2022-03-23 22:14:34 +00:00
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#include "mifare_classic.h"
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#include "nfca.h"
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#include "nfc_util.h"
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// Algorithm from https://github.com/RfidResearchGroup/proxmark3.git
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#define TAG "MfClassic"
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#define MF_CLASSIC_AUTH_KEY_A_CMD (0x60U)
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#define MF_CLASSIC_AUTH_KEY_B_CMD (0x61U)
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#define MF_CLASSIC_READ_SECT_CMD (0x30)
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static uint8_t mf_classic_get_first_block_num_of_sector(uint8_t sector) {
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furi_assert(sector < 40);
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if(sector < 32) {
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return sector * 4;
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} else {
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return 32 * 4 + (sector - 32) * 16;
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}
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}
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static uint8_t mf_classic_get_blocks_num_in_sector(uint8_t sector) {
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furi_assert(sector < 40);
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return sector < 32 ? 4 : 16;
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}
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uint8_t mf_classic_get_total_sectors_num(MfClassicReader* reader) {
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furi_assert(reader);
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if(reader->type == MfClassicType1k) {
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return MF_CLASSIC_1K_TOTAL_SECTORS_NUM;
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} else if(reader->type == MfClassicType4k) {
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return MF_CLASSIC_4K_TOTAL_SECTORS_NUM;
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} else {
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return 0;
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}
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}
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bool mf_classic_check_card_type(uint8_t ATQA0, uint8_t ATQA1, uint8_t SAK) {
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if((ATQA0 == 0x44 || ATQA0 == 0x04) && (SAK == 0x08)) {
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return true;
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} else if((ATQA0 == 0x42 || ATQA0 == 0x02) && (SAK == 0x18)) {
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return true;
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} else {
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return false;
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}
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}
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bool mf_classic_get_type(
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uint8_t* uid,
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uint8_t uid_len,
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uint8_t ATQA0,
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uint8_t ATQA1,
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uint8_t SAK,
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MfClassicReader* reader) {
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furi_assert(uid);
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furi_assert(reader);
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memset(reader, 0, sizeof(MfClassicReader));
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if((ATQA0 == 0x44 || ATQA0 == 0x04) && (SAK == 0x08)) {
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reader->type = MfClassicType1k;
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} else if((ATQA0 == 0x42 || ATQA0 == 0x02) && (SAK == 0x18)) {
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reader->type = MfClassicType4k;
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} else {
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return false;
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}
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uint8_t* cuid_start = uid;
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if(uid_len == 7) {
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cuid_start = &uid[3];
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}
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reader->cuid = (cuid_start[0] << 24) | (cuid_start[1] << 16) | (cuid_start[2] << 8) |
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(cuid_start[3]);
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return true;
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}
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void mf_classic_reader_add_sector(
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MfClassicReader* reader,
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uint8_t sector,
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uint64_t key_a,
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uint64_t key_b) {
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furi_assert(reader);
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furi_assert(sector < MF_CLASSIC_SECTORS_MAX);
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furi_assert((key_a != MF_CLASSIC_NO_KEY) || (key_b != MF_CLASSIC_NO_KEY));
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if(reader->sectors_to_read < MF_CLASSIC_SECTORS_MAX - 1) {
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reader->sector_reader[reader->sectors_to_read].key_a = key_a;
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reader->sector_reader[reader->sectors_to_read].key_b = key_b;
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reader->sector_reader[reader->sectors_to_read].sector_num = sector;
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reader->sectors_to_read++;
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}
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}
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void mf_classic_auth_init_context(MfClassicAuthContext* auth_ctx, uint32_t cuid, uint8_t sector) {
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furi_assert(auth_ctx);
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auth_ctx->cuid = cuid;
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auth_ctx->sector = sector;
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auth_ctx->key_a = MF_CLASSIC_NO_KEY;
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auth_ctx->key_b = MF_CLASSIC_NO_KEY;
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}
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static bool mf_classic_auth(
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FuriHalNfcTxRxContext* tx_rx,
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uint32_t cuid,
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uint32_t block,
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uint64_t key,
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MfClassicKey key_type,
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Crypto1* crypto) {
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bool auth_success = false;
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memset(tx_rx, 0, sizeof(FuriHalNfcTxRxContext));
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do {
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if(key_type == MfClassicKeyA) {
