30
+ − 1 ///////////////////////////////////////////////////////////////////////////////
+ − 2 /// -*- coding: UTF-8 -*-
+ − 3 ///
+ − 4 /// \file BootLoader/Src/base_bootlader.c
+ − 5 /// \brief he beginning of it all. main() is part of this.
36
+ − 6 /// \author heinrichs weikamp gmbh
30
+ − 7 /// \date 26-February-2014
+ − 8 ///
+ − 9 /// $Id$
+ − 10 ///////////////////////////////////////////////////////////////////////////////
+ − 11 /// \par Copyright (c) 2014-2018 Heinrichs Weikamp gmbh
+ − 12 ///
+ − 13 /// This program is free software: you can redistribute it and/or modify
+ − 14 /// it under the terms of the GNU General Public License as published by
+ − 15 /// the Free Software Foundation, either version 3 of the License, or
+ − 16 /// (at your option) any later version.
+ − 17 ///
+ − 18 /// This program is distributed in the hope that it will be useful,
+ − 19 /// but WITHOUT ANY WARRANTY; without even the implied warranty of
+ − 20 /// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ − 21 /// GNU General Public License for more details.
+ − 22 ///
+ − 23 /// You should have received a copy of the GNU General Public License
+ − 24 /// along with this program. If not, see <http://www.gnu.org/licenses/>.
+ − 25 //////////////////////////////////////////////////////////////////////////////
+ − 26 /**
+ − 27 * @detail The beginning of it all. main() is part of this.
+ − 28 * + Do the inits for hardware
+ − 29 * + check for button press or update process reset trigger
+ − 30 * + Do the inits for sub-systems like menu, dive screen etc.
+ − 31 * + Start IRQs
+ − 32 * + Start MainTasks not in IRQs
+ − 33 * @bug
+ − 34 * @warning
+ − 35 @verbatim
+ − 36
+ − 37 ==============================================================================
+ − 38 ##### bootloader specific #####
+ − 39 ==============================================================================
+ − 40
36
+ − 41 151130 hw sleep on button3
30
+ − 42 (MX_tell_reset_logik_alles_ok() + DataEX_call() in endlos loop)
+ − 43
+ − 44 ==============================================================================
+ − 45 ##### bootloader specific #####
+ − 46 ==============================================================================
+ − 47
+ − 48 Bootloader info is set right here in this file.
+ − 49 The location is 0x0800A000 instead of 0x08050000 (firmware)
+ − 50
+ − 51 on system reset (Menu Start Bootloader in firmware) the update process
+ − 52 is started automatically if no button is pressed
+ − 53
+ − 54 if the right button is pressed the bootloader menu is started
+ − 55
+ − 56 after update process (with update or empty) cleaning of EEPROM is started
+ − 57 afterwards the watchdog reset starts without activating the update process
+ − 58
+ − 59 bluetooth chip is started in tComm on start of the mini bootloader firmware
+ − 60
+ − 61 SMALLCPU_CSB_PIN must be re-set to 0 to communicate with small CPU / CPU2 / RTE
+ − 62
+ − 63 for RealTerm to send file / firmware, Delays has to be increased to 0
+ − 64
+ − 65 RTE update / SPI1 with DMA gave IBUSERR, now it is working fine :-) 150828
+ − 66 ==============================================================================
+ − 67 from standard firmware, parts might be invalid here:
+ − 68 ==============================================================================
+ − 69 ##### IRQs #####
+ − 70 ==============================================================================
+ − 71 [..] The IRQs are very important and most functions should only run there.
+ − 72
+ − 73 PreemptPriority are as follows
+ − 74 (#) 2 (low) sprintf _only_ here. Don't use in maintask or anywhere else.
+ − 75 Called by Buttons und Timer3
+ − 76 Timer3 is 1/10 second
+ − 77 (#) 1 (mid) anything that should work while in IRQ2 like HalDelay(), VSYNC
+ − 78 and DMA2D Transfer Complete for housekeepingFrame();
+ − 79 (#) 0 (high) _very very short_ interrupts like The HAL hardware part for
+ − 80 spi, uart, i2c.
+ − 81
+ − 82 SubPriority within PreemptPriority give the order to execute.
+ − 83 Introduced 30.Oct.14 as it used by several HAL examples.
+ − 84 Three levelAmbients are available (2 low,1 mid,0 high)
+ − 85
+ − 86 The STM32F4 has 4bits for IRQ levelAmbients, divided 2/2 in this code
+ − 87 with the NVIC_PRIORITYGROUP_2 setting.
+ − 88
+ − 89 ==============================================================================
+ − 90 ##### MainTask #####
+ − 91 ==============================================================================
+ − 92 [..] For everthing slow without importance to be 'in time'.
+ − 93 Like VPM and Buehlmann.
+ − 94 No sprintf and probably no GFX_SetFramesTopBottom() stuff neither.
+ − 95 If sprintf is called while sprintf is executed it blows up everything.
+ − 96
+ − 97 ==============================================================================
+ − 98 ##### Frames / the external SDRAM #####
+ − 99 ==============================================================================
+ − 100 [..] The SDRAM is handled by getFrame() and releaseFrame().
+ − 101 Each frame with 800*480*2 Bytes.
+ − 102 Be carefull to release every frame
+ − 103 otherwise there will be a memory leakage over time.
+ − 104 housekeepingFrame() in the MainTask takes care of cleaning the frames.
+ − 105 All frames are filled with 0x00. This will be transparent with color of
+ − 106 CLUT_Font020 (is CLUT 0) if the alpha is set for a 16bit pair.
+ − 107 housekeepingFrame() delays the cleaning of frames still used as screen
+ − 108 buffer to prevent flickering.
+ − 109
+ − 110 ==============================================================================
+ − 111 ##### Display #####
+ − 112 ==============================================================================
+ − 113 [..] There is a Top layer, Bottom layer and background color.
+ − 114 All are perfectly alpha-blended by hardware.
+ − 115
+ − 116 (#) top layer has 800x480 option function calls only
+ − 117 as it is not used for cursors here
+ − 118 (#) bottom layer has free size and start option to be used
+ − 119 for cursors (or sprites in the future ;-)
+ − 120 (#) background only black in the moment.
+ − 121 ToDo: Could be anything else for warnings etc.
+ − 122 if needed
+ − 123
+ − 124 [..] Frame updates, switching and cursors is done with
+ − 125
+ − 126 (#) GFX_SetFramesTopBottom() and the subset
+ − 127 GFX_SetFrameTop() + GFX_SetFrameBottom()
+ − 128 Those do not change anything on the display but give commands to..
+ − 129 (#) GFX_change_LTDC() The only place that changes the pointer.
+ − 130 This prevents erratic behaviour if several changes
+ − 131 are made within one refresh rate of the screen.
+ − 132 Is called in IRQ by PD4 and HAL_GPIO_EXTI_IRQHandler
+ − 133 from VSYNC signal.
+ − 134
+ − 135 [..] Content
+ − 136
+ − 137 (#) Colors by LookupTable only. This could be modified by
+ − 138 system settings in the future. (gfx_color.h/.c)
+ − 139
+ − 140 (#) Text by text_multilinguage.h/.c with one char
+ − 141 necessary only starting from '\x80'
+ − 142 with automatic language switch by
+ − 143 selected_language in SSettings
+ − 144 see openEdit_Language() in tMenuEditSystem.c
+ − 145 Therefore there are differnent functions
+ − 146 for example:
+ − 147 write_label_fix() for single char multilanguage
+ − 148 write_label_var() for strings that could include
+ − 149 multilanguage as well
+ − 150 see GFX_write_string() to get an overview of the controls
+ − 151 as well as the command list in gfx_engine.h
+ − 152 There is no clear before writing, text overlay is always on.
+ − 153 Many options to have LargeFont.SmallFont for numbers etc.
+ − 154
+ − 155 ==============================================================================
+ − 156 ##### Update, DualBoot and build-in FLASH memory usage #####
+ − 157 ==============================================================================
+ − 158 [..] Boot0 pin, Boot1/PB2 pin and BFB2 software bit control the behaviour.
+ − 159 PB2 should be tied to GND.
+ − 160 Boot0 == VDD -> bootloader on start, otherwise boot from Bank1 or Bank2
+ − 161 depending on BFB2.
+ − 162 Bank2 contains the Fonts and should contain a proper test code in future
+ − 163 Bank1 is the main code (Bank1 is 1 MB too, usage as of Oct. 14 is 200 KB)
+ − 164 [..] Bootloader should be either UART or USB (on FS pins _only_)
+ − 165 USB HS to FS like on the Eval board does not work.
+ − 166 [..] Bootloader for the smaller CPU2 is implemented via the SPI used for DMA copy.
+ − 167
+ − 168 ==============================================================================
+ − 169 ##### Connection to CPU2 (STM32F411 as of Oct.14 #####
+ − 170 ==============================================================================
+ − 171 [..] Connected via SPI and DMA for every purpose.
+ − 172 two entire arrays are transfered for data security reasons
+ − 173 with respect to master (STM32F429) might interrupt internal
+ − 174 data copy in CPU2 (like hi byte, low byte, etc.).
+ − 175 [..] The entire life data is calculated in CPU2. Like tissues, CNS,...
+ − 176 Therefore the main unit is _not_ necessarily a Real Time system.
+ − 177 Simulation on the main unit can be executed without disrupting life data.
+ − 178 [..] SPI is triggered and timed by calling DataEX_call() in data_exchange_main.c
+ − 179 DataEX_copy_to_LifeData() does the transfer from buffer to variables used.
