drivers/gpio/gpio_sifive.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2017 Jean-Paul Etienne <fractalclone@gmail.com>
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #define DT_DRV_COMPAT sifive_gpio0

 /**
  * @file GPIO driver for the SiFive Freedom Processor
  */

 #include <errno.h>
 #include <zephyr/kernel.h>
 #include <zephyr/device.h>
 #include <soc.h>
 #include <zephyr/drivers/gpio.h>
 #include <zephyr/sys/util.h>
 #include <zephyr/irq.h>

 #include <zephyr/drivers/gpio/gpio_utils.h>

 typedef void (*sifive_cfg_func_t)(void);

 /* sifive GPIO register-set structure */
 struct gpio_sifive_t {
 	unsigned int in_val;
 	unsigned int in_en;
 	unsigned int out_en;
 	unsigned int out_val;
 	unsigned int pue;
 	unsigned int ds;
 	unsigned int rise_ie;
 	unsigned int rise_ip;
 	unsigned int fall_ie;
 	unsigned int fall_ip;
 	unsigned int high_ie;
 	unsigned int high_ip;
 	unsigned int low_ie;
 	unsigned int low_ip;
 	unsigned int iof_en;
 	unsigned int iof_sel;
 	unsigned int invert;
 };

 struct gpio_sifive_config {
 	/* gpio_driver_config needs to be first */
 	struct gpio_driver_config common;
 	uintptr_t            gpio_base_addr;
 	/* multi-level encoded interrupt corresponding to pin 0 */
 	uint32_t                gpio_irq_base;
 	sifive_cfg_func_t    gpio_cfg_func;
 };

 struct gpio_sifive_data {
 	/* gpio_driver_data needs to be first */
 	struct gpio_driver_data common;
 	/* list of callbacks */
 	sys_slist_t cb;
 };

 /* Helper Macros for GPIO */
 #define DEV_GPIO_CFG(dev)						\
 	((const struct gpio_sifive_config * const)(dev)->config)
 #define DEV_GPIO(dev)							\
 	((volatile struct gpio_sifive_t *)(DEV_GPIO_CFG(dev))->gpio_base_addr)
 #define DEV_GPIO_DATA(dev)				\
 	((struct gpio_sifive_data *)(dev)->data)


 /* Given gpio_irq_base and the pin number, return the IRQ number for the pin */
 static inline unsigned int gpio_sifive_pin_irq(unsigned int base_irq, int pin)
 {
 	unsigned int level = irq_get_level(base_irq);
 	unsigned int pin_irq = 0;

 	if (level == 1) {
 		pin_irq = base_irq + pin;
 	} else if (level == 2) {
 		pin_irq = base_irq + (pin << 8);
 	}

 	return pin_irq;
 }

 /* Given the PLIC source number, return the number of the GPIO pin associated
  * with the interrupt
  */
 static inline int gpio_sifive_plic_to_pin(unsigned int base_irq, int plic_irq)
 {
 	unsigned int level = irq_get_level(base_irq);

 	if (level == 2) {
 		base_irq = irq_from_level_2(base_irq);
 	}

 	return (plic_irq - base_irq);
 }

 static void gpio_sifive_irq_handler(const struct device *dev)
 {
 	struct gpio_sifive_data *data = DEV_GPIO_DATA(dev);
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);
 	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

 	/* Calculate pin and mask from base level 2 line */
 	uint8_t pin = 1 + (riscv_plic_get_irq() - (uint8_t)(cfg->gpio_irq_base >> 8));

 	/* This peripheral tracks each condition separately: a
 	 * transition from low to high will mark the pending bit for
 	 * both rise and high, while low will probably be set from the
 	 * previous state.
 	 *
 	 * It is certainly possible, especially on double-edge, that
 	 * multiple conditions are present.  However, there is no way
 	 * to tell which one occurred first, and no provision to
 	 * indicate which one occurred in the callback.
 	 *
 	 * Clear all the conditions so we only invoke the callback
 	 * once.  Level conditions will remain set after clear.
 	 */
 	gpio->rise_ip = BIT(pin);
 	gpio->fall_ip = BIT(pin);
 	gpio->high_ip = BIT(pin);
 	gpio->low_ip = BIT(pin);

