subsys/debug/Kconfig - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 # Debug configuration options

 # Copyright (c) 2015 Wind River Systems, Inc.
 # SPDX-License-Identifier: Apache-2.0


 menu "System Monitoring Options"

 menuconfig THREAD_ANALYZER
 	bool "Thread analyzer"
 	select INIT_STACKS
 	select THREAD_MONITOR
 	select THREAD_STACK_INFO
 	select THREAD_RUNTIME_STATS
 	help
 	  Enable thread analyzer functionality and all the required modules.
 	  This module may be used to debug thread configuration issues, e.g.
 	  stack size configuration to find stack overflow or to find stacks
 	  which may be optimized.

 if THREAD_ANALYZER
 module = THREAD_ANALYZER
 module-str = thread analyzer
 source "subsys/logging/Kconfig.template.log_config"

 choice
 	prompt "Thread analysis print mode"

 config THREAD_ANALYZER_USE_LOG
 	bool "Use logger output"
 	select LOG
 	help
 	  Use logger output to print thread information.

 config THREAD_ANALYZER_USE_PRINTK
 	bool "Use printk function"
 	help
 	  Use kernel printk function to print thread information.

 endchoice

 config THREAD_ANALYZER_ISR_STACK_USAGE
 	bool "Analyze interrupt stacks usage"
 	default y

 config THREAD_ANALYZER_RUN_UNLOCKED
 	bool "Run analysis with interrupts unlocked"
 	default y
 	help
 	  The thread analysis takes quite a long time.
 	  Every thread it finds is analyzed word by word to find any that
 	  does not match the magic number.
 	  Normally while thread are analyzed the k_thread_foreach function
 	  is used.
 	  While this is a safe run from the thread list perspective it may lock
 	  the interrupts for a long time - long enough to disconnect when
 	  Bluetooth communication is used.
 	  Setting this flag will force thread analyzer to use
 	  the k_thread_foreach_unlocked function.
 	  This will allow the interrupts to be processed while the thread is
 	  analyzed.
 	  For the limitation of such configuration see the k_thread_foreach
 	  documentation.

 config THREAD_ANALYZER_AUTO
 	bool "Run periodic thread analysis in a thread"
 	help
 	  Run the thread analyzer automatically, without the need to add
 	  any code to the application.
 	  Thread analysis would be called periodically.

 if THREAD_ANALYZER_AUTO

 config THREAD_ANALYZER_AUTO_INTERVAL
 	int "Thread analysis interval"
 	default 60
 	range 5 3600
 	help
 	  The time in seconds to call thread analyzer periodic printing function.

 config THREAD_ANALYZER_AUTO_STACK_SIZE
 	int "Stack size for the periodic thread analysis thread"
 	default 2048 if THREAD_ANALYZER_USE_LOG && LOG_MODE_IMMEDIATE && NO_OPTIMIZATIONS
 	default 1024

 endif # THREAD_ANALYZER_AUTO

 endif # THREAD_ANALYZER


 endmenu

 menu "Debugging Options"

 config DEBUG
 	bool "Build kernel with debugging enabled"
 	help
 	  Build a kernel suitable for debugging.  Right now, this option
 	  only disables optimization, more debugging variants can be selected
 	  from here to allow more debugging.

 config GPROF
 	bool "Generate profiling information"
 	depends on ARCH_POSIX
 	help
 	  Generate call graph profile data for the application that can be
 	  analyzed with gprof

 config ASAN
 	bool "Build with address sanitizer"
 	depends on ARCH_POSIX
 	help
 	  Builds Zephyr with Address Sanitizer enabled. This is currently
 	  only supported by boards based on the posix architecture, and requires a
 	  recent-ish compiler with the ``-fsanitize=address`` command line option,
 	  and the libasan library.

