/** * @file eeprom.c * @author Chen Jihang (embedded@eseaoptics.com) * @brief EEPROM驱动 * @version 1.0 * @date 2023-01-04 * * @copyright ESEA (c) 2020 * */ // osEventFlagsId_t eepromEventHandle; // const osEventFlagsAttr_t eepromEvent_attributes = { // .name = "eepromEvent" // }; #include "eeprom.h" #define pEepromI2C &hi2c1 EEPROM_TypeDef *eeprom; My_EEPROM_TypeDef my_eeprom= { Eeprom_Init, Eeprom_DeInit, Eeprom_Port, AT24C02, EEPROM_MEM_ADDR_TYPE_Bit8, // EEPROM_MEM_ADDR_BIT_10, 0xA0, // 7+1 bit or 10 + 1 bit, EEPROM 8bit , write A0 , read A1 0, }; void Eeprom_Init() { eeprom = (EEPROM_TypeDef *)malloc(sizeof(EEPROM_TypeDef)); if ( eeprom == NULL ) { return NULL; } eeprom->hi2c = pEepromI2C; // eeprom->i2chelper = I2CHelper_Init( ); // I2CHelper_Set_Hi2c( eeprom->i2chelper, pEepromI2C ); Eeprom_SET_Device_Model( eeprom, my_eeprom.model ); Eeprom_SET_Device_Addr( eeprom, my_eeprom.dev_addr ); Eeprom_SET_Mem_Addr_Type( eeprom, my_eeprom.mem_addr_type ); eeprom->writeCplt = 0; eeprom->readCplt = 0; eeprom->size = 0; eeprom->is_busy = 0; eeprom->time_base = 0; eeprom->write_delay_ms = 5; eeprom->mem_addr = 0; return 0; } void Eeprom_DeInit( ) { free(eeprom); } void Eeprom_Port( ) { uint32_t i; int st; for (;;) { /* 判断size, size 大于零才开始工作*/ if (eeprom->size == 0) { eeprom->send_buf = NULL; eeprom->is_busy == 0; // log_i("eeprom port func..."); osDelay(100); }; /* size> 0, 写入一个数据 */ if ( eeprom->size > 0 && eeprom->writeCplt == 0 && eeprom->is_busy == 0 ) { eeprom->time_base = osKernelGetTickCount( ); eeprom->is_busy = 1; // log_i("eeporm write ... "); st = HAL_I2C_Mem_Write(eeprom->hi2c, eeprom->dev_addr, AT24C02, eeprom->mem_addr_type, eeprom->send_buf, 1, eeprom->write_delay_ms); if (st != HAL_OK) { log_e(" Eeprom Write error"); eeprom->size = 0; eeprom->send_buf = NULL; eeprom->is_busy = 0; break; } // I2CHelper_Write( eeprom->i2chelper, eeprom->send_buf, 1 ); continue; }; /* 等待 eeprom->write_delay_ms ,写入数据*/ if ( eeprom->size > 0 && eeprom->writeCplt == 0 && eeprom->is_busy == 1 ) { if( (osKernelGetTickCount( ) - eeprom->time_base) > eeprom->write_delay_ms) { // log_i("eeporm write ... 5ms "); eeprom->writeCplt = 1 ; } continue; }; /* 写完成,处理数据等待进入下一组 */ if ( eeprom->size > 0 && eeprom->writeCplt == 1 ) { eeprom->send_buf++; eeprom->mem_addr++; eeprom->size--; eeprom->is_busy = 0; eeprom->writeCplt = 0; continue; }; osDelay( 1); } } // int Eeprom_SET_I2CHelper( EEPROM_TypeDef *eeprom, I2CHelper_TypeDef *i2chelper ) // { // eeprom->i2chelper = i2chelper; // return 0; // } int Eeprom_SET_Device_Model(EEPROM_TypeDef *eeprom, EEPROM_MODEL_TypeDef model) { eeprom->model = model; if (eeprom->model < AT24C04 ) { eeprom->mem_addr_type = I2C_MEMADD_SIZE_8BIT; }else{ eeprom->mem_addr_type = I2C_MEMADD_SIZE_16BIT; } return 0; } int Eeprom_SET_Device_Addr(EEPROM_TypeDef *eeprom, uint8_t dev_addr) { eeprom->dev_addr = dev_addr; // TODO: 需要对I2C 进行设置 return 0; } int Eeprom_SET_Mem_Addr ( EEPROM_TypeDef *eeprom, uint16_t mem_addr ) { eeprom->mem_addr = mem_addr; return 0; } int Eeprom_SET_Mem_Addr_Type(EEPROM_TypeDef *eeprom, EEPROM_MEM_ADDR_TypeDef mem_addr_type) { eeprom->mem_addr_type = mem_addr_type; return 0; } int