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OpenCellular/include/gpio.h
Shawn Nematbakhsh 8c9210b81e mec1322: hibernate: Don't reconfigure all GPIOs 
Configuring all GPIOs to INPUT / PULL_UP in hibernate is not a good
idea:

- INPUT / PULL_UP is not necessarially the lowest-power state (for
  example, if there is an onboard pull-down).
- Most GPIOs should already be in lowest-power state when we're in S5.
- For the few GPIOs that need to be in a different state for hibernate,
  we can use a board-level callback.

In addition, remove mec1322 code related to restoring from hibernate
state, since we always reset coming out of hibernate.

BUG=chrome-os-partner:49608
BRANCH=glados, strago
TEST=`hibernate` on chell console when in S5 and AC removed. Verify that
EC power is roughly equivalent to low-power idle power. Attach Zinger,
verify that device wakes and boots, and charges from charger.

Change-Id: Ib00ef035bec32cea3847eb38d743f5c0cec896ca
Signed-off-by: Shawn Nematbakhsh <shawnn@chromium.org>
Reviewed-on: https://chromium-review.googlesource.com/322937
Commit-Ready: Shawn N <shawnn@chromium.org>
Tested-by: Shawn N <shawnn@chromium.org>
Reviewed-by: Duncan Laurie <dlaurie@chromium.org>
Reviewed-by: Todd Broch <tbroch@chromium.org>
2016-01-25 19:48:21 -08:00