 	  Note that at exit leak detection is disabled for 64-bit boards when
 	  GCC is used due to potential risk of a deadlock in libasan.
 	  This behavior can be changes by adding leak_check_at_exit=1 to the
 	  environment variable ASAN_OPTIONS.

 config ASAN_RECOVER
 	bool "Continue after sanitizer errors"
 	depends on ASAN
 	default y
 	help
 	  The default behavior of compiler sanitizers is to exit after
 	  the first error.  Set this to y to enable the code to
 	  continue, which can be useful if a code base has known
 	  unsuppressed errors.  You will also need to set
 	  "halt_on_error=0" in your ASAN_OPTIONS environment variable
 	  at runtime.

 config ASAN_NOP_DLCLOSE
 	bool "Override host OS dlclose() with a NOP"
 	default y if HAS_SDL
 	depends on ASAN
 	help
 	  Override host OS dlclose() with a NOP.

 	  This NOP implementation is needed as workaround for a known limitation in
 	  LSAN (leak sanitizer) that if dlcose is called before performing the leak
 	  check, "<unknown module>" is reported in the stack traces during the leak
 	  check and these can not be suppressed, see
 	  https://github.com/google/sanitizers/issues/89 for more info.

 config UBSAN
 	bool "Build with undefined behavior sanitizer"
 	depends on ARCH_POSIX
 	help
 	  Builds Zephyr with Undefined Behavior Sanitizer enabled.
 	  This is currently only supported by boards based on the posix
 	  architecture, and requires a recent-ish compiler with the
 	  ``-fsanitize=undefined`` command line option.

 config MSAN
 	bool "Build with memory sanitizer"
 	depends on ARCH_POSIX
 	help
 	  Builds Zephyr with the LLVM MemorySanitizer enabled.  Works
 	  only on the posix architecture currently, and only with host
 	  compilers recent enough to support the feature (currently
 	  clang on x86_64 only).  It cannot be used in tandem with
 	  CONFIG_ASAN due to clang limitations.  You must choose one
 	  or the other (but can combine it with CONFIG_UBSAN if you
 	  like)

 config STACK_USAGE
 	bool "Generate stack usage information"
 	help
 	  Generate an extra file that specifies the maximum amount of stack used,
 	  on a per-function basis.

 config STACK_SENTINEL
 	bool "Stack sentinel"
 	select THREAD_STACK_INFO
 	depends on MULTITHREADING
 	depends on !USERSPACE
 	help
 	  Store a magic value at the lowest addresses of a thread's stack.
 	  Periodically check that this value is still present and kill the
 	  thread gracefully if it isn't. This is currently checked in four
 	  places:

 	  1) Upon any context switch for the outgoing thread
 	  2) Any hardware interrupt that doesn't context switch, the check is
 	     performed for the interrupted thread
 	  3) When a thread returns from its entry point
 	  4) When a thread calls k_yield() but doesn't context switch

 	  This feature doesn't prevent corruption and the system may be
 	  in an unusable state. However, given the bizarre behavior associated
 	  with stack overflows, knowledge that this is happening is very
 	  useful.

 	  This feature is intended for those systems which lack hardware support
 	  for stack overflow protection, or have insufficient system resources
 	  to use that hardware support.

 config PRINTK
 	bool "Send printk() to console"
 	default y
 	help
 	  This option directs printk() debugging output to the supported
 	  console device, rather than suppressing the generation
 	  of printk() output entirely. Output is sent immediately, without
 	  any mutual exclusion or buffering.

 config PRINTK_BUFFER_SIZE
 	int "printk() buffer size"
 	depends on PRINTK
 	depends on USERSPACE
 	default 32
 	help
 	  If userspace is enabled, printk() calls are buffered so that we do
 	  not have to make a system call for every character emitted. Specify
 	  the size of this buffer.

 config EARLY_CONSOLE
 	bool "Send stdout at the earliest stage possible"
 	help
 	  This option will enable stdout as early as possible, for debugging
 	  purpose. For instance, in case of STDOUT_CONSOLE being set it will
 	  initialize its driver earlier than normal, in order to get the stdout
 	  sent through the console at the earliest stage possible.

 config ASSERT
 	bool "__ASSERT() macro"
 	default y if TEST
 	help
 	  This enables the __ASSERT() macro in the kernel code. If an assertion
 	  fails, the policy for what to do is controlled by the implementation
 	  of the assert_post_action() function, which by default will trigger
 	  a fatal error.

