/******************************************************************************
  * \attention
  *
  * <h2><center>&copy; COPYRIGHT 2020 STMicroelectronics</center></h2>
  *
  * Licensed under ST MYLIBERTY SOFTWARE LICENSE AGREEMENT (the "License");
  * You may not use this file except in compliance with the License.
  * You may obtain a copy of the License at:
  *
  *        www.st.com/myliberty
  *
  * Unless required by applicable law or agreed to in writing, software 
  * distributed under the License is distributed on an "AS IS" BASIS, 
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied,
  * AND SPECIFICALLY DISCLAIMING THE IMPLIED WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
******************************************************************************/

/*
 *      PROJECT:   ST25R391x firmware
 *      Revision:
 *      LANGUAGE:  ISO C99
 */

/*! \file rfal_rf.h
 *
 *  \author Gustavo Patricio 
 *
 *  \brief RF Abstraction Layer (RFAL)
 *  
 *  RFAL (RF Abstraction Layer) provides several functionalities required to 
 *  perform RF/NFC communications. <br>The RFAL encapsulates the different 
 *  RF ICs (ST25R3911, ST25R391x, etc) into a common and easy to use interface.
 *  
 *  It provides interfaces to configure the RF IC, set/get timings, modes, bit rates,
 *  specific handlings, execute listen mode, etc. 
 *  
 *  Furthermore it provides a common interface to perform a Transceive operations.
 *  The Transceive can be executed in a blocking or non blocking way.<br>
 *  Additionally few specific Transceive methods are available to cope with the
 *  specifics of these particular operations.
 *  
 *  The most common interfaces are:
 *    <br>&nbsp; rfalInitialize()
 *    <br>&nbsp; rfalSetFDTPoll()
 *    <br>&nbsp; rfalSetFDTListen()
 *    <br>&nbsp; rfalSetGT()
 *    <br>&nbsp; rfalSetBitRate()
 *    <br>&nbsp; rfalSetMode()
 *    <br>&nbsp; rfalFieldOnAndStartGT()
 *    <br>&nbsp; rfalFieldOff()
 *    <br>&nbsp; rfalStartTransceive()
 *    <br>&nbsp; rfalGetTransceiveStatus()
 *    <br>&nbsp; rfalTransceiveBlockingTxRx()
 *    
 *  An usage example is provided here: \ref exampleRfalPoller.c
 *  \example exampleRfalPoller.c
 *    
 * \addtogroup RFAL
 * @{
 * 
 * \addtogroup RFAL-HAL
 * \brief RFAL Hardware Abstraction Layer
 * @{
 * 
 * \addtogroup RF
 * \brief RFAL RF Abstraction Layer
 * @{
 *  
 */

#ifndef RFAL_RF_H
#define RFAL_RF_H

/*
******************************************************************************
* INCLUDES
******************************************************************************
*/
#include "platform.h"
#include "st_errno.h"
#include "rfal_features.h"

/*
******************************************************************************
* GLOBAL DEFINES
******************************************************************************
*/
#define RFAL_VERSION 0x020200U /*!< RFAL Current Version: v2.2.0                      */

#define RFAL_FWT_NONE 0xFFFFFFFFU /*!< Disabled FWT: Wait forever for a response         */
#define RFAL_GT_NONE RFAL_TIMING_NONE /*!< Disabled GT: No GT will be applied after Field On */

#define RFAL_TIMING_NONE 0x00U /*!< Timing disabled | Don't apply                     */

#define RFAL_1FC_IN_4096FC \
    (uint32_t)4096U /*!< Number of 1/fc cycles in one 4096/fc              */
#define RFAL_1FC_IN_512FC (uint32_t)512U /*!< Number of 1/fc cycles in one 512/fc               */
#define RFAL_1FC_IN_64FC (uint32_t)64U /*!< Number of 1/fc cycles in one 64/fc                */
#define RFAL_1FC_IN_8FC (uint32_t)8U /*!< Number of 1/fc cycles in one 8/fc                 */
#define RFAL_US_IN_MS (uint32_t)1000U /*!< Number of us in one ms                            */
#define RFAL_1MS_IN_1FC (uint32_t)13560U /*!< Number of 1/fc cycles in 1ms                      */
#define RFAL_BITS_IN_BYTE (uint16_t)8U /*!< Number of bits in one byte                        */

#define RFAL_CRC_LEN 2U /*!< RF CRC LEN                                        */

/*! Default TxRx flags: Tx CRC automatic, Rx CRC removed, NFCIP1 mode off, AGC On, Tx Parity automatic, Rx Parity removed */
#define RFAL_TXRX_FLAGS_DEFAULT                                                      \
    ((uint32_t)RFAL_TXRX_FLAGS_CRC_TX_AUTO | (uint32_t)RFAL_TXRX_FLAGS_CRC_RX_REMV | \
     (uint32_t)RFAL_TXRX_FLAGS_NFCIP1_OFF | (uint32_t)RFAL_TXRX_FLAGS_AGC_ON |       \
     (uint32_t)RFAL_TXRX_FLAGS_PAR_RX_REMV | (uint32_t)RFAL_TXRX_FLAGS_PAR_TX_AUTO | \
     (uint32_t)RFAL_TXRX_FLAGS_NFCV_FLAG_AUTO)
#define RFAL_TXRX_FLAGS_RAW                                                            \
    ((uint32_t)RFAL_TXRX_FLAGS_CRC_TX_MANUAL | (uint32_t)RFAL_TXRX_FLAGS_CRC_RX_KEEP | \
     (uint32_t)RFAL_TXRX_FLAGS_NFCIP1_OFF | (uint32_t)RFAL_TXRX_FLAGS_AGC_ON |         \
     (uint32_t)RFAL_TXRX_FLAGS_PAR_RX_KEEP | (uint32_t)RFAL_TXRX_FLAGS_PAR_TX_NONE |   \
     (uint32_t)RFAL_TXRX_FLAGS_NFCV_FLAG_AUTO)

#define RFAL_LM_MASK_NFCA \
    ((uint32_t)1U         \
     << (uint8_t)RFAL_MODE_LISTEN_NFCA) /*!< Bitmask for Listen Mode enabling NFCA    */
#define RFAL_LM_MASK_NFCB \
    ((uint32_t)1U         \
     << (uint8_t)RFAL_MODE_LISTEN_NFCB) /*!< Bitmask for Listen Mode enabling NFCB    */
#define RFAL_LM_MASK_NFCF \
    ((uint32_t)1U         \
     << (uint8_t)RFAL_MODE_LISTEN_NFCF) /*!< Bitmask for Listen Mode enabling NFCF    */
#define RFAL_LM_MASK_ACTIVE_P2P \
    ((uint32_t)1U               \
     << (uint8_t)RFAL_MODE_LISTEN_ACTIVE_P2P) /*!< Bitmask for Listen Mode enabling AP2P    */

#define RFAL_LM_SENS_RES_LEN 2U /*!< NFC-A SENS_RES (ATQA) length                      */
#define RFAL_LM_SENSB_RES_LEN 13U /*!< NFC-B SENSB_RES (ATQB) length                     */
#define RFAL_LM_SENSF_RES_LEN 19U /*!< NFC-F SENSF_RES  length                           */
#define RFAL_LM_SENSF_SC_LEN 2U /*!< NFC-F System Code length                          */

#define RFAL_NFCID3_LEN 10U /*!< NFCID3 length                                     */
#define RFAL_NFCID2_LEN 8U /*!< NFCID2 length                                     */
#define RFAL_NFCID1_TRIPLE_LEN 10U /*!< NFCID1 length                                     */
#define RFAL_NFCID1_DOUBLE_LEN 7U /*!< NFCID1 length                                     */
#define RFAL_NFCID1_SINGLE_LEN 4U /*!< NFCID1 length                                     */

/*
******************************************************************************
* GLOBAL MACROS
******************************************************************************
*/

/*! Returns the maximum supported bit rate for RW mode. Caller must check if mode is supported before, as even if mode is not supported will return the min  */
#define rfalGetMaxBrRW()                             \
    (((RFAL_SUPPORT_BR_RW_6780) ?                    \
          RFAL_BR_6780 :                             \
          ((RFAL_SUPPORT_BR_RW_3390) ?               \
               RFAL_BR_3390 :                        \
               ((RFAL_SUPPORT_BR_RW_1695) ?          \
                    RFAL_BR_1695 :                   \
                    ((RFAL_SUPPORT_BR_RW_848) ?      \
                         RFAL_BR_848 :               \
                         ((RFAL_SUPPORT_BR_RW_424) ? \
                              RFAL_BR_424 :          \
                              ((RFAL_SUPPORT_BR_RW_212) ? RFAL_BR_212 : RFAL_BR_106)))))))

/*! Returns the maximum supported bit rate for AP2P mode. Caller must check if mode is supported before, as even if mode is not supported will return the min  */
#define rfalGetMaxBrAP2P()              \
    (((RFAL_SUPPORT_BR_AP2P_848) ?      \
          RFAL_BR_848 :                 \
          ((RFAL_SUPPORT_BR_AP2P_424) ? \
               RFAL_BR_424 :            \
               ((RFAL_SUPPORT_BR_AP2P_212) ? RFAL_BR_212 : RFAL_BR_106))))

/*! Returns the maximum supported bit rate for CE-A mode. Caller must check if mode is supported before, as even if mode is not supported will return the min  */
#define rfalGetMaxBrCEA()               \
    (((RFAL_SUPPORT_BR_CE_A_848) ?      \
          RFAL_BR_848 :                 \
          ((RFAL_SUPPORT_BR_CE_A_424) ? \
               RFAL_BR_424 :            \
               ((RFAL_SUPPORT_BR_CE_A_212) ? RFAL_BR_212 : RFAL_BR_106))))

