drivers/watchdog/wdt_npcx.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2021 Nuvoton Technology Corporation.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #define DT_DRV_COMPAT nuvoton_npcx_watchdog

 /**
  * @file
  * @brief Nuvoton NPCX watchdog modules driver
  *
  * This file contains the drivers of NPCX Watchdog module that generates the
  * clocks and interrupts (T0 Timer) used for its callback functions in the
  * system. It also provides watchdog reset signal generation in response to a
  * failure detection. Please refer the block diagram for more detail.
  *
  *            +---------------------+    +-----------------+
  *  LFCLK --->| T0 Prescale Counter |-+->| 16-Bit T0 Timer |--------> T0 Timer
  * (32kHz)    |     (TWCP 1:32)     | |  |     (TWDT0)     |           Event
  *            +---------------------+ |  +-----------------+
  *  +---------------------------------+
  *  |
  *  |    +-------------------+    +-----------------+
  *  +--->| Watchdog Prescale |--->| 8-Bit Watchdog  |-----> Watchdog Event/Reset
  *       |    (WDCP 1:32)    |    | Counter (WDCNT) |       after n clocks
  *       +-------------------+    +-----------------+
  *
  */

 #include <assert.h>
 #include <zephyr/drivers/gpio.h>
 #include <zephyr/drivers/clock_control.h>
 #include <zephyr/drivers/watchdog.h>
 #include <soc.h>

 #include "soc_miwu.h"
 #include <zephyr/logging/log.h>
 LOG_MODULE_REGISTER(wdt_npcx, CONFIG_WDT_LOG_LEVEL);

 /* Watchdog operating frequency is fixed to LFCLK (32.768) kHz */
 #define NPCX_WDT_CLK LFCLK

 /*
  * Maximum watchdog window time. Since the watchdog counter is 8-bits, maximum
  * time supported by npcx watchdog is 256 * (32 * 32) / 32768 = 8 sec.
  */
 #define NPCX_WDT_MAX_WND_TIME 8000UL

 /*
  * Minimum watchdog window time. Ensure we have waited at least 3 watchdog
  * clocks since touching WD timer. 3 / (32768 / 1024) HZ = 93.75ms
  */
 #define NPCX_WDT_MIN_WND_TIME 100UL

 /* Timeout for reloading and restarting Timer 0. (Unit:ms) */
 #define NPCX_T0CSR_RST_TIMEOUT 2

 /* Timeout for stopping watchdog. (Unit:ms) */
 #define NPCX_WATCHDOG_STOP_TIMEOUT 1

 /* Device config */
 struct wdt_npcx_config {
 	/* wdt controller base address */
 	uintptr_t base;
 	/* t0 timer wake-up input source configuration */
 	const struct npcx_wui t0out;
 };

 /* Driver data */
 struct wdt_npcx_data {
 	/* Timestamp of touching watchdog last time */
 	int64_t last_watchdog_touch;
 	/* Timeout callback used to handle watchdog event */
 	wdt_callback_t cb;
 	/* Watchdog feed timeout in milliseconds */
 	uint32_t timeout;
 	/* Indicate whether a watchdog timeout is installed */
 	bool timeout_installed;
 };

 struct miwu_dev_callback miwu_cb;

 /* Driver convenience defines */
 #define HAL_INSTANCE(dev) ((struct twd_reg *)((const struct wdt_npcx_config *)(dev)->config)->base)

 /* WDT local inline functions */
 static inline int wdt_t0out_reload(const struct device *dev)
 {
 	struct twd_reg *const inst = HAL_INSTANCE(dev);
 	uint64_t st;

 	/* Reload and restart T0 timer */
 	inst->T0CSR = (inst->T0CSR & ~BIT(NPCX_T0CSR_WDRST_STS)) |
 		      BIT(NPCX_T0CSR_RST);
 	/* Wait for timer is loaded and restart */
 	st = k_uptime_get();
 	while (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_RST)) {
 		if (k_uptime_get() - st > NPCX_T0CSR_RST_TIMEOUT) {
 			/* RST bit is still set? */
 			if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_RST)) {
 				LOG_ERR("Timeout: reload T0 timer!");
 				return -ETIMEDOUT;
 			}
 		}
 	}

 	return 0;
 }

 static inline int wdt_wait_stopped(const struct device *dev)
 {
 	struct twd_reg *const inst = HAL_INSTANCE(dev);
 	uint64_t st;

 	st = k_uptime_get();
 	/* If watchdog is still running? */
 	while (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
 		if (k_uptime_get() - st > NPCX_WATCHDOG_STOP_TIMEOUT) {
 			/* WD_RUN bit is still set? */
 			if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
 				LOG_ERR("Timeout: stop watchdog timer!");
 				return -ETIMEDOUT;
 			}
 		}
 	}

 	return 0;
 }

 /* WDT local functions */
 static void wdt_t0out_isr(const struct device *dev, struct npcx_wui *wui)
 {
 	struct wdt_npcx_data *const data = dev->data;
 	ARG_UNUSED(wui);