 	  Disabling this option will cause assertions to compile to nothing,
 	  improving performance and system footprint.

 if ASSERT

 config ASSERT_LEVEL
 	int "__ASSERT() level"
 	default 2
 	range 0 2
 	help
 	  This option specifies the assertion level used by the __ASSERT()
 	  macro. It can be set to one of three possible values:

 	  Level 0: off
 	  Level 1: on + warning in every file that includes __assert.h
 	  Level 2: on + no warning

 config SPIN_VALIDATE
 	bool "Spinlock validation"
 	depends on MULTITHREADING
 	depends on MP_NUM_CPUS <= 4
 	default y if !FLASH || FLASH_SIZE > 32
 	help
 	  There's a spinlock validation framework available when asserts are
 	  enabled. It adds a relatively hefty overhead (about 3k or so) to
 	  kernel code size, don't use on platforms known to be small.

 endif # ASSERT

 config FORCE_NO_ASSERT
 	bool "Force-disable no assertions"
 	help
 	  This boolean option disables Zephyr assertion testing even
 	  in circumstances (twister) where it is enabled via
 	  CFLAGS and not Kconfig.  Added solely to be able to work
 	  around compiler bugs for specific tests.

 config ASSERT_VERBOSE
 	bool "Verbose assertions"
 	default y
 	help
 	  This option enables printing an assert message with information about
 	  the assertion that occurred. This includes printing the location,
 	  the conditional expression and additional message specific to the
 	  assert.

 config ASSERT_NO_FILE_INFO
 	bool "Disable file info for asserts"
 	help
 	  This option removes the name and the path of the source file
 	  in which the assertion occurred. Enabling this will save
 	  target code space, and thus may be necessary for tiny targets.

 config ASSERT_NO_COND_INFO
 	bool "Disable condition info for asserts"
 	help
 	  This option removes the assert condition from the printed assert
 	  message. Enabling this will save target code space, and thus may be
 	  necessary for tiny targets. It is recommended to disable condition
 	  info before disabling file info since the condition can be found in
 	  the source using file info.

 config ASSERT_NO_MSG_INFO
 	bool "Disable message for asserts"
 	help
 	  This option removes the additional message from the printed assert.
 	  Enabling this will save target code space, and thus may be
 	  necessary for tiny targets. It is recommended to disable message
 	  before disabling file info since the message can be found in the
 	  source using file info.

 config ASSERT_TEST
 	bool "Assert test mode"
 	help
 	  This option enables the assert test mode, which allows the assert
 	  post action handler to return (i.e. not abort) when the asserted
 	  condition is false. The tests that validate the assert feature may
 	  select this option to allow the test to proceed by implementing a
 	  custom assert post action hook.

 config OVERRIDE_FRAME_POINTER_DEFAULT
 	bool "Override compiler defaults for -fomit-frame-pointer"
 	help
 	  Omitting the frame pointer prevents the compiler from putting the stack
 	  frame pointer into a register. Saves a few instructions in function
 	  prologues/epilogues and frees up a register for general-purpose use,
 	  which can provide good performance improvements on register-constrained
 	  architectures like x86. On some architectures (including x86) omitting
 	  frame pointers impedes debugging as local variables are harder to
 	  locate. At -O1 and above gcc will enable -fomit-frame-pointer
 	  automatically but only if the architecture does not require if for
 	  effective debugging.