/*! Returns the maximum supported bit rate for CE-B mode. Caller must check if mode is supported before, as even if mode is not supported will return the min  */
#define rfalGetMaxBrCEB()               \
    (((RFAL_SUPPORT_BR_CE_B_848) ?      \
          RFAL_BR_848 :                 \
          ((RFAL_SUPPORT_BR_CE_B_424) ? \
               RFAL_BR_424 :            \
               ((RFAL_SUPPORT_BR_CE_B_212) ? RFAL_BR_212 : RFAL_BR_106))))

/*! Returns the maximum supported bit rate for CE-F mode. Caller must check if mode is supported before, as even if mode is not supported will return the min  */
#define rfalGetMaxBrCEF() (((RFAL_SUPPORT_BR_CE_F_424) ? RFAL_BR_424 : RFAL_BR_212))

#define rfalIsModeActiveComm(md)            \
    (((md) == RFAL_MODE_POLL_ACTIVE_P2P) || \
     ((md) == RFAL_MODE_LISTEN_ACTIVE_P2P)) /*!< Checks if mode md is Active Communication  */
#define rfalIsModePassiveComm(md) \
    (!rfalIsModeActiveComm(md)) /*!< Checks if mode md is Passive Communication */
#define rfalIsModePassiveListen(md)                                        \
    (((md) == RFAL_MODE_LISTEN_NFCA) || ((md) == RFAL_MODE_LISTEN_NFCB) || \
     ((md) == RFAL_MODE_LISTEN_NFCF)) /*!< Checks if mode md is Passive Listen        */
#define rfalIsModePassivePoll(md) \
    (rfalIsModePassiveComm(md) && \
     !rfalIsModePassiveListen(md)) /*!< Checks if mode md is Passive Poll          */

#define rfalConv1fcTo8fc(t) \
    (uint32_t)((uint32_t)(t) / RFAL_1FC_IN_8FC) /*!< Converts the given t from 1/fc to 8/fc     */
#define rfalConv8fcTo1fc(t) \
    (uint32_t)((uint32_t)(t)*RFAL_1FC_IN_8FC) /*!< Converts the given t from 8/fc to 1/fc     */

#define rfalConv1fcTo64fc(t) \
    (uint32_t)((uint32_t)(t) / RFAL_1FC_IN_64FC) /*!< Converts the given t from 1/fc  to 64/fc   */
#define rfalConv64fcTo1fc(t) \
    (uint32_t)((uint32_t)(t)*RFAL_1FC_IN_64FC) /*!< Converts the given t from 64/fc to 1/fc    */

#define rfalConv1fcTo512fc(t) \
    (uint32_t)(               \
        (uint32_t)(t) / RFAL_1FC_IN_512FC) /*!< Converts the given t from 1/fc  to 512/fc  */
#define rfalConv512fcTo1fc(t) \
    (uint32_t)((uint32_t)(t)*RFAL_1FC_IN_512FC) /*!< Converts the given t from 512/fc to 1/fc   */

#define rfalConv1fcTo4096fc(t) \
    (uint32_t)(                \
        (uint32_t)(t) / RFAL_1FC_IN_4096FC) /*!< Converts the given t from 1/fc to 4096/fc  */
#define rfalConv4096fcTo1fc(t) \
    (uint32_t)((uint32_t)(t)*RFAL_1FC_IN_4096FC) /*!< Converts the given t from 4096/fc to 1/fc  */

#define rfalConv1fcToMs(t) \
    (uint32_t)((uint32_t)(t) / RFAL_1MS_IN_1FC) /*!< Converts the given t from 1/fc to ms       */
#define rfalConvMsTo1fc(t) \
    (uint32_t)((uint32_t)(t)*RFAL_1MS_IN_1FC) /*!< Converts the given t from ms to 1/fc       */

#define rfalConv1fcToUs(t)              \
    (uint32_t)(                         \
        ((uint32_t)(t)*RFAL_US_IN_MS) / \
        RFAL_1MS_IN_1FC) /*!< Converts the given t from 1/fc to us       */
#define rfalConvUsTo1fc(t)                \
    (uint32_t)(                           \
        ((uint32_t)(t)*RFAL_1MS_IN_1FC) / \
        RFAL_US_IN_MS) /*!< Converts the given t from us to 1/fc       */

#define rfalConv64fcToMs(t) \
    (uint32_t)(             \
        (uint32_t)(t) /     \
        (RFAL_1MS_IN_1FC / RFAL_1FC_IN_64FC)) /*!< Converts the given t from 64/fc to ms      */
#define rfalConvMsTo64fc(t) \
    (uint32_t)(             \
        (uint32_t)(t) *     \
        (RFAL_1MS_IN_1FC / RFAL_1FC_IN_64FC)) /*!< Converts the given t from ms to 64/fc      */

#define rfalConvBitsToBytes(n)                       \
    (uint16_t)(                                      \
        ((uint16_t)(n) + (RFAL_BITS_IN_BYTE - 1U)) / \
        (RFAL_BITS_IN_BYTE)) /*!< Converts the given n from bits to bytes    */
#define rfalConvBytesToBits(n) \
    (uint32_t)(                \
        (uint32_t)(n) * (RFAL_BITS_IN_BYTE)) /*!< Converts the given n from bytes to bits    */

/*! Computes a Transceive context \a ctx with default flags and the lengths 
 * in bytes with the given arguments
 *    \a ctx   : Transceive context to be assigned  
 *    \a tB    : txBuf the pointer to the buffer to be sent
 *    \a tBL   : txBuf length in bytes
 *    \a rB    : rxBuf the pointer to the buffer to place the received frame
 *    \a rBL   : rxBuf length in bytes
 *    \a rBL   : rxBuf length in bytes
 *    \a t     : FWT to be used on this transceive in 1/fc
 */
#define rfalCreateByteTxRxContext(ctx, tB, tBL, rB, rBL, rdL, t) \
    (ctx).txBuf = (uint8_t*)(tB);                                \
    (ctx).txBufLen = (uint16_t)rfalConvBytesToBits(tBL);         \
    (ctx).rxBuf = (uint8_t*)(rB);                                \
    (ctx).rxBufLen = (uint16_t)rfalConvBytesToBits(rBL);         \
    (ctx).rxRcvdLen = (uint16_t*)(rdL);                          \
    (ctx).flags = (uint32_t)RFAL_TXRX_FLAGS_DEFAULT;             \
    (ctx).fwt = (uint32_t)(t);

/*! Computes a Transceive context \a ctx using lengths in bytes 
 * with the given flags and arguments
 *    \a ctx   : Transceive context to be assigned  
 *    \a tB    : txBuf the pointer to the buffer to be sent
 *    \a tBL   : txBuf length in bytes
 *    \a rB    : rxBuf the pointer to the buffer to place the received frame
 *    \a rBL   : rxBuf length in bytes
 *    \a rBL   : rxBuf length in bytes
 *    \a t     : FWT to be used on this transceive in 1/fc
 */
#define rfalCreateByteFlagsTxRxContext(ctx, tB, tBL, rB, rBL, rdL, fl, t) \
    (ctx).txBuf = (uint8_t*)(tB);                                         \
    (ctx).txBufLen = (uint16_t)rfalConvBytesToBits(tBL);                  \
    (ctx).rxBuf = (uint8_t*)(rB);                                         \
    (ctx).rxBufLen = (uint16_t)rfalConvBytesToBits(rBL);                  \
    (ctx).rxRcvdLen = (uint16_t*)(rdL);                                   \
    (ctx).flags = (uint32_t)(fl);                                         \
    (ctx).fwt = (uint32_t)(t);

#define rfalLogE(...) \
    platformLog(__VA_ARGS__) /*!< Macro for the error log method                  */
#define rfalLogW(...) \
    platformLog(__VA_ARGS__) /*!< Macro for the warning log method                */
#define rfalLogI(...) \
    platformLog(__VA_ARGS__) /*!< Macro for the info log method                   */
#define rfalLogD(...) \
    platformLog(__VA_ARGS__) /*!< Macro for the debug log method                  */

/*
******************************************************************************
* GLOBAL ENUMS
******************************************************************************
*/

/* RFAL Guard Time (GT) default values                 */
#define RFAL_GT_NFCA \
    rfalConvMsTo1fc( \
        5U) /*!< GTA  Digital 2.0  6.10.4.1 & B.2                                                                 */
#define RFAL_GT_NFCB \
    rfalConvMsTo1fc( \
        5U) /*!< GTB  Digital 2.0  7.9.4.1  & B.3                                                                 */
#define RFAL_GT_NFCF \
    rfalConvMsTo1fc( \
        20U) /*!< GTF  Digital 2.0  8.7.4.1  & B.4                                                                 */
#define RFAL_GT_NFCV \
    rfalConvMsTo1fc( \
        5U) /*!< GTV  Digital 2.0  9.7.5.1  & B.5                                                                 */
#define RFAL_GT_PICOPASS \
    rfalConvMsTo1fc(     \
        1U) /*!< GT Picopass                                                                                      */
#define RFAL_GT_AP2P \
    rfalConvMsTo1fc( \
        5U) /*!< TIRFG  Ecma 340  11.1.1                                                                          */
#define RFAL_GT_AP2P_ADJUSTED \
    rfalConvMsTo1fc(          \
        5U +                  \
        25U) /*!< Adjusted GT for greater interoperability (Sony XPERIA P, Nokia N9, Huawei P2)                    */

