STM32L5

TF-M is supported on STM32L5 family

https://www.st.com/en/microcontrollers-microprocessors/stm32l5-series.html

https://www.st.com/resource/en/user_manual/dm00678763-getting-started-with-stm32cubel5-tfm-application-stmicroelectronics.pdf

Directory content

• stm/common/stm32l5xx/stm32l5xx_hal:

  Content from https://github.com/STMicroelectronics/stm32l5xx_hal_driver.git

• stm/common/stm32l5xx/Device:

  Content from https://github.com/STMicroelectronics/cmsis_device_l5.git

• stm/common/stm32l5xx/bl2:

  stm32l5xx bl2 code specific from https://github.com/STMicroelectronics/STM32CubeL5.git (Projects/STM32L562E-DK/Applications/TFM)

• stm/common/stm32l5xx/secure:

  stm32l5xx Secure porting adaptation from https://github.com/STMicroelectronics/STM32CubeL5.git (Projects/STM32L562E-DK/Applications/TFM)

• stm/common/stm32l5xx/boards:

  Adaptation and tools specific to stm32 board using stm32l5xx soc from https://github.com/STMicroelectronics/STM32CubeL5.git (Projects/STM32L562E-DK/Applications/TFM)

• stm/common/stm32l5xx/CMSIS_Driver:

  Flash and uart driver for stm32l5xx platform

• stm/common/stm32l5xx/Native_Driver:

  Random generator and tickless implementation

Specific Software Requirements

STM32_Programmer_CLI is required.(see https://www.st.com/en/development-tools/stm32cubeprog.html)

STM32L562E_DK

Discovery kit with STM32L562QE MCU : https://www.st.com/en/evaluation-tools/stm32l562e-dk.html

Configuration and Build

GNUARM/ARMCLANG/IARARM compilation is available for this target. and build the selected configuration as follow.

The build configuration for TF-M is provided to the build system using command line arguments. Required arguments are noted below.

The following instructions build multi-core TF-M with regression test suites in Isolation Level 1.

In common STM (platform\ext\target\stm\common\build_stm) There are scripts that help users to build the TF-M project on all STM platforms

cd <TF-M base folder>
cd <trusted-firmware-m folder>

git clone https://git.trustedfirmware.org/TF-M/tf-m-tests.git
git checkout <recommended tf-m-tests commit> (..\trusted-firmware-m\lib\ext\tf-m-tests\version.txt)

mkdir build_s && cd build_s

cmake -S /../tf-m-tests/tests_reg/spe -B . -GNinja -DTFM_PLATFORM=stm/stm32l562e_dk
     -DTFM_TOOLCHAIN_FILE= /../toolchain_ARMCLANG.cmake
     -DCONFIG_TFM_SOURCE_PATH= /../trusted-firmware-m
     -DTFM_PSA_API=ON -DTFM_ISOLATION_LEVEL=1
     -DTEST_S=ON -DTEST_NS=ON

ninja -C . install -j 8

cd <trusted-firmware-m folder>
mkdir build_ns && cd build_ns
cmake -S /../trusted-firmware-m  /../tf-m-tests/tests_reg -B . -GNinja
     -DCONFIG_SPE_PATH= /../build_s/api_ns -DTFM_TOOLCHAIN_FILE= /../build_s/api_ns/cmake/toolchain_ns_ARMCLANG.cmake

ninja -C . -j 8

The following instructions build multi-core TF-M with PSA API test suite for the attestation service in Isolation Level 1 on Linux.

cd <TF-M base folder>
cd <trusted-firmware-m folder>

git clone https://git.trustedfirmware.org/TF-M/tf-m-tests.git
git checkout <recommended tf-m-tests commit> (..\trusted-firmware-m\lib\ext\tf-m-tests\version.txt)

mkdir build_s && cd build_s

cmake -S /../tf-m-tests/tests_psa_arch/spe -B . -GNinja -DTFM_PLATFORM=stm/stm32l562e_dk
     -DTFM_TOOLCHAIN_FILE= /../toolchain_ARMCLANG.cmake
     -DCONFIG_TFM_SOURCE_PATH= /../trusted-firmware-m
     -DTFM_PSA_API=ON -DTFM_ISOLATION_LEVEL=1
     -DTEST_PSA_API=INITIAL_ATTESTATION

ninja -C . install -j 8

cd <trusted-firmware-m folder>
mkdir build_ns && cd build_ns
cmake -S /../trusted-firmware-m  /../tf-m-tests/tests_psa_arch -B . -GNinja
     -DCONFIG_SPE_PATH= /../build_s/api_ns -DTFM_TOOLCHAIN_FILE= /../build_s/api_ns/cmake/toolchain_ns_ARMCLANG.cmake

ninja -C . -j 8

---

Copyright (c) 2021, Arm Limited. All rights reserved. Copyright (c) 2019, STMicroelectronics. All rights reserved. SPDX-License-Identifier: BSD-3-Clause