This adds the three general purpose timers on STM32L4 boards in a
central place so that STM32L4 boards can just include it.
Some other families may also have TIM15 and TIM16 and could use this,
but likely some generalization is needed to use this for other
families as well. This can be added later on.
The board uses the USB OTG HS peripheral together with the on-hip FS PHY. Using the `periph_usbdev_hs` module increases the EP data size for the CDC ECM bulk endpoint to 512 bytes, which does not work for the FS interface. Module `periph_usbdev_hs` is therefore not used.
The `fs` in the file name means that on-chip FS PHY is configured for USB OTG HS. The file is renamed to `cfg_usb_otg_hs_phy_fs.h`
- to clarify that USB OTG HS is just configured with PHY FS and not HS and FS,
- to allow a configuration of USB OTG FS and HS in one file called `cfg_usb_otg_hs_fs.h` or whatever, and
- to allow a configuration of USB OTG HS with ULPI PHY in a file called `cfg_usb_otg_hs_phy_ulpi.h`.
f
The inverted and non-inverted `LED<num>_ON` and `LED<num>_OFF` macros
are swapped. This didn't reveal in testing as the
`LED<num>_IS_INVERTED` macros where not properly evaluated, due to a
typo in the check. This fixes both.
Let boards only define the port and pin number of each LEDs. The common
definitions in `stm32_leds.h` will provide `LED<x>_ON`, `LED<x>_OFF`,
`LED<x>_TOGGLE`, `LED<x>_PIN`, `LED<x>_MASK` and `LED<x>_PORT`.
In addition to code de-duplication, this also makes it easier to use
LEDs in GPIO LL, which can be beneficial for super low overhead
debugging output - e.g. when a bug is timing sensitive and `DEBUG()`
would spent to much time for stdio to reproduce a bug.
The peripheral register addresses are fixed, properly aligned addresses. Storing
them as uintptr_t makes live easier when casting them to helper structs, as no
intermediate cast to uintptr_t is needed to silence -Wcast-align.