/* RFAL Frame Delay Time (FDT) Listen default values   */
#define RFAL_FDT_LISTEN_NFCA_POLLER \
    1172U /*!< FDTA,LISTEN,MIN (n=9) Last bit: Logic "1" - tnn,min/2 Digital 1.1  6.10 ;  EMV CCP Spec Book D v2.01  4.8.1.3   */
#define RFAL_FDT_LISTEN_NFCB_POLLER \
    1008U /*!< TR0B,MIN         Digital 1.1  7.1.3 & A.3  ; EMV CCP Spec Book D v2.01  4.8.1.3 & Table A.5                     */
#define RFAL_FDT_LISTEN_NFCF_POLLER \
    2672U /*!< TR0F,LISTEN,MIN  Digital 1.1  8.7.1.1 & A.4                                                                     */
#define RFAL_FDT_LISTEN_NFCV_POLLER \
    4310U /*!< FDTV,LISTEN,MIN  t1 min       Digital 2.1  B.5  ;  ISO15693-3 2009  9.1                                          */
#define RFAL_FDT_LISTEN_PICOPASS_POLLER \
    3400U /*!< ISO15693 t1 min - observed adjustment                                                                           */
#define RFAL_FDT_LISTEN_AP2P_POLLER \
    64U /*!< FDT AP2P No actual FDTListen is required as fields switch and collision avoidance                               */
#define RFAL_FDT_LISTEN_NFCA_LISTENER \
    1172U /*!< FDTA,LISTEN,MIN  Digital 1.1  6.10                                                                              */
#define RFAL_FDT_LISTEN_NFCB_LISTENER \
    1024U /*!< TR0B,MIN         Digital 1.1  7.1.3 & A.3  ;  EMV CCP Spec Book D v2.01  4.8.1.3 & Table A.5                    */
#define RFAL_FDT_LISTEN_NFCF_LISTENER \
    2688U /*!< TR0F,LISTEN,MIN  Digital 2.1  8.7.1.1 & B.4                                                                     */
#define RFAL_FDT_LISTEN_AP2P_LISTENER \
    64U /*!< FDT AP2P No actual FDTListen exists as fields switch and collision avoidance                                    */

/*  RFAL Frame Delay Time (FDT) Poll default values    */
#define RFAL_FDT_POLL_NFCA_POLLER \
    6780U /*!< FDTA,POLL,MIN   Digital 1.1  6.10.3.1 & A.2                                                                     */
#define RFAL_FDT_POLL_NFCA_T1T_POLLER \
    384U /*!< RRDDT1T,MIN,B1  Digital 1.1  10.7.1 & A.5                                                                       */
#define RFAL_FDT_POLL_NFCB_POLLER \
    6780U /*!< FDTB,POLL,MIN = TR2B,MIN,DEFAULT Digital 1.1 7.9.3 & A.3  ;  EMVCo 3.0 FDTB,PCD,MIN  Table A.5                  */
#define RFAL_FDT_POLL_NFCF_POLLER \
    6800U /*!< FDTF,POLL,MIN   Digital 2.1  8.7.3 & B.4                                                                        */
#define RFAL_FDT_POLL_NFCV_POLLER \
    4192U /*!< FDTV,POLL  Digital 2.1  9.7.3.1  & B.5                                                                          */
#define RFAL_FDT_POLL_PICOPASS_POLLER \
    1790U /*!< FDT Max                                                                                                         */
#define RFAL_FDT_POLL_AP2P_POLLER \
    0U /*!< FDT AP2P No actual FDTPoll exists as fields switch and collision avoidance                                      */

/*
******************************************************************************
* GLOBAL TYPES
******************************************************************************
*/

/*! RFAL modes    */
typedef enum {
    RFAL_MODE_NONE = 0, /*!< No mode selected/defined                                         */
    RFAL_MODE_POLL_NFCA =
        1, /*!< Mode to perform as NFCA (ISO14443A) Poller (PCD)                 */
    RFAL_MODE_POLL_NFCA_T1T =
        2, /*!< Mode to perform as NFCA T1T (Topaz) Poller (PCD)                 */
    RFAL_MODE_POLL_NFCB =
        3, /*!< Mode to perform as NFCB (ISO14443B) Poller (PCD)                 */
    RFAL_MODE_POLL_B_PRIME =
        4, /*!< Mode to perform as B' Calypso (Innovatron) (PCD)                 */
    RFAL_MODE_POLL_B_CTS =
        5, /*!< Mode to perform as CTS Poller (PCD)                              */
    RFAL_MODE_POLL_NFCF =
        6, /*!< Mode to perform as NFCF (FeliCa) Poller (PCD)                    */
    RFAL_MODE_POLL_NFCV =
        7, /*!< Mode to perform as NFCV (ISO15963) Poller (PCD)                  */
    RFAL_MODE_POLL_PICOPASS =
        8, /*!< Mode to perform as PicoPass / iClass Poller (PCD)                */
    RFAL_MODE_POLL_ACTIVE_P2P =
        9, /*!< Mode to perform as Active P2P (ISO18092) Initiator               */
    RFAL_MODE_LISTEN_NFCA =
        10, /*!< Mode to perform as NFCA (ISO14443A) Listener (PICC)              */
    RFAL_MODE_LISTEN_NFCB =
        11, /*!< Mode to perform as NFCA (ISO14443B) Listener (PICC)              */
    RFAL_MODE_LISTEN_NFCF =
        12, /*!< Mode to perform as NFCA (ISO15963) Listener (PICC)               */
    RFAL_MODE_LISTEN_ACTIVE_P2P =
        13 /*!< Mode to perform as Active P2P (ISO18092) Target                  */
} rfalMode;

/*! RFAL Bit rates    */
typedef enum {
    RFAL_BR_106 = 0, /*!< Bit Rate 106 kbit/s (fc/128)                                     */
    RFAL_BR_212 = 1, /*!< Bit Rate 212 kbit/s (fc/64)                                      */
    RFAL_BR_424 = 2, /*!< Bit Rate 424 kbit/s (fc/32)                                      */
    RFAL_BR_848 = 3, /*!< Bit Rate 848 kbit/s (fc/16)                                      */
    RFAL_BR_1695 = 4, /*!< Bit Rate 1695 kbit/s (fc/8)                                      */
    RFAL_BR_3390 = 5, /*!< Bit Rate 3390 kbit/s (fc/4)                                      */
    RFAL_BR_6780 = 6, /*!< Bit Rate 6780 kbit/s (fc/2)                                      */
    RFAL_BR_13560 = 7, /*!< Bit Rate 13560 kbit/s (fc)                                       */
    RFAL_BR_52p97 = 0xEB, /*!< Bit Rate 52.97 kbit/s (fc/256) Fast Mode VICC->VCD               */
    RFAL_BR_26p48 = 0xEC, /*!< Bit Rate 26,48 kbit/s (fc/512) NFCV VICC->VCD & VCD->VICC 1of4   */
    RFAL_BR_1p66 = 0xED, /*!< Bit Rate 1,66 kbit/s (fc/8192) NFCV VCD->VICC 1of256             */
    RFAL_BR_KEEP = 0xFF /*!< Value indicating to keep the same previous bit rate              */
} rfalBitRate;

/*! RFAL Compliance modes for upper modules  */
typedef enum {
    RFAL_COMPLIANCE_MODE_NFC, /*!< Perform with NFC Forum 1.1 compliance                            */
    RFAL_COMPLIANCE_MODE_EMV, /*!< Perform with EMVCo compliance                                    */
    RFAL_COMPLIANCE_MODE_ISO /*!< Perform with ISO10373 compliance                                 */
} rfalComplianceMode;

/*! RFAL main states flags    */
typedef enum {
    RFAL_STATE_IDLE = 0,
    RFAL_STATE_INIT = 1,
    RFAL_STATE_MODE_SET = 2,

    RFAL_STATE_TXRX = 3,
    RFAL_STATE_LM = 4,
    RFAL_STATE_WUM = 5

} rfalState;

/*! RFAL transceive states    */
typedef enum {
    RFAL_TXRX_STATE_IDLE = 0,
    RFAL_TXRX_STATE_INIT = 1,
    RFAL_TXRX_STATE_START = 2,

    RFAL_TXRX_STATE_TX_IDLE = 11,
    RFAL_TXRX_STATE_TX_WAIT_GT = 12,
    RFAL_TXRX_STATE_TX_WAIT_FDT = 13,
    RFAL_TXRX_STATE_TX_TRANSMIT = 14,
    RFAL_TXRX_STATE_TX_WAIT_WL = 15,
    RFAL_TXRX_STATE_TX_RELOAD_FIFO = 16,
    RFAL_TXRX_STATE_TX_WAIT_TXE = 17,
    RFAL_TXRX_STATE_TX_DONE = 18,
    RFAL_TXRX_STATE_TX_FAIL = 19,

    RFAL_TXRX_STATE_RX_IDLE = 81,
    RFAL_TXRX_STATE_RX_WAIT_EON = 82,
    RFAL_TXRX_STATE_RX_WAIT_RXS = 83,
    RFAL_TXRX_STATE_RX_WAIT_RXE = 84,
    RFAL_TXRX_STATE_RX_READ_FIFO = 85,
    RFAL_TXRX_STATE_RX_ERR_CHECK = 86,
    RFAL_TXRX_STATE_RX_READ_DATA = 87,
    RFAL_TXRX_STATE_RX_WAIT_EOF = 88,
    RFAL_TXRX_STATE_RX_DONE = 89,
    RFAL_TXRX_STATE_RX_FAIL = 90,

} rfalTransceiveState;

