doc/guides/dts/flash_partitions.inc - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 :orphan:

 .. _flash_partitions:

 Flash Partitions
 *****************

 Device tree can be used to describe a partition layout for any flash
 device in the system.

 Two important uses for this mechanism are:

 #. To force the Zephyr image to be linked into a specific area on
    Flash.

    This is useful, for example, if the Zephyr image must be linked at
    some offset from the flash device's start, to be loaded by a
    bootloader at runtime.

 #. To generate compile-time definitions for the partition layout,
    which can be shared by Zephyr subsystems and applications to
    operate on specific areas in flash.

    This is useful, for example, to create areas for storing file
    systems or other persistent state.  These defines only describe the
    boundaries of each partition. They don't, for example, initialize a
    partition's flash contents with a file system.

 Partitions are generally managed using device tree overlays. Refer to
 :ref:`application_dt` for details on using overlay files.

 Defining Partitions
 ===================

 The partition layout for a flash device is described inside the
 ``partitions`` child node of the flash device's node in the device
 tree.

 You can define partitions for any flash device on the system.

 Most Zephyr-supported SoCs with flash support in device tree
 will define a label ``flash0``.   This label refers to the primary
 on-die flash programmed to run Zephyr. To generate partitions
 for this device, add the following snippet to a device tree overlay
 file:

 .. We can't highlight dts at time of writing:
 .. https://github.com/zephyrproject-rtos/zephyr/issues/6029
 .. code-block:: none

 	&flash0 {
 		partitions {
 			compatible = "fixed-partitions";
 			#address-cells = <1>;
 			#size-cells = <1>;

 			/* Define your partitions here; see below */
 		};
 	};

 To define partitions for another flash device, modify the above to
 either use its label or provide a complete path to the flash device
 node in the device tree.

 The content of the ``partitions`` node looks like this:

 .. code-block:: none

 	partitions {
 		compatible = "fixed-partitions";
 		#address-cells = <1>;
 		#size-cells = <1>;

 		partition1_label: partition@START_OFFSET_1 {
 			label = "partition1_name";
 			reg = <0xSTART_OFFSET_1 0xSIZE_1>;
 		};

 		/* ... */

 		partitionN_label: partition@START_OFFSET_N {
 			label = "partitionN_name";
 			reg = <0xSTART_OFFSET_N 0xSIZE_N>;
 		};
 	};

 Where:

 - ``partitionX_label`` are device tree labels that can be used
   elsewhere in the device tree to refer to the partition

 - ``partitionX_name`` controls how defines generated by the Zephyr
   build system for this partition will be named

 - ``START_OFFSET_x`` is the start offset in hexadecimal notation of
   the partition from the beginning of the flash device

 - ``SIZE_x`` is the hexadecimal size, in bytes, of the flash partition

 The partitions do not have to cover the entire flash device. The
 device tree compiler currently does not check if partitions overlap;
 you must ensure they do not when defining them.

 Example Primary Flash Partition Layout
 ======================================

 Here is a complete (but hypothetical) example device tree overlay
 snippet illustrating these ideas. Notice how the partitions do not
 overlap, but also do not cover the entire device.

 .. code-block:: none

 	&flash0 {
 		partitions {
 			compatible = "fixed-partitions";
 			#address-cells = <1>;
 			#size-cells = <1>;

 			code_dts_label: partition@8000 {
 				label = "zephyr-code";
 				reg = <0x00008000 0x34000>;
 			};

 			data_dts_label: partition@70000 {
 				label = "application-data";
 				reg = <0x00070000 0xD000>;
 			};
 		};
 	};

 Linking Zephyr Within a Partition
 =================================

 To force the linker to output a Zephyr image within a given flash
 partition, add this to a device tree overlay:

 .. code-block:: none

 	/ {
 		chosen {
 			zephyr,code-partition = &slot0_partition;
 		};
 	};

 If the ``chosen`` node has no ``zephyr,code-partition`` property, the
 application image link uses the entire flash device. If a
 ``zephyr,code-partition`` property is defined, the application link
 will be restricted to that partition.

 Flash Partition Macros
 ======================

 The Zephyr build system generates definitions for each flash device
 partition. These definitions are available to any files which
 include ``<zephyr.h>``.

