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pigweed / third_party / github / zephyrproject-rtos / zephyr / b867f0e8a629880e9a1536c084d8f3785a42754b / . / drivers / gpio / gpio_emul.c
blob: 4295cd8ab898f10445d392a85b2bf36a74d1956e [file] [log] [blame]
/*
* Copyright (c) 2020 Friedt Professional Engineering Services, Inc
*
* SPDX-License-Identifier: Apache-2.0
*/
#define DT_DRV_COMPAT zephyr_gpio_emul
#include <zephyr/device.h>
#include <zephyr/drivers/gpio.h>
#include <zephyr/drivers/gpio/gpio_emul.h>
#include <errno.h>
#include <zephyr/kernel.h>
#include <zephyr/pm/device.h>
#include "gpio_utils.h"
#define LOG_LEVEL CONFIG_GPIO_LOG_LEVEL
#include <zephyr/logging/log.h>
LOG_MODULE_REGISTER(gpio_emul);
#define GPIO_EMUL_INT_BITMASK \
(GPIO_INT_DISABLE | GPIO_INT_ENABLE | GPIO_INT_LEVELS_LOGICAL | \
GPIO_INT_EDGE | GPIO_INT_LOW_0 | GPIO_INT_HIGH_1)
/**
* @brief GPIO Emulator interrupt capabilities
*
* These enumerations are used as a bitmask and allow the GPIO Emulator to
* model GPIO interrupt controllers with varying interrupt trigger support.
*
* For example, some controllers to not support level interrupts,
* some controllers do not support rising and falling edge simultaneously,
* etc.
*
* This primarily affects the behaviour of @ref gpio_pin_interrupt_configure.
*/
enum gpio_emul_interrupt_cap {
GPIO_EMUL_INT_CAP_EDGE_RISING = 1,
GPIO_EMUL_INT_CAP_EDGE_FALLING = 2,
GPIO_EMUL_INT_CAP_LEVEL_HIGH = 16,
GPIO_EMUL_INT_CAP_LEVEL_LOW = 32,
};
/**
* @brief Emulated GPIO controller configuration data
*
* This structure contains all of the state for a given emulated GPIO
* controller as well as all of the pins associated with it.
*
* The @a flags member is a pointer to an array which is @a num_pins in size.
*
* @a num_pins must be in the range [1, @ref GPIO_MAX_PINS_PER_PORT].
*
* Pin direction as well as other pin properties are set using
* specific bits in @a flags. For more details, see @ref gpio_interface.
*
* Changes are synchronized using @ref gpio_emul_data.mu.
*/
struct gpio_emul_config {
/** Common @ref gpio_driver_config */
const struct gpio_driver_config common;
/** Number of pins available in the given GPIO controller instance */
const gpio_pin_t num_pins;
/** Supported interrupts */
const enum gpio_emul_interrupt_cap interrupt_caps;
};
/**
* @brief Emulated GPIO controller data
*
* This structure contains data structures used by a emulated GPIO
* controller.
*
* If the application wishes to specify a "wiring" for the emulated
* GPIO, then a @ref gpio_callback_handler_t should be registered using
* @ref gpio_add_callback.
*
* Changes are to @ref gpio_emul_data and @ref gpio_emul_config are
* synchronized using @a mu.
*/
struct gpio_emul_data {
/** Common @ref gpio_driver_data */
struct gpio_driver_data common;
/** Pointer to an array of flags is @a num_pins in size */
gpio_flags_t *flags;
/** Input values for each pin */
gpio_port_value_t input_vals;
/** Output values for each pin */
gpio_port_value_t output_vals;
/** Interrupt status for each pin */
gpio_port_pins_t interrupts;
/** Mutex to synchronize accesses to driver data and config */
struct k_mutex mu;
/** Singly-linked list of callbacks associated with the controller */
sys_slist_t callbacks;
};
/**
* @brief Obtain a mask of pins that match all of the provided @p flags
*
* Use this function to see which pins match the current GPIO configuration.
*
* The caller must ensure that @ref gpio_emul_data.mu is locked.