/*! RFAL transceive flags                                                                                                                    */
enum {
    RFAL_TXRX_FLAGS_CRC_TX_AUTO =
        (0U
         << 0), /*!< CRC will be generated automatic upon transmission                                     */
    RFAL_TXRX_FLAGS_CRC_TX_MANUAL =
        (1U
         << 0), /*!< CRC was calculated manually, included in txBuffer                                     */
    RFAL_TXRX_FLAGS_CRC_RX_KEEP =
        (1U
         << 1), /*!< Upon Reception keep the CRC in rxBuffer (reflected on rcvd length)                    */
    RFAL_TXRX_FLAGS_CRC_RX_REMV =
        (0U
         << 1), /*!< Enable CRC check and remove the CRC from rxBuffer                                     */
    RFAL_TXRX_FLAGS_NFCIP1_ON =
        (1U
         << 2), /*!< Enable NFCIP1 mode: Add SB(F0) and LEN bytes during Tx and skip SB(F0) byte during Rx */
    RFAL_TXRX_FLAGS_NFCIP1_OFF =
        (0U
         << 2), /*!< Disable NFCIP1 mode: do not append protocol bytes while Tx nor skip while Rx          */
    RFAL_TXRX_FLAGS_AGC_OFF =
        (1U
         << 3), /*!< Disable Automatic Gain Control, improving multiple devices collision detection        */
    RFAL_TXRX_FLAGS_AGC_ON =
        (0U
         << 3), /*!< Enable Automatic Gain Control, improving single device reception                      */
    RFAL_TXRX_FLAGS_PAR_RX_KEEP =
        (1U
         << 4), /*!< Disable Parity and CRC check and keep the Parity and CRC bits in the received buffer  */
    RFAL_TXRX_FLAGS_PAR_RX_REMV =
        (0U
         << 0), /*!< Enable Parity check and remove the parity bits from the received buffer               */
    RFAL_TXRX_FLAGS_PAR_TX_NONE =
        (1U
         << 5), /*!< Disable automatic Parity generation (ISO14443A) and use the one provided in the buffer*/
    RFAL_TXRX_FLAGS_PAR_TX_AUTO =
        (0U
         << 5), /*!< Enable automatic Parity generation (ISO14443A)                                        */
    RFAL_TXRX_FLAGS_NFCV_FLAG_MANUAL =
        (1U
         << 6), /*!< Disable automatic adaption of flag byte (ISO15693) according to current comm params   */
    RFAL_TXRX_FLAGS_NFCV_FLAG_AUTO =
        (0U
         << 6), /*!< Enable automatic adaption of flag byte (ISO115693) according to current comm params   */
};

/*! RFAL error handling                                                                                                                      */
typedef enum {
    RFAL_ERRORHANDLING_NONE =
        0, /*!< No special error handling will be performed                                           */
    RFAL_ERRORHANDLING_NFC =
        1, /*!< Error handling set to perform as NFC compliant device                                 */
    RFAL_ERRORHANDLING_EMVCO =
        2 /*!< Error handling set to perform as EMVCo compliant device                               */
} rfalEHandling;

/*! Struct that holds all context to be used on a Transceive                                                */
typedef struct {
    uint8_t* txBuf; /*!< (In)  Buffer where outgoing message is located       */
    uint16_t txBufLen; /*!< (In)  Length of the outgoing message in bits         */

    uint8_t* rxBuf; /*!< (Out) Buffer where incoming message will be placed   */
    uint16_t rxBufLen; /*!< (In)  Maximum length of the incoming message in bits */
    uint16_t* rxRcvdLen; /*!< (Out) Actual received length in bits                 */

    uint32_t flags; /*!< (In)  TransceiveFlags indication special handling    */
    uint32_t fwt; /*!< (In)  Frame Waiting Time in 1/fc                     */
} rfalTransceiveContext;

/*! System callback to indicate an event that requires a system reRun        */
typedef void (*rfalUpperLayerCallback)(void);

/*! Callback to be executed before a Transceive                              */
typedef void (*rfalPreTxRxCallback)(void* context);

/*! Callback to be executed after a Transceive                               */
typedef void (*rfalPostTxRxCallback)(void* context);

/** Callback to be executed on each RFAL state change */
typedef void (*RfalStateChangedCallback)(void* context);

/*******************************************************************************/
/*  ISO14443A                                                                  */
/*******************************************************************************/

/*! RFAL ISO 14443A Short Frame Command */
typedef enum {
    RFAL_14443A_SHORTFRAME_CMD_WUPA = 0x52, /*!< ISO14443A WUPA / NFC-A ALL_REQ  */
    RFAL_14443A_SHORTFRAME_CMD_REQA = 0x26 /*!< ISO14443A REQA / NFC-A SENS_REQ */
} rfal14443AShortFrameCmd;

/*******************************************************************************/

/*******************************************************************************/
/*  FeliCa                                                                     */
/*******************************************************************************/

#define RFAL_FELICA_LEN_LEN \
    1U /*!< FeliCa LEN byte length                                              */
#define RFAL_FELICA_POLL_REQ_LEN          \
    (RFAL_FELICA_LEN_LEN + 1U + 2U + 1U + \
     1U) /*!< FeliCa Poll Request length (LEN + CMD + SC + RC + TSN)              */
#define RFAL_FELICA_POLL_RES_LEN          \
    (RFAL_FELICA_LEN_LEN + 1U + 8U + 8U + \
     2U) /*!< Maximum FeliCa Poll Response length (LEN + CMD + NFCID2 + PAD + RD) */
#define RFAL_FELICA_POLL_MAX_SLOTS \
    16U /*!< Maximum number of slots (TSN) on FeliCa Poll                        */

/*! NFC-F RC (Request Code) codes  NFC Forum Digital 1.1 Table 42                                                                                                        */
enum {
    RFAL_FELICA_POLL_RC_NO_REQUEST =
        0x00, /*!< RC: No System Code information requested                            */
    RFAL_FELICA_POLL_RC_SYSTEM_CODE =
        0x01, /*!< RC: System Code information requested                               */
    RFAL_FELICA_POLL_RC_COM_PERFORMANCE =
        0x02 /*!< RC: Advanced protocol features supported                            */
};

/*! NFC-F TSN (Time Slot Number) codes  NFC Forum Digital 1.1 Table 43   */
typedef enum {
    RFAL_FELICA_1_SLOT = 0, /*!< TSN with number of Time Slots: 1  */
    RFAL_FELICA_2_SLOTS = 1, /*!< TSN with number of Time Slots: 2  */
    RFAL_FELICA_4_SLOTS = 3, /*!< TSN with number of Time Slots: 4  */
    RFAL_FELICA_8_SLOTS = 7, /*!< TSN with number of Time Slots: 8  */
    RFAL_FELICA_16_SLOTS = 15 /*!< TSN with number of Time Slots: 16 */
} rfalFeliCaPollSlots;

/*! NFCF Poll Response  NFC Forum Digital 1.1 Table 44 */
typedef uint8_t rfalFeliCaPollRes[RFAL_FELICA_POLL_RES_LEN];

/*******************************************************************************/

/*******************************************************************************/
/*  Listen Mode                                                                */
/*******************************************************************************/

/*! RFAL Listen Mode NFCID Length */
typedef enum {
    RFAL_LM_NFCID_LEN_04 = RFAL_NFCID1_SINGLE_LEN, /*!< Listen mode indicates  4 byte NFCID */
    RFAL_LM_NFCID_LEN_07 = RFAL_NFCID1_DOUBLE_LEN, /*!< Listen mode indicates  7 byte NFCID */
    RFAL_LM_NFCID_LEN_10 = RFAL_NFCID1_TRIPLE_LEN, /*!< Listen mode indicates 10 byte NFCID */
} rfalLmNfcidLen;

/*! RFAL Listen Mode States */
typedef enum {
    RFAL_LM_STATE_NOT_INIT = 0x00, /*!< Not Initialized state                       */
    RFAL_LM_STATE_POWER_OFF = 0x01, /*!< Power Off state                             */
    RFAL_LM_STATE_IDLE = 0x02, /*!< Idle state  Activity 1.1  5.2               */
    RFAL_LM_STATE_READY_A = 0x03, /*!< Ready A state  Activity 1.1  5.3 5.4 & 5.5  */
    RFAL_LM_STATE_READY_B = 0x04, /*!< Ready B state  Activity 1.1  5.11 5.12      */
    RFAL_LM_STATE_READY_F = 0x05, /*!< Ready F state  Activity 1.1  5.15           */
    RFAL_LM_STATE_ACTIVE_A = 0x06, /*!< Active A state  Activity 1.1  5.6           */
    RFAL_LM_STATE_CARDEMU_4A = 0x07, /*!< Card Emulation 4A state  Activity 1.1  5.10 */
    RFAL_LM_STATE_CARDEMU_4B = 0x08, /*!< Card Emulation 4B state  Activity 1.1  5.14 */
    RFAL_LM_STATE_CARDEMU_3 = 0x09, /*!< Card Emulation 3 state  Activity 1.1  5.18  */
    RFAL_LM_STATE_TARGET_A = 0x0A, /*!< Target A state  Activity 1.1  5.9           */
    RFAL_LM_STATE_TARGET_F = 0x0B, /*!< Target F state  Activity 1.1  5.17          */
    RFAL_LM_STATE_SLEEP_A = 0x0C, /*!< Sleep A state  Activity 1.1  5.7            */
    RFAL_LM_STATE_SLEEP_B = 0x0D, /*!< Sleep B state  Activity 1.1  5.13           */
    RFAL_LM_STATE_READY_Ax = 0x0E, /*!< Ready A* state  Activity 1.1  5.3 5.4 & 5.5 */
    RFAL_LM_STATE_ACTIVE_Ax = 0x0F, /*!< Active A* state  Activity 1.1  5.6          */
    RFAL_LM_STATE_SLEEP_AF = 0x10, /*!< Sleep AF state  Activity 1.1  5.19          */
} rfalLmState;

