#include "soft_flash.h" #include "string.h" #include "main.h" #include "config.h" #include "usart_data_handle.h" #include "soft_crc.h" #include "soft_version.h" bool write_flash_flag = false; flash_data stor_par; flash_data cur_par; uint32_t sectStartAddr[12]= { 0x08000000,//0 0x08004000,//1 0x08008000,//2 0x0800c000,//3 0x08010000,//4 0x08020000,//5 0x08040000,//6 0x08060000, //7 0x08080000, //8 0x080A0000, //9 0x080C0000, //10 0x080E0000, //11 }; int GetSectorFromAddress(uint32_t address) { int sect = 0; if( address < 0x08000000 || address > 0x08100000 ) return -1; for( int i=0; i<8; i++ ) { if( address >= sectStartAddr[i] && address < sectStartAddr[i+1] ) { sect = i; break; } } return sect; } /** * @file ReadFlashNBtye * @brief 读flash * @param none * @details * @author Zhang Sir **/ void ReadFlashNBtye(uint32_t addr, uint8_t *pdata, uint16_t size) { if(addr + size >= 0x8010400) //65kb { return; } for (size_t i = 0; i < size; i++) { *(pdata + i) = *((__IO uint8_t *)addr + i); } } /** * @file WriteFlashNBtye * @brief 写flash * @param none * @details * @author Zhang Sir **/ HAL_StatusTypeDef WriteFlashNBtye(uint32_t addr, uint8_t *pdata, uint16_t size) { HAL_StatusTypeDef write_status = HAL_OK; __disable_irq(); HAL_FLASH_Unlock(); __HAL_FLASH_CLEAR_FLAG(FLASH_FLAG_EOP | FLASH_FLAG_OPERR | FLASH_FLAG_WRPERR | FLASH_FLAG_PGAERR | FLASH_FLAG_PGPERR | FLASH_FLAG_PGSERR); uint32_t sector = 10; sector = GetSectorFromAddress(addr);//获取地址所在的扇区 FLASH_Erase_Sector(sector,FLASH_VOLTAGE_RANGE_3);//擦除指定的闪存扇区(0~11) //写flash 每次写2字节 uint16_t TempBuf = 0; for(uint16_t i = 0; i < (size % 2 == 0? size/2 : size/2 +1); i++ ) { TempBuf = *(pdata + 2 * i) + (*(pdata + 2 * i + 1) << 8); write_status = HAL_FLASH_Program(FLASH_TYPEPROGRAM_HALFWORD, addr + i * 2, TempBuf); } HAL_FLASH_Lock(); __enable_irq(); return write_status; } int plane_flash_par_check( int *par, int pardef, int parmin, int parmax ) { //参数超出范围报告参数异常,暂用默认值 if ( *par < parmin || *par > parmax ) { return pardef; } return *par; } void par_check(void) { stor_par.uavtype = plane_flash_par_check(&stor_par.uavtype,0,0,20); stor_par.abnormal_outage_flag = plane_flash_par_check(&stor_par.abnormal_outage_flag,0,0,1); stor_par.voltage = plane_flash_par_check(&stor_par.voltage,0,-50,50); } void par_copy(void) { memcpy(&cur_par,&stor_par,sizeof(flash_data)); Int2String(cur_par.pmu_serial,dev_pmu.sn,9); //设置sn重新写入 } /** * @file write_flash_function * @brief 把参数写入内存 * @param none * @details * @author Zhang Sir **/ void write_flash_function(void) { if(write_flash_flag == true) { if(HAL_OK == WriteFlashNBtye( FLASH_PAR_ADDR, ( uint8_t * )&stor_par, sizeof(flash_data) )) { ReadFlashNBtye( FLASH_PAR_ADDR, ( uint8_t * )&stor_par, sizeof( flash_data ) ); par_check(); par_copy(); write_flash_flag = false; } } } /** * @file get_chip_id * @brief 获取芯片id * @param none * @details * @author Zhang Sir **/ uint32_t chip_id[3] = {0}; uint16_t get_chip_id(void) { for(uint8_t i = 0;i < 3; i++) { chip_id[i] = *((__IO uint32_t *)(FLASH_ID_ADDR + (4 * i))); } return Get_Crc16((uint8_t *)&chip_id[0], sizeof(chip_id)); } /** * @file load_default_param * @brief 加载默认参数 * @param none * @details * @author Zhang Sir **/ void load_default_param(void) { stor_par.flash_flag = PAR_FALG; stor_par.pmu_serial = PMU_SERIAL; stor_par.uavtype = 0; stor_par.abnormal_outage_flag = 0; stor_par.voltage = 0; stor_par.chip_passid = get_chip_id(); WriteFlashNBtye(FLASH_PAR_ADDR,(uint8_t *)&stor_par,sizeof(flash_data)); } /** * @file flash_init * @brief flash初始化 * @param none * @details * @author Zhang Sir **/ bool Check_Chip_Verified = false; //检查当前芯片是否通过验证 void flash_init(void) { ReadFlashNBtye( FLASH_PAR_ADDR, ( uint8_t * )&stor_par, sizeof( flash_data ) ); if(stor_par.flash_flag != PAR_FALG) { //加载默认参数 load_default_param(); } //检查当前芯片是否通过验证 if(get_chip_id() == stor_par.chip_passid) Check_Chip_Verified = true; par_check(); par_copy(); }