247 lines
6.2 KiB
C
247 lines
6.2 KiB
C
/*
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* Copyright (C) 2017 Intel Corporation
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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/* Include esp-idf headers first to avoid redefining BIT() macro */
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#include <soc/rtc_cntl_reg.h>
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#include <soc/timer_group_reg.h>
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#include <soc.h>
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#include <string.h>
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#include <watchdog.h>
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#include <device.h>
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struct wdt_esp32_data {
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struct wdt_config config;
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};
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static struct wdt_esp32_data shared_data;
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/* ESP32 ignores writes to any register if WDTWPROTECT doesn't contain the
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* magic value of TIMG_WDT_WKEY_VALUE. The datasheet recommends unsealing,
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* making modifications, and sealing for every watchdog modification.
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*/
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static inline void wdt_esp32_seal(void)
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{
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volatile u32_t *reg = (u32_t *)TIMG_WDTWPROTECT_REG(1);
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*reg = 0;
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}
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static inline void wdt_esp32_unseal(void)
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{
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volatile u32_t *reg = (u32_t *)TIMG_WDTWPROTECT_REG(1);
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*reg = TIMG_WDT_WKEY_VALUE;
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}
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static void wdt_esp32_enable(struct device *dev)
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{
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volatile u32_t *reg = (u32_t *)TIMG_WDTCONFIG0_REG(1);
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ARG_UNUSED(dev);
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wdt_esp32_unseal();
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*reg |= BIT(TIMG_WDT_EN_S);
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wdt_esp32_seal();
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}
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static int wdt_esp32_disable(struct device *dev)
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{
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volatile u32_t *reg = (u32_t *)TIMG_WDTCONFIG0_REG(1);
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ARG_UNUSED(dev);
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wdt_esp32_unseal();
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*reg &= ~BIT(TIMG_WDT_EN_S);
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wdt_esp32_seal();
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return 0;
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}
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static void adjust_timeout(u32_t timeout)
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{
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volatile u32_t *reg;
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enum wdt_clock_timeout_cycles cycles =
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(enum wdt_clock_timeout_cycles)timeout;
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u32_t ticks;
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/* The watchdog API in Zephyr was modeled after the QMSI drivers,
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* and those were modeled after the Quark MCUs. The possible
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* values of enum wdt_clock_timeout_cycles maps 1:1 to what the
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* Quark D2000 expects. At 32MHz, the timeout value in ms is given
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* by the following formula, according to the D2000 datasheet:
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*
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* 2^(cycles + 11)
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* timeout_ms = ---------------
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* 1000
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*
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* (e.g. 2.048ms for 2^16 cycles, or the WDT_2_16_CYCLES value.)
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*
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* While this is sort of backwards (this should be given units of
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* time and converted to what the hardware expects), try to map this
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* value to what the ESP32 expects. Use the same timeout value for
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* stages 0 and 1, regardless of the configuration mode, in order to
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* simplify things.
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*/
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/* MWDT ticks every 12.5ns. Set the prescaler to 40000, so the
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* counter for each watchdog stage is decremented every 0.5ms.
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*/
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reg = (u32_t *)TIMG_WDTCONFIG1_REG(1);
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*reg = 40000;
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ticks = 1<<(cycles + 2);
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/* Correct the value: this is an integer-only approximation of
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* 0.114074 * exp(0.67822 * cycles)
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* Which calculates the difference in ticks from the D2000 values to
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* the value calculated by the previous expression.
