drivers/pinctrl/pinctrl_numicro.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2022 SEAL AG
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #define DT_DRV_COMPAT nuvoton_numicro_pinctrl

 #include <stdint.h>
 #include <zephyr/devicetree.h>
 #include <zephyr/drivers/pinctrl.h>
 #include <zephyr/dt-bindings/pinctrl/numicro-pinctrl.h>
 #include <NuMicro.h>

 #define MODE_PIN_SHIFT(pin)	((pin) * 2)
 #define MODE_MASK(pin)		(3 << MODE_PIN_SHIFT(pin))
 #define DINOFF_PIN_SHIFT(pin)	((pin) + 16)
 #define DINOFF_MASK(pin)	(1 << DINOFF_PIN_SHIFT(pin))
 #define PUSEL_PIN_SHIFT(pin)	((pin) * 2)
 #define PUSEL_MASK(pin)		(3 << PUSEL_PIN_SHIFT(pin))
 #define SLEWCTL_PIN_SHIFT(pin)	((pin) * 2)
 #define SLEWCTL_MASK(pin)	(3 << SLEWCTL_PIN_SHIFT(pin))

 #define PORT_PIN_MASK		0xFFFF

 #define REG_MFP(port, pin) (*(volatile uint32_t *)((uint32_t)DT_INST_REG_ADDR_BY_NAME(0, mfp) + \
 						   ((port) * 8) + \
 						   ((pin) > 7 ? 4 : 0)))

 #define REG_MFOS(port) (*(volatile uint32_t *)((uint32_t)DT_INST_REG_ADDR_BY_NAME(0, mfos) + \
 					       ((port) * 4)))

 #define MFP_CTL(pin, mfp) ((mfp) << (((pin) % 8) * 4))

 /** Utility macro that expands to the GPIO port address if it exists */
 #define NUMICRO_PORT_ADDR_OR_NONE(nodelabel)			\
 	IF_ENABLED(DT_NODE_EXISTS(DT_NODELABEL(nodelabel)),	\
 		   (DT_REG_ADDR(DT_NODELABEL(nodelabel)),))

 /** Port addresses */
 static const uint32_t gpio_port_addrs[] = {
 	NUMICRO_PORT_ADDR_OR_NONE(gpioa)
 	NUMICRO_PORT_ADDR_OR_NONE(gpiob)
 	NUMICRO_PORT_ADDR_OR_NONE(gpioc)
 	NUMICRO_PORT_ADDR_OR_NONE(gpiod)
 	NUMICRO_PORT_ADDR_OR_NONE(gpioe)
 	NUMICRO_PORT_ADDR_OR_NONE(gpiof)
 	NUMICRO_PORT_ADDR_OR_NONE(gpiog)
 	NUMICRO_PORT_ADDR_OR_NONE(gpioh)
 };

 static int gpio_configure(const pinctrl_soc_pin_t *pin)
 {
 	uint8_t port_idx, pin_idx;
 	GPIO_T *port;
 	uint32_t bias = GPIO_PUSEL_DISABLE;

 	port_idx = NUMICRO_PORT(pin->pinmux);
 	if (port_idx >= ARRAY_SIZE(gpio_port_addrs)) {
 		return -EINVAL;
 	}

 	pin_idx = NUMICRO_PIN(pin->pinmux);

 	port = (GPIO_T *)gpio_port_addrs[port_idx];

 	if (pin->pull_up != 0) {
 		bias = GPIO_PUSEL_PULL_UP;
 	} else if (pin->pull_down != 0) {
 		bias = GPIO_PUSEL_PULL_DOWN;
 	}

 	port->MODE = (port->MODE & ~MODE_MASK(pin_idx)) |
 		     ((pin->open_drain ? 2 : 0) << MODE_PIN_SHIFT(pin_idx));
 	port->DBEN = (port->DBEN & ~BIT(pin_idx)) |
 		     ((pin->input_debounce ? 1 : 0) << pin_idx);
 	port->SMTEN = (port->SMTEN & ~BIT(pin_idx)) |
 		      ((pin->schmitt_trigger ? 1 : 0) << pin_idx);
 	port->DINOFF = (port->SMTEN & ~DINOFF_MASK(pin_idx)) |
 		       ((pin->input_disable ? 1 : 0) << DINOFF_PIN_SHIFT(pin_idx));
 	port->PUSEL = (port->PUSEL & ~PUSEL_MASK(pin_idx)) |
 		      (bias << PUSEL_PIN_SHIFT(pin_idx));
 	port->SLEWCTL = (port->SLEWCTL & ~SLEWCTL_MASK(pin_idx)) |
 			(pin->slew_rate << SLEWCTL_PIN_SHIFT(pin_idx));

 	return 0;
 }

 int pinctrl_configure_pins(const pinctrl_soc_pin_t *pins, uint8_t pin_cnt,
 			   uintptr_t reg)
 {
 	int ret = 0;

 	for (uint8_t i = 0U; i < pin_cnt; i++) {
 		uint32_t port = NUMICRO_PORT(pins[i].pinmux);
 		uint32_t pin = NUMICRO_PIN(pins[i].pinmux);
 		uint32_t mfp = NUMICRO_MFP(pins[i].pinmux);

 		REG_MFP(port, pin) = (REG_MFP(port, pin) & ~MFP_CTL(pin, 0xf)) |
 				     MFP_CTL(pin, mfp);

 		if (pins[i].open_drain != 0) {
 			REG_MFOS(port) |= BIT(pin);
 		} else {
 			REG_MFOS(port) &= ~BIT(pin);
 		}

 		ret = gpio_configure(&pins[i]);
 		if (ret != 0) {
 			return ret;
 		}
 	}

 	return 0;
 }
	/*
	* Copyright (c) 2022 SEAL AG
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#define DT_DRV_COMPAT nuvoton_numicro_pinctrl

