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pigweed / third_party / github / zephyrproject-rtos / zephyr / b6612f459ba5f30a1f7780698151c726432cf046 / . / drivers / gpio / gpio_k64.c
blob: 0ea3ddd94acfd1b7b2bf4cad4b0718f0e11e9863 [file] [log] [blame]
/*
* Copyright (c) 2016, Wind River Systems, Inc.
*
* 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.
*/
/**
* @file Driver for the Freescale K64 GPIO module.
*/
#include <errno.h>
#include <nanokernel.h>
#include <device.h>
#include <init.h>
#include <gpio.h>
#include <soc.h>
#include <sys_io.h>
#include <pinmux/frdm_k64f/pinmux_k64.h>
#include "gpio_k64.h"
#include "gpio_utils.h"
#include "gpio_api_compat.h"
static int gpio_k64_config(struct device *dev,
int access_op, uint32_t pin, int flags)
{
const struct gpio_k64_config * const cfg = dev->config->config_info;
uint32_t value;
uint32_t setting;
uint8_t i;
/* check for an invalid pin configuration */
if (((flags & GPIO_INT) && (flags & GPIO_DIR_OUT)) ||
((flags & GPIO_DIR_IN) && (flags & GPIO_DIR_OUT))) {
return -ENOTSUP;
}
/*
* Setup direction register:
* 0 - pin is input, 1 - pin is output
*/
if (access_op == GPIO_ACCESS_BY_PIN) {
if ((flags & GPIO_DIR_MASK) == GPIO_DIR_IN) {
sys_clear_bit((cfg->gpio_base_addr +
GPIO_K64_DIR_OFFSET), pin);
} else { /* GPIO_DIR_OUT */
sys_set_bit((cfg->gpio_base_addr +
GPIO_K64_DIR_OFFSET), pin);
}
} else { /* GPIO_ACCESS_BY_PORT */
if ((flags & GPIO_DIR_MASK) == GPIO_DIR_IN) {
value = 0x0;
} else { /* GPIO_DIR_OUT */
value = 0xFFFFFFFF;
}
sys_write32(value, (cfg->gpio_base_addr + GPIO_K64_DIR_OFFSET));
}
/*
* Set up pullup/pulldown configuration, in Port Control module:
*/
if ((flags & GPIO_PUD_MASK) == GPIO_PUD_PULL_UP) {
setting = (K64_PINMUX_PULL_ENABLE | K64_PINMUX_PULL_UP);
} else if ((flags & GPIO_PUD_MASK) == GPIO_PUD_PULL_DOWN) {
setting = (K64_PINMUX_PULL_ENABLE | K64_PINMUX_PULL_DN);
} else if ((flags & GPIO_PUD_MASK) == GPIO_PUD_NORMAL) {
setting = K64_PINMUX_PULL_DISABLE;
} else {
return -ENOTSUP;
}
/*
* Set up interrupt configuration, in Port Control module:
*/
if (flags & GPIO_INT) {
/* edge or level */
if (flags & GPIO_INT_EDGE) {
if (flags & GPIO_INT_ACTIVE_HIGH) {
setting |= K64_PINMUX_INT_RISING;
} else if (flags & GPIO_INT_DOUBLE_EDGE) {
setting |= K64_PINMUX_INT_BOTH_EDGE;
} else {
setting |= K64_PINMUX_INT_FALLING;
}
} else { /* GPIO_INT_LEVEL */
if (flags & GPIO_INT_ACTIVE_HIGH) {
setting |= K64_PINMUX_INT_HIGH;
} else {
setting |= K64_PINMUX_INT_LOW;
}
}
}
/* write pull-up/-down and, if set, interrupt configuration settings */
if (access_op == GPIO_ACCESS_BY_PIN) {
value = sys_read32((cfg->port_base_addr +
K64_PINMUX_CTRL_OFFSET(pin)));
/* clear, then set configuration values */
value &= ~(K64_PINMUX_PULL_EN_MASK | K64_PINMUX_PULL_SEL_MASK);
if (flags & GPIO_INT) {
value &= ~K64_PINMUX_INT_MASK;
}
/* Pins must configured as gpio */
value |= (setting | K64_PINMUX_FUNC_GPIO);
sys_write32(value, (cfg->port_base_addr +
K64_PINMUX_CTRL_OFFSET(pin)));
} else { /* GPIO_ACCESS_BY_PORT */
for (i = 0; i < K64_PINMUX_NUM_PINS; i++) {
/* clear, then set configuration values */
value = sys_read32((cfg->port_base_addr +
K64_PINMUX_CTRL_OFFSET(i)));
value &= ~(K64_PINMUX_PULL_EN_MASK |
K64_PINMUX_PULL_SEL_MASK);
if (flags & GPIO_INT) {
value &= ~K64_PINMUX_INT_MASK;
}