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*/
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ticks += (1<<cycles) / 10;
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reg = (u32_t *)TIMG_WDTCONFIG2_REG(1);
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*reg = ticks;
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reg = (u32_t *)TIMG_WDTCONFIG3_REG(1);
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*reg = ticks;
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}
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static void wdt_esp32_isr(void *param);
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static void wdt_esp32_reload(struct device *dev)
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{
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volatile u32_t *reg = (u32_t *)TIMG_WDTFEED_REG(1);
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ARG_UNUSED(dev);
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wdt_esp32_unseal();
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*reg = 0xABAD1DEA; /* Writing any value to WDTFEED will reload it. */
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wdt_esp32_seal();
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}
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static void set_interrupt_enabled(bool setting)
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{
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volatile u32_t *intr_enable_reg = (u32_t *)TIMG_INT_ENA_TIMERS_REG(1);
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volatile u32_t *intr_clear_timers = (u32_t *)TIMG_INT_CLR_TIMERS_REG(1);
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*intr_clear_timers |= TIMG_WDT_INT_CLR;
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if (setting) {
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*intr_enable_reg |= TIMG_WDT_INT_ENA;
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IRQ_CONNECT(CONFIG_WDT_ESP32_IRQ, 4, wdt_esp32_isr,
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&shared_data, 0);
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irq_enable(CONFIG_WDT_ESP32_IRQ);
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} else {
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*intr_enable_reg &= ~TIMG_WDT_INT_ENA;
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irq_disable(CONFIG_WDT_ESP32_IRQ);
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}
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}
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static int wdt_esp32_set_config(struct device *dev, struct wdt_config *config)
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{
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struct wdt_esp32_data *data = dev->driver_data;
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volatile u32_t *reg = (u32_t *)TIMG_WDTCONFIG0_REG(1);
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u32_t v;
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if (!config) {
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return -EINVAL;
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}
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v = *reg;
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/* Stages 3 and 4 are not used: disable them. */
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v |= TIMG_WDT_STG_SEL_OFF<<TIMG_WDT_STG2_S;
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v |= TIMG_WDT_STG_SEL_OFF<<TIMG_WDT_STG3_S;
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/* Wait for 3.2us before booting again. */
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v |= 7<<TIMG_WDT_SYS_RESET_LENGTH_S;
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v |= 7<<TIMG_WDT_CPU_RESET_LENGTH_S;
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if (config->mode == WDT_MODE_RESET) {
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/* Warm reset on timeout */
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v |= TIMG_WDT_STG_SEL_RESET_SYSTEM<<TIMG_WDT_STG0_S;
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v |= TIMG_WDT_STG_SEL_OFF<<TIMG_WDT_STG1_S;
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/* Disable interrupts for this mode. */
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v &= ~(TIMG_WDT_LEVEL_INT_EN | TIMG_WDT_EDGE_INT_EN);
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} else if (config->mode == WDT_MODE_INTERRUPT_RESET) {
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/* Interrupt first, and warm reset if not reloaded */
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v |= TIMG_WDT_STG_SEL_INT<<TIMG_WDT_STG0_S;
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v |= TIMG_WDT_STG_SEL_RESET_SYSTEM<<TIMG_WDT_STG1_S;
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/* Use level-triggered interrupts. */
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v |= TIMG_WDT_LEVEL_INT_EN;
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v &= ~TIMG_WDT_EDGE_INT_EN;
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} else {
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return -EINVAL;
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}
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wdt_esp32_unseal();
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*reg = v;
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adjust_timeout(config->timeout & WDT_TIMEOUT_MASK);
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set_interrupt_enabled(config->mode == WDT_MODE_INTERRUPT_RESET);
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wdt_esp32_seal();
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wdt_esp32_reload(dev);
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memcpy(&data->config, config, sizeof(*config));
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return 0;
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}
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static void wdt_esp32_get_config(struct device *dev, struct wdt_config *config)
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{
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struct wdt_esp32_data *data = dev->driver_data;
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memcpy(config, &data->config, sizeof(*config));
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}
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static int wdt_esp32_init(struct device *dev)
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{
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struct wdt_esp32_data *data = dev->driver_data;
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(void)memset(&data->config, 0, sizeof(data->config));
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#ifdef CONFIG_WDT_DISABLE_AT_BOOT
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wdt_esp32_disable(dev);
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#endif
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/* This is a level 4 interrupt, which is handled by _Level4Vector,
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* located in xtensa_vectors.S.
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*/
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irq_disable(CONFIG_WDT_ESP32_IRQ);
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esp32_rom_intr_matrix_set(0, ETS_TG1_WDT_LEVEL_INTR_SOURCE,
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CONFIG_WDT_ESP32_IRQ);
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return 0;
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}
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static const struct wdt_driver_api wdt_api = {
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.enable = wdt_esp32_enable,
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.disable = wdt_esp32_disable,
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.get_config = wdt_esp32_get_config,
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.set_config = wdt_esp32_set_config,
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.reload = wdt_esp32_reload
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};
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DEVICE_AND_API_INIT(wdt_esp32, CONFIG_WDT_0_NAME, wdt_esp32_init,
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&shared_data, NULL,
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PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_DEVICE,
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&wdt_api);
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static void wdt_esp32_isr(void *param)
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{
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struct wdt_esp32_data *data = param;
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volatile u32_t *reg = (u32_t *)TIMG_INT_CLR_TIMERS_REG(1);
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if (data->config.interrupt_fn) {
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data->config.interrupt_fn(DEVICE_GET(wdt_esp32));
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}
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*reg |= TIMG_WDT_INT_CLR;
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}
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