Mercurial > public > ostc4
view Discovery/Src/externCPU2bootloader.c @ 859:d32901746950 Evo_2_23
Improvment battery charger visualization:
In the previous version the green flash (charge complete) was shown even battery had not reached 100% charge. Root cause was that the pin signaling the end of charge could be raised for other reasons then a full battery. The new version will show the green flash only in case the battery is rated as full.
In addition the graph visualization has been updated to continously progress. In the previous version it only progressed in case the charge value changed. Especially at charging start the charger is doing some battery evaluation which does not increase the charge state. In such a case the graph seemed to be frozen.
| author | Ideenmodellierer |
|---|---|
| date | Tue, 07 May 2024 21:20:33 +0200 |
| parents | 01f40cb1057e |
| children |
line wrap: on
line source
/** ****************************************************************************** * @file externCPU2bootloader.c Template * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 23-Oct-2014 * @version V0.0.1 * @since 23-Oct-2014 * @brief Main Template to communicate with the second CPU in bootloader mode * bootloader ROM build by ST and defined in AN4286 * @verbatim ============================================================================== ##### How to use ##### ============================================================================== @endverbatim ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2016 heinrichs weikamp</center></h2> * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include "stm32f4xx_hal.h" #include "stdio.h" #include "ostc.h" #include "settings.h" #include "externCPU2bootloader.h" #include "externLogbookFlash.h" #include "tComm.h" /* Exported variables --------------------------------------------------------*/ /* Private types -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/ static uint8_t boot_sync_frame(void); static uint8_t boot_ack(void); static uint8_t boot_get_id(uint8_t *RxBuffer); static uint8_t boot_get_version(uint8_t *RxBuffer); static uint8_t boot_write_memory(uint32_t address, uint8_t length_minus_1, uint8_t *data); static uint8_t boot_erase_memory(void); static void Bootloader_send_command(uint8_t command); static void Bootloader_spi_single(uint8_t TxByte); static void Bootloader_spi(uint16_t lengthData, uint8_t *aTxBuffer, uint8_t *aRxBuffer); //static void Bootloader_Error_Handler(void); /* Exported functions --------------------------------------------------------*/ uint8_t extCPU2bootloader_start(uint8_t *version, uint16_t *chipID) { uint8_t aRxBuffer[256] = { 0 }; HAL_GPIO_WritePin(SMALLCPU_CSB_GPIO_PORT,SMALLCPU_CSB_PIN,GPIO_PIN_RESET); boot_sync_frame(); boot_get_version(aRxBuffer); *version = aRxBuffer[1]; HAL_Delay(10); boot_get_id(aRxBuffer); *chipID = ((uint16_t)aRxBuffer[2]) << 8; *chipID += (uint16_t)aRxBuffer[3]; HAL_Delay(10); if((*chipID == 0x431) && (*version > 10) && (*version < 32)) return 1; else return 0; } uint8_t extCPU2bootloader_internal(uint8_t* buffer, uint32_t length, char* display_text) { uint8_t version = 0; uint16_t chipID = 0; if(!extCPU2bootloader_start(&version,&chipID)) return 0; if(!boot_erase_memory()) return 0; HAL_Delay(100); uint16_t i=0; uint32_t lengthsave = length; uint8_t percent = 0; while(length) { percent = (100 * (i * 256)) /lengthsave; tComm_verlauf(percent); if(length > 256) { if( !boot_write_memory(0x08000000 + (i * 256), 255, &buffer[i * 256]) ) return 0;; length -= 256; } else { if(!boot_write_memory(0x08000000 + (i * 256), length - 1, &buffer[i * 256])) return 0; length = 0; } i++; } return 2; } uint8_t extCPU2bootloader(uint8_t* buffer, uint32_t length, char* display_text) { uint8_t result = 