src/include/gpio.h - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */

 #ifndef __SRC_INCLUDE_GPIO_H__
 #define __SRC_INCLUDE_GPIO_H__

 #include <soc/gpio.h>
 #include <types.h>

 /* <soc/gpio.h> must typedef a gpio_t that fits in 32 bits. */
 _Static_assert(sizeof(gpio_t) <= sizeof(u32), "gpio_t doesn't fit in lb_gpio");

 /* The following functions must be implemented by SoC/board code. */
 int gpio_get(gpio_t gpio);
 void gpio_set(gpio_t gpio, int value);
 void gpio_input_pulldown(gpio_t gpio);
 void gpio_input_pullup(gpio_t gpio);
 void gpio_input(gpio_t gpio);
 void gpio_output(gpio_t gpio, int value);
 uint32_t _gpio_base3_value(const gpio_t gpio[], int num_gpio, int binary_first);

 /*
  * This function may be implemented by SoC/board code to provide
  * a mapping from a GPIO pin to controller by returning the ACPI
  * path for the controller that owns this GPIO.
  *
  * If not implemented the default handler will return NULL.
  */
 const char *gpio_acpi_path(gpio_t gpio);

 /*
  * This function may be implemented by SoC/board code to provide
  * a mapping from the internal representation of a GPIO to the 16bit
  * value used in an ACPI GPIO pin table entry.
  *
  * If not implemented by the SOC the default handler will return 0
  * because the underlying type of gpio_t is unknown.
  */
 uint16_t gpio_acpi_pin(gpio_t gpio);

 /*
  * Read the value presented by the set of GPIOs, when each pin is interpreted
  * as a base-2 digit (LOW = 0, HIGH = 1).
  *
  * gpio[]: pin positions to read. gpio[0] is less significant than gpio[1].
  * num_gpio: number of pins to read.
  *
  * There are also pulldown and pullup variants which default each gpio to
  * be configured with an internal pulldown and pullup, respectively.
  */
 uint32_t gpio_base2_value(const gpio_t gpio[], int num_gpio);
 uint32_t gpio_pulldown_base2_value(const gpio_t gpio[], int num_gpio);
 uint32_t gpio_pullup_base2_value(const gpio_t gpio[], int num_gpio);

 /*
  * Read the value presented by the set of GPIOs, when each pin is interpreted
  * as a base-3 digit (LOW = 0, HIGH = 1, Z/floating = 2).
  * Example: X1 = Z, X2 = 1 -> gpio_base3_value({GPIO(X1), GPIO(X2)}) = 5
  * BASE3() from <base3.h> can generate numbers to compare the result to.
  *
  * gpio[]: pin positions to read. gpio[0] is less significant than gpio[1].
  * num_gpio: number of pins to read.
  */
 static inline uint32_t gpio_base3_value(const gpio_t gpio[], int num_gpio)
 {
 	return _gpio_base3_value(gpio, num_gpio, 0);
 }

 /*
  * Read the value presented by the set of GPIOs, when each pin is interpreted
  * as a base-3 digit (LOW = 0, HIGH = 1, Z/floating = 2) in a non-standard
  * ternary number system where the first 2^n natural numbers are represented
  * as they would be in a binary system (without any Z digits), and the following
  * 3^n-2^n numbers use the remaining ternary representations in the normal
  * ternary system order (skipping the values that were already used up).
  * This is useful for boards which initially used a binary board ID and later
  * decided to switch to tri-state after some revisions have already been built.
  * Example: For num_gpio = 2 we get the following representation:
  *
  *   Number      X1     X0
  *     0          0      0
  *     1          0      1
  *     2          1      0
  *     3          1      1	// Start counting ternaries back at 0 after this
  *     4          0      2	// Skipping 00 and 01 which are already used up
  *     5          1      2	// Skipping 10 and 11 which are already used up
  *     6          2      0
  *     7          2      1
  *     8          2      2
  *
  * gpio[]: pin positions to read. gpio[0] is less significant than gpio[1].
  * num_gpio: number of pins to read.
  */
 static inline uint32_t gpio_binary_first_base3_value(const gpio_t gpio[],
 						     int num_gpio)
 {
 	return _gpio_base3_value(gpio, num_gpio, 1);
 }