+ − 180
+ − 181 ==============================================================================
+ − 182 ##### Menu, MenuEdit, Info #####
+ − 183 ==============================================================================
+ − 184 [..] tMenu.c, tMenuEdit.c and tInfo.c is the system used.
+ − 185 logbook is part of Info not Menu.
+ − 186 The Info Menu is accessed by button 'Back'
+ − 187 The regular Menu is accessed by button 'Enter'
+ − 188 [..] Menu content is kept in frame memory for fast access.
+ − 189 There is no need to build pages if the 'Enter' button is pressed.
+ − 190 This is in contrast to MenuEdit pages.
+ − 191 [..] Button control for new pages (and pages in general) have to implemented
+ − 192 in tMenu.c, tMenuEdit.c or tInfo.c
+ − 193
+ − 194 [..] ToDo (Oct. 14) Timeout for menus via Timer3 / IRQ 2
+ − 195
+ − 196 ==============================================================================
+ − 197 ##### specials #####
+ − 198 ==============================================================================
+ − 199 [..] There was code for vector graphics from great demos
+ − 200 (peridiummmm and jupiter) that can be fitted again
+ − 201
+ − 202 @endverbatim
+ − 203 ******************************************************************************
+ − 204 */
+ − 205
+ − 206 /* Includes ------------------------------------------------------------------*/
+ − 207 #include "base_bootloader.h"
+ − 208
+ − 209 // From Bootloader/Inc:
+ − 210 #include "tInfoBootloader.h"
+ − 211
+ − 212 // ?
+ − 213 #include "externLogbookFlash.h"
+ − 214 #include "firmwareEraseProgram.h"
+ − 215 #include "firmwareJumpToApplication.h"
+ − 216
+ − 217 // From Common/Inc:
+ − 218 #include "FirmwareData.h"
+ − 219
+ − 220 // From Common/Drivers:
+ − 221 #include "stm32f4xx_hal.h"
+ − 222 #include "stm32f4xx_hal_rcc.h"
+ − 223 #include "stm32f4xx_hal_flash_ex.h"
+ − 224 #include "stm32f4xx_hal_wwdg.h"
+ − 225
+ − 226 // From Discovery/Inc (shall be shared...)
+ − 227 #include "data_exchange_main.h"
+ − 228 #include "display.h"
+ − 229 #include "gfx_engine.h"
+ − 230 #include "ostc.h"
+ − 231 #include "tComm.h"
+ − 232 #include "tStructure.h"
+ − 233
+ − 234 // From AC6 support:
+ − 235 #include <stdio.h>
+ − 236 #include <string.h> // for memcopy
+ − 237
+ − 238 /* Private define ------------------------------------------------------------*/
+ − 239 #define BUFFER_SIZE ((uint32_t)0x00177000)
+ − 240 #define WRITE_READ_ADDR ((uint32_t)0x0000)
+ − 241 #define REFRESH_COUNT ((uint32_t)0x0569) /* SDRAM refresh counter (90Mhz SD clock) */
+ − 242
+ − 243 /* Private macro -------------------------------------------------------------*/
+ − 244 /* Private variables ---------------------------------------------------------*/
+ − 245 uint8_t returnFromCommCleanUpRequest = 0;
+ − 246
+ − 247 const SFirmwareData bootloader_FirmwareData __attribute__(( section(".bootloader_firmware_data") )) =
+ − 248 {
+ − 249 .versionFirst = 1,
+ − 250 .versionSecond = 0,
+ − 251 .versionThird = 1,
+ − 252 .versionBeta = 1,
+ − 253
+ − 254 /* 4 bytes with trailing 0 */
+ − 255 .signature = "cw",
+ − 256
+ − 257 .release_year = 16,
+ − 258 .release_month = 4,
+ − 259 .release_day = 8,
+ − 260 .release_sub = 0,
+ − 261
+ − 262 /* max 48 with trailing 0 */
+ − 263 .release_info ="tComm with all",
+ − 264
+ − 265 /* for safety reasons and coming functions*/
+ − 266 .magic[0] = FIRMWARE_MAGIC_FIRST,
+ − 267 .magic[1] = FIRMWARE_MAGIC_SECOND,
+ − 268 .magic[2] = FIRMWARE_MAGIC_FIRMWARE, /* the magic byte */
+ − 269 .magic[3] = FIRMWARE_MAGIC_END
+ − 270 };
+ − 271
+ − 272
+ − 273 const SHardwareData HardwareData __attribute__((at(HARDWAREDATA_ADDRESS))) = {
+ − 274
+ − 275 // first 52 bytes
+ − 276 .primarySerial = 0xFFFF,
+ − 277 .primaryLicence = 0xFF,
+ − 278 .revision8bit = 0xFF,
+ − 279 .production_year = 0xFF,
+ − 280 .production_month = 0xFF,
+ − 281 .production_day = 0xFF,
+ − 282 .production_bluetooth_name_set = 0xFF,
+ − 283
+ − 284 .production_info = {
+ − 285 0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
+ − 286 0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
+ − 287 0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
+ − 288 0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF},
+ − 289
+ − 290 // other 12 bytes (64 in total)
+ − 291 .secondarySerial = 0xFFFF,
+ − 292 .secondaryLicence = 0xFF,
+ − 293 .secondaryReason8bit = 0xFF,
+ − 294 .secondary_year = 0xFF,
+ − 295 .secondary_month = 0xFF,
+ − 296 .secondary_day = 0xFF,
+ − 297 .secondary_bluetooth_name_set = 0xFF,
+ − 298 .secondary_info = {0xFF,0xFF,0xFF,0xFF}
+ − 299 };
+ − 300
+ − 301
+ − 302 RTC_HandleTypeDef RtcHandle;
+ − 303 TIM_HandleTypeDef TimHandle; /* used in stm32f4xx_it.c too */
+ − 304 TIM_HandleTypeDef TimBacklightHandle; /* used in stm32f4xx_it.c too */
+ − 305
+ − 306 uint32_t time_before;
+ − 307 uint32_t time_between;
+ − 308 uint32_t time_after;
+ − 309
+ − 310 /* SDRAM handler declaration */
+ − 311 SDRAM_HandleTypeDef hsdram;
+ − 312 FMC_SDRAM_TimingTypeDef SDRAM_Timing;
+ − 313 FMC_SDRAM_CommandTypeDef command;
+ − 314
+ − 315 FLASH_OBProgramInitTypeDef OBInit;
+ − 316 FLASH_AdvOBProgramInitTypeDef AdvOBInit;
+ − 317
+ − 318
+ − 319 /* Private variables with external access ------------------------------------*/
+ − 320
+ − 321 uint32_t globalStateID = 0;
+ − 322 uint8_t globalModeID = SURFMODE;
+ − 323 uint32_t time_without_button_pressed_deciseconds = 0;
+ − 324 uint8_t bootToBootloader = 0;
+ − 325
+ − 326 /* Private function prototypes -----------------------------------------------*/
+ − 327
+ − 328 //static void LCD_ToggleFramebuffer(GFX_DrawCfgTypeDef *hconfig);
+ − 329 //static void LCD_Config(GFX_DrawCfgTypeDef *hconfig);
+ − 330 static void SystemClock_Config(void);
+ − 331 static void Error_Handler(void);
+ − 332
+ − 333 static void SDRAM_Initialization_Sequence(SDRAM_HandleTypeDef *hsdram, FMC_SDRAM_CommandTypeDef *Command);
+ − 334 static void SDRAM_Config(void);
+ − 335 //static void DualBoot(void);
+ − 336 static void EXTILine_Buttons_Config(void);
+ − 337 //static void RTC_init(void);
+ − 338 static void TIM_init(void);
+ − 339 static void TIM_BACKLIGHT_init(void);
+ − 340 //static void TIM_BACKLIGHT_adjust(void);
+ − 341 static void gotoSleep(void);
+ − 342 uint8_t checkResetForFirmwareUpdate(void);
+ − 343 void DeleteResetToFirmwareUpdateRegister(void);
+ − 344 void reset_to_firmware_using_Watchdog(void);
+ − 345 void reset_to_update_using_system_reset(void);
+ − 346
+ − 347 //static void DualBootToBootloader(void);
+ − 348
+ − 349 /* ITM Trace-------- ---------------------------------------------------------*/
+ − 350 /*
+ − 351 #define ITM_Port8(n) (*((volatile unsigned char *)(0xE0000000+4*n)))
