FreeCalypso > hg > fc-tourmaline
view src/g23m-aci/aci/cmh_uarts.c @ 75:8697f358f505
backlight rework: Condat light driver accepts levels
The present change is another intermediate step on the path toward
new FreeCalypso backlight handling. At this intermediate step the
Condat light driver accepts 0-255 backlight levels driven by MFW,
and puts them out on PWL on Luna development boards. At the same
time on C139 it is now possible to turn on the display backlight
with or without the keypad bl - the lsb of the 0-255 backlight level
controls the keypad bl.
MFW presently drives only 0 and 255 backlight levels, thus there is
no visible behavioral change yet - but the plan for subsequent stages
of this backlight rework is to add a dimmed backlight state
(no keypad bl on C139) during active calls.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 24 Oct 2020 20:44:04 +0000 |
parents | fa8dc04885d8 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : CMH_UARTS +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : +----------------------------------------------------------------------------- */ #ifdef UART #ifndef CMH_UARTS_C #define CMH_UARTS_C #endif #include "aci_all.h" /*==== INCLUDES ===================================================*/ #include "aci_cmh.h" #include "ati_cmd.h" #include "aci_cmd.h" #include "dti.h" /* functionality of the dti library */ #include "aci.h" #include "psa.h" #include "aci_fd.h" #include "cmh.h" #include "aci_lst.h" #include "dti_conn_mng.h" #include "dti_cntrl_mng.h" #include "psa_uart.h" #include "cmh_uart.h" #include "sap_dti.h" #ifdef FF_PSI #include "psa_psi.h" #include "cmh_psi.h" #endif /*FF_PSI*/ #include "aci_mem.h" #include "aci_io.h" #include "l4_tim.h" #include "psa_cc.h" typedef struct /* + IPR parameter */ { T_ACI_BD_RATE rate; T_ACI_CMD_SRC srcId; } T_ACI_IPR; EXTERN T_ACI_LIST *ati_src_list; /*==== CONSTANTS ==================================================*/ /*==== EXPORT =====================================================*/ EXTERN char *cmdErrStr; /* Error Message */ static T_ACI_IPR uart_ipr_param; EXTERN CHAR *cmdAtError (AtErrCode e); /*==== VARIABLES ==================================================*/ GLOBAL T_ACI_LIST *uart_src_params = NULL; GLOBAL T_ACI_UART_MUX_PARMS holdMuxParms; /* * uart_com_par: Lists all COM parameter for every device. * * This list is only used so long as the UART SAP don't support parameter getting. * */ GLOBAL T_ACI_LIST *uart_com_par = NULL; /*==== FUNCTIONS ==================================================*/ GLOBAL void cmhUART_lst_init (void) { TRACE_FUNCTION ("cmhUART_lst_init()"); uart_src_params = new_list (); /*psi_src_params = new_list();*/ if ( !uart_com_par ) uart_com_par = new_list (); /* if (!psi_dev_list) psi_dev_list = new_list();*/ } GLOBAL T_ACI_BD_RATE convert_mux_port_speed (UBYTE mux_port_speed) { switch (mux_port_speed) { case 1: return (BD_RATE_9600); case 2: return (BD_RATE_19200); case 3: return (BD_RATE_38400); case 4: return (BD_RATE_57600); case 5: return (BD_RATE_115200); default: return (BD_RATE_NotPresent); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_PHBS | | STATE : code ROUTINE : sAT_PlusCMUX | +-------------------------------------------------------------------+ PURPOSE : This is the functional counterpart of the +CMUX AT command which is responsible for starting multiplexing transactions. */ GLOBAL T_ACI_RETURN sAT_PlusCMUX ( T_ACI_CMD_SRC srcId, UBYTE mode, UBYTE subset, UBYTE port_speed, USHORT N1, UBYTE T1, UBYTE N2, UBYTE T2, UBYTE T3 ) { #ifdef DTI T_ACI_DTI_PRC *src_infos = NULL; T_ACI_UART_MUX_PARMS *MuxParms = NULL; T_ATI_SRC_PARAMS *src_params = find_element (ati_src_list, (UBYTE)srcId, search_ati_src_id); TRACE_FUNCTION ("sAT_PlusCMUX()"); if(!cmh_IsVldCmdSrc (srcId)) { return (AT_FAIL); } src_infos = find_element (uart_src_params, (UBYTE)srcId, cmhUARTtest_srcId); if (src_infos EQ NULL) { TRACE_EVENT_P1("[ERR] sAT_PlusCMUX(): srcId=%d not found", srcId) ; return (AT_FAIL); } /* * AT+CMUX needs to get the answer OK before it sends the * primitives to UART, because channel is then already closed. */ io_sendConfirm ( (UBYTE)srcId, cmdAtError ( atOk ), ATI_NORMAL_OUTPUT ); cmdErrStr = NULL; ACI_MALLOC( src_infos ->MuxParms, sizeof(T_ACI_UART_MUX_PARMS) ); MuxParms = src_infos -> MuxParms; /* memorize parameters */ MuxParms->mode = mode; MuxParms->subset = subset; MuxParms->port_speed = port_speed; MuxParms->N1 = N1; MuxParms->T1 = T1; MuxParms->N2 = N2; MuxParms->T2 = T2; MuxParms->T3 = T3; if ((src_infos->data_buffer.data_list EQ NULL) AND (aci_src_dti_params[srcId].dtxState EQ READY) ) { uartEntcurCmd[srcId] = AT_CMD_NONE; if ((cmhUART_CMUX (srcId)) EQ FALSE) { /* * we already sent an OK according to GSM 27.010, but now the muxer is not ready ! * this AT_FAIL results in a ATI_FAIL_NO_OUTPUT at function setatPlusCMUX(). * so, what will the source do in this case ? */ TRACE_EVENT("[ERR] sAT_PlusCMUX()(): UART muxer not ready"); return (AT_FAIL); } } else { /*Now we wait for the dtx state to be ready and the multiplexer will be started from function sig_dti_tx_buffer_ready_ind() after the data buffer of the source is emptied*/ uartEntcurCmd[srcId] = AT_CMD_CMUX; } return ( AT_EXCT ); #else return ( AT_FAIL ); #endif /* DTI */ } GLOBAL T_ACI_RETURN qAT_PlusCMUX ( T_ACI_CMD_SRC srcId, UBYTE *mode, UBYTE *subset, UBYTE *port_speed, USHORT *N1, UBYTE *T1, UBYTE *N2, UBYTE *T2, UBYTE *T3 ) { TRACE_FUNCTION ("qAT_PlusCMUX()"); if ( (holdMuxParms.mode EQ 0) AND (holdMuxParms.subset EQ 0) AND (holdMuxParms.port_speed EQ 0) AND (holdMuxParms.N1 EQ 0) AND (holdMuxParms.T1 EQ 0) AND (holdMuxParms.N2 EQ 0) AND (holdMuxParms.T2 EQ 0) AND (holdMuxParms.T3 EQ 0) ) { TRACE_FUNCTION("No Mux is enabled"); return (AT_FAIL); } *mode = holdMuxParms.mode; *subset = holdMuxParms.subset; *port_speed = holdMuxParms.port_speed; *N1 = holdMuxParms.N1; *T1 = holdMuxParms.T1; *N2 = holdMuxParms.N2; *T2 = holdMuxParms.T2; *T3 = holdMuxParms.T3; return ( AT_CMPL ); } GLOBAL BOOL cmhUART_CMUX (T_ACI_CMD_SRC srcId) { T_ACI_DTI_PRC *src_infos = NULL; T_ACI_BD_RATE speed = BD_RATE_NotPresent; TRACE_FUNCTION ("cmhUART_CMUX()"); src_infos = find_element (uart_src_params, (UBYTE)srcId, cmhUARTtest_srcId); if (src_infos EQ NULL) { TRACE_EVENT_P1("[ERR] sAT_PlusCMUX(): srcId=%d not found", srcId) ; return (FALSE); } if (cmhUART_stopConnection ((UBYTE)srcId)) { if (src_infos->MuxParms) { speed = convert_mux_port_speed (src_infos->MuxParms->port_speed); if ( speed NEQ BD_RATE_NotPresent ) { /* * at first we have to change the baud rate (primitive to UART) */ if (cmhUART_SetDataRate ((UBYTE)srcId, speed) EQ AT_EXCT) { return (TRUE); } else { TRACE_EVENT("[ERR] cmhUART_CMUX(): not able to change baud rate"); return (FALSE); } } /* * void function, sends the UART_MUX_START_REQ primitive * return value is handled by the confirmation */ psaUART_StartMux( src_infos->device, src_infos->MuxParms->mode, src_infos->MuxParms->subset, src_infos->MuxParms->N1, src_infos->MuxParms->T1, src_infos->MuxParms->N2, src_infos->MuxParms->T2, src_infos->MuxParms->T3); memcpy( (CHAR *)&holdMuxParms, (CHAR *)src_infos->MuxParms, sizeof(T_ACI_UART_MUX_PARMS)); ACI_MFREE( src_infos->MuxParms ); src_infos->MuxParms = NULL; return (TRUE); } else { TRACE_EVENT("[ERR] cmhUART_CMUX(): no muxer parameters available"); } } else { TRACE_EVENT("[ERR] cmhUART_CMUX(): not able to stop UART connection"); } return (FALSE); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_DTIS | | ROUTINE : cmhUART_getdata | +-------------------------------------------------------------------+ PURPOSE : tell DTI that ACI is ready to receive more datas. */ GLOBAL void cmhUART_getdata ( T_ACI_CMD_SRC srcId ) { TRACE_FUNCTION ("cmhUART_getdata"); #ifdef RMV_01_04_03 #ifdef FF_TWO_UART_PORTS if (srcId NEQ UART_DATA_CHANNEL) { psaDTI_getdata ( (UBYTE)srcId, DTI_ENTITY_UART); } #else psaDTI_getdata ( (UBYTE)srcId, DTI_ENTITY_UART); #endif #endif psaDTI_getdata ( (UBYTE)srcId, DTI_ENTITY_UART); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_DTIS | | ROUTINE : cmhUART_startConnection | +-------------------------------------------------------------------+ PURPOSE : start a DTI connection with UART. */ GLOBAL void cmhUART_startConnection (UBYTE srcId, T_ACI_DEVICE_TYPE device_type) { T_ACI_DTI_PRC *src_infos; T_ACI_DEVICE_ENTRY *device_entry; T_ACI_DEVICE_TYPE curr_device_type; T_DTI_ENTITY_ID entity_list[] = {DTI_ENTITY_ACI}; TRACE_FUNCTION ("cmhUART_startConnection ()"); src_infos = find_element (uart_src_params, (UBYTE)srcId, cmhUARTtest_srcId); if (src_infos EQ NULL) { TRACE_EVENT_P1("[ERR] cmhUART_startConnection: srcId=%d not found", srcId) ; return ; } device_entry = cmhUART_GetDeviceParOverDevice( src_infos->device ); if ( device_entry EQ NULL ) { TRACE_EVENT_P1("[ERR] cmhUART_startConnection: device=%d not found", src_infos->device) ; return; } curr_device_type = cmhUART_GetDeviceType (srcId); switch (curr_device_type) { case DEVICE_TYPE_UNKNOWN: /* register device to the DTI Control Manager */ #ifdef DTI dti_cntrl_new_device ( srcId, /* ATI source ID */ DTI_ENTITY_UART, /* device ID */ src_infos->device, /* device number */ src_infos->dlci, /* sub-channel number */ DTI_PORT_NUMBER_NOTPRESENT, /* ATI-RIV port number */ DTI_CPBLTY_CMD | DTI_CPBLTY_SER, /* capabilities */ DTI_DRIVER_ID_NOTPRESENT, DTI_DIO_ID_NOTPRESENT); #endif /* DTI */ /* set device type */ cmhUART_ChangeDeviceType (srcId, device_type); break; default: break; } /* switch */ if (device_type EQ DEVICE_TYPE_URT) { /* initialize UART */ psaUART_SetParameters (src_infos->device, &device_entry->comPar); /* has to wait for