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This software, with or without modification, must only be used with a * Nordic Semiconductor ASA integrated circuit. * * 5. Any software provided in binary form under this license must not be reverse * engineered, decompiled, modified and/or disassembled. * * THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #ifndef NFC_T4T_LIB_H__ #define NFC_T4T_LIB_H__ /** @file * * @addtogroup nfc_api * * @defgroup nfc_t4t NFC Type 4 Tag * @ingroup nfc_api * @brief Implementation of NFC Type 4 Tag. * * @defgroup nfc_t4t_lib NFC tag 4 type emulation library * @{ * @ingroup nfc_t4t * @brief The T4T emulation library interface * * This is the NFC Forum NDEF tag 4 type emulation library. It implements the ISO14443-4A protocol * (ISO-DEP) and additionally can emulate a read-writable NDEF content. If the emulation of the NDEF * content is not needed, the library works in a raw mode where all APDUs are delivered to the user, * who is then responsible to generate a timely RPDU as a response. * * The sequence of initializing functions determines whether the NDEF emulation will run or whether * the raw mode is used. * * - E.g. NDEF emulation * * @ref nfc_t4t_setup * * @ref nfc_t4t_ndef_rwpayload_set or @ref nfc_t4t_ndef_staticpayload_set * * @ref nfc_t4t_emulation_start * * ... running in NDEF emulation mode ... * - E.g. RAW mode * * @ref nfc_t4t_setup * * @ref nfc_t4t_emulation_start * * ... running in RAW emulation mode ... */ #include #include #include #include "sdk_errors.h" #ifdef __cplusplus extern "C" { #endif #define NFC_T4T_MAX_PAYLOAD_SIZE 0xFFF0U /**< @brief Emulation mode. */ typedef enum { NFC_T4T_EMUMODE_NDEF, ///< Emulated NDEF AID and EF-Files. NFC_T4T_EMUMODE_PICC ///< Run just ISO-DEP, deliver I-Frames up. } nfc_t4t_emu_mode_t; /**< @brief Event identifiers used by the @ref nfc_t4t_callback_t */ typedef enum { NFC_T4T_EVENT_NONE, ///< This ID is never used. Dummy value for completeness. NFC_T4T_EVENT_FIELD_ON, ///< External Reader polling detected. NFC_T4T_EVENT_FIELD_OFF, ///< External Reader polling ended. NFC_T4T_EVENT_NDEF_READ, ///< External Reader has read static NDEF-Data from Emulation. /**< * A Read operation happened on last byte of NDEF-Data. */ NFC_T4T_EVENT_NDEF_UPDATED, ///< External Reader has written to length information of NDEF-Data from Emulation. /**< * The usual behavior of a Reader-Writer that accesses NDEF information for update is to set * the length to zero at the beginning of the update process. It then writes the content * of NDEF-Data. When all content is written it will update the length information inside * the NDEF file. This event will be generated every time an update to the length is happening. * This length information is residing in the first 2 bytes of the NDEF-Content container and is called 'NLEN'. * Since this callback is triggered on any access to these bytes the returned data_length * information might not be consistent (e.g. in case of only a single byte write to the length). * * @param[out] data_length Current value of NDEF content length * information i.e. 'NLEN' field. */ NFC_T4T_EVENT_DATA_TRANSMITTED, ///< In Raw mode it signals that the data from @ref nfc_t4t_response_pdu_send have been sent out. NFC_T4T_EVENT_DATA_IND, ///< In Raw mode delivers the APDU fragments /**< * All @ref NFC_T4T_EVENT_DATA_IND events that have the @ref NFC_T4T_DI_FLAG_MORE flag set * belong to the same APDU. The first @ref NFC_T4T_EVENT_DATA_IND without @ref NFC_T4T_DI_FLAG_MORE * flag signals the completeness of the APDU. The Application then has to reply with a call * to @ref nfc_t4t_response_pdu_send. The library will handle internally the fragmentation of * the response towards the Reader-Writer. The data of the response PDU must be kept * valid until the next callback from the library happens (e.g. next @ref NFC_T4T_EVENT_DATA_IND * or @ref NFC_T4T_EVENT_FIELD_OFF). * * @param[out] p_data Pointer to the fragment of APDU. * @param[out] data_length Length of data. * @param[out] flags @ref nfc_t4t_data_ind_flags_t. */ } nfc_t4t_event_t; /**< @brief Flags coming with nfc_t4t_callback_t at @ref NFC_T4T_EVENT_DATA_IND event.