+ − 352 #define ITM_Port16(n) (*((volatile unsigned short*)(0xE0000000+4*n)))
+ − 353 #define ITM_Port32(n) (*((volatile unsigned long *)(0xE0000000+4*n)))
+ − 354
+ − 355 #define DEMCR (*((volatile unsigned long *)(0xE000EDFC)))
+ − 356 #define TRCENA 0x01000000
+ − 357
+ − 358 struct __FILE { int handle; };
+ − 359 FILE __stdout;
+ − 360 FILE __stdin;
+ − 361
+ − 362 int fputc(int ch, FILE *f) {
+ − 363 if (DEMCR & TRCENA) {
+ − 364 while (ITM_Port32(0) == 0);
+ − 365 ITM_Port8(0) = ch;
+ − 366 }
+ − 367 return(ch);
+ − 368 }
+ − 369 */
+ − 370
+ − 371 /* Private functions ---------------------------------------------------------*/
+ − 372
+ − 373 /**
+ − 374 * @brief Main program
+ − 375 * @param None
+ − 376 * @retval None
+ − 377 */
+ − 378
+ − 379 void GPIO_test_I2C_lines(void)
+ − 380 {
+ − 381 GPIO_InitTypeDef GPIO_InitStructure;
+ − 382 __GPIOA_CLK_ENABLE();
+ − 383 __GPIOG_CLK_ENABLE();
+ − 384 GPIO_InitStructure.Pin = GPIO_PIN_7;
+ − 385 GPIO_InitStructure.Mode = GPIO_MODE_OUTPUT_PP;
+ − 386 GPIO_InitStructure.Pull = GPIO_PULLUP;
+ − 387 GPIO_InitStructure.Speed = GPIO_SPEED_LOW;
+ − 388 HAL_GPIO_Init(GPIOG, &GPIO_InitStructure);
+ − 389 GPIO_InitStructure.Pin = GPIO_PIN_3;
+ − 390 HAL_GPIO_Init(GPIOA, &GPIO_InitStructure);
+ − 391
+ − 392 while(1)
+ − 393 {
+ − 394 HAL_GPIO_WritePin(GPIOG,GPIO_PIN_7,GPIO_PIN_SET);
+ − 395 HAL_GPIO_WritePin(GPIOA,GPIO_PIN_3,GPIO_PIN_RESET);
+ − 396 HAL_Delay(10);
+ − 397 HAL_GPIO_WritePin(GPIOG,GPIO_PIN_7,GPIO_PIN_RESET);
+ − 398 HAL_GPIO_WritePin(GPIOA,GPIO_PIN_3,GPIO_PIN_SET);
+ − 399 HAL_Delay(10);
+ − 400 }
+ − 401 }
+ − 402
+ − 403
+ − 404 int main(void)
+ − 405 {
+ − 406
+ − 407 /*
+ − 408 HAL_Init();
+ − 409 SystemClock_Config();
+ − 410 GPIO_test_I2C_lines();
+ − 411 */
+ − 412 uint32_t pLayerInvisible;
+ − 413 uint32_t firmware_load_result;
+ − 414 uint8_t magicbyte = 0;
+ − 415 uint8_t callForUpdate;
+ − 416 uint8_t status = 0;
+ − 417 char textVersion[32];
+ − 418 uint8_t ptr;
+ − 419 uint32_t pOffset;
+ − 420
+ − 421 set_globalState(StBoot0);
+ − 422
+ − 423 HAL_Init();
+ − 424 HAL_NVIC_SetPriorityGrouping(NVIC_PRIORITYGROUP_2);
+ − 425
+ − 426 /* feedback for the user
+ − 427 * aber sehr unsch�n beim Warmstart
+ − 428 * da das letzte Bild noch lange nachleuchtet */
+ − 429 // MX_GPIO_Backlight_max_static_only_Init();
+ − 430
+ − 431
+ − 432 /* button press is only 40 to 50 us low */
+ − 433 MX_GPIO_One_Button_only_Init();
+ − 434
+ − 435 uint32_t i = 500000;
+ − 436
+ − 437 callForUpdate = __HAL_RCC_GET_FLAG(RCC_FLAG_SFTRST);
+ − 438
+ − 439 if(callForUpdate)
+ − 440 {
+ − 441 i = 0;
+ − 442 }
+ − 443 else
+ − 444 if( (firmware_MainCodeIsProgammed() == 0)
+ − 445 || (hardwareDataGetPointer()->primarySerial == 0xFFFF)
+ − 446 || (hardwareDataGetPointer()->production_bluetooth_name_set == 0xFF))
+ − 447 {
+ − 448 i = 1;
+ − 449 }
+ − 450 else
+ − 451 {
+ − 452 while(MX_GPIO_Read_The_One_Button() && i)
+ − 453 {
+ − 454 i--;
+ − 455 __NOP();
+ − 456 }
+ − 457 if(i)
+ − 458 {
+ − 459 i = 200000;
+ − 460 while(!MX_GPIO_Read_The_One_Button() && i)
+ − 461 {
+ − 462 i--;
+ − 463 __NOP();
+ − 464 }
+ − 465 if(i)
+ − 466 {
+ − 467 i = 200000;
+ − 468 while(MX_GPIO_Read_The_One_Button() && i)
+ − 469 {
+ − 470 i--;
+ − 471 __NOP();
+ − 472 }
+ − 473 if(i)
+ − 474 {
+ − 475 i = 200000;
+ − 476 while(!MX_GPIO_Read_The_One_Button() && i)
+ − 477 {
+ − 478 i--;
+ − 479 __NOP();
+ − 480 }
+ − 481 if(i)
+ − 482 {
+ − 483 i = 200000;
+ − 484 while(MX_GPIO_Read_The_One_Button() && i)
+ − 485 {
+ − 486 i--;
+ − 487 __NOP();
+ − 488 }
+ − 489 }
+ − 490 }
+ − 491 }
+ − 492 }
+ − 493 }
+ − 494
+ − 495 if((i == 0) && (callForUpdate == 0))
+ − 496 firmware_JumpTo_Application();
+ − 497
+ − 498 SystemClock_Config();
+ − 499
+ − 500 MX_GPIO_Init();
+ − 501 MX_Bluetooth_PowerOn();
+ − 502 MX_SPI_Init();
+ − 503 SDRAM_Config();
+ − 504 HAL_Delay(100);
+ − 505
+ − 506 GFX_init1_no_DMA(&pLayerInvisible, 2);
+ − 507
+ − 508 TIM_BACKLIGHT_init();
+ − 509
+ − 510 // -----------------------------
+ − 511
+ − 512 display_power_on__1_of_2__pre_RGB();
+ − 513 GFX_LTDC_Init();
+ − 514 GFX_LTDC_LayerDefaultInit(TOP_LAYER, pLayerInvisible);
+ − 515 GFX_LTDC_LayerDefaultInit(BACKGRD_LAYER, pLayerInvisible);
+ − 516 GFX_SetFramesTopBottom(pLayerInvisible,pLayerInvisible,480);
+ − 517 HAL_Delay(20);
+ − 518 display_power_on__2_of_2__post_RGB();
+ − 519
+ − 520 // -----------------------------
+ − 521 GFX_change_LTDC();
+ − 522 GFX_hwBackgroundOn();
+ − 523 GFX_change_LTDC();
+ − 524 // -----------------------------
+ − 525 tInfoBootloader_init();
+ − 526 // -----------------------------
+ − 527 if(i == 0)
+ − 528 {
+ − 529 tInfo_newpage("load firmware data");
+ − 530 uint8_t* pBuffer = (uint8_t*)((uint32_t)0xD0000000); /* blocked via GFX_init1_no_DMA */
+ − 531 firmware_load_result = ext_flash_read_firmware(pBuffer,768000, &magicbyte);
+ − 532
+ − 533 if((firmware_load_result > 0) && (firmware_load_result < 768000) && (magicbyte == 0xEE))
+ − 534 {
+ − 535 ptr = ext_flash_read_firmware_version(textVersion);
+ − 536 textVersion[ptr++] = 'f';
+ − 537 textVersion[ptr++] = 'o';
+ − 538 textVersion[ptr++] = 'u';
+ − 539 textVersion[ptr++] = 'n';
+ − 540 textVersion[ptr++] = 'd';
+ − 541 textVersion[ptr] = 0;
+ − 542
+ − 543 tInfo_newpage(textVersion);
+ − 544 tInfo_write("erase flash");
+ − 545 status = firmware_eraseFlashMemory();
+ − 546 if(status != HAL_OK)
+ − 547 {
+ − 548 tInfo_newpage("error. try again.");
+ − 549 status = firmware_eraseFlashMemory();
+ − 550 if(status != HAL_OK)
+ − 551 {
+ − 552 tInfo_newpage("error. skip update.");
+ − 553 HAL_Delay(1000);
+ − 554 }
+ − 555 }
+ − 556 if(status == HAL_OK)
+ − 557 {
+ − 558 tInfo_write("programm flash");
+ − 559 status = firmware_programFlashMemory(pBuffer,firmware_load_result);
+ − 560 if(status != HAL_OK)
+ − 561 {
+ − 562 tInfo_newpage("error. try again.");
+ − 563 status = firmware_programFlashMemory(pBuffer,firmware_load_result);
+ − 564 if(status != HAL_OK)
+ − 565 {
+ − 566 tInfo_newpage("error. skip update.");
+ − 567 HAL_Delay(1000);
+ − 568 }
+ − 569 }
+ − 570 }
+ − 571 }
+ − 572 }
+ − 573
+ − 574 /* here comes the variable upper firmware loader */
+ − 575 if((i == 0) && (status == HAL_OK))
+ − 576 {
+ − 577 tInfo_newpage("load firmware2 data");
+ − 578 uint8_t* pBuffer = (uint8_t*)((uint32_t)0xD0000000); /* blocked via GFX_init1_no_DMA */
+ − 579 firmware_load_result = ext_flash_read_firmware2(&pOffset, pBuffer,768000*2,0,0);
+ − 580
+ − 581 if((firmware_load_result > 0) && (firmware_load_result + pOffset <= 1024000))
+ − 582 {
+ − 583 ptr = 0;
+ − 584 ptr += gfx_number_to_string(7,0,&textVersion[ptr],firmware_load_result);
+ − 585 textVersion[ptr++] = ' ';
+ − 586 textVersion[ptr++] = 'b';
+ − 587 textVersion[ptr++] = 'y';
