OVMS3-idf/components/soc/esp32s2/include/hal/rtc_io_ll.h
2020-01-22 12:14:38 +08:00

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// Copyright 2015-2019 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/*******************************************************************************
* NOTICE
* The ll is not public api, don't use in application code.
* See readme.md in soc/include/hal/readme.md
******************************************************************************/
#pragma once
#include <stdlib.h>
#include "soc/rtc_io_periph.h"
#include "hal/rtc_io_types.h"
typedef enum {
RTCIO_FUNC_RTC = 0x0, /*!< The pin controled by RTC module. */
RTCIO_FUNC_DIGITAL = 0x1, /*!< The pin controlled by DIGITAL module. */
} rtcio_ll_func_t;
typedef enum {
RTCIO_WAKEUP_DISABLE = 0, /*!< Disable GPIO interrupt */
RTCIO_WAKEUP_LOW_LEVEL = 0x4, /*!< GPIO interrupt type : input low level trigger */
RTCIO_WAKEUP_HIGH_LEVEL = 0x5, /*!< GPIO interrupt type : input high level trigger */
} rtcio_ll_wake_type_t;
typedef enum {
RTCIO_OUTPUT_NORMAL = 0, /*!< RTCIO output mode is normal. */
RTCIO_OUTPUT_OD = 0x1, /*!< RTCIO output mode is open-drain. */
} rtcio_ll_out_mode_t;
/**
* @brief Select the rtcio function.
*
* @note The RTC function must be selected before the pad analog function is enabled.
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
* @param func Select pin function.
*/
static inline void rtcio_ll_function_select(int rtcio_num, rtcio_ll_func_t func)
{
if (func == RTCIO_FUNC_RTC) {
// 0: GPIO connected to digital GPIO module. 1: GPIO connected to analog RTC module.
SET_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, (rtc_io_desc[rtcio_num].mux));
//0:RTC FUNCTION 1,2,3:Reserved
SET_PERI_REG_BITS(rtc_io_desc[rtcio_num].reg, RTC_IO_TOUCH_PAD1_FUN_SEL_V, SOC_PIN_FUNC_RTC_IO, rtc_io_desc[rtcio_num].func);
} else if (func == RTCIO_FUNC_DIGITAL) {
CLEAR_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, (rtc_io_desc[rtcio_num].mux));
}
}
/**
* Enable rtcio output.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_output_enable(int rtcio_num)
{
RTCIO.enable_w1ts.w1ts = (1U << rtcio_num);
}
/**
* Disable rtcio output.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_output_disable(int rtcio_num)
{
RTCIO.enable_w1tc.w1tc = (1U << rtcio_num);
}
/**
* Set RTCIO output level.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
* @param level 0: output low; ~0: output high.
*/
static inline void rtcio_ll_set_level(int rtcio_num, uint32_t level)
{
if (level) {
RTCIO.out_w1ts.w1ts = (1U << rtcio_num);
} else {
RTCIO.out_w1tc.w1tc = (1U << rtcio_num);
}
}
/**
* Enable rtcio input.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_input_enable(int rtcio_num)
{
SET_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].ie);
}
/**
* Disable rtcio input.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_input_disable(int rtcio_num)
{
CLEAR_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].ie);
}
/**
* Get RTCIO input level.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
* @return 0: input low; ~0: input high.
*/
static inline uint32_t rtcio_ll_get_level(int rtcio_num)
{
return (uint32_t)(RTCIO.in_val.in >> rtcio_num) & 0x1;
}
/**
* @brief Set RTC GPIO pad drive capability
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
* @param strength Drive capability of the pad. Range: 0 ~ 3.
*/
static inline void rtcio_ll_set_drive_capability(int rtcio_num, uint32_t strength)
{
if (rtc_io_desc[rtcio_num].drv_v) {
SET_PERI_REG_BITS(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].drv_v, strength, rtc_io_desc[rtcio_num].drv_s);
}
}
/**
* @brief Get RTC GPIO pad drive capability.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
* @return Drive capability of the pad. Range: 0 ~ 3.
*/
static inline uint32_t rtcio_ll_get_drive_capability(int rtcio_num)
{
return GET_PERI_REG_BITS2(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].drv_v, rtc_io_desc[rtcio_num].drv_s);
}
/**
* @brief Set RTC GPIO pad output mode.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
* @return mode Output mode.