 	  Choose Y if you want to override the default frame pointer behavior
 	  of your compiler, otherwise choose N.

 config OMIT_FRAME_POINTER
 	bool "Omit frame pointer"
 	depends on OVERRIDE_FRAME_POINTER_DEFAULT
 	help
 	  Choose Y for best performance. On some architectures (including x86)
 	  this will favor code size and performance over debuggability.

 	  Choose N in you wish to retain the frame pointer. This option may
 	  be useful if your application uses runtime backtracing and does not
 	  support parsing unwind tables.

 	  If unsure, disable OVERRIDE_FRAME_POINTER_DEFAULT to allow the compiler
 	  to adopt sensible defaults for your architecture.


 #
 # Generic Debugging Options
 #
 config DEBUG_INFO
 	bool "System debugging information"
 	help
 	  This option enables the addition of various information that can be
 	  used by debuggers in debugging the system, or enable additional
 	  debugging information to be reported at runtime.

 config EXCEPTION_STACK_TRACE
 	bool "Attempt to print stack traces upon exceptions"
 	default y
 	depends on PRINTK
 	depends on DEBUG_INFO
 	depends on !OMIT_FRAME_POINTER
 	help
 	  If the architecture fatal handling code supports it, attempt to
 	  print a stack trace of function memory addresses when an
 	  exception is reported.

 #
 # Miscellaneous debugging options
 #
 config DEBUG_THREAD_INFO
 	bool "Thread awareness support"
 	depends on !SMP
 	select THREAD_MONITOR
 	select THREAD_NAME
 	help
 	  This option exports an array of offsets to kernel structs to allow
 	  for debugger RTOS plugins to determine the state of running threads.

 rsource "coredump/Kconfig"
 endmenu

 config GDBSTUB
 	bool "GDB remote serial protocol support [EXPERIMENTAL]"
 	depends on ARCH_HAS_GDBSTUB
 	select EXPERIMENTAL
 	help
 	  This option enable support the target using GDB, or any other
 	  application that supports GDB protocol.

 if GDBSTUB

 choice
 	prompt "GDB backend"

 config GDBSTUB_SERIAL_BACKEND
 	bool "Use serial backend"
 	depends on SERIAL
 	help
 	  Use serial as backend for GDB

 endchoice

 config GDBSTUB_BUF_SZ
 	int "GDB backend send/receive buffer size (in bytes)"
 	default 256
 	help
 	  This specifies the size (in bytes) of the send/receive buffer
 	  for GDB backend. This needs to be big enough to hold one
 	  full GDB packet at a time.

 endif
	# Debug configuration options

	# Copyright (c) 2015 Wind River Systems, Inc.
	# SPDX-License-Identifier: Apache-2.0


	menu "System Monitoring Options"

	menuconfig THREAD_ANALYZER
	bool "Thread analyzer"
	select INIT_STACKS
	select THREAD_MONITOR
	select THREAD_STACK_INFO
	select THREAD_RUNTIME_STATS
	help
	Enable thread analyzer functionality and all the required modules.
	This module may be used to debug thread configuration issues, e.g.
	stack size configuration to find stack overflow or to find stacks
	which may be optimized.

	if THREAD_ANALYZER
	module = THREAD_ANALYZER
	module-str = thread analyzer
	source "subsys/logging/Kconfig.template.log_config"

	choice
	prompt "Thread analysis print mode"

	config THREAD_ANALYZER_USE_LOG
	bool "Use logger output"
	select LOG
	help
	Use logger output to print thread information.

	config THREAD_ANALYZER_USE_PRINTK
	bool "Use printk function"
	help
	Use kernel printk function to print thread information.

