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<noinclude>{{ApplicableFor | <noinclude>{{ApplicableFor | ||
|MPUs list=STM32MP13x, STM32MP15x | |MPUs list=STM32MP13x, STM32MP15x, STM32MP25x | ||
|MPUs checklist=STM32MP13x, STM32MP15x | |MPUs checklist=STM32MP13x, STM32MP15x, STM32MP25x | ||
}}</noinclude> | }}</noinclude> | ||
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|- | |- | ||
<section end=stm32mp13_boottime /><section end=stm32mp15_boottime /> | <section end=stm32mp13_boottime /><section end=stm32mp15_boottime /> | ||
|} | |||
====On {{MicroprocessorDevice | device=2}}==== | |||
{{#lst:STM32MP2_internal_peripherals_assignment_table_template|stm32mp2_a35_boottime}} | |||
<section begin=stm32mp25_a35_boottime /> | |||
| rowspan="1" | Core | |||
| rowspan="1" | [[SYSCFG internal peripheral|SYSCFG]] | |||
| SYSCFG | |||
| <span title="system peripheral" style="font-size:21px">✓</span> | |||
| <span title="assigned peripheral" style="font-size:21px">☑</span> | |||
| <span title="assigned peripheral" style="font-size:21px">☑</span> | |||
| | |||
|- | |||
<section end=stm32mp25_a35_boottime /> | |||
|} | |} | ||
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|- | |- | ||
<section end=stm32mp15_runtime /> | <section end=stm32mp15_runtime /> | ||
|} | |||
====On {{MicroprocessorDevice | device=25}}==== | |||
{{#lst:STM32MP2_internal_peripherals_assignment_table_template|stm32mp25_runtime}} | |||
<section begin=stm32mp25_a35_runtime /> | |||
| rowspan="1" | Core | |||
| rowspan="1" | [[SYSCFG internal peripheral|SYSCFG]] | |||
| SYSCFG | |||
| <span title="assigned peripheral" style="font-size:21px">☑</span> | |||
| <span title="assigned peripheral" style="font-size:21px">☑</span> | |||
| <span title="assigned peripheral" style="font-size:21px">☑</span> | |||
| <span title="assigned peripheral" style="font-size:21px">☑</span> | |||
| | |||
| | |||
|- | |||
<section end=stm32mp25_a35_runtime /> | |||
|} | |} | ||
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Below are listed the software frameworks and drivers managing the SYSCFG peripheral for the embedded software components listed in the above tables. | Below are listed the software frameworks and drivers managing the SYSCFG peripheral for the embedded software components listed in the above tables. | ||
[[STM32 MPU Linux kernel overview|Linux]] and [[ | [[STM32 MPU Linux kernel overview|Linux]] and [[STM32CubeMP15 Package architecture|STM32CubeMP15 Package]] or [[STM32CubeMP2 Package architecture|STM32MP2 Package]] can directly change the SYSCFG at runtime from various drivers. | ||
* '''Linux<sup>®</sup>''': for example, [[I2C overview|Linux I2C driver]] uses the syscon framework<ref>{{CodeSource | Linux kernel | Documentation/devicetree/bindings/mfd/syscon.yaml}}</ref> to enable the I2C fast mode plus (FM+) in the SYSCFG for the instances allocated to itself | * '''Linux<sup>®</sup>''': for example, [[I2C overview|Linux I2C driver]] uses the syscon framework<ref>{{CodeSource | Linux kernel | Documentation/devicetree/bindings/mfd/syscon.yaml}}</ref> to enable the I2C fast mode plus (FM+) in the SYSCFG for the instances allocated to itself | ||
* '''STM32Cube''': for example, [[ | * '''STM32Cube''': for example, [[STM32CubeMP15 Package architecture|I2C HAL driver]] uses its [[STM32CubeMP15 Package architecture|SYSCFG HAL driver]] to do the same on the instances allocated to itself | ||
==How to assign and configure the peripheral== | ==How to assign and configure the peripheral== | ||
Latest revision as of 15:18, 4 January 2024
1. Article purpose
The purpose of this article is to:
- briefly introduce the SYSCFG peripheral and its main features,
- indicate the peripheral instances assignment at boot time and their assignment at runtime (including whether instances can be allocated to secure contexts),
- list the software frameworks and drivers managing the peripheral,
- explain how to configure the peripheral.
