FreeCalypso > hg > freecalypso-sw
view gsm-fw/serial/uartfax.h @ 309:a7087f91c752
DAR: all C modules compile without RVM_DAR_SWE
author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
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date | Mon, 17 Mar 2014 04:51:36 +0000 |
parents | afceeeb2cba1 |
children |
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/******************************************************************************* * * UARTFAX.H * * This driver allows to control the UARTs of chipset 1.5 for fax and data * It performs flow control: RTS/CTS, XON/XOFF. * * (C) Texas Instruments 1999 - 2003 * ******************************************************************************/ #ifndef __UARTFAX_H__ #define __UARTFAX_H__ #ifndef C_EXTERN #if 1 //(OP_L1_STANDALONE == 1) #define C_EXTERN extern #else #define C_EXTERN #endif #endif /* * In UAF_Init, a constant is used to identify the UART. */ typedef enum { UAF_UART_0, /* IrDA */ UAF_UART_1 /* Modem */ #if (CHIPSET == 12) , UAF_UART_2 /* Modem 2 */ #endif } T_fd_UartId; #if (CHIPSET == 12) #define NUMBER_OF_FD_UART (3) #else #define NUMBER_OF_FD_UART (2) #endif /******************************************************************************* * * UAF_Init * * Purpose : Initializes the UART hardware and installs interrupt handlers. * The parameters are set to the default values: * - 19200 baud, * - 8 bits / character, * - no parity, * - 1 stop bit, * - no flow control. * All functionalities of the UART driver are disabled. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_INTERNAL_ERR : Internal problem. * ******************************************************************************/ C_EXTERN T_FDRET UAF_Init (T_fd_UartId uartNo); /******************************************************************************* * * UAF_Enable * * Purpose : The functionalities of the UART driver are disabled or enabled. * In the deactivated state, all information about the communication * parameters should be stored and recalled if the driver is again * enabled. When the driver is enabled the RX and TX buffers are * cleared. * * Arguments: In : uartNo: Used UART. * : enable: 1: enable the driver * 0: disable the driver * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_Enable (T_fd_UartId uartNo, SYS_BOOL enable); /******************************************************************************* * * UAF_SetComPar * * Purpose : Sets up the communication parameters: baud rate, bits per * character, number of stop bits, parity. * * Arguments: In : uartNo : Used UART. * baudrate: Used baud rate. * bpc : Used bits per character. * sb : Used stop bits. * parity : Used parity. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: The specified parameters don't fit to the * capabilities of the UART or wrong UART number. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_SetComPar (T_fd_UartId uartNo, T_baudrate baudrate, T_bitsPerCharacter bpc, T_stopBits sb, T_parity parity); /******************************************************************************* * * UAF_SetBuffer * * Purpose : Sets up the size of the circular buffers to be used in the UART * driver. This function may be called only if the UART is disabled * with UAF_Enable. * * Arguments: In : uartNo : Used UART. * bufSize : Specifies the size of the circular buffer. * rxThreshold: Amount of received bytes that leads to a call * to suspended read-out function which is passed * to the function UAF_ReadData. * txThreshold: Amount of bytes in the TX buffer to call the * suspended write-in function which is passed to * the function UAF_WriteData * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: bufSize exceeds the maximal possible * capabilities of the driver or the threshold * values don't correspond to the bufSize or * wrong UART number. * FD_INTERNAL_ERR : Internal problem with the hardware or the * function has been called while the UART is * enabled. * ******************************************************************************/ C_EXTERN T_FDRET UAF_SetBuffer (T_fd_UartId uartNo, SYS_UWORD16 bufSize, SYS_UWORD16 rxThreshold, SYS_UWORD16 txThreshold); /******************************************************************************* * * UAF_SetFlowCtrl * * Purpose : Changes the flow control mode of the UART driver. * If a flow control is activated, DTR is activated or XOFF is sent * if the RX buffer is not able to store the received characters else * DTR is deactivated or XON is sent. * * Arguments: In : uartNo: Used UART. * fcMode: flow control mode (none, DTR/DSR, RTS/CTS, XON/XOFF). * XON : ASCII code of the XON character. * XOFF : ASCII code of the XOFF character. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: The flow control mode is not supported or wrong * UART number. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_SetFlowCtrl (T_fd_UartId uartNo, T_flowCtrlMode fcMode, SYS_UWORD8 XON, SYS_UWORD8 XOFF); /******************************************************************************* * * UAF_SetEscape * * Purpose : To return to the command mode at the ACI while a data connection * is established, an escape sequence has to be detected. * To distinguish between user data and the escape sequence a * defined guard period is necessary before and after this sequence. * * Arguments: In: uartNo : Used UART. * escChar : ASCII character which could appear three times * as an escape sequence. * guardPeriod: Denotes the minimal duration of the rest before * the first and after the last character of the * escape sequence, and the maximal receiving * duration of the whole escape string. This value * is expressed in ms. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_SetEscape (T_fd_UartId uartNo, SYS_UWORD8 escChar, SYS_UWORD16 guardPeriod); /******************************************************************************* * * UAF_InpAvail * * Purpose : Returns the number of characters available in the RX buffer of the * driver. If the driver is disabled the function returns 0. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : >= 0 : The returned value is the amount of data in the * RX buffer. * FD_NOT_SUPPORTED: Wrong UART number. * FD_NOT_READY : The function is called while the callback of the * readOutFunc function is activated and still not * terminated. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_InpAvail (T_fd_UartId uartNo); /******************************************************************************* * * UAF_OutpAvail * * Purpose : Returns the number of free characters in TX buffer of the driver. * If the driver is disabled the function returns 0. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : >= 0 : The returned value is the amount of data in the * TX buffer. * FD_NOT_SUPPORTED: Wrong UART number. * FD_NOT_READY : The function is called while the callback of the * writeInFunc function is activated and still not * terminated. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_OutpAvail (T_fd_UartId uartNo); /******************************************************************************* * * UAF_EnterSleep * * Purpose : Checks if UART is ready to enter Deep Sleep. If ready, enables * wake-up interrupt. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : 0 : Deep Sleep is not possible. * >= 1 : Deep Sleep is possible. * FD_NOT_SUPPORTED: Wrong UART number. * * Warning: Parameters are not verified. * ******************************************************************************/ C_EXTERN T_FDRET UAF_EnterSleep (T_fd_UartId uartNo); /******************************************************************************* * * UAF_WakeUp * * Purpose : Wakes up UART after Deep Sleep. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * * Warning: Parameters are not verified. * ******************************************************************************/ C_EXTERN T_FDRET UAF_WakeUp (T_fd_UartId uartNo); /******************************************************************************* * * UAF_ReadData * * Purpose : To read the received characters out of the RX buffer the address * of a function is passed. If characters are available, the driver * calls this function and pass the address and the amount of * readable characters. Because the RX buffer is circular, the * callback function may be called with more than one address of * buffer fragment. * The readOutFunc function modifies the contents of the size array * to return the driver the number of processed characters. Each * array entry is decremented by the number of bytes read in the * fragment. * If the UAF_ReadData is called while the RX buffer is empty, it * depends on the suspend parameter to suspend the call-back or to * leave without any operation. In the case of suspension, the * return value of UAF_ReadData is UAF_SUSPENDED. A delayed call-back * will be performed if: * - the RX buffer reachs the adjusted threshold (rxThreshold of * UAF_SetBuffer), * - the state of a V.24 input line has changed, * - a break is detected, * - an escape sequence is detected. * If no suspension is necessary the function returns the number of * processed bytes. * * Arguments: In : uartNo : Used UART. * suspend : mode of suspension in case of RX buffer empty. * readOutFunc: Callback function. * cldFromIrq: The driver sets this parameter to 1 * if the callback function is called * from an interrupt service routine. * reInstall : The call-back function sets this * parameter to rm_reInstall if the * driver must call again the callback * function when the RX threshold level * is reached. Else it will be set to * rm_noInstall. Before to call the * readOutFunc function this parameter * is set to rm_notDefined. * nsource : Informed the callback function about * the number of fragments which are * ready to copy from the circular RX * buffer. * source : Array which contains the addresses * of the fragments. * size : Array which contains the sizes of * each fragments. * state : The state parameter is the status * of the V.24 lines and the break / * escape detection. The state * parameter is described in the * specification of UAF_GetLineState. * Out: none * * Returns : >= 0 : Succesful operation. Amount of processed bytes. * FD_NOT_SUPPORTED: Wrong UART number. * FD_SUSPENDED : The callback is suspended until the buffer or * state condition changed. * FD_NOT_READY : The function is called while the callback is * activated and still not terminated. * FD_INTERNAL_ERR : Internal problems with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_ReadData (T_fd_UartId uartNo, T_suspendMode suspend, void (readOutFunc (SYS_BOOL cldFromIrq, T_reInstMode *reInstall, SYS_UWORD8 nsource, SYS_UWORD8 *source[], SYS_UWORD16 size[], SYS_UWORD32 state))); /******************************************************************************* * * UAF_WriteData * * Purpose : To write characters into the TX buffer the address of a function * is passed. If free space is available in the buffer, the driver * calls this function and passes the destination address and the * amount of space. Because the TX buffer is circular, the callback * function may be called with more than one address of buffer * fragment. * The writeInFunc function modifies the contents of the size array * to return the driver the number of processed bytes. Each array * entry is decremented by the number of bytes written in this * fragment. * If the UAF_WriteData function is called while the TX buffer is * full, it depends on the suspend parameter to suspend the * call-back or to leave this function without any operation. In the * case of suspension the returned value of the UAF_WriteData is * UAF_SUSPENDED. A delayed call-back will be performed if the TX * buffer reaches the adjusted threshold (txThreshold of * UAF_SetBuffer). If no suspension is necessary the function returns * the number of processed bytes. * * Arguments: In : uartNo : Used UART. * suspend : mode of suspension in case of TX buffer empty. * writeInFunc: Callback function. * cldFromIrq: The driver sets this parameter to 1 * if the call-back function is called * from an interrupt service routine. * reInstall : The callback function sets this * parameter to rm_reInstall if the * driver must call again the callback * function when the TX threshold level * is reached. Else it will be set to * rm_noInstall. Before to call the * writeInFunc function this parameter * is set to rm_notDefined. * ndest : Informed the callback function about * the number of fragments which are * available in the TX buffer. * dest : Array which contains the addresses * of the fragments. * size : Array which contains the sizes of * each fragments. * Out: none * * Returns : >= 0 : Succesful operation. Amount of processed bytes. * FD_NOT_SUPPORTED: Wrong UART number. * FD_SUSPENDED : The callback is suspended until the buffer * condition changed. * FD_NOT_READY : The function is called while the callback is * activated and still not terminated. * FD_INTERNAL_ERR : Internal problems with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_WriteData (T_fd_UartId uartNo, T_suspendMode suspend, void (writeInFunc (SYS_BOOL cldFromIrq, T_reInstMode *reInstall, SYS_UWORD8 ndest, SYS_UWORD8 *dest[], SYS_UWORD16 size[]))); /******************************************************************************* * * UAF_StopRec * * Purpose : If a flow control mode is set, this function tells the terminal * equipment that no more data can be received. * XON/XOFF: XOFF is sent. * DTR/DSR : DTR is desactivated. * RTS/CTS : RTS is deactivated. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_StopRec (T_fd_UartId uartNo); /******************************************************************************* * * UAF_StartRec * * Purpose : If a flow control mode is set, this function tells the terminal * equipment that the receiver is again able to receive more data. * If the buffer has already reached the high water mark the driver * sends the signal only if the buffer drains to a low water mark. * XON/XOFF: XON is sent. * DTR/DSR : DTR is activated. * RTS/CTS : RTS is activated. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_StartRec (T_fd_UartId uartNo); /******************************************************************************* * * UAF_GetLineState * * Purpose : Returns the state of the V.24 lines, the flow control state and * the result of the break/escape detection process as a bit field. * * Arguments: In : uartNo: Used UART. * Out: state : State of the V.24 lines, the flow control state and * the result of the break/escape sequence detection * process as a bit field. * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_NOT_READY : The function is called while the callback of * the readOutFunc function is activated and still * not terminated. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_GetLineState (T_fd_UartId uartNo, SYS_UWORD32 *state); /******************************************************************************* * * UAF_SetLineState * * Purpose : Sets the states of the V.24 status lines according to the bit * field of the parameter state. * * Arguments: In : uartNo: Used UART. * state : Bit field. Only the signals which are marked with * the 'set' access can be used to change the state of * the signal. * mask : Bit field with the same structure as state. Each bit * in state corresponds to a bit in mask. Settabled * bits marked by a 1 are manipulated by the driver. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_SetLineState (T_fd_UartId uartNo, SYS_UWORD32 state, SYS_UWORD32 mask); /******************************************************************************* * * UAF_InterruptHandler * * Purpose : Interrupt handler. * * Arguments: In : uart_id : origin of interrupt * interrupt_status: source of interrupt * Out: none * * Returns : none * ******************************************************************************/ C_EXTERN void UAF_InterruptHandler (T_fd_UartId uart_id, SYS_UWORD8 interrupt_status); /******************************************************************************* * * UAF_CheckXEmpty * * Purpose : Checks the empty condition of the Transmitter. * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : FD_OK : Empty condition OK. * FD_NOT_SUPPORTED: Wrong UART number. * FD_NOT_READY : Empty condition not OK. * FD_INTERNAL_ERR : Internal problem with the hardware. * ******************************************************************************/ C_EXTERN T_FDRET UAF_CheckXEmpty (T_fd_UartId uartNo); /******************************************************************************* * * UAF_DTRInterruptHandler * * Purpose : This function is only used on C-Sample. On this platform, the DTR * signal is controlled with an I/O. A change of state of this signal * is detected with an interrupt. This function is called when this * interrupt occurs. * * Arguments: In : none * Out: none * * Returns : none * ******************************************************************************/ void UAF_DTRInterruptHandler (void); /******************************************************************************* * * UAF_Exit * * Purpose : * * Arguments: In : uartNo: Used UART. * Out: none * * Returns : FD_OK : Successful operation. * FD_NOT_SUPPORTED: Wrong UART number. * FD_INTERNAL_ERR : Internal problem. * ******************************************************************************/ T_FDRET UAF_Exit (T_fd_UartId uartNo); #undef C_EXTERN #endif /* __UARTFAX_H__ */