 	LOG_DBG("WDT reset will issue after %d delay cycle! WUI(%d %d %d)",
 		CONFIG_WDT_NPCX_DELAY_CYCLES, wui->table, wui->group, wui->bit);

 	/* Handle watchdog event here. */
 	if (data->cb) {
 		data->cb(dev, 0);
 	}
 }

 static void wdt_config_t0out_interrupt(const struct device *dev)
 {
 	const struct wdt_npcx_config *const config = dev->config;

 	/* Initialize a miwu device input and its callback function */
 	npcx_miwu_init_dev_callback(&miwu_cb, &config->t0out, wdt_t0out_isr,
 			dev);
 	npcx_miwu_manage_dev_callback(&miwu_cb, true);

 	/*
 	 * Configure the T0 wake-up event triggered from a rising edge
 	 * on T0OUT signal.
 	 */
 	npcx_miwu_interrupt_configure(&config->t0out,
 			NPCX_MIWU_MODE_EDGE, NPCX_MIWU_TRIG_HIGH);
 }

 /* WDT api functions */
 static int wdt_npcx_install_timeout(const struct device *dev,
 				   const struct wdt_timeout_cfg *cfg)
 {
 	struct wdt_npcx_data *const data = dev->data;
 	struct twd_reg *const inst = HAL_INSTANCE(dev);

 	/* If watchdog is already running */
 	if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
 		return -EBUSY;
 	}

 	/* No window watchdog support */
 	if (cfg->window.min != 0) {
 		data->timeout_installed = false;
 		return -EINVAL;
 	}

 	/*
 	 * Since the watchdog counter in npcx series is 8-bits, maximum time
 	 * supported by it is 256 * (32 * 32) / 32768 = 8 sec. This makes the
 	 * allowed range of 1-8000 in milliseconds. Check if the provided value
 	 * is within this range.
 	 */
 	if (cfg->window.max > NPCX_WDT_MAX_WND_TIME || cfg->window.max == 0) {
 		data->timeout_installed = false;
 		return -EINVAL;
 	}

 	/* Save watchdog timeout */
 	data->timeout = cfg->window.max;

 	/* Install user timeout isr */
 	data->cb = cfg->callback;
 	data->timeout_installed = true;

 	return 0;
 }

 static int wdt_npcx_setup(const struct device *dev, uint8_t options)
 {
 	struct twd_reg *const inst = HAL_INSTANCE(dev);
 	const struct wdt_npcx_config *const config = dev->config;
 	struct wdt_npcx_data *const data = dev->data;
 	int rv;

 	/* Disable irq of t0-out expired event first */
 	npcx_miwu_irq_disable(&config->t0out);

 	if (!data->timeout_installed) {
 		LOG_ERR("No valid WDT timeout installed");
 		return -EINVAL;
 	}

 	if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
 		LOG_ERR("WDT timer is busy");
 		return -EBUSY;
 	}

 	if ((options & WDT_OPT_PAUSE_IN_SLEEP) != 0) {
 		LOG_ERR("WDT_OPT_PAUSE_IN_SLEEP is not supported");
 		return -ENOTSUP;
 	}

 	if ((options & WDT_OPT_PAUSE_HALTED_BY_DBG) != 0) {
 		LOG_ERR("WDT_OPT_PAUSE_HALTED_BY_DBG is not supported");
 		return -ENOTSUP;
 	}

 	/*
 	 * One clock period of T0 timer is 32/32.768 KHz = 0.976 ms.
 	 * Then the counter value is timeout/0.976 - 1.
 	 */
 	inst->TWDT0 = MAX(ceiling_fraction(data->timeout * NPCX_WDT_CLK,
 				32 * 1000) - 1, 1);

 	/* Configure 8-bit watchdog counter */
 	inst->WDCNT = MIN(ceiling_fraction(data->timeout, 32) +
 					CONFIG_WDT_NPCX_DELAY_CYCLES, 0xff);

