order of the first instructions and then checks that they
are executed backwards in the correct order.
After that the execution is replayed to the end, and reverse continue
command is checked by setting several breakpoints, and asserting
that the execution is stopped at the last of them.
"""
timeout = 10
STEPS = 10
endian_is_le = True
def run_vm(self, record, shift, args, replay_path, image_path, port):
logger = logging.getLogger('replay')
vm = self.get_vm()
vm.set_console()
if record:
logger.info('recording the execution...')
mode = 'record'
else:
logger.info('replaying the execution...')
mode = 'replay'
vm.add_args('-gdb', 'tcp::%d' % port, '-S')
vm.add_args('-icount', 'shift=%s,rr=%s,rrfile=%s,rrsnapshot=init' %
(shift, mode, replay_path),
'-net', 'none')
vm.add_args('-drive', 'file=%s,if=none' % image_path)
if args:
vm.add_args(*args)
vm.launch()
console_drainer = datadrainer.LineLogger(vm.console_socket.fileno(),
logger=self.log.getChild('console'),
stop_check=(lambda : not vm.is_running()))
console_drainer.start()
return vm
@staticmethod
def get_reg_le(g, reg):
res = g.cmd(b'p%x' % reg)
num = 0
for i in range(len(res))[-2::-2]:
num = 0x100 * num + int(res[i:i + 2], 16)
return num
@staticmethod
def get_reg_be(g, reg):
res = g.cmd(b'p%x' % reg)
return int(res, 16)
def get_reg(self, g, reg):
# value may be encoded in BE or LE order
if self.endian_is_le:
return self.get_reg_le(g, reg)
else:
return self.get_reg_be(g, reg)
def get_pc(self, g):
return self.get_reg(g, self.REG_PC)
def check_pc(self, g, addr):
pc = self.get_pc(g)
if pc != addr:
self.fail('Invalid PC (read %x instead of %x)' % (pc, addr))
@staticmethod
def gdb_step(g):
g.cmd(b's', b'T05thread:01;')
@staticmethod
def gdb_bstep(g):
g.cmd(b'bs', b'T05thread:01;')
@staticmethod
def vm_get_icount(vm):
return vm.qmp('query-replay')['return']['icount']
def reverse_debugging(self, shift=7, args=None):
logger = logging.getLogger('replay')
# create qcow2 for snapshots
logger.info('creating qcow2 image for VM snapshots')
image_path = os.path.join(self.workdir, 'disk.qcow2')
qemu_img = os.path.join(BUILD_DIR, 'qemu-img')
if not os.path.exists(qemu_img):
qemu_img = find_command('qemu-img', False)
if qemu_img is False:
self.cancel('Could not find "qemu-img", which is required to '
'create the temporary qcow2 image')
cmd = '%s create -f qcow2 %s 128M' % (qemu_img, image_path)
process.run(cmd)
replay_path = os.path.join(self.workdir, 'replay.bin')
port = find_free_port()
# record the log
vm = self.run_vm(True, shift, args, replay_path, image_path, port)
while self.vm_get_icount(vm) <= self.STEPS:
pass
last_icount = self.vm_get_icount(vm)
vm.shutdown()
logger.info("recorded log with %s+ steps" % last_icount)
# replay and run debug commands
vm = self.run_vm(False, shift, args, replay_path, image_path, port)
logger.info('connecting to gdbstub')
g = gdb.GDBRemote('127.0.0.1', port, False, False)
g.connect()
r = g.cmd(b'qSupported')
if b'qXfer:features:read+' in r:
g.cmd(b'qXfer:features:read:target.xml:0,ffb')
if b'ReverseStep+' not in r:
self.fail('Reverse step is not supported by QEMU')
if b'ReverseContinue+' not in r:
self.fail('Reverse continue is not supported by QEMU')
logger.info('stepping forward')
steps = []
# record first instruction addresses
for _ in range(self.STEPS):
pc = self.get_pc(g)
logger.info('saving position %x' % pc)
steps.append(pc)
self.gdb_step(g)
# visit the recorded instruction in reverse order
logger.info('stepping backward')
for addr in steps[::-1]:
self.gdb_bstep(g)
self.check_pc(g, addr)
logger.info('found position %x' % addr)
# visit the recorded instruction in forward order
logger.info('stepping forward')
for addr in steps:
self.check_pc(g, addr)
self.gdb_step(g)
logger.info('found position %x' % addr)
# set breakpoints for the instructions just stepped over
logger.info('setting breakpoints')
for addr in steps:
# hardware breakpoint at addr with len=1
g.cmd(b'Z1,%x,1' % addr, b'OK')
# this may hit a breakpoint if first instructions are executed
# again
logger.info('continuing execution')
vm.qmp('replay-break', icount=last_icount - 1)
