src/cpu/Kconfig - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 # Warning: This file is included whether or not the if is here.
 # The if controls how the evaluation occurs.
 # (See also src/Kconfig)

 source "src/cpu/*/Kconfig"

 if ARCH_X86

 config CACHE_AS_RAM
 	bool
 	default y

 config NO_CAR_GLOBAL_MIGRATION
 	bool
 	default n
 	depends on CACHE_AS_RAM
 	help
 	  This option is selected if there is no need to migrate CAR globals.
 	  All stages which use CAR globals can directly access the variables
 	  from their linked addresses.

 config DCACHE_RAM_BASE
 	hex

 config DCACHE_RAM_SIZE
 	hex

 config DCACHE_BSP_STACK_SIZE
 	hex

 config DCACHE_BSP_STACK_SLUSH
 	hex

 config DCACHE_AP_STACK_SIZE
 	hex

 config SMP
 	bool
 	default y if MAX_CPUS != 1
 	default n
 	help
 	  This option is used to enable certain functions to make coreboot
 	  work correctly on symmetric multi processor (SMP) systems.

 config AP_SIPI_VECTOR
 	hex
 	default 0xfffff000
 	help
 	  This must equal address of ap_sipi_vector from bootblock build.

 config	MMX
 	bool
 	help
 	  Select MMX in your socket or model Kconfig if your CPU has MMX
 	  streaming SIMD instructions. ROMCC can build more efficient
 	  code if it can spill to MMX registers.

 config SSE
 	bool
 	help
 	  Select SSE in your socket or model Kconfig if your CPU has SSE
 	  streaming SIMD instructions. ROMCC can build more efficient
 	  code if it can spill to SSE (aka XMM) registers.

 config SSE2
 	bool
 	default n
 	select SSE
 	help
 	  Select SSE2 in your socket or model Kconfig if your CPU has SSE2
 	  streaming SIMD instructions. Some parts of coreboot can be built
 	  with more efficient code if SSE2 instructions are available.

 endif # ARCH_X86

 config SUPPORT_CPU_UCODE_IN_CBFS
 	bool
 	default n

 config USES_MICROCODE_HEADER_FILES
 	def_bool n
 	select SUPPORT_CPU_UCODE_IN_CBFS
 	help
 	  This is selected by a board or chipset to set the default for the
 	  microcode source choice to a list of external microcode headers

 choice
 	prompt "Include CPU microcode in CBFS" if ARCH_X86
 	default CPU_MICROCODE_CBFS_EXTERNAL_HEADER if USES_MICROCODE_HEADER_FILES
 	default CPU_MICROCODE_CBFS_GENERATE if SUPPORT_CPU_UCODE_IN_CBFS && USE_BLOBS
 	default CPU_MICROCODE_CBFS_NONE if !SUPPORT_CPU_UCODE_IN_CBFS

 config CPU_MICROCODE_CBFS_GENERATE
 	bool "Generate from tree"
 	help
 	  Select this option if you want microcode updates to be assembled when
 	  building coreboot and included in the final image as a separate CBFS
 	  file. Microcode will not be hard-coded into ramstage.

 	  The microcode file may be removed from the ROM image at a later
 	  time with cbfstool, if desired.

 	  If unsure, select this option.

 config CPU_MICROCODE_CBFS_EXTERNAL_HEADER
 	bool "Include external microcode header files"
 	help
 	  Select this option if you want to include external c header files
 	  containing the CPU microcode. This will be included as a separate
 	  file in CBFS.

 	  A word of caution: only select this option if you are sure the
 	  microcode that you have is newer than the microcode shipping with
 	  coreboot.

 	  The microcode file may be removed from the ROM image at a later
 	  time with cbfstool, if desired.

 	  If unsure, select "Generate from tree"

 config CPU_MICROCODE_CBFS_NONE
 	bool "Do not include microcode updates"
 	help
 	  Select this option if you do not want CPU microcode included in CBFS.
 	  Note that for some CPUs, the microcode is hard-coded into the source
 	  tree and is not loaded from CBFS. In this case, microcode will still
 	  be updated. There is a push to move all microcode to CBFS, but this
 	  change is not implemented for all CPUs.

