init.c
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/****************************************************************************
*
* Copyright (c) 2012-2016 PX4 Development Team. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name PX4 nor the names of its contributors may be
* used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
****************************************************************************/
/**
* @file px4fmu_init.c
*
* PX4FMU-specific early startup code. This file implements the
* board_app_initializ() function that is called early by nsh during startup.
*
* Code here is run before the rcS script is invoked; it should start required
* subsystems and perform board-specific initialisation.
*/
/****************************************************************************
* Included Files
****************************************************************************/
#include <px4_platform_common/px4_config.h>
#include <px4_platform_common/tasks.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include <debug.h>
#include <errno.h>
#include <nuttx/board.h>
#include <nuttx/spi/spi.h>
#include <nuttx/i2c/i2c_master.h>
#include <nuttx/sdio.h>
#include <nuttx/mmcsd.h>
#include <nuttx/analog/adc.h>
#include <nuttx/mm/gran.h>
#include <stm32.h>
#include "board_config.h"
#include <stm32_uart.h>
#include <arch/board/board.h>
#include <drivers/drv_hrt.h>
#include <drivers/drv_board_led.h>
#include <systemlib/px4_macros.h>
#include <px4_arch/io_timer.h>
#include <px4_platform_common/init.h>
#include <px4_platform/board_dma_alloc.h>
/****************************************************************************
* Pre-Processor Definitions
****************************************************************************/
/*
* Ideally we'd be able to get these from arm_internal.h,
* but since we want to be able to disable the NuttX use
* of leds for system indication at will and there is no
* separate switch, we need to build independent of the
* CONFIG_ARCH_LEDS configuration switch.
*/
__BEGIN_DECLS
extern void led_init(void);
extern void led_on(int led);
extern void led_off(int led);
__END_DECLS
/****************************************************************************
* Protected Functions
****************************************************************************/
/****************************************************************************
* Public Functions
****************************************************************************/
/************************************************************************************
* Name: board_peripheral_reset
*
* Description:
*
************************************************************************************/
__EXPORT void board_peripheral_reset(int ms)
{
/* set the peripheral and sensor rails off */
stm32_gpiowrite(GPIO_VDD_3V3_PERIPH_EN, 0);
board_control_spi_sensors_power(false, 0xffff);
stm32_gpiowrite(GPIO_VDD_5V_PERIPH_EN, 1);
stm32_gpiowrite(GPIO_VDD_5V_HIPOWER_EN, 1);
// bool last = stm32_gpioread(GPIO_SPEKTRUM_PWR_EN);
/* Keep Spektum on to discharge rail*/
// stm32_gpiowrite(GPIO_SPEKTRUM_PWR_EN, 1);
/* wait for the peripheral rail to reach GND */
usleep(ms * 1000);
syslog(LOG_DEBUG, "reset done, %d ms\n", ms);
/* re-enable power */
/* switch the peripheral rail back on */
// stm32_gpiowrite(GPIO_SPEKTRUM_PWR_EN, last);
stm32_gpiowrite(GPIO_VDD_3V3_PERIPH_EN, 1);
board_control_spi_sensors_power(true, 0xffff);
stm32_gpiowrite(GPIO_VDD_5V_PERIPH_EN, 0);
stm32_gpiowrite(GPIO_VDD_5V_HIPOWER_EN, 0);
}
/************************************************************************************
* Name: board_on_reset
*
* Description:
* Optionally provided function called on entry to board_system_reset
* It should perform any house keeping prior to the rest.
*
* status - 1 if resetting to boot loader
* 0 if just resetting
*
************************************************************************************/
__EXPORT void board_on_reset(int status)
{
/* configure the GPIO pins to outputs and keep them low */
for (int i = 0; i < DIRECT_PWM_OUTPUT_CHANNELS; ++i) {
px4_arch_configgpio(io_timer_channel_get_gpio_output(i));
}
/* On resets invoked from system (not boot) insure we establish a low
* output state (discharge the pins) on PWM pins before they become inputs.
*
* We also delay the onset of the that 3.1 Ms pulse as boot. This has
* triggered some ESC to spin. By adding this delay here the reset
* is pushed out > 400 ms. So the ESC PWM input can not mistake
* the 3.1 Ms pulse as a valid PWM command.