 	/* Call the corresponding callback registered for the pin */
 	gpio_fire_callbacks(&data->cb, dev, BIT(pin));
 }

 /**
  * @brief Configure pin
  *
  * @param dev Device structure
  * @param pin The pin number
  * @param flags Flags of pin or port
  *
  * @return 0 if successful, failed otherwise
  */
 static int gpio_sifive_config(const struct device *dev,
 			      gpio_pin_t pin,
 			      gpio_flags_t flags)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

 	if (pin >= SIFIVE_PINMUX_PINS) {
 		return -EINVAL;
 	}

 	/* We cannot support open-source open-drain configuration */
 	if ((flags & GPIO_SINGLE_ENDED) != 0) {
 		return -ENOTSUP;
 	}

 	/* We only support pull-ups, not pull-downs */
 	if ((flags & GPIO_PULL_DOWN) != 0) {
 		return -ENOTSUP;
 	}

 	/* Set pull-up if requested */
 	WRITE_BIT(gpio->pue, pin, flags & GPIO_PULL_UP);

 	/* Set the initial output value before enabling output to avoid
 	 * glitches
 	 */
 	if ((flags & GPIO_OUTPUT_INIT_HIGH) != 0) {
 		gpio->out_val |= BIT(pin);
 	}
 	if ((flags & GPIO_OUTPUT_INIT_LOW) != 0) {
 		gpio->out_val &= ~BIT(pin);
 	}

 	/* Enable input/output */
 	WRITE_BIT(gpio->out_en, pin, flags & GPIO_OUTPUT);
 	WRITE_BIT(gpio->in_en, pin, flags & GPIO_INPUT);

 	return 0;
 }

 static int gpio_sifive_port_get_raw(const struct device *dev,
 				    gpio_port_value_t *value)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

 	*value = gpio->in_val;

 	return 0;
 }

 static int gpio_sifive_port_set_masked_raw(const struct device *dev,
 					   gpio_port_pins_t mask,
 					   gpio_port_value_t value)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

 	gpio->out_val = (gpio->out_val & ~mask) | (value & mask);

 	return 0;
 }

 static int gpio_sifive_port_set_bits_raw(const struct device *dev,
 					 gpio_port_pins_t mask)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

 	gpio->out_val |= mask;

 	return 0;
 }

 static int gpio_sifive_port_clear_bits_raw(const struct device *dev,
 					   gpio_port_pins_t mask)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

 	gpio->out_val &= ~mask;

 	return 0;
 }

 static int gpio_sifive_port_toggle_bits(const struct device *dev,
 					gpio_port_pins_t mask)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

 	gpio->out_val ^= mask;

 	return 0;
 }

 static int gpio_sifive_pin_interrupt_configure(const struct device *dev,
 					       gpio_pin_t pin,
 					       enum gpio_int_mode mode,
 					       enum gpio_int_trig trig)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);
 	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

 	gpio->rise_ie &= ~BIT(pin);
 	gpio->fall_ie &= ~BIT(pin);
 	gpio->high_ie &= ~BIT(pin);
 	gpio->low_ie  &= ~BIT(pin);

 	switch (mode) {
 	case GPIO_INT_MODE_DISABLED:
 		irq_disable(gpio_sifive_pin_irq(cfg->gpio_irq_base, pin));
 		break;
 	case GPIO_INT_MODE_LEVEL:
 		/* Board supports both levels, but Zephyr does not. */
 		if (trig == GPIO_INT_TRIG_HIGH) {
 			gpio->high_ip = BIT(pin);
 			gpio->high_ie |= BIT(pin);
 		} else {
 			__ASSERT_NO_MSG(trig == GPIO_INT_TRIG_LOW);
 			gpio->low_ip = BIT(pin);
 			gpio->low_ie  |= BIT(pin);
 		}
 		irq_enable(gpio_sifive_pin_irq(cfg->gpio_irq_base, pin));
 		break;
 	case GPIO_INT_MODE_EDGE:
 		__ASSERT_NO_MSG(GPIO_INT_TRIG_BOTH ==
 				(GPIO_INT_LOW_0 | GPIO_INT_HIGH_1));

