pw_cpu_exception_cortex_m/py/pw_cpu_exception_cortex_m/exception_analyzer.py - pigweed/pigweed - Git at Google

 # Copyright 2020 The Pigweed Authors
 #
 # Licensed under the Apache License, Version 2.0 (the "License"); you may not
 # use this file except in compliance with the License. You may obtain a copy of
 # the License at
 #
 #     https://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 # License for the specific language governing permissions and limitations under
 # the License.
 """Tools to analyze Cortex-M CPU state context captured during an exception."""

 from typing import Optional, Tuple

 from pw_cpu_exception_cortex_m import cortex_m_constants
 from pw_cpu_exception_cortex_m_protos import cpu_state_pb2
 import pw_symbolizer

 # These registers are symbolized when dumped.
 _SYMBOLIZED_REGISTERS = ('pc', 'lr', 'bfar', 'mmfar', 'msp', 'psp', 'r0', 'r1',
                          'r2', 'r3', 'r4', 'r5', 'r6', 'r7', 'r8', 'r9', 'r10',
                          'r11', 'r12')


 class CortexMExceptionAnalyzer:
     """This class provides helper functions to dump a ArmV7mCpuState proto."""
     def __init__(self,
                  cpu_state,
                  symbolizer: Optional[pw_symbolizer.Symbolizer] = None):
         self._cpu_state = cpu_state
         self._symbolizer = symbolizer
         self._active_cfsr_fields: Optional[Tuple[cortex_m_constants.BitField,
                                                  ...]] = None

     def active_cfsr_fields(self) -> Tuple[cortex_m_constants.BitField, ...]:
         """Returns a list of BitFields for each active CFSR flag."""

         if self._active_cfsr_fields is not None:
             return self._active_cfsr_fields

         temp_field_list = []
         if self._cpu_state.HasField('cfsr'):
             for bit_field in cortex_m_constants.PW_CORTEX_M_CFSR_BIT_FIELDS:
                 if self._cpu_state.cfsr & bit_field.bit_mask:
                     temp_field_list.append(bit_field)
         self._active_cfsr_fields = tuple(temp_field_list)
         return self._active_cfsr_fields

     def is_fault_active(self) -> bool:
         """Returns true if the current CPU state indicates a fault is active."""
         if self._cpu_state.HasField('cfsr') and self._cpu_state.cfsr != 0:
             return True
         if self._cpu_state.HasField('icsr'):
             exception_number = (
                 self._cpu_state.icsr
                 & cortex_m_constants.PW_CORTEX_M_ICSR_VECTACTIVE_MASK)
             if (cortex_m_constants.PW_CORTEX_M_HARD_FAULT_ISR_NUM <=
                     exception_number <=
                     cortex_m_constants.PW_CORTEX_M_USAGE_FAULT_ISR_NUM):
                 return True
         return False

     def is_nested_fault(self) -> bool:
         """Returns true if the current CPU state indicates a nested fault."""
         if not self.is_fault_active():
             return False
         if (self._cpu_state.HasField('hfsr') and self._cpu_state.hfsr
                 & cortex_m_constants.PW_CORTEX_M_HFSR_FORCED_MASK):
             return True
         return False

     def exception_cause(self, show_active_cfsr_fields=True) -> str:
         """Analyzes CPU state to tries and classify the exception.

         Examples:
             show_active_cfsr_fields=False
               unknown exception
               memory management fault at 0x00000000
               usage fault, imprecise bus fault

             show_active_cfsr_fields=True
               usage fault [DIVBYZERO]
               memory management fault at 0x00000000 [DACCVIOL] [MMARVALID]
         """
         cause = ''
         # The CFSR can accumulate multiple exceptions.
         split_major_cause = lambda cause: cause if not cause else cause + ', '

         if self._cpu_state.HasField('cfsr') and self.is_fault_active():
             if (self._cpu_state.cfsr
                     & cortex_m_constants.PW_CORTEX_M_CFSR_USAGE_FAULT_MASK):
                 cause += 'usage fault'

             if (self._cpu_state.cfsr
                     & cortex_m_constants.PW_CORTEX_M_CFSR_MEM_FAULT_MASK):
                 cause = split_major_cause(cause)
                 cause += 'memory management fault'
                 if (self._cpu_state.cfsr
                         & cortex_m_constants.PW_CORTEX_M_CFSR_MMARVALID_MASK):
                     addr = '???' if not self._cpu_state.HasField(
                         'mmfar') else f'0x{self._cpu_state.mmfar:08x}'
                     cause += f' at {addr}'

             if (self._cpu_state.cfsr
                     & cortex_m_constants.PW_CORTEX_M_CFSR_BUS_FAULT_MASK):
                 cause = split_major_cause(cause)
                 if (self._cpu_state.cfsr &
                         cortex_m_constants.PW_CORTEX_M_CFSR_IMPRECISERR_MASK):
                     cause += 'imprecise '
                 cause += 'bus fault'
                 if (self._cpu_state.cfsr
                         & cortex_m_constants.PW_CORTEX_M_CFSR_BFARVALID_MASK):
                     addr = '???' if not self._cpu_state.HasField(
                         'bfar') else f'0x{self._cpu_state.bfar:08x}'
                     cause += f' at {addr}'
             if show_active_cfsr_fields:
                 for field in self.active_cfsr_fields():
                     cause += f' [{field.name}]'

