irep
/
one-wire-memory


			
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							#include "memory_ec20.h"

OneWire_EC20_typeDef mem_page = {};

uint8_t DS28EC20_init(void* GPIOx, uint16_t GPIO_Pin) {
	GPIO_TypeDef *GpioPort = (GPIO_TypeDef*)GPIOx;
	oneWire_init(GpioPort, GPIO_Pin);
    mem_page.real_size=0;
    HAL_Delay(2);
    owFirst();
    owGetROM(mem_page.ROM);
    if (mem_page.ROM[0] != DS28EC20_FAMILY_CODE) {
    	return 0;
    }
    return 1;
}

void DS28EC20_readMem(uint16_t address, uint8_t size) {

    owReset();
    owSelect(mem_page.ROM);

    owWriteByte(CMD_READ_MEMORY, OW_STRONG_OFF);
    owWriteByte(address & 0xFF, OW_STRONG_OFF);
    owWriteByte(address >> 8, OW_STRONG_OFF);

    uint8_t i;
    for(i=0; i < size ; i++) {
        mem_page.buffer_rx[i] = owReadByte();
    }

}


/**
 * @brief Write data to memory
 * @return 0 - OK, 1 or 2 - bad address
 */
uint8_t DS28EC20_writeMem(uint16_t addr, uint8_t size) {
    uint8_t TA1 = (uint8_t) (addr & 0xFF);
    uint8_t TA2 = (uint8_t) ((addr >> 8) & 0xFF);

    uint8_t i;

	owReset();
	owSelect(mem_page.ROM);

	owWriteByte(CMD_WRITE_SCRATCHPAD, OW_STRONG_OFF);      // 0x0F
	owWriteByte(TA1,OW_STRONG_OFF);
	owWriteByte(TA2, OW_STRONG_OFF);
	for (i = 0 ; i < size; i++) {
		owWriteByte(mem_page.buffer_tx[i], OW_STRONG_OFF);
	}

	owReset();
	owSelect(mem_page.ROM);

	owWriteByte(CMD_READ_SCRATCHPAD, OW_STRONG_OFF);    //0xAA
	uint8_t tempVal = owReadByte();
	if (tempVal != TA1) return 1;

	tempVal = owReadByte();
	if (tempVal != TA2) return 2;

	uint8_t ES = owReadByte();

	for (i = 0 ; i < size; i++) {
		tempVal = owReadByte();
		if (tempVal != mem_page.buffer_tx[i]) return i+10;
	}

	HAL_Delay(10);
    owReset();
	owSelect(mem_page.ROM);

	owWriteByte(CMD_COPY_SCRATCHPAD, OW_STRONG_OFF);  //0x55
	owWriteByte(TA1, OW_STRONG_OFF);
	owWriteByte(TA2, OW_STRONG_OFF);
	owWriteByte(ES, OW_STRONG_OFF);
	HAL_Delay(10);

	owReset();
	return 0;
}


uint32_t DS28EC20_readData4B(uint16_t address) {
    mem_page.buffer_rx[3] = mem_page.buffer_rx[2] = mem_page.buffer_rx[1] = mem_page.buffer_rx[0] = 0;
    DS28EC20_readMem(address, 4);
    uint32_t data32 = mem_page.buffer_rx[3];
    data32 |= mem_page.buffer_rx[2]<<8;
    data32 |= mem_page.buffer_rx[1]<<16;
    data32 |= mem_page.buffer_rx[0]<<24;
    return data32;
}

uint16_t DS28EC20_readData2B(uint16_t address) {
    mem_page.buffer_rx[1] = mem_page.buffer_rx[0] = 0;
    DS28EC20_readMem(address, 2);
    uint16_t data16 = mem_page.buffer_rx[1];
    data16 |= mem_page.buffer_rx[0]<<8;
    return data16;
}


uint8_t DS28EC20_writeData4B(uint32_t data, uint16_t adr) {
    mem_page.buffer_tx[0] = data>>24;
    mem_page.buffer_tx[1] = (data>>16) & 0xFF;
    mem_page.buffer_tx[2] = (data>>8) & 0xFF;
    mem_page.buffer_tx[3] = (data) & 0xFF;
    return DS28EC20_writeMem(adr,4);
}

uint8_t DS28EC20_writeData2B(uint16_t data, uint16_t adr) {
    mem_page.buffer_tx[0] = (data>>8) & 0xFF;
    mem_page.buffer_tx[1] = (data) & 0xFF;
    return DS28EC20_writeMem(adr,2);
}

uint8_t DS28EC20_getId(uint8_t* data) {
	owGetROM(mem_page.ROM);
	memcpy(data, mem_page.ROM, 8);
	return 8;
}
/*
uint8_t DS28EC20_writeData4char(uint8_t *data, uint16_t adr) {
    mem_page.buffer_tx[0] = data[0];
    mem_page.buffer_tx[1] = data[1];
    mem_page.buffer_tx[2] = data[2];
    mem_page.buffer_tx[3] = data[3];
    return DS28EC20_writeMem(adr,4);
}
*/