508 lines
18 KiB
C
508 lines
18 KiB
C
/* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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*/
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/** STM32F1 application to read out measurements from GM1351 sound level meter and send the over Bluetooth
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* @file
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* @author King Kévin <kingkevin@cuvoodoo.info>
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* @date 2016-2020
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*/
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/* standard libraries */
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#include <stdint.h> // standard integer types
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#include <stdlib.h> // standard utilities
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#include <string.h> // string utilities
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#include <time.h> // date/time utilities
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#include <ctype.h> // utilities to check chars
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/* STM32 (including CM3) libraries */
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#include <libopencmsis/core_cm3.h> // Cortex M3 utilities
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#include <libopencm3/cm3/scb.h> // vector table definition
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#include <libopencm3/cm3/nvic.h> // interrupt utilities
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#include <libopencm3/stm32/gpio.h> // general purpose input output library
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#include <libopencm3/stm32/rcc.h> // real-time control clock library
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#include <libopencm3/stm32/exti.h> // external interrupt utilities
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#include <libopencm3/stm32/rtc.h> // real time clock utilities
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#include <libopencm3/stm32/iwdg.h> // independent watchdog utilities
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#include <libopencm3/stm32/dbgmcu.h> // debug utilities
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#include <libopencm3/stm32/desig.h> // design utilities
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#include <libopencm3/stm32/flash.h> // flash utilities
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/* own libraries */
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#include "global.h" // board definitions
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#include "print.h" // printing utilities
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#if !defined(STLINKV2)
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#include "uart.h" // USART utilities
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#endif
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#include "usb_cdcacm.h" // USB CDC ACM utilities
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#include "terminal.h" // handle the terminal interface
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#include "menu.h" // menu utilities
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#include "sensor_gm1351.h" // sound level meter interface
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#include "spp_tx.h" // to communicate to the Bluetooth module
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/** watchdog period in ms */
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#define WATCHDOG_PERIOD 10000
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/** set to 0 if the RTC is reset when the board is powered on, only indicates the uptime
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* set to 1 if VBAT can keep the RTC running when the board is unpowered, indicating the date and time
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*/
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#define RTC_DATE_TIME 0
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/** number of RTC ticks per second
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* @note use integer divider of oscillator to keep second precision
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*/
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#define RTC_TICKS_SECOND 4
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/** RTC time when device is started */
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static time_t time_start = 0;
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/** @defgroup main_flags flag set in interrupts to be processed in main task
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* @{
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*/
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volatile bool rtc_internal_tick_flag = false; /**< flag set when internal RTC ticked */
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/** @} */
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/** if we show the received value */
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static bool gm1351_show = false;
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/** show/hide received sound level
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* @param[in] argument not used
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*/
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static void command_show(void* argument)
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{
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(void)argument; // we won't use the argument
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gm1351_show = !gm1351_show; // toggle setting
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puts(gm1351_show ? "show" : "hide");
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puts(" decoded sound level\n");
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}
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size_t putc(char c)
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{
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size_t length = 0; // number of characters printed
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static char last_c = 0; // to remember on which character we last sent
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if ('\n' == c) { // send carriage return (CR) + line feed (LF) newline for each LF
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if ('\r' != last_c) { // CR has not already been sent
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#if !defined(STLINKV2)
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uart_putchar_nonblocking('\r'); // send CR over USART
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#endif
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usb_cdcacm_putchar('\r'); // send CR over USB
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length++; // remember we printed 1 character
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}
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}
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#if !defined(STLINKV2)
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uart_putchar_nonblocking(c); // send byte over USART
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#endif
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usb_cdcacm_putchar(c); // send byte over USB
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length++; // remember we printed 1 character
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last_c = c; // remember last character
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return length; // return number of characters printed
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}
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/** display available commands
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* @param[in] argument no argument required
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*/
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static void command_help(void* argument);
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/** show software and hardware version