+ − 588 textVersion[ptr++] = 't';
+ − 589 textVersion[ptr++] = 'e';
+ − 590 textVersion[ptr++] = 's';
+ − 591 textVersion[ptr++] = ' ';
+ − 592 textVersion[ptr++] = 'w';
+ − 593 textVersion[ptr++] = 'i';
+ − 594 textVersion[ptr++] = 't';
+ − 595 textVersion[ptr++] = 'h';
+ − 596 textVersion[ptr++] = ' ';
+ − 597 ptr += gfx_number_to_string(7,0,&textVersion[ptr],pOffset);
+ − 598 textVersion[ptr++] = ' ';
+ − 599 textVersion[ptr++] = 'o';
+ − 600 textVersion[ptr++] = 'f';
+ − 601 textVersion[ptr++] = 'f';
+ − 602 textVersion[ptr++] = 's';
+ − 603 textVersion[ptr++] = 'e';
+ − 604 textVersion[ptr++] = 't';
+ − 605 textVersion[ptr] = 0;
+ − 606 tInfo_newpage(textVersion);
+ − 607
+ − 608 ptr = 0;
+ − 609 textVersion[ptr++] = 'f';
+ − 610 textVersion[ptr++] = 'o';
+ − 611 textVersion[ptr++] = 'u';
+ − 612 textVersion[ptr++] = 'n';
+ − 613 textVersion[ptr++] = 'd';
+ − 614 textVersion[ptr] = 0;
+ − 615
+ − 616 tInfo_write(textVersion);
+ − 617 tInfo_write("erase flash");
+ − 618 status = firmware2_variable_upperpart_eraseFlashMemory(firmware_load_result,pOffset);
+ − 619 if(status != HAL_OK)
+ − 620 {
+ − 621 tInfo_newpage("error. try again.");
+ − 622 status = firmware2_variable_upperpart_eraseFlashMemory(firmware_load_result,pOffset);
+ − 623 if(status != HAL_OK)
+ − 624 {
+ − 625 tInfo_newpage("error. skip update.");
+ − 626 HAL_Delay(1000);
+ − 627 }
+ − 628 }
+ − 629 if(status == HAL_OK)
+ − 630 {
+ − 631 tInfo_write("programm flash");
+ − 632 status = firmware2_variable_upperpart_programFlashMemory(firmware_load_result,pOffset,pBuffer,firmware_load_result,0);
+ − 633 if(status != HAL_OK)
+ − 634 {
+ − 635 tInfo_newpage("error. try again.");
+ − 636 status = firmware2_variable_upperpart_programFlashMemory(firmware_load_result,pOffset,pBuffer,firmware_load_result,0);
+ − 637 if(status != HAL_OK)
+ − 638 {
+ − 639 tInfo_newpage("error. skip update.");
+ − 640 HAL_Delay(1000);
+ − 641 }
+ − 642 }
+ − 643 }
+ − 644 }
+ − 645 }
+ − 646
+ − 647 if((i == 0) && (status == HAL_OK))
+ − 648 {
+ − 649 tInfo_newpage("Done.");
+ − 650 tInfo_write("Cleaning.");
+ − 651 ext_flash_erase_firmware_if_not_empty();
+ − 652 ext_flash_erase_firmware2_if_not_empty();
+ − 653 tInfo_write("Reset device.");
+ − 654 reset_to_firmware_using_Watchdog();
+ − 655 }
+ − 656
+ − 657 ptr = 0;
+ − 658 textVersion[ptr++] = '\021';
+ − 659 textVersion[ptr++] = 's';
+ − 660 textVersion[ptr++] = 'e';
+ − 661 textVersion[ptr++] = 'r';
+ − 662 textVersion[ptr++] = 'i';
+ − 663 textVersion[ptr++] = 'a';
+ − 664 textVersion[ptr++] = 'l';
+ − 665 textVersion[ptr++] = ' ';
+ − 666 if(HardwareData.primarySerial == 0xFFFF)
+ − 667 {
+ − 668 textVersion[ptr++] = 'n';
+ − 669 textVersion[ptr++] = 'o';
+ − 670 textVersion[ptr++] = 't';
+ − 671 textVersion[ptr++] = ' ';
+ − 672 textVersion[ptr++] = 's';
+ − 673 textVersion[ptr++] = 'e';
+ − 674 textVersion[ptr++] = 't';
+ − 675 }
+ − 676 else if(HardwareData.secondarySerial == 0xFFFF)
+ − 677 {
+ − 678 textVersion[ptr++] = '#';
+ − 679 ptr += gfx_number_to_string(5,1,&textVersion[ptr],HardwareData.primarySerial);
+ − 680 }
+ − 681 else
+ − 682 {
+ − 683 textVersion[ptr++] = '#';
+ − 684 ptr += gfx_number_to_string(5,1,&textVersion[ptr],HardwareData.secondarySerial);
+ − 685 textVersion[ptr++] = ' ';
+ − 686 textVersion[ptr++] = '(';
+ − 687 ptr += gfx_number_to_string(5,1,&textVersion[ptr],HardwareData.primarySerial);
+ − 688 textVersion[ptr++] = ')';
+ − 689 }
+ − 690 textVersion[ptr++] = '\020';
+ − 691 textVersion[ptr] = 0;
+ − 692
+ − 693 tInfo_button_text("Exit","","Sleep");
+ − 694 tInfo_newpage("Bootloader 160602");
+ − 695 tInfo_write("start bluetooth");
+ − 696 tInfo_write("");
+ − 697 tInfo_write(textVersion);
+ − 698 tInfo_write("");
+ − 699
+ − 700 TIM_init();
+ − 701 MX_UART_Init();
+ − 702 MX_Bluetooth_PowerOn();
+ − 703 tComm_Set_Bluetooth_Name(0);
+ − 704
+ − 705 tComm_init();
+ − 706 set_globalState_Base();
+ − 707
+ − 708 GFX_start_VSYNC_IRQ();
+ − 709
+ − 710 EXTILine_Buttons_Config();
+ − 711 /*
+ − 712 uint8_t* pBuffer1 = (uint8_t*)getFrame(20);
+ − 713 firmware_load_result = ext_flash_read_firmware(pBuffer1,768000);
+ − 714
+ − 715 if((firmware_load_result > 0) && (firmware_load_result < 768000))
+ − 716 {
+ − 717 firmware_eraseFlashMemory();
+ − 718 firmware_programFlashMemory(pBuffer1,firmware_load_result);
+ − 719 // not for testing
+ − 720 //ext_flash_erase_firmware_if_not_empty();
+ − 721 reset_to_firmware_using_Watchdog();
+ − 722 }
+ − 723 */
+ − 724 while(1)
+ − 725 {
+ − 726 // if(bootToBootloader)
+ − 727 // DualBootToBootloader();
+ − 728
+ − 729 if(bootToBootloader)
+ − 730 reset_to_update_using_system_reset();
+ − 731
+ − 732 tComm_control(); // will stop while loop if tComm Mode started until exit from UART
+ − 733 };
+ − 734 }
+ − 735
+ − 736
+ − 737 void HAL_TIM_PeriodElapsedCallback(TIM_HandleTypeDef *htim)
+ − 738 {
+ − 739
+ − 740 SStateList status;
+ − 741
+ − 742 get_globalStateList(&status);
+ − 743
+ − 744 switch(status.base)
+ − 745 {
+ − 746 default:
+ − 747 // TIM_BACKLIGHT_adjust();
+ − 748 break;
+ − 749 }
+ − 750
+ − 751 if(returnFromCommCleanUpRequest)
+ − 752 {
+ − 753 tComm_exit();
+ − 754 returnFromCommCleanUpRequest = 0;
+ − 755 GFX_hwBackgroundOn();
+ − 756 tInfo_button_text("Exit","","Sleep");
+ − 757 tInfo_newpage("bluetooth disonnected");
+ − 758 tInfo_write("");
+ − 759 tInfo_write("");
+ − 760 tInfo_write("");
+ − 761 tInfo_write("");
+ − 762 }
+ − 763
+ − 764 get_globalStateList(&status);
+ − 765
+ − 766 switch(status.base)
+ − 767 {
+ − 768 case BaseComm:
+ − 769 if(get_globalState() == StUART_STANDARD)
+ − 770 tComm_refresh();
+ − 771 break;
+ − 772 default:
+ − 773 break;
+ − 774 }
+ − 775 }
+ − 776
+ − 777 void HAL_GPIO_EXTI_Callback(uint16_t GPIO_Pin)
+ − 778 {
+ − 779 uint8_t action;
+ − 780 SStateList status;
+ − 781 static uint8_t counterToPreventSleep = 0;
+ − 782 if(GPIO_Pin == VSYNC_IRQ_PIN) // rechts, unten
+ − 783 {
+ − 784 GFX_change_LTDC();
+ − 785 housekeepingFrame();
+ − 786 if(counterToPreventSleep < 250)
+ − 787 counterToPreventSleep++;
+ − 788 else
+ − 789 if(counterToPreventSleep != 255)
+ − 790 {
+ − 791 counterToPreventSleep = 255;
+ − 792 }
+ − 793
+ − 794 return;
+ − 795 }
+ − 796
+ − 797 time_without_button_pressed_deciseconds = 0;
+ − 798
+ − 799 if(GFX_logoStatus() != 0)
+ − 800 return;
+ − 801
+ − 802 if(GPIO_Pin == BUTTON_BACK_PIN) // links
+ − 803 action = ACTION_BUTTON_BACK;
+ − 804 else
+ − 805 if(GPIO_Pin == BUTTON_ENTER_PIN) // mitte
+ − 806 action = ACTION_BUTTON_ENTER;
+ − 807 else
+ − 808 if(GPIO_Pin == BUTTON_NEXT_PIN) // rechts
+ − 809 action = ACTION_BUTTON_NEXT;
+ − 810 #ifdef BUTTON_CUSTOM_PIN
+ − 811 else
+ − 812 if(GPIO_Pin == BUTTON_CUSTOM_PIN) // extra
