FreeCalypso > hg > fc-magnetite
view src/aci2/aci/psa_satp.c @ 433:f6ea8d4a5cd8
components/mfw-tcs3: recipe created, starting to compile
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 22 Jan 2018 00:43:18 +0000 |
parents | 93999a60b835 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : PSA_SATP +----------------------------------------------------------------------------- | 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 send to the protocol stack adapter by the | SIM application toolkit. +----------------------------------------------------------------------------- */ #ifdef SIM_TOOLKIT #ifndef PSA_SATP_C #define PSA_SATP_C #endif #include "aci_all.h" /*==== INCLUDES ===================================================*/ #include "aci_cmh.h" #include "aci_mem.h" #ifdef FAX_AND_DATA #include "aci_fd.h" #endif /* of #ifdef FAX_AND_DATA */ #include "aci.h" #include "psa.h" #include "psa_cc.h" #include "psa_sim.h" /* for simShrdPrm declaration */ #include "psa_sat.h" #include "psa_sms.h" #include "cmh.h" #include "cmh_sat.h" /*==== CONSTANTS ==================================================*/ /*==== TYPES ======================================================*/ /*==== EXPORT =====================================================*/ /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ==================================================*/ /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATP | | ROUTINE : psa_sim_toolkit_ind | +-------------------------------------------------------------------+ PURPOSE : processes the SIM_TOOLKIT_IND primitive send by SIM. this is an indication that a STK command was received. */ GLOBAL const void psa_sim_toolkit_ind ( T_SIM_TOOLKIT_IND *sim_toolkit_ind ) { T_ACI_SAT_TERM_RESP resp_data; TRACE_FUNCTION ("psa_sim_toolkit_ind()"); /* *------------------------------------------------------------------- * update shared parameter *------------------------------------------------------------------- */ satShrdPrm.stkCmdLen = sim_toolkit_ind -> stk_cmd.l_cmd; satShrdPrm.stkCmd = sim_toolkit_ind -> stk_cmd.cmd; psaSAT_DumpCmd ( &sim_toolkit_ind -> stk_cmd ); /* *------------------------------------------------------------------- * decode SIM toolkit command *------------------------------------------------------------------- */ CCD_START; { UBYTE ccdRet; MCAST( cmd, STK_CMD ); memset( cmd, 0, sizeof( T_STK_CMD )); ccdRet = ccd_decodeMsg (CCDENT_SAT, DOWNLINK, (T_MSGBUF *) &sim_toolkit_ind -> stk_cmd, (UBYTE *) _decodedMsg, STK_CMD); if( ccdRet NEQ ccdOK OR !cmd->v_pas_cmd) { cmhSAT_STKCmdInd(); } else if( cmd->pas_cmd.v_cmd_details AND cmd->pas_cmd.v_dev_ids ) { /* store command details */ satShrdPrm.cmdDet.cmdNr = cmd->pas_cmd.cmd_details.cmd_nr; satShrdPrm.cmdDet.cmdType = cmd->pas_cmd.cmd_details.cmd_typ; satShrdPrm.cmdDet.cmdQlf = cmd->pas_cmd.cmd_details.cmd_qlf; if (simShrdPrm.overall_cust_mode == (UBYTE)CUST_MODE_BEHAVIOUR_1) { /* ** Customised behaviour for the Cust1 MMI */ switch (cmd->pas_cmd.cmd_details.cmd_typ) { case