 	LOG_DBG("WDT setup: TWDT0, WDCNT are %d, %d", inst->TWDT0, inst->WDCNT);

 	/* Reload and restart T0 timer */
 	rv = wdt_t0out_reload(dev);

 	/* Configure t0 timer interrupt and its isr. */
 	wdt_config_t0out_interrupt(dev);

 	/* Enable irq of t0-out expired event */
 	npcx_miwu_irq_enable(&config->t0out);

 	return rv;
 }

 static int wdt_npcx_disable(const struct device *dev)
 {
 	const struct wdt_npcx_config *const config = dev->config;
 	struct wdt_npcx_data *const data = dev->data;
 	struct twd_reg *const inst = HAL_INSTANCE(dev);

 	/*
 	 * Ensure we have waited at least 3 watchdog ticks before
 	 * stopping watchdog
 	 */
 	while (k_uptime_get() - data->last_watchdog_touch <
 			NPCX_WDT_MIN_WND_TIME)
 		continue;

 	/*
 	 * Stop and unlock watchdog by writing 87h, 61h and 63h
 	 * sequence bytes to WDSDM register
 	 */
 	inst->WDSDM = 0x87;
 	inst->WDSDM = 0x61;
 	inst->WDSDM = 0x63;

 	/* Disable irq of t0-out expired event and mark it uninstalled */
 	npcx_miwu_irq_disable(&config->t0out);
 	data->timeout_installed = false;

 	/* Wait until watchdog is stopped. */
 	return wdt_wait_stopped(dev);
 }

 static int wdt_npcx_feed(const struct device *dev, int channel_id)
 {
 	ARG_UNUSED(channel_id);
 	struct wdt_npcx_data *const data = dev->data;
 	struct twd_reg *const inst = HAL_INSTANCE(dev);

 	/* Feed watchdog by writing 5Ch to WDSDM */
 	inst->WDSDM = 0x5C;
 	data->last_watchdog_touch = k_uptime_get();

 	/* Reload and restart T0 timer */
 	return wdt_t0out_reload(dev);
 }

 /* WDT driver registration */
 static const struct wdt_driver_api wdt_npcx_driver_api = {
 	.setup = wdt_npcx_setup,
 	.disable = wdt_npcx_disable,
 	.install_timeout = wdt_npcx_install_timeout,
 	.feed = wdt_npcx_feed,
 };

 static int wdt_npcx_init(const struct device *dev)
 {
 	struct twd_reg *const inst = HAL_INSTANCE(dev);

 #ifdef CONFIG_WDT_DISABLE_AT_BOOT
 	wdt_npcx_disable(dev);
 #endif

 	/*
 	 * TWCFG (Timer Watchdog Configuration) setting
 	 * [7:6]- Reserved = 0
 	 * [5]  - WDSDME   = 1: Feed watchdog by writing 5Ch to WDSDM
 	 * [4]  - WDCT0I   = 1: Select T0IN as watchdog prescaler clock
 	 * [3]  - LWDCNT   = 0: Don't lock WDCNT register
 	 * [2]  - LTWDT0   = 0: Don't lock TWDT0 register
 	 * [1]  - LTWCP    = 0: Don't lock TWCP register
 	 * [0]  - LTWCFG   = 0: Don't lock TWCFG register
 	 */
 	inst->TWCFG = BIT(NPCX_TWCFG_WDSDME) | BIT(NPCX_TWCFG_WDCT0I);

 	/* Disable early touch functionality */
 	inst->T0CSR = (inst->T0CSR & ~BIT(NPCX_T0CSR_WDRST_STS)) |
 		      BIT(NPCX_T0CSR_TESDIS);
 	/*
 	 * Plan clock frequency of T0 timer and watchdog timer as below:
 	 * - T0 Timer freq is LFCLK/32 Hz
 	 * - Watchdog freq is T0CLK/32 Hz (ie. LFCLK/1024 Hz)
 	 */
 	inst->WDCP = 0x05; /* Prescaler is 32 in Watchdog Timer */
 	inst->TWCP = 0x05; /* Prescaler is 32 in T0 Timer */

 	return 0;
 }

 static const struct wdt_npcx_config wdt_npcx_cfg_0 = {
 	.base = DT_INST_REG_ADDR(0),
 	.t0out = NPCX_DT_WUI_ITEM_BY_NAME(0, t0_out)
 };

 static struct wdt_npcx_data wdt_npcx_data_0;

