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/* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation , either version 3 of the License , or
* ( at your option ) any later version .
*
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program . If not , see < http : //www.gnu.org/licenses/>.
*
*/
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/** STM32F1 application example
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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 */
# include <stdint.h> // standard integer types
# include <stdlib.h> // standard utilities
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# include <string.h> // string utilities
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# include <time.h> // date/time utilities
# 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
# 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
# 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
# include "menu.h" // menu utilities
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/** watchdog period in ms */
# 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
* set to 1 if VBAT can keep the RTC running when the board is unpowered , indicating the date and time
*/
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# if defined(CORE_BOARD)
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# define RTC_DATE_TIME 1
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# else
# define RTC_DATE_TIME 0
# endif
/** number of RTC ticks per second
* @ note use integer divider of oscillator to keep second precision
*/
# define RTC_TICKS_SECOND 4
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/** RTC time when device is started */
static time_t time_start = 0 ;
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/** @defgroup main_flags flag set in interrupts to be processed in main task
* @ {
*/
volatile bool rtc_internal_tick_flag = false ; /**< flag set when internal RTC ticked */
/** @} */
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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
if ( ' \n ' = = c ) { // send carriage return (CR) + line feed (LF) newline for each LF
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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# 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
length + + ; // remember we printed 1 character
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
* @ param [ in ] argument no argument required
*/
static void command_help ( void * argument ) ;
/** show software and hardware version
* @ param [ in ] argument no argument required
*/
static void command_version ( void * argument ) ;
/** show uptime
* @ param [ in ] argument no argument required
*/
static void command_uptime ( void * argument ) ;
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# if RTC_DATE_TIME
/** show date and time
* @ param [ in ] argument date and time to set
*/
static void command_datetime ( void * argument ) ;
# endif
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/** reset board
* @ param [ in ] argument no argument required
*/
static void command_reset ( void * argument ) ;
/** switch to DFU bootloader
* @ param [ in ] argument no argument required
*/
static void command_bootloader ( void * argument ) ;
/** list of all supported commands */
static const struct menu_command_t menu_commands [ ] = {
{
. shortcut = ' h ' ,
. name = " help " ,
. command_description = " display help " ,
. argument = MENU_ARGUMENT_NONE ,
. argument_description = NULL ,
. command_handler = & command_help ,
} ,
{
. shortcut = ' v ' ,
. name = " version " ,
. command_description = " show software and hardware version " ,
. argument = MENU_ARGUMENT_NONE ,
. argument_description = NULL ,
. command_handler = & command_version ,
} ,
{
. shortcut = ' u ' ,
. name = " uptime " ,
. command_description = " show uptime " ,
. argument = MENU_ARGUMENT_NONE ,
. argument_description = NULL ,
. command_handler = & command_uptime ,
} ,
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# if RTC_DATE_TIME
{
. shortcut = ' d ' ,
. name = " date " ,
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. command_description = " show/set date and time " ,
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. argument = MENU_ARGUMENT_STRING ,
. argument_description = " [YYYY-MM-DD HH:MM:SS] " ,
. command_handler = & command_datetime ,
} ,
# endif
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{
. shortcut = ' r ' ,
. name = " reset " ,
. command_description = " reset board " ,
. argument = MENU_ARGUMENT_NONE ,
. argument_description = NULL ,
. command_handler = & command_reset ,
} ,
{
. shortcut = ' b ' ,
. name = " bootloader " ,
. command_description = " reboot into DFU bootloader " ,
. argument = MENU_ARGUMENT_NONE ,
. argument_description = NULL ,
. command_handler = & command_bootloader ,
} ,
} ;
static void command_help ( void * argument )
{
( void ) argument ; // we won't use the argument
printf ( " available commands: \n " ) ;
menu_print_commands ( menu_commands , LENGTH ( menu_commands ) ) ; // print global commands
}
static void command_version ( void * argument )
{
( void ) argument ; // we won't use the argument
printf ( " firmware date: %04u-%02u-%02u \n " , BUILD_YEAR , BUILD_MONTH , BUILD_DAY ) ; // show firmware build date
// get device identifier (DEV_ID)
// 0x412: low-density, 16-32 kB flash
// 0x410: medium-density, 64-128 kB flash
// 0x414: high-density, 256-512 kB flash
// 0x430: XL-density, 768-1024 kB flash
// 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 ;
case 0x412 :
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puts ( " low-density \n " ) ;
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break ;
case 0x410 :
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puts ( " medium-density \n " ) ;
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break ;
case 0x414 :
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puts ( " high-density \n " ) ;
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break ;
case 0x430 :
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puts ( " XL-density \n " ) ;