 Consider this flash partition:

 .. code-block:: none

 	dts_label: partition@START_OFFSET {
 		label = "def-name";
 		reg = <0xSTART_OFFSET 0xSIZE>;
 	};

 The build system will generate the following corresponding defines:

 .. code-block:: c

    #define FLASH_AREA_DEF_NAME_LABEL        "def-name"
    #define FLASH_AREA_DEF_NAME_OFFSET_0     0xSTART_OFFSET
    #define FLASH_AREA_DEF_NAME_SIZE_0       0xSIZE
    #define FLASH_AREA_DEF_NAME_OFFSET       FLASH_AREA_MCUBOOT_OFFSET_0
    #define FLASH_AREA_DEF_NAME_SIZE         FLASH_AREA_MCUBOOT_SIZE_0

 As you can see, the ``label`` property is capitalized when forming the
 macro names. Other simple conversions to ensure it is a valid C
 identifier, such as converting "-" to "_", are also performed. The
 offsets and sizes are available as well.

 .. _mcuboot_partitions:

 MCUboot Partitions
 ==================

 `MCUboot`_ is a secure bootloader for 32-bit microcontrollers.

 Some Zephyr boards provide definitions for the flash partitions which
 are required to build MCUboot itself, as well as any applications
 which must be chain-loaded by MCUboot.

 The device tree labels for these partitions are:

 **boot_partition**
   This is the partition where the bootloader is expected to be
   placed. MCUboot's build system will attempt to link the MCUboot
   image into this partition.

 **slot0_partition**
   MCUboot loads the executable application image from this
   partition. Any application bootable by MCUboot must be linked to run
   from this partition.

 **slot1_partition**
   This is the partition which stores firmware upgrade images. Zephyr
   applications which receive firmware updates must ensure the upgrade
   images are placed in this partition (the Zephyr DFU subsystem can be
   used for this purpose). MCUboot checks for upgrade images in this
   partition, and can move them to ``slot0_partition`` for execution.
   The ``slot0_partition`` and ``slot1_partition`` must be the same
   size.

 **scratch_partition**
   This partition is used as temporary storage while swapping the
   contents of ``slot0_partition`` and ``slot1_partition``.

 .. important::

    Upgrade images are only temporarily stored in ``slot1_partition``.
    They must be linked to execute of out of ``slot0_partition``.

 See the  `MCUboot documentation`_ for more details on these partitions.

 .. _MCUboot: https://mcuboot.com/

 .. _MCUboot documentation:
    https://github.com/runtimeco/mcuboot/blob/master/docs/design.md#image-slots

 File System Partitions
 ======================

 **storage_partition**
   This is the area where e.g. NFFS expects its partition.
	:orphan:

	.. _flash_partitions:

	Flash Partitions
	*****************

	Device tree can be used to describe a partition layout for any flash
	device in the system.

	Two important uses for this mechanism are:

	#. To force the Zephyr image to be linked into a specific area on
	Flash.

	This is useful, for example, if the Zephyr image must be linked at
	some offset from the flash device's start, to be loaded by a
	bootloader at runtime.

	#. To generate compile-time definitions for the partition layout,
	which can be shared by Zephyr subsystems and applications to
	operate on specific areas in flash.

	This is useful, for example, to create areas for storing file
	systems or other persistent state. These defines only describe the
	boundaries of each partition. They don't, for example, initialize a
	partition's flash contents with a file system.

	Partitions are generally managed using device tree overlays. Refer to
	:ref:`application_dt` for details on using overlay files.

	Defining Partitions
	===================

	The partition layout for a flash device is described inside the
	``partitions`` child node of the flash device's node in the device
	tree.

	You can define partitions for any flash device on the system.

	Most Zephyr-supported SoCs with flash support in device tree
	will define a label ``flash0``. This label refers to the primary
	on-die flash programmed to run Zephyr. To generate partitions
	for this device, add the following snippet to a device tree overlay
	file:

	.. We can't highlight dts at time of writing:
	.. https://github.com/zephyrproject-rtos/zephyr/issues/6029
	.. code-block:: none

	&flash0 {
	partitions {
	compatible = "fixed-partitions";
	#address-cells = <1>;
	#size-cells = <1>;

	/* Define your partitions here; see below */
	};
	};

	To define partitions for another flash device, modify the above to
	either use its label or provide a complete path to the flash device
	node in the device tree.

