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kernel/scripts/gdb/linux/cpus.py
Glenn Washburn 6d51363d53 scripts/gdb: support getting current task struct in UML 
A running x86 UML kernel reports with architecture "i386:x86-64" as it is
a sub-architecture.  However, a difference with bare-metal x86 kernels is
in how it manages tasks and the current task struct.  To identify that the
inferior is a UML kernel and not bare-metal, check for the existence of
the UML specific symbol "cpu_tasks" which contains the current task
struct.

Link: https://lkml.kernel.org/r/b839d611e2906ccef2725c34d8e353fab35fe75e.1677469905.git.development@efficientek.com
Signed-off-by: Glenn Washburn <development@efficientek.com>
Reviewed-by: Jan Kiszka <jan.kiszka@siemens.com>
Cc: Anton Ivanov <anton.ivanov@kot-begemot.co.uk>
Cc: Johannes Berg <johannes@sipsolutions.net>
Cc: Kieran Bingham <kbingham@kernel.org>
Cc: Richard Weinberger <richard@nod.at>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
2023-04-08 13:45:37 -07:00

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#
# gdb helper commands and functions for Linux kernel debugging
#
# per-cpu tools
#
# Copyright (c) Siemens AG, 2011-2013
#
# Authors:
# Jan Kiszka <jan.kiszka@siemens.com>
#
# This work is licensed under the terms of the GNU GPL version 2.
#
import gdb
from linux import tasks, utils
task_type = utils.CachedType("struct task_struct")
MAX_CPUS = 4096
def get_current_cpu():
if utils.get_gdbserver_type() == utils.GDBSERVER_QEMU:
return gdb.selected_thread().num - 1
elif utils.get_gdbserver_type() == utils.GDBSERVER_KGDB:
tid = gdb.selected_thread().ptid[2]
if tid > (0x100000000 - MAX_CPUS - 2):
return 0x100000000 - tid - 2
else:
return tasks.get_thread_info(tasks.get_task_by_pid(tid))['cpu']
else:
raise gdb.GdbError("Sorry, obtaining the current CPU is not yet "
"supported with this gdb server.")
def per_cpu(var_ptr, cpu):
if cpu == -1:
cpu = get_current_cpu()
if utils.is_target_arch("sparc:v9"):
offset = gdb.parse_and_eval(
"trap_block[{0}].__per_cpu_base".format(str(cpu)))
else:
try:
offset = gdb.parse_and_eval(
"__per_cpu_offset[{0}]".format(str(cpu)))
except gdb.error:
# !CONFIG_SMP case
offset = 0
pointer = var_ptr.cast(utils.get_long_type()) + offset
return pointer.cast(var_ptr.type).dereference()
cpu_mask = {}
def cpu_mask_invalidate(event):
global cpu_mask
cpu_mask = {}
gdb.events.stop.disconnect(cpu_mask_invalidate)
if hasattr(gdb.events, 'new_objfile'):
gdb.events.new_objfile.disconnect(cpu_mask_invalidate)
def cpu_list(mask_name):
global cpu_mask
mask = None
if mask_name in cpu_mask:
mask = cpu_mask[mask_name]
if mask is None:
mask = gdb.parse_and_eval(mask_name + ".bits")
if hasattr(gdb, 'events'):
cpu_mask[mask_name] = mask
gdb.events.stop.connect(cpu_mask_invalidate)
if hasattr(gdb.events, 'new_objfile'):
gdb.events.new_objfile.connect(cpu_mask_invalidate)
bits_per_entry = mask[0].type.sizeof * 8
num_entries = mask.type.sizeof * 8 / bits_per_entry
entry = -1
bits = 0
while True:
while bits == 0:
entry += 1
if entry == num_entries:
return
bits = mask[entry]
if bits != 0:
bit = 0
break
while bits & 1 == 0:
bits >>= 1
bit += 1
cpu = entry * bits_per_entry + bit
bits >>= 1
bit += 1
yield int(cpu)
def each_online_cpu():
for cpu in cpu_list("__cpu_online_mask"):
yield cpu
def each_present_cpu():
for cpu in cpu_list("__cpu_present_mask"):
yield cpu
def each_possible_cpu():
for cpu in cpu_list("__cpu_possible_mask"):
yield cpu
def each_active_cpu():
for cpu in cpu_list("__cpu_active_mask"):
yield cpu
class LxCpus(gdb.Command):
"""List CPU status arrays
Displays the known state of each CPU based on the kernel masks
and can help identify the state of hotplugged CPUs"""
def __init__(self):
super(LxCpus, self).__init__("lx-cpus", gdb.COMMAND_DATA)
def invoke(self, arg, from_tty):
gdb.write("Possible CPUs : {}\n".format(list(each_possible_cpu())))
gdb.write("Present CPUs : {}\n".format(list(each_present_cpu())))
gdb.write("Online CPUs : {}\n".format(list(each_online_cpu())))
gdb.write("Active CPUs : {}\n".format(list(each_active_cpu())))
LxCpus()
class PerCpu(gdb.Function):
"""Return per-cpu variable.
$lx_per_cpu("VAR"[, CPU]): Return the per-cpu variable called VAR for the
given CPU number. If CPU is omitted, the CPU of the current context is used.
Note that VAR has to be quoted as string."""
def __init__(self):
super(PerCpu, self).__init__("lx_per_cpu")
def invoke(self, var_name, cpu=-1):
var_ptr = gdb.parse_and_eval("&" + var_name.string())
return per_cpu(var_ptr, cpu)
PerCpu()
def get_current_task(cpu):
task_ptr_type = task_type.get_type().pointer()
if utils.is_target_arch("x86"):
if gdb.lookup_global_symbol("cpu_tasks"):
# This is a UML kernel, which stores the current task
# differently than other x86 sub architectures
var_ptr = gdb.parse_and_eval("(struct task_struct *)cpu_tasks[0].task")
return var_ptr.dereference()
else:
var_ptr = gdb.parse_and_eval("&pcpu_hot.current_task")
return per_cpu(var_ptr, cpu).dereference()
elif utils.is_target_arch("aarch64"):
current_task_addr = gdb.parse_and_eval("$SP_EL0")
if (current_task_addr >> 63) != 0:
current_task = current_task_addr.cast(task_ptr_type)
return current_task.dereference()
else:
raise gdb.GdbError("Sorry, obtaining the current task is not allowed "
"while running in userspace(EL0)")
else:
raise gdb.GdbError("Sorry, obtaining the current task is not yet "
"supported with this arch")
class LxCurrentFunc(gdb.Function):
"""Return current task.
$lx_current([CPU]): Return the per-cpu task variable for the given CPU
number. If CPU is omitted, the CPU of the current context is used."""
def __init__(self):
super(LxCurrentFunc, self).__init__("lx_current")
def invoke(self, cpu=-1):
return get_current_task(cpu)
LxCurrentFunc()
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