#include "nfc_worker_i.h" #include #include #include "parsers/nfc_supported_card.h" #define TAG "NfcWorker" /***************************** NFC Worker API *******************************/ NfcWorker* nfc_worker_alloc() { NfcWorker* nfc_worker = malloc(sizeof(NfcWorker)); // Worker thread attributes nfc_worker->thread = furi_thread_alloc_ex("NfcWorker", 8192, nfc_worker_task, nfc_worker); nfc_worker->callback = NULL; nfc_worker->context = NULL; nfc_worker->storage = furi_record_open(RECORD_STORAGE); // Initialize rfal while(furi_hal_nfc_is_busy()) { furi_delay_ms(10); } nfc_worker_change_state(nfc_worker, NfcWorkerStateReady); nfc_worker->reader_analyzer = reader_analyzer_alloc(nfc_worker->storage); return nfc_worker; } void nfc_worker_free(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_thread_free(nfc_worker->thread); furi_record_close(RECORD_STORAGE); reader_analyzer_free(nfc_worker->reader_analyzer); free(nfc_worker); } NfcWorkerState nfc_worker_get_state(NfcWorker* nfc_worker) { return nfc_worker->state; } void nfc_worker_start( NfcWorker* nfc_worker, NfcWorkerState state, NfcDeviceData* dev_data, NfcWorkerCallback callback, void* context) { furi_assert(nfc_worker); furi_assert(dev_data); while(furi_hal_nfc_is_busy()) { furi_delay_ms(10); } furi_hal_nfc_deinit(); furi_hal_nfc_init(); nfc_worker->callback = callback; nfc_worker->context = context; nfc_worker->dev_data = dev_data; nfc_worker_change_state(nfc_worker, state); furi_thread_start(nfc_worker->thread); } void nfc_worker_stop(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_assert(nfc_worker->thread); if(furi_thread_get_state(nfc_worker->thread) != FuriThreadStateStopped) { furi_hal_nfc_stop(); nfc_worker_change_state(nfc_worker, NfcWorkerStateStop); furi_thread_join(nfc_worker->thread); } } void nfc_worker_change_state(NfcWorker* nfc_worker, NfcWorkerState state) { nfc_worker->state = state; } /***************************** NFC Worker Thread *******************************/ int32_t nfc_worker_task(void* context) { NfcWorker* nfc_worker = context; furi_hal_nfc_exit_sleep(); if(nfc_worker->state == NfcWorkerStateRead) { if(nfc_worker->dev_data->read_mode == NfcReadModeAuto) { nfc_worker_read(nfc_worker); } else { nfc_worker_read_type(nfc_worker); } } else if(nfc_worker->state == NfcWorkerStateUidEmulate) { nfc_worker_emulate_uid(nfc_worker); } #if FURI_DEBUG else if(nfc_worker->state == NfcWorkerStateEmulateApdu) { nfc_worker_emulate_apdu(nfc_worker); } #endif else if(nfc_worker->state == NfcWorkerStateMfUltralightEmulate) { nfc_worker_emulate_mf_ultralight(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateMfClassicEmulate) { nfc_worker_emulate_mf_classic(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateMfClassicWrite) { nfc_worker_write_mf_classic(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateMfClassicUpdate) { nfc_worker_update_mf_classic(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateReadMfUltralightReadAuth) { nfc_worker_mf_ultralight_read_auth(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateMfClassicDictAttack) { nfc_worker_mf_classic_dict_attack(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateAnalyzeReader) { nfc_worker_analyze_reader(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateNfcVEmulate) { nfc_worker_nfcv_emulate(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateNfcVSniff) { nfc_worker_nfcv_sniff(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateNfcVUnlock) { nfc_worker_nfcv_unlock(nfc_worker); } else if(nfc_worker->state == NfcWorkerStateNfcVUnlockAndSave) { nfc_worker_nfcv_unlock(nfc_worker); } furi_hal_nfc_sleep(); nfc_worker_change_state(nfc_worker, NfcWorkerStateReady); return 0; } static bool nfc_worker_read_nfcv(NfcWorker* nfc_worker, FuriHalNfcTxRxContext* tx_rx) { bool read_success = false; NfcVReader reader = {}; FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; NfcVData* nfcv_data = &nfc_worker->dev_data->nfcv_data; furi_hal_nfc_sleep(); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, tx_rx, false); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } do { if(!furi_hal_nfc_detect(&nfc_worker->dev_data->nfc_data, 200)) break; if(!nfcv_read_card(&reader, nfc_data, nfcv_data)) break; read_success = true; } while(false); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } return read_success; } void nfc_worker_nfcv_emulate(NfcWorker* nfc_worker) { FuriHalNfcTxRxContext tx_rx = {}; FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; NfcVData* nfcv_data = &nfc_worker->dev_data->nfcv_data; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, &tx_rx, true); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } nfcv_emu_init(nfc_data, nfcv_data); while(nfc_worker->state == NfcWorkerStateNfcVEmulate) { if(nfcv_emu_loop(&tx_rx, nfc_data, nfcv_data, 100)) { if(nfc_worker->callback) { nfc_worker->callback(NfcWorkerEventNfcVCommandExecuted, nfc_worker->context); if(nfcv_data->modified) { nfc_worker->callback(NfcWorkerEventNfcVContentChanged, nfc_worker->context); nfcv_data->modified = false; } } } furi_delay_ms(10); } nfcv_emu_deinit(nfcv_data); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } } void nfc_worker_nfcv_sniff(NfcWorker* nfc_worker) { FuriHalNfcTxRxContext tx_rx = {}; FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; NfcVData* nfcv_data = &nfc_worker->dev_data->nfcv_data; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, &tx_rx, true); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } nfcv_data->sub_type = NfcVTypeSniff; nfcv_emu_init(nfc_data, nfcv_data); while(nfc_worker->state == NfcWorkerStateNfcVSniff) { if(nfcv_emu_loop(&tx_rx, nfc_data, nfcv_data, 100)) { if(nfc_worker->callback) { nfc_worker->callback(NfcWorkerEventNfcVCommandExecuted, nfc_worker->context); } } furi_delay_ms(10); } nfcv_emu_deinit(nfcv_data); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } } void nfc_worker_nfcv_unlock(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_assert(nfc_worker->callback); NfcVData* nfcv_data = &nfc_worker->dev_data->nfcv_data; FuriHalNfcTxRxContext tx_rx = {}; uint8_t* key_data = nfcv_data->sub_data.slix.key_privacy; uint32_t key = 0; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, &tx_rx, true); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } furi_hal_nfc_sleep(); while((nfc_worker->state == NfcWorkerStateNfcVUnlock) || (nfc_worker->state == NfcWorkerStateNfcVUnlockAndSave)) { furi_hal_nfc_exit_sleep(); furi_hal_nfc_ll_txrx_on(); furi_hal_nfc_ll_poll(); if(furi_hal_nfc_ll_set_mode( FuriHalNfcModePollNfcv, FuriHalNfcBitrate26p48, FuriHalNfcBitrate26p48) != FuriHalNfcReturnOk) { break; } furi_hal_nfc_ll_set_fdt_listen(FURI_HAL_NFC_LL_FDT_LISTEN_NFCV_POLLER); furi_hal_nfc_ll_set_fdt_poll(FURI_HAL_NFC_LL_FDT_POLL_NFCV_POLLER); furi_hal_nfc_ll_set_error_handling(FuriHalNfcErrorHandlingNfc); furi_hal_nfc_ll_set_guard_time(FURI_HAL_NFC_LL_GT_NFCV); FURI_LOG_D(TAG, "Detect presence"); ReturnCode ret = slix_get_random(nfcv_data); if(ret == ERR_NONE) { /* there is some chip, responding with a RAND */ nfc_worker->dev_data->protocol = NfcDeviceProtocolNfcV; FURI_LOG_D(TAG, " Chip detected. In privacy?"); ret = nfcv_inventory(NULL); if(ret == ERR_NONE) { /* chip is also visible, so no action required, just save */ if(nfc_worker->state == NfcWorkerStateNfcVUnlockAndSave) { NfcVReader reader = {}; if(!nfcv_read_card(&reader, &nfc_worker->dev_data->nfc_data, nfcv_data)) { FURI_LOG_D(TAG, " => failed, wait for chip to disappear."); snprintf(nfcv_data->error, sizeof(nfcv_data->error), "Read card\nfailed"); nfc_worker->callback(NfcWorkerEventWrongCardDetected, nfc_worker->context); } else { FURI_LOG_D(TAG, " => success, wait for chip to disappear."); nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); } } else { FURI_LOG_D(TAG, " => success, wait for chip to disappear."); nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); } while(slix_get_random(NULL) == ERR_NONE) { furi_delay_ms(100); } FURI_LOG_D(TAG, " => chip is already visible, wait for chip to disappear.\r\n"); nfc_worker->callback(NfcWorkerEventAborted, nfc_worker->context); while(slix_get_random(NULL) == ERR_NONE) { furi_delay_ms(100); } key_data[0] = 0; key_data[1] = 0; key_data[2] = 0; key_data[3] = 0; } else { /* chip is invisible, try to unlock */ FURI_LOG_D(TAG, " chip is invisible, unlocking"); if(nfcv_data->auth_method == NfcVAuthMethodManual) { key |= key_data[0] << 24; key |= key_data[1] << 16; key |= key_data[2] << 8; key |= key_data[3] << 0; ret = slix_unlock(nfcv_data, 4); } else { key = 0x7FFD6E5B; key_data[0] = key >> 24; key_data[1] = key >> 16; key_data[2] = key >> 8; key_data[3] = key >> 0; ret = slix_unlock(nfcv_data, 4); if(ret != ERR_NONE) { /* main key failed, trying second one */ FURI_LOG_D(TAG, " trying second key after resetting"); /* reset chip */ furi_hal_nfc_ll_txrx_off(); furi_delay_ms(20); furi_hal_nfc_ll_txrx_on(); if(slix_get_random(nfcv_data) != ERR_NONE) { FURI_LOG_D(TAG, " reset failed"); } key = 0x0F0F0F0F; key_data[0] = key >> 24; key_data[1] = key >> 16; key_data[2] = key >> 8; key_data[3] = key >> 0; ret = slix_unlock(nfcv_data, 4); } } if(ret != ERR_NONE) { /* unlock failed */ FURI_LOG_D(TAG, " => failed, wait for chip to disappear."); snprintf( nfcv_data->error, sizeof(nfcv_data->error), "Passwords not\naccepted"); nfc_worker->callback(NfcWorkerEventWrongCardDetected, nfc_worker->context); /* reset chip */ furi_hal_nfc_ll_txrx_off(); furi_delay_ms(20); furi_hal_nfc_ll_txrx_on(); /* wait for disappearing */ while(slix_get_random(NULL) == ERR_NONE) { furi_delay_ms(100); } } } } else { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); } furi_hal_nfc_ll_txrx_off(); furi_hal_nfc_sleep(); furi_delay_ms(100); } if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } } static bool nfc_worker_read_mf_ultralight(NfcWorker* nfc_worker, FuriHalNfcTxRxContext* tx_rx) { bool read_success = false; MfUltralightReader reader = {}; MfUltralightData data = {}; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, tx_rx, false); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } do { // Try to read supported card FURI_LOG_I(TAG, "Trying to read a supported card ..."); for(size_t i = 0; i < NfcSupportedCardTypeEnd; i++) { if(nfc_supported_card[i].protocol == NfcDeviceProtocolMifareUl) { if(nfc_supported_card[i].verify(nfc_worker, tx_rx)) { if(nfc_supported_card[i].read(nfc_worker, tx_rx)) { read_success = true; nfc_supported_card[i].parse(nfc_worker->dev_data); break; } } else { furi_hal_nfc_sleep(); } } } if(read_success) break; furi_hal_nfc_sleep(); // Otherwise, try to read as usual if(!furi_hal_nfc_detect(&nfc_worker->dev_data->nfc_data, 