# continue - will return after pausing
# This could stop at the end and get a T02 return, or by
# re-executing one of the breakpoints and get a T05 return.
g.cmd(b'c')
if self.vm_get_icount(vm) == last_icount - 1:
logger.info('reached the end (icount %s)' % (last_icount - 1))
else:
logger.info('hit a breakpoint again at %x (icount %s)' %
(self.get_pc(g), self.vm_get_icount(vm)))
logger.info('running reverse continue to reach %x' % steps[-1])
# reverse continue - will return after stopping at the breakpoint
g.cmd(b'bc', b'T05thread:01;')
# assume that none of the first instructions is executed again
# breaking the order of the breakpoints
self.check_pc(g, steps[-1])
logger.info('successfully reached %x' % steps[-1])
logger.info('exiting gdb and qemu')
vm.shutdown()
class ReverseDebugging_X86_64(ReverseDebugging):
"""
:avocado: tags=accel:tcg
"""
REG_PC = 0x10
REG_CS = 0x12
def get_pc(self, g):
return self.get_reg_le(g, self.REG_PC) \
+ self.get_reg_le(g, self.REG_CS) * 0x10
# unidentified gitlab timeout problem
@skipUnless(os.getenv('QEMU_TEST_FLAKY_TESTS'), 'Test is unstable on GitLab')
def test_x86_64_pc(self):
"""
:avocado: tags=arch:x86_64
:avocado: tags=machine:pc
"""
# start with BIOS only
self.reverse_debugging()
class ReverseDebugging_AArch64(ReverseDebugging):
"""
:avocado: tags=accel:tcg
"""
REG_PC = 32
# unidentified gitlab timeout problem
@skipUnless(os.getenv('QEMU_TEST_FLAKY_TESTS'), 'Test is unstable on GitLab')
def test_aarch64_virt(self):
"""
:avocado: tags=arch:aarch64
:avocado: tags=machine:virt
:avocado: tags=cpu:cortex-a53
"""
kernel_url = ('https://archives.fedoraproject.org/pub/archive/fedora'
'/linux/releases/29/Everything/aarch64/os/images/pxeboot'
'/vmlinuz')
kernel_hash = '8c73e469fc6ea06a58dc83a628fc695b693b8493'
kernel_path = self.fetch_asset(kernel_url, asset_hash=kernel_hash)
self.reverse_debugging(
args=('-kernel', kernel_path))
class ReverseDebugging_ppc64(ReverseDebugging):
"""
:avocado: tags=accel:tcg
"""
REG_PC = 0x40
# unidentified gitlab timeout problem
@skipUnless(os.getenv('QEMU_TEST_FLAKY_TESTS'), 'Test is unstable on GitLab')
def test_ppc64_pseries(self):
"""
:avocado: tags=arch:ppc64
:avocado: tags=machine:pseries
:avocado: tags=flaky
"""
# SLOF branches back to its entry point, which causes this test
# to take the 'hit a breakpoint again' path. That's not a problem,
# just slightly different than the other machines.
self.endian_is_le = False
self.reverse_debugging()
# See https://gitlab.com/qemu-project/qemu/-/issues/1992
@skipUnless(os.getenv('QEMU_TEST_FLAKY_TESTS'), 'Test is unstable on GitLab')
def test_ppc64_powernv(self):
"""
:avocado: tags=arch:ppc64
:avocado: tags=machine:powernv
:avocado: tags=flaky
"""
self.endian_is_le = False
self.reverse_debugging()