 		if ((trig & GPIO_INT_HIGH_1) != 0) {
 			gpio->rise_ip = BIT(pin);
 			gpio->rise_ie |= BIT(pin);
 		}
 		if ((trig & GPIO_INT_LOW_0) != 0) {
 			gpio->fall_ip = BIT(pin);
 			gpio->fall_ie |= BIT(pin);
 		}
 		irq_enable(gpio_sifive_pin_irq(cfg->gpio_irq_base, pin));
 		break;
 	default:
 		__ASSERT(false, "Invalid MODE %d passed to driver", mode);
 		return -ENOTSUP;
 	}

 	return 0;
 }

 static int gpio_sifive_manage_callback(const struct device *dev,
 				       struct gpio_callback *callback,
 				       bool set)
 {
 	struct gpio_sifive_data *data = DEV_GPIO_DATA(dev);

 	return gpio_manage_callback(&data->cb, callback, set);
 }

 #ifdef CONFIG_GPIO_GET_DIRECTION
 static int gpio_sifive_port_get_dir(const struct device *dev, gpio_port_pins_t map,
 				    gpio_port_pins_t *inputs, gpio_port_pins_t *outputs)
 {
 	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

 	map &= cfg->common.port_pin_mask;

 	if (inputs != NULL) {
 		*inputs = map & DEV_GPIO(dev)->in_en;
 	}

 	if (outputs != NULL) {
 		*outputs = map & DEV_GPIO(dev)->out_en;
 	}

 	return 0;
 }
 #endif /* CONFIG_GPIO_GET_DIRECTION */

 static const struct gpio_driver_api gpio_sifive_driver = {
 	.pin_configure           = gpio_sifive_config,
 	.port_get_raw            = gpio_sifive_port_get_raw,
 	.port_set_masked_raw     = gpio_sifive_port_set_masked_raw,
 	.port_set_bits_raw       = gpio_sifive_port_set_bits_raw,
 	.port_clear_bits_raw     = gpio_sifive_port_clear_bits_raw,
 	.port_toggle_bits        = gpio_sifive_port_toggle_bits,
 	.pin_interrupt_configure = gpio_sifive_pin_interrupt_configure,
 	.manage_callback         = gpio_sifive_manage_callback,
 #ifdef CONFIG_GPIO_GET_DIRECTION
 	.port_get_direction      = gpio_sifive_port_get_dir,
 #endif /* CONFIG_GPIO_GET_DIRECTION */
 };

 /**
  * @brief Initialize a GPIO controller
  *
  * Perform basic initialization of a GPIO controller
  *
  * @param dev GPIO device struct
  *
  * @return 0
  */
 static int gpio_sifive_init(const struct device *dev)
 {
 	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);
 	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

 	/* Ensure that all gpio registers are reset to 0 initially */
 	gpio->in_en   = 0U;
 	gpio->out_en  = 0U;
 	gpio->pue     = 0U;
 	gpio->rise_ie = 0U;
 	gpio->fall_ie = 0U;
 	gpio->high_ie = 0U;
 	gpio->low_ie  = 0U;
 	gpio->iof_en  = 0U;
 	gpio->iof_sel = 0U;
 	gpio->invert  = 0U;

 	/* Setup IRQ handler for each gpio pin */
 	cfg->gpio_cfg_func();

 	return 0;
 }

 static void gpio_sifive_cfg_0(void);

 static const struct gpio_sifive_config gpio_sifive_config0 = {
 	.common = {
 		.port_pin_mask = GPIO_PORT_PIN_MASK_FROM_DT_INST(0),
 	},
 	.gpio_base_addr = DT_INST_REG_ADDR(0),
 	.gpio_irq_base  = DT_INST_IRQN(0),
 	.gpio_cfg_func  = gpio_sifive_cfg_0,
 };

 static struct gpio_sifive_data gpio_sifive_data0;