200)) break; if(!mf_ul_read_card(tx_rx, &reader, &data)) break; // Copy data nfc_worker->dev_data->mf_ul_data = data; read_success = true; } while(false); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } return read_success; } static bool nfc_worker_read_mf_classic(NfcWorker* nfc_worker, FuriHalNfcTxRxContext* tx_rx) { furi_assert(nfc_worker->callback); bool read_success = false; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, tx_rx, false); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } do { // Try to read supported card FURI_LOG_I(TAG, "Trying to read a supported card ..."); for(size_t i = 0; i < NfcSupportedCardTypeEnd; i++) { if(nfc_supported_card[i].protocol == NfcDeviceProtocolMifareClassic) { if(nfc_supported_card[i].verify(nfc_worker, tx_rx)) { if(nfc_supported_card[i].read(nfc_worker, tx_rx)) { read_success = true; nfc_supported_card[i].parse(nfc_worker->dev_data); break; } } else { furi_hal_nfc_sleep(); } } } if(read_success) break; // Try to read card with key cache FURI_LOG_I(TAG, "Search for key cache ..."); if(nfc_worker->callback(NfcWorkerEventReadMfClassicLoadKeyCache, nfc_worker->context)) { FURI_LOG_I(TAG, "Load keys cache success. Start reading"); uint8_t sectors_read = mf_classic_update_card(tx_rx, &nfc_worker->dev_data->mf_classic_data); uint8_t sectors_total = mf_classic_get_total_sectors_num(nfc_worker->dev_data->mf_classic_data.type); FURI_LOG_I(TAG, "Read %d sectors out of %d total", sectors_read, sectors_total); read_success = mf_classic_is_card_read(&nfc_worker->dev_data->mf_classic_data); } } while(false); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } return read_success; } static bool nfc_worker_read_mf_desfire(NfcWorker* nfc_worker, FuriHalNfcTxRxContext* tx_rx) { bool read_success = false; MifareDesfireData* data = &nfc_worker->dev_data->mf_df_data; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, tx_rx, false); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } do { if(!furi_hal_nfc_detect(&nfc_worker->dev_data->nfc_data, 300)) break; if(!mf_df_read_card(tx_rx, data)) break; FURI_LOG_I(TAG, "Trying to parse a supported card ..."); // The model for parsing DESFire is a little different to other cards; // we don't have parsers to provide encryption keys, so we can read the // data normally, and then pass the read data to a parser. // // There are fully-protected DESFire cards, but providing keys for them // is difficult (and unnessesary for many transit cards). for(size_t i = 0; i < NfcSupportedCardTypeEnd; i++) { if(nfc_supported_card[i].protocol == NfcDeviceProtocolMifareDesfire) { if(nfc_supported_card[i].parse(nfc_worker->dev_data)) break; } } read_success = true; } while(false); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } return read_success; } static bool nfc_worker_read_bank_card(NfcWorker* nfc_worker, FuriHalNfcTxRxContext* tx_rx) { bool read_success = false; EmvApplication emv_app = {}; EmvData* result = &nfc_worker->dev_data->emv_data; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, tx_rx, false); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } // Bank cards require strong field to start application. If we find AID, try at least several // times to start EMV application uint8_t start_application_attempts = 0; while(start_application_attempts < 3) { if(nfc_worker->state != NfcWorkerStateRead) break; start_application_attempts++; if(!furi_hal_nfc_detect(&nfc_worker->dev_data->nfc_data, 300)) break; if(emv_read_bank_card(tx_rx, &emv_app)) { FURI_LOG_D(TAG, "Bank card number read from %d attempt", start_application_attempts); break; } else if(emv_app.aid_len && !emv_app.app_started) { FURI_LOG_D( TAG, "AID found but failed to start EMV app from %d attempt", start_application_attempts); furi_hal_nfc_sleep(); continue; } else { FURI_LOG_D(TAG, "Failed to find AID"); break; } } // Copy data if(emv_app.aid_len) { result->aid_len = emv_app.aid_len; memcpy(result->aid, emv_app.aid, result->aid_len); read_success = true; } if(emv_app.card_number_len) { result->number_len = emv_app.card_number_len; memcpy(result->number, emv_app.card_number, result->number_len); } if(emv_app.name_found) { memcpy(result->name, emv_app.name, sizeof(emv_app.name)); } if(emv_app.exp_month) { result->exp_mon = emv_app.exp_month; result->exp_year = emv_app.exp_year; } if(emv_app.country_code) { result->country_code = emv_app.country_code; } if(emv_app.currency_code) { result->currency_code = emv_app.currency_code; } if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } return read_success; } static bool nfc_worker_read_nfca(NfcWorker* nfc_worker, FuriHalNfcTxRxContext* tx_rx) { FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; bool card_read = false; furi_hal_nfc_sleep(); if(mf_ul_check_card_type(nfc_data->atqa[0], nfc_data->atqa[1], nfc_data->sak)) { FURI_LOG_I(TAG, "Mifare Ultralight / NTAG detected"); nfc_worker->dev_data->protocol = NfcDeviceProtocolMifareUl; card_read = nfc_worker_read_mf_ultralight(nfc_worker, tx_rx); } else if(mf_classic_check_card_type(nfc_data->atqa[0], nfc_data->atqa[1], nfc_data->sak)) { FURI_LOG_I(TAG, "Mifare Classic detected"); nfc_worker->dev_data->protocol = NfcDeviceProtocolMifareClassic; nfc_worker->dev_data->mf_classic_data.type = mf_classic_get_classic_type(nfc_data->atqa[0], nfc_data->atqa[1], nfc_data->sak); card_read = nfc_worker_read_mf_classic(nfc_worker, tx_rx); } else if(mf_df_check_card_type(nfc_data->atqa[0], nfc_data->atqa[1], nfc_data->sak)) { FURI_LOG_I(TAG, "Mifare DESFire detected"); nfc_worker->dev_data->protocol = NfcDeviceProtocolMifareDesfire; if(!nfc_worker_read_mf_desfire(nfc_worker, tx_rx)) { FURI_LOG_I(TAG, "Unknown card. Save UID"); nfc_worker->dev_data->protocol = NfcDeviceProtocolUnknown; } card_read = true; } else if(nfc_data->interface == FuriHalNfcInterfaceIsoDep) { FURI_LOG_I(TAG, "ISO14443-4 card detected"); nfc_worker->dev_data->protocol = NfcDeviceProtocolEMV; if(!nfc_worker_read_bank_card(nfc_worker, tx_rx)) { FURI_LOG_I(TAG, "Unknown card. Save UID"); nfc_worker->dev_data->protocol = NfcDeviceProtocolUnknown; } card_read = true; } else { nfc_worker->dev_data->protocol = NfcDeviceProtocolUnknown; card_read = true; } return card_read; } void nfc_worker_read(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_assert(nfc_worker->callback); nfc_device_data_clear(nfc_worker->dev_data); NfcDeviceData* dev_data = nfc_worker->dev_data; FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; FuriHalNfcTxRxContext tx_rx = {}; NfcWorkerEvent event = 0; bool card_not_detected_notified = false; while(nfc_worker->state == NfcWorkerStateRead) { if(furi_hal_nfc_detect(nfc_data, 300)) { // Process first found device nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); card_not_detected_notified = false; if(nfc_data->type == FuriHalNfcTypeA) { if(nfc_worker_read_nfca(nfc_worker, &tx_rx)) { if(dev_data->protocol == NfcDeviceProtocolMifareUl) { event = NfcWorkerEventReadMfUltralight; break; } else if(dev_data->protocol == NfcDeviceProtocolMifareClassic) { event = NfcWorkerEventReadMfClassicDone; break; } else if(dev_data->protocol == NfcDeviceProtocolMifareDesfire) { event = NfcWorkerEventReadMfDesfire; break; } else if(dev_data->protocol == NfcDeviceProtocolEMV) { event = NfcWorkerEventReadBankCard; break; } else if(dev_data->protocol == NfcDeviceProtocolUnknown) { event = NfcWorkerEventReadUidNfcA; break; } } else { if(dev_data->protocol == NfcDeviceProtocolMifareClassic) { event = NfcWorkerEventReadMfClassicDictAttackRequired; break; } } } else if(nfc_data->type == FuriHalNfcTypeB) { event = NfcWorkerEventReadUidNfcB; break; } else if(nfc_data->type == FuriHalNfcTypeF) { event = NfcWorkerEventReadUidNfcF; break; } else if(nfc_data->type == FuriHalNfcTypeV) { FURI_LOG_I(TAG, "NfcV detected"); nfc_worker->dev_data->protocol = NfcDeviceProtocolNfcV; if(nfc_worker_read_nfcv(nfc_worker, &tx_rx)) { FURI_LOG_I(TAG, "nfc_worker_read_nfcv success"); } event = NfcWorkerEventReadNfcV; break; } } else { if(!card_not_detected_notified) { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); card_not_detected_notified = true; } } furi_hal_nfc_sleep(); furi_delay_ms(100); } // Notify caller and exit if(event > NfcWorkerEventReserved) { nfc_worker->callback(event, nfc_worker->context); } } void nfc_worker_read_type(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_assert(nfc_worker->callback); NfcReadMode read_mode = nfc_worker->dev_data->read_mode; nfc_device_data_clear(nfc_worker->dev_data); NfcDeviceData* dev_data = nfc_worker->dev_data; FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; FuriHalNfcTxRxContext tx_rx = {}; NfcWorkerEvent event = 0; bool card_not_detected_notified = false; while(nfc_worker->state == NfcWorkerStateRead) { if(furi_hal_nfc_detect(nfc_data, 300)) { FURI_LOG_D(TAG, "Card detected"); furi_hal_nfc_sleep(); // Process first found device nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); card_not_detected_notified = false; if(nfc_data->type == FuriHalNfcTypeA) { if(read_mode == NfcReadModeMfClassic) { nfc_worker->dev_data->protocol = NfcDeviceProtocolMifareClassic; nfc_worker->dev_data->mf_classic_data.type = mf_classic_get_classic_type( nfc_data->atqa[0], nfc_data->atqa[1], nfc_data->sak); if(nfc_worker_read_mf_classic(nfc_worker, &tx_rx)) { FURI_LOG_D(TAG, "Card read"); dev_data->protocol = NfcDeviceProtocolMifareClassic; event = NfcWorkerEventReadMfClassicDone; break; } else { FURI_LOG_D(TAG, "Card read failed"); dev_data->protocol = NfcDeviceProtocolMifareClassic; event = NfcWorkerEventReadMfClassicDictAttackRequired; break; } } else if(read_mode == NfcReadModeMfUltralight) { FURI_LOG_I(TAG, "Mifare Ultralight / NTAG"); nfc_worker->dev_data->protocol = NfcDeviceProtocolMifareUl; if(nfc_worker_read_mf_ultralight(nfc_worker, &tx_rx)) { event = NfcWorkerEventReadMfUltralight; break; } } else if(read_mode == NfcReadModeMfDesfire) { nfc_worker->dev_data->protocol = NfcDeviceProtocolMifareDesfire; if(nfc_worker_read_mf_desfire(nfc_worker, &tx_rx)) { event = NfcWorkerEventReadMfDesfire; break; } } else if(read_mode == NfcReadModeEMV) { nfc_worker->dev_data->protocol = NfcDeviceProtocolEMV; if(nfc_worker_read_bank_card(nfc_worker, &tx_rx)) { event = NfcWorkerEventReadBankCard; break; } } else if(read_mode == NfcReadModeNFCA) { nfc_worker->dev_data->protocol = NfcDeviceProtocolUnknown; event = NfcWorkerEventReadUidNfcA; break; } } } else { if(!card_not_detected_notified) { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); card_not_detected_notified = true; } } furi_hal_nfc_sleep(); furi_delay_ms(100); } // Notify caller and exit if(event > NfcWorkerEventReserved) { nfc_worker->callback(event, nfc_worker->context); } } void nfc_worker_emulate_uid(NfcWorker* nfc_worker) { FuriHalNfcTxRxContext tx_rx = {}; FuriHalNfcDevData* data = &nfc_worker->dev_data->nfc_data; NfcReaderRequestData* reader_data = &nfc_worker->dev_data->reader_data; // TODO add support for RATS // Need to save ATS to support ISO-14443A-4 emulation while(nfc_worker->state == NfcWorkerStateUidEmulate) { if(furi_hal_nfc_listen(data->uid, data->uid_len, data->atqa, data->sak, false, 100)) { if(furi_hal_nfc_tx_rx(&tx_rx, 100)) { reader_data->size = tx_rx.rx_bits / 8; if(reader_data->size > 0) { memcpy(reader_data->data, tx_rx.rx_data, reader_data->size); if(nfc_worker->callback) { nfc_worker->callback(NfcWorkerEventSuccess, nfc_worker->context); } } } else { FURI_LOG_E(TAG, "Failed to get reader commands"); } } } } #if FURI_DEBUG void nfc_worker_emulate_apdu(NfcWorker* nfc_worker) { FuriHalNfcTxRxContext tx_rx = {}; FuriHalNfcDevData params = { .uid = {0xCF, 0x72, 0xd4, 0x40}, .uid_len = 4, .atqa = {0x00, 0x04}, .sak = 0x20, .type = FuriHalNfcTypeA, }; if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, &tx_rx, true); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } while(nfc_worker->state == NfcWorkerStateEmulateApdu) { //-V1044 if(furi_hal_nfc_listen(params.uid, params.uid_len, params.atqa, params.sak, false, 300)) { FURI_LOG_D(TAG, "POS terminal detected"); if(emv_card_emulation(&tx_rx)) { FURI_LOG_D(TAG, "EMV card emulated"); } } else { FURI_LOG_D(TAG, "Can't find reader"); } furi_hal_nfc_sleep(); furi_delay_ms(20); } if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } } #endif void nfc_worker_mf_ultralight_auth_received_callback(MfUltralightAuth auth, void* context) { furi_assert(context); NfcWorker* nfc_worker = context; nfc_worker->dev_data->mf_ul_auth = auth; if(nfc_worker->callback) { nfc_worker->callback(NfcWorkerEventMfUltralightPwdAuth, nfc_worker->context); } } void nfc_worker_emulate_mf_ultralight(NfcWorker* nfc_worker) { FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; MfUltralightEmulator emulator = {}; mf_ul_prepare_emulation(&emulator, &nfc_worker->dev_data->mf_ul_data); // TODO rework with reader analyzer emulator.auth_received_callback = nfc_worker_mf_ultralight_auth_received_callback; emulator.context = nfc_worker; while(nfc_worker->state == NfcWorkerStateMfUltralightEmulate) { mf_ul_reset_emulation(&emulator, true); furi_hal_nfc_emulate_nfca( nfc_data->uid, nfc_data->uid_len, nfc_data->atqa, nfc_data->sak, mf_ul_prepare_emulation_response, &emulator, 5000); // Check if data was modified if(emulator.data_changed) { nfc_worker->dev_data->mf_ul_data = emulator.data; if(nfc_worker->callback) { nfc_worker->callback(NfcWorkerEventSuccess, nfc_worker->context); } emulator.data_changed = false; } } } static bool nfc_worker_mf_get_b_key_from_sector_trailer( FuriHalNfcTxRxContext* tx_rx, uint16_t sector, uint64_t key, uint64_t* found_key) { // Some access conditions allow reading B key via A key uint8_t block = mf_classic_get_sector_trailer_block_num_by_sector(sector); Crypto1 crypto = {}; MfClassicBlock block_tmp = {}; MfClassicAuthContext auth_context = {.sector = sector, .key_a = MF_CLASSIC_NO_KEY, .key_b = 0}; furi_hal_nfc_sleep(); if(mf_classic_auth_attempt(tx_rx, &crypto, &auth_context, key)) { if(mf_classic_read_block(tx_rx, &crypto, block, &block_tmp)) { *found_key = nfc_util_bytes2num(&block_tmp.value[10], sizeof(uint8_t) * 6); return *found_key; } } return false; } static void nfc_worker_mf_classic_key_attack( NfcWorker* nfc_worker, uint64_t key, FuriHalNfcTxRxContext* tx_rx, uint16_t start_sector) { furi_assert(nfc_worker); furi_assert(nfc_worker->callback); bool card_found_notified = true; bool card_removed_notified = false; MfClassicData* data = &nfc_worker->dev_data->mf_classic_data; NfcMfClassicDictAttackData* dict_attack_data = &nfc_worker->dev_data->mf_classic_dict_attack_data; uint32_t total_sectors = mf_classic_get_total_sectors_num(data->type); furi_assert(start_sector < total_sectors); nfc_worker->callback(NfcWorkerEventKeyAttackStart, nfc_worker->context); // Check every sector's A and B keys with the given key for(size_t i = start_sector; i < total_sectors; i++) { nfc_worker->callback(NfcWorkerEventKeyAttackNextSector, nfc_worker->context); dict_attack_data->current_sector = i; furi_hal_nfc_sleep(); if(furi_hal_nfc_activate_nfca(200, NULL)) { furi_hal_nfc_sleep(); if(!card_found_notified) { nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); card_found_notified = true; card_removed_notified = false; } uint8_t block_num = mf_classic_get_sector_trailer_block_num_by_sector(i); if(mf_classic_is_sector_read(data, i)) continue; if(!mf_classic_is_key_found(data, i, MfClassicKeyA)) { FURI_LOG_D( TAG, "Trying A key for sector %d, key: %04lx%08lx", i, (uint32_t)(key >> 32), (uint32_t)key); if(mf_classic_authenticate(tx_rx, block_num, key, MfClassicKeyA)) { mf_classic_set_key_found(data, i, MfClassicKeyA, key); FURI_LOG_D( TAG, "Key A found: %04lx%08lx", (uint32_t)(key >> 32), (uint32_t)key); nfc_worker->callback(NfcWorkerEventFoundKeyA, nfc_worker->context); uint64_t found_key; if(nfc_worker_mf_get_b_key_from_sector_trailer(tx_rx, i, key, &found_key)) { FURI_LOG_D(TAG, "Found B key via reading sector %d", i); mf_classic_set_key_found(data, i, MfClassicKeyB, found_key); if(nfc_worker->state == NfcWorkerStateMfClassicDictAttack) { nfc_worker->callback(NfcWorkerEventFoundKeyB, nfc_worker->context); } } } } if(!mf_classic_is_key_found(data, i, MfClassicKeyB)) { FURI_LOG_D( TAG, "Trying B key for sector %d, key: %04lx%08lx", i, (uint32_t)(key >> 32), (uint32_t)key); if(mf_classic_authenticate(tx_rx, block_num, key, MfClassicKeyB)) { mf_classic_set_key_found(data, i, MfClassicKeyB, key); FURI_LOG_D( TAG, "Key B found: %04lx%08lx", (uint32_t)(key >> 32), (uint32_t)key); nfc_worker->callback(NfcWorkerEventFoundKeyB, nfc_worker->context); } } if(mf_classic_is_sector_read(data, i)) continue; mf_classic_read_sector(tx_rx, data, i); } else { if(!card_removed_notified) { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); card_removed_notified = true; card_found_notified = false; } } if(nfc_worker->state != NfcWorkerStateMfClassicDictAttack) break; } nfc_worker->callback(NfcWorkerEventKeyAttackStop, nfc_worker->context); } void nfc_worker_mf_classic_dict_attack(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_assert(nfc_worker->callback); MfClassicData* data = &nfc_worker->dev_data->mf_classic_data; NfcMfClassicDictAttackData* dict_attack_data = &nfc_worker->dev_data->mf_classic_dict_attack_data; uint32_t total_sectors = mf_classic_get_total_sectors_num(data->type); uint64_t key = 0; uint64_t prev_key = 0; FuriHalNfcTxRxContext tx_rx = {}; bool card_found_notified = true; bool card_removed_notified = false; // Load dictionary MfClassicDict* dict = dict_attack_data->dict; if(!dict) { FURI_LOG_E(TAG, "Dictionary not found"); nfc_worker->callback(NfcWorkerEventNoDictFound, nfc_worker->context); return; } FURI_LOG_D( TAG, "Start Dictionary attack, Key Count %lu", mf_classic_dict_get_total_keys(dict)); for(size_t i = 0; i < total_sectors; i++) { FURI_LOG_I(TAG, "Sector %d", i); nfc_worker->callback(NfcWorkerEventNewSector, nfc_worker->context); uint8_t block_num = mf_classic_get_sector_trailer_block_num_by_sector(i); if(mf_classic_is_sector_read(data, i)) continue; bool is_key_a_found = mf_classic_is_key_found(data, i, MfClassicKeyA); bool is_key_b_found = mf_classic_is_key_found(data, i, MfClassicKeyB); uint16_t key_index = 0; while(mf_classic_dict_get_next_key(dict, &key)) { FURI_LOG_T(TAG, "Key %d", key_index); if(++key_index % NFC_DICT_KEY_BATCH_SIZE == 0) { nfc_worker->callback(NfcWorkerEventNewDictKeyBatch, nfc_worker->context); } furi_hal_nfc_sleep(); uint32_t cuid; if(furi_hal_nfc_activate_nfca(200, &cuid)) { bool deactivated = false; if(!card_found_notified) { nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); card_found_notified = true; card_removed_notified = false; nfc_worker_mf_classic_key_attack(nfc_worker, prev_key, &tx_rx, i); deactivated = true; } FURI_LOG_D( TAG, "Try to auth to sector %d with key %04lx%08lx", i, (uint32_t)(key >> 32), (uint32_t)key); if(!is_key_a_found) { is_key_a_found = mf_classic_is_key_found(data, i, MfClassicKeyA); if(mf_classic_authenticate_skip_activate( &tx_rx, block_num, key, MfClassicKeyA, !deactivated, cuid)) { mf_classic_set_key_found(data, i, MfClassicKeyA, key); FURI_LOG_D( TAG, "Key A found: %04lx%08lx", (uint32_t)(key >> 32), (uint32_t)key); nfc_worker->callback(NfcWorkerEventFoundKeyA, nfc_worker->context); uint64_t found_key; if(nfc_worker_mf_get_b_key_from_sector_trailer( &tx_rx, i, key, &found_key)) { FURI_LOG_D(TAG, "Found B key via reading sector %d", i); mf_classic_set_key_found(data, i, MfClassicKeyB, found_key); if(nfc_worker->state == NfcWorkerStateMfClassicDictAttack) { nfc_worker->callback(NfcWorkerEventFoundKeyB, nfc_worker->context); } nfc_worker_mf_classic_key_attack(nfc_worker, found_key, &tx_rx, i + 1); break; } nfc_worker_mf_classic_key_attack(nfc_worker, key, &tx_rx, i + 1); } furi_hal_nfc_sleep(); deactivated = true; } else { // If the key A is marked as found and matches the searching key, invalidate it uint8_t found_key[6]; memcpy(found_key, data->block[i].value, 6); uint8_t current_key[6]; memcpy(current_key, &key, 6); if(mf_classic_is_key_found(data, i, MfClassicKeyA) && found_key == current_key) { mf_classic_set_key_not_found(data, i, MfClassicKeyA); is_key_a_found = false; FURI_LOG_D(TAG, "Key %dA not found in attack", i); } } if(!is_key_b_found) { is_key_b_found = mf_classic_is_key_found(data, i, MfClassicKeyB); if(mf_classic_authenticate_skip_activate( &tx_rx, block_num, key, MfClassicKeyB, !deactivated, cuid)) { FURI_LOG_D( TAG, "Key B found: %04lx%08lx", (uint32_t)(key >> 32), (uint32_t)key); mf_classic_set_key_found(data, i, MfClassicKeyB, key); nfc_worker->callback(NfcWorkerEventFoundKeyB, nfc_worker->context); nfc_worker_mf_classic_key_attack(nfc_worker, key, &tx_rx, i + 1); } deactivated = true; } else { // If the key B is marked as found and matches the searching key, invalidate it uint8_t found_key[6]; memcpy(found_key, data->block[i].value + 10, 6); uint8_t current_key[6]; memcpy(current_key, &key, 6); if(mf_classic_is_key_found(data, i, MfClassicKeyB) && found_key == current_key) { mf_classic_set_key_not_found(data, i, MfClassicKeyB); is_key_b_found = false; FURI_LOG_D(TAG, "Key %dB not found in attack", i); } } if(is_key_a_found && is_key_b_found) break; if(nfc_worker->state != NfcWorkerStateMfClassicDictAttack) break; } else { if(!card_removed_notified) { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); card_removed_notified = true; card_found_notified = false; } if(nfc_worker->state != NfcWorkerStateMfClassicDictAttack) break; } memcpy(&prev_key, &key, sizeof(key)); } if(nfc_worker->state != NfcWorkerStateMfClassicDictAttack) break; mf_classic_read_sector(&tx_rx, data, i); mf_classic_dict_rewind(dict); } if(nfc_worker->state == NfcWorkerStateMfClassicDictAttack) { nfc_worker->callback(NfcWorkerEventSuccess, nfc_worker->context); } else { nfc_worker->callback(NfcWorkerEventAborted, nfc_worker->context); } } void nfc_worker_emulate_mf_classic(NfcWorker* nfc_worker) { FuriHalNfcTxRxContext tx_rx = {}; FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; MfClassicEmulator emulator = { .cuid = nfc_util_bytes2num(&nfc_data->uid[nfc_data->uid_len - 4], 4), .data = nfc_worker->dev_data->mf_classic_data, .data_changed = false, }; NfcaSignal* nfca_signal = nfca_signal_alloc(); tx_rx.nfca_signal = nfca_signal; rfal_platform_spi_acquire(); furi_hal_nfc_listen_start(nfc_data); while(nfc_worker->state == NfcWorkerStateMfClassicEmulate) { //-V1044 if(furi_hal_nfc_listen_rx(&tx_rx, 300)) { mf_classic_emulator(&emulator, &tx_rx); } } if(emulator.data_changed) { nfc_worker->dev_data->mf_classic_data = emulator.data; if(nfc_worker->callback) { nfc_worker->callback(NfcWorkerEventSuccess, nfc_worker->context); } emulator.data_changed = false; } nfca_signal_free(nfca_signal); rfal_platform_spi_release(); } void nfc_worker_write_mf_classic(NfcWorker* nfc_worker) { FuriHalNfcTxRxContext tx_rx = {}; bool card_found_notified = false; FuriHalNfcDevData nfc_data = {}; MfClassicData* src_data = &nfc_worker->dev_data->mf_classic_data; MfClassicData dest_data = *src_data; while(nfc_worker->state == NfcWorkerStateMfClassicWrite) { if(furi_hal_nfc_detect(&nfc_data, 200)) { if(!card_found_notified) { nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); card_found_notified = true; } furi_hal_nfc_sleep(); FURI_LOG_I(TAG, "Check low level nfc data"); if(memcmp(&nfc_data, &nfc_worker->dev_data->nfc_data, sizeof(FuriHalNfcDevData)) != 0) { FURI_LOG_E(TAG, "Wrong card"); nfc_worker->callback(NfcWorkerEventWrongCard, nfc_worker->context); break; } FURI_LOG_I(TAG, "Check mf classic type"); MfClassicType type = mf_classic_get_classic_type(nfc_data.atqa[0], nfc_data.atqa[1], nfc_data.sak); if(type != nfc_worker->dev_data->mf_classic_data.type) { FURI_LOG_E(TAG, "Wrong mf classic type"); nfc_worker->callback(NfcWorkerEventWrongCard, nfc_worker->context); break; } // Set blocks not read mf_classic_set_sector_data_not_read(&dest_data); FURI_LOG_I(TAG, "Updating card sectors"); uint8_t total_sectors = mf_classic_get_total_sectors_num(type); bool write_success = true; for(uint8_t i = 0; i < total_sectors; i++) { FURI_LOG_I(TAG, "Reading sector %d", i); mf_classic_read_sector(&tx_rx, &dest_data, i); bool old_data_read = mf_classic_is_sector_data_read(src_data, i); bool new_data_read = mf_classic_is_sector_data_read(&dest_data, i); if(old_data_read != new_data_read) { FURI_LOG_E(TAG, "Failed to update sector %d", i); write_success = false; break; } if(nfc_worker->state != NfcWorkerStateMfClassicWrite) break; if(!mf_classic_write_sector(&tx_rx, &dest_data, src_data, i)) { FURI_LOG_E(TAG, "Failed to write %d sector", i); write_success = false; break; } } if(nfc_worker->state != NfcWorkerStateMfClassicWrite) break; if(write_success) { nfc_worker->callback(NfcWorkerEventSuccess, nfc_worker->context); break; } else { nfc_worker->callback(NfcWorkerEventFail, nfc_worker->context); break; } } else { if(card_found_notified) { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); card_found_notified = false; } } furi_delay_ms(300); } } void nfc_worker_update_mf_classic(NfcWorker* nfc_worker) { FuriHalNfcTxRxContext tx_rx = {}; bool card_found_notified = false; FuriHalNfcDevData nfc_data = {}; MfClassicData* old_data = &nfc_worker->dev_data->mf_classic_data; MfClassicData new_data = *old_data; while(nfc_worker->state == NfcWorkerStateMfClassicUpdate) { if(furi_hal_nfc_detect(&nfc_data, 200)) { if(!card_found_notified) { nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); card_found_notified = true; } furi_hal_nfc_sleep(); FURI_LOG_I(TAG, "Check low level nfc data"); if(memcmp(&nfc_data, &nfc_worker->dev_data->nfc_data, sizeof(FuriHalNfcDevData)) != 0) { FURI_LOG_E(TAG, "Low level nfc data mismatch"); nfc_worker->callback(NfcWorkerEventWrongCard, nfc_worker->context); break; } FURI_LOG_I(TAG, "Check MF classic type"); MfClassicType type = mf_classic_get_classic_type(nfc_data.atqa[0], nfc_data.atqa[1], nfc_data.sak); if(type != nfc_worker->dev_data->mf_classic_data.type) { FURI_LOG_E(TAG, "MF classic type mismatch"); nfc_worker->callback(NfcWorkerEventWrongCard, nfc_worker->context); break; } // Set blocks not read mf_classic_set_sector_data_not_read(&new_data); FURI_LOG_I(TAG, "Updating card sectors"); uint8_t total_sectors = mf_classic_get_total_sectors_num(type); bool update_success = true; for(uint8_t i = 0; i < total_sectors; i++) { FURI_LOG_I(TAG, "Reading sector %d", i); mf_classic_read_sector(&tx_rx, &new_data, i); bool old_data_read = mf_classic_is_sector_data_read(old_data, i); bool new_data_read = mf_classic_is_sector_data_read(&new_data, i); if(old_data_read != new_data_read) { FURI_LOG_E(TAG, "Failed