Build and configuration system

The nRF Connect SDK build and configuration system is based on the one from Zephyr, with some additions.

Zephyr’s build and configuration system

Zephyr’s build and configuration system uses the following building blocks as a foundation:

  • CMake, the cross-platform build system generator

  • Kconfig, a powerful configuration system also used in the Linux kernel

  • Devicetree, a hardware description language that is used to describe the hardware that the nRF Connect SDK is to run on

Since the build and configuration system used by the nRF Connect SDK comes from Zephyr, references to the original Zephyr documentation are provided here in order to avoid duplication. See the following links for information about the different building blocks mentioned above:

nRF Connect SDK additions

The nRF Connect SDK adds some functionality on top of the Zephyr build and configuration system. Those additions are automatically included into the Zephyr build system using a Zephyr Build Configuration CMake package.

You must be aware of these additions when you start writing your own applications based on this SDK.

  • The Kconfig option CONFIG_WARN_EXPERIMENTAL is enabled by default. It gives warnings at CMake configure time if any experimental feature is enabled.

    For example, when building a sample that enables CONFIG_BT_EXT_ADV, the following warning is printed at CMake configure time:

    warning: Experimental symbol BT_EXT_ADV is enabled.
    

    For more information, see Software maturity levels.

  • The nRF Connect SDK provides an additional boilerplate.cmake that is automatically included when using the Zephyr CMake package in the CMakeLists.txt file of your application:

    find_package(Zephyr HINTS $ENV{ZEPHYR_BASE})
    
  • The nRF Connect SDK allows you to create custom build type files instead of using a single prj.conf file.

  • The nRF Connect SDK build system extends Zephyr’s with support for multi-image builds. You can find out more about these in the Multi-image builds section.

  • The nRF Connect SDK adds a partition manager, responsible for partitioning the available flash memory.

  • The nRF Connect SDK build system generates zip files containing binary images and a manifest for use with nRF Cloud FOTA.

Building FOTA images

The nRF Connect SDK build system places output images in the <build folder>/zephyr folder.

If CONFIG_BOOTLOADER_MCUBOOT is set, the build system creates the dfu_application.zip file containing files app_update.bin and manifest.json. If you have also set the options CONFIG_IMG_MANAGER and CONFIG_MCUBOOT_IMG_MANAGER, the application will be able to process FOTA updates. If you have set the options CONFIG_SECURE_BOOT and CONFIG_BUILD_S1_VARIANT, a similar file dfu_mcuboot.zip will also be created. You can use this file to perform FOTA updates of MCUboot itself.

The app_update.bin file is a signed version of your application. The signature matches to what MCUboot expects and allows this file to be used as an update. The build system creates a manifest.json file using information in the zephyr.meta output file. This includes the Zephyr and nRF Connect SDK git hashes for the commits used to build the application. If your working tree contains uncommitted changes, the build system adds the suffix -dirty to the relevant version field.

Output build files

The building process produces each time an image file.

The image file can refer to an executable, a program, or an ELF file. As one of the last build steps, the linker processes all object files by locating code, data, and symbols in sections in the final ELF file. The linker replaces all symbol references to code and data with addresses. A symbol table is created which maps addresses to symbol names, which is used by debuggers. When an ELF file is converted into another format, such as HEX or binary, the symbol table is lost.

Depending on the application and the SoC, you can use one or several images.

The following table lists build files that can be generated as output when building firmware for supported build targets. The table includes files for single-core and multi-core programming scenarios for both Visual Studio Code and command line building methods. Which files you are going to use depends on the application configuration and not directly on the type of SoC you are using. The following scenarios are possible:

  • Single-image - Only one firmware image file is generated for a single core.

  • Multi-image - Two or more firmware image files are generated for a single core. You can read more about this scenario in Multi-image builds.

  • Multi-core - Two or more firmware image files are generated for two or more cores.

File

Description

Programming scenario

zephyr.hex

Default full image. In a multi-image build, several zephyr.hex are generated, one for each image.

  • Programming non-secure domain (_ns) or single-image build targets.

  • Testing DFU procedure with nrfjprog (programming directly to device).

merged.hex

The result of merging all zephyr.hex files for all images for a core in a multi-image build. Used by Nordic Semiconductor’s build targets in single-core multi-image builds. In multi-core builds, several merged_<domain_name>.hex fields are generated, where <domain-name> indicates the core.

  • Programming multi-core application.

  • Testing DFU procedure with nrfjprog (programming directly to device).

merged_domain.hex

The result of merging all merged.hex files for all cores or domains (merged.hex for the application core and merged.hex or zephyr.hex for the network core).

  • Programming secure domain (_s) and multi-core build targets.

  • Testing DFU procedure with nrfjprog (programming directly to device).

tfm_s.hex

Secure firmware image created by the TF-M build system in the background of the Zephyr build. It is used together with the zephyr.hex, which is intended for the non-secure domain. Located in build/tfm/bin.

Programming secure domain (_s) and multi-core build targets.

app_update.bin

Application core update file used to create dfu_application.zip for multi-core DFU. Can also be used standalone for a single-image DFU. Contains the signed version of the application. This file is transferred in the real-life update procedure, as opposed to HEX files that are transferred with nrfjprog when emulating an update procedure. Compatible with MCUboot.

DFU process for single-image build targets and the application core of the multi-core build targets.

app_signed.hex

HEX file variant of the app_update.bin. Can also be used standalone for a single-image DFU. Contains the signed version of the application. Compatible with MCUboot.

Programming single-image build targets and the application core of the multi-core build targets.

net_core_app_update.bin

Network core update file used to create dfu_application.zip. This file is transferred in the real-life update procedure, as opposed to HEX files that are transferred with nrfjprog when emulating an update procedure.

DFU process for the network core of multi-core build targets.

dfu_application.zip

Zip file containing both the MCUboot-compatible update image for one or more cores and a manifest describing its contents.

DFU process for both single-core and multi-core applications.

matter.ota

Matter-specific OTA image that contains a Matter-compliant header and a DFU multi-image package that bundles user-selected firmware images.

DFU over Matter for both single-core and multi-core applications.

<file_name>.zigbee

Zigbee-specific OTA image that contains the Zigbee application with the Zigbee OTA header used for providing information about the image to the OTA server. The <file_name> includes manufacturer’s code, image type, file version, and comment (customizable by user, sample name by default). For example: 127F-0141-01020003-light_switch.zigbee.

DFU over Zigbee for both single-core and multi-core applications in the nRF Connect SDK v2.0.0 and later.

Other output build files

The following table lists secondary build files that can be generated when building firmware, but are only used to create the final output build files listed in the table above.

File

File format

zephyr.elf

An ELF file for the image that is being built. Can be used for debugging purposes.

zephyr.meta

A file with the Zephyr and nRF Connect SDK git hashes for the commits used to build the application.

tfm_s.elf

An ELF file for the TF-M image that is being built. Can be used for debugging purposes.

manifest.json

Output artifact that uses information from the zephyr.meta output file.

dfu_multi_image.bin

Multi-image package that contains a CBOR manifest and a set of user-selected update images, such as firmware images for different cores. Used for DFU purposes by Matter and Zigbee protocols.

MCUboot output build files

Read the Using MCUboot in nRF Connect SDK page in the MCUboot documentation for the list of all the FOTA upgrade files that are automatically generated when using MCUboot.