FreeCalypso > hg > fc-magnetite
view src/aci2/aci/aci_pei.c @ 115:e0cf9a040fef
scripts/mkcomp-test.sh: allow MMI setting to be overridden
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 06 Oct 2016 17:31:24 +0000 |
parents | 93999a60b835 |
children | ba63f14d1e84 |
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/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | 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 implements the process body interface | for the AT Command Interpreter. +----------------------------------------------------------------------------- */ #ifndef ACI_PEI_C #define ACI_PEI_C #include "aci_all.h" #include "ccdapi.h" #include "cnf_aci.h" #include "mon_aci.h" /* mouais... */ #include "P_ACI.val" /* SKA 2002-09-02 for MAX_CMD_LEN */ #include "line_edit.h" /* SKA 2002-09-02 */ #include "aci_cmh.h" #include "ati_cmd.h" #include "aci_cmd.h" #include "aci.h" #include "aci_mem.h" #ifndef _SIMULATION_ #include "rv_swe.h" #ifdef RVM_GIL_SWE #include "gil/gil_gpf.h" /* MMI_GIL_IND dispatch function */ #endif /* RVM_GIL_SWE */ #endif /* _SIMULATION_ */ #include "psa.h" #include "psa_cc.h" #include "psa_mm.h" #include "psa_sim.h" #include "psa_mmi.h" #include "psa_sms.h" #include "aoc.h" #include "phb.h" #include "hl_audio_drv.h" #include "aci_lst.h" #ifdef DTI #include "dti.h" /* functionality of the dti library */ #include "dti_conn_mng.h" #include "dti_cntrl_mng.h" #endif #ifdef GPRS #include "gprs.h" #include "gaci_cmh.h" #include "psa_gmm.h" #include "psa_sm.h" #include "psa_gppp.h" #endif /* GPRS */ #ifdef UART #include "psa_uart.h" #include "cmh_uart.h" #endif #ifdef FF_ATI #include "aci_io.h" #endif #ifdef FF_PSI #include "psa_psi.h" #include "cmh_psi.h" #endif /*FF_PSI*/ #ifdef FAX_AND_DATA #include "aci_fd.h" #include "psa_ra.h" #include "psa_l2r.h" #ifdef FF_FAX #include "psa_t30.h" #endif #endif #if defined (FF_WAP) || defined (FF_TCP_IP) || defined(FF_GPF_TCPIP)|| defined (FF_SAT_E) #include "psa_ppp_w.h" #endif #if defined (CO_UDP_IP) || defined (FF_GPF_TCP_IP) #include "psa_tcpip.h" #endif /* defined (CO_UDP_IP) || defined(FF_GPF_TCPIP) */ #include "cmh.h" #ifdef SIM_TOOLKIT #include "psa_sat.h" #endif #ifdef MFW #include "mfw_acie.h" #endif #include "gdi.h" #include "audio.h" #include "rx.h" #include "pwr.h" #ifdef BT_ADAPTER #include "bti.h" #include "bti_aci.h" #endif #ifdef FF_PKTIO #include "psa_pktio.h" #endif #ifdef _SIMULATION_ #include "ati_src_tst.h" #endif #if defined FF_EOTD #include "ati_src_lc.h" #endif #ifdef DTI #include "sap_dti.h" #endif #include "psa_ss.h" #ifdef FF_ESIM #include "psa_aaa.h" /* esim */ #endif #ifdef FF_MMI_RIV EXTERN void acia_init(void); #endif #ifdef _SIMULATION_ #ifdef FF_ATI_BAT #include "ati_bat.h" #endif #endif /*==== DEFINE =====================================================*/ /*==== EXPORT =====================================================*/ GLOBAL UBYTE mode = 1; /* * instance data base */ /*==== PRIVATE ====================================================*/ LOCAL const void pei_not_supported (void *data); /*==== VARIABLES ==================================================*/ LOCAL BOOL first_access = TRUE; LOCAL T_MONITOR aci_mon; /*==== FUNCTIONS ==================================================*/ #ifdef SMI EXTERN T_PEI_RETURN _pei_init (void); EXTERN T_PEI_RETURN _pei_primitive (T_PRIM *prim); EXTERN T_PEI_RETURN _pei_exit (void); EXTERN T_PEI_RETURN _pei_monitor (void ** monitor); EXTERN T_PEI_RETURN _pei_config ( T_PEI_CONFIG inString ); #endif /* SMI */ EXTERN void tim_exec_timeout (USHORT index); /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_PEI | | STATE : code ROUTINE : pei_not_supported | +--------------------------------------------------------------------+ PURPOSE : An unsupported primitive is received. */ LOCAL const void pei_not_supported (void *data) { TRACE_FUNCTION ("pei_not_supported()"); PFREE (data); } /* * * Use MAK_FUNC_0 for primitives which contains no SDU. * * Use MAK_FUNC_S for primitives which contains a SDU. */ /* * jumptable for the entity service access point. Contains * the processing-function addresses and opcodes of * request and response primitives. * */ LOCAL const T_FUNC sim_table[] = { MAK_FUNC_0( psa_sim_read_cnf, SIM_READ_CNF ), MAK_FUNC_0( psa_sim_update_cnf, SIM_UPDATE_CNF ), MAK_FUNC_0( psa_sim_read_record_cnf, SIM_READ_RECORD_CNF ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_sim_update_record_cnf, SIM_UPDATE_RECORD_CNF ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_sim_increment_cnf, SIM_INCREMENT_CNF ), MAK_FUNC_0( psa_sim_verify_pin_cnf, SIM_VERIFY_PIN_CNF ), MAK_FUNC_0( psa_sim_change_pin_cnf, SIM_CHANGE_PIN_CNF ), MAK_FUNC_0( psa_sim_disable_pin_cnf, SIM_DISABLE_PIN_CNF ), MAK_FUNC_0( psa_sim_enable_pin_cnf, SIM_ENABLE_PIN_CNF ), MAK_FUNC_0( psa_sim_unblock_cnf, SIM_UNBLOCK_CNF ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_sim_mmi_insert_ind, SIM_MMI_INSERT_IND ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_sim_remove_ind, SIM_REMOVE_IND ), MAK_FUNC_0( psa_sim_sync_cnf, SIM_SYNC_CNF ), MAK_FUNC_0( psa_sim_activate_cnf, SIM_ACTIVATE_CNF ), MAK_FUNC_N( pei_not_supported, 0 ),/*20*/ #ifdef SIM_TOOLKIT MAK_FUNC_0( psa_sim_toolkit_ind, SIM_TOOLKIT_IND ), MAK_FUNC_0( psa_sim_toolkit_cnf, SIM_TOOLKIT_CNF ), #else MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), #endif MAK_FUNC_0( psa_sim_activate_ind, SIM_ACTIVATE_IND ),/*23*/ MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_sim_access_cnf, SIM_ACCESS_CNF ), #ifdef SIM_TOOLKIT MAK_FUNC_0( psa_sim_file_update_ind, SIM_FILE_UPDATE_IND ), #else MAK_FUNC_N( pei_not_supported, 0 ), #endif MAK_FUNC_N( pei_not_supported, 0 ),/* SIM_GMM_INSERT_IND */ #ifdef FF_SAT_E MAK_FUNC_0( psa_sim_dti_cnf, SIM_DTI_CNF ),/*28*/ MAK_FUNC_0( psa_sim_bip_cnf, SIM_BIP_CNF ),/*29*/ MAK_FUNC_0( psa_sim_bip_config_cnf, SIM_BIP_CONFIG_CNF ),/*30*/ MAK_FUNC_0( psa_sim_dti_bip_ind, SIM_DTI_BIP_IND ),/*31*/ MAK_FUNC_0( psa_sim_eventlist_cnf, SIM_EVENTLIST_CNF ),/*32*/ #else MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), #endif MAK_FUNC_N( pei_not_supported, 0 ) /*33*/ }; LOCAL const T_FUNC mmr_table[] = { MAK_FUNC_0( psa_mmr_reg_cnf, MMR_REG_CNF ), MAK_FUNC_0( psa_mmr_nreg_ind, MMR_NREG_IND ), MAK_FUNC_0( psa_mmr_nreg_cnf, MMR_NREG_CNF ), MAK_FUNC_0( psa_mmr_plmn_ind, MMR_PLMN_IND ), MAK_FUNC_0( psa_mmr_info_ind, MMR_INFO_IND ), MAK_FUNC_0( psa_mmr_ciphering_ind, MMR_CIPHERING_IND ), MAK_FUNC_0( psa_mmr_ahplmn_ind, MMR_AHPLMN_IND ) }; LOCAL const T_FUNC mncc_table[] = { MAK_FUNC_0( psa_mncc_alert_ind, MNCC_ALERT_IND ), MAK_FUNC_0( psa_mncc_call_proceed_ind, MNCC_CALL_PROCEED_IND ), MAK_FUNC_0( psa_mncc_disconnect_ind, MNCC_DISCONNECT_IND ), MAK_FUNC_0( psa_mncc_hold_cnf, MNCC_HOLD_CNF ), MAK_FUNC_0( psa_mncc_modify_cnf, MNCC_MODIFY_CNF ), MAK_FUNC_0( psa_mncc_modify_ind, MNCC_MODIFY_IND ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_mncc_progress_ind, MNCC_PROGRESS_IND ), MAK_FUNC_0( psa_mncc_reject_ind, MNCC_REJECT_IND ), MAK_FUNC_0( psa_mncc_release_cnf, MNCC_RELEASE_CNF ), MAK_FUNC_0( psa_mncc_release_ind, MNCC_RELEASE_IND ), MAK_FUNC_0( psa_mncc_retrieve_cnf, MNCC_RETRIEVE_CNF ), MAK_FUNC_0( psa_mncc_setup_cnf, MNCC_SETUP_CNF ), MAK_FUNC_0( psa_mncc_setup_compl_ind, MNCC_SETUP_COMPL_IND ), MAK_FUNC_0( psa_mncc_setup_ind, MNCC_SETUP_IND ), MAK_FUNC_0( psa_mncc_start_dtmf_cnf, MNCC_START_DTMF_CNF ), MAK_FUNC_0( psa_mncc_sync_ind, MNCC_SYNC_IND ), MAK_FUNC_0( psa_mncc_user_ind, MNCC_USER_IND ), MAK_FUNC_0( psa_mncc_facility_ind, MNCC_FACILITY_IND ), MAK_FUNC_0( psa_mncc_bearer_cap_cnf, MNCC_BEARER_CAP_CNF ), MAK_FUNC_0( psa_mncc_prompt_ind, MNCC_PROMPT_IND ), MAK_FUNC_0( psa_mncc_recall_ind, MNCC_RECALL_IND ), MAK_FUNC_0( psa_mncc_status_ind, MNCC_STATUS_IND ) }; LOCAL const T_FUNC mnss_table[] = { MAK_FUNC_0( psa_mnss_begin_ind, MNSS_BEGIN_IND ), MAK_FUNC_0( psa_mnss_facility_ind, MNSS_FACILITY_IND ), MAK_FUNC_0( psa_mnss_end_ind, MNSS_END_IND ) }; LOCAL const T_FUNC mnsms_table[] = { MAK_FUNC_0( psa_mnsms_delete_cnf, MNSMS_DELETE_CNF ), MAK_FUNC_0( psa_mnsms_read_cnf, MNSMS_READ_CNF ), MAK_FUNC_0( psa_mnsms_store_cnf, MNSMS_STORE_CNF ), MAK_FUNC_0( psa_mnsms_submit_cnf, MNSMS_SUBMIT_CNF ), MAK_FUNC_0( psa_mnsms_command_cnf, MNSMS_COMMAND_CNF ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_mnsms_report_ind, MNSMS_REPORT_IND ), MAK_FUNC_0( psa_mnsms_status_ind, MNSMS_STATUS_IND ), MAK_FUNC_0( psa_mnsms_message_ind, MNSMS_MESSAGE_IND ), MAK_FUNC_0( psa_mnsms_error_ind, MNSMS_ERROR_IND ), MAK_FUNC_0( psa_mnsms_resume_cnf, MNSMS_RESUME_CNF ), MAK_FUNC_0( psa_mnsms_query_cnf, MNSMS_QUERY_CNF ), #ifdef GPRS MAK_FUNC_0( psa_mnsms_mo_serv_cnf, MNSMS_MO_SERV_CNF ), #else MAK_FUNC_N( pei_not_supported, 0 ), #endif /* GPRS */ #ifdef SIM_PERS_OTA MAK_FUNC_0( psa_mnsms_OTA_decode_ind, MNSMS_OTA_DECODE_IND ) #else MAK_FUNC_N( pei_not_supported, 0 ) #endif }; LOCAL const T_FUNC mmi_table[] = { MAK_FUNC_0( psa_mmi_keypad_ind, MMI_KEYPAD_IND ), MAK_FUNC_0( psa_mmi_cbch_ind, MMI_CBCH_IND ), MAK_FUNC_0( psa_mmi_rxlev_ind, MMI_RXLEV_IND ), MAK_FUNC_0( psa_mmi_battery_ind, MMI_BATTERY_IND ), #ifdef SIM_TOOLKIT MAK_FUNC_0( psa_sat_cbch_dnl_ind, MMI_SAT_CBCH_DWNLD_IND ), #else MAK_FUNC_N( pei_not_supported, 0 ), #endif #ifdef BTE_MOBILE MAK_FUNC_0( psa_mmi_bt_cb_notify_ind, MMI_BT_CB_NOTIFY_IND ), #else MAK_FUNC_N( pei_not_supported, 0 ), #endif #ifdef RVM_GIL_SWE MAK_FUNC_N( pei_not_supported, 0 ), /* RPD MSG ? */ MAK_FUNC_0( gil_gpf_dispatch_message, MMI_GIL_IND ), #else MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), #endif /* RVM_GIL_SWE */ #ifndef VOCODER_FUNC_INTERFACE MAK_FUNC_0( psa_mmi_tch_vocoder_cfg_con, MMI_TCH_VOCODER_CFG_CON ) #else MAK_FUNC_N( pei_not_supported, 0 ) #endif }; #ifdef DTI LOCAL const T_FUNC dti_dl_table[] = { MAK_FUNC_0( dti_lib_dti_dti_connect_ind , DTI2_CONNECT_IND ), /* 7700x */ MAK_FUNC_0( dti_lib_dti_dti_connect_cnf , DTI2_CONNECT_CNF ), /* 7701x */ MAK_FUNC_0( dti_lib_dti_dti_disconnect_ind , DTI2_DISCONNECT_IND ), /* 7702x */ MAK_FUNC_0( dti_lib_dti_dti_ready_ind , DTI2_READY_IND ), /* 7703x */ MAK_FUNC_0( dti_lib_dti_dti_data_ind , DTI2_DATA_IND ), /* 7704x */ #if defined (_SIMULATION_) MAK_FUNC_S( dti_lib_dti_dti_data_test_ind , DTI2_DATA_TEST_IND ) #else /* _SIMULATION_ */ MAK_FUNC_N( pei_not_supported , 0) #endif /* _SIMULATION_ */ }; #endif /* UART */ #ifdef FF_EM_MODE LOCAL const T_FUNC em_table[] = { MAK_FUNC_0( psa_em_sc_info_cnf, EM_SC_INFO_CNF ), /* 0x7E00 */ #ifdef GPRS MAK_FUNC_0( psa_em_sc_gprs_info_cnf, EM_SC_GPRS_INFO_CNF ), /* 0x7E01 */ #else MAK_FUNC_N( pei_not_supported, EM_SC_GPRS_INFO_CNF ), /* 0x7E01 */ #endif /* GPRS */ MAK_FUNC_0( psa_em_nc_info_cnf, EM_NC_INFO_CNF ), /* 0x7E02 */ MAK_FUNC_0( psa_em_loc_pag_info_cnf, EM_LOC_PAG_INFO_CNF ), /* 0x7E03 */ MAK_FUNC_0( psa_em_plmn_info_cnf, EM_PLMN_INFO_CNF ), /* 0x7E04 */ MAK_FUNC_0( psa_em_cip_hop_dtx_info_cnf, EM_CIP_HOP_DTX_INFO_CNF ), /* 0x7E05 */ MAK_FUNC_0( psa_em_power_info_cnf, EM_POWER_INFO_CNF ), /* 0x7E06 */ MAK_FUNC_0( psa_em_identity_info_cnf, EM_IDENTITY_INFO_CNF ), /* 0x7E07 */ MAK_FUNC_0( psa_em_sw_version_info_cnf, EM_SW_VERSION_INFO_CNF ), /* 0x7E08 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E09 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E0A */ MAK_FUNC_0( em_event_trace_ind, EM_DATA_IND ), /* 0x7E0B */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E0C */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E0D */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E0E */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E0F */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E10 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E11 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E12 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E13 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E14 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E15 */ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x7E16 */ #ifdef GPRS MAK_FUNC_0( psa_em_gmm_info_cnf, EM_GMM_INFO_CNF ), /* 0x7E17 */ /*GMM_INFO*/ MAK_FUNC_0( psa_em_grlc_info_cnf, EM_GRLC_INFO_CNF ), /* 0x7E18 */ /*GRLC_INFO*/ #else MAK_FUNC_N( pei_not_supported, EM_GMM_INFO_CNF ), /* 0x7E17 */ MAK_FUNC_N( pei_not_supported, EM_GRLC_INFO_CNF ), /* 0x7E18 */ #endif /* GPRS */ MAK_FUNC_0( psa_em_amr_info_cnf, EM_AMR_INFO_CNF ) /* 0x7E19 */ }; #endif /* FF_EM_MODE */ #ifdef FF_ATI /* ES!! #if !defined (MFW) */ LOCAL const T_FUNC aci_table[] = { MAK_FUNC_0( aci_aci_cmd_req, ACI_CMD_REQ ), MAK_FUNC_0( aci_aci_abort_req, ACI_ABORT_REQ ), #ifdef BT_ADAPTER MAK_FUNC_0( aci_aci_cmd_res , ACI_CMD_RES ), MAK_FUNC_0( aci_aci_init_res , ACI_INIT_RES ), MAK_FUNC_0( aci_aci_deinit_req , ACI_DEINIT_REQ ), MAK_FUNC_0( aci_aci_open_port_req , ACI_OPEN_PORT_REQ ), MAK_FUNC_0( aci_aci_close_port_req, ACI_CLOSE_PORT_REQ ), MAK_FUNC_0( aci_aci_cmd_req_bt, ACI_CMD_REQ_BT ), MAK_FUNC_0( aci_aci_cmd_res_bt, ACI_CMD_RES_BT ), MAK_FUNC_0( aci_aci_abort_req_bt, ACI_ABORT_REQ_BT ), #else MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), #endif /* BT_ADAPTER */ MAK_FUNC_0( aci_aci_trc_ind, ACI_TRC_IND ), MAK_FUNC_0( aci_aci_ext_ind, ACI_EXT_IND ), #ifdef FF_MMI_RIV MAK_FUNC_0( aci_aci_riv_cmd_req, ACI_RIV_CMD_REQ ) #else MAK_FUNC_N( pei_not_supported, 0 ) #endif /* FF_MMI_RIV */ }; /* ES!! #endif */ #endif #ifdef FAX_AND_DATA LOCAL const T_FUNC ra_table[] = { MAK_FUNC_N( pei_not_supported, 0 /* RA_READY_IND */), MAK_FUNC_N( pei_not_supported, 0 /* RA_DATA_IND */), MAK_FUNC_0( psa_ra_activate_cnf, RA_ACTIVATE_CNF ), MAK_FUNC_0( psa_ra_deactivate_cnf, RA_DEACTIVATE_CNF ), MAK_FUNC_N( pei_not_supported, 0 /* RA_BREAK_IND */) #ifdef FF_FAX , MAK_FUNC_0( psa_ra_modify_cnf, RA_MODIFY_CNF ) #endif }; #ifdef DTI LOCAL const T_FUNC l2r_table[] = { MAK_FUNC_0( psa_l2r_activate_cnf, L2R_ACTIVATE_CNF ), MAK_FUNC_0( psa_l2r_deactivate_cnf, L2R_DEACTIVATE_CNF ), MAK_FUNC_0( psa_l2r_connect_cnf, L2R_CONNECT_CNF ), MAK_FUNC_0( psa_l2r_connect_ind, L2R_CONNECT_IND ), MAK_FUNC_0( psa_l2r_disc_cnf, L2R_DISC_CNF ), MAK_FUNC_0( psa_l2r_disc_ind, L2R_DISC_IND ), MAK_FUNC_N( pei_not_supported, 0 /* L2R_READY_IND */), MAK_FUNC_N( pei_not_supported, 0 /* L2R_DATA_IND */), MAK_FUNC_N( pei_not_supported, 0 /* L2R_BREAK_CNF */), MAK_FUNC_N( pei_not_supported, 0 /* L2R_BREAK_IND */), MAK_FUNC_N( psa_l2r_xid_ind, L2R_XID_IND ), MAK_FUNC_0( psa_l2r_error_ind, L2R_ERROR_IND ), MAK_FUNC_0( psa_l2r_reset_ind, L2R_RESET_IND ), MAK_FUNC_0( psa_l2r_statistic_ind, L2R_STATISTIC_IND ), MAK_FUNC_0( psa_l2r_dti_cnf, L2R_DTI_CNF ), MAK_FUNC_0( psa_l2r_dti_ind, L2R_DTI_IND ) }; #ifdef FF_FAX LOCAL const T_FUNC t30_table[] = { MAK_FUNC_0( psa_t30_cap_ind, T30_CAP_IND ), MAK_FUNC_0( psa_t30_sgn_ind, T30_SGN_IND ), MAK_FUNC_0( psa_t30_cmpl_ind, T30_CMPL_IND ), MAK_FUNC_S( psa_t30_report_ind, T30_REPORT_IND ), MAK_FUNC_0( psa_t30_error_ind, T30_ERROR_IND ), MAK_FUNC_0( psa_t30_deactivate_cnf, T30_DEACTIVATE_CNF ), MAK_FUNC_0( psa_t30_activate_cnf, T30_ACTIVATE_CNF ), MAK_FUNC_0( psa_t30_preamble_ind, T30_PREAMBLE_IND ), MAK_FUNC_0( psa_t30_dti_ind, T30_DTI_IND ), MAK_FUNC_0( psa_t30_dti_cnf, T30_DTI_CNF ), MAK_FUNC_0( psa_t30_phase_ind, T30_PHASE_IND ), MAK_FUNC_0( psa_t30_eol_ind, T30_EOL_IND ), MAK_FUNC_N( pei_not_supported, 0 ) }; #endif /* FF_FAX */ LOCAL const T_FUNC tra_table[] = { MAK_FUNC_0( psa_tra_activate_cnf, TRA_ACTIVATE_CNF ), MAK_FUNC_0( psa_tra_deactivate_cnf, TRA_DEACTIVATE_CNF ), MAK_FUNC_0( psa_tra_dti_cnf, TRA_DTI_CNF ), MAK_FUNC_0( psa_tra_dti_ind, TRA_DTI_IND ), }; #endif /* DTI */ #endif /* FAX_AND_DATA */ #ifdef FF_GPF_TCPIP LOCAL const T_FUNC tcpip_table[] = { MAK_FUNC_0 (psa_tcpip_initialize_cnf, TCPIP_INITIALIZE_CNF ), /* 0x00 */ MAK_FUNC_N (psa_tcpip_shutdown_cnf, TCPIP_SHUTDOWN_CNF ), /* 0x01 */ MAK_FUNC_0 (psa_tcpip_ifconfig_cnf, TCPIP_IFCONFIG_CNF ), /* 0x02 */ MAK_FUNC_0 (psa_tcpip_dti_cnf, TCPIP_DTI_CNF ) /* 0x03 */ }; #endif #ifdef CO_UDP_IP LOCAL const T_FUNC udpa_table[] = { MAK_FUNC_0( psa_udpa_dti_cnf, UDPA_DTI_CNF ), MAK_FUNC_0( psa_udpa_dti_ind, UDPA_DTI_IND ), MAK_FUNC_0( psa_udpa_config_cnf, UDPA_CONFIG_CNF ), }; LOCAL const T_FUNC ipa_table[] = { MAK_FUNC_0( psa_ipa_dti_cnf, IPA_DTI_CNF ), MAK_FUNC_0( psa_ipa_dti_ind, IPA_DTI_IND ), MAK_FUNC_0( psa_ipa_config_cnf, IPA_CONFIG_CNF ), }; #endif /* CO_UDP_IP */ #ifdef FF_WAP LOCAL const T_FUNC wap_table[] = { MAK_FUNC_S( psa_wap_mmi_ind, WAP_MMI_IND ), MAK_FUNC_S( psa_wap_mmi_req, WAP_MMI_REQ ), MAK_FUNC_S( psa_wap_mmi_cnf, WAP_MMI_CNF ), MAK_FUNC_0( psa_wap_dti_cnf, WAP_DTI_CNF ), MAK_FUNC_0( psa_wap_dti_ind, WAP_DTI_IND ) }; #endif /* FF_WAP */ #ifdef FF_GPF_TCPIP LOCAL const T_FUNC dcm_table[] = { MAK_FUNC_0( psa_dcm_open_conn_req, DCM_OPEN_CONN_REQ ), /* 0x8000401c */ MAK_FUNC_0( psa_dcm_close_conn_req, DCM_CLOSE_CONN_REQ ), /* 0x8001401c */ MAK_FUNC_0( psa_dcm_get_current_conn_req , DCM_GET_CURRENT_CONN_REQ), /* 0x8002001c */ MAK_FUNC_N( pei_not_supported, 0 ) }; #endif /* FF_GPF_TCPIP */ /*LOCAL const T_FUNC ppp_table[] = { MAK_FUNC_0( psa_ppp_establish_cnf, PPP_ESTABLISH_CNF ), MAK_FUNC_0( psa_ppp_terminate_ind, PPP_TERMINATE_IND ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_ppp_dti_connected_ind, PPP_DTI_CONNECTED_IND ) };*/ #if defined (UART) AND defined (DTI) LOCAL const T_FUNC uart_table[] = { MAK_FUNC_0( psa_uart_parameters_cnf, UART_PARAMETERS_CNF ), /* 0x3400 */ MAK_FUNC_0( psa_uart_parameters_ind, UART_PARAMETERS_IND ), /* 0x3401 */ MAK_FUNC_0( psa_uart_dti_cnf, UART_DTI_CNF ), /* 0x3402 */ MAK_FUNC_0( psa_uart_dti_ind, UART_DTI_IND ), /* 0x3403 */ MAK_FUNC_0( psa_uart_disable_cnf, UART_DISABLE_CNF ), /* 0x3404 */ MAK_FUNC_0( psa_uart_ring_cnf, UART_RING_CNF ), /* 0x3405 */ MAK_FUNC_0( psa_uart_dcd_cnf, UART_DCD_CNF ), /* 0x3406 */ MAK_FUNC_0( psa_uart_escape_cnf, UART_ESCAPE_CNF ), /* 0x3407 */ MAK_FUNC_0( psa_uart_detected_ind, UART_DETECTED_IND ), /* 0x3408 */ MAK_FUNC_0( psa_uart_error_ind, UART_ERROR_IND ), /* 0x3409 */ MAK_FUNC_0( psa_uart_mux_start_cnf, UART_MUX_START_CNF ), MAK_FUNC_0( psa_uart_mux_dlc_establish_ind, UART_MUX_DLC_ESTABLISH_IND), MAK_FUNC_0( psa_uart_mux_dlc_release_ind, UART_MUX_DLC_RELEASE_IND ), MAK_FUNC_N( pei_not_supported, 0 ), /* sleep ind */ MAK_FUNC_N( pei_not_supported, 0 ), /* wake up ind */ MAK_FUNC_0( psa_uart_mux_close_ind, UART_MUX_CLOSE_IND ), MAK_FUNC_N( pei_not_supported, 0 ) }; #endif #ifdef GPRS /* GMMREG */ LOCAL const T_FUNC gmm_table[] = { MAK_FUNC_0( psa_gmmreg_attach_cnf, GMMREG_ATTACH_CNF ), MAK_FUNC_0( psa_gmmreg_attach_rej, GMMREG_ATTACH_REJ ), MAK_FUNC_0( psa_gmmreg_detach_cnf, GMMREG_DETACH_CNF ), MAK_FUNC_0( psa_gmmreg_detach_ind, GMMREG_DETACH_IND ), MAK_FUNC_0( psa_gmmreg_plmn_ind, GMMREG_PLMN_IND ), MAK_FUNC_0( psa_gmmreg_suspend_ind, GMMREG_SUSPEND_IND ), MAK_FUNC_0( psa_gmmreg_resume_ind, GMMREG_RESUME_IND ), MAK_FUNC_0( psa_gmmreg_info_ind, GMMREG_INFO_IND ), MAK_FUNC_0( psa_gmmreg_ciphering_ind, GMMREG_CIPHERING_IND ), MAK_FUNC_0( psa_gmmreg_ahplmn_ind, GMMREG_AHPLMN_IND ) }; /* SMREG */ LOCAL const T_FUNC sm_table[] = { MAK_FUNC_0( psa_smreg_pdp_activate_cnf, SMREG_PDP_ACTIVATE_CNF ), MAK_FUNC_0( psa_smreg_pdp_activate_rej, SMREG_PDP_ACTIVATE_REJ ), MAK_FUNC_0( psa_smreg_pdp_activate_ind, SMREG_PDP_ACTIVATE_IND ), MAK_FUNC_0( psa_smreg_pdp_deactivate_cnf, SMREG_PDP_DEACTIVATE_CNF ), MAK_FUNC_0( psa_smreg_pdp_deactivate_ind, SMREG_PDP_DEACTIVATE_IND ), MAK_FUNC_0( psa_smreg_pdp_modify_ind, SMREG_PDP_MODIFY_IND ) }; /* SN */ LOCAL const T_FUNC sndcp_table[] = { MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( psa_sn_count_cnf, SN_COUNT_CNF ), MAK_FUNC_N( psa_sn_switch_cnf, SN_SWITCH_CNF ) }; /* PPP */ /*LOCAL const T_FUNC ppp_table[] = { MAK_FUNC_0( psa_ppp_establish_cnf, PPP_ESTABLISH_CNF ), MAK_FUNC_0( psa_ppp_terminate_ind, PPP_TERMINATE_IND ), MAK_FUNC_0( psa_ppp_pdp_activate_ind, PPP_PDP_ACTIVATE_IND ), MAK_FUNC_0( psa_ppp_modification_cnf, PPP_MODIFICATION_CNF ), MAK_FUNC_0( psa_ppp_dti_connected_ind, PPP_DTI_CONNECTED_IND ) };*/ #ifdef FF_PKTIO LOCAL const T_FUNC mnpkt_table[] = { MAK_FUNC_0( psa_pkt_connect_ind, PKT_CONNECT_IND ), MAK_FUNC_0( psa_pkt_disconnect_ind, PKT_DISCONNECT_IND ), MAK_FUNC_0( psa_pkt_dti_open_cnf, PKT_DTI_OPEN_CNF ), MAK_FUNC_0( psa_pkt_modify_cnf, PKT_MODIFY_CNF ), MAK_FUNC_0( psa_pkt_dti_close_cnf, PKT_DTI_CLOSE_CNF ), MAK_FUNC_0( psa_pkt_dti_close_ind, PKT_DTI_CLOSE_IND ) }; #endif #endif /* GPRS */ #if defined (FF_PSI ) AND defined (DTI) LOCAL const T_FUNC mnpsi_table[] = { MAK_FUNC_0( psa_psi_conn_ind, PSI_CONN_IND ), MAK_FUNC_0( psa_psi_disconn_ind, PSI_DISCONN_IND ), MAK_FUNC_0( psa_psi_dti_open_cnf, PSI_DTI_OPEN_CNF ), MAK_FUNC_0( psa_psi_dti_close_cnf, PSI_DTI_CLOSE_CNF ), MAK_FUNC_0( psa_psi_dti_close_ind, PSI_DTI_CLOSE_IND ), MAK_FUNC_0( psa_psi_setconf_cnf, PSI_SETCONF_CNF ), MAK_FUNC_0( psa_psi_line_state_cnf, PSI_LINE_STATE_CNF ), MAK_FUNC_0( psa_psi_line_state_ind, PSI_LINE_STATE_CNF ), MAK_FUNC_0( psa_psi_close_cnf, PSI_CLOSE_CNF ) #ifdef _SIMULATION_ , MAK_FUNC_0( psa_psi_conn_ind_test, PSI_CONN_IND_TEST) #endif /*_SIMULATION_ */ }; #endif /*FF_PSI*/ /* PPP */ #if defined FF_WAP || defined GPRS || defined FF_GPF_TCPIP || defined (FF_SAT_E) LOCAL const T_FUNC ppp_table[] = { MAK_FUNC_0( psa_ppp_establish_cnf, PPP_ESTABLISH_CNF ), MAK_FUNC_0( psa_ppp_terminate_ind, PPP_TERMINATE_IND ), MAK_FUNC_0( psa_ppp_pdp_activate_ind, PPP_PDP_ACTIVATE_IND ), MAK_FUNC_0( psa_ppp_modification_cnf, PPP_MODIFICATION_CNF ), MAK_FUNC_0( psa_ppp_dti_connected_ind, PPP_DTI_CONNECTED_IND ) }; #endif /* FF_WAP || GPRS || FF_GPF_TCPIP || FF_SAT_E */ #if defined FF_EOTD LOCAL const T_FUNC mnlc_table[] = { MAK_FUNC_0( psa_mnlc_sms_meas_cnf, MNLC_SMS_MEAS_CNF ) }; #endif /* FF_EOTD */ /* BTI */ #ifdef BT_ADAPTER LOCAL const T_FUNC btp_table[] = { MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_btp_dti_ind, T30_DTI_IND ), MAK_FUNC_0( psa_btp_dti_cnf, T30_DTI_CNF ) }; #endif /* BT_ADAPTER */ #if defined(FF_TCP_IP) || defined(FF_ESIM) LOCAL const T_FUNC aaa_table[] = { MAK_FUNC_0( psa_aaa_cmd_req, AAA_CMD_REQ ), MAK_FUNC_0( psa_aaa_open_port_req, AAA_OPEN_PORT_REQ ), MAK_FUNC_0( psa_aaa_close_port_req, AAA_CLOSE_PORT_REQ ), MAK_FUNC_0( psa_aaa_dti_rsp, AAA_DTI_RES ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_N( pei_not_supported, 0 ), MAK_FUNC_0( psa_aaa_disconnect_rsp, AAA_DISCONNECT_RES ) }; #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_PEI | | STATE : code ROUTINE : pei_primitive | +--------------------------------------------------------------------+ PURPOSE : Process protocol specific primitive. */ LOCAL SHORT pei_primitive (void *ptr) { T_PRIM *prim = ptr; #ifdef SMI T_PEI_RETURN subReturn = PEI_ERROR; #endif /* * * ACI UPLINK * | * +-------------------------------v--------------------------------------+ * | | * | ACI | * | | * +--^----^-----^----^----^----^---^---^---^----^------^----^---^----^---+ * | | | | | | | | | | | | | | * SIM MMREG MNCC MNSS MNSMS MMI T30 L2R RA GMMREG SMREG PPP UART BTI DOWNLINK * | | | | | | | | | | | | | | * */ #ifdef MFW extern void mmeFlagHandler(void); extern USHORT mfwMmeDrvFlag; #endif /* TRACE_FUNCTION ("pei_primitive()");*/ #ifdef MFW if (mfwMmeDrvFlag) mmeFlagHandler(); #endif if (prim NEQ NULL) { ULONG opc = prim->custom.opc; USHORT n; const T_FUNC *table; #ifdef FF_EM_MODE /* This variable is only needed to extract information about the sending entity. This is needed especially for testing purposes. */ T_sdu *em_prim_data; #endif /* FF_EM_MODE */ VSI_PPM_REC ((T_PRIM_HEADER*)prim, __FILE__, __LINE__); #ifndef FF_EM_MODE /* * To ensure true msc directions for the engineering mode additional * information (from which entity the prim is sent) must be provided * before PTRACE_IN is called. */ PTRACE_IN (opc); #endif /* FF_EM_MODE */ #ifdef MFW /* * MFW "checks" if it needs to handle primitves coming from below before they are * potentially still to be handled by ACI */ if (aci_check_primitive (opc, (void*)(&(prim->data)))) { PFREE (P2D(prim)); return PEI_OK; } #endif /* TRACE_EVENT_P1("opcode: %d", opc);*/ switch (SAP_NR(opc)) { #ifdef FF_ATI /* ES!! #if !defined (MFW) */ case ACI_DL: case ACI_UL: table = aci_table; n = TAB_SIZE (aci_table); break; /* ES!! #endif */ #endif case SAP_NR(SIM_UL): table = sim_table; n = TAB_SIZE (sim_table); break; case SAP_NR(MMREG_DL): table = mmr_table; n = TAB_SIZE (mmr_table); break; case SAP_NR(MNCC_DL): table = mncc_table; n = TAB_SIZE (mncc_table); break; case SAP_NR(MNSS_DL): table = mnss_table; n = TAB_SIZE (mnss_table); break; case SAP_NR(MNSMS_DL): table = mnsms_table; n = TAB_SIZE (mnsms_table); break; #if defined (FF_PKTIO) AND defined (DTI) case SAP_NR(PKT_DL): table = mnpkt_table; n = TAB_SIZE (mnpkt_table); break; #endif #if defined (FF_PSI) AND defined (DTI) case SAP_NR(PSI_DL): table = mnpsi_table; n = TAB_SIZE (mnpsi_table); break; #endif /*FF_PSI*/ #ifdef DTI #if defined(FF_TCP_IP) || defined(FF_ESIM) case SAP_NR(AAA_DL): table = aaa_table; n = TAB_SIZE (aaa_table); break; #endif #endif case MMI_DL: table = mmi_table; n = TAB_SIZE (mmi_table); break; #ifdef DTI case DTI2_DL: { table = dti_dl_table; n = TAB_SIZE (dti_dl_table); /* * to be able to distinguish DTI1/DTI2 opcodes, * the ones for DTI2 start at 0x50 */ opc -= 0x50; } break; #endif /* UART */ #ifdef FF_EM_MODE case EM_Dl: table = em_table; n = TAB_SIZE (em_table); /*break;*/ em_prim_data = (T_sdu*) (((char*)&prim->data) + table->soff); /* * The