SOES implementation i.c.w. ET1100 (Beckhoff ASIC)

Dependencies:   KL25Z_ClockControl MODSERIAL mbed

Fork of EtherCAT-XbusMaster by First Last

Committer:
vsluiter
Date:
Fri Sep 11 11:55:46 2015 +0000
Revision:
37:d00717883d98
Parent:
33:b4844666684f
Child:
39:8c5329c37de1
Changed memcopy for right naming, changed PDO names in objectlist

Who changed what in which revision?

UserRevisionLine numberNew contents of line
vsluiter 1:5e22bf1a3817 1 /*
vsluiter 1:5e22bf1a3817 2 * SOES Simple Open EtherCAT Slave
vsluiter 1:5e22bf1a3817 3 *
vsluiter 1:5e22bf1a3817 4 * File : soes.c
vsluiter 1:5e22bf1a3817 5 * Version : 0.9.2
vsluiter 1:5e22bf1a3817 6 * Date : 22-02-2010
vsluiter 1:5e22bf1a3817 7 * Copyright (C) 2007-2010 Arthur Ketels
vsluiter 1:5e22bf1a3817 8 *
vsluiter 1:5e22bf1a3817 9 * SOES is free software; you can redistribute it and/or modify it under
vsluiter 1:5e22bf1a3817 10 * the terms of the GNU General Public License version 2 as published by the Free
vsluiter 1:5e22bf1a3817 11 * Software Foundation.
vsluiter 1:5e22bf1a3817 12 *
vsluiter 1:5e22bf1a3817 13 * SOES is distributed in the hope that it will be useful, but WITHOUT ANY
vsluiter 1:5e22bf1a3817 14 * WARRANTY; without even the implied warranty of MERCHANTABILITY or
vsluiter 1:5e22bf1a3817 15 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
vsluiter 1:5e22bf1a3817 16 * for more details.
vsluiter 1:5e22bf1a3817 17 *
vsluiter 1:5e22bf1a3817 18 * As a special exception, if other files instantiate templates or use macros
vsluiter 1:5e22bf1a3817 19 * or inline functions from this file, or you compile this file and link it
vsluiter 1:5e22bf1a3817 20 * with other works to produce a work based on this file, this file does not
vsluiter 1:5e22bf1a3817 21 * by itself cause the resulting work to be covered by the GNU General Public
vsluiter 1:5e22bf1a3817 22 * License. However the source code for this file must still be made available
vsluiter 1:5e22bf1a3817 23 * in accordance with section (3) of the GNU General Public License.
vsluiter 1:5e22bf1a3817 24 *
vsluiter 1:5e22bf1a3817 25 * This exception does not invalidate any other reasons why a work based on
vsluiter 1:5e22bf1a3817 26 * this file might be covered by the GNU General Public License.
vsluiter 1:5e22bf1a3817 27 *
vsluiter 1:5e22bf1a3817 28 * The EtherCAT Technology, the trade name and logo "EtherCAT" are the intellectual
vsluiter 1:5e22bf1a3817 29 * property of, and protected by Beckhoff Automation GmbH.
vsluiter 1:5e22bf1a3817 30 */
vsluiter 1:5e22bf1a3817 31
vsluiter 1:5e22bf1a3817 32 /****************************************************
vsluiter 1:5e22bf1a3817 33 Chip type : STM32F051R8
vsluiter 1:5e22bf1a3817 34 Clock frequency : 48 MHz
vsluiter 1:5e22bf1a3817 35 *****************************************************/
vsluiter 1:5e22bf1a3817 36
vsluiter 1:5e22bf1a3817 37 /* Includes ------------------------------------------------------------------*/