Eeprom_SET_Mem_Addr_Bit(EEPROM_TypeDef *eeprom, EEPROM_MEM_ADDR_BIT_TypeDef mem_addr_bit) { // eeprom->mem_addr_bit = mem_addr_bit; return 0; } // int Eeprom_SET_WorkMode( EEPROM_TypeDef *eeprom, I2C_HELPER_MODE_TypeDef mode ) // { // eeprom->mode = mode; // I2CHelper_Set_Mode( eeprom->i2chelper, mode ); // return 0; // } int Eeprom_SET_Write_Delay_ms( EEPROM_TypeDef *eeprom, uint8_t write_delay_ms) { eeprom->write_delay_ms = write_delay_ms; return 0; } // int Eeprom_Transmit(EEPROM_TypeDef *eeprom, uint8_t * buf, uint16_t size) // { // // HAL_I2C_Master_Transmit_DMA ( eeprom->i2chelper->hi2c, eeprom->dev_addr, buf ,size ); // } // int Eeprom_Begin_Rcv(EEPROM_TypeDef *eeprom, uint8_t * buf, uint16_t size) // { // // HAL_I2C_Master_Receive_IT( eeprom->i2chelper->hi2c, eeprom->dev_addr, buf ,size ); // // I2CHelper_Begin_Rcv(eeprom->i2chelper, buf, size); // // HAL_I2C_Mem_Read(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1,eeprom->write_delay_ms); // // HAL_I2C_Mem_Write(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1,eeprom->write_delay_ms); // } int Eeprom_Read(EEPROM_TypeDef *eeprom, uint8_t * buf, uint16_t size) { // osEventFlagsGet(eepromEventHandle, EEPROM_EVT_READ); eeprom->readCplt = 0; int st; st = HAL_I2C_Mem_Read( eeprom->hi2c, eeprom->dev_addr, eeprom->mem_addr, eeprom->mem_addr_type, buf, size, 0xFFFF); if ( st != HAL_OK ) { return -1; } return 0; // HAL_I2C_Master_Transmit_IT (eeprom->hi2c, eeprom->dev_addr, buf ,size); } // int Eeprom_Write(EEPROM_TypeDef *eeprom, uint8_t * buf, uint16_t size) // { // // osEventFlagsGet(eepromEventHandle, EEPROM_EVT_WRITE); // eeprom->writeCplt = 0; // // HAL_I2C_Master_Transmit_IT (eeprom->i2chelper->hi2c, eeprom->dev_addr, buf ,size); // } void Eeprom_Set_Sendbuf_Size(EEPROM_TypeDef *eeprom, uint8_t * buf, uint16_t size) { eeprom->send_buf = buf; eeprom->size = size; return ; } int Eeprom_Test( ) { uint8_t test_send[1] = { 0xFF }; // 不同model,地址不同 方法也不同 uint8_t test_rcv = 0; int st; // st = Eeprom_Write( eeprom, test_send, 1 ); st = HAL_I2C_Mem_Write(eeprom->hi2c, eeprom->dev_addr, AT24C02, eeprom->mem_addr_type, test_send, 1, eeprom->write_delay_ms); osDelay( 10 ); // st = Eeprom_Read( eeprom, &test_rcv, 1); st = HAL_I2C_Mem_Read(eeprom->hi2c, eeprom->dev_addr, AT24C02, eeprom->mem_addr_type, &test_rcv, 1, eeprom->write_delay_ms); osDelay( 5 ); if ( test_rcv == 255 ){ // log_i( " Test Result : PASS " ); return 0; } // log_i( " Test Result : Error st %d val %d " , st, test_rcv ); return -1; } // //主机模式发送回调函数 // void HAL_I2C_MasterTxCpltCallback(I2C_HandleTypeDef *I2cHandle) // { // if (I2cHandle == pEepromI2C) // { // eeprom->writeCplt =1; // log_i("send cplt"); // } // } // //主机模式接收回调函数 // void HAL_I2C_MasterRxCpltCallback(I2C_HandleTypeDef *I2cHandle) // { // if (I2cHandle == pEepromI2C) // { // eeprom->readCplt =1; // log_i("rcv cplt"); // } // } // https://blog.csdn.net/qq_35496059/article/details/101279408 // void I2C3_EV_IRQHandler(void) // { // /* USER CODE BEGIN I2C3_EV_IRQn 0 */ // /* USER CODE END I2C3_EV_IRQn 0 */ // loop1: // HAL_I2C_EV_IRQHandler(&hi2c3); // /* USER CODE BEGIN I2C3_EV_IRQn 1 */ // if((((I2C3->ISR)&0x08)>>3)==1)//判断是addr触发的中断 // { // I2C3->ISR|=0x01;//TXE=1 // I2C3->ICR|=0x08;//清除addr // } // //读写处理 // { // if((((I2C3->ISR)&0x10000)>>16)==1)//dir // { // int i=0; // int j=0; // while(((((I2C3->ISR)&0x32)>>5)==0))//detect stop // { // if(((((I2C3->ISR)&0x10000)>>16)==0)||((((I2C3->ISR)&0x08)>>3)==1))//addr or read // goto loop1; // if(((((I2C3->ISR)&0x02)>>1)==1))TXIS // { // if(I2C3->RXDR==0x00) // I2C3->TXDR=ppp1[i]; // if(I2C3->RXDR==0x12) // { // I2C3->TXDR=ppp2[i]; // } // //[i]=I2C3->RXDR; // i++; // } // if(i==21) // { // //21个字节 退出 // ppp2[0]++; // return; // } // } // //x=HAL_I2C_Slave_Receive(&hi2c3,ppp,2,5); // I2C3->ICR=(I2C3->ICR)|0x32;//clear stop // else//read // { // int i=0; // while(((((I2C3->ISR)&0x32)>>5)==0))//detect stop // { // if(((((I2C3->ISR)&0x10000)>>16)==1)||((((I2C3->ISR)&0x08)>>3)==1)) // goto loop1; // if(((((I2C3->ISR)&0x04)>>2)==1))//RXNE // { // ppp[i]=I2C3->RXDR; // i++; // } // } // //x=HAL_I2C_Slave_Receive(&hi2c3,ppp,2,5); // I2C3->ICR=(I2C3->ICR)|0x32; // } // } // // I2C3->CR1|=0x08; // // /* USER CODE END I2C3_EV_IRQn 1 */ // } // 寄存器说明 // ISR: // |bit23…17|ADDCODE ----|主机地址----------| // |bit16…|DIR------------------|0读/1写------------|在addr=1时更新 // |bit15…|BUSY---------------| ---------------------|起始信号=1,检测到stop=0 // |bit5…|STOPF---------------|----------------------|检测到stop // |bit3…|ADDR----------------|----------------------|匹配到地址 // |bit2…|RXNE----------------|----------------------|RXDR不为空 // |bit1…|TXIS------------------|-------------------- -|发送标志 // |bit0…|TXE------------------|-----------------------|TXDR为空 // uint8_t Eeprom_SET_I2C(eeprom_t *eeprom, I2C_HandleTypeDef *i2c) // { // eeprom->i2c = i2c; // eeprom->stat = HAL_I2C_STATE_READY; // return 0; // } // uint8_t Eeprom_SET_Device_Model(eeprom_t *eeprom, uint16_t model) // { // eeprom->model = model; // // if (eeprom->model < AT24C16) // // { // // eeprom->mem_addr_type = I2C_MEMADD_SIZE_8BIT; // // } // // else // // { // // eeprom->mem_addr_type = I2C_MEMADD_SIZE_16BIT; // // } // return 0; // } // uint8_t Eeprom_SET_Device_Addr(eeprom_t *eeprom, uint8_t dev_addr) // { // eeprom->dev_addr = dev_addr; // return 0; // } // uint8_t Eeprom_SET_Mem_Addr_Type(eeprom_t *eeprom, uint8_t mem_addr_type) // { // eeprom->mem_addr_type = mem_addr_type; // return 0; // } // uint8_t Eeprom_SET_Workmode(eeprom_t *eeprom, uint8_t workmode) // { // eeprom->WORKMODE = workmode; // return 0; // } // uint8_t Eeprom_Read_One_Byte(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf) // { // // eeprom->stat = HAL_I2C_Mem_Read_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1); // return HAL_I2C_Mem_Read(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1,eeprom->write_delay_ms); // } // uint8_t Eeprom_Write_One_Byte(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf) // { // return HAL_I2C_Mem_Write(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1,eeprom->write_delay_ms); // } // uint8_t Eeprom_Read_One_Byte_IT(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf) // { // // eeprom->stat = HAL_I2C_Mem_Read_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1); // eeprom->size = 0; // return HAL_I2C_Mem_Read_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1 ); // } // uint8_t Eeprom_Write_One_Byte_IT(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf) // { // eeprom->size = 0; // return HAL_I2C_Mem_Write_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, 1 ); // } // uint8_t Eeprom_Read_Multi_Byte(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf, uint16_t size, uint32_t timeout ) // { // // eeprom->stat = HAL_I2C_Mem_Write_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, size); // return HAL_I2C_Mem_Read(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, size,timeout); // } // uint8_t Eeprom_Write_Multi_Byte(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf, uint16_t size, uint32_t timeout ) // { // return HAL_I2C_Mem_Write(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, size,timeout); // } // uint8_t Eeprom_Read_Multi_Byte_IT(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf, uint16_t size ) // { // // eeprom->stat = HAL_I2C_Mem_Write_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, size); // eeprom->stat =HAL_I2C_Mem_Read_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, size ); // // LOG(" readstat %d",eeprom->stat); // return eeprom->stat; // } // uint8_t Eeprom_Write_Multi_Byte_IT(eeprom_t *eeprom, uint16_t mem_addr, uint8_t *buf, uint16_t size ) // { // // 写入数据前端循环调用 Eeprom_send_callback // // return HAL_I2C_Mem_Write_IT(eeprom->i2c, eeprom->dev_addr, mem_addr, eeprom->mem_addr_type, buf, size ); // eeprom->send_buf = buf; // eeprom->size = size; // eeprom->mem_addr = mem_addr; // return 0; // } // /** // * @brief EEPROM发送回调,须循环调用单字节写入 // * // * @param eeprom EEPROM描述符 // * @return int 0 // */ // uint8_t Eeprom_send(eeprom_t *eeprom) // { // if (eeprom->size == 0) // { // eeprom->send_buf = NULL; // } // if (eeprom->send_buf == NULL) // { // return 0; // } // if ( HAL_I2C_GetState(eeprom->i2c) == 1 ) // { // return 0; // } // if ( (osKernelGetTickCount() -eeprom->time_base) < eeprom->write_delay_ms ) // { // return 0; // } // if ( HAL_I2C_GetState(eeprom->i2c) == 2 ) // { // // __HAL_I2C_CLEAR_FLAG(eeprom->i2c,I2C_FLAG_AF); // 清除非应答状态 // eeprom->i2c->State = HAL_I2C_STATE_READY; // // i2c_clear_state(eeprom->i2c); // eeprom->mem_addr--; // eeprom->send_buf--; // eeprom->size++; // } // if (eeprom->size == 0) // { // eeprom->send_buf = NULL; // return 0; // } // // 单个字节写入 ?? 为什么指向的地址内容发送变化了,静态声明 // // LOG( " send buf : %02x %d", *eeprom->send_buf, eeprom->send_buf); // HAL_I2C_Mem_Write_IT(eeprom->i2c, eeprom->dev_addr, eeprom->mem_addr, eeprom->mem_addr_type, eeprom->send_buf, 1 ); // // i2c_write_memory(eeprom->i2c,eeprom->dev_addr+eeprom->page_addr,eeprom->mem_addr,eeprom->mem_addr_size,eeprom->send_buf,1); // // eeprom->time_base = __get_tick_milliseconds(); // eeprom->time_base = osKernelGetTickCount(); // eeprom->mem_addr++; // eeprom->send_buf++; // eeprom->size--; // return 0; // } // void Eeprom_send_callback(eeprom_t *eeprom) // { // Eeprom_send(eeprom); // } // uint8_t Eeprom_get_state(eeprom_t *eeprom) // { // if (eeprom->send_buf != NULL) // { // return 1; // } // if ( HAL_I2C_GetState(eeprom->i2c) == HAL_I2C_STATE_READY ) // { // return 0; // }; // return 2; // }