*
* fixme:Establish in upstream NuttX an CONFIG_IO_INIT_STATE to
* the initialize the IO lines in the clock config.
*
*/
if (status >= 0) {
up_mdelay(400);
}
}
/************************************************************************************
* Name: stm32_boardinitialize
*
* Description:
* All STM32 architectures must provide the following entry point. This entry point
* is called early in the initialization -- after all memory has been configured
* and mapped but before any devices have been initialized.
*
************************************************************************************/
__EXPORT void
stm32_boardinitialize(void)
{
/* Reset all PWM to Low outputs */
board_on_reset(-1);
/* configure LEDs */
board_autoled_initialize();
/* Start with Power off */
board_control_spi_sensors_power_configgpio();
/* configure ADC pins */
stm32_configgpio(GPIO_ADC1_IN2); /* BATT_VOLTAGE_SENS */
stm32_configgpio(GPIO_ADC1_IN3); /* BATT_CURRENT_SENS */
stm32_configgpio(GPIO_ADC1_IN4); /* VDD_5V_SENS */
stm32_configgpio(GPIO_ADC1_IN11); /* BATT2_VOLTAGE_SENS */
stm32_configgpio(GPIO_ADC1_IN13); /* BATT2_CURRENT_SENS */
/* configure CAN interfaces */
stm32_configgpio(GPIO_CAN1_RX);
stm32_configgpio(GPIO_CAN1_TX);
stm32_configgpio(GPIO_CAN2_RX);
stm32_configgpio(GPIO_CAN2_TX);
/* configure power supply control/sense pins */
stm32_configgpio(GPIO_VDD_3V3_PERIPH_EN);
stm32_configgpio(GPIO_VDD_5V_PERIPH_EN);
stm32_configgpio(GPIO_VDD_5V_HIPOWER_EN);
stm32_configgpio(GPIO_nVDD_BRICK1_VALID);
stm32_configgpio(GPIO_nVDD_BRICK2_VALID);
stm32_configgpio(GPIO_nVDD_USB_VALID);
stm32_configgpio(GPIO_VDD_5V_PERIPH_OC);
stm32_configgpio(GPIO_VDD_5V_HIPOWER_OC);
stm32_configgpio(GPIO_SBUS_INV);
stm32_configgpio(GPIO_8266_GPIO0);
// stm32_configgpio(GPIO_SPEKTRUM_PWR_EN);
stm32_configgpio(GPIO_8266_PD);
stm32_configgpio(GPIO_8266_RST);
stm32_configgpio(GPIO_BTN_SAFETY_FMU);
/* configure SPI interfaces
* is deferred to board_app_initialize
* to delay the sensor power up with
* out adding a delay
*/
stm32_usbinitialize();
}
/****************************************************************************
* Name: board_app_initialize
*
* Description:
* Perform application specific initialization. This function is never
* called directly from application code, but only indirectly via the
* (non-standard) boardctl() interface using the command BOARDIOC_INIT.
*
* Input Parameters:
* arg - The boardctl() argument is passed to the board_app_initialize()
* implementation without modification. The argument has no
* meaning to NuttX; the meaning of the argument is a contract
* between the board-specific initalization logic and the the
* matching application logic. The value cold be such things as a
* mode enumeration value, a set of DIP switch switch settings, a
* pointer to configuration data read from a file or serial FLASH,
* or whatever you would like to do with it. Every implementation
* should accept zero/NULL as a default configuration.
*
* Returned Value:
* Zero (OK) is returned on success; a negated errno value is returned on
* any failure to indicate the nature of the failure.