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tx_rx->tx_data[0] = MF_CLASSIC_AUTH_KEY_A_CMD;
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} else {
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tx_rx->tx_data[0] = MF_CLASSIC_AUTH_KEY_B_CMD;
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}
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tx_rx->tx_data[1] = block;
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2022-04-19 15:23:58 +00:00
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tx_rx->tx_rx_type = FuriHalNfcTxRxTypeRxNoCrc;
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2022-03-23 22:14:34 +00:00
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tx_rx->tx_bits = 2 * 8;
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2022-04-20 14:08:36 +00:00
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if(!furi_hal_nfc_tx_rx(tx_rx, 5)) break;
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2022-03-23 22:14:34 +00:00
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uint32_t nt = (uint32_t)nfc_util_bytes2num(tx_rx->rx_data, 4);
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crypto1_init(crypto, key);
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crypto1_word(crypto, nt ^ cuid, 0);
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uint8_t nr[4] = {};
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nfc_util_num2bytes(prng_successor(DWT->CYCCNT, 32), 4, nr);
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for(uint8_t i = 0; i < 4; i++) {
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tx_rx->tx_data[i] = crypto1_byte(crypto, nr[i], 0) ^ nr[i];
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tx_rx->tx_parity[0] |=
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(((crypto1_filter(crypto->odd) ^ nfc_util_odd_parity8(nr[i])) & 0x01) << (7 - i));
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}
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nt = prng_successor(nt, 32);
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for(uint8_t i = 4; i < 8; i++) {
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nt = prng_successor(nt, 8);
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tx_rx->tx_data[i] = crypto1_byte(crypto, 0x00, 0) ^ (nt & 0xff);
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tx_rx->tx_parity[0] |=
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(((crypto1_filter(crypto->odd) ^ nfc_util_odd_parity8(nt & 0xff)) & 0x01)
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<< (7 - i));
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}
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2022-04-19 15:23:58 +00:00
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tx_rx->tx_rx_type = FuriHalNfcTxRxTypeRaw;
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2022-03-23 22:14:34 +00:00
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tx_rx->tx_bits = 8 * 8;
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2022-04-20 14:08:36 +00:00
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if(!furi_hal_nfc_tx_rx(tx_rx, 5)) break;
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2022-03-23 22:14:34 +00:00
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if(tx_rx->rx_bits == 32) {
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crypto1_word(crypto, 0, 0);
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auth_success = true;
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}
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} while(false);
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return auth_success;
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}
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bool mf_classic_auth_attempt(
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FuriHalNfcTxRxContext* tx_rx,
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MfClassicAuthContext* auth_ctx,
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uint64_t key) {
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furi_assert(tx_rx);
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furi_assert(auth_ctx);
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bool found_key = false;
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bool need_halt = (auth_ctx->key_a == MF_CLASSIC_NO_KEY) &&
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(auth_ctx->key_b == MF_CLASSIC_NO_KEY);
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Crypto1 crypto;
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if(auth_ctx->key_a == MF_CLASSIC_NO_KEY) {
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// Try AUTH with key A
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if(mf_classic_auth(
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tx_rx,
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auth_ctx->cuid,
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mf_classic_get_first_block_num_of_sector(auth_ctx->sector),
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key,
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MfClassicKeyA,
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&crypto)) {
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auth_ctx->key_a = key;
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found_key = true;
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}
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}
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if(need_halt) {
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2022-04-19 15:23:58 +00:00
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furi_hal_nfc_sleep();
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2022-03-23 22:14:34 +00:00
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furi_hal_nfc_activate_nfca(300, &auth_ctx->cuid);
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}
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if(auth_ctx->key_b == MF_CLASSIC_NO_KEY) {
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// Try AUTH with key B
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if(mf_classic_auth(
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tx_rx,
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auth_ctx->cuid,
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mf_classic_get_first_block_num_of_sector(auth_ctx->sector),
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key,
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MfClassicKeyB,
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&crypto)) {
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auth_ctx->key_b = key;
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found_key = true;
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}
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}
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return found_key;
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}
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bool mf_classic_read_block(
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FuriHalNfcTxRxContext* tx_rx,
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Crypto1* crypto,
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uint8_t block_num,
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MfClassicBlock* block) {
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furi_assert(tx_rx);
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furi_assert(crypto);
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furi_assert(block_num < MF_CLASSIC_TOTAL_BLOCKS_MAX);
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furi_assert(block);
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bool read_block_success = false;
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uint8_t plain_cmd[4] = {MF_CLASSIC_READ_SECT_CMD, block_num, 0x00, 0x00};