*
* @param port The emulated GPIO device pointer
* @param mask A mask of flags to match
* @param flags The flags to match
*
* @return a mask of the pins with matching @p flags
*/
static gpio_port_pins_t
get_pins_with_flags(const struct device *port, gpio_port_pins_t mask,
gpio_flags_t flags)
{
size_t i;
gpio_port_pins_t matched = 0;
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
for (i = 0; i < config->num_pins; ++i) {
if ((drv_data->flags[i] & mask) == flags) {
matched |= BIT(i);
}
}
return matched;
}
/**
* @brief Obtain a mask of pins that are configured as @ref GPIO_INPUT
*
* The caller must ensure that @ref gpio_emul_data.mu is locked.
*
* @param port The emulated GPIO device pointer
*
* @return a mask of pins that are configured as @ref GPIO_INPUT
*/
static inline gpio_port_pins_t get_input_pins(const struct device *port)
{
return get_pins_with_flags(port, GPIO_INPUT, GPIO_INPUT);
}
/**
* @brief Obtain a mask of pins that are configured as @ref GPIO_OUTPUT
*
* The caller must ensure that @ref gpio_emul_data.mu is locked.
*
* @param port The emulated GPIO device pointer
*
* @return a mask of pins that are configured as @ref GPIO_OUTPUT
*/
static inline gpio_port_pins_t get_output_pins(const struct device *port)
{
return get_pins_with_flags(port, GPIO_OUTPUT, GPIO_OUTPUT);
}
/**
* Check if @p port has capabilities specified in @p caps
*
* @param port The emulated GPIO device pointer
* @param caps A bitmask of @ref gpio_emul_interrupt_cap
*
* @return true if all @p caps are present, otherwise false
*/
static inline bool gpio_emul_config_has_caps(const struct device *port,
int caps) {
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
return (caps & config->interrupt_caps) == caps;
}
/*
* GPIO backend API (for setting input pin values)
*/
static void gpio_emul_gen_interrupt_bits(const struct device *port,
gpio_port_pins_t mask,
gpio_port_value_t prev_values,
gpio_port_value_t values,
gpio_port_pins_t *interrupts,
bool detect_edge)
{
size_t i;
bool bit;
bool prev_bit;
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
for (i = 0, *interrupts = 0; mask && i < config->num_pins;
++i, mask >>= 1, prev_values >>= 1, values >>= 1) {
if ((mask & 1) == 0) {
continue;
}
prev_bit = ((prev_values & 1) != 0);
bit = ((values & 1) != 0);
switch (drv_data->flags[i] & GPIO_EMUL_INT_BITMASK) {
case GPIO_INT_EDGE_RISING:
if (gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_EDGE_RISING)) {
if (detect_edge && !prev_bit && bit) {
*interrupts |= BIT(i);
}
}
break;
case GPIO_INT_EDGE_FALLING:
if (gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_EDGE_FALLING)) {
if (detect_edge && prev_bit && !bit) {
*interrupts |= BIT(i);
}
}
break;
case GPIO_INT_EDGE_BOTH:
if (gpio_emul_config_has_caps(port,
GPIO_EMUL_INT_CAP_EDGE_RISING | GPIO_EMUL_INT_CAP_EDGE_FALLING)) {
if (detect_edge && prev_bit != bit) {
*interrupts |= BIT(i);
}
}
break;
case GPIO_INT_LEVEL_LOW:
if (gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_LEVEL_LOW)) {
if (!bit) {
*interrupts |= BIT(i);
}
}
break;
case GPIO_INT_LEVEL_HIGH:
if (gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_LEVEL_HIGH)) {
if (bit) {
*interrupts |= BIT(i);
}
}
break;
case 0:
case GPIO_INT_DISABLE:
break;
default:
LOG_DBG("unhandled case %u",
drv_data->flags[i] & GPIO_EMUL_INT_BITMASK);
break;
}
}
}
/**
* @brief Trigger possible interrupt events after an input pin has changed
*
* For more information, see @ref gpio_interface.
*
* The caller must ensure that @ref gpio_emul_data.mu is locked.