	endchoice

	config THREAD_ANALYZER_ISR_STACK_USAGE
	bool "Analyze interrupt stacks usage"
	default y

	config THREAD_ANALYZER_RUN_UNLOCKED
	bool "Run analysis with interrupts unlocked"
	default y
	help
	The thread analysis takes quite a long time.
	Every thread it finds is analyzed word by word to find any that
	does not match the magic number.
	Normally while thread are analyzed the k_thread_foreach function
	is used.
	While this is a safe run from the thread list perspective it may lock
	the interrupts for a long time - long enough to disconnect when
	Bluetooth communication is used.
	Setting this flag will force thread analyzer to use
	the k_thread_foreach_unlocked function.
	This will allow the interrupts to be processed while the thread is
	analyzed.
	For the limitation of such configuration see the k_thread_foreach
	documentation.

	config THREAD_ANALYZER_AUTO
	bool "Run periodic thread analysis in a thread"
	help
	Run the thread analyzer automatically, without the need to add
	any code to the application.
	Thread analysis would be called periodically.

	if THREAD_ANALYZER_AUTO

	config THREAD_ANALYZER_AUTO_INTERVAL
	int "Thread analysis interval"
	default 60
	range 5 3600
	help
	The time in seconds to call thread analyzer periodic printing function.

	config THREAD_ANALYZER_AUTO_STACK_SIZE
	int "Stack size for the periodic thread analysis thread"
	default 2048 if THREAD_ANALYZER_USE_LOG && LOG_MODE_IMMEDIATE && NO_OPTIMIZATIONS
	default 1024

	endif # THREAD_ANALYZER_AUTO

	endif # THREAD_ANALYZER


	endmenu

	menu "Debugging Options"

	config DEBUG
	bool "Build kernel with debugging enabled"
	help
	Build a kernel suitable for debugging. Right now, this option
	only disables optimization, more debugging variants can be selected
	from here to allow more debugging.

	config GPROF
	bool "Generate profiling information"
	depends on ARCH_POSIX
	help
	Generate call graph profile data for the application that can be
	analyzed with gprof

	config ASAN
	bool "Build with address sanitizer"
	depends on ARCH_POSIX
	help
	Builds Zephyr with Address Sanitizer enabled. This is currently
	only supported by boards based on the posix architecture, and requires a
	recent-ish compiler with the ``-fsanitize=address`` command line option,
	and the libasan library.

	Note that at exit leak detection is disabled for 64-bit boards when
	GCC is used due to potential risk of a deadlock in libasan.
	This behavior can be changes by adding leak_check_at_exit=1 to the
	environment variable ASAN_OPTIONS.

	config ASAN_RECOVER
	bool "Continue after sanitizer errors"
	depends on ASAN
	default y
	help
	The default behavior of compiler sanitizers is to exit after
	the first error. Set this to y to enable the code to
	continue, which can be useful if a code base has known
	unsuppressed errors. You will also need to set
	"halt_on_error=0" in your ASAN_OPTIONS environment variable
	at runtime.

	config ASAN_NOP_DLCLOSE
	bool "Override host OS dlclose() with a NOP"
	default y if HAS_SDL
	depends on ASAN
	help
	Override host OS dlclose() with a NOP.

	This NOP implementation is needed as workaround for a known limitation in
	LSAN (leak sanitizer) that if dlcose is called before performing the leak
	check, "<unknown module>" is reported in the stack traces during the leak
	check and these can not be suppressed, see
	https://github.com/google/sanitizers/issues/89 for more info.

	config UBSAN
	bool "Build with undefined behavior sanitizer"
	depends on ARCH_POSIX
	help
	Builds Zephyr with Undefined Behavior Sanitizer enabled.
	This is currently only supported by boards based on the posix
	architecture, and requires a recent-ish compiler with the
	``-fsanitize=undefined`` command line option.

	config MSAN
	bool "Build with memory sanitizer"
	depends on ARCH_POSIX
	help
	Builds Zephyr with the LLVM MemorySanitizer enabled. Works
	only on the posix architecture currently, and only with host
	compilers recent enough to support the feature (currently
	clang on x86_64 only). It cannot be used in tandem with
	CONFIG_ASAN due to clang limitations. You must choose one
	or the other (but can combine it with CONFIG_UBSAN if you
	like)

	config STACK_USAGE
	bool "Generate stack usage information"
	help
	Generate an extra file that specifies the maximum amount of stack used,
	on a per-function basis.