/*! RFAL Listen Mode Passive A configs */
typedef struct {
    rfalLmNfcidLen nfcidLen; /*!< NFCID Len (4, 7 or 10 bytes)              */
    uint8_t nfcid[RFAL_NFCID1_TRIPLE_LEN]; /*!< NFCID                                     */
    uint8_t SENS_RES[RFAL_LM_SENS_RES_LEN]; /*!< NFC-106k; SENS_REQ Response               */
    uint8_t SEL_RES; /*!< SEL_RES (SAK) with complete NFCID1 (UID)  */
} rfalLmConfPA;

/*! RFAL Listen Mode Passive B configs */
typedef struct {
    uint8_t SENSB_RES[RFAL_LM_SENSB_RES_LEN]; /*!< SENSF_RES                               */
} rfalLmConfPB;

/*! RFAL Listen Mode Passive F configs */
typedef struct {
    uint8_t SC[RFAL_LM_SENSF_SC_LEN]; /*!< System Code to listen for               */
    uint8_t SENSF_RES[RFAL_LM_SENSF_RES_LEN]; /*!< SENSF_RES                               */
} rfalLmConfPF;

/*******************************************************************************/

/*******************************************************************************/
/*  Wake-Up Mode                                                               */
/*******************************************************************************/

#define RFAL_WUM_REFERENCE_AUTO 0xFFU /*!< Indicates new reference is set by the driver*/

/*! RFAL Wake-Up Mode States */
typedef enum {
    RFAL_WUM_STATE_NOT_INIT = 0x00, /*!< Not Initialized state                       */
    RFAL_WUM_STATE_ENABLED = 0x01, /*!< Wake-Up mode is enabled                     */
    RFAL_WUM_STATE_ENABLED_WOKE = 0x02, /*!< Wake-Up mode enabled and has received IRQ(s)*/
} rfalWumState;

/*! RFAL Wake-Up Period/Timer */
typedef enum {
    RFAL_WUM_PERIOD_10MS = 0x00, /*!< Wake-Up timer 10ms                          */
    RFAL_WUM_PERIOD_20MS = 0x01, /*!< Wake-Up timer 20ms                          */
    RFAL_WUM_PERIOD_30MS = 0x02, /*!< Wake-Up timer 30ms                          */
    RFAL_WUM_PERIOD_40MS = 0x03, /*!< Wake-Up timer 40ms                          */
    RFAL_WUM_PERIOD_50MS = 0x04, /*!< Wake-Up timer 50ms                          */
    RFAL_WUM_PERIOD_60MS = 0x05, /*!< Wake-Up timer 60ms                          */
    RFAL_WUM_PERIOD_70MS = 0x06, /*!< Wake-Up timer 70ms                          */
    RFAL_WUM_PERIOD_80MS = 0x07, /*!< Wake-Up timer 80ms                          */
    RFAL_WUM_PERIOD_100MS = 0x10, /*!< Wake-Up timer 100ms                         */
    RFAL_WUM_PERIOD_200MS = 0x11, /*!< Wake-Up timer 200ms                         */
    RFAL_WUM_PERIOD_300MS = 0x12, /*!< Wake-Up timer 300ms                         */
    RFAL_WUM_PERIOD_400MS = 0x13, /*!< Wake-Up timer 400ms                         */
    RFAL_WUM_PERIOD_500MS = 0x14, /*!< Wake-Up timer 500ms                         */
    RFAL_WUM_PERIOD_600MS = 0x15, /*!< Wake-Up timer 600ms                         */
    RFAL_WUM_PERIOD_700MS = 0x16, /*!< Wake-Up timer 700ms                         */
    RFAL_WUM_PERIOD_800MS = 0x17, /*!< Wake-Up timer 800ms                         */
} rfalWumPeriod;

/*! RFAL Wake-Up Period/Timer */
typedef enum {
    RFAL_WUM_AA_WEIGHT_4 = 0x00, /*!< Wake-Up Auto Average Weight 4              */
    RFAL_WUM_AA_WEIGHT_8 = 0x01, /*!< Wake-Up Auto Average Weight 8              */
    RFAL_WUM_AA_WEIGHT_16 = 0x02, /*!< Wake-Up Auto Average Weight 16             */
    RFAL_WUM_AA_WEIGHT_32 = 0x03, /*!< Wake-Up Auto Average Weight 32             */
} rfalWumAAWeight;

/*! RFAL Wake-Up Mode configuration */
typedef struct {
    rfalWumPeriod period; /*!< Wake-Up Timer period;how often measurement(s) is performed */
    bool irqTout; /*!< IRQ at every timeout will refresh the measurement(s)       */
    bool swTagDetect; /*!< Use SW Tag Detection instead of HW Wake-Up mode            */

    struct {
        bool enabled; /*!< Inductive Amplitude measurement enabled                   */
        uint8_t delta; /*!< Delta between the reference and measurement to wake-up    */
        uint16_t reference; /*!< Reference to be used;RFAL_WUM_REFERENCE_AUTO sets it auto */
        bool autoAvg; /*!< Use the HW Auto Averaging feature                         */
        bool aaInclMeas; /*!< When AutoAvg is enabled, include IRQ measurement          */
        rfalWumAAWeight aaWeight; /*!< When AutoAvg is enabled, last measure weight              */
    } indAmp; /*!< Inductive Amplitude Configuration                         */
    struct {
        bool enabled; /*!< Inductive Phase measurement enabled                       */
        uint8_t delta; /*!< Delta between the reference and measurement to wake-up    */
        uint16_t reference; /*!< Reference to be used;RFAL_WUM_REFERENCE_AUTO sets it auto */
        bool autoAvg; /*!< Use the HW Auto Averaging feature                         */
        bool aaInclMeas; /*!< When AutoAvg is enabled, include IRQ measurement          */
        rfalWumAAWeight aaWeight; /*!< When AutoAvg is enabled, last measure weight              */
    } indPha; /*!< Inductive Phase Configuration                             */
    struct {
        bool enabled; /*!< Capacitive measurement enabled                            */
        uint8_t delta; /*!< Delta between the reference and measurement to wake-up    */
        uint16_t reference; /*!< Reference to be used;RFAL_WUM_REFERENCE_AUTO sets it auto */
        bool autoAvg; /*!< Use the HW Auto Averaging feature                         */
        bool aaInclMeas; /*!< When AutoAvg is enabled, include IRQ measurement          */
        rfalWumAAWeight aaWeight; /*!< When AutoAvg is enabled, last measure weight              */
    } cap; /*!< Capacitive Configuration                                  */
} rfalWakeUpConfig;

/*******************************************************************************/

/*
******************************************************************************
* GLOBAL FUNCTION PROTOTYPES
******************************************************************************
*/

/*! 
 *****************************************************************************
 * \brief  RFAL Initialize
 *  
 * Initializes RFAL layer and the ST25R391x
 * Ensures that ST25R391x is properly connected and returns error if any problem 
 * is detected
 *
 * \warning rfalAnalogConfigInitialize() should be called before so that 
 *           the Analog config table has been previously initialized.
 *           
 * \return ERR_HW_MISMATCH  : Expected HW do not match or communication error
 * \return ERR_NONE         : No error
 *****************************************************************************
 */
ReturnCode rfalInitialize(void);

/*!
 *****************************************************************************
 * \brief  RFAL Calibrate 
 *  
 * Performs necessary calibration of RF chip in case it is indicated by current
 * register settings. E.g. antenna calibration and regulator calibration
 *
 * \return ERR_WRONG_STATE  : RFAL not initialized
 * \return ERR_NONE         : No error
 * 
 *****************************************************************************
 */
ReturnCode rfalCalibrate(void);

/*!
 *****************************************************************************
 * \brief  RFAL Adjust Regulators 
 *  
 * Adjusts ST25R391x regulators 
 * 
 * \param[out]  result : the result of the calibrate antenna in mV
 *                       NULL if result not requested
 *
 * \return ERR_WRONG_STATE  : RFAL not initialized
 * \return ERR_NONE         : No error
 * 
 *****************************************************************************
 */
ReturnCode rfalAdjustRegulators(uint16_t* result);

/*!
 *****************************************************************************
 * \brief RFAL Set System Callback
 *
 * Sets a callback for the driver to call when an event has occurred that 
 * may require the system to be notified
 * 
 * \param[in]  pFunc : method pointer for the upper layer callback 
 * 
 *****************************************************************************
 */
void rfalSetUpperLayerCallback(rfalUpperLayerCallback pFunc);

/*!
 *****************************************************************************
 * \brief RFAL Set Pre Tx Callback
 *
 * Sets a callback for the driver to call before a Transceive 
 * 
 * \param[in]  pFunc : method pointer for the Pre Tx callback 
 * 
 *****************************************************************************
 */
void rfalSetPreTxRxCallback(rfalPreTxRxCallback pFunc);

/*!
 *****************************************************************************
 * \brief RFAL Set Post Tx Callback
 *
 * Sets a callback for the driver to call after a Transceive 
 * 
 * \param[in]  pFunc : method pointer for the Post Tx callback 
 * 
 *****************************************************************************
 */
void rfalSetPostTxRxCallback(rfalPostTxRxCallback pFunc);

/** Set RFAL state changed callback
 *
 * @param cb    RfalStateChangedCallback instance
 * @param ctx   pointer to context
 */
void rfal_set_state_changed_callback(RfalStateChangedCallback callback);

/** Set callback context
 *
 * @param ctx pointer to context
 */
void rfal_set_callback_context(void* context);

