unleashed-firmware/lib/nfc/nfc.h
RebornedBrain 1c3cbec661
[FL-3640] NFC: Felica UID emulation (#3190)
* Added basic template of Felica listener
* Raw nfc felica listener functions
* Added functions to setup chip for felica listener
* Cleanup function templates from unnecessary parts
* Removed todo comment
* Updated api versions
* Adjusted chip config for felica
* Set proper chip passive target mode for felica
* Added felica function to unit tests
* Update furi_hal_nfc_felica.c
* Removed duplication

Co-authored-by: gornekich <n.gorbadey@gmail.com>
2023-11-26 17:10:33 +09:00

384 lines
14 KiB
C

/**
* @file nfc.h
* @brief Transport layer Nfc library.
*
* The Nfc layer is responsible for setting the operating mode (poller or listener)
* and technology (ISO14443-3A/B, ISO15693, ...), data exchange between higher
* protocol-specific levels and underlying NFC hardware, as well as timings handling.
*
* In applications using the NFC protocol system there is no need to neiter explicitly
* create an Nfc instance nor call any of its functions, as it is all handled
* automatically under the hood.
*
* If the NFC protocol system is not suitable for the application's intended purpose
* or there is need of having direct access to the NFC transport layer, then an Nfc
* instance must be allocated and the below functions shall be used to implement
* the required logic.
*/
#pragma once
#include <toolbox/bit_buffer.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @brief Nfc opaque type definition.
*/
typedef struct Nfc Nfc;
/**
* @brief Enumeration of possible Nfc event types.
*
* Not all technologies implement all events (this is due to hardware limitations).
*/
typedef enum {
NfcEventTypeUserAbort, /**< User code explicitly aborted the current operation. */
NfcEventTypeFieldOn, /**< Reader's field was detected by the NFC hardware. */
NfcEventTypeFieldOff, /**< Reader's field was lost. */
NfcEventTypeTxStart, /**< Data transmission has started. */
NfcEventTypeTxEnd, /**< Data transmission has ended. */
NfcEventTypeRxStart, /**< Data reception has started. */
NfcEventTypeRxEnd, /**< Data reception has ended. */
NfcEventTypeListenerActivated, /**< The listener has been activated by the reader. */
NfcEventTypePollerReady, /**< The card has been activated by the poller. */
} NfcEventType;
/**
* @brief Nfc event data structure.
*/
typedef struct {
BitBuffer* buffer; /**< Pointer to the received data buffer. */
} NfcEventData;
/**
* @brief Nfc event structure.
*
* Upon emission of an event, an instance of this struct will be passed to the callback.
*/
typedef struct {
NfcEventType type; /**< Type of the emitted event. */
NfcEventData data; /**< Event-specific data. */
} NfcEvent;
/**
* @brief Enumeration of possible Nfc commands.
*
* The event callback must return one of these to determine the next action.
*/
typedef enum {
NfcCommandContinue, /**< Continue operation normally. */
NfcCommandReset, /**< Reset the current state. */
NfcCommandStop, /**< Stop the current operation. */
NfcCommandSleep, /**< Switch Nfc hardware to low-power mode. */
} NfcCommand;
/**
* @brief Nfc event callback type.
*
* A function of this type must be passed as the callback parameter upon start of a an Nfc instance.
*
* @param [in] event Nfc event, passed by value, complete with protocol type and data.
* @param [in,out] context pointer to the user-specific context (set when starting an Nfc instance).
* @returns command which the event producer must execute.
*/
typedef NfcCommand (*NfcEventCallback)(NfcEvent event, void* context);
/**
* @brief Enumeration of possible operating modes.
*
* Not all technologies implement the listener operating mode.
*/
typedef enum {
NfcModePoller, /**< Configure the Nfc instance as a poller. */
NfcModeListener, /**< Configure the Nfc instance as a listener. */
NfcModeNum, /**< Operating mode count. Internal use. */
} NfcMode;
/**
* @brief Enumeration of available technologies.
*/
typedef enum {
NfcTechIso14443a, /**< Configure the Nfc instance to use the ISO14443-3A technology. */
NfcTechIso14443b, /**< Configure the Nfc instance to use the ISO14443-3B technology. */
NfcTechIso15693, /**< Configure the Nfc instance to use the ISO15693 technology. */
NfcTechFelica, /**< Configure the Nfc instance to use the FeliCa technology. */
NfcTechNum, /**< Technologies count. Internal use. */
} NfcTech;
/**
* @brief Enumeration of possible Nfc error codes.
