FreeCalypso > hg > fc-magnetite
view src/g23m-aci/aci/psa_sims.c @ 639:026c98f757a6
tpudrv12.h & targets/gtm900.h: our current support is for MGC2GSMT version only
As it turns out, there exist two different Huawei-made hw platforms both
bearing the marketing name GTM900-B: one is MG01GSMT, the other is MGC2GSMT.
The two are NOT fw-compatible: aside from flash chip differences which
should be handled by autodetection, the two hw platforms are already known
to have different RFFEs with different control signals, and there may be
other differences not yet known. Our current gtm900 build target is for
MGC2GSMT only; we do not yet have a specimen of MG01GSMT on hand, hence
no support for that version will be possible until and unless someone
provides one.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 30 Jan 2020 18:19:01 +0000 |
parents | 53929b40109c |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : PSA_SIMS +----------------------------------------------------------------------------- | 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 signalling functions of the | protocol stack adapter for the subscriber identity | module. +----------------------------------------------------------------------------- */ #ifndef PSA_SIMS_C #define PSA_SIMS_C #endif #include "aci_all.h" /*==== INCLUDES ===================================================*/ #include "aci_cmh.h" #include "ati_cmd.h" #include "aci_cmd.h" #include "aci.h" #include "psa.h" #include "psa_sim.h" #include "aci_mem.h" #ifdef SIM_TOOLKIT #include "psa_cc.h" #include "psa_sat.h" #include "ati_src_sat.h" #include "psa_tcpip.h" #endif/* SIM_TOOLKIT */ #ifdef DTI #include "dti.h" #include "dti_conn_mng.h" #include "dti_cntrl_mng.h" #endif #if defined GPRS AND defined (DTI) #include "gprs.h" #include "gaci.h" #include "gaci_cmh.h" #include "gaci_srcc.h" #include "psa_sm.h" #ifdef FAX_AND_DATA #include "aci_fd.h" #endif /* FAX_AND_DATA */ #endif /* GPRS */ #include "cmh.h" #if defined (GPRS) AND defined (DTI) #include "cmh_sm.h" #endif /* GPRS */ #include "cmh_sim.h" #include "cmh_sat.h" #include "psa_util.h" #ifndef _SIMULATION_ /* temporary solution to get ffs.h included without GPRS to be set ! */ #ifdef GPRS #include "ffs/ffs.h" #else #include "ffs/ffs.h" #undef GPRS #endif /* GPRS */ #include "ffs_coat.h" #endif /* !_SIMULATION_ */ /*==== CONSTANTS ==================================================*/ /*==== TYPES ======================================================*/ /*==== EXPORT =====================================================*/ /*==== VARIABLES ==================================================*/ #ifdef TI_PS_FF_AT_P_CMD_CUST LOCAL BOOL Cust_Mode_Set = FALSE; /*==== FUNCTIONS ==================================================*/ GLOBAL BOOL psaSIM_hasCustModeBeenSet(void) { return Cust_Mode_Set; } #endif /* TI_PS_FF_AT_P_CMD_CUST */ /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_AccessSIMData | +-------------------------------------------------------------------+ PURPOSE : access SIM data */ GLOBAL SHORT psaSIM_AccessSIMData ( void ) { SHORT aId; /* holds access id */ TRACE_FUNCTION ("psaSIM_AccessSIMData()"); /* *------------------------------------------------------------------- * determine access type *------------------------------------------------------------------- */ aId = simShrdPrm.aId; switch( simShrdPrm.atb[aId].accType ) { /* *--------------------------------------------------------------- * read datafield *--------------------------------------------------------------- */ case( ACT_RD_DAT ): { PALLOC (sim_read_req, SIM_READ_REQ); /* fill in primitive parameter: read data request */ sim_read_req -> source = SRC_MMI; sim_read_req -> req_id = (UBYTE)aId; sim_read_req -> v_path_info = simShrdPrm.atb[aId].v_path_info; if(sim_read_req -> v_path_info) { sim_read_req -> path_info = simShrdPrm.atb[aId].path_info; } sim_read_req -> datafield = simShrdPrm.atb[aId].reqDataFld; sim_read_req -> offset = simShrdPrm.atb[aId].dataOff; sim_read_req -> length = simShrdPrm.atb[aId].dataLen; sim_read_req -> max_length = simShrdPrm.atb[aId].recMax; PSENDX (SIM, sim_read_req); } break; /* *--------------------------------------------------------------- * write datafield *--------------------------------------------------------------- */ case( ACT_WR_DAT ): { PALLOC (sim_update_req, SIM_UPDATE_REQ); /* fill in primitive parameter: update data request */ sim_update_req -> source = SRC_MMI; sim_update_req -> req_id = (UBYTE)aId; sim_update_req -> v_path_info = simShrdPrm.atb[aId].v_path_info; if(sim_update_req -> v_path_info) { sim_update_req -> path_info = simShrdPrm.atb[aId].path_info; } sim_update_req -> datafield = simShrdPrm.atb[aId].reqDataFld; sim_update_req -> offset = simShrdPrm.atb[aId].dataOff; sim_update_req -> length = simShrdPrm.atb[aId].dataLen; memcpy (sim_update_req -> trans_data, simShrdPrm.atb[aId].exchData, simShrdPrm.atb[aId].dataLen); PSENDX (SIM, sim_update_req); } break; /* *--------------------------------------------------------------- * read record *--------------------------------------------------------------- */ case( ACT_RD_REC ): { PALLOC (sim_read_record_req, SIM_READ_RECORD_REQ); /* fill in primitive parameter: read absolute record request */ sim_read_record_req -> source = SRC_MMI; sim_read_record_req -> req_id = (UBYTE)aId; sim_read_record_req -> v_path_info = simShrdPrm.atb[aId].v_path_info; if(sim_read_record_req -> v_path_info) { sim_read_record_req -> path_info = simShrdPrm.atb[aId].path_info; } sim_read_record_req -> datafield = simShrdPrm.atb[aId].reqDataFld; sim_read_record_req -> record = simShrdPrm.atb[aId].recNr; if(simShrdPrm.atb[aId].check_dataLen) { sim_read_record_req -> length = NOT_PRESENT_8BIT; } else { sim_read_record_req -> length = simShrdPrm.atb[aId].dataLen; } PSENDX (SIM, sim_read_record_req); } break; /* *--------------------------------------------------------------- * write record *--------------------------------------------------------------- */ case( ACT_WR_REC ): { PALLOC (sim_update_record_req, SIM_UPDATE_RECORD_REQ); /* fill in primitive parameter: update absolute record request */ sim_update_record_req -> source = SRC_MMI; sim_update_record_req -> req_id = (U8)aId; sim_update_record_req -> v_path_info = simShrdPrm.atb[aId].v_path_info; if(sim_update_record_req -> v_path_info) { sim_update_record_req -> path_info = simShrdPrm.atb[aId].path_info; } sim_update_record_req -> datafield = simShrdPrm.atb[aId].reqDataFld; sim_update_record_req -> record = simShrdPrm.atb[aId].recNr; sim_update_record_req -> length = simShrdPrm.atb[aId].dataLen; memcpy (sim_update_record_req -> linear_data, simShrdPrm.atb[aId].exchData, sim_update_record_req->length); PSENDX (SIM, sim_update_record_req); } break; /* *--------------------------------------------------------------- * increment datafield *--------------------------------------------------------------- */ case( ACT_INC_DAT ): { PALLOC (sim_increment_req, SIM_INCREMENT_REQ); /* fill in primitive parameter: increment data request */ sim_increment_req -> source = SRC_MMI; sim_increment_req -> req_id = (U8)aId; sim_increment_req -> v_path_info = simShrdPrm.atb[aId].v_path_info; if(sim_increment_req -> v_path_info) { sim_increment_req -> path_info = simShrdPrm.atb[aId].path_info; } sim_increment_req -> datafield = simShrdPrm.atb[aId].reqDataFld; sim_increment_req -> length = simShrdPrm.atb[aId].dataLen; memcpy (sim_increment_req -> linear_data, simShrdPrm.atb[aId].exchData, sim_increment_req->length); PSENDX (SIM, sim_increment_req); } break; /* *--------------------------------------------------------------- * illegal access type *--------------------------------------------------------------- */ default: TRACE_EVENT("UNEXP ACCESS TYPE IN ATB"); return( -1 ); } /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_VerifyPIN | +-------------------------------------------------------------------+ PURPOSE : verify a PIN */ GLOBAL SHORT psaSIM_VerifyPIN ( void ) { T_SIM_SET_PRM * pPrmSet; /* points to used parameter set */ TRACE_FUNCTION ("psaSIM_VerifyPIN()"); /* *------------------------------------------------------------------- * check owner id *------------------------------------------------------------------- */ if(!psa_IsVldOwnId(simShrdPrm.owner)) return( -1 ); pPrmSet = &simShrdPrm.setPrm[simShrdPrm.owner]; /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_verify_pin_req, SIM_VERIFY_PIN_REQ); /* fill in primitive parameter: verify PIN request */ sim_verify_pin_req -> source = SRC_MMI; sim_verify_pin_req -> pin_id = pPrmSet -> PINType; memcpy( sim_verify_pin_req -> pin, pPrmSet -> curPIN, PIN_LEN ); PSENDX (SIM, sim_verify_pin_req); } return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_ChangePIN | +-------------------------------------------------------------------+ PURPOSE : change a PIN */ GLOBAL SHORT psaSIM_ChangePIN ( void ) { T_SIM_SET_PRM * pPrmSet; /* points to used parameter set */ TRACE_FUNCTION ("psaSIM_ChangePIN()"); /* *------------------------------------------------------------------- * check owner id *------------------------------------------------------------------- */ if(!psa_IsVldOwnId(simShrdPrm.owner)) return( -1 ); pPrmSet = &simShrdPrm.setPrm[simShrdPrm.owner]; /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_change_pin_req, SIM_CHANGE_PIN_REQ); /* fill in primitive parameter: change PIN request */ sim_change_pin_req -> source = SRC_MMI; sim_change_pin_req -> pin_id = pPrmSet -> PINType; memcpy( sim_change_pin_req -> old_pin, pPrmSet -> curPIN, PIN_LEN ); memcpy( sim_change_pin_req -> new_pin, pPrmSet -> newPIN, PIN_LEN ); PSENDX (SIM, sim_change_pin_req); } return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_DisablePIN | +-------------------------------------------------------------------+ PURPOSE : disable a PIN */ GLOBAL SHORT psaSIM_DisablePIN ( void ) { T_SIM_SET_PRM * pPrmSet; /* points to used parameter set */ TRACE_FUNCTION ("psaSIM_DisablePIN()"); /* *------------------------------------------------------------------- * check owner id *------------------------------------------------------------------- */ if(!psa_IsVldOwnId(simShrdPrm.owner)) return( -1 ); pPrmSet = &simShrdPrm.setPrm[simShrdPrm.owner]; /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_disable_pin_req, SIM_DISABLE_PIN_REQ); /* fill in primitive parameter: disable PIN request */ sim_disable_pin_req -> source = SRC_MMI; memcpy( sim_disable_pin_req -> pin, pPrmSet -> curPIN, PIN_LEN ); PSENDX (SIM, sim_disable_pin_req); } return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_EnablePIN | +-------------------------------------------------------------------+ PURPOSE : enable a PIN */ GLOBAL SHORT psaSIM_EnablePIN ( void ) { T_SIM_SET_PRM * pPrmSet; /* points to used parameter set */ TRACE_FUNCTION ("psaSIM_EnablePIN()"); /* *------------------------------------------------------------------- * check owner id *------------------------------------------------------------------- */ if(!psa_IsVldOwnId(simShrdPrm.owner)) return( -1 ); pPrmSet = &simShrdPrm.setPrm[simShrdPrm.owner]; /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_enable_pin_req, SIM_ENABLE_PIN_REQ); /* fill in primitive parameter: enable PIN request */ sim_enable_pin_req -> source = SRC_MMI; memcpy( sim_enable_pin_req -> pin, pPrmSet -> curPIN, PIN_LEN ); PSENDX (SIM, sim_enable_pin_req); } return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_UnblockCard | +-------------------------------------------------------------------+ PURPOSE : unblock the card */ GLOBAL SHORT psaSIM_UnblockCard ( void ) { T_SIM_SET_PRM * pPrmSet; /* points to used parameter set */ TRACE_FUNCTION ("psaSIM_UnblockCard()"); /* *------------------------------------------------------------------- * check owner id *------------------------------------------------------------------- */ if(!psa_IsVldOwnId(simShrdPrm.owner)) return( -1 ); pPrmSet = &simShrdPrm.setPrm[simShrdPrm.owner]; /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_unblock_req, SIM_UNBLOCK_REQ); /* fill in primitive parameter: unblock card request */ sim_unblock_req -> source = SRC_MMI; sim_unblock_req -> pin_id = pPrmSet -> PINType; memcpy( sim_unblock_req -> pin, pPrmSet -> curPIN, PIN_LEN ); memcpy( sim_unblock_req -> unblock_key, pPrmSet -> unblkKey, PUK_LEN ); PSENDX (SIM, sim_unblock_req); } return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_SyncSIM | +-------------------------------------------------------------------+ PURPOSE : synchronize SIM data */ GLOBAL void psaSIM_SyncSIM ( void ) { TRACE_FUNCTION ("psaSIM_SyncSIM()"); /* create and send primitive */ { PALLOC (sim_sync_req, SIM_SYNC_REQ); /* fill in primitive parameter: synchronize request */ sim_sync_req -> synccs = simShrdPrm.synCs; PSENDX (SIM, sim_sync_req); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_ActivateSIM | +-------------------------------------------------------------------+ PURPOSE : synchronize SIM data */ GLOBAL SHORT psaSIM_ActivateSIM ( void ) { T_SIM_SET_PRM * pPrmSet; /* points to used parameter set */ TRACE_FUNCTION ("psaSIM_ActivateSIM()"); /* *------------------------------------------------------------------- * check owner id *------------------------------------------------------------------- */ if(!psa_IsVldOwnId(simShrdPrm.owner)) { TRACE_EVENT("not a valid owner !!"); return( -1 ); } pPrmSet = &simShrdPrm.setPrm[simShrdPrm.owner]; /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_activate_req, SIM_ACTIVATE_REQ); /* fill in primitive parameter: activate request */ sim_activate_req->proc = pPrmSet -> actProc; /* sim toolkit profile */ memcpy( sim_activate_req->stk_pro_file, pPrmSet -> STKprof, MAX_STK_PRF ); sim_activate_req->mmi_pro_file = 0xE0; /*enable all*/ #ifdef TI_PS_FF_AT_P_CMD_CUST if (pPrmSet -> actProc EQ SIM_INITIALISATION) { if (psaSIM_hasCustModeBeenSet() == FALSE) { /* ** Customisation Mode is to be global, applying to ALL ACI channels */ simShrdPrm.overall_cust_mode = pPrmSet->cust_mode; Cust_Mode_Set = TRUE; } sim_activate_req->cust_mode = simShrdPrm.overall_cust_mode; } else { /* ** If this isn't SIM_INITIALISATION then the cust_mode will have no relevance, but it should ** still not be left uninitialised. */ sim_activate_req->cust_mode = (psaSIM_hasCustModeBeenSet() == FALSE) ? (UBYTE)CUST_NORMAL_BEHAVIOUR: simShrdPrm.overall_cust_mode; } #else sim_activate_req->cust_mode = (UBYTE)CUST_NORMAL_BEHAVIOUR; #endif /* TI_PS_FF_AT_P_CMD_CUST */ if(sim_activate_req->proc EQ SIM_INITIALISATION) { sim_activate_req->v_trmst_file = 0x01; TRACE_EVENT("Read Terminal Support table from FFS"); #ifndef _SIMULATION_ if(FFS_fread("/gsm/osf/ftrsprt", &sim_activate_req->trmst_file, MAX_TRMST) NEQ MAX_TRMST) #endif /* _SIMULATION_ */ { memset(&sim_activate_req->trmst_file, 0, MAX_TRMST); } } PSENDX (SIM, sim_activate_req); } return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_TrnsSIMAccess | +-------------------------------------------------------------------+ PURPOSE : transparent access to SIM data */ GLOBAL SHORT psaSIM_TrnsSIMAccess ( T_SIM_TRNS_ACC_PRM * prm ) { TRACE_FUNCTION ("psaSIM_TrnsSIMAccess()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_access_req, SIM_ACCESS_REQ); /* fill in primitive parameter: SIM access request */ sim_access_req -> source = SRC_MMI; sim_access_req -> sim_command = prm -> cmd; if (prm->cmd NEQ SIM_TRANSP_CMD) { sim_access_req -> datafield = prm -> reqDataFld; sim_access_req -> p1 = prm -> p1; sim_access_req -> p2 = prm -> p2; sim_access_req -> p3 = prm -> p3; } sim_access_req->c_trans_data = prm -> dataLen; memcpy( sim_access_req -> trans_data, prm -> transData, prm -> dataLen ); PSENDX (SIM, sim_access_req); } return 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_Bpi_Req | +-------------------------------------------------------------------+ PURPOSE : resume/suspend/connect/disconnect SAT BIP connection. */ #if defined (FF_SAT_E) AND defined (DTI) GLOBAL void psaSIM_Bip_Req ( void ) { T_SAT_CSD_PRM * csd_prm_ptr; TRACE_EVENT("psaSIM_Bip_Req()"); if (simShrdPrm.sim_dti_chPrm EQ NULL) { TRACE_ERROR ("ERROR: simShrdPrm.sim_dti_chPrm uninitalized, aborting!"); } else { PALLOC(sim_bip_req,SIM_BIP_REQ); memset(sim_bip_req,0,sizeof(sim_bip_req)); /* copy connection qualifier */ sim_bip_req->bip_conn = simShrdPrm.sim_dti_chPrm->sat_chn_prm.bipConn; /* copy channel id */ sim_bip_req->bip_ch_id = simShrdPrm.sim_dti_chPrm->sat_chn_prm.chnId; /* copy general result */ sim_bip_req->general_result = simShrdPrm.sim_dti_chPrm->sat_chn_prm.genRes; /* copy additional result info */ sim_bip_req->add_info_result = simShrdPrm.sim_dti_chPrm->sat_chn_prm.addRes; /* copy release timer to primitive, if CSD and if duration defined */ /* SAT_E_PATCH: Should be ported to SIM_BIP_CONFIG_REQ? */ if(satShrdPrm.opchType EQ B_CSD) { csd_prm_ptr = (T_SAT_CSD_PRM *)(satShrdPrm.opchPrm); if(csd_prm_ptr NEQ NULL) { if(csd_prm_ptr->v_dur2) { switch(csd_prm_ptr->dur2.time_unit) { case TU_100_MSEC: sim_bip_req->release_time = (U32)csd_prm_ptr->dur2.time_ivl; break; case TU_MIN: sim_bip_req->release_time = (U32)(csd_prm_ptr->dur2.time_ivl * 600); break; case TU_SEC: sim_bip_req->release_time = (U32)(csd_prm_ptr->dur2.time_ivl * 10); break; } /* end switch */ } /* end if */ } /* end if csd_prm_ptr NEQ NULL */ } /* end if */ /* SEND SIM_BIP_REQ */ PSENDX(SIM,sim_bip_req); } /* end else*/ } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_Bip_Config_Req | +-------------------------------------------------------------------+ PURPOSE : sends the BIP channel parameters to SIM. The type of parameters depends on the transport unit. */ GLOBAL void psaSIM_Bip_Config_Req ( ) { T_SAT_CSD_PRM * csd_prm_ptr; /* holds pointer to CSD open channel prms */ T_SAT_GPRS_PRM * gprs_prm_ptr; /* holds pointer to GPRS open channel prms */ /* allocate SIM_BIP_CONFIG_REQ primitive */ PALLOC(sim_bip_config_req,SIM_BIP_CONFIG_REQ); TRACE_EVENT("psaSIM_Bip_Config_Req()"); /* reset values of primitive */ memset(sim_bip_config_req,0,sizeof(sim_bip_config_req)); /* check kind of bearer */ if(satShrdPrm.opchType EQ B_CSD) { /* BEARER: CSD */ /* get connection type */ switch(simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiUnit) { case DTI_ENTITY_UDP: sim_bip_config_req->con_type = SIM_CON_TYPE_UDP; break; #ifdef UART case DTI_ENTITY_TRA: sim_bip_config_req->con_type = SIM_CON_TYPE_SERIAL; break; case DTI_ENTITY_L2R: sim_bip_config_req->con_type = SIM_CON_TYPE_SERIAL; break; #endif } /* get addresses */ /* local_ip,destination_ip, destination port are only valid for UDP */ if(simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiUnit EQ DTI_ENTITY_UDP) { csd_prm_ptr = (T_SAT_CSD_PRM *)(satShrdPrm.opchPrm); if(csd_prm_ptr->v_other_addr) { if(csd_prm_ptr->other_addr.oth_addr_type EQ IPv4) { if(csd_prm_ptr->other_addr.v_ipv4_addr)/* local IP address */ { memcpy(&sim_bip_config_req->local_ip, &csd_prm_ptr->other_addr.ipv4_addr, sizeof(csd_prm_ptr->other_addr.ipv4_addr)); } else /* not valid */ { sim_bip_config_req->local_ip = SIM_IP_LOCAL_DYNAMIC; } } else /* not supported IPv6*/ { sim_bip_config_req->local_ip = SIM_IP_LOCAL_DYNAMIC; } } else { sim_bip_config_req->local_ip = SIM_IP_LOCAL_DYNAMIC; } /* data destination address */ if(csd_prm_ptr->v_dda) { if(csd_prm_ptr->dda.oth_addr_type EQ IPv4) { if(csd_prm_ptr->dda.v_ipv4_addr)/* local IP address */ { memcpy(&sim_bip_config_req->destination_ip, &csd_prm_ptr->dda.ipv4_addr, sizeof(csd_prm_ptr->dda.ipv4_addr)); } } /* SIM/ME interface transport level:destination port number for UDP */ if(csd_prm_ptr->v_itl) { sim_bip_config_req->destination_port = csd_prm_ptr->itl.port_number; } } } } else if (satShrdPrm.opchType EQ B_GPRS) { /* BEARER: GPRS */ #ifdef GPRS /* get connecton type */ switch(simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiUnit) { case DTI_ENTITY_UDP: sim_bip_config_req->con_type = SIM_CON_TYPE_UDP; break; case DTI_ENTITY_SNDCP: sim_bip_config_req->con_type = SIM_CON_TYPE_IP; break; } /* get port and addresses */ gprs_prm_ptr = (T_SAT_GPRS_PRM *)(satShrdPrm.opchPrm); if(gprs_prm_ptr NEQ NULL) { /* local_ip,destination_ip, destination port are only valid for UDP */ if(simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiUnit EQ DTI_ENTITY_UDP) { /* get local ip address */ if(gprs_prm_ptr->v_other_addr) { if(gprs_prm_ptr->other_addr.oth_addr_type EQ IPv4) { if(gprs_prm_ptr->other_addr.v_ipv4_addr)/* local IP address */ { memcpy(&sim_bip_config_req->local_ip, &gprs_prm_ptr->other_addr.ipv4_addr, sizeof(gprs_prm_ptr->other_addr.ipv4_addr)); } else /* not valid */ { sim_bip_config_req->local_ip = SIM_IP_LOCAL_DYNAMIC; } } else /* not supported IPv6*/ { sim_bip_config_req->local_ip = SIM_IP_LOCAL_DYNAMIC; } } else /* not valid flag for other address */ { /* * local IP4 address has been provided by Session Management; it was not provided by the OPEN CHANNEL command */ if(tcpipShrdPrm.ipaddr) { sim_bip_config_req->local_ip = psaTCPIP_bytes2ipv4addr(tcpipShrdPrm.ipaddr); } else { sim_bip_config_req->local_ip = SIM_IP_LOCAL_DYNAMIC; } } /* get data destination address */ if(gprs_prm_ptr->v_dda) { if(gprs_prm_ptr->dda.oth_addr_type EQ IPv4) { if(gprs_prm_ptr->dda.v_ipv4_addr)/* local IP address */ { memcpy(&sim_bip_config_req->destination_ip, &gprs_prm_ptr->dda.ipv4_addr, sizeof(gprs_prm_ptr->dda.ipv4_addr)); } } } /* get SIM/ME interface transport level:destination port number for UDP */ if(gprs_prm_ptr->v_itl) { sim_bip_config_req->destination_port = gprs_prm_ptr->itl.port_number; } } } #else /* GPRS */ PFREE(sim_bip_config_req); TRACE_ERROR("psaSIM_Bip_Config_Req(): ERROR stack does not support GPRS"); #endif /* GPRS */ } else /* BEARER: unknown */ { TRACE_ERROR("psaSIM_Bip_Config_Req(): ERROR unkown bearer"); } /* send primitive to SIM */ PSENDX(SIM,sim_bip_config_req); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_Dti_Req | +-------------------------------------------------------------------+ PURPOSE : connection SIM with UDP,TRA or L2R in context CSD connection SIM with UDP or SNDCP in context GPRS request by proactive SIM CARD, set feature SAT CLASS e sent parameter depends on kind of connection (dtiConn) This function sends the primitive SIM_DTI_REQ which is only responsible for the establishment of the SIM DTI channel! */ GLOBAL void psaSIM_Dti_Req ( ULONG link_id ) { #ifdef DTI CHAR *p_ent_name=NULL; /* hold peer name */ TRACE_EVENT("psaSIM_Dti_Req"); if (simShrdPrm.sim_dti_chPrm EQ NULL) { /* when disconnecting if previos state connecting; * will otherwise crash the stack in ACISAT473H */ TRACE_ERROR ("simShrdPrm.sim_dti_chPrm uninitalized, aborting!"); } else { /* alloc primitive */ PALLOC(sim_dti_req,SIM_DTI_REQ); /* reset values */ memset(sim_dti_req,0,sizeof(sim_dti_req)); /* copy dti connection qualifier */ sim_dti_req->dti_conn = simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiConn; /* set dti direction */ sim_dti_req->dti_direction = SIM_DTI_INVERTED; if( simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiConn EQ SIM_DTI_CONNECT ) { /* CASE: CONNECT IMMEDIATELY */ /* copy link id */ sim_dti_req->link_id = link_id; if(satShrdPrm.opchType EQ B_CSD) { /* BEARER: CSD */ /* copy entity_name * handle different transport protocols: L2R, RA and UDP */ switch(simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiUnit) { case DTI_ENTITY_UDP: p_ent_name = &UDP_NAME[0]; break; case DTI_ENTITY_TRA: p_ent_name = &TRA_NAME[0]; break; case DTI_ENTITY_L2R: p_ent_name = &L2R_NAME[0]; break; } sim_dti_req->entity_name = (ULONG)p_ent_name; } #ifdef GPRS else if(satShrdPrm.opchType EQ B_GPRS) { /* BEARER: GPRS */ /* copy entity_name * handle different transport protocols: L2R, RA and UDP */ switch(simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiUnit) { case DTI_ENTITY_UDP: p_ent_name = &UDP_NAME[0]; break; case DTI_ENTITY_SNDCP: p_ent_name = &SNDCP_NAME[0]; break; } sim_dti_req->entity_name = (ULONG)p_ent_name; } #endif /* GPRS */ else { TRACE_EVENT("psaSIM_Dti_Req:error"); } PSENDX(SIM,sim_dti_req); } /* end DTI open channel */ else if ( simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiConn EQ SIM_DTI_DISCONNECT ) { /* CASE: CLOSE DTI CHANNEL */ /* copy link id */ sim_dti_req->link_id = link_id; PSENDX(SIM,sim_dti_req); } else if ( simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiConn EQ SIM_DTI_UNKNOWN) { /* no primitive has to be send, free mem */ PFREE(sim_dti_req); /* check whether a BIP channel has to be closed */ if( simShrdPrm.sim_dti_chPrm->sat_chn_prm.bipConn EQ SIM_BIP_CLOSE_CHANNEL ) { /* No action has to be performed, DTI channel already disconnected by * SIM */ TRACE_EVENT("psaSIM_Dti_Req: SIM-DTI channel already disconnected"); /* inform dti manager about successfull disconnection */ TRACE_EVENT("psaSIM_Dti_Req: close open BIP channel"); /* send SIM_BIP_REQ to close BIP channel */ psaSIM_Bip_Req(); } else { TRACE_ERROR("psaSIM_Dti_Req: ERROR: Unkown parameter combination"); } } else { /* no primitive has to be send, free mem */ PFREE(sim_dti_req); TRACE_ERROR("psaSIM_Dti_Req: ERROR: Unkown parameter"); } } #endif } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_SATBIPChn | +-------------------------------------------------------------------+ PURPOSE : connect/disconnect/suspend/resume of BIP (Bearer Independent Protocol) connection for SAT (new for SAT_E_PATCH) */ GLOBAL void psaSIM_SATBIPChn ( T_SIM_SAT_CHN chnInf, void (*cb)(UBYTE bipConn, UBYTE chnId)) { TRACE_EVENT("psaSIM_SATBIPChn()"); #ifdef UART /* ALLOC shared paramenters for BIP if not yet done */ if(!simShrdPrm.sim_dti_chPrm) { ACI_MALLOC(simShrdPrm.sim_dti_chPrm,sizeof(T_SIM_DTI_CH_PRM)); /* reset parameters */ memset(simShrdPrm.sim_dti_chPrm,0,sizeof(T_SIM_DTI_CH_PRM)); TRACE_EVENT("ALLOC sim_dti_chPrm"); } /* copy bip related parameters */ simShrdPrm.sim_dti_chPrm->sat_chn_prm.bipConn = chnInf.bipConn; simShrdPrm.sim_dti_chPrm->sat_chn_prm.dtiConn = chnInf.dtiConn; simShrdPrm.sim_dti_chPrm->sat_chn_prm.chnId = chnInf.chnId; simShrdPrm.sim_dti_chPrm->sat_chn_prm.genRes = chnInf.genRes; simShrdPrm.sim_dti_chPrm->sat_chn_prm.addRes = chnInf.addRes; /* callback to process after of BIP connection request */ simShrdPrm.sim_dti_chPrm->bip_cb = cb; switch( chnInf.bipConn ) { case SIM_BIP_CLOSE_CHANNEL: if(chnInf.dtiConn EQ SIM_DTI_DISCONNECT) { cmhSAT_OpChnClose( chnInf.bipConn, 1 ); } else { if (dti_cntrl_is_dti_channel_connected (DTI_ENTITY_SIM, simShrdPrm.sat_class_e_dti_id) EQ TRUE) { /* SIM entity has disconnected the dti connection via SIM_DTI_BIP_IND */ if (dti_cntrl_is_dti_channel_connected (DTI_ENTITY_UDP, simShrdPrm.sat_class_e_dti_id) EQ TRUE) cmhSAT_OpChnClose( chnInf.bipConn, 1 ); else dti_cntrl_close_dpath_from_dti_id(simShrdPrm.sat_class_e_dti_id); } else { /* up to now there was not a dti connection with SIM entity */ psaSIM_Bip_Req(); } } break; case SIM_BIP_OPEN_CHANNEL: case SIM_BIP_CHANNEL_SUSPENDED: case SIM_BIP_CHANNEL_RESUMED: psaSIM_Bip_Req(); break; default: TRACE_ERROR("ERROR: psaSIM_SATBIPChn() unknown BIP status"); } /* end of switch */ /* old behavior: test */ #endif /* UART */ } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_SATChn | +-------------------------------------------------------------------+ PURPOSE : start of DTI connection SIM - UDP,L2R,SNDCP,TRA for CSD /GPRS SAT E Design: Now only used for SIM DTI connections to SNDCP, L2R and TRA */ #ifdef DTI GLOBAL void psaSIM_SATChn ( T_SIM_SAT_CHN chnInf, void (*cb)(UBYTE dtiConn, UBYTE chnId)) { #ifdef GPRS U8 cid_array[2] = { 0,PDP_CONTEXT_CID_INVALID }; cid_array[0] = satShrdPrm.chnTb.chnRefId; #endif