	config STACK_SENTINEL
	bool "Stack sentinel"
	select THREAD_STACK_INFO
	depends on MULTITHREADING
	depends on !USERSPACE
	help
	Store a magic value at the lowest addresses of a thread's stack.
	Periodically check that this value is still present and kill the
	thread gracefully if it isn't. This is currently checked in four
	places:

	1) Upon any context switch for the outgoing thread
	2) Any hardware interrupt that doesn't context switch, the check is
	performed for the interrupted thread
	3) When a thread returns from its entry point
	4) When a thread calls k_yield() but doesn't context switch

	This feature doesn't prevent corruption and the system may be
	in an unusable state. However, given the bizarre behavior associated
	with stack overflows, knowledge that this is happening is very
	useful.

	This feature is intended for those systems which lack hardware support
	for stack overflow protection, or have insufficient system resources
	to use that hardware support.

	config PRINTK
	bool "Send printk() to console"
	default y
	help
	This option directs printk() debugging output to the supported
	console device, rather than suppressing the generation
	of printk() output entirely. Output is sent immediately, without
	any mutual exclusion or buffering.

	config PRINTK_BUFFER_SIZE
	int "printk() buffer size"
	depends on PRINTK
	depends on USERSPACE
	default 32
	help
	If userspace is enabled, printk() calls are buffered so that we do
	not have to make a system call for every character emitted. Specify
	the size of this buffer.

	config EARLY_CONSOLE
	bool "Send stdout at the earliest stage possible"
	help
	This option will enable stdout as early as possible, for debugging
	purpose. For instance, in case of STDOUT_CONSOLE being set it will
	initialize its driver earlier than normal, in order to get the stdout
	sent through the console at the earliest stage possible.

	config ASSERT
	bool "__ASSERT() macro"
	default y if TEST
	help
	This enables the __ASSERT() macro in the kernel code. If an assertion
	fails, the policy for what to do is controlled by the implementation
	of the assert_post_action() function, which by default will trigger
	a fatal error.

	Disabling this option will cause assertions to compile to nothing,
	improving performance and system footprint.

	if ASSERT

	config ASSERT_LEVEL
	int "__ASSERT() level"
	default 2
	range 0 2
	help
	This option specifies the assertion level used by the __ASSERT()
	macro. It can be set to one of three possible values:

	Level 0: off
	Level 1: on + warning in every file that includes __assert.h
	Level 2: on + no warning

	config SPIN_VALIDATE
	bool "Spinlock validation"
	depends on MULTITHREADING
	depends on MP_NUM_CPUS <= 4
	default y if !FLASH \|\| FLASH_SIZE > 32
	help
	There's a spinlock validation framework available when asserts are
	enabled. It adds a relatively hefty overhead (about 3k or so) to
	kernel code size, don't use on platforms known to be small.

	endif # ASSERT

	config FORCE_NO_ASSERT
	bool "Force-disable no assertions"
	help
	This boolean option disables Zephyr assertion testing even
	in circumstances (twister) where it is enabled via
	CFLAGS and not Kconfig. Added solely to be able to work
	around compiler bugs for specific tests.

	config ASSERT_VERBOSE
	bool "Verbose assertions"
	default y
	help
	This option enables printing an assert message with information about
	the assertion that occurred. This includes printing the location,
	the conditional expression and additional message specific to the
	assert.

	config ASSERT_NO_FILE_INFO
	bool "Disable file info for asserts"
	help
	This option removes the name and the path of the source file
	in which the assertion occurred. Enabling this will save
	target code space, and thus may be necessary for tiny targets.