*/ typedef enum { NFC_T4T_DI_FLAG_NONE = 0x00, ///< Dummy value. NFC_T4T_DI_FLAG_MORE = 0x01 ///< This signals that more data is expected to be received. } nfc_t4t_data_ind_flags_t; /**< @brief Parameter IDs that can be set/get with @ref nfc_t4t_parameter_set or * @ref nfc_t4t_parameter_get. */ typedef enum { NFC_T4T_PARAM_TESTING, ///< Internal usage only for Unit-Testing. NFC_T4T_PARAM_FWI, ///< Frame Wait Time parameter NFC_T4T_PARAM_SELRES, ///< Parameter for setting 'Protocol' bits for SEL_RES packet NFC_T4T_PARAM_NFCID1, /**< NFCID1 value, data can be 4, 7, or 10 bytes long (single, double, or triple size). To use default NFCID1 of specific length pass one byte containing requested length. Default 7-byte NFCID1 will be used if this parameter was not set. This parameter can be set before nfc_t2t_setup() to set initial NFCID1 and it can be changed later. */ } nfc_t4t_param_id_t; /** @brief Callback to pass events from NFCLib to application. * * @param[out] p_context Application context for callback execution. * @param[out] event The event that occurred. see @ref nfc_t4t_event_t. * @param[out] p_data Data to send to the application (event specific). * @param[out] data_length Length of the data. In case of @ref NFC_T4T_EVENT_NDEF_UPDATED, this parameter * contains the value of the 'NLEN' field of the NDEF File; * if the value is non-zero, it corresponds to the new size of the NDEF Message in the updated NDEF File. * @param[out] flags Some events deliver flags. see @ref nfc_t4t_event_t for details. */ typedef void (*nfc_t4t_callback_t)(void * p_context, nfc_t4t_event_t event, const uint8_t * p_data, size_t data_length, uint32_t flags); /** @brief Register the application callback for event signaling. * * The callback will be called by NFCLib to notify the application of relevant events. It will be * called from the HAL_NFC callback context. The library support 3 different Modes of Emulation: * - Raw ISO-Dep exchanges. All PDUs are signaled through the callback. * - Read-Only T4T NDEF-Tag. A static buffer is served. Only Field-Status callbacks. * - Read-Write T4T NDEF-Tag. A mutable buffer is used. Only Field-Status callbacks. * * The default mode is Raw ISO-Dep mode. The two other NDEF T4T modes are activated through * the corresponding @ref nfc_t4t_ndef_rwpayload_set/ @ref nfc_t4t_ndef_staticpayload_set functions. * The mode is locked in with a call to @ref nfc_t4t_emulation_start. * * @param[in] callback Function pointer to the callback. * @param[in] p_context Pointer to a memory area used by the callback for execution (optional). * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_INVALID_STATE If emulation is in running state. */ ret_code_t nfc_t4t_setup(nfc_t4t_callback_t callback, void * p_context); /** @brief Set emulation buffer and content for a NDEF Tag emulation that is Read/Writable. * * The buffer needs to be kept accessible for the lifetime of the emulation. * If an external Reader-Writer changes the NDEF content it is signaled through the app-callback. * * @param[in] p_emulation_buffer Buffer pointer * @param[in] buffer_length Length of buffer (maximum writable NDEF size) * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_DATA_SIZE Invalid argument (e.g. wrong data length). * @retval NRF_ERROR_INVALID_PARAM Invalid argument (e.g. NULL pointer). * @retval NRF_ERROR_INVALID_STATE If emulation is in running state. */ ret_code_t nfc_t4t_ndef_rwpayload_set(uint8_t * p_emulation_buffer, size_t buffer_length); /** @brief Set emulationBuffer and Content for a NDEF Tag emulation that