TRACE_EVENT("psaSIM_SATChn"); if(!simShrdPrm.sim_dti_chPrm) { ACI_MALLOC(simShrdPrm.sim_dti_chPrm,sizeof(T_SIM_DTI_CH_PRM)); TRACE_EVENT("ALLOC sim_dti_chPrm"); } memcpy(&simShrdPrm.sim_dti_chPrm->sat_chn_prm,&chnInf,sizeof(T_SIM_SAT_CHN)); simShrdPrm.sim_dti_chPrm->dti_cb = cb;/* callback for results of DTI connection -> SatSource */ if( chnInf.dtiConn EQ SIM_DTI_CONNECT ) { if(psa_search_SATSrcId() >= 0) { T_DTI_ENTITY_ID entity_list[2]; entity_list[0]= DTI_ENTITY_SIM; entity_list[1]= (T_DTI_ENTITY_ID)chnInf.dtiUnit; if(satShrdPrm.opchType EQ B_CSD) {/* case immediately connection of SIM entity with L2R or TRA */ /* case on demand connection of SIM entity with L2R or TRA */ /* create a SAT class E DTI ID if not present */ if ( simShrdPrm.sat_class_e_dti_id EQ DTI_DTI_ID_NOTPRESENT ) { simShrdPrm.sat_class_e_dti_id = dti_cntrl_new_dti(DTI_DTI_ID_NOTPRESENT); TRACE_EVENT_P1("sat_class_e_dti_id = %d", simShrdPrm.sat_class_e_dti_id); } /* establish SIM-L2R or SIM-TRA DTI connection */ dti_cntrl_est_dpath( simShrdPrm.sat_class_e_dti_id, entity_list, 2, APPEND, SIM_ENT_CSDconnect_dti_cb); } #ifdef GPRS else if(satShrdPrm.opchType EQ B_GPRS) {/* case immediately: open and connect bip channel with help of DTI connection between SIM entity and UDP or SNDCP */ /* case on demand: connect bip channel with help of DTI connection between SIM entity and UDP or SNDCP */ /* create a SAT class E DTI ID if not present */ if ( simShrdPrm.sat_class_e_dti_id EQ DTI_DTI_ID_NOTPRESENT ) { simShrdPrm.sat_class_e_dti_id = dti_cntrl_new_dti(DTI_DTI_ID_NOTPRESENT); TRACE_EVENT_P1("sat_class_e_dti_id = %d", simShrdPrm.sat_class_e_dti_id); } if(chnInf.dtiUnit NEQ DTI_ENTITY_SNDCP) { dti_cntrl_est_dpath( simShrdPrm.sat_class_e_dti_id, entity_list, 2, APPEND, SIM_ENT_GPRSconnect_dti_cb); } else { if(!srcc_reserve_sources( SRCC_SIM_SNDCP_LINK, satShrdPrm.chnTb.chnRefId) OR !cmhSM_make_active_cid_list((T_ACI_CMD_SRC)satShrdPrm.opchAcptSrc, cid_array) ) { TRACE_FUNCTION("psaSIM_SATChn: Error cid list "); } else { set_conn_param_on_working_cid( (UBYTE)smEntStat.entOwn, DTI_ENTITY_SIM ); cmhSM_connect_working_cid(); } } } #endif } else { TRACE_ERROR("psaSIM_SATChn: fatal ERROR: SAT source id invalid!"); } } } #endif /* DTI */ /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_EvDatAvail | +-------------------------------------------------------------------+ PURPOSE : processes the SIM_EVENTLIST_REQ primitive to SIM. MMI informs about a change of the status of the Data available event (because it is part of the SAT event list) */ GLOBAL void psaSIM_EvDatAvail ( BOOL evStat ) { TRACE_EVENT("psaSIM_EvDatAvail"); { PALLOC(sim_eventlist_req,SIM_EVENTLIST_REQ); switch(evStat) { case SIM_EVENT_DISABLE: case SIM_EVENT_ENABLE: sim_eventlist_req->event_data_avail = evStat; break; default: TRACE_EVENT("psaSIM_EvDatAvail:not valid evStat"); break; } PSENDX(SIM,sim_eventlist_req); } } #endif /* #ifdef FF_SAT_E */ #ifdef FF_DUAL_SIM /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SIMS | | ROUTINE : psaSIM_SelectSIM | +-------------------------------------------------------------------+ PURPOSE : processes the SIM_ACTIVATE_REQ primitive to SIM to Select the required SIM */ GLOBAL SHORT psaSIM_SelectSIM ( void ) { T_SIM_SET_PRM * pPrmSet; /* points to used parameter set */ TRACE_FUNCTION ("psaSIM_SelectSIM()"); /* *------------------------------------------------------------------- * check owner id *------------------------------------------------------------------- */ if(!psa_IsVldOwnId(simShrdPrm.owner)) { TRACE_EVENT("not a valid owner !!"); return( -1 ); } pPrmSet = &simShrdPrm.setPrm[simShrdPrm.owner]; simShrdPrm.SIM_Selection = TRUE; /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC (sim_activate_req, SIM_ACTIVATE_REQ); sim_activate_req->proc = SIM_SELECT; sim_activate_req->sim_num = pPrmSet->SIM_Selected; PSENDX (SIM, sim_activate_req); } return 0; } #endif /*FF_DUAL_SIM*/ /*==== EOF ========================================================*/