/*! 
 *****************************************************************************
 * \brief  RFAL Deinitialize
 *  
 * Deinitializes RFAL layer and the ST25R391x
 *
 * \return ERR_NONE : No error
 * 
 *****************************************************************************
 */
ReturnCode rfalDeinitialize(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Set Mode
 *  
 * Sets the mode that RFAL will operate on the following communications.
 * Proper initializations will be performed on the ST25R391x
 * 
 * \warning bit rate value RFAL_BR_KEEP is not allowed, only in rfalSetBitRate()
 * 
 * \warning the mode will be applied immediately on the RFchip regardless of 
 *          any ongoing operations like Transceive, ListenMode
 * 
 * \param[in]  mode : mode for the RFAL/RFchip to perform
 * \param[in]  txBR : transmit bit rate
 * \param[in]  rxBR : receive bit rate 
 * 
 * \see rfalIsGTExpired
 * \see rfalMode
 *
 * \return ERR_WRONG_STATE  : RFAL not initialized
 * \return ERR_PARAM        : Invalid parameter
 * \return ERR_NONE         : No error
 * 
 *****************************************************************************
 */
ReturnCode rfalSetMode(rfalMode mode, rfalBitRate txBR, rfalBitRate rxBR);

/*! 
 *****************************************************************************
 * \brief  RFAL Get Mode
 *  
 * Gets the mode that RFAL is set to operate
 * 
 * \see rfalMode
 *
 * \return rfalMode : The current RFAL mode
 *****************************************************************************
 */
rfalMode rfalGetMode(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Set Bit Rate
 *  
 * Sets the Tx and Rx bit rates with the given values 
 * The bit rate change is applied on the RF chip remaining in the same  
 * mode previous defined with rfalSetMode()
 * 
 * If no mode is defined bit rates will not be applied and an error 
 * is returned
 * 
 * \param[in]  txBR : transmit bit rate
 * \param[in]  rxBR : receive bit rate 
 * 
 * \see rfalSetMode
 * \see rfalMode
 * \see rfalBitRate
 *
 * \return ERR_WRONG_STATE     : RFAL not initialized
 * \return ERR_PARAM           : Invalid parameter
 * \return ERR_NOT_IMPLEMENTED : Mode not implemented
 * \return ERR_NONE            : No error
 * 
 *****************************************************************************
 */
ReturnCode rfalSetBitRate(rfalBitRate txBR, rfalBitRate rxBR);

/*! 
 *****************************************************************************
 * \brief  RFAL Get Bit Rate
 *  
 * Gets the Tx and Rx current bit rates 
 * 
 * If RFAL is not initialized or mode not set the bit rates return will 
 * be invalid RFAL_BR_KEEP
 * 
 * \param[out]  txBR : RFAL's current Tx Bit Rate
 * \param[out]  rxBR : RFAL's current Rx Bit Rate
 * 
 * \see rfalSetBitRate
 * \see rfalBitRate
 *
 * \return ERR_WRONG_STATE  : RFAL not initialized or mode not set
 * \return ERR_NONE         : No error
 *****************************************************************************
 */
ReturnCode rfalGetBitRate(rfalBitRate* txBR, rfalBitRate* rxBR);

/*! 
 *****************************************************************************
 * \brief Set Error Handling Mode
 *  
 *  Sets the error handling mode to be used by the RFAL
 *  
 * \param[in]  eHandling : the error handling mode
 * 
 *****************************************************************************
 */
void rfalSetErrorHandling(rfalEHandling eHandling);

/*! 
 *****************************************************************************
 * \brief Get Error Handling Mode
 *  
 *  Gets the error handling mode currently used by the RFAL 
 *  
 * \return rfalEHandling : Current error handling mode
 *****************************************************************************
 */
rfalEHandling rfalGetErrorHandling(void);

/*! 
 *****************************************************************************
 * \brief Set Observation Mode
 *  
 * Sets ST25R391x observation modes for RF debug purposes
 *
 * \param[in]  txMode : the observation mode to be used during transmission
 * \param[in]  rxMode : the observation mode to be used during reception
 * 
 * \warning The Observation Mode is an advanced feature and should be set 
 *          according to the documentation of the part number in use.
 *          Please refer to the corresponding Datasheet or Application Note(s)
 *****************************************************************************
 */
void rfalSetObsvMode(uint8_t txMode, uint8_t rxMode);

/*! 
 *****************************************************************************
 * \brief Get Observation Mode
 *  
 * Gets ST25R391x the current configured observation modes
 *
 * \param[in]  txMode : the current observation mode configured for transmission
 * \param[in]  rxMode : the current observation mode configured for reception
 * 
 *****************************************************************************
 */
void rfalGetObsvMode(uint8_t* txMode, uint8_t* rxMode);

/*! 
 *****************************************************************************
 * \brief Disable Observation Mode
 *  
 * Disables the ST25R391x observation mode
 *****************************************************************************
 */
void rfalDisableObsvMode(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Set FDT Poll
 *  
 * Sets the Frame Delay Time (FDT) to be used on the following
 * communications.
 * 
 * FDT Poll is the minimum time following a Poll Frame during 
 * which no subsequent Poll Frame can be sent (without a response from 
 * the Listener in between)
 * FDTx,PP,MIN - Digital 1.1  6.10.2  &  7.9.2  &  8.7.2
 * 
 * \param[in]  FDTPoll : Frame Delay Time in 1/fc cycles
 *
 *****************************************************************************
 */
void rfalSetFDTPoll(uint32_t FDTPoll);

/*! 
 *****************************************************************************
 * \brief  RFAL Set FDT Poll
 *  
 * Gets the current Frame Delay Time (FDT) 
 * 
 * FDT Poll is the minimum time following a Poll Frame during 
 * which no subsequent Poll Frame can be sent (without a response from 
 * the Listener in between)
 * FDTx,PP,MIN - Digital 1.1  6.10.2  &  7.9.2  &  8.7.2
 *  
 * \return FDT : current FDT value in 1/fc cycles
 *
 *****************************************************************************
 */
uint32_t rfalGetFDTPoll(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Set FDT Listen
 *  
 * Sets the Frame Delay Time (FDT) Listen minimum to be used on the 
 * following communications.
 * 
 * FDT Listen is the minimum time between a Poll Frame and a Listen Frame
 * FDTx,LISTEN,MIN - Digital 1.1  6.10.1  &  7.9.1  &  8.7.1
 *  
 * \param[in]  FDTListen : Frame Delay Time in 1/fc cycles
 *
 *****************************************************************************
 */
void rfalSetFDTListen(uint32_t FDTListen);

/*! 
 *****************************************************************************
 * \brief  RFAL Set FDT Listen
 *  
 * Gets the Frame Delay Time (FDT) Listen minimum  
 * 
 * FDT Listen is the minimum time between a Poll Frame and a Listen Frame
 * FDTx,LISTEN,MIN - Digital 1.1  6.10.1  &  7.9.1  &  8.7.1
 *  
 * \return FDT : current FDT value in 1/fc cycles
 *
 *****************************************************************************
 */
uint32_t rfalGetFDTListen(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Get GT
 *  
 * Gets the current Guard Time (GT)
 *  
 * GT is the minimum time when a device in Listen Mode is exposed to an 
 * unmodulated carrier
 *  
 * \return GT :  Guard Time in 1/fc cycles
 *
 *****************************************************************************
 */
uint32_t rfalGetGT(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Set GT
 *  
 * Sets the Guard Time (GT) to be used on the following communications.
 * 
 * GT is the minimum time when a device in Listen Mode is exposed to an 
 * unmodulated carrier
 *  
 * \param[in]  GT : Guard Time in 1/fc cycles
 *                  RFAL_GT_NONE if no GT should be applied
 *
 *****************************************************************************
 */
void rfalSetGT(uint32_t GT);

/*! 
 *****************************************************************************
 * \brief  RFAL Is GT expired 
 *  
 * Checks whether the GT timer has expired
 *    
 * \return true  : GT has expired or not running
 * \return false : GT is still running
 *
 *****************************************************************************
 */
bool rfalIsGTExpired(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Turn Field On and Start GT
 *  
 * Turns the Field On, performing Initial Collision Avoidance
 * 
 * After Field On, if GT was set before, it starts the GT timer to be 
 * used on the following communications.
 *  
 * \return ERR_RF_COLLISION : External field detected
 * \return ERR_NONE         : Field turned On
 *
 *****************************************************************************
 */
ReturnCode rfalFieldOnAndStartGT(void);

/*! 
 *****************************************************************************
 * \brief  RFAL Turn Field Off
 *  
 * Turns the Field Off  
 *   
 * \return ERR_NONE : Field turned Off
 *****************************************************************************
 */
ReturnCode rfalFieldOff(void);

/*****************************************************************************
 *  Transceive                                                               *  
 *****************************************************************************/

/*! 
 *****************************************************************************
 * \brief  RFAL Set transceive context
 *  
 * Set the context that will be used for the following Transceive
 * Output and input buffers have to be passed and all other details prior to 
 * the Transceive itself has been started
 * 
 * This method only sets the context, once set rfalWorker has
 * to be executed until is done
 * 
 * \param[in]  ctx : the context for the following Transceive
 * 
 * \see  rfalWorker
 * \see  rfalGetTransceiveStatus
 *
 * \return ERR_NONE        : Done with no error
 * \return ERR_WRONG_STATE : Not initialized properly 
 * \return ERR_PARAM       : Invalid parameter or configuration
 *****************************************************************************
 */
ReturnCode rfalStartTransceive(const rfalTransceiveContext* ctx);

