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pigweed / third_party / github / zephyrproject-rtos / zephyr / bb14d8c5e57fdcd23550f84b8b3e703f5dc807db / . / boards / arm / nrf52840_pca10090 / board.c
blob: e52a5f334dbae498fc317f196fbf9194cbcb9de6 [file] [log] [blame]
/*
* Copyright (c) 2018 Nordic Semiconductor ASA.
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <zephyr.h>
#include <init.h>
#include <drivers/gpio.h>
#include <logging/log.h>
LOG_MODULE_REGISTER(board_control, CONFIG_BOARD_PCA10090_LOG_LEVEL);
/* The following pins on the nRF52840 control the routing of certain
* components/lines on the nRF9160 DK. They are specified as follows:
*
* COMPONENT_SWITCH : ROUTING PIN
*
* NOTE: UART1_VCOM_U7 is on pin 12 of both P0 and P1.
* Both P0.12 -and- P1.12 need to be toggled to route UART1 to VCOM2.
*/
/* GPIO pins on Port 0 */
#define INTERFACE0_U5 13 /* MCU interface pins 0 - 2 */
#define INTERFACE1_U6 24 /* MCU interface pins 3 - 5 */
#define UART1_VCOM_U7 12 /* Route nRF9160 UART1 to VCOM2 */
#define BUTTON1_U12 6
#define BUTTON2_U12 26
#define SWITCH2_U9 8
/* GPIO pins on Port 1 */
#define INTERFACE2_U21 10 /* COEX interface pins 6 - 8 */
#define UART0_VCOM_U14 14 /* Route nRF9160 UART0 to VCOM0 */
#define UART1_VCOM_U7 12 /* Route nRF9160 UART1 to VCOM2 */
#define LED1_U8 5
#define LED2_U8 7
#define LED3_U11 1
#define LED4_U11 3
#define SWITCH1_U9 9
/* MCU interface pins
* These pins can be used for inter-SoC communication.
*
* | nRF9160 | | nRF52840 | nRF9160 DK |
* | P0.17 | -- MCU Interface Pin 0 -- | P0.17 | Arduino 4 |
* | P0.18 | -- MCU Interface Pin 1 -- | P0.20 | Arduino 5 |
* | P0.19 | -- MCU Interface Pin 2 -- | P0.15 | Arduino 6 |
* | P0.21 | -- MCU Interface Pin 3 -- | P0.22 | TRACECLK |
* | P0.22 | -- MCU Interface Pin 4 -- | P1.04 | TRACEDATA0 |
* | P0.23 | -- MCU Interface Pin 5 -- | P1.02 | TRACEDATA1 |
* | COEX0 | -- MCU Interface Pin 6 -- | P1.13 | COEX0_PH |
* | COEX1 | -- MCU Interface Pin 7 -- | P1.11 | COEX1_PH |
* | COEX2 | -- MCU Interface Pin 8 -- | P1.15 | COEX2_PH |
*/
__packed struct pin_config {
u8_t pin;
u8_t val;
};
/* The following tables specify the configuration of each pin based on the
* Kconfig options that drive it.
* The switches have active-low logic, so when writing to the port we will
* need to invert the value to match the IS_ENABLED() logic.
*/
static const struct pin_config pins_on_p0[] = {
{ INTERFACE0_U5, IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE0_ARDUINO) },
{ INTERFACE1_U6, IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE1_TRACE) },
{ UART1_VCOM_U7, IS_ENABLED(CONFIG_BOARD_PCA10090_UART1_ARDUINO) },
{ BUTTON1_U12, IS_ENABLED(CONFIG_BOARD_PCA10090_BUTTON0_PHY) },
{ BUTTON2_U12, IS_ENABLED(CONFIG_BOARD_PCA10090_BUTTON1_PHY) },
{ SWITCH2_U9, IS_ENABLED(CONFIG_BOARD_PCA10090_SWITCH1_PHY) },
};
static const struct pin_config pins_on_p1[] = {
{ INTERFACE2_U21, IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE2_COEX) },
{ UART0_VCOM_U14, IS_ENABLED(CONFIG_BOARD_PCA10090_UART0_VCOM) },
{ UART1_VCOM_U7, IS_ENABLED(CONFIG_BOARD_PCA10090_UART1_ARDUINO) },
{ LED1_U8, IS_ENABLED(CONFIG_BOARD_PCA10090_LED0_PHY) },
{ LED2_U8, IS_ENABLED(CONFIG_BOARD_PCA10090_LED1_PHY) },
{ LED3_U11, IS_ENABLED(CONFIG_BOARD_PCA10090_LED2_PHY) },
{ LED4_U11, IS_ENABLED(CONFIG_BOARD_PCA10090_LED3_PHY) },
{ SWITCH1_U9, IS_ENABLED(CONFIG_BOARD_PCA10090_SWITCH0_PHY) },
};
static void config_print(void)
{
/* Interface pins 0-2 */
LOG_INF("Routing interface pins 0-2 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE0_MCU) ?
