TIM Linux driver

Applicable for

STM32MP13x lines, STM32MP15x lines, Unknown MPU

1. Article purpose[edit | edit source]

This article introduces the TIM Linux^® driver for the TIM internal peripheral^[1]:

Which TIM features are supported by the driver
How to configure, use and debug the driver
What is the driver structure, and where the source code can be found.

2. Short description[edit | edit source]

The TIM^[1] Linux driver (kernel space) is based on the PWM, IIO and counter frameworks. It provides several functionalities:

MFD driver:

handles registers, clock and DMA^[2] resources
detects the TIM counter resolution, e.g. 16 or 32 bits.

PWM driver:

detects the number of TIM channels.
handles PWM output channels.
handles PWM capture channels (input). Note that the PWM capture relies on DMA, which is handled by the MFD core.

IIO driver:

handles hardware trigger sources (synchronously with PWM) for other internal peripherals such as ADC^[3], DAC^[4], DFSDM^[5].

counter driver:

handles the quadrature encoder interface^[6].

3. Configuration[edit | edit source]

3.1. Kernel configuration[edit | edit source]

Activate the TIM^[1] Linux driver in the kernel configuration using the Linux Menuconfig tool: Menuconfig or how to configure kernel.

Enable the following configurations (and their dependencies):

CONFIG_MFD_STM32_TIMERS
CONFIG_PWM_STM32
CONFIG_IIO_STM32_TIMER_TRIGGER
CONFIG_STM32_TIMER_CNT

Device Drivers  --->
  -> Multifunction device drivers  --->
     <*> Support for STM32 Timers
  -> Pulse-width modulation (PWM) support  --->
     <*> STMicroelectronics STM32 PWM
  -> Industrial I/O support  --->
     -> Triggers - standalone  --->
        <*> STM32 timer trigger
  -> Counter support  --->
     <*> STM32 Timer encoder counter driver

3.2. Device tree[edit | edit source]

Refer to the TIM device tree configuration article when configuring the TIM Linux kernel driver.

4. How to use[edit | edit source]

How to use PWM with sysfs interface

How to set up a TIM or LPTIM trigger using the sysfs interface

How to use the quadrature encoder with the sysfs interface

5. How to trace and debug[edit | edit source]

The TIM^[1] Linux driver can access the timer registers through REGMAP.

It comes with debugfs^[7] entries, which allow dumping registers:

$ cd /sys/kernel/debug/regmap
$ ls
40004000.timer  44000000.timer

$ cd 44000000.timer
$ cat registers
000: 00000081
004: 00000000
008: 00000000
00c: 00000000
...

It also comes with tracepoints^[8]:

$ cd /sys/kernel/debug/tracing
$ cat available_events | grep regmap
...
regmap:regmap_reg_read
regmap:regmap_reg_write

6. Source code location[edit | edit source]

The TIM Linux driver source code is composed of:

stm32-timers.c MFD driver to handle common resources: registers, clock, dmas.
pwm-stm32.c PWM driver to handle PWM channel(s).
stm32-timer-trigger.c IIO driver to handle trigger source for other internal peripherals.
stm32-timer-cnt.c counter driver to handle the quadrature encoder interface.
include/linux/mfd/stm32-timers.h and include/linux/iio/timer/stm32-timer-trigger.h header files

7. References[edit | edit source]

↑ ^1.0 ^1.1 ^1.2 ^1.3 TIM internal peripheral
↑ DMA_internal_peripheral
↑ ADC internal peripheral
↑ DAC internal peripheral
↑ DFSDM internal peripheral
↑ Incremental encoder Incremental encoder overview
↑ Debugfs
↑ Ftrace

[TIM_internal_peripheral-1] 1.0 ^1.1 ^1.2 ^1.3 TIM internal peripheral

[DMA_internal_peripheral-2] DMA_internal_peripheral

[adc_internal-3] ADC internal peripheral

[dac_internal-4] DAC internal peripheral

[dfsdm_internal-5] DFSDM internal peripheral

[6] Incremental encoder Incremental encoder overview

[debugfs-7] Debugfs

[ftrace-8] Ftrace

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]