*
* @param port The emulated GPIO port
* @param mask The mask of pins that have changed
* @param prev_values Previous pin values
* @param values Current pin values
*/
static void gpio_emul_pend_interrupt(const struct device *port, gpio_port_pins_t mask,
gpio_port_value_t prev_values,
gpio_port_value_t values)
{
gpio_port_pins_t interrupts;
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
gpio_emul_gen_interrupt_bits(port, mask, prev_values, values,
&interrupts, true);
while (interrupts != 0) {
gpio_fire_callbacks(&drv_data->callbacks, port, interrupts);
gpio_emul_gen_interrupt_bits(port, mask, prev_values, values,
&interrupts, false);
}
}
int gpio_emul_input_set_masked_pend(const struct device *port, gpio_port_pins_t mask,
gpio_port_value_t values, bool pend)
{
int ret;
gpio_port_pins_t input_mask;
gpio_port_pins_t prev_values;
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
if (mask == 0) {
return 0;
}
if (~config->common.port_pin_mask & mask) {
LOG_ERR("Pin not supported port_pin_mask=%x mask=%x",
config->common.port_pin_mask, mask);
return -EINVAL;
}
k_mutex_lock(&drv_data->mu, K_FOREVER);
input_mask = get_input_pins(port);
if (~input_mask & mask) {
LOG_ERR("Not input pin input_mask=%x mask=%x", input_mask,
mask);
ret = -EINVAL;
goto unlock;
}
prev_values = drv_data->input_vals;
drv_data->input_vals &= ~mask;
drv_data->input_vals |= values & mask;
values = drv_data->input_vals;
if (pend) {
gpio_emul_pend_interrupt(port, mask, prev_values, values);
}
ret = 0;
unlock:
k_mutex_unlock(&drv_data->mu);
return ret;
}
/* documented in drivers/gpio/gpio_emul.h */
int gpio_emul_input_set_masked(const struct device *port, gpio_port_pins_t mask,
gpio_port_value_t values)
{
return gpio_emul_input_set_masked_pend(port, mask, values, true);
}
/* documented in drivers/gpio/gpio_emul.h */
int gpio_emul_output_get_masked(const struct device *port, gpio_port_pins_t mask,
gpio_port_value_t *values)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
if (mask == 0) {
return 0;
}
if (~config->common.port_pin_mask & mask) {
return -EINVAL;
}
k_mutex_lock(&drv_data->mu, K_FOREVER);
*values = drv_data->output_vals & get_output_pins(port);
k_mutex_unlock(&drv_data->mu);
return 0;
}
/* documented in drivers/gpio/gpio_emul.h */
int gpio_emul_flags_get(const struct device *port, gpio_pin_t pin, gpio_flags_t *flags)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
if (flags == NULL) {
return -EINVAL;
}
if ((config->common.port_pin_mask & BIT(pin)) == 0) {
return -EINVAL;
}
k_mutex_lock(&drv_data->mu, K_FOREVER);
*flags = drv_data->flags[pin];
k_mutex_unlock(&drv_data->mu);
return 0;
}
/*
* GPIO Driver API
*
* API is documented at drivers/gpio.h
*/
static int gpio_emul_pin_configure(const struct device *port, gpio_pin_t pin,
gpio_flags_t flags)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
int rv;
if (flags & GPIO_OPEN_DRAIN) {
return -ENOTSUP;
}
if (flags & GPIO_OPEN_SOURCE) {
return -ENOTSUP;
}
if ((config->common.port_pin_mask & BIT(pin)) == 0) {
return -EINVAL;
}
k_mutex_lock(&drv_data->mu, K_FOREVER);
drv_data->flags[pin] = flags;
if (flags & GPIO_OUTPUT) {
if (flags & GPIO_OUTPUT_INIT_LOW) {
drv_data->output_vals &= ~BIT(pin);
if (flags & GPIO_INPUT) {
/* for push-pull mode to generate interrupts */
rv = gpio_emul_input_set_masked_pend(
