#include "mifare_ultralight.h"
bool mf_ul_check_card_type(uint8_t ATQA0, uint8_t ATQA1, uint8_t SAK) {
if((ATQA0 == 0x44) && (ATQA1 == 0x00) && (SAK == 0x00)) {
return true;
}
return false;
}
uint16_t mf_ul_prepare_get_version(uint8_t* dest) {
dest[0] = MF_UL_GET_VERSION_CMD;
return 1;
}
void mf_ul_parse_get_version_response(uint8_t* buff, MifareUlDevice* mf_ul_read) {
MfUltralightVersion* version = (MfUltralightVersion*) buff;
memcpy(&mf_ul_read->data.version, version, sizeof(MfUltralightVersion));
if(version->storage_size == 0x0B || version->storage_size == 0x00) {
mf_ul_read->type = MfUltralightTypeUL11;
mf_ul_read->pages_to_read = 20;
mf_ul_read->support_fast_read = true;
} else if(version->storage_size == 0x0E) {
mf_ul_read->type = MfUltralightTypeUL21;
mf_ul_read->pages_to_read = 41;
mf_ul_read->support_fast_read = true;
} else if(version->storage_size == 0x0F) {
mf_ul_read->type = MfUltralightTypeNTAG213;
mf_ul_read->pages_to_read = 45;
mf_ul_read->support_fast_read = false;
} else if(version->storage_size == 0x11) {
mf_ul_read->type = MfUltralightTypeNTAG215;
mf_ul_read->pages_to_read = 135;
mf_ul_read->support_fast_read = false;
} else if(version->storage_size == 0x13) {
mf_ul_read->type = MfUltralightTypeNTAG216;
mf_ul_read->pages_to_read = 231;
mf_ul_read->support_fast_read = false;
} else {
mf_ul_set_default_version(mf_ul_read);
}
}
void mf_ul_set_default_version(MifareUlDevice* mf_ul_read) {
mf_ul_read->type = MfUltralightTypeUnknown;
mf_ul_read->pages_to_read = 16;
mf_ul_read->support_fast_read = false;
}
uint16_t mf_ul_prepare_read(uint8_t* dest, uint8_t start_page) {
dest[0] = MF_UL_READ_CMD;
dest[1] = start_page;
return 2;
}
void mf_ul_parse_read_response(uint8_t* buff, uint16_t page_addr, MifareUlDevice* mf_ul_read) {
mf_ul_read->pages_readed += 4;
mf_ul_read->data.data_size = mf_ul_read->pages_readed * 4;
memcpy(&mf_ul_read->data.data[page_addr * 4], buff, 16);
}
uint16_t mf_ul_prepare_fast_read(uint8_t* dest, uint8_t start_page, uint8_t end_page) {
dest[0] = MF_UL_FAST_READ_CMD;
dest[1] = start_page;
dest[2] = end_page;
return 3;
}
void mf_ul_parse_fast_read_response(uint8_t* buff, uint8_t start_page, uint8_t end_page, MifareUlDevice* mf_ul_read) {
mf_ul_read->pages_readed = end_page - start_page + 1;
mf_ul_read->data.data_size = mf_ul_read->pages_readed * 4;
memcpy(mf_ul_read->data.data, buff, mf_ul_read->data.data_size);
}
uint16_t mf_ul_prepare_read_signature(uint8_t* dest) {
dest[0] = MF_UL_CHECK_TEARING;
dest[1] = 0;
return 2;
}
void mf_ul_parse_read_signature_response(uint8_t* buff, MifareUlDevice* mf_ul_read) {
memcpy(mf_ul_read->data.signature, buff, sizeof(mf_ul_read->data.signature));
}
uint16_t mf_ul_prepare_read_cnt(uint8_t* dest, uint8_t cnt_index) {
if(cnt_index > 2) {
return 0;
}
dest[0] = MF_UL_READ_CNT;
dest[1] = cnt_index;
return 2;
}
void mf_ul_parse_read_cnt_response(uint8_t* buff, uint8_t cnt_index, MifareUlDevice* mf_ul_read) {
// Reverse LSB sequence
if(cnt_index < 3) {
mf_ul_read->data.counter[cnt_index] = (buff[2] << 16) | (buff[1] << 8) | (buff[0]);
}
}
uint16_t mf_ul_prepare_inc_cnt(uint8_t* dest, uint8_t cnt_index, uint32_t value) {
if(cnt_index > 2) {
return 0;
}
dest[0] = MF_UL_INC_CNT;
dest[1] = cnt_index;
dest[2] = (uint8_t) value;
dest[3] = (uint8_t) (value >> 8);
dest[4] = (uint8_t) (value >> 16);
dest[5] = 0;
return 6;
}
uint16_t mf_ul_prepare_check_tearing(uint8_t* dest, uint8_t cnt_index) {
if(cnt_index > 2) {
return 0;
}
dest[0] = MF_UL_CHECK_TEARING;
dest[1] = cnt_index;
return 2;
}
void mf_ul_parse_check_tearing_response(uint8_t* buff, uint8_t cnt_index, MifareUlDevice* mf_ul_read) {
if(cnt_index < 2) {
mf_ul_read->data.tearing[cnt_index] = buff[0];
}
}
uint16_t mf_ul_prepare_write(uint8_t* dest, uint16_t page_addr, uint32_t data) {
if(page_addr < 2) {
return 0;
}
dest[0] = MF_UL_WRITE;
dest[1] = page_addr;
dest[2] = (uint8_t) (data >> 24);
dest[3] = (uint8_t) (data >> 16);
dest[4] = (uint8_t) (data >> 8);
dest[5] = (uint8_t) data;
return 6;
}