FreeCalypso > hg > fc-magnetite
view src/g23m-aci/aci/psa_psis.c @ 600:8f50b202e81f
board preprocessor conditionals: prep for more FC hw in the future
This change eliminates the CONFIG_TARGET_FCDEV3B preprocessor symbol and
all preprocessor conditionals throughout the code base that tested for it,
replacing them with CONFIG_TARGET_FCFAM or CONFIG_TARGET_FCMODEM. These
new symbols are specified as follows:
CONFIG_TARGET_FCFAM is intended to cover all hardware designs created by
Mother Mychaela under the FreeCalypso trademark. This family will include
modem products (repackagings of the FCDEV3B, possibly with RFFE or even
RF transceiver changes), and also my desired FreeCalypso handset product.
CONFIG_TARGET_FCMODEM is intended to cover all FreeCalypso modem products
(which will be firmware-compatible with the FCDEV3B if they use TI Rita
transceiver, or will require a different fw build if we switch to one of
Silabs Aero transceivers), but not the handset product. Right now this
CONFIG_TARGET_FCMODEM preprocessor symbol is used to conditionalize
everything dealing with MCSI.
At the present moment the future of FC hardware evolution is still unknown:
it is not known whether we will ever have any beyond-FCDEV3B hardware at all
(contingent on uncertain funding), and if we do produce further FC hardware
designs, it is not known whether they will retain the same FIC modem core
(triband), if we are going to have a quadband design that still retains the
classic Rita transceiver, or if we are going to switch to Silabs Aero II
or some other transceiver. If we produce a quadband modem that still uses
Rita, it will run exactly the same fw as the FCDEV3B thanks to the way we
define TSPACT signals for the RF_FAM=12 && CONFIG_TARGET_FCFAM combination,
and the current fcdev3b build target will be renamed to fcmodem. OTOH, if
that putative quadband modem will be Aero-based, then it will require a
different fw build target, the fcdev3b target will stay as it is, and the
two targets will both define CONFIG_TARGET_FCFAM and CONFIG_TARGET_FCMODEM,
but will have different RF_FAM numbers. But no matter which way we are
going to evolve, it is not right to have conditionals on CONFIG_TARGET_FCDEV3B
in places like ACI, and the present change clears the way for future
evolution.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 01 Apr 2019 01:05:24 +0000 |
| parents | 53929b40109c |
| children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : PSA_PSIS +----------------------------------------------------------------------------- | 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 : This module defines the processing functions for the | primitives sent to the protocol stack adapter by the DTI | interface. +----------------------------------------------------------------------------- */ #ifdef FF_PSI #define PSA_PSIS_C #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 "aci_lst.h" #include "dti_conn_mng.h" #include "dti_cntrl_mng.h" #include "psa_psi.h" #include "cmh_psi.h" #include "aci_mem.h" #include "aci_io.h" #include "sap_dti.h" /*==== CONSTANTS ==================================================*/ /*==== TYPES ======================================================*/ /*==== EXPORT =====================================================*/ /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ==================================================*/ LOCAL USHORT psi_get_desc_size (T_desc2 *data) { USHORT size = 0; T_desc2 *next_data; next_data = data; while (next_data NEQ NULL) { size += next_data->len; next_data = (T_desc2*)next_data->next; } return (size); } #ifdef DTI /* +-------------------------------------------------------------------+ | PROJECT : GPRS (8441) MODULE : PSA_PSIS | | STATE : finished ROUTINE : psaPSI_ConnectRej | +-------------------------------------------------------------------+ PURPOSE : Indicates that ACI can not handle a DTI connection with PSI */ GLOBAL void psaPSI_ConnRej ( U32 devId) { TRACE_FUNCTION ("psaPSI_ConnRej()"); { PALLOC ( psi_conn_rej, PSI_CONN_REJ); psi_conn_rej->devId = devId; PSENDX (PSI, psi_conn_rej); } } /* +-------------------------------------------------------------------+ | PROJECT : GPRS (8441) MODULE : PSA_PSIS | | STATE : finished ROUTINE : psaPSI_ConnectRes | +-------------------------------------------------------------------+ PURPOSE : Response to PSI_CONN_IND sent by PSI with confirmed DIO capabilities */ GLOBAL void psaPSI_ConnRes ( U32 devId) { TRACE_FUNCTION ("psaPSI_ConnRes()"); { PALLOC ( psi_conn_res, PSI_CONN_RES); psi_conn_res->devId = devId; PSENDX (PSI, psi_conn_res); } } /* +-------------------------------------------------------------------+ | PROJECT : GPRS (8441) MODULE : PSA_PSIS | | STATE : finished ROUTINE : psaPSI_CloseReq | +-------------------------------------------------------------------+ PURPOSE : Request closing of DTI connection with PSI */ GLOBAL void psaPSI_CloseReq ( U32 devId) { TRACE_FUNCTION ("psaPSI_DTICloseReq()"); { PALLOC ( psi_close_req, PSI_CLOSE_REQ); psi_close_req->devId = devId; PSENDX (PSI, psi_close_req); } } /* +-------------------------------------------------------------------+ | PROJECT : GPRS (8441) MODULE : PSA_PSIS | | STATE : finished ROUTINE : psaPSI_DTICloseReq | +-------------------------------------------------------------------+ PURPOSE : Request closing of DTI connection with PSI */ GLOBAL void psaPSI_DTICloseReq ( U32 devId, U32 link_id) { TRACE_FUNCTION ("psaPSI_DTICloseReq()"); { PALLOC ( psi_dti_close_req, PSI_DTI_CLOSE_REQ); psi_dti_close_req->devId = devId; psi_dti_close_req->link_id = link_id; PSENDX (PSI, psi_dti_close_req); } } /* +-------------------------------------------------------------------+ | PROJECT : GPRS (8441) MODULE : PSA_PKTIOS | | STATE : finished ROUTINE : psaPSI_DTIOpenReq | +-------------------------------------------------------------------+ PURPOSE : Request opening of DTI connection with PSI */ GLOBAL void psaPSI_DTIOpenReq ( U32 devId, char* peer_name, ULONG link_id, UBYTE dti_direction) { TRACE_FUNCTION ("psaPSI_DTIOpenReq()"); /* if (dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PSI, (UBYTE)(devId&DIO_DEVICE_MASK), UART_DLCI_NOT_MULTIPLEXED) EQ FALSE) { return; }*/ { PALLOC ( psi_dti_open_req, PSI_DTI_OPEN_REQ); psi_dti_open_req->devId = devId; memcpy( &(psi_dti_open_req->peer.name), peer_name, strlen(peer_name) + 1 ); psi_dti_open_req->link_id = link_id; psi_dti_open_req->dti_direction = dti_direction; PSENDX (PSI, psi_dti_open_req); } } /* +-------------------------------------------------------------------+ | PROJECT : GPRS (8441) MODULE : PSA_PSIS | | STATE : finished ROUTINE : psaPSI_Dti_Req | +-------------------------------------------------------------------+ PURPOSE : Request for DTI connection by DTI managment */ GLOBAL void psaPSI_Dti_Req ( ULONG link_id, UBYTE peer, T_DTI_MNG_PSI_MODE con_mode) { UBYTE device_no; U32 devId; char* peer_name; T_DTI_CNTRL device_info; U32 cpblty = DTI_CPBLTY_NO; TRACE_FUNCTION ("psaPSI_Dti_Req()"); dti_cntrl_get_info_from_dti_id(EXTRACT_DTI_ID(link_id), &device_info); device_no = device_info.dev_no; switch (device_info.capability-DTI_CPBLTY_CMD ) { case DTI_CPBLTY_CMD: cpblty = DTI_CPBLTY_CMD; break; case DTI_CPBLTY_SER: if (device_info.sub_no EQ 0) { cpblty = DIO_DATA_SER; } else { cpblty = DIO_DATA_SER_MUX; } break; case DTI_CPBLTY_PKT: cpblty = DIO_DATA_PKT; break; default: break; } /*the mapping of capability between DTI and PSI should be done here, since devId relates to the device type */ devId = ((device_info.driver_id & 0xff)<<24| cpblty| (device_info.dio_ctrl_id & 0xff)<<8| device_no); peer_name = dti_entity_name[peer].name; if(con_mode EQ PSI_CONNECT_DTI) { dti_cntrl_set_conn_parms((T_DTI_CONN_LINK_ID)link_id, DTI_ENTITY_PSI, device_info.dev_no, UART_DLCI_NOT_MULTIPLEXED); psaPSI_DTIOpenReq (devId, peer_name, link_id, DTI_CHANNEL_TO_HIGHER_LAYER); } else { psaPSI_DTICloseReq(devId, link_id); } } #endif /* DTI */ /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_PSIS | | ROUTINE : psa_psi_DTI_data_req | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL void psa_psi_DTI_data_req ( T_desc2 *data, T_ACI_DTI_PRC_PSI *src_infos, T_DTI_ENTITY_ID peer_id ) { USHORT data_len = 0; TRACE_FUNCTION("psa_psi_DTI_data_req()"); { PALLOC_DESC2(dti_data_ind, DTI2_DATA_IND); data_len = psi_get_desc_size (data); dti_data_ind->desc_list2.list_len = data_len; dti_data_ind->desc_list2.first = (ULONG)data; dti_data_ind->parameters.p_id = 0; /*dummy_ubyte; */ if (BITFIELD_CHECK (src_infos->data_cntr, PSI_DTI_FLOW_OFF)) { dti_data_ind->parameters.st_lines.st_flow = DTI_FLOW_OFF; } else { dti_data_ind->parameters.st_lines.st_flow = DTI_FLOW_ON; } if (BITFIELD_CHECK (src_infos->data_cntr, PSI_DTI_SB_BIT)) { TRACE_EVENT("SB is ON"); dti_data_ind->parameters.st_lines.st_line_sb = DTI_SB_ON; } else { TRACE_EVENT("SB is OFF"); dti_data_ind->parameters.st_lines.st_line_sb = DTI_SB_OFF; } dti_data_ind->parameters.st_lines.st_line_sa = DTI_SA_ON; dti_data_ind->parameters.st_lines.st_break_len = DTI_BREAK_OFF; dti_send_data ( aci_hDTI, src_infos->srcId, (UBYTE)peer_id, ACI_DTI_DN_CHANNEL, dti_data_ind ); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_PSI | | ROUTINE : psa_psi_DTI_getdata | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL void psa_psi_DTI_getdata( UBYTE src_id, T_DTI_ENTITY_ID peer_id) { T_ACI_DTI_PRC_PSI *src_infos = NULL; TRACE_FUNCTION("psaDTI_getdata"); src_infos = find_element (psi_src_params, src_id, cmhPSItest_srcId); if (src_infos EQ NULL) { TRACE_EVENT_P1("[ERR] psaDTI_getdata: link_id=%d not found", src_id) ; return ; } if( src_infos->RecState NEQ RECEIVING) { src_infos->RecState = READY_REC; } { dti_start ( aci_hDTI, src_id, (UBYTE)peer_id, ACI_DTI_DN_CHANNEL ); } } #ifdef DTI /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_PSI | | ROUTINE : psaPSI_DCDreq | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL void psaPSI_DCDreq( UBYTE c_Id, UBYTE line_state ) { T_ACI_DTI_PRC_PSI *cmd = NULL; TRACE_FUNCTION("psaPSI_DCDreq()"); cmd = find_element (psi_src_params, c_Id, cmhPSItest_srcId); if (cmd EQ NULL) { TRACE_EVENT_P1("[ERR] psaPSI_DCDreq: c_Id=%d not found", c_Id) ; return ; } { PALLOC( psi_line_state_req, PSI_LINE_STATE_REQ); psi_line_state_req -> devId = cmd->devId; if( line_state EQ IO_DCD_ON ) { psi_line_state_req -> line_state = LINE_STD_DCD_ON; } else if ( line_state EQ IO_DCD_OFF ) { psi_line_state_req -> line_state = LINE_STD_DCD_OFF; } PSENDX( PSI, psi_line_state_req ); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_PSI | | ROUTINE : psaPSI_ESCAPEreq | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL BOOL psaPSI_ESCAPEreq( UBYTE c_Id, UBYTE detection ) { T_ACI_DEVICE_DCB_ENTRY *device_entry = cmhPSI_GetDeviceParOverSrcID( c_Id ); U32 device_type; if ( device_entry EQ NULL ) { TRACE_EVENT_P1("[ERR] cmhPSI_SetDataRate: device for source ID = %d not found", c_Id); return (FALSE); } TRACE_FUNCTION("psaPSI_ESCAPEreq()"); device_type = device_entry->devId & DIO_TYPE_DAT_MASK; cmhPSI_SetDcbParToUnchanged( device_entry ); if (device_type EQ DIO_DATA_SER) { if( detection EQ ESC_DETECTION_ON) { device_entry->dcbPar.dio_dcb_ser.guard_period = DIO_GUARD_PER_DEFAULT; } else { device_entry->dcbPar.dio_dcb_ser.guard_period = 0; } } else if (device_type EQ DIO_DATA_MUX) { if( detection EQ ESC_DETECTION_ON) { device_entry->dcbPar.dio_dcb_ser_mux.guard_period = DIO_GUARD_PER_DEFAULT; } else { device_entry->dcbPar.dio_dcb_ser_mux.guard_period = 0; } } else /* if (device_type EQ DIO_DATA_PKT)*/ { return (FALSE); } psaPSI_SetConfReq(device_entry); return (TRUE); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_PSI | | ROUTINE : psaPSI_RINGreq | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL void psaPSI_RINGreq( UBYTE c_Id, UBYTE line_state ) { T_ACI_DTI_PRC_PSI *cmd = NULL; TRACE_FUNCTION("psaPSI_RINGreq"); cmd = find_element (psi_src_params, c_Id, cmhPSItest_srcId); if (cmd EQ NULL) { TRACE_EVENT_P1("[ERR] psaPSI_RINGreq: c_Id=%d not found", c_Id) ; return ; } if (BITFIELD_CHECK (cmd->data_cntr, PSI_RING_RUNNING)) { TRACE_EVENT_P2 ("[WRN] psaPSI_RINGreq(): no CNF for previous REQ (device: %d; dlci=%d)", cmd->devId, cmd->dlci); return; } /* store that PSI_RING_REQ was send this is important so that the primitive queue in the PSI entity not overloaded if no PC is connected */ BITFIELD_SET (cmd->data_cntr, PSI_RING_RUNNING); { PALLOC( psi_line_state_req, PSI_LINE_STATE_REQ); psi_line_state_req -> devId = cmd->devId; if( line_state EQ IO_RING_ON) { psi_line_state_req -> line_state = LINE_STD_RING_ON; } else if( line_state EQ IO_RING_OFF ) { psi_line_state_req -> line_state = LINE_STD_RING_OFF; } PSENDX( PSI, psi_line_state_req); } } /* +------------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_PSI | | ROUTINE : psaPSI_SetConfReq | +------------------------------------------------------------------------+ PURPOSE : */ GLOBAL void psaPSI_SetConfReq( T_ACI_DEVICE_DCB_ENTRY *dcbPar ) { U32 device_type; #ifdef _SIMULATION_ PALLOC(psi_setconf_req_test, PSI_SETCONF_REQ_TEST); device_type = dcbPar->devId & DIO_TYPE_DAT_MASK; psi_setconf_req_test->devId = dcbPar->devId; switch (device_type) { case DIO_DATA_SER: memcpy(&psi_setconf_req_test->DIO_DCB_UN.DIO_DCB_SER,&dcbPar->dcbPar.dio_dcb_ser,sizeof(T_DIO_DCB_SER)); break; case DIO_DATA_PKT: memcpy(&psi_setconf_req_test->DIO_DCB_UN.DIO_DCB_PKT,&dcbPar->dcbPar.dio_dcb_pkt,sizeof(T_DIO_DCB_PKT)); break; case DIO_DATA_SER_MUX: memcpy(&psi_setconf_req_test->DIO_DCB_UN.DIO_DCB_SER_MUX,&dcbPar->dcbPar.dio_dcb_ser_mux,sizeof(T_DIO_DCB_SER_MUX)); break; default: break; } PSENDX( PSI, psi_setconf_req_test ); #else PALLOC(psi_setconf_req, PSI_SETCONF_REQ); device_type = dcbPar->devId & DIO_TYPE_DAT_MASK; psi_setconf_req->devId = dcbPar->devId; switch (device_type) { case DIO_DATA_SER: psi_setconf_req->ptr_DIO_DCB = (T_DIO_DCB *) &dcbPar->dcbPar.dio_dcb_ser; break; case DIO_DATA_PKT: psi_setconf_req->ptr_DIO_DCB =(T_DIO_DCB *) &dcbPar->dcbPar.dio_dcb_pkt; break; case DIO_DATA_SER_MUX: psi_setconf_req->ptr_DIO_DCB =(T_DIO_DCB *) &dcbPar->dcbPar.dio_dcb_ser_mux; break; default: break; } PSENDX( PSI, psi_setconf_req ); #endif /* _SIMULATION_ */ } #endif /* DTI */ #endif /*FF_PSI*/ /*==== EOF =======================================================*/