port, BIT(pin), drv_data->output_vals,
false);
__ASSERT_NO_MSG(rv == 0);
}
} else if (flags & GPIO_OUTPUT_INIT_HIGH) {
drv_data->output_vals |= BIT(pin);
if (flags & GPIO_INPUT) {
/* for push-pull mode to generate interrupts */
rv = gpio_emul_input_set_masked_pend(
port, BIT(pin), drv_data->output_vals,
false);
__ASSERT_NO_MSG(rv == 0);
}
}
} else if (flags & GPIO_INPUT) {
if (flags & GPIO_PULL_UP) {
rv = gpio_emul_input_set_masked_pend(port, BIT(pin), BIT(pin),
false);
__ASSERT_NO_MSG(rv == 0);
} else if (flags & GPIO_PULL_DOWN) {
rv = gpio_emul_input_set_masked_pend(
port, BIT(pin), 0, false);
__ASSERT_NO_MSG(rv == 0);
}
}
k_mutex_unlock(&drv_data->mu);
gpio_fire_callbacks(&drv_data->callbacks, port, BIT(pin));
return 0;
}
#ifdef CONFIG_GPIO_GET_CONFIG
static int gpio_emul_pin_get_config(const struct device *port, gpio_pin_t pin,
gpio_flags_t *out_flags)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
k_mutex_lock(&drv_data->mu, K_FOREVER);
*out_flags = drv_data->flags[pin] &
~(GPIO_OUTPUT_INIT_LOW | GPIO_OUTPUT_INIT_HIGH
| GPIO_OUTPUT_INIT_LOGICAL);
if (drv_data->flags[pin] & GPIO_OUTPUT) {
if (drv_data->output_vals & BIT(pin)) {
*out_flags |= GPIO_OUTPUT_HIGH;
} else {
*out_flags |= GPIO_OUTPUT_LOW;
}
}
k_mutex_unlock(&drv_data->mu);
return 0;
}
#endif
static int gpio_emul_port_get_raw(const struct device *port, gpio_port_value_t *values)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
if (values == NULL) {
return -EINVAL;
}
k_mutex_lock(&drv_data->mu, K_FOREVER);
*values = drv_data->input_vals & get_input_pins(port);
k_mutex_unlock(&drv_data->mu);
return 0;
}
static int gpio_emul_port_set_masked_raw(const struct device *port,
gpio_port_pins_t mask,
gpio_port_value_t values)
{
gpio_port_pins_t output_mask;
gpio_port_pins_t prev_values;
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
int rv;
k_mutex_lock(&drv_data->mu, K_FOREVER);
output_mask = get_output_pins(port);
mask &= output_mask;
prev_values = drv_data->output_vals;
prev_values &= output_mask;
values &= mask;
drv_data->output_vals &= ~mask;
drv_data->output_vals |= values;
/* in push-pull, set input values & fire interrupts */
rv = gpio_emul_input_set_masked(port, mask & get_input_pins(port),
drv_data->output_vals);
k_mutex_unlock(&drv_data->mu);
__ASSERT_NO_MSG(rv == 0);
/* for output-wiring, so the user can take action based on output */
if (prev_values ^ values) {
gpio_fire_callbacks(&drv_data->callbacks, port, mask & ~get_input_pins(port));
}
return 0;
}
static int gpio_emul_port_set_bits_raw(const struct device *port,
gpio_port_pins_t pins)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
int rv;
k_mutex_lock(&drv_data->mu, K_FOREVER);
pins &= get_output_pins(port);
drv_data->output_vals |= pins;
/* in push-pull, set input values & fire interrupts */
rv = gpio_emul_input_set_masked(port, pins & get_input_pins(port),
drv_data->output_vals);
__ASSERT_NO_MSG(rv == 0);
k_mutex_unlock(&drv_data->mu);
/* for output-wiring, so the user can take action based on output */
gpio_fire_callbacks(&drv_data->callbacks, port, pins & ~get_input_pins(port));
return 0;
}
static int gpio_emul_port_clear_bits_raw(const struct device *port,
gpio_port_pins_t pins)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
int rv;
k_mutex_lock(&drv_data->mu, K_FOREVER);
pins &= get_output_pins(port);