/*! 
 *****************************************************************************
 * \brief  Get Transceive State
 *  
 * Gets current Transceive internal State
 *
 * \return rfalTransceiveState : the current Transceive internal State
 *****************************************************************************
 */
rfalTransceiveState rfalGetTransceiveState(void);

/*! 
 *****************************************************************************
 * \brief  Get Transceive Status
 *  
 * Gets current Transceive status
 *
 * \return  ERR_NONE         : Transceive done with no error
 * \return  ERR_BUSY         : Transceive ongoing
 * \return  ERR_XXXX         : Error occurred
 * \return  ERR_TIMEOUT      : No response
 * \return  ERR_FRAMING      : Framing error detected
 * \return  ERR_PAR          : Parity error detected
 * \return  ERR_CRC          : CRC error detected
 * \return  ERR_LINK_LOSS    : Link Loss - External Field is Off
 * \return  ERR_RF_COLLISION : Collision detected
 * \return  ERR_IO           : Internal error
 *****************************************************************************
 */
ReturnCode rfalGetTransceiveStatus(void);

/*! 
 *****************************************************************************
 * \brief  Is Transceive in Tx
 *  
 * Checks if Transceive is in Transmission state
 *
 * \return true   Transmission ongoing
 * \return false  Not in transmission state
 *****************************************************************************
 */
bool rfalIsTransceiveInTx(void);

/*! 
 *****************************************************************************
 * \brief  Is Transceive in Rx
 *  
 * Checks if Transceive is in Reception state 
 *
 * \return true   Transmission done/reception ongoing
 * \return false  Not in reception state
 *****************************************************************************
 */
bool rfalIsTransceiveInRx(void);

/*! 
 *****************************************************************************
 * \brief  Get Transceive RSSI
 *  
 * Gets the RSSI value of the last executed Transceive in mV
 *
 * \param[out]  rssi : RSSI value
 *
 * \return  ERR_NOTSUPP : Feature not supported
 * \return  ERR_PARAM   : Invalid parameter
 * \return  ERR_NONE    : No error
 *****************************************************************************
 */
ReturnCode rfalGetTransceiveRSSI(uint16_t* rssi);

/*! 
 *****************************************************************************
 *  \brief RFAL Worker
 *  
 *  This runs RFAL layer, which drives the actual Transceive procedure
 *  It MUST be executed frequently in order to execute the RFAL internal
 *  states and perform the requested operations
 *
 *****************************************************************************
 */
void rfalWorker(void);

/*****************************************************************************
 *  ISO1443A                                                                 *  
 *****************************************************************************/

/*! 
 *****************************************************************************
 *  \brief Transceives an ISO14443A ShortFrame  
 *  
 *  Sends REQA to detect if there is any PICC in the field 
 *
 * \param[in]  txCmd:     Command to be sent:
 *                           0x52 WUPA / ALL_REQ
 *                           0x26 REQA / SENS_REQ
 *                           
 * \param[in]  txCmd    : type of short frame to be sent REQA or WUPA                          
 * \param[out] rxBuf    : buffer to place the response
 * \param[in]  rxBufLen : length of rxBuf
 * \param[out] rxRcvdLen: received length
 * \param[in]  fwt      : Frame Waiting Time in 1/fc
 * 
 * \warning If fwt is set to RFAL_FWT_NONE it will make endlessly for 
 *         a response, which on a blocking method may not be the 
 *         desired usage 
 * 
 * \return ERR_NONE if there is response
 * \return ERR_TIMEOUT if there is no response
 * \return ERR_COLLISION collision has occurred
 *  
 *****************************************************************************
 */
ReturnCode rfalISO14443ATransceiveShortFrame(
    rfal14443AShortFrameCmd txCmd,
    uint8_t* rxBuf,
    uint8_t rxBufLen,
    uint16_t* rxRcvdLen,
    uint32_t fwt);

/*!
 *****************************************************************************
 * \brief Sends an ISO14443A Anticollision Frame 
 * 
 * This is use to perform ISO14443A anti-collision. 
 * \note Anticollision is sent without CRC
 * 
 * 
 * \param[in]   buf        : reference to ANTICOLLISION command (with known UID if any) to be sent (also out param)
 *                           reception will be place on this buf after bytesToSend 
 * \param[in]   bytesToSend: reference number of full bytes to be sent (including CMD byte and SEL_PAR)
 *                           if a collision occurs will contain the number of clear bytes  
 * \param[in]   bitsToSend : reference to number of bits (0-7) to be sent; and received (also out param)
 *                           if a collision occurs will indicate the number of clear bits (also out param)
 * \param[out]  rxLength   : reference to the return the received length
 * \param[in]   fwt        : Frame Waiting Time in 1/fc
 * 
 * \return ERR_NONE if there is no error
 *****************************************************************************
 */
ReturnCode rfalISO14443ATransceiveAnticollisionFrame(
    uint8_t* buf,
    uint8_t* bytesToSend,
    uint8_t* bitsToSend,
    uint16_t* rxLength,
    uint32_t fwt);

/*****************************************************************************
 *  FeliCa                                                                   *  
 *****************************************************************************/

/*!
 *****************************************************************************
 * \brief FeliCa Poll 
 * 
 * Sends a Poll Request and collects all Poll Responses according to the 
 * given slots  
 * 
 * 
 * \param[in]   slots             : number of slots for the Poll Request
 * \param[in]   sysCode           : system code (SC) for the Poll Request  
 * \param[in]   reqCode           : request code (RC) for the Poll Request
 * \param[out]  pollResList       : list of all responses
 * \param[in]   pollResListSize   : number of responses that can be placed in pollResList 
 * \param[out]  devicesDetected   : number of cards found
 * \param[out]  collisionsDetected: number of collisions detected
 * 
 * \return ERR_NONE if there is no error
 * \return ERR_TIMEOUT if there is no response
 *****************************************************************************
 */
ReturnCode rfalFeliCaPoll(
    rfalFeliCaPollSlots slots,
    uint16_t sysCode,
    uint8_t reqCode,
    rfalFeliCaPollRes* pollResList,
    uint8_t pollResListSize,
    uint8_t* devicesDetected,
    uint8_t* collisionsDetected);

/*****************************************************************************
 *  ISO15693                                                                 *  
 *****************************************************************************/

/*!
 *****************************************************************************
 * \brief Sends an ISO15693 Anticollision Frame 
 * 
 * This send the Anticollision|Inventory frame (INVENTORY_REQ)
 *
 * \warning rxBuf must be able to contain the payload and CRC
 * 
 * \param[in]  txBuf        : Buffer where outgoing message is located
 * \param[in]  txBufLen     : Length of the outgoing message in bytes
 * \param[out] rxBuf        : Buffer where incoming message will be placed
 * \param[in]  rxBufLen     : Maximum length of the incoming message in bytes
 * \param[out] actLen       : Actual received length in bits
 * 
 * \return  ERR_NONE        : Transceive done with no error
 * \return  ERR_WRONG_STATE : RFAL not initialized or mode not set
 * \return  ERR_IO          : Internal error
 *****************************************************************************
 */
ReturnCode rfalISO15693TransceiveAnticollisionFrame(
    uint8_t* txBuf,
    uint8_t txBufLen,
    uint8_t* rxBuf,
    uint8_t rxBufLen,
    uint16_t* actLen);

/*!
 *****************************************************************************
 * \brief Sends an ISO15693 Anticollision EOF
 * 
 * This sends the Anticollision|Inventory EOF used as a slot marker
 * 
 * \warning rxBuf must be able to contain the payload and CRC
 * 
 * \param[out] rxBuf        : Buffer where incoming message will be placed
 * \param[in] rxBufLen      : Maximum length of the incoming message in bytes
 * \param[out] actLen       : Actual received length in bits
 * 
 * \return  ERR_NONE        : Transceive done with no error
 * \return  ERR_WRONG_STATE : RFAL not initialized or mode not set
 * \return  ERR_IO          : Internal error
 *****************************************************************************
 */
ReturnCode
    rfalISO15693TransceiveEOFAnticollision(uint8_t* rxBuf, uint8_t rxBufLen, uint16_t* actLen);

/*!
 *****************************************************************************
 * \brief Sends an ISO15693 EOF
 *
 * This is method sends an ISO15693 (EoF) used for a Write operation
 * 
 * \warning rxBuf must be able to contain the payload and CRC
 * 
 * \param[out] rxBuf        : Buffer where incoming message will be placed
 * \param[in] rxBufLen      : Maximum length of the incoming message in bytes
 * \param[out] actLen       : Actual received length in bytes
 * 
 * \return  ERR_NONE        : Transceive done with no error
 * \return  ERR_IO          : Internal error
 *****************************************************************************
 */
ReturnCode rfalISO15693TransceiveEOF(uint8_t* rxBuf, uint8_t rxBufLen, uint16_t* actLen);

/*!
 *****************************************************************************
 * \brief Transceive Blocking Tx 
 *
 * This is method triggers a Transceive and executes it blocking until the 
 * Tx has been completed
 * 
 * \param[in]  txBuf    : Buffer where outgoing message is located
 * \param[in]  txBufLen : Length of the outgoing message in bytes
 * \param[out] rxBuf    : Buffer where incoming message will be placed
 * \param[in]  rxBufLen : Maximum length of the incoming message in bytes
 * \param[out] actLen   : Actual received length in bits
 * \param[in]  flags    : TransceiveFlags indication special handling
 * \param[in]  fwt      : Frame Waiting Time in 1/fc
 * 
 * \return  ERR_NONE         : Transceive done with no error
 * \return  ERR_BUSY         : Transceive ongoing
 * \return  ERR_XXXX         : Error occurred
 * \return  ERR_LINK_LOSS    : Link Loss - External Field is Off
 * \return  ERR_RF_COLLISION : Collision detected
 * \return  ERR_IO           : Internal error
 *****************************************************************************
 */
ReturnCode rfalTransceiveBlockingTx(
    uint8_t* txBuf,
    uint16_t txBufLen,
    uint8_t* rxBuf,
    uint16_t rxBufLen,
    uint16_t* actLen,
    uint32_t flags,
    uint32_t fwt);