vsluiter 1:5e22bf1a3817 38 #include "mbed.h"
vsluiter 1:5e22bf1a3817 39 #include "cpuinit.h"
vsluiter 1:5e22bf1a3817 40 #include "utypes.h"
vsluiter 1:5e22bf1a3817 41 #include "esc.h"
vsluiter 12:cac4e7c2bd0f 42 #include "MODSERIAL.h"
vsluiter 17:c5946a0fde83 43 #include "xbus.h"
vsluiter 1:5e22bf1a3817 44
vsluiter 1:5e22bf1a3817 45 /* Private typedef -----------------------------------------------------------*/
vsluiter 1:5e22bf1a3817 46 /* Private define ------------------------------------------------------------*/
vsluiter 1:5e22bf1a3817 47 #define wd_reset 1000
vsluiter 1:5e22bf1a3817 48
vsluiter 1:5e22bf1a3817 49 /* Private macro -------------------------------------------------------------*/
vsluiter 1:5e22bf1a3817 50 /* Private variables ---------------------------------------------------------*/
vsluiter 1:5e22bf1a3817 51 _ESCvar ESCvar;
vsluiter 1:5e22bf1a3817 52 uint8 APPstate;
vsluiter 1:5e22bf1a3817 53 _MBX MBX[MBXBUFFERS];
vsluiter 1:5e22bf1a3817 54 _MBXcontrol MBXcontrol[MBXBUFFERS];
vsluiter 1:5e22bf1a3817 55 uint8 MBXrun=0;
vsluiter 1:5e22bf1a3817 56 uint16 SM2_sml,SM3_sml;
vsluiter 1:5e22bf1a3817 57 _Rbuffer Rb;
vsluiter 1:5e22bf1a3817 58 _Wbuffer Wb;
vsluiter 11:166353137b95 59 _Ebuffer Eb; //EEprom
vsluiter 1:5e22bf1a3817 60 uint8 TXPDOsize,RXPDOsize;
vsluiter 1:5e22bf1a3817 61 uint16 wd_ok = 1, wd_cnt = wd_reset;
vsluiter 1:5e22bf1a3817 62
vsluiter 25:829af6f3429f 63 _Rbuffer local_Rb; //to prevent issues when updating
vsluiter 1:5e22bf1a3817 64 DigitalOut led(LED_PIN);
vsluiter 1:5e22bf1a3817 65 DigitalOut et1100_ss(ET1100_SS);
vsluiter 1:5e22bf1a3817 66 DigitalIn et1100_miso(ET1100_MISO);
vsluiter 1:5e22bf1a3817 67 SPI et1100_spi(ET1100_MOSI,ET1100_MISO,ET1100_SCK);
vsluiter 28:8505285f65ed 68 MODSERIAL xbus_serial(PTA2,PTA1, 512);
vsluiter 18:6629e8c5d59e 69 xbus_t xbus_master;
vsluiter 28:8505285f65ed 70 //MODSERIAL pc(USBTX,USBRX,512);
vsluiter 16:bfc7ea6bd1af 71
vsluiter 22:3f3a9f55054c 72 DigitalOut ploep(PTA13);
vsluiter 22:3f3a9f55054c 73 #define PLOEP do{ploep = !(ploep);}while(0);
vsluiter 19:8ead12aec8d5 74
vsluiter 1:5e22bf1a3817 75 /* Private function prototypes -----------------------------------------------*/
vsluiter 1:5e22bf1a3817 76 /* Private functions ---------------------------------------------------------*/
vsluiter 1:5e22bf1a3817 77
vsluiter 1:5e22bf1a3817 78 /** void ESC_objecthandler(uint16 index, uint8 subindex)
vsluiter 1:5e22bf1a3817 79 \brief Object handler, declared from esc.h, as extern function
vsluiter 1:5e22bf1a3817 80 \param index
vsluiter 1:5e22bf1a3817 81 \param subindex
vsluiter 1:5e22bf1a3817 82 */
vsluiter 1:5e22bf1a3817 83 void ESC_objecthandler(uint16 index, uint8 subindex);
vsluiter 1:5e22bf1a3817 84 void TXPDO_update(void);
vsluiter 1:5e22bf1a3817 85 void RXPDO_update(void);
vsluiter 1:5e22bf1a3817 86 void DIG_process(void);
vsluiter 5:6d75f432a41f 87 void sample(void);
vsluiter 1:5e22bf1a3817 88