 DEVICE_DT_INST_DEFINE(0,
 		    gpio_sifive_init,
 		    NULL,
 		    &gpio_sifive_data0, &gpio_sifive_config0,
 		    PRE_KERNEL_1, CONFIG_GPIO_INIT_PRIORITY,
 		    &gpio_sifive_driver);

 #define		IRQ_INIT(n)					\
 IRQ_CONNECT(DT_INST_IRQ_BY_IDX(0, n, irq),			\
 		DT_INST_IRQ_BY_IDX(0, n, priority),		\
 		gpio_sifive_irq_handler,			\
 		DEVICE_DT_INST_GET(0),				\
 		0);

 static void gpio_sifive_cfg_0(void)
 {
 #if DT_INST_IRQ_HAS_IDX(0, 0)
 	IRQ_INIT(0);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 1)
 	IRQ_INIT(1);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 2)
 	IRQ_INIT(2);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 3)
 	IRQ_INIT(3);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 4)
 	IRQ_INIT(4);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 5)
 	IRQ_INIT(5);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 6)
 	IRQ_INIT(6);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 7)
 	IRQ_INIT(7);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 8)
 	IRQ_INIT(8);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 9)
 	IRQ_INIT(9);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 10)
 	IRQ_INIT(10);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 11)
 	IRQ_INIT(11);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 12)
 	IRQ_INIT(12);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 13)
 	IRQ_INIT(13);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 14)
 	IRQ_INIT(14);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 15)
 	IRQ_INIT(15);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 16)
 	IRQ_INIT(16);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 17)
 	IRQ_INIT(17);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 18)
 	IRQ_INIT(18);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 19)
 	IRQ_INIT(19);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 20)
 	IRQ_INIT(20);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 21)
 	IRQ_INIT(21);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 22)
 	IRQ_INIT(22);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 23)
 	IRQ_INIT(23);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 24)
 	IRQ_INIT(24);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 25)
 	IRQ_INIT(25);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 26)
 	IRQ_INIT(26);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 27)
 	IRQ_INIT(27);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 28)
 	IRQ_INIT(28);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 29)
 	IRQ_INIT(29);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 30)
 	IRQ_INIT(30);
 #endif
 #if DT_INST_IRQ_HAS_IDX(0, 31)
 	IRQ_INIT(31);
 #endif
 }
	/*
	* Copyright (c) 2017 Jean-Paul Etienne <fractalclone@gmail.com>
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#define DT_DRV_COMPAT sifive_gpio0

	/**
	* @file GPIO driver for the SiFive Freedom Processor
	*/

	#include <errno.h>
	#include <zephyr/kernel.h>
	#include <zephyr/device.h>
	#include <soc.h>
	#include <zephyr/drivers/gpio.h>
	#include <zephyr/sys/util.h>
	#include <zephyr/irq.h>

	#include <zephyr/drivers/gpio/gpio_utils.h>

	typedef void (*sifive_cfg_func_t)(void);

	/* sifive GPIO register-set structure */
	struct gpio_sifive_t {
	unsigned int in_val;
	unsigned int in_en;
	unsigned int out_en;
	unsigned int out_val;
	unsigned int pue;
	unsigned int ds;
	unsigned int rise_ie;
	unsigned int rise_ip;
	unsigned int fall_ie;
	unsigned int fall_ip;
	unsigned int high_ie;
	unsigned int high_ip;
	unsigned int low_ie;
	unsigned int low_ip;
	unsigned int iof_en;
	unsigned int iof_sel;
	unsigned int invert;
	};

	struct gpio_sifive_config {
	/* gpio_driver_config needs to be first */
	struct gpio_driver_config common;
	uintptr_t gpio_base_addr;
	/* multi-level encoded interrupt corresponding to pin 0 */
	uint32_t gpio_irq_base;
	sifive_cfg_func_t gpio_cfg_func;
	};

	struct gpio_sifive_data {
	/* gpio_driver_data needs to be first */
	struct gpio_driver_data common;
	/* list of callbacks */
	sys_slist_t cb;
	};