         return cause if cause else 'unknown exception'

     def dump_registers(self) -> str:
         """Dumps all captured CPU registers as a multi-line string."""
         registers = []
         for field in self._cpu_state.DESCRIPTOR.fields:
             if self._cpu_state.HasField(field.name):
                 register_value = getattr(self._cpu_state, field.name)
                 register_str = f'{field.name:<10} 0x{register_value:08x}'
                 if (self._symbolizer is not None
                         and field.name in _SYMBOLIZED_REGISTERS):
                     symbol = self._symbolizer.symbolize(register_value)
                     if symbol.name:
                         register_str += f' {symbol}'
                 registers.append(register_str)
         return '\n'.join(registers)

     def dump_active_active_cfsr_fields(self) -> str:
         """Dumps CFSR flags with their descriptions as a multi-line string."""
         fields = []
         for field in self.active_cfsr_fields():
             fields.append(f'{field.name:<11} {field.description}')
             if isinstance(field.long_description, tuple):
                 long_desc = '    {}'.format('\n    '.join(
                     field.long_description))
                 fields.append(long_desc)
         return '\n'.join(fields)

     def __str__(self):
         dump = [f'Exception caused by a {self.exception_cause(False)}.', '']
         if self.active_cfsr_fields():
             dump.extend((
                 'Active Crash Fault Status Register (CFSR) fields:',
                 self.dump_active_active_cfsr_fields(),
                 '',
             ))
         else:
             dump.extend((
                 'No active Crash Fault Status Register (CFSR) fields.',
                 '',
             ))
         dump.extend((
             'All registers:',
             self.dump_registers(),
         ))
         return '\n'.join(dump)


 def process_snapshot(
         serialized_snapshot: bytes,
         symbolizer: Optional[pw_symbolizer.Symbolizer] = None) -> str:
     """Returns the stringified result of a SnapshotCpuStateOverlay message run
     though a CortexMExceptionAnalyzer.
     """
     snapshot = cpu_state_pb2.SnapshotCpuStateOverlay()
     snapshot.ParseFromString(serialized_snapshot)

     if snapshot.HasField('armv7m_cpu_state'):
         state_analyzer = CortexMExceptionAnalyzer(snapshot.armv7m_cpu_state,
                                                   symbolizer)
         return f'{state_analyzer}\n'

     return ''
	# Copyright 2020 The Pigweed Authors
	#
	# Licensed under the Apache License, Version 2.0 (the "License"); you may not
	# use this file except in compliance with the License. You may obtain a copy of
	# the License at
	#
	# https://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
	# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
	# License for the specific language governing permissions and limitations under
	# the License.
	"""Tools to analyze Cortex-M CPU state context captured during an exception."""

	from typing import Optional, Tuple

	from pw_cpu_exception_cortex_m import cortex_m_constants
	from pw_cpu_exception_cortex_m_protos import cpu_state_pb2
	import pw_symbolizer

	# These registers are symbolized when dumped.
	_SYMBOLIZED_REGISTERS = ('pc', 'lr', 'bfar', 'mmfar', 'msp', 'psp', 'r0', 'r1',
	'r2', 'r3', 'r4', 'r5', 'r6', 'r7', 'r8', 'r9', 'r10',
	'r11', 'r12')


	class CortexMExceptionAnalyzer:
	"""This class provides helper functions to dump a ArmV7mCpuState proto."""
	def __init__(self,
	cpu_state,
	symbolizer: Optional[pw_symbolizer.Symbolizer] = None):
	self._cpu_state = cpu_state
	self._symbolizer = symbolizer
	self._active_cfsr_fields: Optional[Tuple[cortex_m_constants.BitField,
	...]] = None

	def active_cfsr_fields(self) -> Tuple[cortex_m_constants.BitField, ...]:
	"""Returns a list of BitFields for each active CFSR flag."""

	if self._active_cfsr_fields is not None:
	return self._active_cfsr_fields

	temp_field_list = []
	if self._cpu_state.HasField('cfsr'):
	for bit_field in cortex_m_constants.PW_CORTEX_M_CFSR_BIT_FIELDS:
	if self._cpu_state.cfsr & bit_field.bit_mask:
	temp_field_list.append(bit_field)
	self._active_cfsr_fields = tuple(temp_field_list)
	return self._active_cfsr_fields

	def is_fault_active(self) -> bool:
	"""Returns true if the current CPU state indicates a fault is active."""
	if self._cpu_state.HasField('cfsr') and self._cpu_state.cfsr != 0:
	return True
	if self._cpu_state.HasField('icsr'):
	exception_number = (
	self._cpu_state.icsr
	& cortex_m_constants.PW_CORTEX_M_ICSR_VECTACTIVE_MASK)
	if (cortex_m_constants.PW_CORTEX_M_HARD_FAULT_ISR_NUM <=
	exception_number <=
	cortex_m_constants.PW_CORTEX_M_USAGE_FAULT_ISR_NUM):
	return True
	return False

	def is_nested_fault(self) -> bool:
	"""Returns true if the current CPU state indicates a nested fault."""
	if not self.is_fault_active():
	return False
	if (self._cpu_state.HasField('hfsr') and self._cpu_state.hfsr
	& cortex_m_constants.PW_CORTEX_M_HFSR_FORCED_MASK):
	return True
	return False

	def exception_cause(self, show_active_cfsr_fields=True) -> str:
	"""Analyzes CPU state to tries and classify the exception.