/* Pins must configured as gpio */
value |= (setting | K64_PINMUX_FUNC_GPIO);
sys_write32(value, (cfg->port_base_addr +
K64_PINMUX_CTRL_OFFSET(i)));
}
}
return 0;
}
static int gpio_k64_write(struct device *dev,
int access_op, uint32_t pin, uint32_t value)
{
const struct gpio_k64_config * const cfg = dev->config->config_info;
if (access_op == GPIO_ACCESS_BY_PIN) {
if (value) {
sys_set_bit((cfg->gpio_base_addr +
GPIO_K64_DATA_OUT_OFFSET), pin);
} else {
sys_clear_bit((cfg->gpio_base_addr +
GPIO_K64_DATA_OUT_OFFSET), pin);
}
} else { /* GPIO_ACCESS_BY_PORT */
sys_write32(value, (cfg->gpio_base_addr +
GPIO_K64_DATA_OUT_OFFSET));
}
return 0;
}
static int gpio_k64_read(struct device *dev,
int access_op, uint32_t pin, uint32_t *value)
{
const struct gpio_k64_config * const cfg = dev->config->config_info;
*value = sys_read32((cfg->gpio_base_addr + GPIO_K64_DATA_IN_OFFSET));
if (access_op == GPIO_ACCESS_BY_PIN) {
*value = (*value & BIT(pin)) >> pin;
}
/* nothing more to do for GPIO_ACCESS_BY_PORT */
return 0;
}
static int gpio_k64_manage_callback(struct device *dev,
struct gpio_callback *callback, bool set)
{
struct gpio_k64_data *data = dev->driver_data;
_gpio_manage_callback(&data->callbacks, callback, set);
return 0;
}
static int gpio_k64_enable_callback(struct device *dev,
int access_op, uint32_t pin)
{
struct gpio_k64_data *data = dev->driver_data;
if (access_op == GPIO_ACCESS_BY_PIN) {
_gpio_enable_callback(dev, BIT(pin));
data->pin_callback_enables |= BIT(pin);
} else {
_gpio_enable_callback(dev, 0xFFFFFFFF);
data->pin_callback_enables = 0xFFFFFFFF;
}
return 0;
}
static int gpio_k64_disable_callback(struct device *dev,
int access_op, uint32_t pin)
{
struct gpio_k64_data *data = dev->driver_data;
if (access_op == GPIO_ACCESS_BY_PIN) {
_gpio_disable_callback(dev, BIT(pin));
data->pin_callback_enables &= ~BIT(pin);
} else {
_gpio_disable_callback(dev, 0xFFFFFFFF);
data->pin_callback_enables = 0;
}
return 0;
}
/**
* @brief Handler for port interrupts
* @param dev Pointer to device structure for driver instance
*
* @return N/A
*/
static void gpio_k64_port_isr(void *dev)
{
struct device *port = (struct device *)dev;
struct gpio_k64_data *data = port->driver_data;
struct gpio_k64_config *config = port->config->config_info;
mem_addr_t int_status_reg_addr;
uint32_t enabled_int, int_status;
int_status_reg_addr = config->port_base_addr +
CONFIG_PORT_K64_INT_STATUS_OFFSET;
int_status = sys_read32(int_status_reg_addr);
enabled_int = int_status & data->pin_callback_enables;
_gpio_fire_callbacks(&data->callbacks, port, enabled_int);
/* clear the port interrupts */
sys_write32(0xFFFFFFFF, int_status_reg_addr);
}
static struct gpio_driver_api gpio_k64_drv_api_funcs = {
.config = gpio_k64_config,
.write = gpio_k64_write,
.read = gpio_k64_read,
.manage_callback = gpio_k64_manage_callback,
.enable_callback = gpio_k64_enable_callback,
.disable_callback = gpio_k64_disable_callback,
};
/* Initialization for Port A */
#ifdef CONFIG_GPIO_K64_A
static int gpio_k64_A_init(struct device *dev);
static struct gpio_k64_config gpio_k64_A_cfg = {
.gpio_base_addr = GPIO_K64_A_BASE_ADDR,
.port_base_addr = PORT_K64_A_BASE_ADDR,
};
static struct gpio_k64_data gpio_data_A;
DEVICE_AND_API_INIT(gpio_k64_A, CONFIG_GPIO_K64_A_DEV_NAME, gpio_k64_A_init,
&gpio_data_A, &gpio_k64_A_cfg,