 #endif /* __SRC_INCLUDE_GPIO_H__ */
	/* SPDX-License-Identifier: GPL-2.0-only */

	#ifndef __SRC_INCLUDE_GPIO_H__
	#define __SRC_INCLUDE_GPIO_H__

	#include <soc/gpio.h>
	#include <types.h>

	/* <soc/gpio.h> must typedef a gpio_t that fits in 32 bits. */
	_Static_assert(sizeof(gpio_t) <= sizeof(u32), "gpio_t doesn't fit in lb_gpio");

	/* The following functions must be implemented by SoC/board code. */
	int gpio_get(gpio_t gpio);
	void gpio_set(gpio_t gpio, int value);
	void gpio_input_pulldown(gpio_t gpio);
	void gpio_input_pullup(gpio_t gpio);
	void gpio_input(gpio_t gpio);
	void gpio_output(gpio_t gpio, int value);
	uint32_t _gpio_base3_value(const gpio_t gpio[], int num_gpio, int binary_first);

	/*
	* This function may be implemented by SoC/board code to provide
	* a mapping from a GPIO pin to controller by returning the ACPI
	* path for the controller that owns this GPIO.
	*
	* If not implemented the default handler will return NULL.
	*/
	const char *gpio_acpi_path(gpio_t gpio);

	/*
	* This function may be implemented by SoC/board code to provide
	* a mapping from the internal representation of a GPIO to the 16bit
	* value used in an ACPI GPIO pin table entry.
	*
	* If not implemented by the SOC the default handler will return 0
	* because the underlying type of gpio_t is unknown.
	*/
	uint16_t gpio_acpi_pin(gpio_t gpio);

	/*
	* Read the value presented by the set of GPIOs, when each pin is interpreted
	* as a base-2 digit (LOW = 0, HIGH = 1).
	*
	* gpio[]: pin positions to read. gpio[0] is less significant than gpio[1].
	* num_gpio: number of pins to read.
	*
	* There are also pulldown and pullup variants which default each gpio to
	* be configured with an internal pulldown and pullup, respectively.
	*/
	uint32_t gpio_base2_value(const gpio_t gpio[], int num_gpio);
	uint32_t gpio_pulldown_base2_value(const gpio_t gpio[], int num_gpio);
	uint32_t gpio_pullup_base2_value(const gpio_t gpio[], int num_gpio);

	/*
	* Read the value presented by the set of GPIOs, when each pin is interpreted
	* as a base-3 digit (LOW = 0, HIGH = 1, Z/floating = 2).
	* Example: X1 = Z, X2 = 1 -> gpio_base3_value({GPIO(X1), GPIO(X2)}) = 5
	* BASE3() from <base3.h> can generate numbers to compare the result to.
	*
	* gpio[]: pin positions to read. gpio[0] is less significant than gpio[1].
	* num_gpio: number of pins to read.
	*/
	static inline uint32_t gpio_base3_value(const gpio_t gpio[], int num_gpio)
	{
	return _gpio_base3_value(gpio, num_gpio, 0);
	}

	/*
	* Read the value presented by the set of GPIOs, when each pin is interpreted
	* as a base-3 digit (LOW = 0, HIGH = 1, Z/floating = 2) in a non-standard
	* ternary number system where the first 2^n natural numbers are represented
	* as they would be in a binary system (without any Z digits), and the following
	* 3^n-2^n numbers use the remaining ternary representations in the normal
	* ternary system order (skipping the values that were already used up).
	* This is useful for boards which initially used a binary board ID and later
	* decided to switch to tri-state after some revisions have already been built.
	* Example: For num_gpio = 2 we get the following representation:
	*
	* Number X1 X0
	* 0 0 0
	* 1 0 1
	* 2 1 0
	* 3 1 1 // Start counting ternaries back at 0 after this
	* 4 0 2 // Skipping 00 and 01 which are already used up
	* 5 1 2 // Skipping 10 and 11 which are already used up
	* 6 2 0
	* 7 2 1
	* 8 2 2
	*
	* gpio[]: pin positions to read. gpio[0] is less significant than gpio[1].
	* num_gpio: number of pins to read.
	*/
	static inline uint32_t gpio_binary_first_base3_value(const gpio_t gpio[],
	int num_gpio)
	{
	return _gpio_base3_value(gpio, num_gpio, 1);
	}

	#endif /* __SRC_INCLUDE_GPIO_H__ */