 DEVICE_DT_INST_DEFINE(0, wdt_npcx_init, NULL,
 			&wdt_npcx_data_0, &wdt_npcx_cfg_0,
 			PRE_KERNEL_1,
 			CONFIG_KERNEL_INIT_PRIORITY_DEFAULT,
 			&wdt_npcx_driver_api);
	/*
	* Copyright (c) 2021 Nuvoton Technology Corporation.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#define DT_DRV_COMPAT nuvoton_npcx_watchdog

	/**
	* @file
	* @brief Nuvoton NPCX watchdog modules driver
	*
	* This file contains the drivers of NPCX Watchdog module that generates the
	* clocks and interrupts (T0 Timer) used for its callback functions in the
	* system. It also provides watchdog reset signal generation in response to a
	* failure detection. Please refer the block diagram for more detail.
	*
	* +---------------------+ +-----------------+
	* LFCLK --->\| T0 Prescale Counter \|-+->\| 16-Bit T0 Timer \|--------> T0 Timer
	* (32kHz) \| (TWCP 1:32) \| \| \| (TWDT0) \| Event
	* +---------------------+ \| +-----------------+
	* +---------------------------------+
	* \|
	* \| +-------------------+ +-----------------+
	* +--->\| Watchdog Prescale \|--->\| 8-Bit Watchdog \|-----> Watchdog Event/Reset
	* \| (WDCP 1:32) \| \| Counter (WDCNT) \| after n clocks
	* +-------------------+ +-----------------+
	*
	*/

	#include <assert.h>
	#include <zephyr/drivers/gpio.h>
	#include <zephyr/drivers/clock_control.h>
	#include <zephyr/drivers/watchdog.h>
	#include <soc.h>

	#include "soc_miwu.h"
	#include <zephyr/logging/log.h>
	LOG_MODULE_REGISTER(wdt_npcx, CONFIG_WDT_LOG_LEVEL);

	/* Watchdog operating frequency is fixed to LFCLK (32.768) kHz */
	#define NPCX_WDT_CLK LFCLK

	/*
	* Maximum watchdog window time. Since the watchdog counter is 8-bits, maximum
	* time supported by npcx watchdog is 256 * (32 * 32) / 32768 = 8 sec.
	*/
	#define NPCX_WDT_MAX_WND_TIME 8000UL

	/*
	* Minimum watchdog window time. Ensure we have waited at least 3 watchdog
	* clocks since touching WD timer. 3 / (32768 / 1024) HZ = 93.75ms
	*/
	#define NPCX_WDT_MIN_WND_TIME 100UL

	/* Timeout for reloading and restarting Timer 0. (Unit:ms) */
	#define NPCX_T0CSR_RST_TIMEOUT 2

	/* Timeout for stopping watchdog. (Unit:ms) */
	#define NPCX_WATCHDOG_STOP_TIMEOUT 1

	/* Device config */
	struct wdt_npcx_config {
	/* wdt controller base address */
	uintptr_t base;
	/* t0 timer wake-up input source configuration */
	const struct npcx_wui t0out;
	};

	/* Driver data */
	struct wdt_npcx_data {
	/* Timestamp of touching watchdog last time */
	int64_t last_watchdog_touch;
	/* Timeout callback used to handle watchdog event */
	wdt_callback_t cb;
	/* Watchdog feed timeout in milliseconds */
	uint32_t timeout;
	/* Indicate whether a watchdog timeout is installed */
	bool timeout_installed;
	};

	struct miwu_dev_callback miwu_cb;

	/* Driver convenience defines */
	#define HAL_INSTANCE(dev) ((struct twd_reg )((const struct wdt_npcx_config )(dev)->config)->base)

	/* WDT local inline functions */
	static inline int wdt_t0out_reload(const struct device *dev)
	{
	struct twd_reg *const inst = HAL_INSTANCE(dev);
	uint64_t st;

	/* Reload and restart T0 timer */
	inst->T0CSR = (inst->T0CSR & ~BIT(NPCX_T0CSR_WDRST_STS)) \|
	BIT(NPCX_T0CSR_RST);
	/* Wait for timer is loaded and restart */
	st = k_uptime_get();
	while (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_RST)) {
	if (k_uptime_get() - st > NPCX_T0CSR_RST_TIMEOUT) {
	/* RST bit is still set? */
	if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_RST)) {
	LOG_ERR("Timeout: reload T0 timer!");
	return -ETIMEDOUT;
	}
	}
	}

	return 0;
	}

	static inline int wdt_wait_stopped(const struct device *dev)
	{
	struct twd_reg *const inst = HAL_INSTANCE(dev);
	uint64_t st;

	st = k_uptime_get();
	/* If watchdog is still running? */
	while (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
	if (k_uptime_get() - st > NPCX_WATCHDOG_STOP_TIMEOUT) {
	/* WD_RUN bit is still set? */
	if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
	LOG_ERR("Timeout: stop watchdog timer!");
	return -ETIMEDOUT;
	}
	}
	}

	return 0;
	}

	/* WDT local functions */
	static void wdt_t0out_isr(const struct device dev, struct npcx_wui wui)
	{
	struct wdt_npcx_data *const data = dev->data;
	ARG_UNUSED(wui);