prim 'EM_DATA_IND' is ambiguous concerning the sending entity. * Therefore additional information is provided here. */ if (opc EQ EM_DATA_IND_OPC) { switch (em_prim_data->l_buf) { case EM_L1: TRACE_PRIM_FROM("PL"); break; case EM_DL: TRACE_PRIM_FROM("DL"); break; case EM_MM: TRACE_PRIM_FROM("MM"); break; case EM_CC: TRACE_PRIM_FROM("CC"); break; case EM_SS: TRACE_PRIM_FROM("SS"); break; case EM_SMS: TRACE_PRIM_FROM("SMS"); break; case EM_SIM: TRACE_PRIM_FROM("SIM"); break; default: break; } } break; #endif /* FF_EM_MODE */ #if defined (FAX_AND_DATA) AND defined (DTI) case SAP_NR(RA_DL): table = ra_table; n = TAB_SIZE (ra_table); break; case SAP_NR(L2R_DL): table = l2r_table; n = TAB_SIZE (l2r_table); break; #ifdef FF_FAX case SAP_NR(T30_DL): table = t30_table; n = TAB_SIZE (t30_table); break; #endif case SAP_NR(TRA_DL): table = tra_table; n = TAB_SIZE (tra_table); break; #endif #ifdef FF_GPF_TCPIP case SAP_NR(TCPIP_DL): table = tcpip_table; n = TAB_SIZE (tcpip_table); break; case SAP_NR(DCM_DL): table = dcm_table; n = TAB_SIZE (dcm_table); break; #endif #ifdef CO_UDP_IP case SAP_NR(UDPA_DL): table = udpa_table; n = TAB_SIZE (udpa_table); break; case SAP_NR(IPA_DL): table = ipa_table; n = TAB_SIZE (ipa_table); break; #endif #ifdef FF_WAP case SAP_NR(WAP_DL): table = wap_table; n = TAB_SIZE (wap_table); break; #endif #if defined (FF_WAP) || defined (GPRS) || defined (FF_SAT_E) case PPP_UL: table = ppp_table; n = TAB_SIZE (ppp_table); break; #endif #ifdef GPRS case GMMREG_DL: table = gmm_table; n = TAB_SIZE (gmm_table); break; case SMREG_DL: table = sm_table; n = TAB_SIZE (sm_table); break; case SN_DL: table = sndcp_table; n = TAB_SIZE (sndcp_table); break; #endif /* GPRS */ #if defined (UART) AND defined (DTI) case UART_UL: table = uart_table; n = TAB_SIZE (uart_table); break; #endif /* UART */ #ifdef BT_ADAPTER /* BTI DL */ case BTP_G: table = btp_table; n = TAB_SIZE (btp_table); break; #endif /* BT_ADAPTER */ #if defined FF_EOTD case SAP_NR(MNLC_DL): table = mnlc_table; n = TAB_SIZE (mnlc_table); break; #endif default: table = NULL; n = 0; break; } #ifdef FF_EM_MODE /* * Only valid for the engineering mode as described above. */ PTRACE_IN (opc); #endif /* FF_EM_MODE */ if (table NEQ NULL ) { if (PRIM_NR(opc) < n) { table += PRIM_NR(opc); #ifdef PALLOC_TRANSITION P_SDU(prim) = table->soff ? (T_sdu*) (((char*)&prim->data) + table->soff) : 0; #ifndef NO_COPY_ROUTING P_LEN(prim) = table->size + sizeof (T_PRIM_HEADER); #endif /* NO_COPY_ROUTING */ #endif /* PALLOC_TRANSITION */ #if !defined (SMI) AND !defined (MFW) if (mode EQ 0 AND table NEQ aci_table) { PSENDX (ACI, P2D(prim)); } else #endif { #ifdef SMI if (table->func EQ (T_VOID_FUNC) pei_not_supported) { subReturn = _pei_primitive (prim); } else #endif JUMP (table->func) (P2D(prim)); } } else { #ifndef SMI pei_not_supported (P2D(prim)); #else subReturn = _pei_primitive (prim); #endif } return PEI_OK; } #ifdef SMI else { subReturn = _pei_primitive (prim); } #endif /* * Primitive is no GSM Primitive * then forward to the environment */ #ifdef SMI if (subReturn EQ PEI_ERROR) { #endif #ifdef GSM_ONLY PFREE (P2D(prim)) return PEI_ERROR; #else if (opc & SYS_MASK) vsi_c_primitive (VSI_CALLER prim); else { PFREE (P2D(prim)); return PEI_ERROR; } #endif #ifdef SMI } #endif } #ifdef SMI else { subReturn = _pei_primitive (prim); } #endif return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_PEI | | STATE : code ROUTINE : pei_init | +--------------------------------------------------------------------+ PURPOSE : Initialize Protocol Stack Entity */ LOCAL SHORT pei_init (T_HANDLE handle) { #ifdef FF_ATI #ifdef UART EXTERN void urt_init (void); #endif #endif aci_handle = handle; TRACE_FUNCTION ("pei_init()"); if (hCommSIM < VSI_OK) { if ((hCommSIM = vsi_c_open (VSI_CALLER SIM_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef FF_ESIM if (hCommESIM < VSI_OK) /* open channel to ESIM entity */ { if ((hCommESIM = vsi_c_open (VSI_CALLER ESIM_NAME)) < VSI_OK) return PEI_ERROR; } #endif if (hCommMM < VSI_OK) { if ((hCommMM = vsi_c_open (VSI_CALLER MM_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommCC < VSI_OK) { if ((hCommCC = vsi_c_open (VSI_CALLER CC_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommSS < VSI_OK) { if ((hCommSS = vsi_c_open (VSI_CALLER SS_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommSMS < VSI_OK) { if ((hCommSMS = vsi_c_open (VSI_CALLER SMS_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef UART if (hCommUART < VSI_OK) { if ((hCommUART = vsi_c_open (VSI_CALLER UART_NAME)) < VSI_OK) return PEI_ERROR; } #endif if (hCommPL < VSI_OK) { if ((hCommPL = vsi_c_open (VSI_CALLER PL_NAME)) < VSI_OK) return PEI_ERROR; } #if defined FF_EOTD if (hCommLC < VSI_OK) { if ((hCommLC = vsi_c_open (VSI_CALLER LC_NAME)) < VSI_OK) return PEI_ERROR; } #endif #ifdef FF_TCP_IP /*#ifndef _SIMULATION_*/ if (hCommAAA < VSI_OK) { if ((hCommAAA = vsi_c_open (VSI_CALLER AAA_NAME)) < VSI_OK) return PEI_ERROR; } /*#endif*/ #endif #if defined FF_TRACE_OVER_MTST if (hCommMTST < VSI_OK) { if ((hCommMTST = vsi_c_open (VSI_CALLER "MTST")) < VSI_OK) return PEI_ERROR; } #endif if (hCommACI < VSI_OK) { if ((hCommACI = vsi_c_open (VSI_CALLER ACI_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef FAX_AND_DATA #ifndef USE_L1FD_FUNC_INTERFACE if (hCommRA < VSI_OK) { if ((hCommRA = vsi_c_open (VSI_CALLER RA_NAME)) < VSI_OK) return PEI_ERROR; } #endif if (hCommL2R < VSI_OK) { if ((hCommL2R = vsi_c_open (VSI_CALLER L2R_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommTRA < VSI_OK) { /* TRA_NAME i.e "L2R" on account of TRA being no real entity */ if ((hCommTRA = vsi_c_open (VSI_CALLER TRA_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef FF_FAX if (hCommT30 < VSI_OK) { if ((hCommT30 = vsi_c_open (VSI_CALLER T30_NAME)) < VSI_OK) return PEI_ERROR; } #endif /* FF_FAX */ #endif /* FAX_AND_DATA */ #ifdef FF_GPF_TCPIP if (hCommTCPIP < VSI_OK) { if ((hCommTCPIP = vsi_c_open (VSI_CALLER TCPIP_NAME)) < VSI_OK) return PEI_ERROR; } #endif #if defined (CO_TCPIP_TESTAPP) || defined (CO_BAT_TESTAPP) if (hCommAPP < VSI_OK) { if ((hCommAPP = vsi_c_open (VSI_CALLER APP_NAME)) < VSI_OK) return PEI_ERROR; } #endif #ifdef CO_UDP_IP if (hCommUDP < VSI_OK) { if ((hCommUDP = vsi_c_open (VSI_CALLER UDP_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommIP < VSI_OK) { if ((hCommIP = vsi_c_open (VSI_CALLER IP_NAME)) < VSI_OK) return PEI_ERROR; } #endif #ifdef FF_WAP if (hCommWAP < VSI_OK) { if ((hCommWAP = vsi_c_open (VSI_CALLER WAP_NAME)) < VSI_OK) return PEI_ERROR; } #endif #if defined (FF_WAP) || defined (GPRS) || defined (FF_SAT_E) if (hCommPPP < VSI_OK) { if ((hCommPPP = vsi_c_open (VSI_CALLER PPP_NAME)) < VSI_OK) return PEI_ERROR; } #endif #ifdef FF_EM_MODE if (hCommRR < VSI_OK) { if ((hCommRR = vsi_c_open (VSI_CALLER RR_NAME)) < VSI_OK) return PEI_ERROR; } #endif /* FF_EM_MODE */ #if defined (GPRS) AND defined (DTI) if (hCommGMM < VSI_OK) { if ((hCommGMM = vsi_c_open (VSI_CALLER GMM_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommSM < VSI_OK) { if ((hCommSM = vsi_c_open (VSI_CALLER SM_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommSNDCP < VSI_OK) { if ((hCommSNDCP = vsi_c_open (VSI_CALLER SNDCP_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef FF_PKTIO if (hCommPKTIO < VSI_OK) { if ((hCommPKTIO = vsi_c_open (VSI_CALLER PKTIO_NAME)) < VSI_OK) { TRACE_EVENT ("cannot open PKTIO"); return PEI_ERROR; } } #endif #endif /* GPRS */ #ifdef FF_PSI if (hCommPSI < VSI_OK) { if ((hCommPSI = vsi_c_open (VSI_CALLER PSI_NAME)) < VSI_OK) { TRACE_EVENT ("cannot open PSI"); return PEI_ERROR; } } #endif /*FF_PSI*/ #ifdef BT_ADAPTER if (hCommBTI < VSI_OK) { if ((hCommBTI = vsi_c_open (VSI_CALLER BTI_NAME)) < VSI_OK) return PEI_ERROR; } #endif /* BT_ADAPTER */ #ifdef FF_GPF_TCPIP if (hCommDCM < VSI_OK) { if ((hCommDCM = vsi_c_open (VSI_CALLER DCM_NAME)) < VSI_OK) return PEI_ERROR; } #endif /* FF_GPF_TCPIP */ if (hCommL1 < VSI_OK) { if ((hCommL1 = vsi_c_open (VSI_CALLER L1_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef DTI #ifdef _SIMULATION_ /* * initialize dtilib for this entity */ aci_hDTI = dti_init ( 4, handle, DTI_DEFAULT_OPTIONS, aci_pei_sig_callback ); #else /* * initialize dtilib for this entity */ aci_hDTI = dti_init ( ACI_INSTANCES * UART_INSTANCES, handle, DTI_DEFAULT_OPTIONS, aci_pei_sig_callback ); #endif #endif /* DTI */ #ifdef DTI if(aci_hDTI EQ NULL) { TRACE_EVENT ("ACI DTI handle is 0"); return PEI_ERROR; } #endif #ifdef SMI /* * initialize the slim man machine interface */ if (_pei_init () EQ PEI_ERROR) return PEI_ERROR; #endif #ifdef ACI audio_Init ( NULL ); /* rx_Init( ) is not needed at the moment for ATI only version... causes the software not to start because it needs CST stack to be started first... rx_Init ( NULL ); */ pwr_Init ( NULL ); #endif /* * Initialize BT_ADAPTER */ #if defined(FF_ATI) && defined(BT_ADAPTER) if (btiaci_init(aci_handle) EQ BTI_NAK) return PEI_ERROR; btiaci_at_init_req(); #endif #ifdef FF_ATI init_ati (); #endif /* FF_ATI */ #ifdef UART cmhUART_lst_init (); #endif #ifdef DTI psaACI_Init(); dti_cntrl_init(); #endif #if defined (FF_PSI) AND defined (DTI) cmhPSI_lst_init(); #endif /*FF_PSI*/ /* * initialize CMH's */ cmh_Init (); cmh_Reset ( CMD_SRC_LCL, FALSE ); #ifdef FF_ATI cmh_Reset ( CMD_SRC_ATI_1, FALSE ); cmh_Reset ( CMD_SRC_ATI_2, FALSE ); cmh_Reset ( CMD_SRC_ATI_3, FALSE ); cmh_Reset ( CMD_SRC_ATI_4, FALSE ); #ifdef SIM_TOOLKIT cmh_Reset ( CMD_SRC_ATI_5, FALSE ); #endif /* SIM_TOOLKIT */ #if defined FF_EOTD cmh_Reset ( CMD_SRC_ATI_6, FALSE ); #endif /* FF_EOTD */ #endif /* FF_ATI */ /* * initialize PSA's */ #if defined (SIM_TOOLKIT) psaSAT_Init(); /* has to be done first! */ #endif psaSS_Init(); #ifdef ACI psaMMI_Init(); #endif psaCC_Init(); psaMM_Init(); psaSIM_Init(ACI_INIT_TYPE_ALL); psaMMI_Init(); psaSMS_Init(); #ifdef FAX_AND_DATA psaRA_Init(); psaL2R_Init(); #ifdef FF_FAX psaT30_Init(); #endif /* FF_FAX */ #endif /* FAX_AND_DATA */ #ifdef GPRS psa_GPRSInit(); #endif /* GPRS */ #if defined (FF_WAP) || defined (FF_TCP_IP) || defined(FF_GPF_TCPIP)|| defined (FF_SAT_E) psaPPP_Init(); #endif /* (FF_WAP) (FF_TCP_IP) (FF_GPF_TCPIP) (FF_SAT_E) */ #if defined(CO_UDP_IP) || defined(FF_GPF_TCPIP) psaTCPIP_Init(); #endif /* CO_UDP_IP || FF_GPF_TCPIP */ #if defined(FF_GPF_TCPIP) dcm_init() ; #endif /* FF_GPF_TCPIP */ #ifdef AT_ADAPTER psaBTI_Init(); #endif /* AT_ADAPTER */ /* * Initialize Message Coder Decoder */ ccd_init (); /* * Initialize the UART module */ #ifdef FF_ATI #ifdef UART urt_init (); #endif ati_cmd_init (); #endif /* * Initialize Advice of Charge Module */ aoc_init_calltable (); /* * Initialize phonebook */ #ifdef TI_PS_FFS_PHB pb_init (); #else phb_Init (); #endif rdlPrm_init(); /* The high level audio driver is initialised here */ hl_audio_drv_init(); #if defined(_TARGET_) cmhCC_rd_mode_FFS(AUTOM_REP_NOT_PRESENT,READ_RDLmode); /* read redial mode from FFS */ #endif /* _TARGET_*/ #ifdef DTI #ifdef _SIMULATION_ #ifdef FF_ATI_BAT ati_bat_reset(); #endif ati_src_tst_init( CMD_SRC_EXT ); #endif #endif #if defined FF_EOTD ati_src_lc_init( CMD_SRC_EXT ); #endif /* FF_EOTD */ #ifdef MFW /* * initialise ACI extension handler * and start MMI Logic */ aci_ext_init (); mmi_main (); #endif #ifdef FF_MMI_RIV acia_init(); #endif return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_PEI | | STATE : code ROUTINE : pei_timeout | +--------------------------------------------------------------------+ PURPOSE : Process timeout */ LOCAL SHORT pei_timeout (USHORT index) { tim_exec_timeout (index); return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_PEI | | STATE : code ROUTINE : mmi_pei_signal | +--------------------------------------------------------------------+ PURPOSE : Functional interface to signal a primitive. */ LOCAL SHORT pei_signal ( ULONG opc, void *primData ) { #ifdef OPTION_SIGNAL #ifndef _TMS470 TRACE_FUNCTION ("pei_signal ()"); #endif /* _TMS470 */ switch (opc) { #ifdef FF_MMI_RIV case ACI_RIV_CMD_REQ: aci_aci_riv_cmd_req ((T_ACI_RIV_CMD_REQ *) primData); break; #endif #ifdef FAX_AND_DATA case RA_ACTIVATE_CNF: psa_ra_activate_cnf ( (T_RA_ACTIVATE_CNF *) primData ); break; case RA_DEACTIVATE_CNF: psa_ra_deactivate_cnf ( (T_RA_DEACTIVATE_CNF *) primData ); break; #ifdef FF_FAX case RA_MODIFY_CNF: psa_ra_modify_cnf ( (T_RA_MODIFY_CNF *) primData ); break; #endif /* FF_FAX */ #endif /* FAX_AND_DATA */ #ifdef FF_ATI /* ES!! #if !defined (MFW) */ case ACI_CMD_REQ: aci_aci_cmd_req ( (T_ACI_CMD_REQ *) primData ); break; case ACI_ABORT_REQ: aci_aci_abort_req ( (T_ACI_ABORT_REQ *) primData ); break; #endif /* FF_ATI */ } #endif /* OPTION_SIGNAL */ return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_PEI | | STATE : code ROUTINE : pei_exit | +--------------------------------------------------------------------+ PURPOSE : Close Resources and terminate */ LOCAL SHORT pei_exit (void) { U8 i; TRACE_FUNCTION ("pei_exit()"); /* * clean up communication */ #ifdef DTI /* close all open dti channels */ dti_cntrl_close_all_connections(); /* * Shut down dtilib communication */ dti_deinit(aci_hDTI); #endif #ifdef FF_TRACE_OVER_MTST vsi_c_close (VSI_CALLER hCommMTST); hCommMTST = VSI_ERROR; #endif vsi_c_close (VSI_CALLER hCommSIM); hCommSIM = VSI_ERROR; vsi_c_close (VSI_CALLER hCommSIM); hCommSIM = VSI_ERROR; vsi_c_close (VSI_CALLER hCommMM); hCommMM = VSI_ERROR; vsi_c_close (VSI_CALLER hCommCC); hCommCC = VSI_ERROR; #ifdef FF_ESIM vsi_c_close (VSI_CALLER hCommESIM); hCommESIM = VSI_ERROR; #endif vsi_c_close (VSI_CALLER hCommSS); hCommSS = VSI_ERROR; vsi_c_close (VSI_CALLER hCommSMS); hCommSMS = VSI_ERROR; #ifdef UART vsi_c_close (VSI_CALLER hCommDTI); hCommDTI = VSI_ERROR; vsi_c_close (VSI_CALLER hCommUART); hCommUART = VSI_ERROR; #endif #ifdef FF_PSI vsi_c_close (VSI_CALLER hCommPSI); hCommPSI = VSI_ERROR; #endif /*FF_PSI*/ /*#if defined SMI */ /* vsi_c_close (VSI_CALLER hCommSMI);*/ /* hCommSMI = VSI_ERROR;*/ /*#elif defined MFW */ /* vsi_c_close (VSI_CALLER hCommMMI);*/ /* hCommMMI = VSI_ERROR;*/ /*#elif defined ACI*/ vsi_c_close (VSI_CALLER hCommACI); hCommACI = VSI_ERROR; /*#endif*/ vsi_c_close (VSI_CALLER hCommPL); hCommPL = VSI_ERROR; #if defined FF_EOTD vsi_c_close (VSI_CALLER hCommLC); hCommLC = VSI_ERROR; #endif #ifdef FAX_AND_DATA #ifndef USE_L1FD_FUNC_INTERFACE vsi_c_close (VSI_CALLER hCommRA); hCommRA = VSI_ERROR; #endif vsi_c_close (VSI_CALLER hCommL2R); hCommL2R = VSI_ERROR; vsi_c_close (VSI_CALLER hCommTRA); hCommTRA = VSI_ERROR; #ifdef FF_FAX vsi_c_close (VSI_CALLER hCommT30); hCommT30 = VSI_ERROR; #endif /* FF_FAX */ #endif /* FAX_AND_DATA */ #ifdef FF_GPF_TCPIP vsi_c_close (VSI_CALLER hCommTCPIP); hCommTCPIP = VSI_ERROR; #endif #if defined (CO_TCPIP_TESTAPP) || defined (CO_BAT_TESTAPP) vsi_c_close (VSI_CALLER hCommAPP); hCommAPP = VSI_ERROR; #endif #ifdef CO_UDP_IP vsi_c_close (VSI_CALLER hCommUDP); hCommUDP = VSI_ERROR; vsi_c_close (VSI_CALLER hCommIP); hCommIP = VSI_ERROR; #endif #ifdef FF_WAP vsi_c_close (VSI_CALLER hCommWAP); hCommWAP = VSI_ERROR; #endif #if defined (FF_WAP) || defined (GPRS) || defined (FF_SAT_E) vsi_c_close (VSI_CALLER hCommPPP); hCommPPP = VSI_ERROR; #endif #ifdef GPRS vsi_c_close (VSI_CALLER hCommGMM); hCommGMM = VSI_ERROR; vsi_c_close (VSI_CALLER hCommSM); hCommSM = VSI_ERROR; vsi_c_close (VSI_CALLER hCommSNDCP); hCommSNDCP = VSI_ERROR; #ifdef FF_PKTIO vsi_c_close (VSI_CALLER hCommPKTIO); hCommPKTIO = VSI_ERROR; #endif #endif /* GPRS */ #ifdef BT_ADAPTER vsi_c_close (VSI_CALLER hCommBTI); hCommBTI = VSI_ERROR; #endif /* BT_ADAPTER */ vsi_c_close (VSI_CALLER hCommL1); hCommL1 = VSI_ERROR; #ifdef SMI _pei_exit (); #endif /* * deallocate all channels * for non existing channels, this will just return */ #ifdef FF_ATI for (i = 1; i < CMD_SRC_MAX; i++) { ati_finit(i); } #endif /* FF_ATI */ /* Free still occupied pointers in ccShrdPrm */ for (i = 0; i < MAX_CALL_NR; i++) { if (ccShrdPrm.ctb[i] NEQ NULL) { psaCC_FreeCtbNtry (i); } } /* Deallocation of elements (2nd to last) in linked list PNN */ while (mmShrdPrm.PNNLst.next NEQ NULL) { T_pnn_name *nextnext = mmShrdPrm.PNNLst.next->next; ACI_MFREE (mmShrdPrm.PNNLst.next); mmShrdPrm.PNNLst.next = nextnext; } #ifdef DTI #ifdef _SIMULATION_ #ifdef SIM_TOOLKIT satShrdPrm.run_at_id = -1; #endif /* SIM_TOOLKIT */ ati_src_tst_finit(); #endif /* _SIMULATION_ */ #endif /* DTI */ #if defined FF_EOTD ati_src_lc_finit(); #endif /* FF_EOTD */ rdlPrm_exit(); #ifdef UART cmhUART_CleanComParameterList(); #endif #ifdef FF_PSI cmhPSI_clean_all_elem(); cmhPSI_CleanDcbParameterList(); #endif #ifdef UART cmhUART_lst_exit(); #endif return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_PEI | | STATE : code ROUTINE : pei_config | +--------------------------------------------------------------------+ PURPOSE : Dynamic Configuration */ #if !defined (NCONFIG) LOCAL const KW_DATA kwtab[] = { ACI_KEY_SEQUENCE, KEY_SEQUENCE, ACI_KEY_PRESS, KEY_PRESS, ACI_KEY_RELEASE, KEY_RELEASE, ACI_START_AOC, START_AOC, ACI_CPOL_MODE, CPOL_MODE, ACI_CPOL_IDX2, CPOL_IDX2, ACI_ATI_VIA_TIF, ATI_VIA_TIF, /* new here*/ #ifdef _SIMULATION_ ACI_DATA_INPUT, DATA_INPUT, #endif /* _SIMULATION_ */ "", 0 }; #endif #ifdef _SIMULATION_ #ifdef UART EXTERN void cmhUART_startConnection (UBYTE srcId, T_ACI_DEVICE_TYPE device_type); #endif /* UART */ EXTERN UBYTE uart_new_source (UBYTE device, UBYTE dlci); EXTERN void uart_new_source_for_aci_src_tst( UBYTE src_id, UBYTE device, UBYTE dlci ); #endif LOCAL SHORT pei_config (char *inString) { #ifdef FF_ATI BOOL alreadyCalled = FALSE; #endif #if !defined (NCONFIG) char *s = inString; SHORT valno; SHORT keyno; char *keyw; char *val[10]; TRACE_FUNCTION ("pei_config()"); #ifdef UART if (!strcmp(inString, "UART_19200")) { cmhUART_SetDataRate((UBYTE) CMD_SRC_ATI, UART_IO_SPEED_19200); return PEI_OK; } #endif if (!strcmp(inString, "ATI_TRC")) { /* AT%CPRIM="MMI","CONFIG ATI_TRC" */ EXTERN BOOL _g_ati_trc_enabled; _g_ati_trc_enabled = TRUE; /* only switch on possible */ return PEI_OK; } #ifdef _SIMULATION_ #ifdef UART if (!strcmp(inString, "START_DTI")) { int i; UBYTE srcId; for (i=0;i<UART_INSTANCES;i++) { srcId = uart_new_source ((UBYTE)i, UART_DLCI_NOT_MULTIPLEXED); cmhUART_startConnection (srcId, DEVICE_TYPE_URT); } return PEI_OK; } if(!strcmp(inString, "EXPAND_ATI_SRC_TST")) { UBYTE srcId = ati_src_tst_get_src_id( (UBYTE) CMD_SRC_EXT ); if ( srcId EQ DTI_MNG_ID_NOTPRESENT ) return PEI_OK; uart_new_source_for_aci_src_tst( srcId, 0, NOT_PRESENT_8BIT ); cmhUART_startConnection (srcId, DEVICE_TYPE_URT); return PEI_OK; } if(!strncmp(inString, "ADD_TST_SRC", 11)) /* parameter [UART] */ { char *end = inString + 11; UBYTE srcId; srcId = ati_src_tst_get_src_id( (UBYTE) CMD_SRC_UNKNOWN ); if ( srcId EQ DTI_MNG_ID_NOTPRESENT ) return PEI_OK; while ( *end EQ ' ' ) end ++; if ( !strcmp( end, "UART")) { uart_new_source_for_aci_src_tst( srcId, srcId, NOT_PRESENT_8BIT ); cmhUART_startConnection (srcId, DEVICE_TYPE_URT); } if ( !strcmp( end, "UART_DP")) /* for dual port testing */ { static UBYTE device=0; /* lint: at