to update sector %d", i); update_success = false; break; } if(nfc_worker->state != NfcWorkerStateMfClassicUpdate) break; } if(nfc_worker->state != NfcWorkerStateMfClassicUpdate) break; // Check updated data if(update_success) { *old_data = new_data; nfc_worker->callback(NfcWorkerEventSuccess, nfc_worker->context); break; } } else { if(card_found_notified) { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); card_found_notified = false; } } furi_delay_ms(300); } } void nfc_worker_mf_ultralight_read_auth(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_assert(nfc_worker->callback); MfUltralightData* data = &nfc_worker->dev_data->mf_ul_data; FuriHalNfcDevData* nfc_data = &nfc_worker->dev_data->nfc_data; FuriHalNfcTxRxContext tx_rx = {}; MfUltralightReader reader = {}; mf_ul_reset(data); if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_prepare_tx_rx(nfc_worker->reader_analyzer, &tx_rx, true); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeDebugLog); } uint32_t key = 0; uint16_t pack = 0; while(nfc_worker->state == NfcWorkerStateReadMfUltralightReadAuth) { furi_hal_nfc_sleep(); if(furi_hal_nfc_detect(nfc_data, 300) && nfc_data->type == FuriHalNfcTypeA) { if(mf_ul_check_card_type(nfc_data->atqa[0], nfc_data->atqa[1], nfc_data->sak)) { nfc_worker->callback(NfcWorkerEventCardDetected, nfc_worker->context); if(data->auth_method == MfUltralightAuthMethodManual || data->auth_method == MfUltralightAuthMethodAuto) { nfc_worker->callback(NfcWorkerEventMfUltralightPassKey, nfc_worker->context); key = nfc_util_bytes2num(data->auth_key, 4); } else if(data->auth_method == MfUltralightAuthMethodAmeebo) { key = mf_ul_pwdgen_amiibo(nfc_data); } else if(data->auth_method == MfUltralightAuthMethodXiaomi) { key = mf_ul_pwdgen_xiaomi(nfc_data); } else { FURI_LOG_E(TAG, "Incorrect auth method"); break; } data->auth_success = mf_ultralight_authenticate(&tx_rx, key, &pack); if(!data->auth_success) { // Reset card furi_hal_nfc_sleep(); if(!furi_hal_nfc_activate_nfca(300, NULL)) { nfc_worker->callback(NfcWorkerEventFail, nfc_worker->context); break; } } mf_ul_read_card(&tx_rx, &reader, data); if(data->auth_success) { MfUltralightConfigPages* config_pages = mf_ultralight_get_config_pages(data); if(config_pages != NULL) { config_pages->auth_data.pwd.value = REVERSE_BYTES_U32(key); config_pages->auth_data.pack.value = pack; } nfc_worker->callback(NfcWorkerEventSuccess, nfc_worker->context); break; } else { nfc_worker->callback(NfcWorkerEventFail, nfc_worker->context); break; } } else { nfc_worker->callback(NfcWorkerEventWrongCardDetected, nfc_worker->context); furi_delay_ms(10); } } else { nfc_worker->callback(NfcWorkerEventNoCardDetected, nfc_worker->context); furi_delay_ms(10); } } if(furi_hal_rtc_is_flag_set(FuriHalRtcFlagDebug)) { reader_analyzer_stop(nfc_worker->reader_analyzer); } } static void nfc_worker_reader_analyzer_callback(ReaderAnalyzerEvent event, void* context) { furi_assert(context); NfcWorker* nfc_worker = context; if((nfc_worker->state == NfcWorkerStateAnalyzeReader) && (event == ReaderAnalyzerEventMfkeyCollected)) { if(nfc_worker->callback) { nfc_worker->callback(NfcWorkerEventDetectReaderMfkeyCollected, nfc_worker->context); } } } void nfc_worker_analyze_reader(NfcWorker* nfc_worker) { furi_assert(nfc_worker); furi_assert(nfc_worker->callback); FuriHalNfcTxRxContext tx_rx = {}; ReaderAnalyzer* reader_analyzer = nfc_worker->reader_analyzer; FuriHalNfcDevData* nfc_data = NULL; if(nfc_worker->dev_data->protocol == NfcDeviceProtocolMifareClassic) { nfc_data = &nfc_worker->dev_data->nfc_data; reader_analyzer_set_nfc_data(reader_analyzer, nfc_data); } else { nfc_data = reader_analyzer_get_nfc_data(reader_analyzer); } MfClassicEmulator emulator = { .cuid = nfc_util_bytes2num(&nfc_data->uid[nfc_data->uid_len - 4], 4), .data = nfc_worker->dev_data->mf_classic_data, .data_changed = false, }; NfcaSignal* nfca_signal = nfca_signal_alloc(); tx_rx.nfca_signal = nfca_signal; reader_analyzer_prepare_tx_rx(reader_analyzer, &tx_rx, true); reader_analyzer_start(nfc_worker->reader_analyzer, ReaderAnalyzerModeMfkey); reader_analyzer_set_callback(reader_analyzer, nfc_worker_reader_analyzer_callback, nfc_worker); rfal_platform_spi_acquire(); FURI_LOG_D(TAG, "Start reader analyzer"); uint8_t reader_no_data_received_cnt = 0; bool reader_no_data_notified = true; while(nfc_worker->state == NfcWorkerStateAnalyzeReader) { furi_hal_nfc_stop_cmd(); furi_delay_ms(5); furi_hal_nfc_listen_start(nfc_data); if(furi_hal_nfc_listen_rx(&tx_rx, 300)) { if(reader_no_data_notified) { nfc_worker->callback(NfcWorkerEventDetectReaderDetected, nfc_worker->context); } reader_no_data_received_cnt = 0; reader_no_data_notified = false; NfcProtocol protocol = reader_analyzer_guess_protocol(reader_analyzer, tx_rx.rx_data, tx_rx.rx_bits / 8); if(protocol == NfcDeviceProtocolMifareClassic) { mf_classic_emulator(&emulator, &tx_rx); } } else { reader_no_data_received_cnt++; if(!reader_no_data_notified && (reader_no_data_received_cnt > 5)) { nfc_worker->callback(NfcWorkerEventDetectReaderLost, nfc_worker->context); reader_no_data_received_cnt = 0; reader_no_data_notified = true; } FURI_LOG_D(TAG, "No data from reader"); continue; } } rfal_platform_spi_release(); reader_analyzer_stop(nfc_worker->reader_analyzer); nfca_signal_free(nfca_signal); }