+ − 813 action = ACTION_BUTTON_CUSTOM;
+ − 814 #endif
+ − 815 else
+ − 816 action = 0;
+ − 817 get_globalStateList(&status);
+ − 818
+ − 819 switch(status.base)
+ − 820 {
+ − 821 case BaseComm:
+ − 822 if(action == ACTION_BUTTON_BACK)
+ − 823 {
+ − 824 reset_to_firmware_using_Watchdog();
+ − 825 }
+ − 826 break;
+ − 827
+ − 828 default:
+ − 829 if((action == ACTION_BUTTON_NEXT) && (counterToPreventSleep == 255) && (get_globalState() == StS))
+ − 830 {
+ − 831 while(1)
+ − 832 {
+ − 833 MX_tell_reset_logik_alles_ok();
+ − 834 DataEX_call();
+ − 835 HAL_Delay(100);
+ − 836 }
+ − 837 }
+ − 838 else
+ − 839 if(action == ACTION_BUTTON_BACK)
+ − 840 {
+ − 841 reset_to_firmware_using_Watchdog();
+ − 842 }
+ − 843 else
+ − 844 if(action == ACTION_BUTTON_CUSTOM)
+ − 845 {
+ − 846 if(get_globalState() == StS)
+ − 847 gotoSleep();
+ − 848 }
+ − 849 else
+ − 850 if(action == ACTION_BUTTON_ENTER)
+ − 851 {
+ − 852 reset_to_update_using_system_reset();
+ − 853 }
+ − 854 break;
+ − 855 }
+ − 856 }
+ − 857
+ − 858
+ − 859 void gotoSleep(void)
+ − 860 {
+ − 861 ext_flash_erase_firmware_if_not_empty();
+ − 862 set_globalState(StStop);
+ − 863 }
+ − 864
+ − 865 // -----------------------------
+ − 866
+ − 867
+ − 868 void MainBootLoaderInit(void)
+ − 869 {
+ − 870 void (*SysMemBootJump)(void);
+ − 871 SysMemBootJump=(void (*)(void)) (*((uint32_t *) 0x1fff0004));
+ − 872
+ − 873 // DMA, SPI, UART, TIM, ExtIRQ, graphics DMA, LTDC
+ − 874
+ − 875 HAL_RCC_DeInit();
+ − 876 SysTick->CTRL = 0;
+ − 877 SysTick->LOAD = 0;
+ − 878 SysTick->VAL = 0;
+ − 879
+ − 880 __set_PRIMASK(1);
+ − 881
+ − 882 __set_MSP(0x20002318);
+ − 883 SysMemBootJump();
+ − 884 }
+ − 885
+ − 886 uint32_t get_globalState(void)
+ − 887 {
+ − 888 return globalStateID;
+ − 889 }
+ − 890
+ − 891 void get_globalStateList(SStateList *output)
+ − 892 {
+ − 893 output->base = (uint8_t)((globalStateID >> 28) & 0x0F);
+ − 894 output->page = (uint8_t)((globalStateID >> 24) & 0x0F);
+ − 895 output->line = (uint8_t)((globalStateID >> 16) & 0xFF);
+ − 896 output->field = (uint8_t)((globalStateID >> 8) & 0xFF);
+ − 897 output->mode = (uint8_t)((globalStateID ) & 0xFF);
+ − 898 }
+ − 899
+ − 900 void get_idSpecificStateList(uint32_t id, SStateList *output)
+ − 901 {
+ − 902 output->base = (uint8_t)((id >> 28) & 0x0F);
+ − 903 output->page = (uint8_t)((id >> 24) & 0x0F);
+ − 904 output->line = (uint8_t)((id >> 16) & 0xFF);
+ − 905 output->field = (uint8_t)((id >> 8) & 0xFF);
+ − 906 output->mode = (uint8_t)((id ) & 0xFF);
+ − 907 }
+ − 908
+ − 909 void set_globalState_Base(void)
+ − 910 {
+ − 911 set_globalState(StS);
+ − 912 }
+ − 913
+ − 914 void set_globalState_Menu_Page(uint8_t page)
+ − 915 {
+ − 916 globalStateID = ((BaseMenu << 28) + (page << 24));
+ − 917 }
+ − 918
+ − 919 void set_globalState_Log_Page(uint8_t pageIsLine)
+ − 920 {
+ − 921 globalStateID = StILOGLIST + (pageIsLine << 16);
+ − 922 }
+ − 923
+ − 924
+ − 925 void set_globalState_Menu_Line(uint8_t line)
+ − 926 {
+ − 927 globalStateID = ((globalStateID & MaskLineFieldDigit) + (line << 16));
+ − 928 }
+ − 929
+ − 930
+ − 931 void set_globalState(uint32_t newID)
+ − 932 {
+ − 933 globalStateID = newID;
+ − 934 }
+ − 935
+ − 936
+ − 937
+ − 938 void delayMicros(uint32_t micros)
+ − 939 {
+ − 940 micros = micros * (168/4) - 10;
+ − 941 while(micros--);
+ − 942 }
+ − 943
+ − 944
+ − 945 void get_RTC_DateTime(RTC_DateTypeDef * sdatestructureget, RTC_TimeTypeDef * stimestructureget)
+ − 946 {
+ − 947 /* Get the RTC current Time */
+ − 948 if(sdatestructureget)
+ − 949 HAL_RTC_GetTime(&RtcHandle, stimestructureget, FORMAT_BIN);
+ − 950 /* Get the RTC current Date */
+ − 951 if(stimestructureget)
+ − 952 HAL_RTC_GetDate(&RtcHandle, sdatestructureget, FORMAT_BIN);
+ − 953 }
+ − 954
+ − 955
+ − 956 void set_RTC_DateTime(RTC_DateTypeDef * sdatestructure, RTC_TimeTypeDef * stimestructure)
+ − 957 {
+ − 958 if(sdatestructure)
+ − 959 if(HAL_RTC_SetDate(&RtcHandle,sdatestructure,FORMAT_BCD) != HAL_OK)
+ − 960 {
+ − 961 /* Initialization Error */
+ − 962 Error_Handler();
+ − 963 }
+ − 964
+ − 965 if(stimestructure)
+ − 966 if(HAL_RTC_SetTime(&RtcHandle,stimestructure,FORMAT_BCD) != HAL_OK)
+ − 967 {
+ − 968 /* Initialization Error */
+ − 969 Error_Handler();
+ − 970 }
+ − 971 }
+ − 972
+ − 973 static void TIM_init(void)
+ − 974 {
+ − 975 uint16_t uwPrescalerValue = 0;
+ − 976
+ − 977 uwPrescalerValue = (uint32_t) ((SystemCoreClock /2) / 10000) - 1;
+ − 978
+ − 979 /* Set TIMx instance */
+ − 980 TimHandle.Instance = TIMx;
+ − 981
+ − 982 /* Initialize TIM3 peripheral as follows:
+ − 983 + Period = 10000 - 1
+ − 984 + Prescaler = ((SystemCoreClock/2)/10000) - 1
+ − 985 + ClockDivision = 0
+ − 986 + Counter direction = Up
+ − 987 */
+ − 988 TimHandle.Init.Period = 1000 - 1;
+ − 989 TimHandle.Init.Prescaler = uwPrescalerValue;
+ − 990 TimHandle.Init.ClockDivision = 0;
+ − 991 TimHandle.Init.CounterMode = TIM_COUNTERMODE_UP;
+ − 992 if(HAL_TIM_Base_Init(&TimHandle) != HAL_OK)
+ − 993 {
+ − 994 /* Initialization Error */
+ − 995 Error_Handler();
+ − 996 }
+ − 997
+ − 998 /*##-2- Start the TIM Base generation in interrupt mode ####################*/
+ − 999 /* Start Channel1 */
+ − 1000 if(HAL_TIM_Base_Start_IT(&TimHandle) != HAL_OK)
+ − 1001 {
+ − 1002 /* Starting Error */
+ − 1003 Error_Handler();
+ − 1004 }
+ − 1005 }
+ − 1006
+ − 1007 #ifndef TIM_BACKLIGHT
+ − 1008 /*
+ − 1009 static void TIM_BACKLIGHT_adjust(void)
+ − 1010 {
+ − 1011 }
+ − 1012 */
+ − 1013 static void TIM_BACKLIGHT_init(void)
+ − 1014 {
+ − 1015 }
+ − 1016 #else
+ − 1017 /*
+ − 1018 static void TIM_BACKLIGHT_adjust(void)
+ − 1019 {
+ − 1020
+ − 1021 TIM_OC_InitTypeDef sConfig;
+ − 1022 sConfig.OCMode = TIM_OCMODE_PWM1;
+ − 1023 sConfig.OCPolarity = TIM_OCPOLARITY_HIGH;
+ − 1024 sConfig.OCFastMode = TIM_OCFAST_DISABLE;
+ − 1025 sConfig.Pulse = 600;
+ − 1026
+ − 1027 HAL_TIM_PWM_ConfigChannel(&TimBacklightHandle, &sConfig, TIM_BACKLIGHT_CHANNEL);
+ − 1028 HAL_TIM_PWM_Start(&TimBacklightHandle, TIM_BACKLIGHT_CHANNEL);
+ − 1029 }
+ − 1030 */
+ − 1031 static void TIM_BACKLIGHT_init(void)
+ − 1032 {
+ − 1033 uint32_t uwPrescalerValue = 0;
+ − 1034 TIM_OC_InitTypeDef sConfig;
+ − 1035
+ − 1036 uwPrescalerValue = (uint32_t) ((SystemCoreClock /2) / 18000000) - 1;
+ − 1037
+ − 1038 TimBacklightHandle.Instance = TIM_BACKLIGHT;
+ − 1039
+ − 1040 // Initialize TIM3 peripheral as follows: 30 kHz
+ − 1041
+ − 1042 TimBacklightHandle.Init.Period = 600 - 1;
+ − 1043 TimBacklightHandle.Init.Prescaler = uwPrescalerValue;
+ − 1044 TimBacklightHandle.Init.ClockDivision = 0;
+ − 1045 TimBacklightHandle.Init.CounterMode = TIM_COUNTERMODE_UP;
+ − 1046 HAL_TIM_PWM_Init(&TimBacklightHandle);
+ − 1047
+ − 1048 sConfig.OCMode = TIM_OCMODE_PWM1;
+ − 1049 sConfig.OCPolarity = TIM_OCPOLARITY_HIGH;