	Examples:
	show_active_cfsr_fields=False
	unknown exception
	memory management fault at 0x00000000
	usage fault, imprecise bus fault

	show_active_cfsr_fields=True
	usage fault [DIVBYZERO]
	memory management fault at 0x00000000 [DACCVIOL] [MMARVALID]
	"""
	cause = ''
	# The CFSR can accumulate multiple exceptions.
	split_major_cause = lambda cause: cause if not cause else cause + ', '

	if self._cpu_state.HasField('cfsr') and self.is_fault_active():
	if (self._cpu_state.cfsr
	& cortex_m_constants.PW_CORTEX_M_CFSR_USAGE_FAULT_MASK):
	cause += 'usage fault'

	if (self._cpu_state.cfsr
	& cortex_m_constants.PW_CORTEX_M_CFSR_MEM_FAULT_MASK):
	cause = split_major_cause(cause)
	cause += 'memory management fault'
	if (self._cpu_state.cfsr
	& cortex_m_constants.PW_CORTEX_M_CFSR_MMARVALID_MASK):
	addr = '???' if not self._cpu_state.HasField(
	'mmfar') else f'0x{self._cpu_state.mmfar:08x}'
	cause += f' at {addr}'

	if (self._cpu_state.cfsr
	& cortex_m_constants.PW_CORTEX_M_CFSR_BUS_FAULT_MASK):
	cause = split_major_cause(cause)
	if (self._cpu_state.cfsr &
	cortex_m_constants.PW_CORTEX_M_CFSR_IMPRECISERR_MASK):
	cause += 'imprecise '
	cause += 'bus fault'
	if (self._cpu_state.cfsr
	& cortex_m_constants.PW_CORTEX_M_CFSR_BFARVALID_MASK):
	addr = '???' if not self._cpu_state.HasField(
	'bfar') else f'0x{self._cpu_state.bfar:08x}'
	cause += f' at {addr}'
	if show_active_cfsr_fields:
	for field in self.active_cfsr_fields():
	cause += f' [{field.name}]'

	return cause if cause else 'unknown exception'

	def dump_registers(self) -> str:
	"""Dumps all captured CPU registers as a multi-line string."""
	registers = []
	for field in self._cpu_state.DESCRIPTOR.fields:
	if self._cpu_state.HasField(field.name):
	register_value = getattr(self._cpu_state, field.name)
	register_str = f'{field.name:<10} 0x{register_value:08x}'
	if (self._symbolizer is not None
	and field.name in _SYMBOLIZED_REGISTERS):
	symbol = self._symbolizer.symbolize(register_value)
	if symbol.name:
	register_str += f' {symbol}'
	registers.append(register_str)
	return '\n'.join(registers)

	def dump_active_active_cfsr_fields(self) -> str:
	"""Dumps CFSR flags with their descriptions as a multi-line string."""
	fields = []
	for field in self.active_cfsr_fields():
	fields.append(f'{field.name:<11} {field.description}')
	if isinstance(field.long_description, tuple):
	long_desc = ' {}'.format('\n '.join(
	field.long_description))
	fields.append(long_desc)
	return '\n'.join(fields)

	def __str__(self):
	dump = [f'Exception caused by a {self.exception_cause(False)}.', '']
	if self.active_cfsr_fields():
	dump.extend((
	'Active Crash Fault Status Register (CFSR) fields:',
	self.dump_active_active_cfsr_fields(),
	'',
	))
	else:
	dump.extend((
	'No active Crash Fault Status Register (CFSR) fields.',
	'',
	))
	dump.extend((
	'All registers:',
	self.dump_registers(),
	))
	return '\n'.join(dump)


	def process_snapshot(
	serialized_snapshot: bytes,
	symbolizer: Optional[pw_symbolizer.Symbolizer] = None) -> str:
	"""Returns the stringified result of a SnapshotCpuStateOverlay message run
	though a CortexMExceptionAnalyzer.
	"""
	snapshot = cpu_state_pb2.SnapshotCpuStateOverlay()
	snapshot.ParseFromString(serialized_snapshot)

	if snapshot.HasField('armv7m_cpu_state'):
	state_analyzer = CortexMExceptionAnalyzer(snapshot.armv7m_cpu_state,
	symbolizer)
	return f'{state_analyzer}\n'

	return ''