*/
static inline void rtcio_ll_output_mode_set(int rtcio_num, rtcio_ll_out_mode_t mode)
{
RTCIO.pin[rtcio_num].pad_driver = mode;
}
/**
* RTC GPIO pullup enable.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_pullup_enable(int rtcio_num)
{
if (rtc_io_desc[rtcio_num].pullup) {
SET_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].pullup);
}
}
/**
* RTC GPIO pullup disable.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_pullup_disable(int rtcio_num)
{
if (rtc_io_desc[rtcio_num].pullup) {
CLEAR_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].pullup);
}
}
/**
* RTC GPIO pulldown enable.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_pulldown_enable(int rtcio_num)
{
if (rtc_io_desc[rtcio_num].pulldown) {
SET_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].pulldown);
}
}
/**
* RTC GPIO pulldown disable.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_pulldown_disable(int rtcio_num)
{
if (rtc_io_desc[rtcio_num].pulldown) {
CLEAR_PERI_REG_MASK(rtc_io_desc[rtcio_num].reg, rtc_io_desc[rtcio_num].pulldown);
}
}
/**
* Enable force hold function for RTC IO pad.
*
* Enabling HOLD function will cause the pad to lock current status, such as,
* input/output enable, input/output value, function, drive strength values.
* This function is useful when going into light or deep sleep mode to prevent
* the pin configuration from changing.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_force_hold_enable(int rtcio_num)
{
SET_PERI_REG_MASK(RTC_CNTL_PAD_HOLD_REG, rtc_io_desc[rtcio_num].hold_force);
}
/**
* Disable hold function on an RTC IO pad
*
* @note If disable the pad hold, the status of pad maybe changed in sleep mode.
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_force_hold_disable(int rtcio_num)
{
CLEAR_PERI_REG_MASK(RTC_CNTL_PAD_HOLD_REG, rtc_io_desc[rtcio_num].hold_force);
}
/**
* Enable force hold function for RTC IO pad.
*
* Enabling HOLD function will cause the pad to lock current status, such as,
* input/output enable, input/output value, function, drive strength values.
* This function is useful when going into light or deep sleep mode to prevent
* the pin configuration from changing.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_force_hold_all(void)
{
SET_PERI_REG_MASK(RTC_CNTL_PWC_REG, RTC_CNTL_PAD_FORCE_HOLD_M);
}
/**
* Disable hold function on an RTC IO pad
*
* @note If disable the pad hold, the status of pad maybe changed in sleep mode.
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_force_unhold_all(void)
{
CLEAR_PERI_REG_MASK(RTC_CNTL_PWC_REG, RTC_CNTL_PAD_FORCE_HOLD_M);
}
/**
* Enable wakeup function and set wakeup type from light sleep status for rtcio.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
* @param type Wakeup on high level or low level.
*/
static inline void rtcio_ll_wakeup_enable(int rtcio_num, rtcio_ll_wake_type_t type)
{
RTCIO.pin[rtcio_num].wakeup_enable = 0x1;
RTCIO.pin[rtcio_num].int_type = type;
}
/**
* Disable wakeup function from light sleep status for rtcio.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_wakeup_disable(int rtcio_num)
{
RTCIO.pin[rtcio_num].wakeup_enable = 0;
RTCIO.pin[rtcio_num].int_type = RTCIO_WAKEUP_DISABLE;
}
/**
* Enable rtc io output in deep sleep.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_enable_output_in_sleep(gpio_num_t gpio_num)
{
if (rtc_io_desc[gpio_num].slpoe) {
SET_PERI_REG_MASK(rtc_io_desc[gpio_num].reg, rtc_io_desc[gpio_num].slpoe);
}
}
/**
* Disable rtc io output in deep sleep.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_in_sleep_disable_output(gpio_num_t gpio_num)
{
if (rtc_io_desc[gpio_num].slpoe) {
CLEAR_PERI_REG_MASK(rtc_io_desc[gpio_num].reg, rtc_io_desc[gpio_num].slpoe);
}
}
/**
* Enable rtc io input in deep sleep.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_in_sleep_enable_input(gpio_num_t gpio_num)
{
SET_PERI_REG_MASK(rtc_io_desc[gpio_num].reg, rtc_io_desc[gpio_num].slpie);
}
/**
* Disable rtc io input in deep sleep.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_in_sleep_disable_input(gpio_num_t gpio_num)
{
CLEAR_PERI_REG_MASK(rtc_io_desc[gpio_num].reg, rtc_io_desc[gpio_num].slpie);
}
/**
* Enable rtc io keep another setting in deep sleep.
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_enable_sleep_setting(gpio_num_t gpio_num)
{
SET_PERI_REG_MASK(rtc_io_desc[gpio_num].reg, rtc_io_desc[gpio_num].slpsel);
}
/**
* Disable rtc io keep another setting in deep sleep. (Default)
*
* @param rtcio_num The index of rtcio. 0 ~ MAX(rtcio).
*/
static inline void rtcio_ll_disable_sleep_setting(gpio_num_t gpio_num)
{
CLEAR_PERI_REG_MASK(rtc_io_desc[gpio_num].reg, rtc_io_desc[gpio_num].slpsel);
}