/*!
 *****************************************************************************
 * \brief Transceive Blocking Rx 
 *
 * This is method executes the reception of an ongoing Transceive triggered 
 * before by rfalTransceiveBlockingTx()
 * 
 * \return  ERR_NONE         : Transceive done with no error
 * \return  ERR_BUSY         : Transceive ongoing
 * \return  ERR_XXXX         : Error occurred
 * \return  ERR_TIMEOUT      : No response
 * \return  ERR_FRAMING      : Framing error detected
 * \return  ERR_PAR          : Parity error detected
 * \return  ERR_CRC          : CRC error detected
 * \return  ERR_LINK_LOSS    : Link Loss - External Field is Off
 * \return  ERR_RF_COLLISION : Collision detected
 * \return  ERR_IO           : Internal error
 *****************************************************************************
 */
ReturnCode rfalTransceiveBlockingRx(void);

/*!
 *****************************************************************************
 * \brief Transceive Blocking 
 *
 * This is method triggers a Transceive and executes it blocking until it 
 * has been completed
 * 
 * \param[in]  txBuf    : Buffer where outgoing message is located
 * \param[in]  txBufLen : Length of the outgoing message in bytes
 * \param[out] rxBuf    : Buffer where incoming message will be placed
 * \param[in]  rxBufLen : Maximum length of the incoming message in bytes
 * \param[out] actLen   : Actual received length in bytes
 * \param[in]  flags    : TransceiveFlags indication special handling
 * \param[in]  fwt      : Frame Waiting Time in 1/fc
 * 
 * \return  ERR_NONE         : Transceive done with no error
 * \return  ERR_BUSY         : Transceive ongoing
 * \return  ERR_XXXX         : Error occurred
 * \return  ERR_TIMEOUT      : No response
 * \return  ERR_FRAMING      : Framing error detected
 * \return  ERR_PAR          : Parity error detected
 * \return  ERR_CRC          : CRC error detected
 * \return  ERR_LINK_LOSS    : Link Loss - External Field is Off
 * \return  ERR_RF_COLLISION : Collision detected
 * \return  ERR_IO           : Internal error
 *****************************************************************************
 */
ReturnCode rfalTransceiveBlockingTxRx(
    uint8_t* txBuf,
    uint16_t txBufLen,
    uint8_t* rxBuf,
    uint16_t rxBufLen,
    uint16_t* actLen,
    uint32_t flags,
    uint32_t fwt);

ReturnCode rfalTransceiveBitsBlockingTx(
    uint8_t* txBuf,
    uint16_t txBufLen,
    uint8_t* rxBuf,
    uint16_t rxBufLen,
    uint16_t* actLen,
    uint32_t flags,
    uint32_t fwt);

/*****************************************************************************
 *  Listen Mode                                                              *  
 *****************************************************************************/

/*!
 *****************************************************************************
 * \brief Is external Field On
 * 
 * Checks if external field (other peer/device) is on/detected
 * 
 * \return true  External field is On
 * \return false No external field is detected
 * 
 *****************************************************************************
 */
bool rfalIsExtFieldOn(void);

/*!
 *****************************************************************************
 * \brief Listen Mode start
 * 
 * Configures RF Chip to go into listen mode enabling the given technologies
 * 
 * 
 * \param[in]  lmMask:    mask with the enabled/disabled listen modes
 *                        use: RFAL_LM_MASK_NFCA ; RFAL_LM_MASK_NFCB ; 
 *                             RFAL_LM_MASK_NFCF ; RFAL_LM_MASK_ACTIVE_P2P 
 * \param[in]  confA:     pointer to Passive A configurations (NULL if disabled)
 * \param[in]  confB:     pointer to Passive B configurations (NULL if disabled)
 * \param[in]  confF:     pointer to Passive F configurations (NULL if disabled)
 * \param[in]  rxBuf:     buffer to place incoming data
 * \param[in]  rxBufLen:  length in bits of rxBuf
 * \param[in]  rxLen:     pointer to write the data length in bits placed into rxBuf
 *  
 * 
 * \return ERR_PARAM    Invalid parameter
 * \return ERR_REQUEST  Invalid listen mode mask
 * \return ERR_NONE     Done with no error
 * 
 *****************************************************************************
 */
ReturnCode rfalListenStart(
    uint32_t lmMask,
    const rfalLmConfPA* confA,
    const rfalLmConfPB* confB,
    const rfalLmConfPF* confF,
    uint8_t* rxBuf,
    uint16_t rxBufLen,
    uint16_t* rxLen);

/*!
 *****************************************************************************
 * \brief Listen Mode start Sleeping
 * 
 * 
 *****************************************************************************
 */
ReturnCode
    rfalListenSleepStart(rfalLmState sleepSt, uint8_t* rxBuf, uint16_t rxBufLen, uint16_t* rxLen);

/*!
 *****************************************************************************
 * \brief Listen Mode Stop
 * 
 * Disables the listen mode on the RF Chip 
 * 
 * \warning the listen mode will be disabled immediately on the RFchip regardless 
 *          of any ongoing operations like Transceive
 * 
 * \return ERR_NONE Done with no error
 * 
 *****************************************************************************
 */
ReturnCode rfalListenStop(void);

/*!
 *****************************************************************************
 * \brief Listen Mode get state
 *
 * Sets the new state of the Listen Mode and applies the necessary changes 
 * on the RF Chip
 *
 * \param[out]  dataFlag: indicates that Listen Mode has rcvd data and caller
 *                         must process it. The received message is located
 *                         at the rxBuf passed on rfalListenStart().
 *                         rfalListenSetState() will clear this flag
 *                         if NULL output parameter will no be written/returned
 * \param[out]  lastBR:   bit rate detected  of the last initiator request 
 *                         if NULL output parameter will no be written/returned
 * 
 * \return rfalLmState  RFAL_LM_STATE_NOT_INIT : LM not initialized properly
 *                      Any Other              : LM State
 * 
 *****************************************************************************
 */
rfalLmState rfalListenGetState(bool* dataFlag, rfalBitRate* lastBR);

/*!
 *****************************************************************************
 * \brief Listen Mode set state
 *
 * Sets the new state of the Listen Mode and applies the necessary changes 
 * on the RF Chip
 *  
 * \param[in] newSt : New state to go to
 * 
 * \return ERR_WRONG_STATE : Not initialized properly
 * \return ERR_PARAM       : Invalid parameter
 * \return ERR_NONE        : Done with no error
 * 
 *****************************************************************************
 */
ReturnCode rfalListenSetState(rfalLmState newSt);

/*****************************************************************************
 *  Wake-Up Mode                                                             *  
 *****************************************************************************/

/*!
 *****************************************************************************
 * \brief Wake-Up Mode Start
 *
 * Sets the RF Chip in Low Power Wake-Up Mode according to the given 
 * configuration.
 * 
 * \param[in] config       : Generic Wake-Up configuration provided by lower 
 *                            layers. If NULL will automatically configure the 
 *                            Wake-Up mode
 * 
 * \return ERR_WRONG_STATE : Not initialized properly
 * \return ERR_PARAM       : Invalid parameter
 * \return ERR_NONE        : Done with no error
 * 
 *****************************************************************************
 */
ReturnCode rfalWakeUpModeStart(const rfalWakeUpConfig* config);

/*!
 *****************************************************************************
 * \brief Wake-Up Has Woke
 *
 * Returns true if the Wake-Up mode is enabled and it has already received 
 * the indication from the RF Chip that the surrounding environment has changed
 * and flagged at least one wake-Up interrupt
 * 
 * \return true  : Wake-Up mode enabled and has received a wake-up IRQ
 * \return false : no Wake-Up IRQ has been received
 * 
 *****************************************************************************
 */
bool rfalWakeUpModeHasWoke(void);

/*!
 *****************************************************************************
 * \brief Wake-Up Mode Stop
 *
 * Stops the Wake-Up Mode
 * 
 * \return ERR_WRONG_STATE : Not initialized properly
 * \return ERR_PARAM       : Invalid parameter
 * \return ERR_NONE        : Done with no error
 * 
 *****************************************************************************
 */
ReturnCode rfalWakeUpModeStop(void);

/*!
 *****************************************************************************
 * \brief Low Power Mode Start
 *
 * Sets the RF Chip in Low Power Mode. 
 * In this mode the RF Chip is placed in Low Power Mode, similar to Wake-up 
 * mode but no operation nor period measurement is performed.
 * Mode must be terminated by rfalLowPowerModeStop()
 * 
 * \return ERR_WRONG_STATE : Not initialized properly
 * \return ERR_PARAM       : Invalid parameter
 * \return ERR_NONE        : Done with no error
 * 
 *****************************************************************************
 */
ReturnCode rfalLowPowerModeStart(void);

/*!
 *****************************************************************************
 * \brief Low Power Mode Stop
 *
 * Stops the Low Power Mode re-enabling the device
 * 
 * \return ERR_WRONG_STATE : Not initialized properly
 * \return ERR_PARAM       : Invalid parameter
 * \return ERR_NONE        : Done with no error
 * 
 *****************************************************************************
 */
ReturnCode rfalLowPowerModeStop(void);

#endif /* RFAL_RF_H */

/**
  * @}
  *
  * @}
  *
  * @}
  */