	/* Helper Macros for GPIO */
	#define DEV_GPIO_CFG(dev) \
	((const struct gpio_sifive_config * const)(dev)->config)
	#define DEV_GPIO(dev) \
	((volatile struct gpio_sifive_t *)(DEV_GPIO_CFG(dev))->gpio_base_addr)
	#define DEV_GPIO_DATA(dev) \
	((struct gpio_sifive_data *)(dev)->data)


	/* Given gpio_irq_base and the pin number, return the IRQ number for the pin */
	static inline unsigned int gpio_sifive_pin_irq(unsigned int base_irq, int pin)
	{
	unsigned int level = irq_get_level(base_irq);
	unsigned int pin_irq = 0;

	if (level == 1) {
	pin_irq = base_irq + pin;
	} else if (level == 2) {
	pin_irq = base_irq + (pin << 8);
	}

	return pin_irq;
	}

	/* Given the PLIC source number, return the number of the GPIO pin associated
	* with the interrupt
	*/
	static inline int gpio_sifive_plic_to_pin(unsigned int base_irq, int plic_irq)
	{
	unsigned int level = irq_get_level(base_irq);

	if (level == 2) {
	base_irq = irq_from_level_2(base_irq);
	}

	return (plic_irq - base_irq);
	}

	static void gpio_sifive_irq_handler(const struct device *dev)
	{
	struct gpio_sifive_data *data = DEV_GPIO_DATA(dev);
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);
	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

	/* Calculate pin and mask from base level 2 line */
	uint8_t pin = 1 + (riscv_plic_get_irq() - (uint8_t)(cfg->gpio_irq_base >> 8));

	/* This peripheral tracks each condition separately: a
	* transition from low to high will mark the pending bit for
	* both rise and high, while low will probably be set from the
	* previous state.
	*
	* It is certainly possible, especially on double-edge, that
	* multiple conditions are present. However, there is no way
	* to tell which one occurred first, and no provision to
	* indicate which one occurred in the callback.
	*
	* Clear all the conditions so we only invoke the callback
	* once. Level conditions will remain set after clear.
	*/
	gpio->rise_ip = BIT(pin);
	gpio->fall_ip = BIT(pin);
	gpio->high_ip = BIT(pin);
	gpio->low_ip = BIT(pin);

	/* Call the corresponding callback registered for the pin */
	gpio_fire_callbacks(&data->cb, dev, BIT(pin));
	}

	/**
	* @brief Configure pin
	*
	* @param dev Device structure
	* @param pin The pin number
	* @param flags Flags of pin or port
	*
	* @return 0 if successful, failed otherwise
	*/
	static int gpio_sifive_config(const struct device *dev,
	gpio_pin_t pin,
	gpio_flags_t flags)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

	if (pin >= SIFIVE_PINMUX_PINS) {
	return -EINVAL;
	}

	/* We cannot support open-source open-drain configuration */
	if ((flags & GPIO_SINGLE_ENDED) != 0) {
	return -ENOTSUP;
	}

	/* We only support pull-ups, not pull-downs */
	if ((flags & GPIO_PULL_DOWN) != 0) {
	return -ENOTSUP;
	}

	/* Set pull-up if requested */
	WRITE_BIT(gpio->pue, pin, flags & GPIO_PULL_UP);

	/* Set the initial output value before enabling output to avoid
	* glitches
	*/
	if ((flags & GPIO_OUTPUT_INIT_HIGH) != 0) {
	gpio->out_val \|= BIT(pin);
	}
	if ((flags & GPIO_OUTPUT_INIT_LOW) != 0) {
	gpio->out_val &= ~BIT(pin);
	}

	/* Enable input/output */
	WRITE_BIT(gpio->out_en, pin, flags & GPIO_OUTPUT);
	WRITE_BIT(gpio->in_en, pin, flags & GPIO_INPUT);

	return 0;
	}

	static int gpio_sifive_port_get_raw(const struct device *dev,
	gpio_port_value_t *value)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