+ − 1050 sConfig.OCFastMode = TIM_OCFAST_DISABLE;
+ − 1051 sConfig.Pulse = 50 * 6;
+ − 1052
+ − 1053 HAL_TIM_PWM_ConfigChannel(&TimBacklightHandle, &sConfig, TIM_BACKLIGHT_CHANNEL);
+ − 1054 HAL_TIM_PWM_Start(&TimBacklightHandle, TIM_BACKLIGHT_CHANNEL);
+ − 1055 }
+ − 1056 #endif
+ − 1057
+ − 1058 /* Configure RTC prescaler and RTC data registers */
+ − 1059 /* RTC configured as follow:
+ − 1060 - Hour Format = Format 24
+ − 1061 - Asynch Prediv = Value according to source clock
+ − 1062 - Synch Prediv = Value according to source clock
+ − 1063 - OutPut = Output Disable
+ − 1064 - OutPutPolarity = High Polarity
+ − 1065 - OutPutType = Open Drain */
+ − 1066 /*#define RTC_ASYNCH_PREDIV 0x7F LSE as RTC clock */
+ − 1067 /*LSE: #define RTC_SYNCH_PREDIV 0x00FF LSE as RTC clock */
+ − 1068 /*LSI: #define RTC_SYNCH_PREDIV 0x0130 LSI as RTC clock */
+ − 1069 /*
+ − 1070 static void RTC_init(void)
+ − 1071 {
+ − 1072 RtcHandle.Instance = RTC;
+ − 1073
+ − 1074
+ − 1075 RtcHandle.Init.HourFormat = RTC_HOURFORMAT_24;
+ − 1076 RtcHandle.Init.AsynchPrediv = 0x7F;
+ − 1077 RtcHandle.Init.SynchPrediv = 0x0130;
+ − 1078 RtcHandle.Init.OutPut = RTC_OUTPUT_DISABLE;
+ − 1079 RtcHandle.Init.OutPutPolarity = RTC_OUTPUT_POLARITY_HIGH;
+ − 1080 RtcHandle.Init.OutPutType = RTC_OUTPUT_TYPE_OPENDRAIN;
+ − 1081
+ − 1082 if(HAL_RTC_Init(&RtcHandle) != HAL_OK)
+ − 1083 {
+ − 1084 Error_Handler();
+ − 1085 }
+ − 1086 }
+ − 1087 */
+ − 1088
+ − 1089 static void EXTILine_Buttons_Config(void)
+ − 1090 {
+ − 1091 GPIO_InitTypeDef GPIO_InitStructure;
+ − 1092
+ − 1093 BUTTON_ENTER_GPIO_ENABLE();
+ − 1094 BUTTON_NEXT_GPIO_ENABLE();
+ − 1095 BUTTON_BACK_GPIO_ENABLE();
+ − 1096
+ − 1097 /* Configure pin as weak PULLUP input */
+ − 1098 /* buttons */
+ − 1099 GPIO_InitStructure.Mode = GPIO_MODE_IT_RISING;
+ − 1100 GPIO_InitStructure.Pull = GPIO_NOPULL;
+ − 1101 GPIO_InitStructure.Speed = GPIO_SPEED_LOW;
+ − 1102
+ − 1103 GPIO_InitStructure.Pin = BUTTON_ENTER_PIN;
+ − 1104 HAL_GPIO_Init(BUTTON_ENTER_GPIO_PORT, &GPIO_InitStructure);
+ − 1105
+ − 1106 GPIO_InitStructure.Pin = BUTTON_NEXT_PIN;
+ − 1107 HAL_GPIO_Init(BUTTON_NEXT_GPIO_PORT, &GPIO_InitStructure);
+ − 1108
+ − 1109 GPIO_InitStructure.Pin = BUTTON_BACK_PIN;
+ − 1110 HAL_GPIO_Init(BUTTON_BACK_GPIO_PORT, &GPIO_InitStructure);
+ − 1111
+ − 1112 /* Enable and set EXTI Line0 Interrupt to the lowest priority */
+ − 1113 HAL_NVIC_SetPriority(BUTTON_ENTER_EXTI_IRQn, 2, 0);
+ − 1114 HAL_NVIC_SetPriority(BUTTON_NEXT_EXTI_IRQn, 2, 0);
+ − 1115 HAL_NVIC_SetPriority(BUTTON_BACK_EXTI_IRQn, 2, 0);
+ − 1116 HAL_NVIC_EnableIRQ(BUTTON_ENTER_EXTI_IRQn);
+ − 1117 HAL_NVIC_EnableIRQ(BUTTON_NEXT_EXTI_IRQn);
+ − 1118 HAL_NVIC_EnableIRQ(BUTTON_BACK_EXTI_IRQn);
+ − 1119
+ − 1120 #ifdef BUTTON_CUSTOM_PIN
+ − 1121 BUTTON_CUSTOM_GPIO_ENABLE();
+ − 1122 GPIO_InitStructure.Pin = BUTTON_CUSTOM_PIN;
+ − 1123 HAL_GPIO_Init(BUTTON_CUSTOM_GPIO_PORT, &GPIO_InitStructure);
+ − 1124 HAL_NVIC_SetPriority(BUTTON_CUSTOM_EXTI_IRQn, 2, 0);
+ − 1125 HAL_NVIC_EnableIRQ(BUTTON_CUSTOM_EXTI_IRQn);
+ − 1126 #endif
+ − 1127 }
+ − 1128
+ − 1129
+ − 1130 /**
+ − 1131 * @brief System Clock Configuration
+ − 1132 * The system Clock is configured as follow :
+ − 1133 * System Clock source = PLL (HSE)
+ − 1134 * SYSCLK(Hz) = 180000000
+ − 1135 * HCLK(Hz) = 180000000
+ − 1136 * AHB Prescaler = 1
+ − 1137 * APB1 Prescaler = 4
+ − 1138 * APB2 Prescaler = 2
+ − 1139 * HSE Frequency(Hz) = 8000000
+ − 1140 * PLL_M = 8
+ − 1141 * PLL_N = 360
+ − 1142 * PLL_P = 2
+ − 1143 * PLL_Q = 7
+ − 1144 * VDD(V) = 3.3
+ − 1145 * Main regulator output voltage = Scale1 mode
+ − 1146 * Flash Latency(WS) = 5
+ − 1147 * The LTDC Clock is configured as follow :
+ − 1148 * PLLSAIN = 192
+ − 1149 * PLLSAIR = 4
+ − 1150 * PLLSAIDivR = 8
+ − 1151 * @param None
+ − 1152 * @retval None
+ − 1153 */
+ − 1154 static void SystemClock_Config(void)
+ − 1155 {
+ − 1156 RCC_ClkInitTypeDef RCC_ClkInitStruct;
+ − 1157 RCC_OscInitTypeDef RCC_OscInitStruct;
+ − 1158 RCC_PeriphCLKInitTypeDef PeriphClkInitStruct;
+ − 1159
+ − 1160 /* Enable Power Control clock */
+ − 1161 __PWR_CLK_ENABLE();
+ − 1162
+ − 1163 /* The voltage scaling allows optimizing the power consumption when the device is
+ − 1164 clocked below the maximum system frequency, to update the voltage scaling value
+ − 1165 regarding system frequency refer to product datasheet. */
+ − 1166 __HAL_PWR_VOLTAGESCALING_CONFIG(PWR_REGULATOR_VOLTAGE_SCALE1);
+ − 1167
+ − 1168 /*##-1- System Clock Configuration #########################################*/
+ − 1169 /* Enable HSE Oscillator and activate PLL with HSE as source */
+ − 1170 RCC_OscInitStruct.OscillatorType = RCC_OSCILLATORTYPE_HSE;
+ − 1171 RCC_OscInitStruct.HSEState = RCC_HSE_ON;
+ − 1172 RCC_OscInitStruct.PLL.PLLState = RCC_PLL_ON;
+ − 1173 RCC_OscInitStruct.PLL.PLLSource = RCC_PLLSOURCE_HSE;
+ − 1174 RCC_OscInitStruct.PLL.PLLM = 8;
+ − 1175 RCC_OscInitStruct.PLL.PLLN = 336;//360;
+ − 1176 RCC_OscInitStruct.PLL.PLLP = RCC_PLLP_DIV2;
+ − 1177 RCC_OscInitStruct.PLL.PLLQ = 7;
+ − 1178 HAL_RCC_OscConfig(&RCC_OscInitStruct);
+ − 1179
+ − 1180 // HAL_PWREx_ActivateOverDrive();
+ − 1181 HAL_PWREx_DeactivateOverDrive();
+ − 1182 /* Select PLL as system clock source and configure the HCLK, PCLK1 and PCLK2
+ − 1183 clocks dividers */
+ − 1184 RCC_ClkInitStruct.ClockType = (RCC_CLOCKTYPE_SYSCLK | RCC_CLOCKTYPE_HCLK | RCC_CLOCKTYPE_PCLK1 | RCC_CLOCKTYPE_PCLK2);
+ − 1185 RCC_ClkInitStruct.SYSCLKSource = RCC_SYSCLKSOURCE_PLLCLK;
+ − 1186 RCC_ClkInitStruct.AHBCLKDivider = RCC_SYSCLK_DIV1;
+ − 1187 RCC_ClkInitStruct.APB1CLKDivider = RCC_HCLK_DIV4;
+ − 1188 RCC_ClkInitStruct.APB2CLKDivider = RCC_HCLK_DIV2;
+ − 1189 HAL_RCC_ClockConfig(&RCC_ClkInitStruct, FLASH_LATENCY_8);//FLASH_LATENCY_5);
+ − 1190
+ − 1191 /*##-2- LTDC Clock Configuration ###########################################*/
+ − 1192 /* LCD clock configuration */
+ − 1193 /* PLLSAI_VCO Input = HSE_VALUE/PLL_M = 1 Mhz */
+ − 1194 /* PLLSAI_VCO Output = PLLSAI_VCO Input * PLLSAIN = 192 Mhz */
+ − 1195 /* PLLLCDCLK = PLLSAI_VCO Output/PLLSAIR = 192/4 = 48 Mhz */
+ − 1196 /* LTDC clock frequency = PLLLCDCLK / RCC_PLLSAIDIVR_8 = 48/8 = 6 Mhz */
+ − 1197
+ − 1198 /* neu: 8MHz/8*300/5/8 = 7,5 MHz = 19,5 Hz bei 800 x 480 */
+ − 1199 PeriphClkInitStruct.PeriphClockSelection = RCC_PERIPHCLK_LTDC;
+ − 1200 PeriphClkInitStruct.PLLSAI.PLLSAIN = 300;//192;
+ − 1201 PeriphClkInitStruct.PLLSAI.PLLSAIR = 5;//4;
+ − 1202 PeriphClkInitStruct.PLLSAIDivR = RCC_PLLSAIDIVR_8;//RCC_PLLSAIDIVR_4;// RCC_PLLSAIDIVR_2; // RCC_PLLSAIDIVR_8
+ − 1203 HAL_RCCEx_PeriphCLKConfig(&PeriphClkInitStruct);
+ − 1204 }
+ − 1205
+ − 1206
+ − 1207 /**
+ − 1208 * @brief This function is executed in case of error occurrence.