 	  This option currently applies to:
 	    - Intel SandyBridge/IvyBridge
 	    - VIA Nano

 	  Microcode may be added to the ROM image at a later time with cbfstool,
 	  if desired.

 	  If unsure, select "Generate from tree"

 	  The GOOD:
 	  Microcode updates intend to solve issues that have been discovered
 	  after CPU production. The expected effect is that systems work as
 	  intended with the updated microcode, but we have also seen cases where
 	  issues were solved by not applying microcode updates.

 	  The BAD:
 	  Note that some operating system include these same microcode patches,
 	  so you may need to also disable microcode updates in your operating
 	  system for this option to have an effect.

 	  The UGLY:
 	  A word of CAUTION: some CPUs depend on microcode updates to function
 	  correctly. Not updating the microcode may leave the CPU operating at
 	  less than optimal performance, or may cause outright hangups.
 	  There are CPUs where coreboot cannot properly initialize the CPU
 	  without microcode updates
 	  For example, if running with the factory microcode, some Intel
 	  SandyBridge CPUs may hang when enabling CAR, or some VIA Nano CPUs
 	  will hang when changing the frequency.

 	  Make sure you have a way of flashing the ROM externally before
 	  selecting this option.

 endchoice

 config CPU_MICROCODE_MULTIPLE_FILES
 	bool
 	default n
 	depends on CPU_MICROCODE_CBFS_GENERATE
 	help
 	  Select this option to install separate microcode container files into
 	  CBFS instead of using the traditional monolithic microcode file format.

 config CPU_MICROCODE_HEADER_FILES
 	string "List of space separated microcode header files with the path"
 	depends on CPU_MICROCODE_CBFS_EXTERNAL_HEADER
 	help
 	  A list of one or more microcode header files with path from the
 	  coreboot directory.  These should be separated by spaces.

 config CPU_UCODE_BINARIES
 	string "Microcode binary path and filename"
 	depends on CPU_MICROCODE_CBFS_GENERATE
 	default ""
 	help
 	  Some platforms have microcode in the blobs directory, and these can
 	  be hardcoded in the makefiles.  For platforms with microcode
 	  binaries that aren't in the makefile, set this option to pull
 	  in the microcode.

 	  This should contain the full path of the file for one or more
 	  microcode binary files to include, separated by spaces.

 	  If unsure, leave this blank.
	# Warning: This file is included whether or not the if is here.
	# The if controls how the evaluation occurs.
	# (See also src/Kconfig)

	source "src/cpu/*/Kconfig"

	if ARCH_X86

	config CACHE_AS_RAM
	bool
	default y

	config NO_CAR_GLOBAL_MIGRATION
	bool
	default n
	depends on CACHE_AS_RAM
	help
	This option is selected if there is no need to migrate CAR globals.
	All stages which use CAR globals can directly access the variables
	from their linked addresses.

	config DCACHE_RAM_BASE
	hex

	config DCACHE_RAM_SIZE
	hex

	config DCACHE_BSP_STACK_SIZE
	hex

	config DCACHE_BSP_STACK_SLUSH
	hex

	config DCACHE_AP_STACK_SIZE
	hex

	config SMP
	bool
	default y if MAX_CPUS != 1
	default n
	help
	This option is used to enable certain functions to make coreboot
	work correctly on symmetric multi processor (SMP) systems.

	config AP_SIPI_VECTOR
	hex
	default 0xfffff000
	help
	This must equal address of ap_sipi_vector from bootblock build.

	config MMX
	bool
	help
	Select MMX in your socket or model Kconfig if your CPU has MMX
	streaming SIMD instructions. ROMCC can build more efficient
	code if it can spill to MMX registers.

	config SSE
	bool
	help
	Select SSE in your socket or model Kconfig if your CPU has SSE
	streaming SIMD instructions. ROMCC can build more efficient
	code if it can spill to SSE (aka XMM) registers.

	config SSE2
	bool
	default n
	select SSE
	help
	Select SSE2 in your socket or model Kconfig if your CPU has SSE2
	streaming SIMD instructions. Some parts of coreboot can be built
	with more efficient code if SSE2 instructions are available.