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nfca_append_crc16(plain_cmd, 2);
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memset(tx_rx, 0, sizeof(FuriHalNfcTxRxContext));
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for(uint8_t i = 0; i < 4; i++) {
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tx_rx->tx_data[i] = crypto1_byte(crypto, 0x00, 0) ^ plain_cmd[i];
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tx_rx->tx_parity[0] |=
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((crypto1_filter(crypto->odd) ^ nfc_util_odd_parity8(plain_cmd[i])) & 0x01) << (7 - i);
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}
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tx_rx->tx_bits = 4 * 9;
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2022-04-19 15:23:58 +00:00
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tx_rx->tx_rx_type = FuriHalNfcTxRxTypeRaw;
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2022-03-23 22:14:34 +00:00
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2022-04-22 12:41:10 +00:00
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if(furi_hal_nfc_tx_rx(tx_rx, 50)) {
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2022-03-23 22:14:34 +00:00
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if(tx_rx->rx_bits == 8 * 18) {
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for(uint8_t i = 0; i < 18; i++) {
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block->value[i] = crypto1_byte(crypto, 0, 0) ^ tx_rx->rx_data[i];
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}
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read_block_success = true;
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}
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}
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return read_block_success;
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}
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bool mf_classic_read_sector(
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FuriHalNfcTxRxContext* tx_rx,
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Crypto1* crypto,
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MfClassicSectorReader* sector_reader,
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MfClassicSector* sector) {
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furi_assert(tx_rx);
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furi_assert(sector_reader);
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furi_assert(sector);
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uint32_t cuid = 0;
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uint64_t key;
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MfClassicKey key_type;
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uint8_t first_block;
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bool sector_read = false;
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2022-04-19 15:23:58 +00:00
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furi_hal_nfc_sleep();
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2022-03-23 22:14:34 +00:00
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do {
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// Activate card
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if(!furi_hal_nfc_activate_nfca(200, &cuid)) break;
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first_block = mf_classic_get_first_block_num_of_sector(sector_reader->sector_num);
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if(sector_reader->key_a != MF_CLASSIC_NO_KEY) {
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key = sector_reader->key_a;
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key_type = MfClassicKeyA;
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} else if(sector_reader->key_b != MF_CLASSIC_NO_KEY) {
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key = sector_reader->key_b;
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key_type = MfClassicKeyB;
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} else {
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break;
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}
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// Auth to first block in sector
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if(!mf_classic_auth(tx_rx, cuid, first_block, key, key_type, crypto)) break;
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sector->total_blocks = mf_classic_get_blocks_num_in_sector(sector_reader->sector_num);
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// Read blocks
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for(uint8_t i = 0; i < sector->total_blocks; i++) {
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mf_classic_read_block(tx_rx, crypto, first_block + i, §or->block[i]);
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}
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// Save sector keys in last block
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if(sector_reader->key_a != MF_CLASSIC_NO_KEY) {
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nfc_util_num2bytes(
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sector_reader->key_a, 6, §or->block[sector->total_blocks - 1].value[0]);
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}
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if(sector_reader->key_b != MF_CLASSIC_NO_KEY) {
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nfc_util_num2bytes(
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sector_reader->key_b, 6, §or->block[sector->total_blocks - 1].value[10]);
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}
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sector_read = true;
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} while(false);
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return sector_read;
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}
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uint8_t mf_classic_read_card(
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FuriHalNfcTxRxContext* tx_rx,
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MfClassicReader* reader,
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MfClassicData* data) {
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furi_assert(tx_rx);
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furi_assert(reader);
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furi_assert(data);
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uint8_t sectors_read = 0;
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data->type = reader->type;
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MfClassicSector temp_sector = {};
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for(uint8_t i = 0; i < reader->sectors_to_read; i++) {
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if(mf_classic_read_sector(
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tx_rx, &reader->crypto, &reader->sector_reader[i], &temp_sector)) {
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uint8_t first_block =
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mf_classic_get_first_block_num_of_sector(reader->sector_reader[i].sector_num);
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for(uint8_t j = 0; j < temp_sector.total_blocks; j++) {
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data->block[first_block + j] = temp_sector.block[j];
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}
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sectors_read++;
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}
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}
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return sectors_read;
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}
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