0; MX_SmallCPU_Reset_To_Boot(); result = extCPU2bootloader_internal(buffer,length,display_text); MX_SmallCPU_Reset_To_Standard(); return result; } /* Private functions --------------------------------------------------------*/ static uint8_t boot_sync_frame(void) { Bootloader_spi_single(0x5a); return boot_ack(); } static uint8_t boot_get_version(uint8_t *RxBuffer) { Bootloader_spi_single(0x5a); Bootloader_send_command(0x01); if(!boot_ack()) return 0; Bootloader_spi(3, NULL, RxBuffer); return boot_ack(); } static uint8_t boot_get_id(uint8_t *RxBuffer) { Bootloader_spi_single(0x5a); Bootloader_send_command(0x02); if(!boot_ack()) return 0; Bootloader_spi(5, NULL, RxBuffer); return boot_ack(); } uint8_t boot_write_memory(uint32_t address, uint8_t length_minus_1, uint8_t *data) { uint8_t addressNew[4]; uint8_t checksum = 0; uint16_t length; Bootloader_spi_single(0x5a); Bootloader_send_command(0x31); if(!boot_ack()) return 1; HAL_Delay(5); addressNew[0] = (uint8_t)((address >> 24) & 0xFF); addressNew[1] = (uint8_t)((address >> 16) & 0xFF); addressNew[2] = (uint8_t)((address >> 8) & 0xFF); addressNew[3] = (uint8_t)((address >> 0) & 0xFF); Bootloader_spi(4, addressNew, NULL); checksum = 0; checksum ^= addressNew[0]; checksum ^= addressNew[1]; checksum ^= addressNew[2]; checksum ^= addressNew[3]; Bootloader_spi_single(checksum); if(!boot_ack()) return 0; HAL_Delay(1); Bootloader_spi_single(length_minus_1); length = ((uint16_t)length_minus_1) + 1; Bootloader_spi(length, data, NULL); HAL_Delay(26); checksum = 0; checksum ^= length_minus_1; for(int i=0;i<length;i++) checksum ^= data[i]; Bootloader_spi_single(checksum); if(!boot_ack()) return 0; HAL_Delay(1); return 1; } static uint8_t boot_erase_memory(void) { uint8_t special_erase_with_checksum[3] = {0xFF, 0xFF, 0x00}; Bootloader_spi_single(0x5a); Bootloader_send_command(0x44); if(!boot_ack()) return 0; Bootloader_spi(3, special_erase_with_checksum, NULL); HAL_Delay(11000); /* 5.5 to 11 seconds */ if(!boot_ack()) return 0; return 1; } /* write unprotect does reset the system !! */ uint8_t boot_write_unprotect(void) { Bootloader_spi_single(0x5a); Bootloader_send_command(0x73); if(!boot_ack()) return 0; return boot_ack(); } static uint8_t boot_ack(void) { uint8_t answer = 0; Bootloader_spi_single(0x00); for(int i=0; i< 1000; i++) { Bootloader_spi(1, NULL, &answer); if((answer == 0x79) || (answer == 0x1F)) { Bootloader_spi_single(0x79); break; } HAL_Delay(10); } if(answer == 0x79) return 1; else return 0; } static void Bootloader_send_command(uint8_t command) { uint8_t send[2]; uint8_t receive[2]; send[0] = command; send[1] = 0xFF ^ command; Bootloader_spi(2, send, receive); } static void Bootloader_spi_single(uint8_t TxByte) { Bootloader_spi(1,&TxByte, 0); } static void Bootloader_spi(uint16_t lengthData, uint8_t *aTxBuffer, uint8_t *aRxBuffer) { uint8_t dummy[256] = { 0 }; uint8_t *tx_data; uint8_t *rx_data; tx_data = aTxBuffer; rx_data = aRxBuffer; if(aTxBuffer == NULL) tx_data = dummy; if(aRxBuffer == NULL) rx_data = dummy; //HAL_GPIO_WritePin(OSCILLOSCOPE_GPIO_PORT,OSCILLOSCOPE_PIN,GPIO_PIN_RESET); // only for testing with Oscilloscope HAL_SPI_TransmitReceive(&cpu2DmaSpi, (uint8_t *)tx_data, (uint8_t *)rx_data, (uint16_t)lengthData,1000); /* if(HAL_SPI_TransmitReceive_DMA(&cpu2DmaSpi, (uint8_t *)tx_data, (uint8_t *)rx_data, (uint16_t)lengthData) != HAL_OK) if(HAL_SPI_TransmitReceive_DMA(&cpu2DmaSpi, (uint8_t *)tx_data, (uint8_t *)rx_data, (uint16_t)lengthData) != HAL_OK) Bootloader_Error_Handler(); while (HAL_SPI_GetState(&cpu2DmaSpi) != HAL_SPI_STATE_READY)// only for testing with Oscilloscope { } HAL_GPIO_WritePin(OSCILLOSCOPE_GPIO_PORT,OSCILLOSCOPE_PIN,GPIO_PIN_SET); // only for testing with Oscilloscope */ } /* static void Bootloader_Error_Handler(void) { while(1); } */