+ − 1209 * @param None
+ − 1210 * @retval None
+ − 1211 */
+ − 1212 static void Error_Handler(void)
+ − 1213 {
+ − 1214 /* Turn LED3 on */
+ − 1215 // BSP_LED_On(LED3);
+ − 1216 while(1)
+ − 1217 {
+ − 1218 }
+ − 1219 }
+ − 1220
+ − 1221 /**
+ − 1222 * @brief Perform the SDRAM exernal memory inialization sequence
+ − 1223 * @param hsdram: SDRAM handle
+ − 1224 * @param Command: Pointer to SDRAM command structure
+ − 1225 * @retval None
+ − 1226 */
+ − 1227 static void SDRAM_Initialization_Sequence(SDRAM_HandleTypeDef *hsdram, FMC_SDRAM_CommandTypeDef *Command)
+ − 1228 {
+ − 1229 __IO uint32_t tmpmrd =0;
+ − 1230 /* Step 3: Configure a clock configuration enable command */
+ − 1231 Command->CommandMode = FMC_SDRAM_CMD_CLK_ENABLE;
+ − 1232 Command->CommandTarget = FMC_SDRAM_CMD_TARGET_BANK2;
+ − 1233 Command->AutoRefreshNumber = 1;
+ − 1234 Command->ModeRegisterDefinition = 0;
+ − 1235
+ − 1236 /* Send the command */
+ − 1237 HAL_SDRAM_SendCommand(hsdram, Command, 0x1000);
+ − 1238
+ − 1239 /* Step 4: Insert 100 ms delay */
+ − 1240 HAL_Delay(100);
+ − 1241
+ − 1242 /* Step 5: Configure a PALL (precharge all) command */
+ − 1243 Command->CommandMode = FMC_SDRAM_CMD_PALL;
+ − 1244 Command->CommandTarget = FMC_SDRAM_CMD_TARGET_BANK2;
+ − 1245 Command->AutoRefreshNumber = 1;
+ − 1246 Command->ModeRegisterDefinition = 0;
+ − 1247
+ − 1248 /* Send the command */
+ − 1249 HAL_SDRAM_SendCommand(hsdram, Command, 0x1000);
+ − 1250
+ − 1251 /* Step 6 : Configure a Auto-Refresh command */
+ − 1252 Command->CommandMode = FMC_SDRAM_CMD_AUTOREFRESH_MODE;
+ − 1253 Command->CommandTarget = FMC_SDRAM_CMD_TARGET_BANK2;
+ − 1254 Command->AutoRefreshNumber = 4;
+ − 1255 Command->ModeRegisterDefinition = 0;
+ − 1256
+ − 1257 /* Send the command */
+ − 1258 HAL_SDRAM_SendCommand(hsdram, Command, 0x1000);
+ − 1259
+ − 1260 /* Step 7: Program the external memory mode register */
+ − 1261 tmpmrd = (uint32_t)SDRAM_MODEREG_BURST_LENGTH_2 |
+ − 1262 SDRAM_MODEREG_BURST_TYPE_SEQUENTIAL |
+ − 1263 SDRAM_MODEREG_CAS_LATENCY_3 |
+ − 1264 SDRAM_MODEREG_OPERATING_MODE_STANDARD |
+ − 1265 SDRAM_MODEREG_WRITEBURST_MODE_SINGLE;
+ − 1266
+ − 1267 Command->CommandMode = FMC_SDRAM_CMD_LOAD_MODE;
+ − 1268 Command->CommandTarget = FMC_SDRAM_CMD_TARGET_BANK2;
+ − 1269 Command->AutoRefreshNumber = 1;
+ − 1270 Command->ModeRegisterDefinition = tmpmrd;
+ − 1271
+ − 1272 /* Send the command */
+ − 1273 HAL_SDRAM_SendCommand(hsdram, Command, 0x1000);
+ − 1274
+ − 1275 /* Step 8: Set the refresh rate counter */
+ − 1276 /* (15.62 us x Freq) - 20 */
+ − 1277 /* neu: (8 us x Freq) - 20 */
+ − 1278 /* Set the device refresh counter */
+ − 1279 HAL_SDRAM_ProgramRefreshRate(hsdram, REFRESH_COUNT);
+ − 1280 }
+ − 1281
+ − 1282 /*
+ − 1283 static void DualBoot(void)
+ − 1284 {
+ − 1285 // Set BFB2 bit to enable boot from Flash Bank2
+ − 1286 // Allow Access to Flash control registers and user Falsh
+ − 1287 HAL_FLASH_Unlock();
+ − 1288
+ − 1289 // Allow Access to option bytes sector
+ − 1290 HAL_FLASH_OB_Unlock();
+ − 1291
+ − 1292 // Get the Dual boot configuration status
+ − 1293 AdvOBInit.OptionType = OBEX_BOOTCONFIG;
+ − 1294 HAL_FLASHEx_AdvOBGetConfig(&AdvOBInit);
+ − 1295
+ − 1296 // Enable/Disable dual boot feature
+ − 1297 if (((AdvOBInit.BootConfig) & (FLASH_OPTCR_BFB2)) == FLASH_OPTCR_BFB2)
+ − 1298 {
+ − 1299 AdvOBInit.BootConfig = OB_DUAL_BOOT_DISABLE;
+ − 1300 HAL_FLASHEx_AdvOBProgram (&AdvOBInit);
+ − 1301 }
+ − 1302 else
+ − 1303 {
+ − 1304 AdvOBInit.BootConfig = OB_DUAL_BOOT_ENABLE;
+ − 1305 HAL_FLASHEx_AdvOBProgram (&AdvOBInit);
+ − 1306 }
+ − 1307
+ − 1308 // Start the Option Bytes programming process
+ − 1309 if (HAL_FLASH_OB_Launch() != HAL_OK)
+ − 1310 {
+ − 1311 // User can add here some code to deal with this error
+ − 1312 while (1)
+ − 1313 {
+ − 1314 }
+ − 1315 }
+ − 1316 // Prevent Access to option bytes sector
+ − 1317 HAL_FLASH_OB_Lock();
+ − 1318
+ − 1319 // Disable the Flash option control register access (recommended to protect
+ − 1320 // the option Bytes against possible unwanted operations)
+ − 1321 HAL_FLASH_Lock();
+ − 1322
+ − 1323 // Initiates a system reset request to reset the MCU
+ − 1324 reset_to_firmware_using_Watchdog();
+ − 1325 }
+ − 1326 */
+ − 1327 /**
+ − 1328 ******************************************************************************
+ − 1329 ******************************************************************************
+ − 1330 ******************************************************************************
+ − 1331 */
+ − 1332
+ − 1333
+ − 1334 /**
+ − 1335 * @brief DMA2D configuration.