SAT_CMD_SETUP_CALL: case SAT_CMD_SEND_SMS: case SAT_CMD_SEND_SS: case SAT_CMD_SEND_USSD: if (satShrdPrm.cust1StkCmd != (void *)0) { /* ** The previous command has not been deleted. */ ACI_MFREE(satShrdPrm.cust1StkCmd); satShrdPrm.cust1StkCmd = (void *)0; satShrdPrm.cust1StkCmdLen = 0; } /* ** Allocate memory to store the command */ ACI_MALLOC(satShrdPrm.cust1StkCmd, MAX_STK_CMD); if (satShrdPrm.cust1StkCmd == (void *)0) { /* ** Memory allocation has failed, return ME Unable to Process Cmd */ TRACE_EVENT("Memory Allocation Failure"); psaSAT_InitTrmResp( &resp_data ); psaSAT_SendTrmResp( RSLT_ME_UNAB_PROC, &resp_data ); break; } /* ** Save the received data before proceeding */ memset(satShrdPrm.cust1StkCmd, 0, MAX_STK_CMD); /* ** stkCmdLen is the BIT length of the received data, so shift right 3 (divide by 8) ** in order to get the BYTE length */ memcpy(satShrdPrm.cust1StkCmd, satShrdPrm.stkCmd, satShrdPrm.stkCmdLen >> 3); satShrdPrm.cust1StkCmdLen = satShrdPrm.stkCmdLen; /* ** Continue the processing as for normal behaviour, ** special processing will be applied later ** ** No Break! */ case SAT_CMD_EVENT_LIST: /* ** This command is processed normally */ if( !cmd->pas_cmd.v_cmd_prms OR !cmd->pas_cmd.cmd_prms.l_cmd_prms ) { TRACE_EVENT("no parameters in envelope"); psaSAT_dasmMECmd( NULL ); } else psaSAT_dasmMECmd( &cmd->pas_cmd.cmd_prms ); break; case SAT_CMD_REFRESH: /* ** This command is to be forwarded to the MMI, for the user to be given the ** chance to accept or reject the Refresh action. The user response will be ** contained in a SATR Response indication, and we must be prepared to ** process that indication in a different manner. */ satShrdPrm.cust1SimRefreshRespRqd = TRUE; /* ** Forward the command to the MMI */ cmhSAT_STKCmdInd(); break; default: /* ** If the command is handled by the MMI pass it up in a %SATI indication */ if (cmhSAT_IsStkCmdForMmi(cmd->pas_cmd.cmd_details.cmd_typ, cmd->pas_cmd.cmd_details.cmd_qlf) == FALSE) { /* ** Otherwise Determine whether the command is handled in the Modem Part */ switch (cmd->pas_cmd.cmd_details.cmd_typ) { case( SAT_CMD_SEND_DTMF ): case( SAT_CMD_RUN_AT ): case( SAT_CMD_LAUNCH_BROWSER ): case (SAT_CMD_PROV_LOC_INFO): #ifdef FF_SAT_E case( SAT_CMD_OPEN_CHANNEL ): #endif /* FF_SAT_E */ if( !cmd->pas_cmd.v_cmd_prms OR !cmd->pas_cmd.cmd_prms.l_cmd_prms ) { TRACE_EVENT("no parameters in envelope"); psaSAT_dasmMECmd( NULL ); } else psaSAT_dasmMECmd( &cmd->pas_cmd.cmd_prms ); break; #ifdef FF_SAT_E /* special handling for CLOSE CHANNEL, no further decoding required. all that is needed can be found in device identities */ case( SAT_CMD_CLOSE_CHANNEL ): cmhSAT_CloseChannel(); break; /* special handling for SEND DATA, no further decoding required. all that is needed can be found in command details */ case( SAT_CMD_SEND_DATA ): cmhSAT_SendData(); break; /* special handling for GET CHANNEL STATUS, no further decoding required */ case( SAT_CMD_GET_CHANNEL_STATUS ): cmhSAT_GetChannelStatus(); break; /* special handling