HSEM internal peripheral

Revision as of 12:39, 1 February 2022 by Registered User

Applicable for STM32MP15x lines

1 Article purpose[edit]

The purpose of this article is to briefly introduce the hardware semaphore peripheral (HSEM) and its main features.

2 Peripheral overview[edit]

The peripheral hardware spinlock is used to provide synchronization and mutual exclusion between heterogeneous processors.

2.1 Features[edit]

Refer to the STM32MP15 reference manuals for the complete list of features, and to the software components, introduced below, to see which features are implemented.

  • 32 hardware semaphores are available on the platform.
  • semaphores could be accessed by the Arm® Cortex®-A7 core and the Arm® Cortex®-M4

2.2 Security support[edit]

The hardware semaphores is a non-secure peripheral (under ETZPC control).

3 Peripheral usage and associated software[edit]

3.1 Boot time[edit]

The hardware semaphore is used at boot time for GPIO access protection between the Arm® Cortex®-A7 and Cortex®-M4 cores.

3.2 Runtime[edit]

3.2.1 Overview[edit]

The hardware spinlock can be used by:

Notice that the Arm Cortex-A7 secure could also use the spinlock, but there is no such using yet in OpenSTLinux distribution.

3.2.2 Software frameworks[edit]

Domain Peripheral Software components Comment
OP-TEE Linux STM32Cube
Domain Linux hardware spinlock framework HSEM HAL driver

3.2.3 Peripheral configuration[edit]

The configuration is applied by the firmware running in the context to which the peripheral is assigned. The configuration can be done alone via the STM32CubeMX tool for all internal peripherals, and then manually completed (particularly for external peripherals), according to the information given in the corresponding software framework article or, for Linux in the Hardware spinlock overview article.

The HSEM peripheral is shared between the Cortex-A and Cortex-M contexts, so a particular attention must be paid to have a complementary configuration on both contexts.

3.2.4 Peripheral assignment[edit]

It does not make sense to allocate HSEM to a single runtime execution context, that is why it is enabled by default for both cores in the STM32CubeMX.

Click on the right to expand the legend...

STM32MP15 internal peripherals

Check boxes illustrate the possible peripheral allocations supported by STM32 MPU Embedded Software:

  • means that the peripheral can be assigned () to the given runtime context.
  • means that the peripheral can be assigned to the given runtime context, but this configuration is not supported in STM32 MPU Embedded Software distribution.
  • is used for system peripherals that cannot be unchecked because they are statically connected in the device.

Refer to How to assign an internal peripheral to an execution context for more information on how to assign peripherals manually or via STM32CubeMX.
The present chapter describes STMicroelectronics recommendations or choice of implementation. Additional possiblities might be described in STM32MP15 reference manuals.

Domain Peripheral Runtime allocation Comment
Instance Cortex-A7

Coprocessor HSEM HSEM