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* @param[in] argument no argument required
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*/
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static void command_version(void* argument);
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/** show uptime
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* @param[in] argument no argument required
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*/
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static void command_uptime(void* argument);
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#if RTC_DATE_TIME
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/** show date and time
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* @param[in] argument date and time to set
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*/
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static void command_datetime(void* argument);
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#endif
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/** reset board
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* @param[in] argument no argument required
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*/
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static void command_reset(void* argument);
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/** switch to DFU bootloader
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* @param[in] argument no argument required
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*/
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static void command_bootloader(void* argument);
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/** switch/toggle power of GM1351 sound level meter */
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static void command_power(void* argument)
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{
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(void)argument; // we won't use the argument
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sensor_gm1351_power_toggle(); // toggle power of meter
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}
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/** list of all supported commands */
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static const struct menu_command_t menu_commands[] = {
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{
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.shortcut = 'h',
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.name = "help",
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.command_description = "display help",
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.argument = MENU_ARGUMENT_NONE,
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.argument_description = NULL,
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.command_handler = &command_help,
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},
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{
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.shortcut = 'v',
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.name = "version",
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.command_description = "show software and hardware version",
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.argument = MENU_ARGUMENT_NONE,
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.argument_description = NULL,
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.command_handler = &command_version,
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},
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{
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.shortcut = 'u',
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.name = "uptime",
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.command_description = "show uptime",
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.argument = MENU_ARGUMENT_NONE,
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.argument_description = NULL,
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.command_handler = &command_uptime,
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},
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#if RTC_DATE_TIME
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{
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.shortcut = 'd',
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.name = "date",
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.command_description = "show/set date and time",
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.argument = MENU_ARGUMENT_STRING,
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.argument_description = "[YYYY-MM-DD HH:MM:SS]",
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.command_handler = &command_datetime,
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},
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#endif
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{
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.shortcut = 'r',
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.name = "reset",
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.command_description = "reset board",
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.argument = MENU_ARGUMENT_NONE,
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.argument_description = NULL,
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.command_handler = &command_reset,
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},
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{
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.shortcut = 'b',
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.name = "bootloader",
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.command_description = "reboot into DFU bootloader",
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.argument = MENU_ARGUMENT_NONE,
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.argument_description = NULL,
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.command_handler = &command_bootloader,
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},
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// custom actions
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{
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.shortcut = 'p',
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.name = "power",
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.command_description = "switch power of GM1351 sound level meter",
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.argument = MENU_ARGUMENT_NONE,
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.argument_description = NULL,
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.command_handler = &command_power,
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},
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{
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.shortcut = 's',
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.name = "show",
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.command_description = "show/hide decoded sound level",
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.argument = MENU_ARGUMENT_NONE,
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.argument_description = NULL,
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.command_handler = &command_show,
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},
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};
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static void command_help(void* argument)
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{
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(void)argument; // we won't use the argument
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printf("available commands:\n");
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menu_print_commands(menu_commands, LENGTH(menu_commands)); // print global commands
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}
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static void command_version(void* argument)
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{