*/
typedef enum {
NfcErrorNone, /**< No error has occurred. */
NfcErrorInternal, /**< An unknown error has occured on the lower level. */
NfcErrorTimeout, /**< Operation is taking too long (e.g. card does not respond). */
NfcErrorIncompleteFrame, /**< An incomplete data frame has been received. */
NfcErrorDataFormat, /**< Data has not been parsed due to wrong/unknown format. */
} NfcError;
/**
* @brief Allocate an Nfc instance.
*
* Will exclusively take over the NFC HAL until deleted.
*
* @returns pointer to the allocated Nfc instance.
*/
Nfc* nfc_alloc();
/**
* @brief Delete an Nfc instance.
*
* Will release the NFC HAL lock, making it available for use by others.
*
* @param[in,out] instance pointer to the instance to be deleted.
*/
void nfc_free(Nfc* instance);
/**
* @brief Configure the Nfc instance to work in a particular mode.
*
* Not all technologies implement the listener operating mode.
*
* @param[in,out] instance pointer to the instance to be configured.
* @param[in] mode required operating mode.
* @param[in] tech required technology configuration.
*/
void nfc_config(Nfc* instance, NfcMode mode, NfcTech tech);
/**
* @brief Set poller frame delay time.
*
* @param[in,out] instance pointer to the instance to be modified.
* @param[in] fdt_poll_fc frame delay time, in carrier cycles.
*/
void nfc_set_fdt_poll_fc(Nfc* instance, uint32_t fdt_poll_fc);
/**
* @brief Set listener frame delay time.
*
* @param[in,out] instance pointer to the instance to be modified.
* @param[in] fdt_listen_fc frame delay time, in carrier cycles.
*/
void nfc_set_fdt_listen_fc(Nfc* instance, uint32_t fdt_listen_fc);
/**
* @brief Set mask receive time.
*
* @param[in,out] instance pointer to the instance to be modified.
* @param[in] mask_rx_time mask receive time, in carrier cycles.
*/
void nfc_set_mask_receive_time_fc(Nfc* instance, uint32_t mask_rx_time_fc);
/**
* @brief Set frame delay time.
*
* Frame delay time is the minimum time between two consecutive poll frames.
*
* @param[in,out] instance pointer to the instance to be modified.
* @param[in] fdt_poll_poll_us frame delay time, in microseconds.
*/
void nfc_set_fdt_poll_poll_us(Nfc* instance, uint32_t fdt_poll_poll_us);
/**
* @brief Set guard time.
*
* @param[in,out] instance pointer to the instance to be modified.
* @param[in] guard_time_us guard time, in microseconds.
*/
void nfc_set_guard_time_us(Nfc* instance, uint32_t guard_time_us);
/**
* @brief Start the Nfc instance.
*
* The instance must be configured to work with a specific technology
* in a specific operating mode with a nfc_config() call before starting.
*
* Once started, the user code will be receiving events through the provided
* callback which must handle them according to the logic required.
*
* @param[in,out] instance pointer to the instance to be started.
* @param[in] callback pointer to a user-defined callback function which will receive events.
* @param[in] context pointer to a user-specific context (will be passed to the callback).
*/
void nfc_start(Nfc* instance, NfcEventCallback callback, void* context);
/**
* @brief Stop Nfc instance.
*
* The instance can only be stopped if it is running.
*
* @param[in,out] instance pointer to the instance to be stopped.
*/
void nfc_stop(Nfc* instance);
/**
* @brief Transmit and receive a data frame in poller mode.
*
* The rx_buffer will be filled with any data received as a response to data
* sent from tx_buffer, with a timeout defined by the fwt parameter.
*
* The data being transmitted and received may be either bit- or byte-oriented.
* It shall not contain any technology-specific sequences as start or stop bits
* and/or other special symbols, as this is handled on the underlying HAL level.
*
* Must ONLY be used inside the callback function.
*
* @param[in,out] instance pointer to the instance to be used in the transaction.
* @param[in] tx_buffer pointer to the buffer containing the data to be transmitted.
* @param[out] rx_buffer pointer to the buffer to be filled with received data.
* @param[in] fwt frame wait time (response timeout), in carrier cycles.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError
nfc_poller_trx(Nfc* instance, const BitBuffer* tx_buffer, BitBuffer* rx_buffer, uint32_t fwt);
/**
* @brief Transmit a data frame in listener mode.
*
* Used to transmit a response to the reader request in listener mode.
*
* The data being transmitted may be either bit- or byte-oriented.
* It shall not contain any technology-specific sequences as start or stop bits
* and/or other special symbols, as this is handled on the underlying HAL level.