is Read-Only. * * The buffer needs to be kept accessible for the lifetime of the emulation. * Since no write access is done to the buffer, the content could reside in flash memory. * * @param[in] p_emulation_buffer Const buffer pointer * @param[in] buffer_length Length of contained NDEF payload message * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_DATA_SIZE Invalid argument (e.g. wrong data length). * @retval NRF_ERROR_INVALID_PARAM Invalid argument (e.g. NULL pointer). * @retval NRF_ERROR_INVALID_STATE Emulation is in running stated. */ ret_code_t nfc_t4t_ndef_staticpayload_set(const uint8_t * p_emulation_buffer, size_t buffer_length); /** @brief Send a raw response PDU after getting a Request PDU callback. * * When the library works in raw ISO-DEP mode it will signal request PDUs through the callback. * The application then has to answer with a response PDU. It will use this function to send back * the response PDU. This function can not be used in T4T NDEF (RW / STATIC) emulation modes. * * The lower ISODEP layer will handle the defragmentation of a long response PDU into smaller * pieces that the PCD can understand. * * @param[in] p_pdu Const PDU pointer. * @param[in] pdu_length Length of PDU. * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_DATA_SIZE Invalid argument (e.g. wrong data length). * @retval NRF_ERROR_INVALID_PARAM Invalid argument (e.g. NULL pointer). * @retval NRF_ERROR_INVALID_STATE Emulation is in running state. */ ret_code_t nfc_t4t_response_pdu_send(const uint8_t * p_pdu, size_t pdu_length); /** @brief Set an NFC parameter. * * Allows to set any parameter defined as available by HAL_NFC. * * @param[in] id ID of the parameter to set. * @param[in] p_data Pointer to a buffer containing the data to set. * @param[in] data_length Size of the buffer containing the data to set. * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_DATA_SIZE Invalid argument (e.g. wrong data length). * @retval NRF_ERROR_INVALID_PARAM Invalid argument (e.g. NULL pointer). */ ret_code_t nfc_t4t_parameter_set(nfc_t4t_param_id_t id, void * p_data, size_t data_length); /** @brief Query an NFC parameter value. * * The queried value will be placed into the passed data buffer. * If the buffer is too small, p_max_data_length will contain the required buffer size. * If the buffer is big enough, p_max_data_length will contain the actual size of the data. * * @param[in] id ID of the parameter to query. * @param[out] p_data Pointer to a buffer receiving the queried data. * @param[out] p_max_data_length Size of the buffer, receives actual size of queried data. * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_DATA_SIZE Invalid argument (e.g. wrong data length). * @retval NRF_ERROR_INVALID_PARAM Invalid argument (e.g. NULL pointer). */ ret_code_t nfc_t4t_parameter_get(nfc_t4t_param_id_t id, void * p_data, size_t * p_max_data_length); /** @brief Activate the NFC frontend. * * Only after calling this function, events will be posted to the application callback. * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_INVALID_STATE Already started. */ ret_code_t nfc_t4t_emulation_start(void); /** * @brief Deactivate the NFC frontend. * * After calling this function, no more events will be posted to the application callback. * * @retval NRF_SUCCESS Success. * @retval NRF_ERROR_INVALID_STATE Emulation was already stopped */ ret_code_t nfc_t4t_emulation_stop(void); /** * @brief Release reference to application callback. * * After calling this function, the passed callback pointer is no longer considered valid. * After calling this function, the passed p_ndef pointer is no longer considered valid. * * You need to restart with @ref nfc_t4t_setup to run a new Emulation. * * @retval NRF_SUCCESS Always succeeds. */ ret_code_t nfc_t4t_done(void); #ifdef __cplusplus } #endif /** @} */ #endif // NFC_T4T_LIB_H__