drivers/pinmux/pinmux_quark_mcu.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /* pinmux_quark_mcu.h - pinmux operation for generic Quark MCU boards */

 /*
  * Copyright (c) 2016 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #define PINMUX_PULLUP_OFFSET   0x00
 #define PINMUX_SLEW_OFFSET     0x10
 #define PINMUX_INPUT_OFFSET    0x20
 #define PINMUX_SELECT_OFFSET   0x30

 #define PINMUX_SELECT_REGISTER(base, reg_offset) \
 	(base + PINMUX_SELECT_OFFSET + (reg_offset << 2))

 /*
  * A little decyphering of what is going on here:
  *
  * Each pinmux register rperesents a bank of 16 pins, 2 bits per pin for a total
  * of four possible settings per pin.
  *
  * The first argument to the macro is name of the u32_t's that is being used
  * to contain the bit patterns for all the configuration registers.  The pin
  * number divided by 16 selects the correct register bank based on the pin
  * number.
  *
  * The pin number % 16 * 2 selects the position within the register bank for the
  * bits controlling the pin.
  *
  * All but the lower two bits of the config values are masked off to ensure
  * that we don't inadvertently affect other pins in the register bank.
  */
 #define PIN_CONFIG(A, _pin, _func) \
 	(A[((_pin) / 16)] |= ((0x3 & (_func)) << (((_pin) % 16) * 2)))

 static inline int _quark_mcu_set_mux(u32_t base, u32_t pin, u8_t func)
 {
 	/*
 	 * the registers are 32-bit wide, but each pin requires 1 bit
 	 * to set the input enable bit.
 	 */
 	u32_t register_offset = (pin / 32) * 4;
 	/*
 	 * Now figure out what is the full address for the register
 	 * we are looking for.  Add the base register to the register_mask
 	 */
 	volatile u32_t *mux_register = (u32_t *)(base + register_offset);

 	/*
 	 * Finally grab the pin offset within the register
 	 */
 	u32_t pin_offset = pin % 32;

 	/*
 	 * MAGIC NUMBER: 0x1 is used as the pullup is a single bit in a
 	 * 32-bit register.
 	 */
 	(*(mux_register)) = ((*(mux_register)) & ~(0x1 << pin_offset)) |
 		((func & 0x01) << pin_offset);

 	return 0;
 }
	/* pinmux_quark_mcu.h - pinmux operation for generic Quark MCU boards */

	/*
	* Copyright (c) 2016 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#define PINMUX_PULLUP_OFFSET 0x00
	#define PINMUX_SLEW_OFFSET 0x10
	#define PINMUX_INPUT_OFFSET 0x20
	#define PINMUX_SELECT_OFFSET 0x30

	#define PINMUX_SELECT_REGISTER(base, reg_offset) \
	(base + PINMUX_SELECT_OFFSET + (reg_offset << 2))

	/*
	* A little decyphering of what is going on here:
	*
	* Each pinmux register rperesents a bank of 16 pins, 2 bits per pin for a total
	* of four possible settings per pin.
	*
	* The first argument to the macro is name of the u32_t's that is being used
	* to contain the bit patterns for all the configuration registers. The pin
	* number divided by 16 selects the correct register bank based on the pin
	* number.
	*
	* The pin number % 16 * 2 selects the position within the register bank for the
	* bits controlling the pin.
	*
	* All but the lower two bits of the config values are masked off to ensure
	* that we don't inadvertently affect other pins in the register bank.
	*/
	#define PIN_CONFIG(A, _pin, _func) \
	(A[((_pin) / 16)] \|= ((0x3 & (_func)) << (((_pin) % 16) * 2)))

	static inline int _quark_mcu_set_mux(u32_t base, u32_t pin, u8_t func)
	{
	/*
	* the registers are 32-bit wide, but each pin requires 1 bit
	* to set the input enable bit.
	*/
	u32_t register_offset = (pin / 32) * 4;
	/*
	* Now figure out what is the full address for the register
	* we are looking for. Add the base register to the register_mask
	*/
	volatile u32_t mux_register = (u32_t )(base + register_offset);

	/*
	* Finally grab the pin offset within the register
	*/
	u32_t pin_offset = pin % 32;

	/*
	* MAGIC NUMBER: 0x1 is used as the pullup is a single bit in a
	* 32-bit register.
	*/
	((mux_register)) = (((mux_register)) & ~(0x1 << pin_offset)) \|
	((func & 0x01) << pin_offset);

	return 0;
	}