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TF-M integration guide

The purpose of this document is to provide a guide on how to integrate TF-M with other hardware platforms and operating systems.

How to build TF-M

Follow the Build instructions.

How to export files for building non-secure applications

Explained in the Build instructions.

How to add a new platform

The hardware platforms currently supported are:

Soft Macro Model (SMM) Cortex-M33 SSE-200 subsystem for MPS2+ (AN521)
Cortex-M23 IoT Kit subsystem for MPS2+ (AN519)
Musca-A test chip board (Cortex-M33 SSE-200 subsystem)
Musca-B1 test chip board (Cortex-M33 SSE-200 subsystem)

The files related to the supported platforms are contained under the platform subfolder. The platform specific files are under platform/ext/target, which is organized by boards (e.g. platform/ext/target/mps2), while the folder platform/ext/common is used to store source and header files which are platform generic. More information about subsystems supported by the MPS2+ board can be found in: MPS2+ homepage More information about the Musca-A test chip board can be found in: Musca-A homepage More information about the Musca-B1 test chip board can be found in: Musca-B1 homepage

generic drivers and startup/scatter files

The addition of a new platform means the creation of a new subfolder inside target/<board_name> to provide an implementation of the drivers currently used by TF-M, in particular MPC, PPC, and USART drivers. In addition to the drivers, startup and scatter files need to be provided for the supported toolchains. There are also board specific drivers which are used by the board platform to interact with the external world, for example during tests, that have to be provided, e.g. to blink LEDs or count time in the MPS2 board.

Note: Currently SST and BL2 bootloader use different flash interface

target configuration files

Inside the base root folder of the selected target, each implementation has to provide its own copy of target_cfg.c/.h. This file has target specific configuration functions and settings that are called by the TF-M during the platform configuration step during TF-M boot. Examples of the configurations performed during this phase are the MPC configuration, the SAU configuration, or eventually PPC configuration if supported by the hardware platform. Similarly, the uart_stdout.c is used to provide functions needed to redirect the stdout on UART (this is currently used by TF-M to log messages).

platform retarget files

An important part that each new platform has to provide is the set of retarget files which are contained inside the retarget folder. These files define the peripheral base addresses for the platform, both for the secure and non-secure aliases (when available), and bind those addresses to the base addresses used by the devices available in the hardware platform.

How to integrate another OS

To work with TF-M, the OS needs to support the Armv8-M architecture and, in particular, it needs to be able to run in the non-secure world. More information about OS migration to the Armv8-M architecture can be found in the OS requirements. Depending upon the system configuration this may require configuring drivers to use appropriate address ranges.

interface with TF-M

The files needed for the interface with TF-M are exported at the <build_dir>/install/export/tfm path. The NS side is only allowed to call TF-M secure functions (veneers) from the NS Thread mode. For this reason, the API is a collection of functions in the <build_dir>/install/export/tfm/inc directory. For example, the interface for the Secure STorage (SST) service is described in the file psa_sst_api.h as a collection of functions that call service veneer functions. This API is a wrapper for the secure veneers, and returns the return value from the service to the caller. The secure storage service uses a numerical ID, to identify the clients that use the service. For details see ns client identification documentation.

interface with non-secure world regression tests

A non-secure application that wants to run the non-secure regression tests needs to call the tfm_non_secure_client_run_tests(). This function is exported into the header file test_framework_integ_test.h inside the <build_dir>/install folder structure in the test specific files, i.e. <build_dir>/install/export/tfm/test/inc. The non-secure regression tests are precompiled and delivered as a static library which is available in <build_dir>/install/export/tfm/test/lib, so that the non-secure application needs to link against the library to be able to invoke the tfm_non_secure_client_run_tests() function. The SST non-secure side regression tests rely on some OS functionality e.g. threads, mutexes etc. These functions comply with CMSIS RTOS2 standard and have been exported as thin wrappers defined in os_wrapper.h contained in <build_dir>/install/export/tfm/test/inc. OS needs to provide the implementation of these wrappers to be able to run the tests.

NS client Identification

See ns client identification documentation.

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