259 lines
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/* Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* GPIO module for Chrome EC */
#ifndef __CROS_EC_GPIO_H
#define __CROS_EC_GPIO_H
#include "common.h"
/* Flag definitions for gpio_info and gpio_alt_func */
/* The following are valid for both gpio_info and gpio_alt_func: */
#define GPIO_OPEN_DRAIN (1 << 0) /* Output type is open-drain */
#define GPIO_PULL_UP (1 << 1) /* Enable on-chip pullup */
#define GPIO_PULL_DOWN (1 << 2) /* Enable on-chip pulldown */
/* The following are valid for gpio_alt_func only */
#define GPIO_ANALOG (1 << 3) /* Set pin to analog-mode */
/* The following are valid for gpio_info only */
#define GPIO_INPUT (1 << 4) /* Input */
#define GPIO_OUTPUT (1 << 5) /* Output */
#define GPIO_LOW (1 << 6) /* If GPIO_OUTPUT, set level low */
#define GPIO_HIGH (1 << 7) /* If GPIO_OUTPUT, set level high */
#define GPIO_INT_F_RISING (1 << 8) /* Interrupt on rising edge */
#define GPIO_INT_F_FALLING (1 << 9) /* Interrupt on falling edge */
#define GPIO_INT_F_LOW (1 << 11) /* Interrupt on low level */
#define GPIO_INT_F_HIGH (1 << 12) /* Interrupt on high level */
#define GPIO_DEFAULT (1 << 13) /* Don't set up on boot */
#define GPIO_INT_DSLEEP (1 << 14) /* Interrupt in deep sleep */
#define GPIO_INT_SHARED (1 << 15) /* Shared among multiple pins */
#define GPIO_SEL_1P8V (1 << 16) /* Support 1.8v */
/* Common flag combinations */
#define GPIO_OUT_LOW (GPIO_OUTPUT | GPIO_LOW)
#define GPIO_OUT_HIGH (GPIO_OUTPUT | GPIO_HIGH)
#define GPIO_ODR_HIGH (GPIO_OUTPUT | GPIO_OPEN_DRAIN | GPIO_HIGH)
#define GPIO_ODR_LOW (GPIO_OUTPUT | GPIO_OPEN_DRAIN | GPIO_LOW)
#define GPIO_INT_RISING (GPIO_INPUT | GPIO_INT_F_RISING)
#define GPIO_INT_FALLING (GPIO_INPUT | GPIO_INT_F_FALLING)
/* TODO(crosbug.com/p/24204): "EDGE" would have been clearer than "BOTH". */
#define GPIO_INT_BOTH (GPIO_INT_RISING | GPIO_INT_FALLING)
#define GPIO_INT_LOW (GPIO_INPUT | GPIO_INT_F_LOW)
#define GPIO_INT_HIGH (GPIO_INPUT | GPIO_INT_F_HIGH)
#define GPIO_INT_LEVEL (GPIO_INT_LOW | GPIO_INT_HIGH)
#define GPIO_INT_ANY (GPIO_INT_BOTH | GPIO_INT_LEVEL)
#define GPIO_INT_BOTH_DSLEEP (GPIO_INT_BOTH | GPIO_INT_DSLEEP)
/* Convert GPIO mask to GPIO number / index. */
#define GPIO_MASK_TO_NUM(mask) (__fls(mask))
/* Convert a GPIO to a port + mask pair */
#define GPIO_TO_PORT_MASK_PAIR(gpio) \
{ gpio_list[(gpio)].port, \
GPIO_MASK_TO_NUM(gpio_list[(gpio)].mask) }
/* NOTE: This is normally included from board.h, thru config.h and common.h But,
* some boards and unit tests don't have a gpio_signal enum defined, so we
* define an emtpy one here.*/
#ifndef __CROS_EC_GPIO_SIGNAL_H
enum gpio_signal {
GPIO_COUNT
};
#endif /* __CROS_EC_GPIO_SIGNAL_H */
/* GPIO signal definition structure, for use by board.c */
struct gpio_info {
/* Signal name */
const char *name;
/* Port base address */
uint32_t port;
/* Bitmask on that port (1 << N; 0 = signal not implemented) */
uint32_t mask;
/* Flags (GPIO_*; see above) */
uint32_t flags;
};
/* Signal information from board.c. Must match order from enum gpio_signal. */
extern const struct gpio_info gpio_list[];
/* Interrupt handler table for those GPIOs which have IRQ handlers.
*
* If the signal's interrupt is enabled, this will be called in the
* context of the GPIO interrupt handler.
*/
extern void (* const gpio_irq_handlers[])(enum gpio_signal signal);
extern const int gpio_ih_count;
#define GPIO_IH_COUNT gpio_ih_count
/* GPIO alternate function structure, for use by board.c */
struct gpio_alt_func {
/* Port base address */
uint32_t port;
/* Bitmask on that port (multiple bits allowed) */
uint32_t mask;
/* Alternate function number */
uint8_t func;
/* Module ID (as uint8_t, since enum would be 32-bit) */
uint8_t module_id;
/* Flags (GPIO_*; see above). */
uint16_t flags;
};
extern const struct gpio_alt_func gpio_alt_funcs[];
extern const int gpio_alt_funcs_count;
/**
* Pre-initialize GPIOs.
*
* This occurs before clocks or tasks are set up.
*/
void gpio_pre_init(void);
/**
* Configure GPIO pin functions for a module.
*
* @param id Module ID to initialize
* @param enable Enable alternate functions if 1; high-Z pins if 0.
* @return EC_SUCCESS, or non-zero if module_id is not found.
*/
int gpio_config_module(enum module_id id, int enable);
/**
* Enable/disable alternate function for single pin
*
* @param id module ID of pins
* @param signal Signal to configure
* @param enable Enable alternate function if 1; GPIO if 0
* @return EC_SUCCESS, or non-zero if pin is not found.
* */
int gpio_config_pin(enum module_id id, enum gpio_signal signal, int enable);
/**
* Get the current value of a signal.
*
* @param signal Signal to get
* @return 0 if low, 1 if high.
*/
int gpio_get_level(enum gpio_signal signal);
/**
* Get faster access to a GPIO level.
*
* Use this function to find out the register address and mask for a GPIO
* value. Then you can just check that instead of calling gpio_get_level().
*
* @param signal Signal to return details for
* @param mask Mask value to use
* @return pointer to register to read to get GPIO value
*/
uint16_t *gpio_get_level_reg(enum gpio_signal signal, uint32_t *mask);
/**
* Return the name of a given GPIO signal.
*
* @param signal Signal to name
* @returns name of the given signal
*/
const char *gpio_get_name(enum gpio_signal signal);
/**
* Set the flags for a signal.
*
* @param signal Signal to set flags for
* @param flags New flags for the signal
*/
void gpio_set_flags(enum gpio_signal signal, int flags);
/**
* Set the value of a signal.
*
* @param signal Signal to set
* @param value New value for signal (0 = low, != high */
void gpio_set_level(enum gpio_signal signal, int value);
/**
* Reset the GPIO flags and alternate function state
*
* This returns the GPIO to it's default state of being a GPIO (not
* configured as an alternate function) with its default flags (those
* specified in gpio.inc when it was defined).
*
* @param signal Signal to reset
*/
void gpio_reset(enum gpio_signal signal);
/**
* Enable interrupts for the signal.
*
* The signal must have been defined with
* an interrupt handler. Normally called by the module which handles the
* interrupt, once it's ready to start processing interrupts.
*
* @param signal Signal to enable interrrupts for
* @return EC_SUCCESS, or non-zero if error.
*/
int gpio_enable_interrupt(enum gpio_signal signal);
/**
* Disable interrupts for the signal.
*
* The signal must have been defined with
* an interrupt handler. Normally called by the module which handles the
* interrupt, if it doesn't want to process interrupts.
*
* @param signal Signal to disable interrupts for
* @return EC_SUCCESS, or non-zero if error.
*/
int gpio_disable_interrupt(enum gpio_signal signal);
/**
* Set flags for GPIO(s) by port and mask.
*
* Use gpio_set_flags() to set flags for an individual GPIO by id.
*
* Note that modules should usually declare their GPIO alternate functions in
* gpio_alt_funcs[] and call gpio_init_module() instead of calling this
* directly.
*
* @param port GPIO port to set (GPIO_*)
* @param mask Bitmask of pins on that port to affect
* @param flags Flags (GPIO_*; see above)
*/
void gpio_set_flags_by_mask(uint32_t port, uint32_t mask, uint32_t flags);
/**
* Set alternate function for GPIO(s).
*
* Note that modules should usually declare their GPIO alternate functions in
* gpio_alt_funcs[] and call gpio_init_module() instead of calling this
* directly.
*
* @param port GPIO port to set (GPIO_*)
* @param mask Bitmask of pins on that port to affect
* @param func Alternate function; if <0, configures the specified
* GPIOs for normal GPIO operation.
*/
void gpio_set_alternate_function(uint32_t port, uint32_t mask, int func);
/**
* Enable GPIO peripheral clocks.
*
* This function is used by the GPIO implementation and should not be called
* outside of that context.
*/
void gpio_enable_clocks(void);
/* Optional board-level function to set hibernate GPIO states. */
void board_set_gpio_hibernate_state(void) __attribute__((weak));
#endif /* __CROS_EC_GPIO_H */
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