{

#if defined(ARDUINO_ARCH_AVR)

for (size_t i = 0; i < UniqueIDsize; i++)

{

id[i] = boot_signature_byte_get(0x0E + i + (UniqueIDsize == 9 && i > 5 ? 1 : 0));

}

#elif defined(ARDUINO_ARCH_ESP8266)

uint32_t chipid = ESP.getChipId();

id[0] = 0;

id[1] = 0;

id[2] = 0;

id[3] = 0;

id[4] = chipid >> 24;

id[5] = chipid >> 16;

id[6] = chipid >> 8;

id[7] = chipid;

#elif defined(ARDUINO_ARCH_ESP32)

uint64_t chipid = ESP.getEfuseMac();

id[0] = 0;

id[1] = 0;

id[2] = chipid;

id[3] = chipid >> 8;

id[4] = chipid >> 16;

id[5] = chipid >> 24;

id[6] = chipid >> 32;

id[7] = chipid >> 40;

#elif defined(ARDUINO_ARCH_SAM)

unsigned int status ;

/* Send the Start Read unique Identifier command (STUI) by writing the Flash Command Register with the STUI command.*/

EFC1->EEFC_FCR = (0x5A << 24) | EFC_FCMD_STUI;

do

{

status = EFC1->EEFC_FSR ;

} while ( (status & EEFC_FSR_FRDY) == EEFC_FSR_FRDY ) ;

/* The Unique Identifier is located in the first 128 bits of the Flash memory mapping. So, at the address 0x400000-0x400003. */

uint32_t pdwUniqueID[4];

pdwUniqueID[0] = *(uint32_t *)IFLASH1_ADDR;

pdwUniqueID[1] = *(uint32_t *)(IFLASH1_ADDR + 4);

pdwUniqueID[2] = *(uint32_t *)(IFLASH1_ADDR + 8);

pdwUniqueID[3] = *(uint32_t *)(IFLASH1_ADDR + 12);

for (int i = 0; i < 4; i++)

{

id[i*4+0] = (uint8_t)(pdwUniqueID[i] >> 24);

id[i*4+1] = (uint8_t)(pdwUniqueID[i] >> 16);

id[i*4+2] = (uint8_t)(pdwUniqueID[i] >> 8);

id[i*4+3] = (uint8_t)(pdwUniqueID[i] >> 0);

}

/* To stop the Unique Identifier mode, the user needs to send the Stop Read unique Identifier

EFC1->EEFC_FCR = (0x5A << 24) | EFC_FCMD_SPUI ;

/* When the Stop read Unique Unique Identifier command (SPUI) has been performed, the

do

{

status = EFC1->EEFC_FSR ;

} while ( (status & EEFC_FSR_FRDY) != EEFC_FSR_FRDY );

#elif defined(ARDUINO_ARCH_SAMD)

#if defined (__SAMD51__)

// SAMD51 from section 9.6 of the datasheet

#define SERIAL_NUMBER_WORD_0 *(volatile uint32_t*)(0x008061FC)

#define SERIAL_NUMBER_WORD_1 *(volatile uint32_t*)(0x00806010)

#define SERIAL_NUMBER_WORD_2 *(volatile uint32_t*)(0x00806014)

#define SERIAL_NUMBER_WORD_3 *(volatile uint32_t*)(0x00806018)

#else

// SAMD21 from section 9.3.3 of the datasheet

#define SERIAL_NUMBER_WORD_0 *(volatile uint32_t*)(0x0080A00C)

#define SERIAL_NUMBER_WORD_1 *(volatile uint32_t*)(0x0080A040)

#define SERIAL_NUMBER_WORD_2 *(volatile uint32_t*)(0x0080A044)

#define SERIAL_NUMBER_WORD_3 *(volatile uint32_t*)(0x0080A048)

#endif

uint32_t pdwUniqueID[4];

pdwUniqueID[0] = SERIAL_NUMBER_WORD_0;

pdwUniqueID[1] = SERIAL_NUMBER_WORD_1;

pdwUniqueID[2] = SERIAL_NUMBER_WORD_2;

pdwUniqueID[3] = SERIAL_NUMBER_WORD_3;

for (int i = 0; i < 4; i++)

{

id[i*4+0] = (uint8_t)(pdwUniqueID[i] >> 24);

id[i*4+1] = (uint8_t)(pdwUniqueID[i] >> 16);

id[i*4+2] = (uint8_t)(pdwUniqueID[i] >> 8);

id[i*4+3] = (uint8_t)(pdwUniqueID[i] >> 0);

}

#elif defined(ARDUINO_ARCH_STM32)

uint32_t pdwUniqueID[3];

pdwUniqueID[0] = HAL_GetUIDw0();

pdwUniqueID[1] = HAL_GetUIDw1();

pdwUniqueID[2] = HAL_GetUIDw2();

for (int i = 0; i < 3; i++)

{

id[i*4+0] = (uint8_t)(pdwUniqueID[i] >> 24);

id[i*4+1] = (uint8_t)(pdwUniqueID[i] >> 16);

id[i*4+2] = (uint8_t)(pdwUniqueID[i] >> 8);

id[i*4+3] = (uint8_t)(pdwUniqueID[i] >> 0);

}

#endif