Bootloader configuration in Matter
All Matter nodes are required to implement a firmware update mechanism that validates the authenticity of new firmware before executing it. To meet this requirement, Nordic Semiconductor recommends using MCUboot bootloader for installing a new firmware image.
This page contains guidelines for configuring the MCUboot bootloader in Matter projects.
Adding MCUboot to application
Read Adding MCUboot as an immutable bootloader to learn how to add MCUboot to an nRF Connect SDK application. Some Matter samples include Device Firmware Update (DFU) support out of the box, as listed in the sample feature matrix table.
MCUboot minimal configuration
MCUboot is by default configured to enable debug features, such as logs. You can reduce the size of the bootloader image by disabling unnecessary features.
See the Kconfig.mcuboot.defaults file for the MCUboot minimal configuration used by Matter samples in the nRF Connect SDK. This configuration allows to reduce the flash partition occupied by MCUboot to 24 kB.
Partition layout
Each application that uses MCUboot must use Partition Manager to define partitions of the flash memory. This is needed for the bootloader to know where the current and the new firmware images are located in the flash.
Consider the following when defining partitions for your end product:
There are multiple ways to define partitions using Partition Manager. For example, each Matter sample provides a
pm_static_dfu.yml
file (one for each configuration) that statically defines the partition layout. See Reference Matter memory layouts to confirm the reference partition layout for each supported platform.Given the size of the Matter stack, it will usually not be possible to fit both the primary and the secondary slot in the internal flash in order to store the current and the new firmware image, respectively. Instead, you should use the external flash to host the secondary slot.
Note
Remember to enable a proper flash driver when placing the secondary slot in the external flash. For example, if you develop your application on a Nordic Semiconductor’s development kit that includes a QSPI NOR flash module, set the
CONFIG_NORDIC_QSPI_NOR
Kconfig option.When selecting the partition sizes, take into account that some of the partitions, such as settings and factory data ones, are not modified during the DFU process. This means that performing DFU from one firmware version to another using different partition sizes may not be possible, and you will not be able to change the partition sizes without reprogramming the device. Trying to perform DFU between applications that use incompatible partition sizes can result in unwanted application behavior, depending on which partitions are overlapping. In some cases, this may corrupt some partitions; in others, this can lead to a DFU failure.
Settings partition
The nRF Connect platform in Matter uses Zephyr’s Settings API to provide the storage capabilities to the Matter stack.
This requires that you define the settings_storage
partition in the flash.
The recommended minimum size of the partition is 32 kB, but you can reserve even more space if your application uses the storage extensively.
As you can see in Reference Matter memory layouts, Matter samples in the nRF Connect SDK reserve exactly 32 kB for the settings_storage
partition.
Factory data partition
If you make a real Matter product, you also need the factory_data
partition to store the factory data.
The factory data contains a set of immutable device identifiers, certificates and cryptographic keys, programmed onto a device at the time of the device fabrication.
For that partition one flash page of 4 kB should be enough in most use cases.
By default, the factory_data
partition is write-protected with the Hardware flash write protection driver (fprotect
).
The hardware limitations require that the write-protected areas are aligned to CONFIG_FPROTECT_BLOCK_SIZE
.
For this reason, to effectively implement fprotect
, make sure that the partition layout of the application meets the following requirements:
The
factory_data
partition is placed right after theapp
partition in the address space (that is, thefactory_data
partition offset must be equal to the last address of theapp
partition).The
settings_storage
partition size is a multiple ofCONFIG_FPROTECT_BLOCK_SIZE
, which may differ depending on the SoC in use.
See the following figure and check the Reference Matter memory layouts to make sure your implementation is correct.
In case your memory map does not follow these requirements, you can still use the factory data implementation without the write protection by setting the CONFIG_CHIP_FACTORY_DATA_WRITE_PROTECT
to n
, although this is not recommended.
See the Generating factory data section on the Device Attestation page for more information about the factory data in Matter.
Signing keys
MCUboot uses asymmetric cryptography to validate the authenticity of firmware. The public key embedded in the bootloader image is used to validate the signature of a firmware image that is about to be booted. If the signature check fails, MCUboot rejects the image and either:
rolls back to the last valid firmware image if the fallback recovery has not been disabled using the MCUboot’s
CONFIG_BOOT_UPGRADE_ONLY
Kconfig option.fails to boot.
Note
To help you get started with MCUboot and ease working with sample applications, MCUboot comes with a default key pair for the firmware image validation. As the key pair is publicly known, it provides no protection against the image forgery. For this reason, when making a real product, it is of the greatest importance to replace it with a unique key pair, known only to the device maker.
Read Adding a custom signature key file to learn how to configure MCUboot to use a custom key pair.
Downgrade protection
The downgrade protection mechanism makes it impossible for an attacker to trick a user to install a firmware image older than the currently installed one.
The attacker might want to do this to reintroduce old security vulnerabilities that have already been fixed in newer firmware revisions.
You should enable the downgrade protection mechanism if you choose to enable MCUboot’s CONFIG_BOOT_UPGRADE_ONLY
Kconfig option, which disables the fallback recovery in case of a faulty upgrade.