	*value = gpio->in_val;

	return 0;
	}

	static int gpio_sifive_port_set_masked_raw(const struct device *dev,
	gpio_port_pins_t mask,
	gpio_port_value_t value)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

	gpio->out_val = (gpio->out_val & ~mask) \| (value & mask);

	return 0;
	}

	static int gpio_sifive_port_set_bits_raw(const struct device *dev,
	gpio_port_pins_t mask)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

	gpio->out_val \|= mask;

	return 0;
	}

	static int gpio_sifive_port_clear_bits_raw(const struct device *dev,
	gpio_port_pins_t mask)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

	gpio->out_val &= ~mask;

	return 0;
	}

	static int gpio_sifive_port_toggle_bits(const struct device *dev,
	gpio_port_pins_t mask)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);

	gpio->out_val ^= mask;

	return 0;
	}

	static int gpio_sifive_pin_interrupt_configure(const struct device *dev,
	gpio_pin_t pin,
	enum gpio_int_mode mode,
	enum gpio_int_trig trig)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);
	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

	gpio->rise_ie &= ~BIT(pin);
	gpio->fall_ie &= ~BIT(pin);
	gpio->high_ie &= ~BIT(pin);
	gpio->low_ie &= ~BIT(pin);

	switch (mode) {
	case GPIO_INT_MODE_DISABLED:
	irq_disable(gpio_sifive_pin_irq(cfg->gpio_irq_base, pin));
	break;
	case GPIO_INT_MODE_LEVEL:
	/* Board supports both levels, but Zephyr does not. */
	if (trig == GPIO_INT_TRIG_HIGH) {
	gpio->high_ip = BIT(pin);
	gpio->high_ie \|= BIT(pin);
	} else {
	__ASSERT_NO_MSG(trig == GPIO_INT_TRIG_LOW);
	gpio->low_ip = BIT(pin);
	gpio->low_ie \|= BIT(pin);
	}
	irq_enable(gpio_sifive_pin_irq(cfg->gpio_irq_base, pin));
	break;
	case GPIO_INT_MODE_EDGE:
	__ASSERT_NO_MSG(GPIO_INT_TRIG_BOTH ==
	(GPIO_INT_LOW_0 \| GPIO_INT_HIGH_1));

	if ((trig & GPIO_INT_HIGH_1) != 0) {
	gpio->rise_ip = BIT(pin);
	gpio->rise_ie \|= BIT(pin);
	}
	if ((trig & GPIO_INT_LOW_0) != 0) {
	gpio->fall_ip = BIT(pin);
	gpio->fall_ie \|= BIT(pin);
	}
	irq_enable(gpio_sifive_pin_irq(cfg->gpio_irq_base, pin));
	break;
	default:
	__ASSERT(false, "Invalid MODE %d passed to driver", mode);
	return -ENOTSUP;
	}

	return 0;
	}

	static int gpio_sifive_manage_callback(const struct device *dev,
	struct gpio_callback *callback,
	bool set)
	{
	struct gpio_sifive_data *data = DEV_GPIO_DATA(dev);

	return gpio_manage_callback(&data->cb, callback, set);
	}

	#ifdef CONFIG_GPIO_GET_DIRECTION
	static int gpio_sifive_port_get_dir(const struct device *dev, gpio_port_pins_t map,
	gpio_port_pins_t inputs, gpio_port_pins_t outputs)
	{
	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

	map &= cfg->common.port_pin_mask;

	if (inputs != NULL) {
	*inputs = map & DEV_GPIO(dev)->in_en;
	}

	if (outputs != NULL) {
	*outputs = map & DEV_GPIO(dev)->out_en;
	}

	return 0;
	}
	#endif /* CONFIG_GPIO_GET_DIRECTION */

	static const struct gpio_driver_api gpio_sifive_driver = {
	.pin_configure = gpio_sifive_config,
	.port_get_raw = gpio_sifive_port_get_raw,
	.port_set_masked_raw = gpio_sifive_port_set_masked_raw,
	.port_set_bits_raw = gpio_sifive_port_set_bits_raw,
	.port_clear_bits_raw = gpio_sifive_port_clear_bits_raw,
	.port_toggle_bits = gpio_sifive_port_toggle_bits,
	.pin_interrupt_configure = gpio_sifive_pin_interrupt_configure,
	.manage_callback = gpio_sifive_manage_callback,
	#ifdef CONFIG_GPIO_GET_DIRECTION
	.port_get_direction = gpio_sifive_port_get_dir,
	#endif /* CONFIG_GPIO_GET_DIRECTION */
	};