"nRF52840" :
"Arduino headers",
IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE0_MCU));
/* Interface pins 3-5 */
LOG_INF("Routing interface pins 3-5 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE1_MCU) ?
"nRF52840" :
"TRACE header",
IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE1_MCU));
/* Interface pins 6-8 */
LOG_INF("Routing interface pins 6-8 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE2_MCU) ?
"nRF52840" :
"COEX header",
IS_ENABLED(CONFIG_BOARD_PCA10090_INTERFACE2_MCU));
LOG_INF("Routing nRF9160 UART0 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_UART0_ARDUINO) ?
"Arduino pin headers" :
"VCOM0",
IS_ENABLED(CONFIG_BOARD_PCA10090_UART0_ARDUINO));
LOG_INF("Routing nRF9160 UART1 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_UART1_ARDUINO) ?
"Arduino pin headers" :
"VCOM2",
/* defaults to arduino pins */
IS_ENABLED(CONFIG_BOARD_PCA10090_UART1_VCOM));
LOG_INF("Routing nRF9160 LED 1 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED0_ARDUINO) ?
"Arduino pin headers" :
"physical LED",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED0_ARDUINO));
LOG_INF("Routing nRF9160 LED 2 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED1_ARDUINO) ?
"Arduino pin headers" :
"physical LED",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED1_ARDUINO));
LOG_INF("Routing nRF9160 LED 3 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED2_ARDUINO) ?
"Arduino pin headers" :
"physical LED",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED2_ARDUINO));
LOG_INF("Routing nRF9160 LED 4 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED3_ARDUINO) ?
"Arduino pin headers" :
"physical LED",
IS_ENABLED(CONFIG_BOARD_PCA10090_LED3_ARDUINO));
LOG_INF("Routing nRF9160 button 1 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_BUTTON0_ARDUINO) ?
"Arduino pin headers" :
"physical button",
IS_ENABLED(CONFIG_BOARD_PCA10090_BUTTON0_ARDUINO));
LOG_INF("Routing nRF9160 button 2 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_BUTTON1_ARDUINO) ?
"Arduino pin headers" :
"physical button",
IS_ENABLED(CONFIG_BOARD_PCA10090_BUTTON1_ARDUINO));
LOG_INF("Routing nRF9160 switch 1 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_SWITCH0_ARDUINO) ?
"Arduino pin headers" :
"physical switch",
IS_ENABLED(CONFIG_BOARD_PCA10090_SWITCH0_ARDUINO));
LOG_INF("Routing nRF9160 switch 2 to %s (pin -> %d)",
IS_ENABLED(CONFIG_BOARD_PCA10090_SWITCH1_ARDUINO) ?
"Arduino pin headers" :
"physical switch",
IS_ENABLED(CONFIG_BOARD_PCA10090_SWITCH1_ARDUINO));
}
static int pins_configure(struct device *port, const struct pin_config cfg[],
size_t pins)
{
int err;
/* Write to the pins before configuring them as output,
* to make sure we are driving them to the correct level
* right after they are configured.
*/
for (size_t i = 0; i < pins; i++) {
/* The swiches on the board are active low, so we need
* to negate the IS_ENABLED() value from the tables.