SECONDARY, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT,
&gpio_k64_drv_api_funcs);
GPIO_SETUP_COMPAT_DEV(gpio_k64_A);
static int gpio_k64_A_init(struct device *dev)
{
IRQ_CONNECT(GPIO_K64_A_IRQ, CONFIG_GPIO_K64_PORTA_PRI,
gpio_k64_port_isr, DEVICE_GET(gpio_k64_A), 0);
irq_enable(GPIO_K64_A_IRQ);
return 0;
}
#endif /* CONFIG_GPIO_K64_A */
/* Initialization for Port B */
#ifdef CONFIG_GPIO_K64_B
static int gpio_k64_B_init(struct device *dev);
static struct gpio_k64_config gpio_k64_B_cfg = {
.gpio_base_addr = GPIO_K64_B_BASE_ADDR,
.port_base_addr = PORT_K64_B_BASE_ADDR,
};
static struct gpio_k64_data gpio_data_B;
DEVICE_AND_API_INIT(gpio_k64_B, CONFIG_GPIO_K64_B_DEV_NAME, gpio_k64_B_init,
&gpio_data_B, &gpio_k64_B_cfg,
SECONDARY, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT,
&gpio_k64_drv_api_funcs);
GPIO_SETUP_COMPAT_DEV(gpio_k64_B);
static int gpio_k64_B_init(struct device *dev)
{
IRQ_CONNECT(GPIO_K64_B_IRQ, CONFIG_GPIO_K64_PORTB_PRI,
gpio_k64_port_isr, DEVICE_GET(gpio_k64_B), 0);
irq_enable(GPIO_K64_B_IRQ);
return 0;
}
#endif /* CONFIG_GPIO_K64_B */
/* Initialization for Port C */
#ifdef CONFIG_GPIO_K64_C
static int gpio_k64_C_init(struct device *dev);
static struct gpio_k64_config gpio_k64_C_cfg = {
.gpio_base_addr = GPIO_K64_C_BASE_ADDR,
.port_base_addr = PORT_K64_C_BASE_ADDR,
};
static struct gpio_k64_data gpio_data_C;
DEVICE_AND_API_INIT(gpio_k64_C, CONFIG_GPIO_K64_C_DEV_NAME, gpio_k64_C_init,
&gpio_data_C, &gpio_k64_C_cfg,
SECONDARY, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT,
&gpio_k64_drv_api_funcs);
GPIO_SETUP_COMPAT_DEV(gpio_k64_C);
static int gpio_k64_C_init(struct device *dev)
{
IRQ_CONNECT(GPIO_K64_C_IRQ, CONFIG_GPIO_K64_PORTC_PRI,
gpio_k64_port_isr, DEVICE_GET(gpio_k64_C), 0);
irq_enable(GPIO_K64_C_IRQ);
return 0;
}
#endif /* CONFIG_GPIO_K64_C */
/* Initialization for Port D */
#ifdef CONFIG_GPIO_K64_D
static int gpio_k64_D_init(struct device *dev);
static struct gpio_k64_config gpio_k64_D_cfg = {
.gpio_base_addr = GPIO_K64_D_BASE_ADDR,
.port_base_addr = PORT_K64_D_BASE_ADDR,
};
static struct gpio_k64_data gpio_data_D;
DEVICE_AND_API_INIT(gpio_k64_D, CONFIG_GPIO_K64_D_DEV_NAME, gpio_k64_D_init,
&gpio_data_D, &gpio_k64_D_cfg,
SECONDARY, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT,
&gpio_k64_drv_api_funcs);
GPIO_SETUP_COMPAT_DEV(gpio_k64_D);
static int gpio_k64_D_init(struct device *dev)
{
IRQ_CONNECT(GPIO_K64_D_IRQ, CONFIG_GPIO_K64_PORTD_PRI,
gpio_k64_port_isr, DEVICE_GET(gpio_k64_D), 0);
irq_enable(GPIO_K64_D_IRQ);
return 0;
}
#endif /* CONFIG_GPIO_K64_D */
/* Initialization for Port E */
#ifdef CONFIG_GPIO_K64_E
static int gpio_k64_E_init(struct device *dev);
static struct gpio_k64_config gpio_k64_E_cfg = {
.gpio_base_addr = GPIO_K64_E_BASE_ADDR,
.port_base_addr = PORT_K64_E_BASE_ADDR,
};
static struct gpio_k64_data gpio_data_E;
DEVICE_AND_API_INIT(gpio_k64_E, CONFIG_GPIO_K64_E_DEV_NAME, gpio_k64_E_init,
&gpio_data_E, &gpio_k64_E_cfg,
SECONDARY, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT,
&gpio_k64_drv_api_funcs);
GPIO_SETUP_COMPAT_DEV(gpio_k64_E);
static int gpio_k64_E_init(struct device *dev)
{
IRQ_CONNECT(GPIO_K64_E_IRQ, CONFIG_GPIO_K64_PORTE_PRI,
gpio_k64_port_isr, DEVICE_GET(gpio_k64_E), 0);
irq_enable(GPIO_K64_E_IRQ);
return 0;
}
#endif /* CONFIG_GPIO_K64_E */