vsluiter 1:5e22bf1a3817 89 void ESC_objecthandler(uint16 index, uint8 subindex)
vsluiter 1:5e22bf1a3817 90 {
vsluiter 1:5e22bf1a3817 91 uint8 dummy8;
vsluiter 1:5e22bf1a3817 92 uint16 dummy16;
vsluiter 1:5e22bf1a3817 93 switch (index)
vsluiter 1:5e22bf1a3817 94 {
vsluiter 1:5e22bf1a3817 95 case 0x8000:
vsluiter 1:5e22bf1a3817 96 switch (subindex)
vsluiter 1:5e22bf1a3817 97 {
vsluiter 1:5e22bf1a3817 98 case 0x01:
vsluiter 26:c7959f1fd09a 99 {
vsluiter 26:c7959f1fd09a 100 uint32_t rates[] = {460800,230400,115200,76800,57600,38400,28800,19200,14400,9600};
vsluiter 28:8505285f65ed 101 if(Eb.setting8 < (sizeof(rates)/sizeof(uint32_t)) )
vsluiter 27:93c0e4ae943e 102 {
vsluiter 27:93c0e4ae943e 103 XbusGoToConfig();
vsluiter 26:c7959f1fd09a 104 XbusSetBaudRate(Eb.setting8);
vsluiter 26:c7959f1fd09a 105 XbusReset();
vsluiter 27:93c0e4ae943e 106 wait(2);
vsluiter 26:c7959f1fd09a 107 xbus_serial.baud(rates[Eb.setting8]);
vsluiter 26:c7959f1fd09a 108 XbusInitializeXbusMaster();
vsluiter 26:c7959f1fd09a 109
vsluiter 26:c7959f1fd09a 110 }
vsluiter 28:8505285f65ed 111 else if(Eb.setting8 == 0x80)
vsluiter 28:8505285f65ed 112 {
vsluiter 28:8505285f65ed 113 XbusGoToConfig();
vsluiter 28:8505285f65ed 114 XbusSetBaudRate(0x80);
vsluiter 28:8505285f65ed 115 XbusReset();
vsluiter 28:8505285f65ed 116 wait(2);
vsluiter 28:8505285f65ed 117 xbus_serial.baud(960800);
vsluiter 28:8505285f65ed 118 XbusInitializeXbusMaster();
vsluiter 28:8505285f65ed 119
vsluiter 28:8505285f65ed 120 }
vsluiter 1:5e22bf1a3817 121 break;
vsluiter 26:c7959f1fd09a 122 }
vsluiter 1:5e22bf1a3817 123 case 0x02:
vsluiter 5:6d75f432a41f 124 dummy16 = 0;//Eb.setting16;//Write value to EEPROM; eeprom_write_word(&eedat.setting16, Wb.setting16);
vsluiter 1:5e22bf1a3817 125 break;
vsluiter 1:5e22bf1a3817 126 }
vsluiter 1:5e22bf1a3817 127 break;
vsluiter 1:5e22bf1a3817 128 }
vsluiter 1:5e22bf1a3817 129 }
vsluiter 1:5e22bf1a3817 130
vsluiter 1:5e22bf1a3817 131 void TXPDO_update(void)
vsluiter 1:5e22bf1a3817 132 {
vsluiter 1:5e22bf1a3817 133 ESC_write(SM3_sma, &Rb, TXPDOsize, &ESCvar.ALevent);
vsluiter 1:5e22bf1a3817 134 }
vsluiter 1:5e22bf1a3817 135
vsluiter 1:5e22bf1a3817 136 void RXPDO_update(void)
vsluiter 1:5e22bf1a3817 137 {
vsluiter 1:5e22bf1a3817 138 ESC_read(SM2_sma, &Wb, RXPDOsize, &ESCvar.ALevent);
vsluiter 1:5e22bf1a3817 139 }
vsluiter 1:5e22bf1a3817 140
vsluiter 1:5e22bf1a3817 141 void APP_safeoutput(void)
vsluiter 1:5e22bf1a3817 142 {
vsluiter 1:5e22bf1a3817 143 asm("nop");
vsluiter 1:5e22bf1a3817 144 //Wb.dout = 0;
vsluiter 1:5e22bf1a3817 145 //DOUTPORT = (Wb.dout >> 4) & 0xf0;
vsluiter 1:5e22bf1a3817 146 }
vsluiter 1:5e22bf1a3817 147
vsluiter 1:5e22bf1a3817 148 void DIG_process(void)
vsluiter 1:5e22bf1a3817 149 {
vsluiter 16:bfc7ea6bd1af 150 uint8_t correct_offset;
vsluiter 1:5e22bf1a3817 151 if (APPstate & APPSTATE_OUTPUT) //output enabled
vsluiter 1:5e22bf1a3817 152 {
vsluiter 1:5e22bf1a3817 153 if (ESCvar.ALevent & ESCREG_ALEVENT_SM2) // SM2 trigger ?