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(void)argument; // we won't use the argument
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printf("firmware date: %04u-%02u-%02u\n", BUILD_YEAR, BUILD_MONTH, BUILD_DAY); // show firmware build date
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// get device identifier (DEV_ID)
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// 0x412: low-density, 16-32 kB flash
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// 0x410: medium-density, 64-128 kB flash
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// 0x414: high-density, 256-512 kB flash
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// 0x430: XL-density, 768-1024 kB flash
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// 0x418: connectivity
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puts("device family: ");
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switch (DBGMCU_IDCODE & DBGMCU_IDCODE_DEV_ID_MASK) {
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case 0: // this is a known issue document in STM32F10xxC/D/E Errata sheet, without workaround
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puts("unreadable\n");
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break;
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case 0x412:
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puts("low-density\n");
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break;
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case 0x410:
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puts("medium-density\n");
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break;
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case 0x414:
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puts("high-density\n");
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break;
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case 0x430:
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puts("XL-density\n");
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break;
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case 0x418:
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puts("connectivity\n");
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break;
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default:
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puts("unknown\n");
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break;
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}
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// show flash size
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puts("flash size: ");
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if (0xffff == DESIG_FLASH_SIZE) {
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puts("unknown (probably a defective micro-controller\n");
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} else {
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printf("%u KB\n", DESIG_FLASH_SIZE);
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}
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// display device identity
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printf("device id: %08x%08x%08x\n", DESIG_UNIQUE_ID0, DESIG_UNIQUE_ID1, DESIG_UNIQUE_ID2);
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}
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static void command_uptime(void* argument)
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{
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(void)argument; // we won't use the argument
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uint32_t uptime = (rtc_get_counter_val() - time_start) / RTC_TICKS_SECOND; // get time from internal RTC
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printf("uptime: %u.%02u:%02u:%02u\n", uptime / (24 * 60 * 60), (uptime / (60 * 60)) % 24, (uptime / 60) % 60, uptime % 60);
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}
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#if RTC_DATE_TIME
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static void command_datetime(void* argument)
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{
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char* datetime = (char*)argument; // argument is optional date time
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if (NULL == argument) { // no date and time provided, just show the current day and time
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time_t time_rtc = rtc_get_counter_val() / RTC_TICKS_SECOND; // get time from internal RTC
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struct tm* time_tm = localtime(&time_rtc); // convert time
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printf("date: %d-%02d-%02d %02d:%02d:%02d\n", 1900 + time_tm->tm_year, time_tm->tm_mon, time_tm->tm_mday, time_tm->tm_hour, time_tm->tm_min, time_tm->tm_sec);
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} else { // date and time provided, set it
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const char* malformed = "date and time malformed, expecting YYYY-MM-DD HH:MM:SS\n";
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struct tm time_tm; // to store the parsed date time
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if (strlen(datetime) != (4 + 1 + 2 + 1 + 2) + 1 + (2 + 1 + 2 + 1 + 2)) { // verify date/time is long enough
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printf(malformed);
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return;
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}
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if (!(isdigit((int8_t)datetime[0]) && isdigit((int8_t)datetime[1]) && isdigit((int8_t)datetime[2]) && isdigit((int8_t)datetime[3]) && '-' == datetime[4] && isdigit((int8_t)datetime[5]) && isdigit((int8_t)datetime[6]) && '-' == datetime[7] && isdigit((int8_t)datetime[8]) && isdigit((int8_t)datetime[9]) && ' ' == datetime[10] && isdigit((int8_t)datetime[11]) && isdigit((int8_t)datetime[12]) && ':' == datetime[13] && isdigit((int8_t)datetime[14]) && isdigit((int8_t)datetime[15]) && ':' == datetime[16] && isdigit((int8_t)datetime[17]) && isdigit((int8_t)datetime[18]))) { // verify format (good enough to not fail parsing)
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printf(malformed);
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return;
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}
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time_tm.tm_year = strtol(&datetime[0], NULL, 10) - 1900; // parse year
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time_tm.tm_mon = strtol(&datetime[5], NULL, 10); // parse month
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time_tm.tm_mday = strtol(&datetime[8], NULL, 10); // parse day
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time_tm.tm_hour = strtol(&datetime[11], NULL, 10); // parse hour
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time_tm.tm_min = strtol(&datetime[14], NULL, 10); // parse minutes
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time_tm.tm_sec = strtol(&datetime[17], NULL, 10); // parse seconds
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time_t time_rtc = mktime(&time_tm); // get back seconds
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time_start = time_rtc * RTC_TICKS_SECOND + (rtc_get_counter_val() - time_start); // update uptime with current date
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rtc_set_counter_val(time_rtc * RTC_TICKS_SECOND); // save date/time to internal RTC
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printf("date and time saved: %d-%02d-%02d %02d:%02d:%02d\n", 1900 + time_tm.tm_year, time_tm.tm_mon, time_tm.tm_mday, time_tm.tm_hour, time_tm.tm_min, time_tm.tm_sec);
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}
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}
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#endif
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static void command_reset(void* argument)
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{
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(void)argument; // we won't use the argument
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scb_reset_system(); // reset device