for RECEIVE DATA, no further decoding required */ case( SAT_CMD_RECEIVE_DATA ): cmhSAT_STKUsrNtfy(); break; #endif /* FF_SAT_E */ /* ** If the command is not handled by the Modem Part, return a "Beyond ME ** Capabilities" response to the SIM Entity. */ default: TRACE_EVENT("Unable to handle command"); psaSAT_InitTrmResp( &resp_data ); psaSAT_SendTrmResp( RSLT_ME_CAP, &resp_data ); } } } } else { /* if command is addressed to ACI */ switch( cmd->pas_cmd.cmd_details.cmd_typ ) { case( SAT_CMD_SETUP_CALL ): case( SAT_CMD_SEND_SS ): case( SAT_CMD_SEND_SMS ): case( SAT_CMD_SEND_USSD ): case( SAT_CMD_SEND_DTMF ): case( SAT_CMD_EVENT_LIST ): case( SAT_CMD_RUN_AT ): case( SAT_CMD_LAUNCH_BROWSER ): case (SAT_CMD_PROV_LOC_INFO): #ifdef FF_SAT_E case( SAT_CMD_OPEN_CHANNEL ): #endif /* FF_SAT_E */ if( !cmd->pas_cmd.v_cmd_prms OR !cmd->pas_cmd.cmd_prms.l_cmd_prms ) { TRACE_EVENT("no parameters in envelope"); psaSAT_dasmMECmd( NULL ); } else psaSAT_dasmMECmd( &cmd->pas_cmd.cmd_prms ); break; #ifdef FF_SAT_E /* special handling for CLOSE CHANNEL, no further decoding required. all that is needed can be found in device identities */ case( SAT_CMD_CLOSE_CHANNEL ): cmhSAT_CloseChannel(); break; /* special handling for SEND DATA, no further decoding required. all that is needed can be found in command details */ case( SAT_CMD_SEND_DATA ): cmhSAT_SendData(); break; /* special handling for GET CHANNEL STATUS, no further decoding required */ case( SAT_CMD_GET_CHANNEL_STATUS ): cmhSAT_GetChannelStatus(); break; /* special handling for RECEIVE DATA, no further decoding required */ case( SAT_CMD_RECEIVE_DATA ): cmhSAT_STKUsrNtfy(); break; #endif /* FF_SAT_E */ /* otherwise pass command to user */ default: cmhSAT_STKCmdInd(); } } } else { /* respond with "error, required values are missing" */ TRACE_EVENT("parameters are missing"); psaSAT_InitTrmResp( &resp_data ); psaSAT_SendTrmResp( RSLT_ERR_REQ_VAL, &resp_data ); } } CCD_END; /* *------------------------------------------------------------------- * free the primitive buffer *------------------------------------------------------------------- */ PFREE (sim_toolkit_ind); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATP | | ROUTINE : psa_sim_toolkit_cnf | +-------------------------------------------------------------------+ PURPOSE : processes the SIM_TOOLKIT_CNF primitive send by SIM. this is a confirmation to a previous STK command. */ GLOBAL const void psa_sim_toolkit_cnf( T_SIM_TOOLKIT_CNF *sim_toolkit_cnf ) { void *p = NULL; BOOL SIM_error = FALSE; BOOL not_allw = FALSE; BOOL allw = FALSE; void *p_allw = NULL; UBYTE *p_v_allw = NULL; void *p_not_allw = NULL; UBYTE *p_v_not_allw = NULL; void *p_allw_mdfy = NULL; UBYTE *p_v_allw_mdfy = NULL; SHORT StructSize = 0; UBYTE DynEnv = '\0'; TRACE_FUNCTION ("psa_sim_toolkit_cnf()"); /* *------------------------------------------------------------------- * update shared parameter *------------------------------------------------------------------- */ satShrdPrm.stkCmdLen = sim_toolkit_cnf -> stk_cmd.l_cmd; satShrdPrm.stkCmd = sim_toolkit_cnf -> stk_cmd.cmd; satShrdPrm.stkError = sim_toolkit_cnf -> cause; psaSAT_DumpCmd ( &sim_toolkit_cnf -> stk_cmd ); /* *------------------------------------------------------------------- * if request was invoked by MMI pass reply to MMI *------------------------------------------------------------------- */ if( sim_toolkit_cnf -> req_id EQ SRQ_MMI ) { cmhSAT_STKCmdCnf(); } /* *------------------------------------------------------------------- * if request was invoked by ACI decode envelope command result *------------------------------------------------------------------- */ else if( sim_toolkit_cnf -> req_id EQ SRQ_ACI ) { if( sim_toolkit_cnf -> stk_cmd.l_cmd EQ 0 OR sim_toolkit_cnf -> cause EQ SIM_CAUSE_SAT_BUSY) { SIM_error = TRUE; switch ( sim_toolkit_cnf -> cause ) { case SIM_CAUSE_OTHER_ERROR: case SIM_CAUSE_SAT_BUSY: case SIM_CAUSE_CARD_REMOVED: case SIM_CAUSE_PIN1_EXPECT: case SIM_CAUSE_PIN1_BLOCKED: case SIM_CAUSE_PUK1_EXPECT: case SIM_CAUSE_PUK1_BLOCKED: case SIM_CAUSE_PIN2_EXPECT: case SIM_CAUSE_PIN2_BLOCKED: case SIM_CAUSE_PUK2_EXPECT: case SIM_CAUSE_PUK2_BLOCKED: /* in case of certain errors, assume not allowed */ not_allw = TRUE; sim_toolkit_cnf -> stk_cmd.cmd[0] = CCR_NOT_ALLW; break; default: /* in case of a positive result without further info, assume allowed not modified */ allw = TRUE; sim_toolkit_cnf -> stk_cmd.cmd[0] = CCR_ALLW_NO_MDFY; break; } sim_toolkit_cnf -> stk_cmd.cmd[1] = 0; /* no extra TLVs */ satShrdPrm.stkCmdLen = 2<<3; /* 2 bytes result */ } else { SIM_error = FALSE; } { CCD_START; { UBYTE ccdRet; MCAST( env, ENV_RES ); MCAST( smc_env, ENV_RES_SMC ); switch( satShrdPrm.SIMCCParm.ccAct ) { case( CC_ACT_CAL ): case( CC_ACT_SS ): case( CC_ACT_USSD ): memset( env, 0, sizeof( T_ENV_RES )); p_v_not_allw = &env->v_ccr_not_allw; p_v_allw = &env->v_ccr_allw; p_v_allw_mdfy = &env->v_ccr_allw_mdfy; p_not_allw = &env->ccr_not_allw; p_allw = &env->ccr_allw; p_allw_mdfy = &env->ccr_allw_mdfy; DynEnv = ENV_RES; break; case( SMC_ACT_MO ): memset( smc_env, 0, sizeof( T_ENV_RES_SMC )); p_v_not_allw = &smc_env->v_smcr_not_allw; p_v_allw = &smc_env->v_smcr_allw; p_v_allw_mdfy = &smc_env->v_smcr_allw_mdfy; p_not_allw = &smc_env->smcr_not_allw; p_allw = &smc_env->smcr_allw; p_allw_mdfy = &smc_env->smcr_allw_mdfy; DynEnv = ENV_RES_SMC; break; } if (SIM_error) { *p_v_not_allw = not_allw; *p_v_allw = allw; } /* otherwise decode message */ else { ccdRet = ccd_decodeMsg (CCDENT_SAT, DOWNLINK, (T_MSGBUF *) &sim_toolkit_cnf -> stk_cmd, (UBYTE *) _decodedMsg, DynEnv ); if( ccdRet NEQ ccdOK ) { /* in case of a result failure, pretend allowed not modified */ if( psaSAT_ccdErrChk() NEQ 0 AND (!(*p_v_allw) AND !(*p_v_not_allw) AND !