*
* Must ONLY be used inside the callback function.
*
* @param[in,out] instance pointer to the instance to be used in the transaction.
* @param[in] tx_buffer pointer to the buffer containing the data to be transmitted.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError nfc_listener_tx(Nfc* instance, const BitBuffer* tx_buffer);
/*
* Technology-specific functions.
*
* In a perfect world, this would not be necessary.
* However, the current implementation employs NFC hardware that partially implements
* certain protocols (e.g. ISO14443-3A), thus requiring methods to access such features.
*/
/******************* ISO14443-3A specific API *******************/
/**
* @brief Enumeration of possible ISO14443-3A short frame types.
*/
typedef enum {
NfcIso14443aShortFrameSensReq,
NfcIso14443aShortFrameAllReqa,
} NfcIso14443aShortFrame;
/**
* @brief Transmit an ISO14443-3A short frame and receive the response in poller mode.
*
* @param[in,out] instance pointer to the instance to be used in the transaction.
* @param[in] frame type of short frame to be sent.
* @param[out] rx_buffer pointer to the buffer to be filled with received data.
* @param[in] fwt frame wait time (response timeout), in carrier cycles.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError nfc_iso14443a_poller_trx_short_frame(
Nfc* instance,
NfcIso14443aShortFrame frame,
BitBuffer* rx_buffer,
uint32_t fwt);
/**
* @brief Transmit an ISO14443-3A SDD frame and receive the response in poller mode.
*
* @param[in,out] instance pointer to the instance to be used in the transaction.
* @param[in] tx_buffer pointer to the buffer containing the data to be transmitted.
* @param[out] rx_buffer pointer to the buffer to be filled with received data.
* @param[in] fwt frame wait time (response timeout), in carrier cycles.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError nfc_iso14443a_poller_trx_sdd_frame(
Nfc* instance,
const BitBuffer* tx_buffer,
BitBuffer* rx_buffer,
uint32_t fwt);
/**
* @brief Transmit an ISO14443-3A data frame with custom parity bits and receive the response in poller mode.
*
* Same as nfc_poller_trx(), but uses the parity bits provided by the user code
* instead of calculating them automatically.
*
* @param[in,out] instance pointer to the instance to be used in the transaction.
* @param[in] tx_buffer pointer to the buffer containing the data to be transmitted.
* @param[out] rx_buffer pointer to the buffer to be filled with received data.
* @param[in] fwt frame wait time (response timeout), in carrier cycles.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError nfc_iso14443a_poller_trx_custom_parity(
Nfc* instance,
const BitBuffer* tx_buffer,
BitBuffer* rx_buffer,
uint32_t fwt);
/**
* @brief Transmit an ISO14443-3A frame with custom parity bits in listener mode.
*
* Same as nfc_listener_tx(), but uses the parity bits provided by the user code
* instead of calculating them automatically.
*
* @param[in,out] instance pointer to the instance to be used in the transaction.
* @param[in] tx_buffer pointer to the buffer containing the data to be transmitted.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError nfc_iso14443a_listener_tx_custom_parity(Nfc* instance, const BitBuffer* tx_buffer);
/**
* @brief Set ISO14443-3A collision resolution parameters in listener mode.
*
* Configures the NFC hardware for automatic collision resolution.
*
* @param[in,out] instance pointer to the instance to be configured.
* @param[in] uid pointer to a byte array containing the UID.
* @param[in] uid_len UID length in bytes (must be supported by the protocol).
* @param[in] atqa ATQA byte value.
* @param[in] sak SAK byte value.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError nfc_iso14443a_listener_set_col_res_data(
Nfc* instance,
uint8_t* uid,
uint8_t uid_len,
uint8_t* atqa,
uint8_t sak);
/**
* @brief Set FeliCa collision resolution parameters in listener mode.
*
* Configures the NFC hardware for automatic collision resolution.
*
* @param[in,out] instance pointer to the instance to be configured.
* @param[in] idm pointer to a byte array containing the IDm.
* @param[in] idm_len IDm length in bytes.
* @param[in] pmm pointer to a byte array containing the PMm.
* @param[in] pmm_len PMm length in bytes.
* @returns NfcErrorNone on success, any other error code on failure.
*/
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);
/**
* @brief Send ISO15693 Start of Frame pattern in listener mode
*
* @param[in,out] instance pointer to the instance to be configured.
* @returns NfcErrorNone on success, any other error code on failure.
*/
NfcError nfc_iso15693_listener_tx_sof(Nfc* instance);
#ifdef __cplusplus
}
#endif