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while (true); // wait for the reset to happen
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}
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static void command_bootloader(void* argument)
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{
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(void)argument; // we won't use the argument
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// set DFU magic to specific RAM location
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__dfu_magic[0] = 'D';
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__dfu_magic[1] = 'F';
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__dfu_magic[2] = 'U';
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__dfu_magic[3] = '!';
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scb_reset_system(); // reset system (core and peripherals)
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while (true); // wait for the reset to happen
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}
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/** process user command
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* @param[in] str user command string (\0 ended)
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*/
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static void process_command(char* str)
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{
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// ensure actions are available
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if (NULL == menu_commands || 0 == LENGTH(menu_commands)) {
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return;
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}
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// don't handle empty lines
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if (!str || 0 == strlen(str)) {
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return;
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}
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bool command_handled = false;
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if (!command_handled) {
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command_handled = menu_handle_command(str, menu_commands, LENGTH(menu_commands)); // try if this is not a global command
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}
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if (!command_handled) {
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printf("command not recognized. enter help to list commands\n");
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}
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}
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/** program entry point
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* this is the firmware function started by the micro-controller
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*/
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void main(void);
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void main(void)
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{
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rcc_clock_setup_in_hse_8mhz_out_72mhz(); // use 8 MHz high speed external clock to generate 72 MHz internal clock
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#if DEBUG
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// enable functionalities for easier debug
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DBGMCU_CR |= DBGMCU_CR_IWDG_STOP; // stop independent watchdog counter when code is halted
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DBGMCU_CR |= DBGMCU_CR_WWDG_STOP; // stop window watchdog counter when code is halted
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DBGMCU_CR |= DBGMCU_CR_STANDBY; // allow debug also in standby mode (keep digital part and clock powered)
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DBGMCU_CR |= DBGMCU_CR_STOP; // allow debug also in stop mode (keep clock powered)
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DBGMCU_CR |= DBGMCU_CR_SLEEP; // allow debug also in sleep mode (keep clock powered)
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#else
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// setup watchdog to reset in case we get stuck (i.e. when an error occurred)
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iwdg_set_period_ms(WATCHDOG_PERIOD); // set independent watchdog period
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iwdg_start(); // start independent watchdog
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#endif
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board_setup(); // setup board
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#if !defined(STLINKV2)
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uart_setup(); // setup USART (for printing)
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#endif
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usb_cdcacm_setup(); // setup USB CDC ACM (for printing)
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puts("\nwelcome to the CuVoodoo GM1351 sound level meter reader\n"); // print welcome message
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#if DEBUG
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// show reset cause
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if (RCC_CSR & (RCC_CSR_LPWRRSTF | RCC_CSR_WWDGRSTF | RCC_CSR_IWDGRSTF | RCC_CSR_SFTRSTF | RCC_CSR_PORRSTF | RCC_CSR_PINRSTF)) {
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puts("reset cause(s):");
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if (RCC_CSR & RCC_CSR_LPWRRSTF) {
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puts(" low-power");
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}
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if (RCC_CSR & RCC_CSR_WWDGRSTF) {
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puts(" window-watchdog");
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}
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if (RCC_CSR & RCC_CSR_IWDGRSTF) {
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puts(" independent-watchdog");
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}
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if (RCC_CSR & RCC_CSR_SFTRSTF) {
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puts(" software");
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}
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if (RCC_CSR & RCC_CSR_PORRSTF) {
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puts(" POR/PDR");
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}
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if (RCC_CSR & RCC_CSR_PINRSTF) {
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puts(" pin");
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}
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putc('\n');
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RCC_CSR |= RCC_CSR_RMVF; // clear reset flags
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}
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#endif
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#if !(DEBUG)
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// show watchdog information
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printf("setup watchdog: %.2fs", WATCHDOG_PERIOD / 1000.0);
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if (FLASH_OBR & FLASH_OBR_OPTERR) {
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puts(" (option bytes not set in flash: software wachtdog used, not automatically started at reset)\n");
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} else if (FLASH_OBR & FLASH_OBR_WDG_SW) {
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puts(" (software watchdog used, not automatically started at reset)\n");
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} else {
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puts(" (hardware watchdog used, automatically started at reset)\n");
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}
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#endif