	config ASSERT_NO_COND_INFO
	bool "Disable condition info for asserts"
	help
	This option removes the assert condition from the printed assert
	message. Enabling this will save target code space, and thus may be
	necessary for tiny targets. It is recommended to disable condition
	info before disabling file info since the condition can be found in
	the source using file info.

	config ASSERT_NO_MSG_INFO
	bool "Disable message for asserts"
	help
	This option removes the additional message from the printed assert.
	Enabling this will save target code space, and thus may be
	necessary for tiny targets. It is recommended to disable message
	before disabling file info since the message can be found in the
	source using file info.

	config ASSERT_TEST
	bool "Assert test mode"
	help
	This option enables the assert test mode, which allows the assert
	post action handler to return (i.e. not abort) when the asserted
	condition is false. The tests that validate the assert feature may
	select this option to allow the test to proceed by implementing a
	custom assert post action hook.

	config OVERRIDE_FRAME_POINTER_DEFAULT
	bool "Override compiler defaults for -fomit-frame-pointer"
	help
	Omitting the frame pointer prevents the compiler from putting the stack
	frame pointer into a register. Saves a few instructions in function
	prologues/epilogues and frees up a register for general-purpose use,
	which can provide good performance improvements on register-constrained
	architectures like x86. On some architectures (including x86) omitting
	frame pointers impedes debugging as local variables are harder to
	locate. At -O1 and above gcc will enable -fomit-frame-pointer
	automatically but only if the architecture does not require if for
	effective debugging.

	Choose Y if you want to override the default frame pointer behavior
	of your compiler, otherwise choose N.

	config OMIT_FRAME_POINTER
	bool "Omit frame pointer"
	depends on OVERRIDE_FRAME_POINTER_DEFAULT
	help
	Choose Y for best performance. On some architectures (including x86)
	this will favor code size and performance over debuggability.

	Choose N in you wish to retain the frame pointer. This option may
	be useful if your application uses runtime backtracing and does not
	support parsing unwind tables.

	If unsure, disable OVERRIDE_FRAME_POINTER_DEFAULT to allow the compiler
	to adopt sensible defaults for your architecture.


	#
	# Generic Debugging Options
	#
	config DEBUG_INFO
	bool "System debugging information"
	help
	This option enables the addition of various information that can be
	used by debuggers in debugging the system, or enable additional
	debugging information to be reported at runtime.

	config EXCEPTION_STACK_TRACE
	bool "Attempt to print stack traces upon exceptions"
	default y
	depends on PRINTK
	depends on DEBUG_INFO
	depends on !OMIT_FRAME_POINTER
	help
	If the architecture fatal handling code supports it, attempt to
	print a stack trace of function memory addresses when an
	exception is reported.

	#
	# Miscellaneous debugging options
	#
	config DEBUG_THREAD_INFO
	bool "Thread awareness support"
	depends on !SMP
	select THREAD_MONITOR
	select THREAD_NAME
	help
	This option exports an array of offsets to kernel structs to allow
	for debugger RTOS plugins to determine the state of running threads.

	rsource "coredump/Kconfig"
	endmenu

	config GDBSTUB
	bool "GDB remote serial protocol support [EXPERIMENTAL]"
	depends on ARCH_HAS_GDBSTUB
	select EXPERIMENTAL
	help
	This option enable support the target using GDB, or any other
	application that supports GDB protocol.

	if GDBSTUB

	choice
	prompt "GDB backend"

	config GDBSTUB_SERIAL_BACKEND
	bool "Use serial backend"
	depends on SERIAL
	help
	Use serial as backend for GDB

	endchoice

	config GDBSTUB_BUF_SZ
	int "GDB backend send/receive buffer size (in bytes)"
	default 256
	help
	This specifies the size (in bytes) of the send/receive buffer
	for GDB backend. This needs to be big enough to hold one
	full GDB packet at a time.

	endif