(*p_v_allw_mdfy))) { memset( env, 0, StructSize ); *p_v_allw = TRUE; sim_toolkit_cnf -> stk_cmd.cmd[0] = CCR_ALLW_NO_MDFY; sim_toolkit_cnf -> stk_cmd.cmd[1] = 0; satShrdPrm.stkCmdLen = 2<<3; /* 2 bytes result */ } } } /* process result */ if ( *p_v_allw ) p = p_allw; else if( *p_v_not_allw ) p = p_not_allw; else if( *p_v_allw_mdfy ) p = p_allw_mdfy; satShrdPrm.ntfy = USR_NTF_CC_SIM; cmhSAT_STKUsrNtfy(); switch( satShrdPrm.SIMCCParm.ccAct ) { case( CC_ACT_CAL ): if( cmhSAT_ResCalCntrlBySIM( sim_toolkit_cnf -> stk_cmd.cmd, p )) { /* keep primitive for terminal response */ satShrdPrm.stkCnfPrim = sim_toolkit_cnf; CCD_END; return; } break; case( CC_ACT_SS ): if( cmhSAT_ResSSCntrlBySIM( sim_toolkit_cnf -> stk_cmd.cmd, p )) { /* keep primitive for terminal response */ satShrdPrm.stkCnfPrim = sim_toolkit_cnf; CCD_END; return; } break; case( CC_ACT_USSD ): if( cmhSAT_ResUSSDCntrlBySIM( sim_toolkit_cnf -> stk_cmd.cmd, p )) { /* keep primitive for terminal response */ /*satShrdPrm.stkCnfPrim = sim_toolkit_cnf;*/ CCD_END; return; } break; case( SMC_ACT_MO ): if( cmhSAT_ResSMCntrlBySIM( sim_toolkit_cnf -> stk_cmd.cmd, p )) { /* keep primitive for terminal response */ /*satShrdPrm.stkCnfPrim = sim_toolkit_cnf;*/ CCD_END; return; } break; default: TRACE_EVENT("UNEXP CC ACTION IN SAT PARMS"); break; } } satShrdPrm.SIMCCParm.ccAct = NO_CC_ACT; CCD_END; } } /* *------------------------------------------------------------------- * free the primitive buffer *------------------------------------------------------------------- */ PFREE (sim_toolkit_cnf); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATP | | ROUTINE : psa_sim_file_update_ind | +-------------------------------------------------------------------+ PURPOSE : processes the FILE_UPDATE_IND primitive send by SIM. It provides a list of updated EFs. */ GLOBAL const void psa_sim_file_update_ind ( T_SIM_FILE_UPDATE_IND *sim_file_update_ind ) { SHORT i; BOOL send_confirm_now=TRUE; TRACE_FUNCTION ("psa_sim_file_update_ind()"); /* *------------------------------------------------------------------- * store the primitive and start processing *------------------------------------------------------------------- */ satShrdPrm.fu_ind = sim_file_update_ind; /* * Broadcast %SIMEF unsolicited event to all interested parties. */ for(i=CMD_SRC_LCL;i<CMD_SRC_MAX;i++) { /* * For a source in BAT mode, this event is permanently * enabled. However, it is useful to make it configurable * in ATI/BAT mode in order to ensure that by default * psaSAT_FUConfirm() is called, maintaining compatibility * with existing tests. */ #if defined(FF_BAT) && !defined(FF_ATI_BAT) if ((simShrdPrm.SIMEFMode[i] EQ SIMEF_MODE_ON) OR (aci_cmd_src_mode_get(i) EQ CMD_MODE_BAT)) #else if (simShrdPrm.SIMEFMode[i] EQ SIMEF_MODE_ON) #endif { /* * As we have reported the EF update, it is not now the * responsibility of this function to send the response * immediately. */ send_confirm_now=FALSE; R_AT(RAT_P_SIMEF,i)( (SHORT *)sim_file_update_ind->file_id, (UBYTE)sim_file_update_ind->val_nr); } } /* * If we didn't report the EF update to anyone we must send * the response now. */ if (send_confirm_now NEQ FALSE) psaSAT_FUConfirm (-1, NOT_PRESENT_16BIT); } #endif /* #ifdef SIM_TOOLKIT */ /*==== EOF =========================================================*/