#include "nfc_supported_card_plugin.h" #include #include #include #define TAG "HID" static const uint64_t hid_key = 0x484944204953; bool hid_verify(Nfc* nfc) { bool verified = false; do { const uint8_t verify_sector = 1; uint8_t block_num = mf_classic_get_first_block_num_of_sector(verify_sector); FURI_LOG_D(TAG, "Verifying sector %u", verify_sector); MfClassicKey key = {}; bit_lib_num_to_bytes_be(hid_key, COUNT_OF(key.data), key.data); MfClassicAuthContext auth_ctx = {}; MfClassicError error = mf_classic_poller_sync_auth(nfc, block_num, &key, MfClassicKeyTypeA, &auth_ctx); if(error != MfClassicErrorNone) { FURI_LOG_D(TAG, "Failed to read block %u: %d", block_num, error); break; } verified = true; } while(false); return verified; } static bool hid_read(Nfc* nfc, NfcDevice* device) { 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; data->type = type; MfClassicDeviceKeys keys = {}; for(size_t i = 0; i < mf_classic_get_total_sectors_num(data->type); i++) { bit_lib_num_to_bytes_be(hid_key, sizeof(MfClassicKey), keys.key_a[i].data); FURI_BIT_SET(keys.key_a_mask, i); bit_lib_num_to_bytes_be(hid_key, 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 == MfClassicErrorNotPresent) { FURI_LOG_W(TAG, "Failed to read data"); break; } nfc_device_set_data(device, NfcProtocolMfClassic, data); is_read = (error == MfClassicErrorNone); } while(false); mf_classic_free(data); return is_read; } static uint8_t get_bit_length(const uint8_t* half_block) { uint8_t bitLength = 0; uint32_t* halves = (uint32_t*)half_block; if(halves[0] == 0) { uint8_t leading0s = __builtin_clz(REVERSE_BYTES_U32(halves[1])); bitLength = 31 - leading0s; } else { uint8_t leading0s = __builtin_clz(REVERSE_BYTES_U32(halves[0])); bitLength = 63 - leading0s; } return bitLength; } static uint64_t get_pacs_bits(const uint8_t* block, uint8_t bitLength) { // Remove sentinel bit from credential. Byteswapping to handle array of bytes vs 64bit value uint64_t sentinel = __builtin_bswap64(1ULL << bitLength); uint64_t swapped = 0; memcpy(&swapped, block, sizeof(uint64_t)); swapped = __builtin_bswap64(swapped ^ sentinel); FURI_LOG_D(TAG, "PACS: (%d) %016llx", bitLength, swapped); return swapped; } static bool hid_parse(const NfcDevice* device, FuriString* parsed_data) { furi_assert(device); const MfClassicData* data = nfc_device_get_data(device, NfcProtocolMfClassic); bool parsed = false; do { // verify key const uint8_t verify_sector = 1; MfClassicSectorTrailer* sec_tr = mf_classic_get_sector_trailer_by_sector(data, verify_sector); uint64_t key = bit_lib_bytes_to_num_be(sec_tr->key_a.data, 6); if(key != hid_key) break; // Currently doesn't support bit length > 63 const uint8_t* credential_block = data->block[5].data + 8; uint8_t bitLength = get_bit_length(credential_block); if(bitLength == 0) break; uint64_t credential = get_pacs_bits(credential_block, bitLength); if(credential == 0) break; furi_string_printf(parsed_data, "\e#HID Card\n%dbit\n%llx", bitLength, credential); parsed = true; } while(false); return parsed; } /* Actual implementation of app<>plugin interface */ static const NfcSupportedCardsPlugin hid_plugin = { .protocol = NfcProtocolMfClassic, .verify = hid_verify, .read = hid_read, .parse = hid_parse, }; /* Plugin descriptor to comply with basic plugin specification */ static const FlipperAppPluginDescriptor hid_plugin_descriptor = { .appid = NFC_SUPPORTED_CARD_PLUGIN_APP_ID, .ep_api_version = NFC_SUPPORTED_CARD_PLUGIN_API_VERSION, .entry_point = &hid_plugin, }; /* Plugin entry point - must return a pointer to const descriptor */ const FlipperAppPluginDescriptor* hid_plugin_ep() { return &hid_plugin_descriptor; }