scripts/gdb/linux/cpus.py - arm/linux - Git at Google

 #
 # 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


 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()


 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):
         var_ptr = gdb.parse_and_eval("&current_task")
         return per_cpu(var_ptr, cpu).dereference()


 LxCurrentFunc()
	#
	# 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


	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()


	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):
	var_ptr = gdb.parse_and_eval("&current_task")
	return per_cpu(var_ptr, cpu).dereference()


	LxCurrentFunc()