confirmation before setting DTI channel */ return; } #ifdef DTI /* request of a DTI channel to communicate with UART */ dti_cntrl_est_dpath_indirect ( src_infos->srcId, entity_list, 1, SPLIT, atiUART_dti_cb, DTI_CPBLTY_CMD, DTI_CID_NOTPRESENT); #endif } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_DTIS | | ROUTINE : cmhUART_stopConnection | +-------------------------------------------------------------------+ PURPOSE : stop a DTI connection with UART. */ GLOBAL BOOL cmhUART_stopConnection (UBYTE srcId) { T_ACI_DTI_PRC *src_infos; TRACE_FUNCTION ("cmhUART_stopConnection()"); src_infos = find_element (uart_src_params, (UBYTE)srcId, cmhUARTtest_srcId); if (src_infos EQ NULL) { TRACE_EVENT_P1("[ERR] cmhUART_stopConnection: srcId=%d not found", srcId) ; return (FALSE); } src_infos->LineState = LINE_DISCONNECTED; if (cmhUART_ChangeDeviceType (src_infos->srcId, DEVICE_TYPE_UNKNOWN)) { #ifdef DTI if (dti_cntrl_close_dpath_from_src_id( srcId )) { return (TRUE); } #endif } return (FALSE); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : sAT_PlusIPR | +--------------------------------------------------------------------+ PURPOSE : This is the functional counterpart to the +IPR AT command which is responsible to set the data rate. */ GLOBAL void cmhUART_init_ipr_params(void) { TRACE_FUNCTION ("cmhUART_init_ipr_params()"); uart_ipr_param.srcId = CMD_SRC_NONE; uart_ipr_param.rate = BD_RATE_NotPresent; } GLOBAL T_ACI_RETURN sAT_PlusIPR(T_ACI_CMD_SRC srcId, T_ACI_BD_RATE rate) { ULONG ipr_timer = 0; TRACE_FUNCTION ("sAT_PlusIPR()"); /* check command source */ if(srcId EQ CMD_SRC_LCL) { TRACE_ERROR("This command is not supported for local command source"); ACI_ERR_DESC( ACI_ERR_CLASS_Cme, CME_ERR_OpNotSupp ); return AT_FAIL; } if(!cmh_IsVldCmdSrc (srcId)) { return AT_FAIL; } /* parameter check */ if ( rate < BD_RATE_AUTO OR rate > BD_RATE_115200 ) /* maximum supported value by UART */ { ACI_ERR_DESC( ACI_ERR_CLASS_Cme, CME_ERR_OpNotSupp ); return AT_FAIL; } /* We need to sent the OK prior we switch to the new baudrate */ io_sendConfirm((UBYTE)srcId, cmdAtError(atOk), ATI_NORMAL_OUTPUT); cmdErrStr = NULL; uart_ipr_param.rate = rate; uart_ipr_param.srcId = srcId; ipr_timer = 600; /* worst case calculation: 4 characters:OK<CR><LF> at 75bit/s with 1 startbit, 1 paritybit and 1 stopbit (2 stopbits are only used for longer words) 4*(8+1+1+1)= 44 bits => 44/75 seconds = 586 msec*/ /* time for output "OK" then send changed parameter to UART */ uartEntcurCmd[srcId] = AT_CMD_IPR; TIMERSTART(ipr_timer, ACI_IPR); return AT_CMPL; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : timeout_PlusIPR | +--------------------------------------------------------------------+ PURPOSE : This function send the changed baudrate to UART after the timer ACI_IPR is expired */ GLOBAL void timeout_PlusIPR ( void) { #ifdef FF_PSI T_ACI_DTI_PRC_PSI *src_infos = find_element (psi_src_params, (UBYTE)uart_ipr_param.srcId, cmhPSItest_srcId); #endif /*FF_PSI*/ TRACE_FUNCTION ("timeout_PlusIPR()"); #ifdef FF_PSI if ( src_infos NEQ NULL ) { cmhPSI_SetDataRate((UBYTE)uart_ipr_param.srcId, uart_ipr_param.rate); } /* force parameter request */ else #endif /*FF_PSI*/ cmhUART_SetDataRate((UBYTE)uart_ipr_param.srcId, uart_ipr_param.rate); cmhUART_init_ipr_params(); uartEntcurCmd[uart_ipr_param.srcId] = AT_CMD_NONE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : qAT_PlusIPR | +--------------------------------------------------------------------+ PURPOSE : This is the functional counterpart to the +IPR? AT command which returns the current setting for the data rate. */ GLOBAL T_ACI_RETURN qAT_PlusIPR ( T_ACI_CMD_SRC srcId, T_ACI_BD_RATE *rate) { T_ACI_DEVICE_ENTRY *device_entry = cmhUART_GetDeviceParOverSrcID( (UBYTE) srcId ); #ifdef FF_PSI T_ACI_DEVICE_DCB_ENTRY *device_dcb_entry; U32 device_type;/* RM 26-05-04 Nice */ #endif /*FF_PSI*/ TRACE_FUNCTION ("qAT_PlusIPR()"); if ( device_entry EQ NULL ) { #ifdef FF_PSI device_dcb_entry = cmhPSI_GetDeviceParOverSrcID( (UBYTE) srcId ); if (device_dcb_entry EQ NULL) #endif /*FF_PSI*/ return AT_FAIL; #ifdef FF_PSI else { device_type = device_dcb_entry->devId & DIO_TYPE_DAT_MASK;/* RM 26-05-04 Nice */ if (device_type EQ DIO_DATA_SER)/* RM 26-05-04 Nice */ *rate = (T_ACI_BD_RATE)device_dcb_entry->dcbPar.dio_dcb_ser.baudrate; if (device_type EQ DIO_DATA_MUX)/* RM 26-05-04 Nice */ *rate = (T_ACI_BD_RATE)device_dcb_entry->dcbPar.dio_dcb_ser_mux.baudrate; else if (device_type EQ DIO_DATA_PKT)/* RM 26-05-04 Nice */ return AT_FAIL; return( AT_CMPL ); } #endif /*FF_PSI*/ } /* *------------------------------------------------------------------- * fill in parameters *------------------------------------------------------------------- */ *rate = (T_ACI_BD_RATE) device_entry->comPar.speed; return( AT_CMPL ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : sAT_PlusICF | +--------------------------------------------------------------------+ PURPOSE : This is the functional counterpart to the +ICF AT command which is responsible to set the character framing. */ GLOBAL T_ACI_RETURN sAT_PlusICF ( T_ACI_CMD_SRC srcId, T_ACI_BS_FRM format, T_ACI_BS_PAR parity) { #ifdef FF_PSI T_ACI_DTI_PRC_PSI *src_infos = find_element (psi_src_params, (UBYTE) srcId, cmhPSItest_srcId); #endif /*FF_PSI*/ TRACE_FUNCTION ("sAT_PlusICF()"); /* *------------------------------------------------------------------- * parameter check *------------------------------------------------------------------- */ switch( format ) { case( BS_FRM_NotPresent ): case( BS_FRM_Dat8_Par0_St2 ): case( BS_FRM_Dat8_Par1_St1 ): case( BS_FRM_Dat8_Par0_St1 ): case( BS_FRM_Dat7_Par0_St2 ): case( BS_FRM_Dat7_Par1_St1 ): case( BS_FRM_Dat7_Par0_St1 ): break; default: ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return( AT_FAIL ); } switch( parity ) { case( BS_PAR_NotPresent ): case( BS_PAR_Odd ): case( BS_PAR_Even ): case( BS_PAR_Mark ): case( BS_PAR_Space ): break; default: ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return( AT_FAIL ); } /* *------------------------------------------------------------------- * force parameter request *------------------------------------------------------------------- */ #ifdef FF_PSI if ( src_infos NEQ NULL ) { if ( AT_EXCT EQ cmhPSI_SetCharacterFraming((UBYTE) srcId, format, parity) ) { uartEntcurCmd[srcId] = AT_CMD_ICF; return AT_EXCT; } } /* force parameter request */ else #endif /*FF_PSI*/ { if ( AT_EXCT EQ cmhUART_SetCharacterFraming((UBYTE) srcId, format, parity) ) { uartEntcurCmd[srcId] = AT_CMD_ICF; return AT_EXCT; } } return AT_FAIL; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : qAT_PlusICF | +--------------------------------------------------------------------+ PURPOSE : This is the functional counterpart to the +ICF? AT command which returns the current setting for character framing. */ GLOBAL T_ACI_RETURN qAT_PlusICF ( T_ACI_CMD_SRC srcId, T_ACI_BS_FRM *format, T_ACI_BS_PAR *parity) { T_ACI_DEVICE_ENTRY *device_entry = cmhUART_GetDeviceParOverSrcID( (UBYTE) srcId ); #ifdef FF_PSI T_ACI_DEVICE_DCB_ENTRY *device_dcb_entry = cmhPSI_GetDeviceParOverSrcID( (UBYTE) srcId ); #endif /*FF_PSI*/ TRACE_FUNCTION ("qAT_PlusICF()"); #ifdef FF_PSI if (device_entry EQ NULL AND device_dcb_entry EQ NULL) #else if (device_entry EQ NULL) #endif /*FF_PSI*/ { return AT_FAIL; } #ifdef FF_PSI if ( device_entry EQ NULL AND device_dcb_entry NEQ NULL ) { *format = cmhPSI_GetFktInterfaceFormat(device_dcb_entry); *parity = cmhPSI_GetFktInterfaceParity(device_dcb_entry); return( AT_CMPL ); } #endif /*FF_PSI*/ /* *------------------------------------------------------------------- * fill in parameters *------------------------------------------------------------------- */ /*lint -e613 (Warning --Possible use of null pointer) */ *format = cmhUART_GetFktInterfaceFormat(&(device_entry->comPar)); *parity = cmhUART_GetFktInterfaceParity(&(device_entry->comPar)); /*lint +e613 (Warning --Possible use of null pointer) */ return( AT_CMPL ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : sAT_PlusIFC | +--------------------------------------------------------------------+ PURPOSE : This is the functional counterpart to the +IFC AT command which is responsible to set the flow control. */ GLOBAL T_ACI_RETURN sAT_PlusIFC ( T_ACI_CMD_SRC srcId, T_ACI_RX_FLOW_CTRL DCE_by_DTE, T_ACI_RX_FLOW_CTRL DTE_by_DCE ) { #ifdef FF_PSI T_ACI_DTI_PRC_PSI *src_infos = find_element (psi_src_params, (UBYTE) srcId, cmhPSItest_srcId); #endif /*FF_PSI*/ T_ACI_RETURN result = AT_FAIL; TRACE_FUNCTION ("sAT_PlusIFC()"); /* *------------------------------------------------------------------- * parameter check *------------------------------------------------------------------- */ TRACE_EVENT_P2("sAT_PlusIFC: DCE_by_DTE=%d DTE_by_DCE=%d", DCE_by_DTE, DTE_by_DCE); if ( DCE_by_DTE < RX_FLOW_NotPresent OR DCE_by_DTE > RX_FLOW_HARDWARE ) { TRACE_EVENT("sAT_PlusIFC: err1"); ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return AT_FAIL; } if ( DTE_by_DCE < RX_FLOW_NotPresent OR DTE_by_DCE > RX_FLOW_HARDWARE) { TRACE_EVENT("sAT_PlusIFC: err2"); ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return AT_FAIL; } if ( DTE_by_DCE NEQ RX_FLOW_NotPresent AND DCE_by_DTE NEQ DTE_by_DCE ) { TRACE_EVENT("sAT_PlusIFC: err3"); ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return AT_FAIL; } /* *------------------------------------------------------------------- * force parameter request *------------------------------------------------------------------- */ #ifdef FF_PSI if (src_infos NEQ NULL) result = cmhPSI_SetFlowControl((UBYTE) srcId, DCE_by_DTE); else #endif /*FF_PSI*/ result = cmhUART_SetFlowControl((UBYTE) srcId, DCE_by_DTE); switch (result) { case AT_EXCT: uartEntcurCmd[srcId] = AT_CMD_IFC; return AT_EXCT; case AT_CMPL: return AT_CMPL; } return result; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : qAT_PlusIFC | +--------------------------------------------------------------------+ PURPOSE : This is the functional counterpart to the +ICF? AT command which returns the current setting for character framing. */ GLOBAL T_ACI_RETURN qAT_PlusIFC ( T_ACI_CMD_SRC srcId, T_ACI_RX_FLOW_CTRL *DCE_by_DTE, T_ACI_RX_FLOW_CTRL *DTE_by_DCE ) { S32 flow_cntrl = RX_FLOW_NotPresent; T_ACI_DEVICE_ENTRY *device_entry = cmhUART_GetDeviceParOverSrcID( (UBYTE) srcId ); #ifdef FF_PSI T_ACI_DEVICE_DCB_ENTRY *device_dcb_entry = NULL; U32 device_type;/* RM 26-05-04 Nice */ #endif /*FF_PSI*/ TRACE_FUNCTION ("qAT_PlusIFC()"); if ( device_entry EQ NULL ) { #ifdef FF_PSI if ( (device_dcb_entry = cmhPSI_GetDeviceParOverSrcID( (UBYTE) srcId )) EQ NULL) #endif /*FF_PSI*/ return AT_FAIL; #ifdef FF_PSI device_type = device_dcb_entry->devId & DIO_TYPE_DAT_MASK;/* RM 26-05-04 Nice */ if (device_type EQ DIO_DATA_PKT)/* RM 26-05-04 Nice */ return AT_FAIL; if (device_type EQ DIO_DATA_SER)/* RM 26-05-04 Nice */ flow_cntrl = device_dcb_entry->dcbPar.dio_dcb_ser.flow_control; if (device_type EQ DIO_DATA_MUX)/* RM 26-05-04 Nice */ flow_cntrl = device_dcb_entry->dcbPar.dio_dcb_ser_mux.flow_control; switch ( flow_cntrl ) { case (DIO_FLOW_NONE): default: *DCE_by_DTE = *DTE_by_DCE = RX_FLOW_NONE; break; case (DIO_FLOW_XON_XOFF): *DCE_by_DTE = *DTE_by_DCE = RX_FLOW_SOFTWARE; break; case ( DIO_FLOW_RTS_CTS): *DCE_by_DTE = *DTE_by_DCE = RX_FLOW_HARDWARE; break; } return( AT_CMPL ); #endif /*FF_PSI*/ } /* *------------------------------------------------------------------- * fill in parameters *------------------------------------------------------------------- */ switch ( device_entry->comPar.flow_rx ) { case UART_IO_FC_RX_NONE: default: *DCE_by_DTE = *DTE_by_DCE = RX_FLOW_NONE; break; case UART_IO_FC_RX_XOFF: *DCE_by_DTE = *DTE_by_DCE = RX_FLOW_SOFTWARE; break; case UART_IO_FC_RX_RTS: *DCE_by_DTE = *DTE_by_DCE = RX_FLOW_HARDWARE; break; } return( AT_CMPL ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_CCS | | STATE : code ROUTINE : sAT_AndC | +--------------------------------------------------------------------+ PURPOSE : set DCD behaviour */ GLOBAL T_ACI_RETURN sAT_AndC ( T_ACI_CMD_SRC srcId, T_ACI_DCD_MOD value ) { BOOL no_data_call_on_this_line = TRUE; UBYTE i; TRACE_FUNCTION ("sAT_AndC()"); /* check command source */ if(!cmh_IsVldCmdSrc (srcId)) { return( AT_FAIL ); } /* check parameter value */ switch(value) { case(DCD_ALWAYS_ON): case(DCD_DISABLE_AFTER_CALL): break; default: ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return( AT_FAIL ); } /* set DCD behaviour */ cmhPrm[srcId ].ccCmdPrm.DCDmode = value; /* set DCD */ if(value EQ DCD_ALWAYS_ON) { io_setDCD (srcId, IO_DCD_ON); } else if(value EQ DCD_DISABLE_AFTER_CALL) { for (i = 0; i < MAX_CALL_NR; i++) { T_CC_CALL_TBL *ctbx = ccShrdPrm.ctb[i]; if (ctbx NEQ NULL AND ctbx->curSrc EQ srcId) { switch(ctbx->BC[ctbx->curBC].bearer_serv) { case(MNCC_BEARER_SERV_NOT_PRES): case(MNCC_BEARER_SERV_SPEECH): case(MNCC_BEARER_SERV_AUX_SPEECH): break; default: /* data call */ no_data_call_on_this_line = FALSE; break; } } } if( no_data_call_on_this_line ) { io_setDCD (srcId, IO_DCD_OFF); } } return( AT_CMPL ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_CCQ | | STATE : code ROUTINE : qAT_AndC | +--------------------------------------------------------------------+ PURPOSE : query DCD behaviour setting. */ GLOBAL T_ACI_RETURN qAT_AndC ( T_ACI_CMD_SRC srcId, T_ACI_DCD_MOD *value) { TRACE_FUNCTION ("qAT_AndC()"); /* check command source */ if(!cmh_IsVldCmdSrc (srcId)) { return( AT_FAIL ); } /* check parameter value */ if( value EQ NULL ) { ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return( AT_FAIL ); } /* query DCD behaviour */ *value = cmhPrm[srcId ].ccCmdPrm.DCDmode; return( AT_CMPL ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : sAT_AndD | +--------------------------------------------------------------------+ PURPOSE : set DTR behaviour. */ GLOBAL T_ACI_RETURN sAT_AndD ( T_ACI_CMD_SRC srcId, UBYTE value) { #ifdef FF_PSI T_ACI_DTI_PRC_PSI *dti_prc=find_element (psi_src_params, (UBYTE)srcId, cmhPSItest_srcId); #endif /*FF_PSI*/ TRACE_FUNCTION ("sAT_AndD()"); /* *------------------------------------------------------------------- * check command source *------------------------------------------------------------------- */ if(!cmh_IsVldCmdSrc (srcId)) { return( AT_FAIL ); } switch( value ) { case( DTR_BEHAVIOUR_Ignore ): case( DTR_BEHAVIOUR_CommandMode ): case( DTR_BEHAVIOUR_ClearCall ): #ifdef FF_PSI if (dti_prc NEQ NULL) { psiShrdPrm.dtr_behaviour = (T_ACI_DTR_BEHAVIOUR)value; TRACE_EVENT("device entry is in PSI"); } else #endif /*FF_PSI*/ { uartShrdPrm.dtr_behaviour = (T_ACI_DTR_BEHAVIOUR)value; TRACE_EVENT("device entry is in UART"); } break; default: ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return( AT_FAIL ); } return( AT_CMPL ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_UARTS | | STATE : code ROUTINE : qAT_AndD | +--------------------------------------------------------------------+ PURPOSE : query DTR behaviour. */ GLOBAL T_ACI_RETURN qAT_AndD ( T_ACI_CMD_SRC srcId, UBYTE *value) { #ifdef FF_PSI T_ACI_DTI_PRC_PSI *dti_prc=find_element (psi_src_params, (UBYTE)srcId, cmhPSItest_srcId); #endif /*FF_PSI*/ T_ACI_DTR_BEHAVIOUR dtr_behavior; TRACE_FUNCTION ("qAT_AndD()"); /* *------------------------------------------------------------------- * check command source *------------------------------------------------------------------- */ if(!cmh_IsVldCmdSrc (srcId)) { return( AT_FAIL ); } #ifdef FF_PSI if (dti_prc NEQ NULL) dtr_behavior = psiShrdPrm.dtr_behaviour; else #endif /*FF_PSI*/ dtr_behavior = uartShrdPrm.dtr_behaviour; switch( dtr_behavior ) { case( DTR_BEHAVIOUR_Ignore ): case( DTR_BEHAVIOUR_CommandMode ): case( DTR_BEHAVIOUR_ClearCall ): *value = dtr_behavior; break; default: ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter ); return( AT_FAIL ); } return( AT_CMPL ); } GLOBAL void cmhUART_lst_exit(void) { T_ACI_LIST *src_infos = NULL; while (1) { src_infos = (T_ACI_LIST *)remove_first_element (uart_src_params); if (src_infos EQ NULL) { break; } ACI_MFREE (src_infos); } } #endif /* ifdef UART */