vsluiter 1:5e22bf1a3817 154 {
vsluiter 1:5e22bf1a3817 155 ESCvar.ALevent &= ~ESCREG_ALEVENT_SM2;
vsluiter 8:09dcef3ed467 156 RXPDO_update();
vsluiter 1:5e22bf1a3817 157 // dummy output point
vsluiter 5:6d75f432a41f 158 correct_offset = Wb.correct_offset;
vsluiter 5:6d75f432a41f 159 if(correct_offset & 0x01) {
vsluiter 8:09dcef3ed467 160 // led.write(1);
vsluiter 14:e3c49b75fee9 161 asm("nop");
vsluiter 8:09dcef3ed467 162 }
vsluiter 8:09dcef3ed467 163 // else
vsluiter 8:09dcef3ed467 164 // led.write(0);
vsluiter 1:5e22bf1a3817 165 wd_cnt = wd_reset;
vsluiter 1:5e22bf1a3817 166 }
vsluiter 1:5e22bf1a3817 167
vsluiter 5:6d75f432a41f 168 if (!wd_cnt) {
vsluiter 1:5e22bf1a3817 169 ESC_stopoutput();
vsluiter 1:5e22bf1a3817 170 // watchdog, invalid outputs
vsluiter 1:5e22bf1a3817 171 ESC_ALerror(ALERR_WATCHDOG);
vsluiter 1:5e22bf1a3817 172 // goto safe-op with error bit set
vsluiter 1:5e22bf1a3817 173 ESC_ALstatus(ESCsafeop | ESCerror);
vsluiter 1:5e22bf1a3817 174 }
vsluiter 1:5e22bf1a3817 175 }
vsluiter 1:5e22bf1a3817 176 else
vsluiter 1:5e22bf1a3817 177 {
vsluiter 1:5e22bf1a3817 178 //wd_ok = 1;
vsluiter 1:5e22bf1a3817 179 wd_cnt = wd_reset;
vsluiter 1:5e22bf1a3817 180 }
vsluiter 1:5e22bf1a3817 181 if (APPstate) //input or output enabled
vsluiter 5:6d75f432a41f 182 {
vsluiter 25:829af6f3429f 183 //Rb.timestamp = ESCvar.Time;
vsluiter 1:5e22bf1a3817 184 //just some dummy data to test
vsluiter 4:bb72df6dce33 185 //Rb.counter++;
vsluiter 4:bb72df6dce33 186 //Rb.diginput = diginput;
vsluiter 4:bb72df6dce33 187 //Rb.analog[0] = 1;
vsluiter 4:bb72df6dce33 188 //Rb.analog[1] = 2;
vsluiter 14:e3c49b75fee9 189
vsluiter 25:829af6f3429f 190 memcpy(&Rb, &local_Rb, sizeof(Rb));
vsluiter 1:5e22bf1a3817 191 TXPDO_update();
vsluiter 5:6d75f432a41f 192 }
vsluiter 1:5e22bf1a3817 193 }
vsluiter 1:5e22bf1a3817 194
vsluiter 33:b4844666684f 195 float ReverseFloat( const float inFloat )
vsluiter 33:b4844666684f 196 {
vsluiter 33:b4844666684f 197 float retVal;
vsluiter 33:b4844666684f 198 char *floatToConvert = ( char* ) & inFloat;
vsluiter 33:b4844666684f 199 char *returnFloat = ( char* ) & retVal;
vsluiter 33:b4844666684f 200
vsluiter 33:b4844666684f 201 // swap the bytes into a temporary buffer
vsluiter 33:b4844666684f 202 returnFloat[0] = floatToConvert[3];
vsluiter 33:b4844666684f 203 returnFloat[1] = floatToConvert[2];
vsluiter 33:b4844666684f 204 returnFloat[2] = floatToConvert[1];
vsluiter 33:b4844666684f 205 returnFloat[3] = floatToConvert[0];
vsluiter 33:b4844666684f 206
vsluiter 33:b4844666684f 207 return retVal;
vsluiter 33:b4844666684f 208 }
vsluiter 33:b4844666684f 209
vsluiter 21:6150ca891301 210 //Watch out, this is an uggly fix; for odd numbers of num_bytes, still the trailing byte will be used too.
vsluiter 21:6150ca891301 211 //No memory protection what so ever.
vsluiter 21:6150ca891301 212 void memcpy_byteswap(uint8_t * dest, uint8_t * source, uint16_t num_bytes)
vsluiter 21:6150ca891301 213 {
vsluiter 21:6150ca891301 214 for( int i = 0 ; i < num_bytes ; i+=2 )
vsluiter 21:6150ca891301 215 {
vsluiter 21:6150ca891301 216 dest[i] = source[i+1];
vsluiter 21:6150ca891301 217 dest[i+1] = source[i];
vsluiter 21:6150ca891301 218 }
vsluiter 21:6150ca891301 219 }
vsluiter 17:c5946a0fde83 220
vsluiter 33:b4844666684f 221 //Watch out, this is an uggly fix; for odd numbers of num_bytes, still the trailing byte will be used too.