	endif # ARCH_X86

	config SUPPORT_CPU_UCODE_IN_CBFS
	bool
	default n

	config USES_MICROCODE_HEADER_FILES
	def_bool n
	select SUPPORT_CPU_UCODE_IN_CBFS
	help
	This is selected by a board or chipset to set the default for the
	microcode source choice to a list of external microcode headers

	choice
	prompt "Include CPU microcode in CBFS" if ARCH_X86
	default CPU_MICROCODE_CBFS_EXTERNAL_HEADER if USES_MICROCODE_HEADER_FILES
	default CPU_MICROCODE_CBFS_GENERATE if SUPPORT_CPU_UCODE_IN_CBFS && USE_BLOBS
	default CPU_MICROCODE_CBFS_NONE if !SUPPORT_CPU_UCODE_IN_CBFS

	config CPU_MICROCODE_CBFS_GENERATE
	bool "Generate from tree"
	help
	Select this option if you want microcode updates to be assembled when
	building coreboot and included in the final image as a separate CBFS
	file. Microcode will not be hard-coded into ramstage.

	The microcode file may be removed from the ROM image at a later
	time with cbfstool, if desired.

	If unsure, select this option.

	config CPU_MICROCODE_CBFS_EXTERNAL_HEADER
	bool "Include external microcode header files"
	help
	Select this option if you want to include external c header files
	containing the CPU microcode. This will be included as a separate
	file in CBFS.

	A word of caution: only select this option if you are sure the
	microcode that you have is newer than the microcode shipping with
	coreboot.

	The microcode file may be removed from the ROM image at a later
	time with cbfstool, if desired.

	If unsure, select "Generate from tree"

	config CPU_MICROCODE_CBFS_NONE
	bool "Do not include microcode updates"
	help
	Select this option if you do not want CPU microcode included in CBFS.
	Note that for some CPUs, the microcode is hard-coded into the source
	tree and is not loaded from CBFS. In this case, microcode will still
	be updated. There is a push to move all microcode to CBFS, but this
	change is not implemented for all CPUs.

	This option currently applies to:
	- Intel SandyBridge/IvyBridge
	- VIA Nano

	Microcode may be added to the ROM image at a later time with cbfstool,
	if desired.

	If unsure, select "Generate from tree"

	The GOOD:
	Microcode updates intend to solve issues that have been discovered
	after CPU production. The expected effect is that systems work as
	intended with the updated microcode, but we have also seen cases where
	issues were solved by not applying microcode updates.

	The BAD:
	Note that some operating system include these same microcode patches,
	so you may need to also disable microcode updates in your operating
	system for this option to have an effect.

	The UGLY:
	A word of CAUTION: some CPUs depend on microcode updates to function
	correctly. Not updating the microcode may leave the CPU operating at
	less than optimal performance, or may cause outright hangups.
	There are CPUs where coreboot cannot properly initialize the CPU
	without microcode updates
	For example, if running with the factory microcode, some Intel
	SandyBridge CPUs may hang when enabling CAR, or some VIA Nano CPUs
	will hang when changing the frequency.

	Make sure you have a way of flashing the ROM externally before
	selecting this option.

	endchoice

	config CPU_MICROCODE_MULTIPLE_FILES
	bool
	default n
	depends on CPU_MICROCODE_CBFS_GENERATE
	help
	Select this option to install separate microcode container files into
	CBFS instead of using the traditional monolithic microcode file format.

	config CPU_MICROCODE_HEADER_FILES
	string "List of space separated microcode header files with the path"
	depends on CPU_MICROCODE_CBFS_EXTERNAL_HEADER
	help
	A list of one or more microcode header files with path from the
	coreboot directory. These should be separated by spaces.

	config CPU_UCODE_BINARIES
	string "Microcode binary path and filename"
	depends on CPU_MICROCODE_CBFS_GENERATE
	default ""
	help
	Some platforms have microcode in the blobs directory, and these can
	be hardcoded in the makefiles. For platforms with microcode
	binaries that aren't in the makefile, set this option to pull
	in the microcode.

	This should contain the full path of the file for one or more
	microcode binary files to include, separated by spaces.

	If unsure, leave this blank.