drivers/nvdimm/Kconfig - pub/scm/linux/kernel/git/joro/iommu - Git at Google

 # SPDX-License-Identifier: GPL-2.0-only
 menuconfig LIBNVDIMM
 	tristate "NVDIMM (Non-Volatile Memory Device) Support"
 	depends on PHYS_ADDR_T_64BIT
 	depends on HAS_IOMEM
 	depends on BLK_DEV
 	select MEMREGION
 	help
 	  Generic support for non-volatile memory devices including
 	  ACPI-6-NFIT defined resources.  On platforms that define an
 	  NFIT, or otherwise can discover NVDIMM resources, a libnvdimm
 	  bus is registered to advertise PMEM (persistent memory)
 	  namespaces (/dev/pmemX). A PMEM namespace refers to a
 	  memory resource that may span multiple DIMMs and support DAX
 	  (see CONFIG_DAX).

 if LIBNVDIMM

 config BLK_DEV_PMEM
 	tristate "PMEM: Persistent memory block device support"
 	default LIBNVDIMM
 	select DAX
 	select ND_BTT if BTT
 	select ND_PFN if NVDIMM_PFN
 	help
 	  Memory ranges for PMEM are described by either an NFIT
 	  (NVDIMM Firmware Interface Table, see CONFIG_ACPI_NFIT), a
 	  non-standard OEM-specific E820 memory type (type-12, see
 	  CONFIG_X86_PMEM_LEGACY), or it is manually specified by the
 	  'memmap=nn[KMG]!ss[KMG]' kernel command line (see
 	  Documentation/admin-guide/kernel-parameters.rst).  This driver converts
 	  these persistent memory ranges into block devices that are
 	  capable of DAX (direct-access) file system mappings.  See
 	  Documentation/driver-api/nvdimm/nvdimm.rst for more details.

 	  Say Y if you want to use an NVDIMM

 config ND_CLAIM
 	bool

 config ND_BTT
 	tristate

 config BTT
 	bool "BTT: Block Translation Table (atomic sector updates)"
 	default y if LIBNVDIMM
 	select ND_CLAIM
 	help
 	  The Block Translation Table (BTT) provides atomic sector
 	  update semantics for persistent memory devices, so that
 	  applications that rely on sector writes not being torn (a
 	  guarantee that typical disks provide) can continue to do so.
 	  The BTT manifests itself as an alternate personality for an
 	  NVDIMM namespace, i.e. a namespace can be in raw mode pmemX,
 	  or 'sectored' mode.

 	  Select Y if unsure

 config ND_PFN
 	tristate

 config NVDIMM_PFN
 	bool "PFN: Map persistent (device) memory"
 	default LIBNVDIMM
 	depends on ZONE_DEVICE
 	select ND_CLAIM
 	help
 	  Map persistent memory, i.e. advertise it to the memory
 	  management sub-system.  By default persistent memory does
 	  not support direct I/O, RDMA, or any other usage that
 	  requires a 'struct page' to mediate an I/O request.  This
 	  driver allocates and initializes the infrastructure needed
 	  to support those use cases.

 	  Select Y if unsure

 config NVDIMM_DAX
 	bool "NVDIMM DAX: Raw access to persistent memory"
 	default LIBNVDIMM
 	depends on NVDIMM_PFN
 	help
 	  Support raw device dax access to a persistent memory
 	  namespace.  For environments that want to hard partition
 	  persistent memory, this capability provides a mechanism to
 	  sub-divide a namespace into character devices that can only be
 	  accessed via DAX (mmap(2)).

 	  Select Y if unsure

 config OF_PMEM
 	tristate "Device-tree support for persistent memory regions"
 	depends on OF
 	default LIBNVDIMM
 	help
 	  Allows regions of persistent memory to be described in the
 	  device-tree.

 	  Select Y if unsure.

 config NVDIMM_KEYS
 	def_bool y
 	depends on ENCRYPTED_KEYS
 	depends on (LIBNVDIMM=ENCRYPTED_KEYS) || LIBNVDIMM=m

 config NVDIMM_KMSAN
 	bool
 	depends on KMSAN
 	help
 	  KMSAN, and other memory debug facilities, increase the size of
 	  'struct page' to contain extra metadata. This collides with
 	  the NVDIMM capability to store a potentially
 	  larger-than-"System RAM" size 'struct page' array in a
 	  reservation of persistent memory rather than limited /
 	  precious DRAM. However, that reservation needs to persist for
 	  the life of the given NVDIMM namespace. If you are using KMSAN
 	  to debug an issue unrelated to NVDIMMs or DAX then say N to this
 	  option. Otherwise, say Y but understand that any namespaces
 	  (with the page array stored pmem) created with this build of
 	  the kernel will permanently reserve and strand excess
 	  capacity compared to the CONFIG_KMSAN=n case.

 	  Select N if unsure.

 config NVDIMM_TEST_BUILD
 	tristate "Build the unit test core"
 	depends on m
 	depends on COMPILE_TEST && X86_64
 	default m if COMPILE_TEST
 	help
 	  Build the core of the unit test infrastructure. The result of
 	  this build is non-functional for unit test execution, but it
 	  otherwise helps catch build errors induced by changes to the
 	  core devm_memremap_pages() implementation and other
 	  infrastructure.

 config NVDIMM_SECURITY_TEST
 	bool "Enable NVDIMM security unit tests"
 	depends on NVDIMM_KEYS
 	help
 	  The NVDIMM and CXL subsystems support unit testing of their device
 	  security state machines. The NVDIMM_SECURITY_TEST option disables CPU
 	  cache maintenance operations around events like secure erase and
 	  overwrite.  Also, when enabled, the NVDIMM subsystem core helps the unit
 	  test implement a mock state machine.