vsluiter 33:b4844666684f 222 //No memory protection what so ever.
vsluiter 33:b4844666684f 223 void memcpy_floatswap(uint8_t * dest, uint8_t * source, uint16_t num_bytes)
vsluiter 33:b4844666684f 224 {
vsluiter 33:b4844666684f 225 for( int i = 0 ; i < num_bytes ; i+=4 )
vsluiter 33:b4844666684f 226 {
vsluiter 33:b4844666684f 227 dest[i] = source[i+3];
vsluiter 33:b4844666684f 228 dest[i+1] = source[i+2];
vsluiter 33:b4844666684f 229 dest[i+2] = source[i+1];
vsluiter 33:b4844666684f 230 dest[i+3] = source[i];
vsluiter 33:b4844666684f 231 }
vsluiter 33:b4844666684f 232 }
vsluiter 33:b4844666684f 233
vsluiter 33:b4844666684f 234
vsluiter 1:5e22bf1a3817 235 int main(void)
vsluiter 1:5e22bf1a3817 236 {
vsluiter 25:829af6f3429f 237
vsluiter 1:5e22bf1a3817 238 /*!< At this stage the microcontroller clock setting is already configured,
vsluiter 1:5e22bf1a3817 239 this is done through SystemInit() function which is called from startup
vsluiter 1:5e22bf1a3817 240 file (startup_stm32f0xx.s) before to branch to application main.
vsluiter 1:5e22bf1a3817 241 To reconfigure the default setting of SystemInit() function, refer to
vsluiter 1:5e22bf1a3817 242 system_stm32f0xx.c file
vsluiter 1:5e22bf1a3817 243 */
vsluiter 1:5e22bf1a3817 244 cpuinit();
vsluiter 1:5e22bf1a3817 245 TXPDOsize = sizeTXPDO();
vsluiter 1:5e22bf1a3817 246 RXPDOsize = sizeRXPDO();
vsluiter 1:5e22bf1a3817 247 wait_ms(200);
vsluiter 1:5e22bf1a3817 248 /*initialize configuration*/
vsluiter 5:6d75f432a41f 249 //Eb.setting16 = 0xABCD;
vsluiter 28:8505285f65ed 250 Eb.setting8 = 1;
vsluiter 1:5e22bf1a3817 251 // wait until ESC is started up
vsluiter 1:5e22bf1a3817 252 while ((ESCvar.DLstatus & 0x0001) == 0)
vsluiter 1:5e22bf1a3817 253 ESC_read(ESCREG_DLSTATUS, &ESCvar.DLstatus, sizeof(ESCvar.DLstatus), &ESCvar.ALevent);
vsluiter 1:5e22bf1a3817 254
vsluiter 1:5e22bf1a3817 255 // reset ESC to init state
vsluiter 1:5e22bf1a3817 256 ESC_ALstatus(ESCinit);
vsluiter 1:5e22bf1a3817 257 ESC_ALerror(ALERR_NONE);
vsluiter 1:5e22bf1a3817 258 ESC_stopmbx();
vsluiter 1:5e22bf1a3817 259 ESC_stopinput();
vsluiter 1:5e22bf1a3817 260 ESC_stopoutput();
vsluiter 25:829af6f3429f 261
vsluiter 25:829af6f3429f 262 // pc.baud(115200);
vsluiter 1:5e22bf1a3817 263 // application run loop
vsluiter 1:5e22bf1a3817 264 while (1)
vsluiter 1:5e22bf1a3817 265 {
vsluiter 20:ad13d4f5fd98 266 while(xbus_serial.readable())
vsluiter 20:ad13d4f5fd98 267 {
vsluiter 20:ad13d4f5fd98 268 XbusReceiveState(&xbus_master, xbus_serial.getc());
vsluiter 20:ad13d4f5fd98 269 if(xbus_master.rx.checksum_ok)
vsluiter 20:ad13d4f5fd98 270 {
vsluiter 20:ad13d4f5fd98 271 if(xbus_master.rx.buffer[2] == 0x32)
vsluiter 20:ad13d4f5fd98 272 {
vsluiter 25:829af6f3429f 273 memcpy_byteswap((uint8_t *)&local_Rb.timestamp ,&xbus_master.rx.buffer[4], 2);
vsluiter 37:d00717883d98 274 memcpy_floatswap((uint8_t *)&local_Rb.first.q0,&xbus_master.rx.buffer[6],xbus_master.rx.buffer[3] - 2);