*/
err = gpio_pin_write(port, cfg[i].pin, !cfg[i].val);
if (err) {
return cfg[i].pin;
}
err = gpio_pin_configure(port, cfg[i].pin, GPIO_DIR_OUT);
if (err) {
return cfg[i].pin;
}
LOG_DBG("port %p, pin %u -> %u",
port, cfg[i].pin, !cfg[i].val);
}
return 0;
}
static void chip_reset(struct device *gpio,
struct gpio_callback *cb, u32_t pins)
{
const u32_t stamp = k_cycle_get_32();
printk("GPIO reset line asserted, device reset.\n");
printk("Bye @ cycle32 %u\n", stamp);
NVIC_SystemReset();
}
static void reset_pin_wait_low(struct device *port, u32_t pin)
{
int err;
u32_t val;
/* Wait until the pin is pulled low */
do {
err = gpio_pin_read(port, pin, &val);
} while (err == 0 && val != 0);
}
static int reset_pin_configure(struct device *p0, struct device *p1)
{
int err;
u32_t pin = 0;
struct device *port = NULL;
static struct gpio_callback gpio_ctx;
/* MCU interface pins 0-2 */
if (IS_ENABLED(CONFIG_BOARD_PCA10090_NRF52840_RESET_P0_17)) {
port = p0;
pin = 17;
}
if (IS_ENABLED(CONFIG_BOARD_PCA10090_NRF52840_RESET_P0_20)) {
port = p0;
pin = 20;
}
if (IS_ENABLED(CONFIG_BOARD_PCA10090_NRF52840_RESET_P0_15)) {
port = p0;
pin = 15;
}
/* MCU interface pins 3-6 */
if (IS_ENABLED(CONFIG_BOARD_PCA10090_NRF52840_RESET_P0_22)) {
port = p0;
pin = 22;
}
if (IS_ENABLED(CONFIG_BOARD_PCA10090_NRF52840_RESET_P1_04)) {
port = p1;
pin = 4;
}
if (IS_ENABLED(CONFIG_BOARD_PCA10090_NRF52840_RESET_P1_02)) {
port = p1;
pin = 2;
}
__ASSERT_NO_MSG(port != NULL);
err = gpio_pin_configure(port, pin,
GPIO_DIR_IN | GPIO_INT | GPIO_PUD_PULL_DOWN |
GPIO_INT_ACTIVE_HIGH | GPIO_INT_EDGE);
if (err) {
return err;
}
gpio_init_callback(&gpio_ctx, chip_reset, BIT(pin));
err = gpio_add_callback(port, &gpio_ctx);
if (err) {
return err;
}
err = gpio_pin_enable_callback(port, pin);
if (err) {
return err;
}
/* Wait until the pin is pulled low before continuing.
* This lets the other side ensure that they are ready.
*/
LOG_INF("GPIO reset line enabled on pin %s.%02u, holding..",
port == p0 ? "P0" : "P1", pin);
reset_pin_wait_low(port, pin);
return 0;
}
static int init(struct device *dev)
{
int rc;
struct device *p0;
struct device *p1;
p0 = device_get_binding(DT_GPIO_P0_DEV_NAME);
if (!p0) {
LOG_ERR("GPIO device " DT_GPIO_P0_DEV_NAME "not found!");
return -EIO;
}
p1 = device_get_binding(DT_GPIO_P1_DEV_NAME);
if (!p1) {
LOG_ERR("GPIO device " DT_GPIO_P1_DEV_NAME " not found!");
return -EIO;
}
/* Configure pins on each port */
rc = pins_configure(p0, pins_on_p0, ARRAY_SIZE(pins_on_p0));
if (rc) {
LOG_ERR("Error while configuring pin P0.%02d", rc);
return -EIO;
}
rc = pins_configure(p1, pins_on_p1, ARRAY_SIZE(pins_on_p1));
if (rc) {
LOG_ERR("Error while configuring pin P1.%02d", rc);
return -EIO;
}
config_print();
/* Make sure to configure the switches before initializing
* the GPIO reset pin, so that we are connected to
* the nRF9160 before enabling our interrupt.
*/
if (IS_ENABLED(CONFIG_BOARD_PCA10090_NRF52840_RESET)) {
rc = reset_pin_configure(p0, p1);
if (rc) {
LOG_ERR("Unable to configure reset pin, err %d", rc);
return -EIO;
}
}
LOG_INF("Board configured.");
return 0;
}
SYS_INIT(init, POST_KERNEL, CONFIG_KERNEL_INIT_PRIORITY_DEVICE);