#include "nfc_supported_card_plugin.h" #include #include #include #include #include #define TAG "HI!" #define KEY_LENGTH 6 #define HI_KEY_TO_GEN 5 #define UID_LENGTH 7 typedef struct { uint64_t a; uint64_t b; } MfClassicKeyPair; typedef struct { MfClassicKeyPair* keys; uint32_t verify_sector; } HiCardConfig; static MfClassicKeyPair hi_1k_keys[] = { {.a = 0xa0a1a2a3a4a5, .b = 0x30871CF60CF1}, // 000 {.a = 0x000000000000, .b = 0x000000000000}, // 001 {.a = 0x000000000000, .b = 0x000000000000}, // 002 {.a = 0x000000000000, .b = 0x000000000000}, // 003 {.a = 0x000000000000, .b = 0x000000000000}, // 004 {.a = 0x42FFE4C76209, .b = 0x7B30CFD04CBD}, // 005 {.a = 0x01ED8145BDF8, .b = 0x92257F472FCE}, // 006 {.a = 0x7583A07D21A6, .b = 0x51CA6EA8EE26}, // 007 {.a = 0x1E10BF5D6A1D, .b = 0x87B9B9BFABA6}, // 008 {.a = 0xF9DB1B2B21BA, .b = 0x80A781F4134C}, // 009 {.a = 0x7F5283FACB72, .b = 0x73250009D75A}, // 010 {.a = 0xE48E86A03078, .b = 0xCFFBBF08A254}, // 011 {.a = 0x39AB26301F60, .b = 0xC71A6E532C83}, // 012 {.a = 0xAD656C6C639F, .b = 0xFD9819CBD20A}, // 013 {.a = 0xF0E15160DB3E, .b = 0x3F622D515ADD}, // 014 {.a = 0x03F44E033C42, .b = 0x61E897875F46}, // 015 }; //KDF void hi_generate_key(uint8_t* uid, uint8_t keyA[5][KEY_LENGTH], uint8_t keyB[5][KEY_LENGTH]) { // Static XOR table for key generation static const uint8_t xor_table_keyB[4][6] = { {0x1F, 0xC4, 0x4D, 0x94, 0x6A, 0x31}, {0x12, 0xC1, 0x5C, 0x70, 0xDF, 0x31}, {0x56, 0xF0, 0x13, 0x1B, 0x63, 0xF2}, {0x4E, 0xFA, 0xC2, 0xF8, 0xC9, 0xCC}}; static const uint8_t xor_table_keyA[4][6] = { {0xB6, 0xE6, 0xAE, 0x72, 0x91, 0x0D}, {0x6D, 0x38, 0x50, 0xFB, 0x42, 0x89}, {0x1E, 0x5F, 0xC7, 0xED, 0xAA, 0x02}, {0x7E, 0xB9, 0xCA, 0xF1, 0x9C, 0x59}}; // Permutation table for rearranging elements in uid static const uint8_t xorOrderA[6] = {0, 1, 2, 3, 0, 2}; static const uint8_t xorOrderB[6] = {1, 3, 3, 2, 1, 0}; // Generate key based on uid and XOR table for(uint8_t j = 1; j < 5; j++) { for(uint8_t i = 0; i < 6; i++) { keyA[j][i] = uid[xorOrderA[i]] ^ xor_table_keyA[j - 1][i]; keyB[j][i] = uid[xorOrderB[i]] ^ xor_table_keyB[j - 1][i]; } } } static bool hi_get_card_config(HiCardConfig* config, MfClassicType type) { bool success = true; if(type == MfClassicType1k) { config->verify_sector = 0; config->keys = hi_1k_keys; } else { success = false; } return success; } static bool hi_verify_type(Nfc* nfc, MfClassicType type) { bool verified = false; do { HiCardConfig cfg = {}; if(!hi_get_card_config(&cfg, type)) break; const uint8_t block_num = mf_classic_get_first_block_num_of_sector(cfg.verify_sector); FURI_LOG_D(TAG, "Verifying sector %li", cfg.verify_sector); MfClassicKey key = {0}; nfc_util_num2bytes(cfg.keys[cfg.verify_sector].b, COUNT_OF(key.data), key.data); MfClassicAuthContext auth_context; MfClassicError error = mf_classic_poller_sync_auth(nfc, block_num, &key, MfClassicKeyTypeB, &auth_context); if(error != MfClassicErrorNone) { FURI_LOG_D( TAG, "Failed to read block %u: %d, this is not a HI card", block_num, error); break; } FURI_LOG_D(TAG, "Found a HI Card"); verified = true; } while(false); return verified; } static bool hi_verify(Nfc* nfc) { return