	LOG_DBG("WDT reset will issue after %d delay cycle! WUI(%d %d %d)",
	CONFIG_WDT_NPCX_DELAY_CYCLES, wui->table, wui->group, wui->bit);

	/* Handle watchdog event here. */
	if (data->cb) {
	data->cb(dev, 0);
	}
	}

	static void wdt_config_t0out_interrupt(const struct device *dev)
	{
	const struct wdt_npcx_config *const config = dev->config;

	/* Initialize a miwu device input and its callback function */
	npcx_miwu_init_dev_callback(&miwu_cb, &config->t0out, wdt_t0out_isr,
	dev);
	npcx_miwu_manage_dev_callback(&miwu_cb, true);

	/*
	* Configure the T0 wake-up event triggered from a rising edge
	* on T0OUT signal.
	*/
	npcx_miwu_interrupt_configure(&config->t0out,
	NPCX_MIWU_MODE_EDGE, NPCX_MIWU_TRIG_HIGH);
	}

	/* WDT api functions */
	static int wdt_npcx_install_timeout(const struct device *dev,
	const struct wdt_timeout_cfg *cfg)
	{
	struct wdt_npcx_data *const data = dev->data;
	struct twd_reg *const inst = HAL_INSTANCE(dev);

	/* If watchdog is already running */
	if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
	return -EBUSY;
	}

	/* No window watchdog support */
	if (cfg->window.min != 0) {
	data->timeout_installed = false;
	return -EINVAL;
	}

	/*
	* Since the watchdog counter in npcx series is 8-bits, maximum time
	* supported by it is 256 * (32 * 32) / 32768 = 8 sec. This makes the
	* allowed range of 1-8000 in milliseconds. Check if the provided value
	* is within this range.
	*/
	if (cfg->window.max > NPCX_WDT_MAX_WND_TIME \|\| cfg->window.max == 0) {
	data->timeout_installed = false;
	return -EINVAL;
	}

	/* Save watchdog timeout */
	data->timeout = cfg->window.max;

	/* Install user timeout isr */
	data->cb = cfg->callback;
	data->timeout_installed = true;

	return 0;
	}

	static int wdt_npcx_setup(const struct device *dev, uint8_t options)
	{
	struct twd_reg *const inst = HAL_INSTANCE(dev);
	const struct wdt_npcx_config *const config = dev->config;
	struct wdt_npcx_data *const data = dev->data;
	int rv;

	/* Disable irq of t0-out expired event first */
	npcx_miwu_irq_disable(&config->t0out);

	if (!data->timeout_installed) {
	LOG_ERR("No valid WDT timeout installed");
	return -EINVAL;
	}

	if (IS_BIT_SET(inst->T0CSR, NPCX_T0CSR_WD_RUN)) {
	LOG_ERR("WDT timer is busy");
	return -EBUSY;
	}

	if ((options & WDT_OPT_PAUSE_IN_SLEEP) != 0) {
	LOG_ERR("WDT_OPT_PAUSE_IN_SLEEP is not supported");
	return -ENOTSUP;
	}

	if ((options & WDT_OPT_PAUSE_HALTED_BY_DBG) != 0) {
	LOG_ERR("WDT_OPT_PAUSE_HALTED_BY_DBG is not supported");
	return -ENOTSUP;
	}

	/*
	* One clock period of T0 timer is 32/32.768 KHz = 0.976 ms.
	* Then the counter value is timeout/0.976 - 1.
	*/
	inst->TWDT0 = MAX(ceiling_fraction(data->timeout * NPCX_WDT_CLK,
	32 * 1000) - 1, 1);

	/* Configure 8-bit watchdog counter */
	inst->WDCNT = MIN(ceiling_fraction(data->timeout, 32) +
	CONFIG_WDT_NPCX_DELAY_CYCLES, 0xff);