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break ;
case 0x418 :
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puts ( " connectivity \n " ) ;
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break ;
default :
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puts ( " unknown \n " ) ;
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break ;
}
// 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 {
printf ( " %u KB \n " , DESIG_FLASH_SIZE ) ;
}
// display device identity
printf ( " device id: %08x%08x%08x \n " , DESIG_UNIQUE_ID0 , DESIG_UNIQUE_ID1 , DESIG_UNIQUE_ID2 ) ;
}
static void command_uptime ( void * argument )
{
( 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
static void command_datetime ( void * argument )
{
char * datetime = ( char * ) argument ; // argument is optional date time
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
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 ) ;
} else { // date and time provided, set it
const char * malformed = " date and time malformed, expecting YYYY-MM-DD HH:MM:SS \n " ;
struct tm time_tm ; // to store the parsed date time
if ( strlen ( datetime ) ! = ( 4 + 1 + 2 + 1 + 2 ) + 1 + ( 2 + 1 + 2 + 1 + 2 ) ) { // verify date/time is long enough
printf ( malformed ) ;
return ;
}
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)
printf ( malformed ) ;
return ;
}
time_tm . tm_year = strtol ( & datetime [ 0 ] , NULL , 10 ) - 1900 ; // parse year
time_tm . tm_mon = strtol ( & datetime [ 5 ] , NULL , 10 ) ; // parse month
time_tm . tm_mday = strtol ( & datetime [ 8 ] , NULL , 10 ) ; // parse day
time_tm . tm_hour = strtol ( & datetime [ 11 ] , NULL , 10 ) ; // parse hour
time_tm . tm_min = strtol ( & datetime [ 14 ] , NULL , 10 ) ; // parse minutes
time_tm . tm_sec = strtol ( & datetime [ 17 ] , NULL , 10 ) ; // parse seconds
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
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 ) ;
}
}
# endif
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static void command_reset ( void * argument )
{
( void ) argument ; // we won't use the argument
scb_reset_system ( ) ; // reset device
while ( true ) ; // wait for the reset to happen
}
static void command_bootloader ( void * argument )
{
( void ) argument ; // we won't use the argument
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// set DFU magic to specific RAM location
__dfu_magic [ 0 ] = ' D ' ;
__dfu_magic [ 1 ] = ' F ' ;
__dfu_magic [ 2 ] = ' U ' ;
__dfu_magic [ 3 ] = ' ! ' ;
scb_reset_system ( ) ; // reset system (core and peripherals)
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while ( true ) ; // wait for the reset to happen
}
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/** process user command
* @ param [ in ] str user command string ( \ 0 ended )
*/
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 ;
}
bool command_handled = false ;
if ( ! command_handled ) {
command_handled = menu_handle_command ( str , menu_commands , LENGTH ( menu_commands ) ) ; // try if this is not a global command
}
if ( ! command_handled ) {
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
* this is the firmware function started by the micro - controller
*/
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void main ( void ) ;
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
DBGMCU_CR | = DBGMCU_CR_WWDG_STOP ; // stop window watchdog counter when code is halted
DBGMCU_CR | = DBGMCU_CR_STANDBY ; // allow debug also in standby mode (keep digital part and clock powered)
DBGMCU_CR | = DBGMCU_CR_STOP ; // allow debug also in stop mode (keep clock powered)
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)
iwdg_set_period_ms ( WATCHDOG_PERIOD ) ; // set independent watchdog period
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 ( " \n welcome to the CuVoodoo STM32F1 example application \n " ) ; // print welcome message
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# if DEBUG
// show reset cause
if ( RCC_CSR & ( RCC_CSR_LPWRRSTF | RCC_CSR_WWDGRSTF | RCC_CSR_IWDGRSTF | RCC_CSR_SFTRSTF | RCC_CSR_PORRSTF | RCC_CSR_PINRSTF ) ) {
puts ( " reset cause(s): " ) ;
if ( RCC_CSR & RCC_CSR_LPWRRSTF ) {
puts ( " low-power " ) ;
}
if ( RCC_CSR & RCC_CSR_WWDGRSTF ) {
puts ( " window-watchdog " ) ;
}
if ( RCC_CSR & RCC_CSR_IWDGRSTF ) {
puts ( " independent-watchdog " ) ;
}
if ( RCC_CSR & RCC_CSR_SFTRSTF ) {
puts ( " software " ) ;
}
if ( RCC_CSR & RCC_CSR_PORRSTF ) {
puts ( " POR/PDR " ) ;
}
if ( RCC_CSR & RCC_CSR_PINRSTF ) {
puts ( " pin " ) ;
}
putc ( ' \n ' ) ;
RCC_CSR | = RCC_CSR_RMVF ; // clear reset flags
}
# endif
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# if !(DEBUG)
// show watchdog information
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printf ( " setup watchdog: %.2fs " , WATCHDOG_PERIOD / 1000.0 ) ;
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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}
# 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"
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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// setup terminal
terminal_prefix = " " ; // set default prefix
terminal_process = & process_command ; // set central function to process commands
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
button_flag = false ; // reset button flag
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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
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 seond has passed
led_toggle ( ) ; // toggle LED (good to indicate if main function is stuck)
}
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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 ;
} else {
__WFI ( ) ; // go to sleep
}
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} // main loop
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}
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/** @brief interrupt service routine called when tick passed on RTC */
void rtc_isr ( void )
{
rtc_clear_flag ( RTC_SEC ) ; // clear flag
rtc_internal_tick_flag = true ; // notify to show new time
}