esp-open-rtos/core/include/esp/gpio.h

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/** esp_iomux.h
*
* GPIO functions.
*
* Part of esp-open-rtos
* Copyright (C) 2015 Superhouse Automation Pty Ltd
* BSD Licensed as described in the file LICENSE
*/
#ifndef _ESP_GPIO_H
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#define _ESP_GPIO_H
#include <stdbool.h>
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#include "esp/gpio_regs.h"
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#include "esp/rtc_regs.h"
#include "esp/iomux.h"
#include "esp/interrupts.h"
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#ifdef __cplusplus
extern "C" {
#endif
typedef enum {
GPIO_INPUT,
GPIO_OUTPUT, /* "Standard" push-pull output */
GPIO_OUT_OPEN_DRAIN, /* Open drain output */
} gpio_direction_t;
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/* Enable GPIO on the specified pin, and set it to input or output mode.
*/
void gpio_enable(const uint8_t gpio_num, const gpio_direction_t direction);
/* Enable/disable internal pullup resistor for a particular GPIO
*
* Note: According to Espressif, pullup resistor values are between 30K and
* 100K ohms (see http://bbs.espressif.com/viewtopic.php?t=1079#p4097)
* However, measured values suggest that the actual value is likely to be close
* to 47K in reality.
*
* NOTE: The enabled_during_sleep setting is currently untested (please send
* feedback if you give it a try)
*/
void gpio_set_pullup(uint8_t gpio_num, bool enabled, bool enabled_during_sleep);
/* Disable GPIO on the specified pin, and set it Hi-Z.
*
* If later muxing this pin to a different function, make sure to set
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* IOMUX_PIN_OUTPUT_ENABLE if necessary to enable the output buffer.
*/
static inline void gpio_disable(const uint8_t gpio_num)
{
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GPIO.ENABLE_OUT_CLEAR = BIT(gpio_num);
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*gpio_iomux_reg(gpio_num) &= ~IOMUX_PIN_OUTPUT_ENABLE;
}
/* Set whether the specified pin continues to drive its output when the ESP8266
* goes into sleep mode. Note that this setting is reset to off whenever
* gpio_enable is called, so this must be called after calling that function.
*
* NOTE: This functionality is currently untested (please send feedback if you
* give it a try)
*/
static inline void gpio_set_output_on_sleep(const uint8_t gpio_num, bool enabled)
{
if (enabled) {
IOMUX.PIN[gpio_to_iomux(gpio_num)] |= IOMUX_PIN_OUTPUT_ENABLE_SLEEP;
} else {
IOMUX.PIN[gpio_to_iomux(gpio_num)] &= ~IOMUX_PIN_OUTPUT_ENABLE_SLEEP;
}
}
/* Set output of a pin high or low.
*
* Only works if pin has been set to GPIO_OUTPUT or GPIO_OUT_OPEN_DRAIN via
* gpio_enable()
*
* If the mode is GPIO_OUT_OPEN_DRAIN, setting it low (false) will pull the pin
* down to ground, but setting it high (true) will allow it to float. Note
* that even in GPIO_OUT_OPEN_DRAIN mode, the input gates are still physically
* connected to the pin, and can be damaged if the voltage is not in either the
* "low" or "high" range. Make sure there is some sort of pull-up resistor on
* the line to avoid floating logic lines!
*/
static inline void gpio_write(const uint8_t gpio_num, const bool set)
{
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if (gpio_num == 16) {
RTC.GPIO_OUT = (RTC.GPIO_OUT & 0xfffffffe) | (set ? 1 : 0);
} else if (set)
GPIO.OUT_SET = BIT(gpio_num) & GPIO_OUT_PIN_MASK;
else
GPIO.OUT_CLEAR = BIT(gpio_num) & GPIO_OUT_PIN_MASK;
}
/* Toggle output of a pin
*
* Only works if pin has been set to GPIO_OUTPUT or GPIO_OUT_OPEN_DRAIN via
* gpio_enable()
*
* See notes in gpio_write() about GPIO_OUT_OPEN_DRAIN mode.
*/
static inline void gpio_toggle(const uint8_t gpio_num)
{
/* Why implement like this instead of GPIO_OUT_REG ^= xxx?
Concurrency. If an interrupt or higher priority task writes to
GPIO_OUT between reading and writing, only the gpio_num pin can
get an invalid value. Prevents one task from clobbering another
task's pins, without needing to disable/enable interrupts.
*/
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if (GPIO.OUT & BIT(gpio_num))
GPIO.OUT_CLEAR = BIT(gpio_num) & GPIO_OUT_PIN_MASK;
else
GPIO.OUT_SET = BIT(gpio_num) & GPIO_OUT_PIN_MASK;
}
/* Read input value of a GPIO pin.
*
* If pin is set GPIO_INPUT, this reads the level on the pin.
* If pin is set GPIO_OUTPUT, this reads the level at which the pin is
* currently being driven (i.e. the last value written).
* If pin is set GPIO_OUT_OPEN_DRAIN, when the pin is written low, this will
* return low (false), when the pin is written high, this will behave like
* GPIO_INPUT.
*/
static inline bool gpio_read(const uint8_t gpio_num)
{
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if (gpio_num == 16)
return RTC.GPIO_IN & 1;
else
return GPIO.IN & BIT(gpio_num);
}
extern void gpio_interrupt_handler(void);
/* Set the interrupt type for a given pin
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*
* If int_type is not GPIO_INTTYPE_NONE, the gpio_interrupt_handler will be
* attached and unmasked.
*/
static inline void gpio_set_interrupt(const uint8_t gpio_num, const gpio_inttype_t int_type)
{
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GPIO.CONF[gpio_num] = SET_FIELD(GPIO.CONF[gpio_num], GPIO_CONF_INTTYPE, int_type);
if(int_type != GPIO_INTTYPE_NONE) {
_xt_isr_attach(INUM_GPIO, gpio_interrupt_handler);
_xt_isr_unmask(1<<INUM_GPIO);
}
}
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/* Return the interrupt type set for a pin */
static inline gpio_inttype_t gpio_get_interrupt(const uint8_t gpio_num)
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{
return (gpio_inttype_t)FIELD2VAL(GPIO_CONF_INTTYPE, GPIO.CONF[gpio_num]);
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}
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/* Set GPIO I/O Mux function.
* The 'func' is an IOMUX_GPIO<n>_FUNC_<function> value, see iomux_regs.h
*/
inline static void gpio_set_iomux_function(const uint8_t gpio_num, uint32_t func)
{
uint8_t iomux_num = gpio_to_iomux(gpio_num);
uint32_t prev = IOMUX.PIN[iomux_num] & ~IOMUX_PIN_FUNC_MASK;
IOMUX.PIN[iomux_num] = func | prev;
}
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#ifdef __cplusplus
}
#endif
#endif