2. Peripheral overview
The SYSCFG peripheral is used to configure various system aspects like IOs compensation, Ethernet clocking path, …
Refer to the STM32 MPU reference manuals for the complete list of features, and to the software frameworks and drivers, introduced below, to see which features are implemented.
3. Peripheral usage
This chapter is applicable in the scope of the OpenSTLinux BSP running on the Arm® Cortex®-A processor(s), and the STM32CubeMPU Package running on the Arm® Cortex®-M processor.
3.1. Boot time assignment
3.1.1. On STM32MP1 Series
The SYSCFG peripheral is configured by TF-A and U-Boot at boot time.
Expand
Click on the right to expand the legend...
| Domain | Peripheral | Boot time allocation | Comment | |||
|---|---|---|---|---|---|---|
| Instance | Cortex-A7 secure (ROM code) |
Cortex-A7 secure (TF-A BL2) |
Cortex-A7 non-secure (U-Boot) | |||
| Core | SYSCFG | SYSCFG | ✓ | ☑ | ☑ | |
3.1.2. On STM32MP2 unknown microprocessor device
Click on 
to expand or collapse the legend...
| Domain | Peripheral | Boot time allocation | Comment
| |||
|---|---|---|---|---|---|---|
| Instance | Cortex-A35 secure (ROM code) |
Cortex-A35 secure (TF-A BL2) |
Cortex-A35 non-secure (U-Boot) | |||
| Core | SYSCFG | SYSCFG | ✓ | ☑ | ☑ | |
3.2. Runtime assignment
3.2.1. On STM32MP13x lines 
Expand
Click on the right to expand the legend...
| Domain | Peripheral | Runtime allocation | Comment | ||
|---|---|---|---|---|---|
| Instance | Cortex-A7 secure (OP-TEE) |
Cortex-A7 non-secure (Linux) | |||
| Core | SYSCFG | SYSCFG | ☑ | ☑ | |
3.2.2. On STM32MP15x lines
Expand
Click on the right to expand the legend...
| Domain | Peripheral | Runtime allocation | Comment | |||
|---|---|---|---|---|---|---|
| Instance | Cortex-A7 secure (OP-TEE) |
Cortex-A7 non-secure (Linux) |
Cortex-M4 (STM32Cube) | |||
| Core | SYSCFG | SYSCFG | ☑ | ☑ | ☑ | |
3.2.3. On STM32MP25 unknown microprocessor device
Click on to expand or collapse the legend...
| Domain | Peripheral | Runtime allocation | Comment
| |||||
|---|---|---|---|---|---|---|---|---|
| Instance | Cortex-A35 secure (OP-TEE / TF-A BL31) |
Cortex-A35 non-secure (Linux) |
Cortex-M33 secure (TF-M) |
Cortex-M33 non-secure (STM32Cube) |
Cortex-M0+ (STM32Cube) | |||
| Core | SYSCFG | SYSCFG | ☑ | ☑ | ☑ | ☑ | ||
4. Software frameworks and drivers
Below are listed the software frameworks and drivers managing the SYSCFG peripheral for the embedded software components listed in the above tables.
Linux and STM32CubeMP15 Package or STM32MP2 Package can directly change the SYSCFG at runtime from various drivers.
- Linux®: for example, Linux I2C driver uses the syscon framework[1] to enable the I2C fast mode plus (FM+) in the SYSCFG for the instances allocated to itself
- STM32Cube: for example, I2C HAL driver uses its SYSCFG HAL driver to do the same on the instances allocated to itself
5. How to assign and configure the peripheral
The peripheral assignment can be done via the STM32CubeMX graphical tool (and manually completed if needed).
This tool also helps to configure the peripheral:
- partial device trees (pin control and clock tree) generation for the OpenSTLinux software components,
- HAL initialization code generation for the STM32CubeMPU Package.
The configuration is applied by the firmware running in the context in which the peripheral is assigned.
6. References