hi_verify_type(nfc, MfClassicType1k); } static bool hi_read(Nfc* nfc, NfcDevice* device) { FURI_LOG_D(TAG, "Entering HI KDF"); furi_assert(nfc); furi_assert(device); bool is_read = false; MfClassicData* data = mf_classic_alloc(); nfc_device_copy_data(device, NfcProtocolMfClassic, data); do { MfClassicType type = MfClassicType1k; MfClassicError error = mf_classic_poller_sync_detect_type(nfc, &type); if(error != MfClassicErrorNone) break; HiCardConfig cfg = {}; if(!hi_get_card_config(&cfg, data->type)) break; uint8_t uid[UID_LENGTH]; memcpy(uid, data->iso14443_3a_data->uid, UID_LENGTH); uint8_t keyA[HI_KEY_TO_GEN][KEY_LENGTH]; uint8_t keyB[HI_KEY_TO_GEN][KEY_LENGTH]; hi_generate_key(uid, keyA, keyB); for(size_t i = 0; i < mf_classic_get_total_sectors_num(data->type); i++) { if(cfg.keys[i].a == 0x000000000000 && cfg.keys[i].b == 0x000000000000) { cfg.keys[i].a = nfc_util_bytes2num(keyA[i], KEY_LENGTH); cfg.keys[i].b = nfc_util_bytes2num(keyB[i], KEY_LENGTH); } } MfClassicDeviceKeys keys = {}; for(size_t i = 0; i < mf_classic_get_total_sectors_num(data->type); i++) { nfc_util_num2bytes(cfg.keys[i].a, sizeof(MfClassicKey), keys.key_a[i].data); FURI_BIT_SET(keys.key_a_mask, i); nfc_util_num2bytes(cfg.keys[i].b, sizeof(MfClassicKey), keys.key_b[i].data); FURI_BIT_SET(keys.key_b_mask, i); } error = mf_classic_poller_sync_read(nfc, &keys, data); if(error != MfClassicErrorNone) { FURI_LOG_W(TAG, "Failed to read data"); break; } nfc_device_set_data(device, NfcProtocolMfClassic, data); is_read = mf_classic_is_card_read(data); } while(false); mf_classic_free(data); return is_read; } static bool hi_parse(const NfcDevice* device, FuriString* parsed_data) { furi_assert(device); furi_assert(parsed_data); const MfClassicData* data = nfc_device_get_data(device, NfcProtocolMfClassic); bool parsed = false; do { // Verify card type HiCardConfig cfg = {}; if(!hi_get_card_config(&cfg, data->type)) break; // Verify key MfClassicSectorTrailer* sec_tr = mf_classic_get_sector_trailer_by_sector(data, cfg.verify_sector); uint64_t key = nfc_util_bytes2num(sec_tr->key_b.data, 6); if(key != cfg.keys[cfg.verify_sector].b) return false; //Get UID uint8_t uid[UID_LENGTH]; memcpy(uid, data->iso14443_3a_data->uid, UID_LENGTH); //parse data furi_string_cat_printf(parsed_data, "\e#HI! Card\n"); furi_string_cat_printf(parsed_data, "UID:"); for(size_t i = 0; i < UID_LENGTH; i++) { furi_string_cat_printf(parsed_data, " %02X", uid[i]); } furi_string_cat_printf(parsed_data, "\n"); parsed = true; } while(false); return parsed; } /* Actual implementation of app<>plugin interface */ static const NfcSupportedCardsPlugin hi_plugin = { .protocol = NfcProtocolMfClassic, .verify = hi_verify, .read = hi_read, .parse = hi_parse, }; /* Plugin descriptor to comply with basic plugin specification */ static const FlipperAppPluginDescriptor hi_plugin_descriptor = { .appid = NFC_SUPPORTED_CARD_PLUGIN_APP_ID, .ep_api_version = NFC_SUPPORTED_CARD_PLUGIN_API_VERSION, .entry_point = &hi_plugin, }; /* Plugin entry point - must return a pointer to const descriptor */ const FlipperAppPluginDescriptor* hi_plugin_ep() { return &hi_plugin_descriptor; }