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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:
- return gdb.parse_and_eval("kgdb_active.counter")
- 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)
- 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, cpu=-1):
- return per_cpu(var.address, cpu).dereference()
- PerCpu()
- class PerCpuPtr(gdb.Function):
- """Return per-cpu pointer.
- $lx_per_cpu_ptr(VAR[, CPU]): Return the per-cpu pointer called VAR for the
- given CPU number. If CPU is omitted, the CPU of the current context is used.
- Note that VAR has to be quoted as string."""
- def __init__(self):
- super(PerCpuPtr, self).__init__("lx_per_cpu_ptr")
- def invoke(self, var, cpu=-1):
- return per_cpu(var, cpu)
- PerCpuPtr()
- def get_current_task(cpu):
- task_ptr_type = task_type.get_type().pointer()
- if utils.is_target_arch("x86"):
- if gdb.lookup_global_symbol("cpu_tasks"):
- # This is a UML kernel, which stores the current task
- # differently than other x86 sub architectures
- var_ptr = gdb.parse_and_eval("(struct task_struct *)cpu_tasks[0].task")
- return var_ptr.dereference()
- else:
- var_ptr = gdb.parse_and_eval("¤t_task")
- return per_cpu(var_ptr, cpu).dereference()
- elif utils.is_target_arch("aarch64"):
- current_task_addr = gdb.parse_and_eval("(unsigned long)$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)")
- elif utils.is_target_arch("riscv"):
- current_tp = gdb.parse_and_eval("$tp")
- scratch_reg = gdb.parse_and_eval("$sscratch")
- # by default tp points to current task
- current_task = current_tp.cast(task_ptr_type)
- # scratch register is set 0 in trap handler after entering kernel.
- # When hart is in user mode, scratch register is pointing to task_struct.
- # and tp is used by user mode. So when scratch register holds larger value
- # (negative address as ulong is larger value) than tp, then use scratch register.
- if (scratch_reg.cast(utils.get_ulong_type()) > current_tp.cast(utils.get_ulong_type())):
- current_task = scratch_reg.cast(task_ptr_type)
- return current_task.dereference()
- 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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