	LOG_DBG("WDT setup: TWDT0, WDCNT are %d, %d", inst->TWDT0, inst->WDCNT);

	/* Reload and restart T0 timer */
	rv = wdt_t0out_reload(dev);

	/* Configure t0 timer interrupt and its isr. */
	wdt_config_t0out_interrupt(dev);

	/* Enable irq of t0-out expired event */
	npcx_miwu_irq_enable(&config->t0out);

	return rv;
	}

	static int wdt_npcx_disable(const struct device *dev)
	{
	const struct wdt_npcx_config *const config = dev->config;
	struct wdt_npcx_data *const data = dev->data;
	struct twd_reg *const inst = HAL_INSTANCE(dev);

	/*
	* Ensure we have waited at least 3 watchdog ticks before
	* stopping watchdog
	*/
	while (k_uptime_get() - data->last_watchdog_touch <
	NPCX_WDT_MIN_WND_TIME)
	continue;

	/*
	* Stop and unlock watchdog by writing 87h, 61h and 63h
	* sequence bytes to WDSDM register
	*/
	inst->WDSDM = 0x87;
	inst->WDSDM = 0x61;
	inst->WDSDM = 0x63;

	/* Disable irq of t0-out expired event and mark it uninstalled */
	npcx_miwu_irq_disable(&config->t0out);
	data->timeout_installed = false;

	/* Wait until watchdog is stopped. */
	return wdt_wait_stopped(dev);
	}

	static int wdt_npcx_feed(const struct device *dev, int channel_id)
	{
	ARG_UNUSED(channel_id);
	struct wdt_npcx_data *const data = dev->data;
	struct twd_reg *const inst = HAL_INSTANCE(dev);

	/* Feed watchdog by writing 5Ch to WDSDM */
	inst->WDSDM = 0x5C;
	data->last_watchdog_touch = k_uptime_get();

	/* Reload and restart T0 timer */
	return wdt_t0out_reload(dev);
	}

	/* WDT driver registration */
	static const struct wdt_driver_api wdt_npcx_driver_api = {
	.setup = wdt_npcx_setup,
	.disable = wdt_npcx_disable,
	.install_timeout = wdt_npcx_install_timeout,
	.feed = wdt_npcx_feed,
	};

	static int wdt_npcx_init(const struct device *dev)
	{
	struct twd_reg *const inst = HAL_INSTANCE(dev);

	#ifdef CONFIG_WDT_DISABLE_AT_BOOT
	wdt_npcx_disable(dev);
	#endif

	/*
	* TWCFG (Timer Watchdog Configuration) setting
	* [7:6]- Reserved = 0
	* [5] - WDSDME = 1: Feed watchdog by writing 5Ch to WDSDM
	* [4] - WDCT0I = 1: Select T0IN as watchdog prescaler clock
	* [3] - LWDCNT = 0: Don't lock WDCNT register
	* [2] - LTWDT0 = 0: Don't lock TWDT0 register
	* [1] - LTWCP = 0: Don't lock TWCP register
	* [0] - LTWCFG = 0: Don't lock TWCFG register
	*/
	inst->TWCFG = BIT(NPCX_TWCFG_WDSDME) \| BIT(NPCX_TWCFG_WDCT0I);

	/* Disable early touch functionality */
	inst->T0CSR = (inst->T0CSR & ~BIT(NPCX_T0CSR_WDRST_STS)) \|
	BIT(NPCX_T0CSR_TESDIS);
	/*
	* Plan clock frequency of T0 timer and watchdog timer as below:
	* - T0 Timer freq is LFCLK/32 Hz
	* - Watchdog freq is T0CLK/32 Hz (ie. LFCLK/1024 Hz)
	*/
	inst->WDCP = 0x05; /* Prescaler is 32 in Watchdog Timer */
	inst->TWCP = 0x05; /* Prescaler is 32 in T0 Timer */

	return 0;
	}

	static const struct wdt_npcx_config wdt_npcx_cfg_0 = {
	.base = DT_INST_REG_ADDR(0),
	.t0out = NPCX_DT_WUI_ITEM_BY_NAME(0, t0_out)
	};

	static struct wdt_npcx_data wdt_npcx_data_0;

	DEVICE_DT_INST_DEFINE(0, wdt_npcx_init, NULL,
	&wdt_npcx_data_0, &wdt_npcx_cfg_0,
	PRE_KERNEL_1,
	CONFIG_KERNEL_INIT_PRIORITY_DEFAULT,
	&wdt_npcx_driver_api);