 	  Select N if unsure.

 endif
	# SPDX-License-Identifier: GPL-2.0-only
	menuconfig LIBNVDIMM
	tristate "NVDIMM (Non-Volatile Memory Device) Support"
	depends on PHYS_ADDR_T_64BIT
	depends on HAS_IOMEM
	depends on BLK_DEV
	select MEMREGION
	help
	Generic support for non-volatile memory devices including
	ACPI-6-NFIT defined resources. On platforms that define an
	NFIT, or otherwise can discover NVDIMM resources, a libnvdimm
	bus is registered to advertise PMEM (persistent memory)
	namespaces (/dev/pmemX). A PMEM namespace refers to a
	memory resource that may span multiple DIMMs and support DAX
	(see CONFIG_DAX).

	if LIBNVDIMM

	config BLK_DEV_PMEM
	tristate "PMEM: Persistent memory block device support"
	default LIBNVDIMM
	select DAX
	select ND_BTT if BTT
	select ND_PFN if NVDIMM_PFN
	help
	Memory ranges for PMEM are described by either an NFIT
	(NVDIMM Firmware Interface Table, see CONFIG_ACPI_NFIT), a
	non-standard OEM-specific E820 memory type (type-12, see
	CONFIG_X86_PMEM_LEGACY), or it is manually specified by the
	'memmap=nn[KMG]!ss[KMG]' kernel command line (see
	Documentation/admin-guide/kernel-parameters.rst). This driver converts
	these persistent memory ranges into block devices that are
	capable of DAX (direct-access) file system mappings. See
	Documentation/driver-api/nvdimm/nvdimm.rst for more details.

	Say Y if you want to use an NVDIMM

	config ND_CLAIM
	bool

	config ND_BTT
	tristate

	config BTT
	bool "BTT: Block Translation Table (atomic sector updates)"
	default y if LIBNVDIMM
	select ND_CLAIM
	help
	The Block Translation Table (BTT) provides atomic sector
	update semantics for persistent memory devices, so that
	applications that rely on sector writes not being torn (a
	guarantee that typical disks provide) can continue to do so.
	The BTT manifests itself as an alternate personality for an
	NVDIMM namespace, i.e. a namespace can be in raw mode pmemX,
	or 'sectored' mode.

	Select Y if unsure

	config ND_PFN
	tristate

	config NVDIMM_PFN
	bool "PFN: Map persistent (device) memory"
	default LIBNVDIMM
	depends on ZONE_DEVICE
	select ND_CLAIM
	help
	Map persistent memory, i.e. advertise it to the memory
	management sub-system. By default persistent memory does
	not support direct I/O, RDMA, or any other usage that
	requires a 'struct page' to mediate an I/O request. This
	driver allocates and initializes the infrastructure needed
	to support those use cases.

	Select Y if unsure

	config NVDIMM_DAX
	bool "NVDIMM DAX: Raw access to persistent memory"
	default LIBNVDIMM
	depends on NVDIMM_PFN
	help
	Support raw device dax access to a persistent memory
	namespace. For environments that want to hard partition
	persistent memory, this capability provides a mechanism to
	sub-divide a namespace into character devices that can only be
	accessed via DAX (mmap(2)).

	Select Y if unsure

	config OF_PMEM
	tristate "Device-tree support for persistent memory regions"
	depends on OF
	default LIBNVDIMM
	help
	Allows regions of persistent memory to be described in the
	device-tree.

	Select Y if unsure.

	config NVDIMM_KEYS
	def_bool y
	depends on ENCRYPTED_KEYS
	depends on (LIBNVDIMM=ENCRYPTED_KEYS) \|\| LIBNVDIMM=m

	config NVDIMM_KMSAN
	bool
	depends on KMSAN
	help
	KMSAN, and other memory debug facilities, increase the size of
	'struct page' to contain extra metadata. This collides with
	the NVDIMM capability to store a potentially
	larger-than-"System RAM" size 'struct page' array in a
	reservation of persistent memory rather than limited /
	precious DRAM. However, that reservation needs to persist for
	the life of the given NVDIMM namespace. If you are using KMSAN
	to debug an issue unrelated to NVDIMMs or DAX then say N to this
	option. Otherwise, say Y but understand that any namespaces
	(with the page array stored pmem) created with this build of
	the kernel will permanently reserve and strand excess
	capacity compared to the CONFIG_KMSAN=n case.

	Select N if unsure.

	config NVDIMM_TEST_BUILD
	tristate "Build the unit test core"
	depends on m
	depends on COMPILE_TEST && X86_64
	default m if COMPILE_TEST
	help
	Build the core of the unit test infrastructure. The result of
	this build is non-functional for unit test execution, but it
	otherwise helps catch build errors induced by changes to the
	core devm_memremap_pages() implementation and other
	infrastructure.

	config NVDIMM_SECURITY_TEST
	bool "Enable NVDIMM security unit tests"
	depends on NVDIMM_KEYS
	help
	The NVDIMM and CXL subsystems support unit testing of their device
	security state machines. The NVDIMM_SECURITY_TEST option disables CPU
	cache maintenance operations around events like secure erase and
	overwrite. Also, when enabled, the NVDIMM subsystem core helps the unit
	test implement a mock state machine.

	Select N if unsure.

	endif