	The content of the ``partitions`` node looks like this:

	.. code-block:: none

	partitions {
	compatible = "fixed-partitions";
	#address-cells = <1>;
	#size-cells = <1>;

	partition1_label: partition@START_OFFSET_1 {
	label = "partition1_name";
	reg = <0xSTART_OFFSET_1 0xSIZE_1>;
	};

	/* ... */

	partitionN_label: partition@START_OFFSET_N {
	label = "partitionN_name";
	reg = <0xSTART_OFFSET_N 0xSIZE_N>;
	};
	};

	Where:

	- ``partitionX_label`` are device tree labels that can be used
	elsewhere in the device tree to refer to the partition

	- ``partitionX_name`` controls how defines generated by the Zephyr
	build system for this partition will be named

	- ``START_OFFSET_x`` is the start offset in hexadecimal notation of
	the partition from the beginning of the flash device

	- ``SIZE_x`` is the hexadecimal size, in bytes, of the flash partition

	The partitions do not have to cover the entire flash device. The
	device tree compiler currently does not check if partitions overlap;
	you must ensure they do not when defining them.

	Example Primary Flash Partition Layout
	======================================

	Here is a complete (but hypothetical) example device tree overlay
	snippet illustrating these ideas. Notice how the partitions do not
	overlap, but also do not cover the entire device.

	.. code-block:: none

	&flash0 {
	partitions {
	compatible = "fixed-partitions";
	#address-cells = <1>;
	#size-cells = <1>;

	code_dts_label: partition@8000 {
	label = "zephyr-code";
	reg = <0x00008000 0x34000>;
	};

	data_dts_label: partition@70000 {
	label = "application-data";
	reg = <0x00070000 0xD000>;
	};
	};
	};

	Linking Zephyr Within a Partition
	=================================

	To force the linker to output a Zephyr image within a given flash
	partition, add this to a device tree overlay:

	.. code-block:: none

	/ {
	chosen {
	zephyr,code-partition = &slot0_partition;
	};
	};

	If the ``chosen`` node has no ``zephyr,code-partition`` property, the
	application image link uses the entire flash device. If a
	``zephyr,code-partition`` property is defined, the application link
	will be restricted to that partition.

	Flash Partition Macros
	======================

	The Zephyr build system generates definitions for each flash device
	partition. These definitions are available to any files which
	include ``<zephyr.h>``.

	Consider this flash partition:

	.. code-block:: none

	dts_label: partition@START_OFFSET {
	label = "def-name";
	reg = <0xSTART_OFFSET 0xSIZE>;
	};

	The build system will generate the following corresponding defines:

	.. code-block:: c

	#define FLASH_AREA_DEF_NAME_LABEL "def-name"
	#define FLASH_AREA_DEF_NAME_OFFSET_0 0xSTART_OFFSET
	#define FLASH_AREA_DEF_NAME_SIZE_0 0xSIZE
	#define FLASH_AREA_DEF_NAME_OFFSET FLASH_AREA_MCUBOOT_OFFSET_0
	#define FLASH_AREA_DEF_NAME_SIZE FLASH_AREA_MCUBOOT_SIZE_0

	As you can see, the ``label`` property is capitalized when forming the
	macro names. Other simple conversions to ensure it is a valid C
	identifier, such as converting "-" to "_", are also performed. The
	offsets and sizes are available as well.

	.. _mcuboot_partitions:

	MCUboot Partitions
	==================

	`MCUboot`_ is a secure bootloader for 32-bit microcontrollers.

	Some Zephyr boards provide definitions for the flash partitions which
	are required to build MCUboot itself, as well as any applications
	which must be chain-loaded by MCUboot.

	The device tree labels for these partitions are:

	boot_partition
	This is the partition where the bootloader is expected to be
	placed. MCUboot's build system will attempt to link the MCUboot
	image into this partition.

	slot0_partition
	MCUboot loads the executable application image from this
	partition. Any application bootable by MCUboot must be linked to run
	from this partition.

	slot1_partition
	This is the partition which stores firmware upgrade images. Zephyr
	applications which receive firmware updates must ensure the upgrade
	images are placed in this partition (the Zephyr DFU subsystem can be
	used for this purpose). MCUboot checks for upgrade images in this
	partition, and can move them to ``slot0_partition`` for execution.
	The ``slot0_partition`` and ``slot1_partition`` must be the same
	size.

	scratch_partition
	This partition is used as temporary storage while swapping the
	contents of ``slot0_partition`` and ``slot1_partition``.

	.. important::

	Upgrade images are only temporarily stored in ``slot1_partition``.
	They must be linked to execute of out of ``slot0_partition``.

	See the `MCUboot documentation`_ for more details on these partitions.

	.. _MCUboot: https://mcuboot.com/

	.. _MCUboot documentation:
	https://github.com/runtimeco/mcuboot/blob/master/docs/design.md#image-slots

	File System Partitions
	======================

	storage_partition
	This is the area where e.g. NFFS expects its partition.