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// setup RTC
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puts("setup internal RTC: ");
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#if defined(BLUE_PILL) || defined(STLINKV2) || defined(BLASTER) // for boards without a Low Speed External oscillator
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// note: the blue pill LSE oscillator is affected when toggling the onboard LED, thus prefer the HSE
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rtc_auto_awake(RCC_HSE, 8000000 / 128 / RTC_TICKS_SECOND - 1); // use High Speed External oscillator (8 MHz / 128) as RTC clock (VBAT can't be used to keep the RTC running)
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#else // for boards with an precise Low Speed External oscillator
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rtc_auto_awake(RCC_LSE, 32768 / RTC_TICKS_SECOND - 1); // ensure internal RTC is on, uses the 32.678 kHz LSE, and the prescale is set to our tick speed, else update backup registers accordingly (power off the micro-controller for the change to take effect)
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#endif
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rtc_interrupt_enable(RTC_SEC); // enable RTC interrupt on "seconds"
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nvic_enable_irq(NVIC_RTC_IRQ); // allow the RTC to interrupt
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time_start = rtc_get_counter_val(); // get start time from internal RTC
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puts("OK\n");
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puts("setup UART to Bluetooth SPP module: ");
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spp_tx_setup();
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puts("OK\n");
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puts("setup GM1351 sound level meter: ");
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sensor_gm1351_setup();
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puts("OK\n");
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// setup terminal
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terminal_prefix = ""; // set default prefix
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terminal_process = &process_command; // set central function to process commands
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terminal_setup(); // start terminal
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// start main loop
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bool action = false; // if an action has been performed don't go to sleep
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button_flag = false; // reset button flag
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uint32_t gm1351_last = rtc_get_counter_val(); // last time a measurement has been received
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while (true) { // infinite loop
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iwdg_reset(); // kick the dog
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if (user_input_available) { // user input is available
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action = true; // action has been performed
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led_toggle(); // toggle LED
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char c = user_input_get(); // store receive character
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terminal_send(c); // send received character to terminal
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}
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if (button_flag) { // user pressed button
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action = true; // action has been performed
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puts("button pressed\n");
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led_toggle(); // toggle LED
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sleep_ms(100); // wait a bit to remove noise and double trigger
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button_flag = false; // reset flag
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}
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if (rtc_internal_tick_flag) { // the internal RTC ticked
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rtc_internal_tick_flag = false; // reset flag
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action = true; // action has been performed
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if (0 == (rtc_get_counter_val() % RTC_TICKS_SECOND)) { // one second has passed
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led_toggle(); // toggle LED (good to indicate if main function is stuck)
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if ((rtc_get_counter_val() - gm1351_last) / RTC_TICKS_SECOND >= 3) { // no measurement has been received for some time
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sensor_gm1351_power_toggle(); // toggle power of meter
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gm1351_last = rtc_get_counter_val(); // restart the wait
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puts("no value received from GM1351. trying to power it on\n");
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}
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}
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}
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if (sensor_gm1351_received_flag) { // meter data has been received
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action = true; // action has been performed
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sensor_gm1351_received_flag = false; // reset flag
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if (sensor_gm1351_decode()) { // decode received value
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led_toggle(); // notify user about activity
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gm1351_last = rtc_get_counter_val(); // remember we got a value
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char measurement[10 + 1]; // to store the string with the measurement value
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snprintf(measurement, LENGTH(measurement), "%u.%u dBa\n", sensor_gm1351_decidba / 10, sensor_gm1351_decidba % 10); // generate string
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if (gm1351_show) {
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puts(measurement); // display measurement to user
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}
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// sen measurement to Bluetooth module
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for (uint8_t i = 0; i < LENGTH(measurement) && measurement[i] != '\0'; i++) {
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spp_tx_putchar_nonblocking( measurement[i]);
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}
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}
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}
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if (action) { // go to sleep if nothing had to be done, else recheck for activity
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action = false;
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} else {
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__WFI(); // go to sleep
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}
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} // main loop
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}
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|
|
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/** @brief interrupt service routine called when tick passed on RTC */
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void rtc_isr(void)
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{
|
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rtc_clear_flag(RTC_SEC); // clear flag
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rtc_internal_tick_flag = true; // notify to show new time
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}
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