vsluiter 33:b4844666684f 275 //memcpy_byteswap((uint8_t *)&local_Rb.first.acc[0],&xbus_master.rx.buffer[6],xbus_master.rx.buffer[3] - 2);
vsluiter 25:829af6f3429f 276 //pc.printf("%x %x\n",Rb.timestamp, *((uint16_t *)(&xbus_master.rx.buffer[4])));
vsluiter 27:93c0e4ae943e 277 PLOEP;
vsluiter 20:ad13d4f5fd98 278 }
vsluiter 20:ad13d4f5fd98 279 xbus_master.rx.checksum_ok = 0;
vsluiter 20:ad13d4f5fd98 280 }
vsluiter 18:6629e8c5d59e 281 }
vsluiter 1:5e22bf1a3817 282 ESC_read(ESCREG_LOCALTIME, &ESCvar.Time, sizeof(ESCvar.Time), &ESCvar.ALevent);
vsluiter 1:5e22bf1a3817 283 ESC_ALevent();
vsluiter 1:5e22bf1a3817 284 ESC_state();
vsluiter 1:5e22bf1a3817 285 if (ESC_mbxprocess())
vsluiter 1:5e22bf1a3817 286 {
vsluiter 1:5e22bf1a3817 287 ESC_coeprocess();
vsluiter 1:5e22bf1a3817 288 ESC_xoeprocess();
vsluiter 1:5e22bf1a3817 289 }
vsluiter 1:5e22bf1a3817 290 DIG_process();
vsluiter 1:5e22bf1a3817 291 }
vsluiter 1:5e22bf1a3817 292 }
vsluiter 1:5e22bf1a3817 293
vsluiter 1:5e22bf1a3817 294 /** void ESC_objecthandler(uint16 index, uint8 subindex)
vsluiter 1:5e22bf1a3817 295 \brief Object handler, declared from esc.h, as extern function
vsluiter 1:5e22bf1a3817 296 \param index
vsluiter 1:5e22bf1a3817 297 \param subindex
vsluiter 1:5e22bf1a3817 298 */
vsluiter 1:5e22bf1a3817 299
vsluiter 1:5e22bf1a3817 300
vsluiter 1:5e22bf1a3817 301 #ifdef USE_FULL_ASSERT
vsluiter 1:5e22bf1a3817 302
vsluiter 1:5e22bf1a3817 303 /**
vsluiter 1:5e22bf1a3817 304 * @brief Reports the name of the source file and the source line number
vsluiter 1:5e22bf1a3817 305 * where the assert_param error has occurred.
vsluiter 1:5e22bf1a3817 306 * @param file: pointer to the source file name
vsluiter 1:5e22bf1a3817 307 * @param line: assert_param error line source number
vsluiter 1:5e22bf1a3817 308 * @retval None
vsluiter 1:5e22bf1a3817 309 */
vsluiter 1:5e22bf1a3817 310 void assert_failed(uint8_t* file, uint32_t line)
vsluiter 1:5e22bf1a3817 311 {
vsluiter 1:5e22bf1a3817 312 /* User can add his own implementation to report the file name and line number,
vsluiter 1:5e22bf1a3817 313 ex: printf("Wrong parameters value: file %s on line %d\r\n", file, line) */
vsluiter 1:5e22bf1a3817 314
vsluiter 1:5e22bf1a3817 315 /* Infinite loop */
vsluiter 1:5e22bf1a3817 316 while (1)
vsluiter 1:5e22bf1a3817 317 {
vsluiter 1:5e22bf1a3817 318 }
vsluiter 1:5e22bf1a3817 319 }
vsluiter 1:5e22bf1a3817 320 #endif
vsluiter 1:5e22bf1a3817 321
vsluiter 1:5e22bf1a3817 322 /**
vsluiter 1:5e22bf1a3817 323 * @}
vsluiter 1:5e22bf1a3817 324 */
vsluiter 1:5e22bf1a3817 325
vsluiter 1:5e22bf1a3817 326 /**
vsluiter 1:5e22bf1a3817 327 * @}
vsluiter 1:5e22bf1a3817 328 */
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vsluiter 1:5e22bf1a3817 330 /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
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