	/**
	* @brief Initialize a GPIO controller
	*
	* Perform basic initialization of a GPIO controller
	*
	* @param dev GPIO device struct
	*
	* @return 0
	*/
	static int gpio_sifive_init(const struct device *dev)
	{
	volatile struct gpio_sifive_t *gpio = DEV_GPIO(dev);
	const struct gpio_sifive_config *cfg = DEV_GPIO_CFG(dev);

	/* Ensure that all gpio registers are reset to 0 initially */
	gpio->in_en = 0U;
	gpio->out_en = 0U;
	gpio->pue = 0U;
	gpio->rise_ie = 0U;
	gpio->fall_ie = 0U;
	gpio->high_ie = 0U;
	gpio->low_ie = 0U;
	gpio->iof_en = 0U;
	gpio->iof_sel = 0U;
	gpio->invert = 0U;

	/* Setup IRQ handler for each gpio pin */
	cfg->gpio_cfg_func();

	return 0;
	}

	static void gpio_sifive_cfg_0(void);

	static const struct gpio_sifive_config gpio_sifive_config0 = {
	.common = {
	.port_pin_mask = GPIO_PORT_PIN_MASK_FROM_DT_INST(0),
	},
	.gpio_base_addr = DT_INST_REG_ADDR(0),
	.gpio_irq_base = DT_INST_IRQN(0),
	.gpio_cfg_func = gpio_sifive_cfg_0,
	};

	static struct gpio_sifive_data gpio_sifive_data0;

	DEVICE_DT_INST_DEFINE(0,
	gpio_sifive_init,
	NULL,
	&gpio_sifive_data0, &gpio_sifive_config0,
	PRE_KERNEL_1, CONFIG_GPIO_INIT_PRIORITY,
	&gpio_sifive_driver);

	#define IRQ_INIT(n) \
	IRQ_CONNECT(DT_INST_IRQ_BY_IDX(0, n, irq), \
	DT_INST_IRQ_BY_IDX(0, n, priority), \
	gpio_sifive_irq_handler, \
	DEVICE_DT_INST_GET(0), \
	0);

	static void gpio_sifive_cfg_0(void)
	{
	#if DT_INST_IRQ_HAS_IDX(0, 0)
	IRQ_INIT(0);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 1)
	IRQ_INIT(1);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 2)
	IRQ_INIT(2);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 3)
	IRQ_INIT(3);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 4)
	IRQ_INIT(4);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 5)
	IRQ_INIT(5);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 6)
	IRQ_INIT(6);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 7)
	IRQ_INIT(7);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 8)
	IRQ_INIT(8);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 9)
	IRQ_INIT(9);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 10)
	IRQ_INIT(10);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 11)
	IRQ_INIT(11);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 12)
	IRQ_INIT(12);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 13)
	IRQ_INIT(13);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 14)
	IRQ_INIT(14);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 15)
	IRQ_INIT(15);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 16)
	IRQ_INIT(16);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 17)
	IRQ_INIT(17);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 18)
	IRQ_INIT(18);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 19)
	IRQ_INIT(19);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 20)
	IRQ_INIT(20);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 21)
	IRQ_INIT(21);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 22)
	IRQ_INIT(22);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 23)
	IRQ_INIT(23);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 24)
	IRQ_INIT(24);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 25)
	IRQ_INIT(25);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 26)
	IRQ_INIT(26);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 27)
	IRQ_INIT(27);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 28)
	IRQ_INIT(28);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 29)
	IRQ_INIT(29);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 30)
	IRQ_INIT(30);
	#endif
	#if DT_INST_IRQ_HAS_IDX(0, 31)
	IRQ_INIT(31);
	#endif
	}