#ifndef FW_CFG_unit_tests #include "nfc.h" #include #include #define TAG "Nfc" #define NFC_MAX_BUFFER_SIZE (256) typedef enum { NfcStateIdle, NfcStateRunning, } NfcState; typedef enum { NfcPollerStateStart, NfcPollerStateReady, NfcPollerStateReset, NfcPollerStateStop, NfcPollerStateNum, } NfcPollerState; typedef enum { NfcCommStateIdle, NfcCommStateWaitBlockTxTimer, NfcCommStateReadyTx, NfcCommStateWaitTxEnd, NfcCommStateWaitRxStart, NfcCommStateWaitRxEnd, NfcCommStateFailed, } NfcCommState; typedef enum { NfcConfigurationStateIdle, NfcConfigurationStateDone, } NfcConfigurationState; struct Nfc { NfcState state; NfcPollerState poller_state; NfcCommState comm_state; NfcConfigurationState config_state; NfcMode mode; uint32_t fdt_listen_fc; uint32_t mask_rx_time_fc; uint32_t fdt_poll_fc; uint32_t fdt_poll_poll_us; uint32_t guard_time_us; NfcEventCallback callback; void* context; uint8_t tx_buffer[NFC_MAX_BUFFER_SIZE]; size_t tx_bits; uint8_t rx_buffer[NFC_MAX_BUFFER_SIZE]; size_t rx_bits; FuriThread* worker_thread; }; typedef bool (*NfcWorkerPollerStateHandler)(Nfc* instance); static const FuriHalNfcTech nfc_tech_table[NfcModeNum][NfcTechNum] = { [NfcModePoller] = { [NfcTechIso14443a] = FuriHalNfcTechIso14443a, [NfcTechIso14443b] = FuriHalNfcTechIso14443b, [NfcTechIso15693] = FuriHalNfcTechIso15693, [NfcTechFelica] = FuriHalNfcTechFelica, }, [NfcModeListener] = { [NfcTechIso14443a] = FuriHalNfcTechIso14443a, [NfcTechIso14443b] = FuriHalNfcTechInvalid, [NfcTechIso15693] = FuriHalNfcTechIso15693, [NfcTechFelica] = FuriHalNfcTechFelica, }, }; static NfcError nfc_process_hal_error(FuriHalNfcError error) { NfcError ret = NfcErrorNone; switch(error) { case FuriHalNfcErrorNone: ret = NfcErrorNone; break; case FuriHalNfcErrorIncompleteFrame: ret = NfcErrorIncompleteFrame; break; case FuriHalNfcErrorDataFormat: ret = NfcErrorDataFormat; break; default: ret = NfcErrorInternal; } return ret; } static int32_t nfc_worker_listener(void* context) { furi_assert(context); Nfc* instance = context; furi_assert(instance->callback); furi_assert(instance->config_state == NfcConfigurationStateDone); instance->state = NfcStateRunning; furi_hal_nfc_event_start(); NfcEventData event_data = {}; event_data.buffer = bit_buffer_alloc(NFC_MAX_BUFFER_SIZE); NfcEvent nfc_event = {.data = event_data}; NfcCommand command = NfcCommandContinue; while(true) { FuriHalNfcEvent event = furi_hal_nfc_listener_wait_event(FURI_HAL_NFC_EVENT_WAIT_FOREVER); if(event & FuriHalNfcEventAbortRequest) { nfc_event.type = NfcEventTypeUserAbort; instance->callback(nfc_event, instance->context); break; } if(event & FuriHalNfcEventFieldOn) { nfc_event.type = NfcEventTypeFieldOn; instance->callback(nfc_event, instance->context); } if(event & FuriHalNfcEventFieldOff) { nfc_event.type = NfcEventTypeFieldOff; instance->callback(nfc_event, instance->context); furi_hal_nfc_listener_idle(); } if(event & FuriHalNfcEventListenerActive) { nfc_event.type = NfcEventTypeListenerActivated; instance->callback(nfc_event, instance->context); } if(event & FuriHalNfcEventRxEnd) { furi_hal_nfc_timer_block_tx_start(instance->fdt_listen_fc); nfc_event.type = NfcEventTypeRxEnd; furi_hal_nfc_listener_rx( instance->rx_buffer, sizeof(instance->rx_buffer), &instance->rx_bits); bit_buffer_copy_bits(event_data.buffer, instance->rx_buffer, instance->rx_bits); command = instance->callback(nfc_event, instance->context); if(command == NfcCommandStop) { break; } else if(command == NfcCommandReset) { furi_hal_nfc_listener_enable_rx(); } else if(command == NfcCommandSleep) { furi_hal_nfc_listener_idle(); } } } furi_hal_nfc_reset_mode(); instance->config_state = NfcConfigurationStateIdle; bit_buffer_free(event_data.buffer); furi_hal_nfc_low_power_mode_start(); return 0; } bool nfc_worker_poller_start_handler(Nfc* instance) { furi_hal_nfc_poller_field_on(); if(instance->guard_time_us) { furi_hal_nfc_timer_block_tx_start_us(instance->guard_time_us); FuriHalNfcEvent event = furi_hal_nfc_poller_wait_event(FURI_HAL_NFC_EVENT_WAIT_FOREVER); furi_assert(event & FuriHalNfcEventTimerBlockTxExpired); } instance->poller_state = NfcPollerStateReady; return false; } bool nfc_worker_poller_ready_handler(Nfc* instance) { NfcCommand command = NfcCommandContinue; NfcEvent event = {.type = NfcEventTypePollerReady}; command = instance->callback(event, instance->context); if(command == NfcCommandReset) { instance->poller_state = NfcPollerStateReset; } else if(command == NfcCommandStop) { instance->poller_state = NfcPollerStateStop; } return false; } bool nfc_worker_poller_reset_handler(Nfc* instance) { furi_hal_nfc_low_power_mode_start(); furi_delay_ms(100); furi_hal_nfc_low_power_mode_stop(); instance->poller_state = NfcPollerStateStart; return false; } bool nfc_worker_poller_stop_handler(Nfc* instance) { furi_hal_nfc_reset_mode(); instance->config_state = NfcConfigurationStateIdle; furi_hal_nfc_low_power_mode_start(); // Wait after field is off some time to reset tag power furi_delay_ms(10); instance->poller_state = NfcPollerStateStart; return true; } static const NfcWorkerPollerStateHandler nfc_worker_poller_state_handlers[NfcPollerStateNum] = { [NfcPollerStateStart] = nfc_worker_poller_start_handler, [NfcPollerStateReady] = nfc_worker_poller_ready_handler, [NfcPollerStateReset] = nfc_worker_poller_reset_handler, [NfcPollerStateStop] = nfc_worker_poller_stop_handler, }; static int32_t nfc_worker_poller(void* context) { furi_assert(context); Nfc* instance = context; furi_assert(instance->callback); instance->state = NfcStateRunning; instance->poller_state = NfcPollerStateStart; furi_hal_nfc_event_start(); bool exit = false; while(!exit) { exit = nfc_worker_poller_state_handlers[instance->poller_state](instance); } return 0; } Nfc* nfc_alloc() { furi_check(furi_hal_nfc_acquire() == FuriHalNfcErrorNone); Nfc* instance = malloc(sizeof(Nfc)); instance->state = NfcStateIdle; instance->comm_state = NfcCommStateIdle; instance->config_state = NfcConfigurationStateIdle; instance->worker_thread = furi_thread_alloc(); furi_thread_set_name(instance->worker_thread, "NfcWorker"); furi_thread_set_context(instance->worker_thread, instance); furi_thread_set_priority(instance->worker_thread, FuriThreadPriorityHighest); furi_thread_set_stack_size(instance->worker_thread, 8 * 1024); return instance; } void nfc_free(Nfc* instance) { furi_assert(instance); furi_assert(instance->state == NfcStateIdle); furi_thread_free(instance->worker_thread); free(instance); furi_hal_nfc_release(); } void nfc_config(Nfc* instance, NfcMode mode, NfcTech tech) { furi_assert(instance); furi_assert(mode < NfcModeNum); furi_assert(tech < NfcTechNum); furi_assert(instance->config_state == NfcConfigurationStateIdle); FuriHalNfcTech hal_tech = nfc_tech_table[mode][tech]; if(hal_tech == FuriHalNfcTechInvalid) { furi_crash("Unsupported mode for given tech"); } FuriHalNfcMode hal_mode = (mode == NfcModePoller) ? FuriHalNfcModePoller : FuriHalNfcModeListener; furi_hal_nfc_low_power_mode_stop(); furi_hal_nfc_set_mode(hal_mode, hal_tech); instance->mode = mode; instance->config_state = NfcConfigurationStateDone; } void nfc_set_fdt_poll_fc(Nfc* instance, uint32_t fdt_poll_fc) { furi_assert(instance); instance->fdt_poll_fc = fdt_poll_fc; } void nfc_set_fdt_listen_fc(Nfc* instance, uint32_t fdt_listen_fc) { furi_assert(instance); instance->fdt_listen_fc = fdt_listen_fc; } void nfc_set_fdt_poll_poll_us(Nfc* instance, uint32_t fdt_poll_poll_us) { furi_assert(instance); instance->fdt_poll_poll_us = fdt_poll_poll_us; } void nfc_set_guard_time_us(Nfc* instance, uint32_t guard_time_us) { furi_assert(instance); instance->guard_time_us = guard_time_us; } void nfc_set_mask_receive_time_fc(Nfc* instance, uint32_t mask_rx_time_fc) { furi_assert(instance); instance->mask_rx_time_fc = mask_rx_time_fc; } void nfc_start(Nfc* instance, NfcEventCallback callback, void* context) { furi_assert(instance); furi_assert(instance->worker_thread); furi_assert(callback); furi_assert(instance->config_state == NfcConfigurationStateDone); instance->callback = callback; instance->context = context; if(instance->mode == NfcModePoller) { furi_thread_set_callback(instance->worker_thread, nfc_worker_poller); } else { furi_thread_set_callback(instance->worker_thread, nfc_worker_listener); } instance->comm_state = NfcCommStateIdle; furi_thread_start(instance->worker_thread); } void nfc_stop(Nfc* instance) { furi_assert(instance); furi_assert(instance->state == NfcStateRunning); if(instance->mode == NfcModeListener) { furi_hal_nfc_abort(); } furi_thread_join(instance->worker_thread); instance->state = NfcStateIdle; } NfcError nfc_listener_tx(Nfc* instance, const BitBuffer* tx_buffer) { furi_assert(instance); furi_assert(tx_buffer); NfcError ret = NfcErrorNone; while(furi_hal_nfc_timer_block_tx_is_running()) { } FuriHalNfcError error = furi_hal_nfc_listener_tx(bit_buffer_get_data(tx_buffer), bit_buffer_get_size(tx_buffer)); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in listener TX"); ret = nfc_process_hal_error(error); } return ret; } static NfcError nfc_poller_trx_state_machine(Nfc* instance, uint32_t fwt_fc) { FuriHalNfcEvent event = 0; NfcError error = NfcErrorNone; while(true) { event = furi_hal_nfc_poller_wait_event(FURI_HAL_NFC_EVENT_WAIT_FOREVER); if(event & FuriHalNfcEventTimerBlockTxExpired) { if(instance->comm_state == NfcCommStateWaitBlockTxTimer) { instance->comm_state = NfcCommStateReadyTx; } } if(event & FuriHalNfcEventTxEnd) { if(instance->comm_state == NfcCommStateWaitTxEnd) { if(fwt_fc) { furi_hal_nfc_timer_fwt_start(fwt_fc); } furi_hal_nfc_timer_block_tx_start_us(instance->fdt_poll_poll_us); instance->comm_state = NfcCommStateWaitRxStart; } } if(event & FuriHalNfcEventRxStart) { if(instance->comm_state == NfcCommStateWaitRxStart) { furi_hal_nfc_timer_block_tx_stop(); furi_hal_nfc_timer_fwt_stop(); instance->comm_state = NfcCommStateWaitRxEnd; } } if(event & FuriHalNfcEventRxEnd) { furi_hal_nfc_timer_block_tx_start(instance->fdt_poll_fc); furi_hal_nfc_timer_fwt_stop(); instance->comm_state = NfcCommStateWaitBlockTxTimer; break; } if(event & FuriHalNfcEventTimerFwtExpired) { if(instance->comm_state == NfcCommStateWaitRxStart) { error = NfcErrorTimeout; FURI_LOG_D(TAG, "FWT Timeout"); if(furi_hal_nfc_timer_block_tx_is_running()) { instance->comm_state = NfcCommStateWaitBlockTxTimer; } else { instance->comm_state = NfcCommStateReadyTx; } break; } } } return error; } NfcError nfc_iso14443a_poller_trx_custom_parity( Nfc* instance, const BitBuffer* tx_buffer, BitBuffer* rx_buffer, uint32_t fwt) { furi_assert(instance); furi_assert(tx_buffer); furi_assert(rx_buffer); furi_assert(instance->poller_state == NfcPollerStateReady); NfcError ret = NfcErrorNone; FuriHalNfcError error = FuriHalNfcErrorNone; do { furi_hal_nfc_trx_reset(); while(furi_hal_nfc_timer_block_tx_is_running()) { FuriHalNfcEvent event = furi_hal_nfc_poller_wait_event(FURI_HAL_NFC_EVENT_WAIT_FOREVER); if(event & FuriHalNfcEventTimerBlockTxExpired) break; } bit_buffer_write_bytes_with_parity( tx_buffer, instance->tx_buffer, sizeof(instance->tx_buffer), &instance->tx_bits); error = furi_hal_nfc_iso14443a_poller_tx_custom_parity(instance->tx_buffer, instance->tx_bits); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller TX"); ret = nfc_process_hal_error(error); break; } instance->comm_state = NfcCommStateWaitTxEnd; ret = nfc_poller_trx_state_machine(instance, fwt); if(ret != NfcErrorNone) { FURI_LOG_T(TAG, "Failed TRX state machine"); break; } error = furi_hal_nfc_poller_rx( instance->rx_buffer, sizeof(instance->rx_buffer), &instance->rx_bits); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller RX"); ret = nfc_process_hal_error(error); break; } if(instance->rx_bits >= 9) { if((instance->rx_bits % 9) != 0) { ret = NfcErrorDataFormat; break; } } bit_buffer_copy_bytes_with_parity(rx_buffer, instance->rx_buffer, instance->rx_bits); } while(false); return ret; } NfcError nfc_poller_trx(Nfc* instance, const BitBuffer* tx_buffer, BitBuffer* rx_buffer, uint32_t fwt) { furi_assert(instance); furi_assert(tx_buffer); furi_assert(rx_buffer); furi_assert(instance->poller_state == NfcPollerStateReady); NfcError ret = NfcErrorNone; FuriHalNfcError error = FuriHalNfcErrorNone; do { furi_hal_nfc_trx_reset(); while(furi_hal_nfc_timer_block_tx_is_running()) { FuriHalNfcEvent event = furi_hal_nfc_poller_wait_event(FURI_HAL_NFC_EVENT_WAIT_FOREVER); if(event & FuriHalNfcEventTimerBlockTxExpired) break; } error = furi_hal_nfc_poller_tx(bit_buffer_get_data(tx_buffer), bit_buffer_get_size(tx_buffer)); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller TX"); ret = nfc_process_hal_error(error); break; } instance->comm_state = NfcCommStateWaitTxEnd; ret = nfc_poller_trx_state_machine(instance, fwt); if(ret != NfcErrorNone) { FURI_LOG_T(TAG, "Failed TRX state machine"); break; } error = furi_hal_nfc_poller_rx( instance->rx_buffer, sizeof(instance->rx_buffer), &instance->rx_bits); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller RX"); ret = nfc_process_hal_error(error); break; } bit_buffer_copy_bits(rx_buffer, instance->rx_buffer, instance->rx_bits); } while(false); return ret; } NfcError nfc_iso14443a_listener_set_col_res_data( Nfc* instance, uint8_t* uid, uint8_t uid_len, uint8_t* atqa, uint8_t sak) { furi_assert(instance); FuriHalNfcError error = furi_hal_nfc_iso14443a_listener_set_col_res_data(uid, uid_len, atqa, sak); instance->comm_state = NfcCommStateIdle; return nfc_process_hal_error(error); } NfcError nfc_iso14443a_poller_trx_short_frame( Nfc* instance, NfcIso14443aShortFrame frame, BitBuffer* rx_buffer, uint32_t fwt) { furi_assert(instance); furi_assert(rx_buffer); FuriHalNfcaShortFrame short_frame = (frame == NfcIso14443aShortFrameAllReqa) ? FuriHalNfcaShortFrameAllReq : FuriHalNfcaShortFrameSensReq; furi_assert(instance->poller_state == NfcPollerStateReady); NfcError ret = NfcErrorNone; FuriHalNfcError error = FuriHalNfcErrorNone; do { furi_hal_nfc_trx_reset(); while(furi_hal_nfc_timer_block_tx_is_running()) { FuriHalNfcEvent event = furi_hal_nfc_poller_wait_event(FURI_HAL_NFC_EVENT_WAIT_FOREVER); if(event & FuriHalNfcEventTimerBlockTxExpired) break; } error = furi_hal_nfc_iso14443a_poller_trx_short_frame(short_frame); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller TX"); ret = nfc_process_hal_error(error); break; } instance->comm_state = NfcCommStateWaitTxEnd; ret = nfc_poller_trx_state_machine(instance, fwt); if(ret != NfcErrorNone) { FURI_LOG_T(TAG, "Failed TRX state machine"); break; } error = furi_hal_nfc_poller_rx( instance->rx_buffer, sizeof(instance->rx_buffer), &instance->rx_bits); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller RX"); ret = nfc_process_hal_error(error); break; } bit_buffer_copy_bits(rx_buffer, instance->rx_buffer, instance->rx_bits); } while(false); return ret; } NfcError nfc_iso14443a_poller_trx_sdd_frame( Nfc* instance, const BitBuffer* tx_buffer, BitBuffer* rx_buffer, uint32_t fwt) { furi_assert(instance); furi_assert(tx_buffer); furi_assert(rx_buffer); furi_assert(instance->poller_state == NfcPollerStateReady); NfcError ret = NfcErrorNone; FuriHalNfcError error = FuriHalNfcErrorNone; do { furi_hal_nfc_trx_reset(); while(furi_hal_nfc_timer_block_tx_is_running()) { FuriHalNfcEvent event = furi_hal_nfc_poller_wait_event(FURI_HAL_NFC_EVENT_WAIT_FOREVER); if(event & FuriHalNfcEventTimerBlockTxExpired) break; } error = furi_hal_nfc_iso14443a_tx_sdd_frame( bit_buffer_get_data(tx_buffer), bit_buffer_get_size(tx_buffer)); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller TX"); ret = nfc_process_hal_error(error); break; } instance->comm_state = NfcCommStateWaitTxEnd; ret = nfc_poller_trx_state_machine(instance, fwt); if(ret != NfcErrorNone) { FURI_LOG_T(TAG, "Failed TRX state machine"); break; } error = furi_hal_nfc_poller_rx( instance->rx_buffer, sizeof(instance->rx_buffer), &instance->rx_bits); if(error != FuriHalNfcErrorNone) { FURI_LOG_D(TAG, "Failed in poller RX"); ret = nfc_process_hal_error(error); break; } bit_buffer_copy_bits(rx_buffer, instance->rx_buffer, instance->rx_bits); } while(false); return ret; } NfcError nfc_iso14443a_listener_tx_custom_parity(Nfc* instance, const BitBuffer* tx_buffer) { furi_assert(instance); furi_assert(tx_buffer); NfcError ret = NfcErrorNone; FuriHalNfcError error = FuriHalNfcErrorNone; const uint8_t* tx_data = bit_buffer_get_data(tx_buffer); const uint8_t* tx_parity = bit_buffer_get_parity(tx_buffer); size_t tx_bits = bit_buffer_get_size(tx_buffer); error = furi_hal_nfc_iso14443a_listener_tx_custom_parity(tx_data, tx_parity, tx_bits); ret = nfc_process_hal_error(error); return ret; } NfcError nfc_iso15693_listener_tx_sof(Nfc* instance) { furi_assert(instance); while(furi_hal_nfc_timer_block_tx_is_running()) { } FuriHalNfcError error = furi_hal_nfc_iso15693_listener_tx_sof(); NfcError ret = nfc_process_hal_error(error); return ret; } NfcError nfc_felica_listener_set_sensf_res_data( Nfc* instance, const uint8_t* idm, const uint8_t idm_len, const uint8_t* pmm, const uint8_t pmm_len) { furi_assert(instance); furi_assert(idm); furi_assert(pmm); FuriHalNfcError error = furi_hal_nfc_felica_listener_set_sensf_res_data(idm, idm_len, pmm, pmm_len); instance->comm_state = NfcCommStateIdle; return nfc_process_hal_error(error); } #endif // APP_UNIT_TESTS