	#include <stdint.h>
	#include <zephyr/devicetree.h>
	#include <zephyr/drivers/pinctrl.h>
	#include <zephyr/dt-bindings/pinctrl/numicro-pinctrl.h>
	#include <NuMicro.h>

	#define MODE_PIN_SHIFT(pin) ((pin) * 2)
	#define MODE_MASK(pin) (3 << MODE_PIN_SHIFT(pin))
	#define DINOFF_PIN_SHIFT(pin) ((pin) + 16)
	#define DINOFF_MASK(pin) (1 << DINOFF_PIN_SHIFT(pin))
	#define PUSEL_PIN_SHIFT(pin) ((pin) * 2)
	#define PUSEL_MASK(pin) (3 << PUSEL_PIN_SHIFT(pin))
	#define SLEWCTL_PIN_SHIFT(pin) ((pin) * 2)
	#define SLEWCTL_MASK(pin) (3 << SLEWCTL_PIN_SHIFT(pin))

	#define PORT_PIN_MASK 0xFFFF

	#define REG_MFP(port, pin) ((volatile uint32_t )((uint32_t)DT_INST_REG_ADDR_BY_NAME(0, mfp) + \
	((port) * 8) + \
	((pin) > 7 ? 4 : 0)))

	#define REG_MFOS(port) ((volatile uint32_t )((uint32_t)DT_INST_REG_ADDR_BY_NAME(0, mfos) + \
	((port) * 4)))

	#define MFP_CTL(pin, mfp) ((mfp) << (((pin) % 8) * 4))

	/** Utility macro that expands to the GPIO port address if it exists */
	#define NUMICRO_PORT_ADDR_OR_NONE(nodelabel) \
	IF_ENABLED(DT_NODE_EXISTS(DT_NODELABEL(nodelabel)), \
	(DT_REG_ADDR(DT_NODELABEL(nodelabel)),))

	/** Port addresses */
	static const uint32_t gpio_port_addrs[] = {
	NUMICRO_PORT_ADDR_OR_NONE(gpioa)
	NUMICRO_PORT_ADDR_OR_NONE(gpiob)
	NUMICRO_PORT_ADDR_OR_NONE(gpioc)
	NUMICRO_PORT_ADDR_OR_NONE(gpiod)
	NUMICRO_PORT_ADDR_OR_NONE(gpioe)
	NUMICRO_PORT_ADDR_OR_NONE(gpiof)
	NUMICRO_PORT_ADDR_OR_NONE(gpiog)
	NUMICRO_PORT_ADDR_OR_NONE(gpioh)
	};

	static int gpio_configure(const pinctrl_soc_pin_t *pin)
	{
	uint8_t port_idx, pin_idx;
	GPIO_T *port;
	uint32_t bias = GPIO_PUSEL_DISABLE;

	port_idx = NUMICRO_PORT(pin->pinmux);
	if (port_idx >= ARRAY_SIZE(gpio_port_addrs)) {
	return -EINVAL;
	}

	pin_idx = NUMICRO_PIN(pin->pinmux);

	port = (GPIO_T *)gpio_port_addrs[port_idx];

	if (pin->pull_up != 0) {
	bias = GPIO_PUSEL_PULL_UP;
	} else if (pin->pull_down != 0) {
	bias = GPIO_PUSEL_PULL_DOWN;
	}

	port->MODE = (port->MODE & ~MODE_MASK(pin_idx)) \|
	((pin->open_drain ? 2 : 0) << MODE_PIN_SHIFT(pin_idx));
	port->DBEN = (port->DBEN & ~BIT(pin_idx)) \|
	((pin->input_debounce ? 1 : 0) << pin_idx);
	port->SMTEN = (port->SMTEN & ~BIT(pin_idx)) \|
	((pin->schmitt_trigger ? 1 : 0) << pin_idx);
	port->DINOFF = (port->SMTEN & ~DINOFF_MASK(pin_idx)) \|
	((pin->input_disable ? 1 : 0) << DINOFF_PIN_SHIFT(pin_idx));
	port->PUSEL = (port->PUSEL & ~PUSEL_MASK(pin_idx)) \|
	(bias << PUSEL_PIN_SHIFT(pin_idx));
	port->SLEWCTL = (port->SLEWCTL & ~SLEWCTL_MASK(pin_idx)) \|
	(pin->slew_rate << SLEWCTL_PIN_SHIFT(pin_idx));

	return 0;
	}

	int pinctrl_configure_pins(const pinctrl_soc_pin_t *pins, uint8_t pin_cnt,
	uintptr_t reg)
	{
	int ret = 0;

	for (uint8_t i = 0U; i < pin_cnt; i++) {
	uint32_t port = NUMICRO_PORT(pins[i].pinmux);
	uint32_t pin = NUMICRO_PIN(pins[i].pinmux);
	uint32_t mfp = NUMICRO_MFP(pins[i].pinmux);

	REG_MFP(port, pin) = (REG_MFP(port, pin) & ~MFP_CTL(pin, 0xf)) \|
	MFP_CTL(pin, mfp);

	if (pins[i].open_drain != 0) {
	REG_MFOS(port) \|= BIT(pin);
	} else {
	REG_MFOS(port) &= ~BIT(pin);
	}

	ret = gpio_configure(&pins[i]);
	if (ret != 0) {
	return ret;
	}
	}

	return 0;
	}