//***************************************************************************** // // am_hal_scard.h //! @file //! //! @brief Functions for accessing and configuring the SCARD. //! //! @addtogroup scard3 //! @ingroup apollo3hal //! @{ // //***************************************************************************** //***************************************************************************** // // Copyright (c) 2020, Ambiq Micro // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its // contributors may be used to endorse or promote products derived from this // software without specific prior written permission. // // Third party software included in this distribution is subject to the // additional license terms as defined in the /docs/licenses directory. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE // ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER 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. // // This is part of revision 2.4.2 of the AmbiqSuite Development Package. // //***************************************************************************** #ifndef AM_HAL_SCARD_H #define AM_HAL_SCARD_H #ifdef __cplusplus extern "C" { #endif //***************************************************************************** // // CMSIS-style macro for handling a variable SCARD module number. // //***************************************************************************** #define SCARDn(n) ((SCARD_Type*)(SCARD_BASE + (n * (SCARD_BASE - SCARD_BASE)))) //***************************************************************************** // // Initial character TS // //***************************************************************************** #define AM_HAL_SCARD_DIR_MSB 0x3F //(H)LHHL LLL LLH, state L encodes value 1, msb #define AM_HAL_SCARD_DIR_LSB 0x3B //(H)LHHL HHH LLH, state H encodes value 1, lsb //***************************************************************************** // // Informations provided by T0 // //***************************************************************************** #define AM_HAL_SCARD_T0_BIT_TA1_MASK (1 << 4) #define AM_HAL_SCARD_T0_BIT_TB1_MASK (1 << 5) #define AM_HAL_SCARD_T0_BIT_TC1_MASK (1 << 6) #define AM_HAL_SCARD_T0_BIT_TD1_MASK (1 << 7) #define AM_HAL_SCARD_TA1_PRESENCE(T0) (((T0) & AM_HAL_SCARD_T0_BIT_TA1_MASK) == AM_HAL_SCARD_T0_BIT_TA1_MASK) #define AM_HAL_SCARD_TB1_PRESENCE(T0) (((T0) & AM_HAL_SCARD_T0_BIT_TB1_MASK) == AM_HAL_SCARD_T0_BIT_TB1_MASK) #define AM_HAL_SCARD_TC1_PRESENCE(T0) (((T0) & AM_HAL_SCARD_T0_BIT_TC1_MASK) == AM_HAL_SCARD_T0_BIT_TC1_MASK) #define AM_HAL_SCARD_TD1_PRESENCE(T0) (((T0) & AM_HAL_SCARD_T0_BIT_TD1_MASK) == AM_HAL_SCARD_T0_BIT_TD1_MASK) #define AM_HAL_SCARD_HISTORY_LEN(T0) ((T0)&0x0F) //***************************************************************************** // // Protocol type T // //***************************************************************************** #define AM_HAL_SCARD_PROTOCOL_T0 0 #define AM_HAL_SCARD_PROTOCOL_T1 1 #define AM_HAL_SCARD_PROTOCOL_T15 15 #define AM_HAL_SCARD_PROTOCOL_DEFAULT AM_HAL_SCARD_PROTOCOL_T0 //***************************************************************************** // // Structure and content of PPS request and PPS confirm // //***************************************************************************** #define AM_HAL_SCARD_CLA_PPS 0xFF #define AM_HAL_SCARD_PPS1_PRESENCE(PPS0) (((PPS0) & (1 << 4)) == (1 << 4)) #define AM_HAL_SCARD_PPS2_PRESENCE(PPS0) (((PPS0) & (1 << 5)) == (1 << 5)) #define AM_HAL_SCARD_PPS3_PRESENCE(PPS0) (((PPS0) & (1 << 6)) == (1 << 6)) //***************************************************************************** // // Informations provided by TA1 // //***************************************************************************** #define AM_HAL_SCARD_FI(TA1) (((TA1) >> 4) & 0x0F) #define AM_HAL_SCARD_DI(TA1) (((TA1) >> 0) & 0x0F) #define AM_HAL_SCARD_FI_DI_DEFAULT 0x11 //***************************************************************************** // // Informations provided by TDi // //***************************************************************************** #define AM_HAL_SCARD_TDi_BIT_TAiP1_MASK (1 << 4) #define AM_HAL_SCARD_TDi_BIT_TBiP1_MASK (1 << 5) #define AM_HAL_SCARD_TDi_BIT_TCiP1_MASK (1 << 6) #define AM_HAL_SCARD_TDi_BIT_TDiP1_MASK (1 << 7) #define AM_HAL_SCARD_TAiP1_PRESENCE(TDi) (((TDi) & AM_HAL_SCARD_TDi_BIT_TAiP1_MASK) == AM_HAL_SCARD_TDi_BIT_TAiP1_MASK) #define AM_HAL_SCARD_TBiP1_PRESENCE(TDi) (((TDi) & AM_HAL_SCARD_TDi_BIT_TBiP1_MASK) == AM_HAL_SCARD_TDi_BIT_TBiP1_MASK) #define AM_HAL_SCARD_TCiP1_PRESENCE(TDi) (((TDi) & AM_HAL_SCARD_TDi_BIT_TCiP1_MASK) == AM_HAL_SCARD_TDi_BIT_TCiP1_MASK) #define AM_HAL_SCARD_TDiP1_PRESENCE(TDi) (((TDi) & AM_HAL_SCARD_TDi_BIT_TDiP1_MASK) == AM_HAL_SCARD_TDi_BIT_TDiP1_MASK) #define AM_HAL_SCARD_PROTOCOL_TYPE(TDi) ((TDi) & 0x0F) #define AM_HAL_SCARD_MAX_ATR_LENGTH 33 //1+32 #define AM_HAL_SCARD_MAX_PPS_LENGTH 6 #define AM_HAL_SCARD_APDU_HEADER_LENGTH 5 #define AM_HAL_SCARD_SW_LENGTH 2 //***************************************************************************** // // TypeDefs // //***************************************************************************** typedef struct { uint8_t pps0; uint8_t pps1; uint8_t pps2; uint8_t pps3; }am_hal_scard_pps_t; typedef struct { uint8_t cla; uint8_t ins; uint8_t p1; uint8_t p2; uint8_t p3; }am_hal_scard_header_t; typedef struct { am_hal_scard_header_t header; uint8_t data[256]; }am_hal_scard_tpdu_t; typedef union { struct { uint8_t s0; uint8_t s1; }element; uint16_t entirety; }am_hal_scard_sw_t; typedef enum { AM_HAL_SCARD_CONV_AUTO, AM_HAL_SCARD_CONV_LSB_0X3B, AM_HAL_SCARD_CONV_MSB_0X3F }am_hal_scard_cardformat_e; typedef enum { AM_HAL_SCARD_EVEN, AM_HAL_SCARD_ODD }am_hal_scard_parity_e; typedef enum { AM_HAL_SCARD_APDU_CLA, AM_HAL_SCARD_APDU_INS, AM_HAL_SCARD_APDU_P1, AM_HAL_SCARD_APDU_P2, AM_HAL_SCARD_APDU_LC }am_hal_scard_apdu_header_e; //***************************************************************************** // // Definitions // //***************************************************************************** #define SCARD_RST_LOW_TIME 42000 #define AM_HAL_SCARD_PARITY_ENABLE 0x10 //***************************************************************************** // // SCARD configuration options. // //***************************************************************************** typedef struct { // // Standard SCARD options. // uint32_t ui32Fidi; uint32_t ui32Protocol; uint32_t ui32Direction; uint32_t ui32Parity; uint32_t ui32GuardTime; uint32_t ui32ClkLevel; // // Timeouts // uint32_t ui32TxTimeout; uint32_t ui32RxTimeout; // // Buffers // uint8_t *pui8TxBuffer; uint32_t ui32TxBufferSize; uint8_t *pui8RxBuffer; uint32_t ui32RxBufferSize; } am_hal_scard_config_t; typedef enum { AM_HAL_SCARD_REQ_ACTIVATE = 0, AM_HAL_SCARD_REQ_DEACTIVATE, AM_HAL_SCARD_REQ_BAUDRATE, AM_HAL_SCARD_REQ_CARD_FORMAT, AM_HAL_SCARD_REQ_PARITY, AM_HAL_SCARD_REQ_PROTOCOL, AM_HAL_SCARD_REQ_GUARDTIME, AM_HAL_SCARD_REQ_CLK_START, AM_HAL_SCARD_REQ_CLK_STOP, AM_HAL_SCARD_REQ_MAX }am_hal_scard_request_e; //***************************************************************************** // // @brief SCARD transfer structure. // // This structure describes a SCARD transaction that can be performed by \e // am_hal_scard_transfer() // //***************************************************************************** typedef struct { //! Determines whether data should be read or written. //! //! Should be either AM_HAL_SCARD_WRITE or AM_HAL_SCARD_READ uint32_t ui32Direction; //! Pointer to data to be sent, or space to fill with received data. uint8_t *pui8Data; //! Number of bytes to send or receive. uint32_t ui32NumBytes; //! Timeout in milliseconds. //! //! Given a timeout value, the \e am_hal_scard_transfer() function will keep //! trying to transfer data until either the number of bytes is satisfied, //! or the time runs out. If provided with a value of zero, the transfer //! function will only send as much data as it can immediately deal with. //! If provided with a timeout value of \e AM_HAL_SCARD_WAIT_FOREVER, the //! function will block until either the final "read" byte is received or //! the final "write" byte is placed in the output buffer. uint32_t ui32TimeoutMs; //! Number of bytes successfully transferred. uint32_t *pui32BytesTransferred; } am_hal_scard_transfer_t; //***************************************************************************** // // Scard transfer options. // //***************************************************************************** #define AM_HAL_SCARD_WRITE 1 #define AM_HAL_SCARD_READ 0 #define AM_HAL_SCARD_WAIT_MAX_TIME 0xFFFF #define AM_HAL_SCARD_WAIT_FOREVER 0xFFFFFFFF #define AM_HAL_SCARD_CLK_FREQ 3000000 //***************************************************************************** // // SCARD interrupts. // //***************************************************************************** #define AM_HAL_SCARD_INT_FHFEN SCARD_IER_FHFEN_Msk #define AM_HAL_SCARD_INT_FT2RENDEN SCARD_IER_FT2RENDEN_Msk #define AM_HAL_SCARD_INT_PEEN SCARD_IER_PEEN_Msk #define AM_HAL_SCARD_INT_OVREN SCARD_IER_OVREN_Msk #define AM_HAL_SCARD_INT_FEREN SCARD_IER_FEREN_Msk #define AM_HAL_SCARD_INT_TBERBFEN SCARD_IER_TBERBFEN_Msk #define AM_HAL_SCARD_INT_FNEEN SCARD_IER_FNEEN_Msk #define AM_HAL_SCARD_INT_SYNCENDEN SCARD_IER1_SYNCENDEN_Msk #define AM_HAL_SCARD_INT_PRLEN SCARD_IER1_PRLEN_Msk #define AM_HAL_SCARD_INT_ECNTOVEREN SCARD_IER1_ECNTOVEREN_Msk #define AM_HAL_SCARD_INT_ALL 0xFFFFFFFF //***************************************************************************** // //! @name SCARD Status Register //! @brief Macro definitions for SCARD Status Register Bits. // //***************************************************************************** #define AM_HAL_SCARD_SR_TX_EMPTY (_VAL2FLD(SCARD_SR_TBERBF, 1)) #define AM_HAL_SCARD_SR_RX_FULL (_VAL2FLD(SCARD_SR_TBERBF, 1)) #define AM_HAL_SCARD_SR_RX_HALF_FULL (_VAL2FLD(SCARD_SR_FHF, 1)) #define AM_HAL_SCARD_SR_RX_NOT_EMPTY (_VAL2FLD(SCARD_SR_FNE, 1)) #define AM_HAL_SCARD_SR_FT2REND (_VAL2FLD(SCARD_SR_FT2REND, 1)) #define AM_HAL_SCARD_SR_IDLE (_VAL2FLD(SCARD_SR1_IDLE, 1)) //***************************************************************************** // // SCC FIFO size for Apollo3. // //***************************************************************************** #define AM_HAL_SCARD_FIFO_MAX 8 //***************************************************************************** // //! @brief Initialize the SCARD interface. //! //! @param ui32Module is the module number for the SCARD to initialize. //! @param ppHandle is the location to write the SCARD handle. //! //! This function sets internal tracking variables associated with a specific //! SCARD module. It should be the first SCARD API called for each SCARD module in //! use. The handle can be used to interact with the SCARD //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_initialize(uint32_t ui32Module, void **ppHandle); //***************************************************************************** // //! @brief Deinitialize the SCARD interface. //! //! @param pHandle is a previously initialized SCARD handle. //! //! This function effectively disables future calls to interact with the SCARD //! refered to by \e pHandle. The user may call this function if SCARD operation //! is no longer desired. //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_deinitialize(void *pHandle); //***************************************************************************** // //! @brief Change the power state of the SCARD module. //! //! @param pHandle is the handle for the SCARD to operate on. //! @param ePowerstate is the desired power state of the SCARD. //! @parame bRetainState is a flag to ask the HAL to save SCARD registers. //! //! This function can be used to switch the power to the SCARD on or off. If \e //! bRetainState is true during a powerdown operation, it will store the SCARD //! configuration registers to SRAM, so it can restore them on power-up. //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_power_control(void *pHandle, am_hal_sysctrl_power_state_e ePowerState, bool bRetainState); //***************************************************************************** // //! @brief Used to configure basic SCARD settings. //! //! @param pHandle is the handle for the SCARD to operate on. //! @param psConfig is a structure of SCARD configuration options. //! //! This function takes the options from an \e am_hal_scard_config_t structure, //! and applies them to the SCARD referred to by \e pHandle. //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_configure(void *pHandle, am_hal_scard_config_t *psConfig); //***************************************************************************** // //! @brief Transfer data through the SCARD interface. //! //! @param pHandle is the handle for the SCARD to operate on. //! @param am_hal_scard_transfer_t is a structure describing the operation. //! //! This function executes a transaction as described by the \e //! am_hal_scard_transfer_t structure. It can either read or write, and it will //! take advantage of any buffer space provided by the \e //! am_hal_scard_configure() function. //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_transfer(void *pHandle, const am_hal_scard_transfer_t *pTransfer); //***************************************************************************** // //! @brief Wait for the SCARD TX to become idle //! //! @param pHandle is the handle for the SCARD to operate on. //! //! This function waits (polling) for all data in the SCARD TX FIFO and SCARD TX //! buffer (if configured) to be fully sent on the physical SCARD interface. //! This is not the most power-efficient way to wait for SCARD idle, but it can be //! useful in simpler applications, or where power-efficiency is less important. //! //! Once this function returns, the SCARD can be safely disabled without //! interfering with any previous transmissions. //! //! For a more power-efficient way to shut down the SCARD, check the //! \e am_hal_scard_interrupt_service() function. //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_tx_flush(void *pHandle); //***************************************************************************** // //! @brief This function handles the SCARD buffers during SCARD interrupts. //! //! @param pHandle is the handle for the SCARD to operate on. //! @param ui32Status is the interrupt status at the time of ISR entry. //! @param pui32ScardTxIdle can be used to store the SCARD idle status. //! //! The main purpose of this function is to manage the SCARD buffer system. Any //! buffers configured by \e am_hal_scard_buffer_configure will be managed by //! this service routine. Data queued for transmit will be added to the SCARD TX //! FIFO as space allows, and data stored in the SCARD RX FIFO will be copied //! out and stored in the RX buffer. This function will skip this transfer for //! any buffer that has not been configured. //! //! In addition, this function can be used to alert the caller when the SCARD //! becomes idle via the optional \e pui32ScardTxIdle argument. This function //! will set this variable any time it completes its operation and the SCARD TX //! channel is no longer in use (including both the FIFO and any configured //! buffer). //! //! For RTOS-enabled cases, this function does not necessarily need to be //! called inside the actual ISR for the SCARD, but it should be called promptly //! in response to the receipt of a SCARD TX, RX, or RX timeout interrupt. If //! the service routine is not called quickly enough, the caller risks an RX //! FIFO overflow (data can be lost here), or a TX FIFO underflow (usually not //! harmful). //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_interrupt_service(void *pHandle, uint32_t ui32Status, uint32_t *pui32ScardTxIdle); //***************************************************************************** // //! @brief Enable interrupts. //! //! @param pHandle is the handle for the SCARD to operate on. //! @param ui32IntMask is the bitmask of interrupts to enable. //! //! This function enables the SCARD interrupt(s) given by ui32IntMask. If //! multiple interrupts are desired, they can be OR'ed together. //! //! @note This function need not be called for SCARD FIFO interrupts if the SCARD //! buffer service provided by \e am_hal_scard_buffer_configure() and \e //! am_hal_scard_interrupt_service() is already in use. Non-FIFO-related //! interrupts do require the use of this function. //! //! The full list of interrupts is given by the following: //! //! @code //! //! AM_HAL_SCARD_INT_FHFEN //! AM_HAL_SCARD_INT_FT2RENDEN //! AM_HAL_SCARD_INT_PEEN //! AM_HAL_SCARD_INT_OVREN //! AM_HAL_SCARD_INT_FEREN //! AM_HAL_SCARD_INT_TBERBFEN //! AM_HAL_SCARD_INT_FNEEN //! AM_HAL_SCARD_INT_SYNCENDEN //! AM_HAL_SCARD_INT_PRLEN //! AM_HAL_SCARD_INT_ECNTOVEREN //! //! @endcode //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_interrupt_enable(void *pHandle, uint32_t ui32Index, uint32_t ui32IntMask); //***************************************************************************** // //! @brief Disable interrupts. //! //! @param pHandle is the handle for the SCARD to operate on. //! @param ui32IntMask is the bitmask of interrupts to disable. //! //! This function disables the SCARD interrupt(s) given by ui32IntMask. If //! multiple interrupts need to be disabled, they can be OR'ed together. //! //! @note This function need not be called for SCARD FIFO interrupts if the SCARD //! buffer service provided by \e am_hal_scard_buffer_configure() and \e //! am_hal_scard_interrupt_service() is already in use. Non-FIFO-related //! interrupts do require the use of this function. //! //! The full list of interrupts is given by the following: //! //! @code //! //! AM_HAL_SCARD_INT_FHFEN //! AM_HAL_SCARD_INT_FT2RENDEN //! AM_HAL_SCARD_INT_PEEN //! AM_HAL_SCARD_INT_OVREN //! AM_HAL_SCARD_INT_FEREN //! AM_HAL_SCARD_INT_TBERBFEN //! AM_HAL_SCARD_INT_FNEEN //! AM_HAL_SCARD_INT_SYNCENDEN //! AM_HAL_SCARD_INT_PRLEN //! AM_HAL_SCARD_INT_ECNTOVEREN //! //! @endcode //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_interrupt_disable(void *pHandle, uint32_t ui32Index, uint32_t ui32IntMask); //***************************************************************************** // //! @brief Clear interrupt status. //! //! @param pHandle is the handle for the SCARD to operate on. //! @param ui32IntMask is the bitmask of interrupts to clear. //! //! This function clears the SCARD interrupt(s) given by ui32IntMask. If //! multiple interrupts need to be cleared, they can be OR'ed together. //! //! The full list of interrupts is given by the following: //! //! @code //! //! AM_HAL_SCARD_INT_FHFEN //! AM_HAL_SCARD_INT_FT2RENDEN //! AM_HAL_SCARD_INT_PEEN //! AM_HAL_SCARD_INT_OVREN //! AM_HAL_SCARD_INT_FEREN //! AM_HAL_SCARD_INT_TBERBFEN //! AM_HAL_SCARD_INT_FNEEN //! AM_HAL_SCARD_INT_SYNCENDEN //! AM_HAL_SCARD_INT_PRLEN //! AM_HAL_SCARD_INT_ECNTOVEREN //! //! @endcode //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_interrupt_clear(void *pHandle, uint32_t ui32Index, uint32_t ui32IntMask); //***************************************************************************** // //! @brief Read interrupt status. //! //! @param pHandle is the handle for the SCARD to operate on. //! //! @param pui32Status is the returned interrupt status (all bits OR'ed //! together) //! //! @param bEnabled determines whether to read interrupts that were not //! enabled. //! //! This function reads the status the SCARD interrupt(s) if \e bEnabled is //! true, it will only return the status of the enabled interrupts. Otherwise, //! it will return the status of all interrupts, enabled or disabled. //! //! The full list of interrupts is given by the following: //! //! @code //! //! AM_HAL_SCARD_INT_FHFEN //! AM_HAL_SCARD_INT_FT2RENDEN //! AM_HAL_SCARD_INT_PEEN //! AM_HAL_SCARD_INT_OVREN //! AM_HAL_SCARD_INT_FEREN //! AM_HAL_SCARD_INT_TBERBFEN //! AM_HAL_SCARD_INT_FNEEN //! AM_HAL_SCARD_INT_SYNCENDEN //! AM_HAL_SCARD_INT_PRLEN //! AM_HAL_SCARD_INT_ECNTOVEREN //! //! @endcode //! //! @return AM_HAL_STATUS_SUCCESS or applicable SCARD errors. // //***************************************************************************** extern uint32_t am_hal_scard_interrupt_status_get(void *pHandle, uint32_t ui32Index, uint32_t *pui32Status); extern uint32_t am_hal_scard_control(void *pHandle, am_hal_scard_request_e eReq, void *pArgs); typedef enum { AM_HAL_SCARD_STATUS_BUS_ERROR = AM_HAL_STATUS_MODULE_SPECIFIC_START, AM_HAL_SCARD_STATUS_RX_QUEUE_FULL, AM_HAL_SCARD_STATUS_PROTOCAL_NOT_SUPPORT, } am_hal_scard_errors_t; #ifdef __cplusplus } #endif #endif // AM_HAL_SCARD_H //***************************************************************************** // // End Doxygen group. //! @} // //*****************************************************************************