#
# GDB debugging support
#
# Copyright 2012 Red Hat, Inc. and/or its affiliates
#
# Authors:
# Avi Kivity <avi@redhat.com>
#
# 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 gdb
VOID_PTR = gdb.lookup_type('void').pointer()
def get_fs_base():
'''Fetch %fs base value using arch_prctl(ARCH_GET_FS). This is
pthread_self().'''
# %rsp - 120 is scratch space according to the SystemV ABI
old = gdb.parse_and_eval('*(uint64_t*)($rsp - 120)')
gdb.execute('call (int)arch_prctl(0x1003, $rsp - 120)', False, True)
fs_base = gdb.parse_and_eval('*(uint64_t*)($rsp - 120)')
gdb.execute('set *(uint64_t*)($rsp - 120) = %s' % old, False, True)
return fs_base
def pthread_self():
'''Fetch pthread_self() from the glibc start_thread function.'''
f = gdb.newest_frame()
while f.name() != 'start_thread':
f = f.older()
if f is None:
return get_fs_base()
try:
return f.read_var("arg")
except ValueError:
return get_fs_base()
def get_glibc_pointer_guard():
'''Fetch glibc pointer guard value'''
fs_base = pthread_self()
return gdb.parse_and_eval('*(uint64_t*)((uint64_t)%s + 0x30)' % fs_base)
def glibc_ptr_demangle(val, pointer_guard):
'''Undo effect of glibc's PTR_MANGLE()'''
return gdb.parse_and_eval('(((uint64_t)%s >> 0x11) | ((uint64_t)%s << (64 - 0x11))) ^ (uint64_t)%s' % (val, val, pointer_guard))
def get_jmpbuf_regs(jmpbuf):
JB_RBX = 0
JB_RBP = 1
JB_R12 = 2
JB_R13 = 3
JB_R14 = 4
JB_R15 = 5
JB_RSP = 6
JB_PC = 7
pointer_guard = get_glibc_pointer_guard()
return {'rbx': jmpbuf[JB_RBX],
'rbp': glibc_ptr_demangle(jmpbuf[JB_RBP], pointer_guard),
'rsp': glibc_ptr_demangle(jmpbuf[JB_RSP], pointer_guard),
'r12': jmpbuf[JB_R12],
'r13': jmpbuf[JB_R13],
'r14': jmpbuf[JB_R14],
'r15': jmpbuf[JB_R15],
'rip': glibc_ptr_demangle(jmpbuf[JB_PC], pointer_guard) }
def bt_jmpbuf(jmpbuf):
'''Backtrace a jmpbuf'''
regs = get_jmpbuf_regs(jmpbuf)
old = dict()
# remember current stack frame and select the topmost
# so that register modifications don't wreck it
selected_frame = gdb.selected_frame()
gdb.newest_frame().select()
for i in regs:
old[i] = gdb.parse_and_eval('(uint64_t)$%s' % i)
for i in regs:
gdb.execute('set $%s = %s' % (i, regs[i]))
gdb.execute('bt')
for i in regs:
gdb.execute('set $%s = %s' % (i, old[i]))
selected_frame.select()
def co_cast(co):
return co.cast(gdb.lookup_type('CoroutineUContext').pointer())
def coroutine_to_jmpbuf(co):
coroutine_pointer = co_cast(co)
return coroutine_pointer['env']['__jmpbuf']
class CoroutineCommand(gdb.Command):
'''Display coroutine backtrace'''
def __init__(self):
gdb.Command.__init__(self, 'qemu coroutine', gdb.COMMAND_DATA,
gdb.COMPLETE_NONE)
def invoke(self, arg, from_tty):
argv = gdb.string_to_argv(arg)
if len(argv) != 1:
gdb.write('usage: qemu coroutine <coroutine-pointer>\n')
return
bt_jmpbuf(coroutine_to_jmpbuf(gdb.parse_and_eval(argv[0])))
class CoroutineBt(gdb.Command):
'''Display backtrace including coroutine switches'''
def __init__(self):
gdb.Command.__init__(self, 'qemu bt', gdb.COMMAND_STACK,
gdb.COMPLETE_NONE)
def invoke(self, arg, from_tty):
gdb.execute("bt")
if gdb.parse_and_eval("qemu_in_coroutine()") == False:
return
co_ptr = gdb.parse_and_eval("qemu_coroutine_self()")
while True:
co = co_cast(co_ptr)
co_ptr = co["base"]["caller"]
if co_ptr == 0:
break
gdb.write("Coroutine at " + str(co_ptr) + ":\n")
bt_jmpbuf(coroutine_to_jmpbuf(co_ptr))
class CoroutineSPFunction(gdb.Function):
def __init__(self):
gdb.Function.__init__(self, 'qemu_coroutine_sp')
def invoke(self, addr):
return get_jmpbuf_regs(coroutine_to_jmpbuf(addr))['rsp'].cast(VOID_PTR)
class CoroutinePCFunction(gdb.Function):
def __init__(self):
gdb.Function.__init__(self, 'qemu_coroutine_pc')
def invoke(self, addr):
return get_jmpbuf_regs(coroutine_to_jmpbuf(addr))['rip'].cast(VOID_PTR)