+ − 1336 * @note This function Configure tha DMA2D peripheral :
+ − 1337 * 1) Configure the transfer mode : memory to memory W/ pixel format conversion
+ − 1338 * 2) Configure the output color mode as ARGB4444
+ − 1339 * 3) Configure the output memory address at SRAM memory
+ − 1340 * 4) Configure the data size : 320x120 (pixels)
+ − 1341 * 5) Configure the input color mode as ARGB8888
+ − 1342 * 6) Configure the input memory address at FLASH memory
+ − 1343 * @retval
+ − 1344 * None
+ − 1345 */
+ − 1346
+ − 1347 static void SDRAM_Config(void)
+ − 1348 {
+ − 1349 /*##-1- Configure the SDRAM device #########################################*/
+ − 1350 /* SDRAM device configuration */
+ − 1351 hsdram.Instance = FMC_SDRAM_DEVICE;
+ − 1352
+ − 1353 /* Timing configuration for 90 Mhz of SD clock frequency (180Mhz/2) */
+ − 1354 /* TMRD: 2 Clock cycles */
+ − 1355 SDRAM_Timing.LoadToActiveDelay = 2;
+ − 1356 /* TXSR: min=70ns (6x11.90ns) */
+ − 1357 SDRAM_Timing.ExitSelfRefreshDelay = 7;
+ − 1358 /* TRAS: min=42ns (4x11.90ns) max=120k (ns) */
+ − 1359 SDRAM_Timing.SelfRefreshTime = 4;
+ − 1360 /* TRC: min=63 (6x11.90ns) */
+ − 1361 SDRAM_Timing.RowCycleDelay = 7;
+ − 1362 /* TWR: 2 Clock cycles */
+ − 1363 SDRAM_Timing.WriteRecoveryTime = 2;
+ − 1364 /* TRP: 15ns => 2x11.90ns */
+ − 1365 SDRAM_Timing.RPDelay = 2;
+ − 1366 /* TRCD: 15ns => 2x11.90ns */
+ − 1367 SDRAM_Timing.RCDDelay = 2;
+ − 1368
+ − 1369 hsdram.Init.SDBank = FMC_SDRAM_BANK2;
+ − 1370 hsdram.Init.ColumnBitsNumber = FMC_SDRAM_COLUMN_BITS_NUM_9;
+ − 1371 hsdram.Init.RowBitsNumber = FMC_SDRAM_ROW_BITS_NUM_13;
+ − 1372 hsdram.Init.MemoryDataWidth = SDRAM_MEMORY_WIDTH;
+ − 1373 hsdram.Init.InternalBankNumber = FMC_SDRAM_INTERN_BANKS_NUM_4;
+ − 1374 hsdram.Init.CASLatency = FMC_SDRAM_CAS_LATENCY_3;
+ − 1375 hsdram.Init.WriteProtection = FMC_SDRAM_WRITE_PROTECTION_DISABLE;
+ − 1376 hsdram.Init.SDClockPeriod = SDCLOCK_PERIOD;
+ − 1377 hsdram.Init.ReadBurst = FMC_SDRAM_RBURST_DISABLE;
+ − 1378 hsdram.Init.ReadPipeDelay = FMC_SDRAM_RPIPE_DELAY_1;
+ − 1379
+ − 1380 /* Initialize the SDRAM controller */
+ − 1381 if(HAL_SDRAM_Init(&hsdram, &SDRAM_Timing) != HAL_OK)
+ − 1382 {
+ − 1383 /* Initialization Error */
+ − 1384 Error_Handler();
+ − 1385 }
+ − 1386
+ − 1387 /* Program the SDRAM external device */
+ − 1388 SDRAM_Initialization_Sequence(&hsdram, &command);
+ − 1389 }
+ − 1390
+ − 1391
+ − 1392 uint8_t checkResetForFirmwareUpdate(void)
+ − 1393 {
+ − 1394 uint32_t backupRegisterContent;
+ − 1395
+ − 1396 RTC_HandleTypeDef RtcHandle;
+ − 1397 RtcHandle.Instance = RTC;
+ − 1398 backupRegisterContent = HAL_RTCEx_BKUPRead(&RtcHandle,RTC_BKP_DR0);
+ − 1399
+ − 1400 if(backupRegisterContent == 0x12345678)
+ − 1401 return 1;
+ − 1402 else
+ − 1403 return 0;
+ − 1404 }
+ − 1405
+ − 1406 void DeleteResetToFirmwareUpdateRegister(void)
+ − 1407 {
+ − 1408 RTC_HandleTypeDef RtcHandle;
+ − 1409 RtcHandle.Instance = RTC;
+ − 1410 __HAL_RTC_WRITEPROTECTION_DISABLE(&RtcHandle);
+ − 1411 HAL_RTCEx_BKUPWrite(&RtcHandle,RTC_BKP_DR0,0x00);
+ − 1412 __HAL_RTC_WRITEPROTECTION_ENABLE(&RtcHandle);
+ − 1413 }
+ − 1414
+ − 1415 #ifdef USE_FULL_ASSERT
+ − 1416
+ − 1417 /**
+ − 1418 * @brief Reports the name of the source file and the source line number
+ − 1419 * where the assert_param error has occurred.
+ − 1420 * @param file: pointer to the source file name
+ − 1421 * @param line: assert_param error line source number
+ − 1422 * @retval None
+ − 1423 */
+ − 1424 void assert_failed(uint8_t* file, uint32_t line)
+ − 1425 {
+ − 1426 /* User can add his own implementation to report the file name and line number,
+ − 1427 ex: printf("Wrong parameters value: file %s on line %d\r\n", file, line) */
+ − 1428
+ − 1429 /* Infinite loop */
+ − 1430 while (1)
+ − 1431 {
+ − 1432 }
+ − 1433 }
+ − 1434 #endif
+ − 1435
+ − 1436 /*
+ − 1437 static void DualBootToBootloader(void)
+ − 1438 {
+ − 1439 // Set BFB2 bit to enable boot from Flash Bank2
+ − 1440 // Allow Access to Flash control registers and user Falsh
+ − 1441 HAL_FLASH_Unlock();
+ − 1442
+ − 1443 // Allow Access to option bytes sector
+ − 1444 HAL_FLASH_OB_Unlock();
+ − 1445
+ − 1446 // Get the Dual boot configuration status
+ − 1447 AdvOBInit.OptionType = OPTIONBYTE_BOOTCONFIG;
+ − 1448 HAL_FLASHEx_AdvOBGetConfig(&AdvOBInit);
+ − 1449
+ − 1450 // Enable/Disable dual boot feature
+ − 1451 if (((AdvOBInit.BootConfig) & (FLASH_OPTCR_BFB2)) == FLASH_OPTCR_BFB2)
+ − 1452 {
+ − 1453 AdvOBInit.BootConfig = OB_DUAL_BOOT_DISABLE;
+ − 1454 HAL_FLASHEx_AdvOBProgram (&AdvOBInit);
+ − 1455 if (HAL_FLASH_OB_Launch() != HAL_OK)
+ − 1456 {
+ − 1457 while (1)
+ − 1458 {
+ − 1459 }
+ − 1460 }
+ − 1461 }
+ − 1462 else
+ − 1463 {
+ − 1464
+ − 1465 AdvOBInit.BootConfig = OB_DUAL_BOOT_ENABLE;
+ − 1466 HAL_FLASHEx_AdvOBProgram (&AdvOBInit);
+ − 1467 if (HAL_FLASH_OB_Launch() != HAL_OK)
+ − 1468 {
+ − 1469 while (1)
+ − 1470 {
+ − 1471 }
+ − 1472 }
+ − 1473 }
+ − 1474
+ − 1475 // Prevent Access to option bytes sector
+ − 1476 HAL_FLASH_OB_Lock();
+ − 1477
+ − 1478 / Disable the Flash option control register access (recommended to protect
+ − 1479 // the option Bytes against possible unwanted operations)
+ − 1480 HAL_FLASH_Lock();
+ − 1481
+ − 1482 // Initiates a system reset request to reset the MCU
+ − 1483 reset_to_firmware_using_Watchdog();
+ − 1484 }
+ − 1485 */
+ − 1486
+ − 1487 void reset_to_update_using_system_reset(void)
+ − 1488 {
+ − 1489 __HAL_RCC_CLEAR_RESET_FLAGS();
+ − 1490 HAL_NVIC_SystemReset();
+ − 1491 }
+ − 1492
+ − 1493 void reset_to_firmware_using_Watchdog(void)
+ − 1494 {
+ − 1495 __HAL_RCC_CLEAR_RESET_FLAGS();
+ − 1496 __HAL_RCC_WWDG_CLK_ENABLE();
+ − 1497
+ − 1498 WWDG_HandleTypeDef WwdgHandle;
+ − 1499 WwdgHandle.Instance = WWDG;
+ − 1500
+ − 1501 WwdgHandle.Init.Prescaler = WWDG_PRESCALER_8;
+ − 1502 WwdgHandle.Init.Window = 80;
+ − 1503 WwdgHandle.Init.Counter = 127;
+ − 1504
+ − 1505 HAL_WWDG_Init(&WwdgHandle);
+ − 1506 HAL_WWDG_Start(&WwdgHandle);
+ − 1507 while(1);
+ − 1508 }
+ − 1509
+ − 1510
+ − 1511 void set_returnFromComm(void)
+ − 1512 {
+ − 1513 returnFromCommCleanUpRequest = 1;
+ − 1514 }
+ − 1515
+ − 1516 /************************ (C) COPYRIGHT heinrichs weikamp *****END OF FILE****/