*
****************************************************************************/
static struct spi_dev_s *spi1;
static struct spi_dev_s *spi2;
static struct spi_dev_s *spi5;
static struct spi_dev_s *spi6;
static struct sdio_dev_s *sdio;
__EXPORT int board_app_initialize(uintptr_t arg)
{
/* Now it is ok to drvie the pins high
* so configure SPI CPIO */
// the temp cal eeprom is unused, so disable the CS from here
stm32_configgpio(GPIO_SPI_CS_TEMPCAL_EEPROM);
stm32_gpiowrite(GPIO_SPI_CS_TEMPCAL_EEPROM, 1);
stm32_spiinitialize();
px4_platform_init();
/* configure the DMA allocator */
if (board_dma_alloc_init() < 0) {
syslog(LOG_ERR, "DMA alloc FAILED\n");
}
/* set up the serial DMA polling */
static struct hrt_call serial_dma_call;
struct timespec ts;
/*
* Poll at 1ms intervals for received bytes that have not triggered
* a DMA event.
*/
ts.tv_sec = 0;
ts.tv_nsec = 1000000;
hrt_call_every(&serial_dma_call,
ts_to_abstime(&ts),
ts_to_abstime(&ts),
(hrt_callout)stm32_serial_dma_poll,
NULL);
/* initial LED state */
drv_led_start();
led_off(LED_RED);
led_off(LED_GREEN);
led_off(LED_BLUE);
if (board_hardfault_init(2, true) != 0) {
led_on(LED_RED);
}
/* Configure SPI-based devices */
spi1 = stm32_spibus_initialize(1);
if (!spi1) {
syslog(LOG_ERR, "[boot] FAILED to initialize SPI port %d\n", 1);
led_on(LED_RED);
return -ENODEV;
}
/* Default SPI1 to 1MHz and de-assert the known chip selects. */
SPI_SETFREQUENCY(spi1, 10000000);
SPI_SETBITS(spi1, 8);
SPI_SETMODE(spi1, SPIDEV_MODE3);
up_udelay(20);
/* Get the SPI port for the FRAM */
spi2 = stm32_spibus_initialize(2);
if (!spi2) {
syslog(LOG_ERR, "[boot] FAILED to initialize SPI port %d\n", 2);
led_on(LED_RED);
return -ENODEV;
}
/* Default SPI2 to 12MHz and de-assert the known chip selects.
*/
// XXX start with 10.4 MHz and go up to 20 once validated
SPI_SETFREQUENCY(spi2, 20 * 1000 * 1000);
SPI_SETBITS(spi2, 8);
SPI_SETMODE(spi2, SPIDEV_MODE3);
/* Configure SPI 5-based devices */
spi5 = stm32_spibus_initialize(5);
if (!spi5) {
syslog(LOG_ERR, "[boot] FAILED to initialize SPI port %d\n", 5);
led_on(LED_RED);
return -ENODEV;
}
/* Default SPI5 to 1MHz and de-assert the known chip selects. */
SPI_SETFREQUENCY(spi5, 10000000);
SPI_SETBITS(spi5, 8);
SPI_SETMODE(spi5, SPIDEV_MODE3);
/* Configure SPI 6-based devices */
spi6 = stm32_spibus_initialize(6);
if (!spi6) {
syslog(LOG_ERR, "[boot] FAILED to initialize SPI port %d\n", 6);
led_on(LED_RED);
return -ENODEV;
}
/* Default SPI6 to 1MHz and de-assert the known chip selects. */
SPI_SETFREQUENCY(spi6, 10000000);
SPI_SETBITS(spi6, 8);
SPI_SETMODE(spi6, SPIDEV_MODE3);
#ifdef CONFIG_MMCSD
/* First, get an instance of the SDIO interface */
sdio = sdio_initialize(CONFIG_NSH_MMCSDSLOTNO);
if (!sdio) {
led_on(LED_RED);
syslog(LOG_ERR, "[boot] Failed to initialize SDIO slot %d\n",
CONFIG_NSH_MMCSDSLOTNO);
return -ENODEV;
}
/* Now bind the SDIO interface to the MMC/SD driver */
int ret = mmcsd_slotinitialize(CONFIG_NSH_MMCSDMINOR, sdio);
if (ret != OK) {
led_on(LED_RED);
syslog(LOG_ERR, "[boot] Failed to bind SDIO to the MMC/SD driver: %d\n", ret);
return ret;
}
/* Then let's guess and say that there is a card in the slot. There is no card detect GPIO. */
sdio_mediachange(sdio, true);
#endif
/* Configure the HW based on the manifest */
px4_platform_configure();
return OK;
}