drv_data->output_vals &= ~pins;
/* in push-pull, set input values & fire interrupts */
rv = gpio_emul_input_set_masked(port, pins & get_input_pins(port), drv_data->output_vals);
k_mutex_unlock(&drv_data->mu);
__ASSERT_NO_MSG(rv == 0);
/* for output-wiring, so the user can take action based on output */
gpio_fire_callbacks(&drv_data->callbacks, port, pins & ~get_input_pins(port));
return 0;
}
static int gpio_emul_port_toggle_bits(const struct device *port, gpio_port_pins_t pins)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
int rv;
k_mutex_lock(&drv_data->mu, K_FOREVER);
drv_data->output_vals ^= (pins & get_output_pins(port));
/* in push-pull, set input values but do not fire interrupts (yet) */
rv = gpio_emul_input_set_masked_pend(port, pins & get_input_pins(port),
drv_data->output_vals, false);
k_mutex_unlock(&drv_data->mu);
__ASSERT_NO_MSG(rv == 0);
/* for output-wiring, so the user can take action based on output */
gpio_fire_callbacks(&drv_data->callbacks, port, pins);
return 0;
}
static bool gpio_emul_level_trigger_supported(const struct device *port,
enum gpio_int_trig trig)
{
switch (trig) {
case GPIO_INT_TRIG_LOW:
return gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_LEVEL_LOW);
case GPIO_INT_TRIG_HIGH:
return gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_LEVEL_HIGH);
case GPIO_INT_TRIG_BOTH:
return gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_LEVEL_LOW
| GPIO_EMUL_INT_CAP_LEVEL_HIGH);
default:
return false;
}
}
static bool gpio_emul_edge_trigger_supported(const struct device *port,
enum gpio_int_trig trig)
{
switch (trig) {
case GPIO_INT_TRIG_LOW:
return gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_EDGE_FALLING);
case GPIO_INT_TRIG_HIGH:
return gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_EDGE_RISING);
case GPIO_INT_TRIG_BOTH:
return gpio_emul_config_has_caps(port, GPIO_EMUL_INT_CAP_EDGE_FALLING
| GPIO_EMUL_INT_CAP_EDGE_RISING);
default:
return false;
}
}
static int gpio_emul_pin_interrupt_configure(const struct device *port, gpio_pin_t pin,
enum gpio_int_mode mode,
enum gpio_int_trig trig)
{
int ret;
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config =
(const struct gpio_emul_config *)port->config;
if ((BIT(pin) & config->common.port_pin_mask) == 0) {
return -EINVAL;
}
if (mode != GPIO_INT_MODE_DISABLED) {
switch (trig) {
case GPIO_INT_TRIG_LOW:
case GPIO_INT_TRIG_HIGH:
case GPIO_INT_TRIG_BOTH:
break;
default:
return -EINVAL;
}
}
if (mode == GPIO_INT_MODE_LEVEL) {
if (!gpio_emul_level_trigger_supported(port, trig)) {
return -ENOTSUP;
}
}
if (mode == GPIO_INT_MODE_EDGE) {
if (!gpio_emul_edge_trigger_supported(port, trig)) {
return -ENOTSUP;
}
}
k_mutex_lock(&drv_data->mu, K_FOREVER);
switch (mode) {
case GPIO_INT_MODE_DISABLED:
drv_data->flags[pin] &= ~GPIO_EMUL_INT_BITMASK;
drv_data->flags[pin] |= GPIO_INT_DISABLE;
break;
case GPIO_INT_MODE_LEVEL:
case GPIO_INT_MODE_EDGE:
drv_data->flags[pin] &= ~GPIO_EMUL_INT_BITMASK;
drv_data->flags[pin] |= (mode | trig);
break;
default:
ret = -EINVAL;
goto unlock;
}
ret = 0;
unlock:
k_mutex_unlock(&drv_data->mu);
return ret;
}
static int gpio_emul_manage_callback(const struct device *port,
struct gpio_callback *cb, bool set)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)port->data;
return gpio_manage_callback(&drv_data->callbacks, cb, set);
}
static gpio_port_pins_t gpio_emul_get_pending_int(const struct device *dev)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)dev->data;
return drv_data->interrupts;
}
#ifdef CONFIG_GPIO_GET_DIRECTION
static int gpio_emul_port_get_direction(const struct device *port, gpio_port_pins_t map,
gpio_port_pins_t *inputs, gpio_port_pins_t *outputs)
{
int i;
gpio_port_pins_t ip = 0;
gpio_port_pins_t op = 0;
struct gpio_emul_data *const drv_data = (struct gpio_emul_data *)port->data;
const struct gpio_emul_config *config = (const struct gpio_emul_config *)port->config;
map &= config->common.port_pin_mask;
if (inputs != NULL) {
for (i = find_lsb_set(map) - 1; map;
map &= ~BIT(i), i = find_lsb_set(map) - 1) {
ip |= !!(drv_data->flags[i] & GPIO_INPUT) * BIT(i);
}
*inputs = ip;
}
if (outputs != NULL) {
for (i = find_lsb_set(map) - 1; map;
map &= ~BIT(i), i = find_lsb_set(map) - 1) {
op |= !!(drv_data->flags[i] & GPIO_OUTPUT) * BIT(i);
}
*outputs = op;
}
return 0;
}
#endif /* CONFIG_GPIO_GET_DIRECTION */
static const struct gpio_driver_api gpio_emul_driver = {
.pin_configure = gpio_emul_pin_configure,
#ifdef CONFIG_GPIO_GET_CONFIG
.pin_get_config = gpio_emul_pin_get_config,
#endif
.port_get_raw = gpio_emul_port_get_raw,
.port_set_masked_raw = gpio_emul_port_set_masked_raw,
.port_set_bits_raw = gpio_emul_port_set_bits_raw,
.port_clear_bits_raw = gpio_emul_port_clear_bits_raw,
.port_toggle_bits = gpio_emul_port_toggle_bits,
.pin_interrupt_configure = gpio_emul_pin_interrupt_configure,
.manage_callback = gpio_emul_manage_callback,
.get_pending_int = gpio_emul_get_pending_int,
#ifdef CONFIG_GPIO_GET_DIRECTION
.port_get_direction = gpio_emul_port_get_direction,
#endif /* CONFIG_GPIO_GET_DIRECTION */
};
static int gpio_emul_init(const struct device *dev)
{
struct gpio_emul_data *drv_data =
(struct gpio_emul_data *)dev->data;
sys_slist_init(&drv_data->callbacks);
return k_mutex_init(&drv_data->mu);
}
#ifdef CONFIG_PM_DEVICE
static int gpio_emul_pm_device_pm_action(const struct device *dev,
enum pm_device_action action)
{
ARG_UNUSED(dev);
ARG_UNUSED(action);
return 0;
}
#endif
/*
* Device Initialization
*/
#define GPIO_EMUL_INT_CAPS(_num) (0 \
+ DT_INST_PROP(_num, rising_edge) \
* GPIO_EMUL_INT_CAP_EDGE_RISING \
+ DT_INST_PROP(_num, falling_edge) \
* GPIO_EMUL_INT_CAP_EDGE_FALLING \
+ DT_INST_PROP(_num, high_level) \
* GPIO_EMUL_INT_CAP_LEVEL_HIGH \
+ DT_INST_PROP(_num, low_level) \
* GPIO_EMUL_INT_CAP_LEVEL_LOW \
)
#define DEFINE_GPIO_EMUL(_num) \
\
static gpio_flags_t \
gpio_emul_flags_##_num[DT_INST_PROP(_num, ngpios)]; \
\
static const struct gpio_emul_config gpio_emul_config_##_num = {\
.common = { \
.port_pin_mask = \
GPIO_PORT_PIN_MASK_FROM_DT_INST(_num), \
}, \
.num_pins = DT_INST_PROP(_num, ngpios), \
.interrupt_caps = GPIO_EMUL_INT_CAPS(_num) \
}; \
BUILD_ASSERT( \
DT_INST_PROP(_num, ngpios) <= GPIO_MAX_PINS_PER_PORT, \
"Too many ngpios"); \
\
static struct gpio_emul_data gpio_emul_data_##_num = { \
.flags = gpio_emul_flags_##_num, \
}; \
\
PM_DEVICE_DT_INST_DEFINE(_num, gpio_emul_pm_device_pm_action); \
\
DEVICE_DT_INST_DEFINE(_num, gpio_emul_init, \
PM_DEVICE_DT_INST_GET(_num), \
&gpio_emul_data_##_num, \
&gpio_emul_config_##_num, POST_KERNEL, \
CONFIG_GPIO_INIT_PRIORITY, \
&gpio_emul_driver);
DT_INST_FOREACH_STATUS_OKAY(DEFINE_GPIO_EMUL)