least init to something */ uart_new_source_for_aci_src_tst( srcId, device, UART_DLCI_NOT_MULTIPLEXED ); cmhUART_startConnection (srcId, DEVICE_TYPE_URT); device++; } return PEI_OK; } #endif /* UART */ #ifdef DTI if (!strcmp(inString, "STOP_SRC_TST")) { EXTERN void ati_src_tst_finit (void); ati_src_tst_finit (); } #endif #if defined SMI OR defined MFW if (!strcmp(inString, "CONC_SMS_TST")) { EXTERN void concSMS_InitForTesting(); concSMS_InitForTesting(); return PEI_OK; } #endif /*#if defined SMI OR defined MFW*/ if (!strcmp(inString, "ENABLE_VOCODER_TST")) { EXTERN void hl_audio_drv_initForTest(); hl_audio_drv_initForTest(); return PEI_OK; } #endif /* _SIMULATION_ */ #ifdef GPRS /* * Class modification * Author: ANS * initial: 07-Nov-00 */ if(!strcmp(inString,"CLASS_CC")) { default_mobile_class = GMMREG_CLASS_CC; return PEI_OK; } if(!strcmp(inString,"CLASS_CG")) { default_mobile_class = GMMREG_CLASS_CG; return PEI_OK; } if(!strcmp(inString,"CLASS_BC")) { default_mobile_class = GMMREG_CLASS_BC; return PEI_OK; } if(!strcmp(inString,"CLASS_BG")) { default_mobile_class = GMMREG_CLASS_BG; return PEI_OK; } if(!strcmp(inString,"CLASS_B")) { default_mobile_class = GMMREG_CLASS_B; return PEI_OK; } if(!strcmp(inString,"CLASS_A")) { default_mobile_class = GMMREG_CLASS_A; return PEI_OK; } /* * End Class modification */ /* * Attach mode modification * Author: BRZ * initial: 14-Apr-01 */ if(!strcmp(inString,"AUTO_ATTACH")) { automatic_attach_mode = CGAATT_ATTACH_MODE_AUTOMATIC; return PEI_OK; } if(!strcmp(inString,"MAN_ATTACH")) { automatic_attach_mode = CGAATT_ATTACH_MODE_MANUAL; return PEI_OK; } if(!strcmp(inString,"AUTO_DETACH")) { automatic_detach_mode = CGAATT_DETACH_MODE_ON; return PEI_OK; } if(!strcmp(inString,"MAN_DETACH")) { automatic_detach_mode = CGAATT_DETACH_MODE_OFF; return PEI_OK; } /* * End Attach mode modification */ #endif #ifdef MFW if (!strncmp("MFWMOB ",s,7)) { mfwExtIn(s+7); return PEI_OK; } #endif #ifdef _SIMULATION_ #ifdef MFW /* * Only for Windows: define several variants * of SIM LOCK pcm content */ if (!strncmp("SIMLOCK",s,7)) { EXTERN UBYTE sim_lock_mode; sim_lock_mode = atoi (s+8); return PEI_OK; } #endif #endif #ifdef FF_TIMEZONE /* * simulate an incoming MMR_INFO_IND */ if (!strncmp("TIMEZONE_TEST",s,13)) { TRACE_EVENT ("pei_config() TIMEZONE_TEST"); { PALLOC (mmr_info_ind, MMR_INFO_IND); /* is freed in psa_mmr_info_ind */ memcpy (mmr_info_ind, 0, sizeof (T_MMR_INFO_IND)); /* clear out all */ memcpy (mmr_info_ind->short_name.text, "RFT", 3); /* pseudo short name */ mmr_info_ind->short_name.v_name = 1; mmr_info_ind->short_name.c_text = 3; memcpy (mmr_info_ind->full_name.text, "Ramsch Fusch Tinneff", 20); /* pseudo long name */ mmr_info_ind->full_name.v_name = 1; mmr_info_ind->full_name.c_text = 20; mmr_info_ind->ntz.v_tz = 1; mmr_info_ind->ntz.tz = 0x19; /* simulate -2:45h away from GMT */ mmr_info_ind->time.v_time = 1; mmr_info_ind->time.day = 30; /* 30. February 2004 ;~) */ mmr_info_ind->time.month = 02; mmr_info_ind->time.year = 04; mmr_info_ind->time.hour = 11; mmr_info_ind->time.minute = 55; /* this stuff is really 5 before 12 */ mmr_info_ind->time.second = 59; mmr_info_ind->plmn.v_plmn = 1; mmr_info_ind->plmn.mcc[0] = 0x02; mmr_info_ind->plmn.mcc[1] = 0x06; mmr_info_ind->plmn.mcc[2] = 0x02; mmr_info_ind->plmn.mnc[0] = 0x00; mmr_info_ind->plmn.mnc[1] = 0x01; mmr_info_ind->plmn.mnc[2] = 0x0F; psa_mmr_info_ind(mmr_info_ind); return PEI_OK; } } #endif TRACE_EVENT_P1("pei_config() %s", s); tok_init(s); /* * Parse next keyword and number of variables */ while ((valno = tok_next(&keyw,val)) NEQ TOK_EOCS) { switch ((keyno = tok_key((KW_DATA *)kwtab,keyw))) { #ifdef MFW case KEY_SEQUENCE: { if (valno EQ 1) { mfw_keystroke (val[0]); } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } break; } #endif #ifdef MFW case KEY_PRESS: { if (valno EQ 1) { mfw_keystroke_long (val[0], 1); } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } break; } #endif #ifdef MFW case KEY_RELEASE: { if (valno EQ 1) { mfw_keystroke_long (val[0], 0); } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } break; } #endif case START_AOC: { T_FWD_CHG_ADVICE_INV charge; T_chargingInformation * aoc_para; aoc_para = &charge.forwardChargeAdviceArg.chargingInformation; TRACE_EVENT ("Set AoC Parameter"); aoc_para->v_e1 = TRUE; aoc_para->e1.c_e_val = 1; aoc_para->e1.e_val[0] = 60; aoc_para->v_e2 = TRUE; aoc_para->e2.c_e_val = 1; aoc_para->e2.e_val[0] = 140; aoc_para->v_e3 = TRUE; aoc_para->e3.c_e_val = 1; aoc_para->e3.e_val[0] = 100; aoc_para->v_e4 = TRUE; aoc_para->e4.c_e_val = 1; aoc_para->e4.e_val[0] = 250; aoc_para->v_e5 = FALSE; aoc_para->e5.c_e_val = 0; aoc_para->e5.e_val[0] = 0; aoc_para->v_e6 = FALSE; aoc_para->e6.c_e_val = 0; aoc_para->e6.e_val[0] = 0; aoc_para->v_e7 = TRUE; aoc_para->e7.c_e_val = 2; aoc_para->e7.e_val[0] = 0x2; aoc_para->e7.e_val[1] = 0x58; aoc_parameter(0, &charge); aoc_info (0, AOC_START_AOC); break; } #ifdef _SIMULATION_ case CPOL_MODE: { #ifdef FF_ATI if (valno EQ 1) { cpolMode = atoi(val[0]); } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } #else TRACE_ERROR ("[PEI_CONFIG]: AT Command Interpreter Not Supported"); #endif break; } case CPOL_IDX2: { #ifdef FF_ATI if (valno EQ 1) { cpolIdx2 = atoi(val[0]); } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } #else TRACE_ERROR ("[PEI_CONFIG]: AT Command Interpreter Not Supported"); #endif break; } #endif #ifdef FF_ATI #ifdef UART case ATI_VIA_TIF: { EXTERN BOOL atiViaTif; if (valno EQ 1) { if (strcmp (val[0], "ON") EQ 0) atiViaTif = TRUE; else if (strcmp (val[0], "OFF") EQ 0) atiViaTif = FALSE; else TRACE_ERROR ("[PEI_CONFIG]: Wrong Parameter Value"); } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } break; } #endif /* UART */ #endif default: { #ifdef FF_ATI if ( ( toupper ( inString[0] ) ) EQ 'A' AND ( toupper ( inString[1] ) ) EQ 'T' ) { USHORT len = 0; /* *--------------------------------------------------------- * parsing algorithm is not suitable for transparent data * transfer, call aciCommand only once *--------------------------------------------------------- */ if (!alreadyCalled) { while (inString[len] NEQ ' ' AND inString[len] NEQ '\0') len++; inString[len] = '\0'; ati_execute_config_cmd ((UBYTE*)inString, len); } alreadyCalled = TRUE; } else #endif { #ifdef SMI return _pei_config (inString); #else TRACE_ERROR ("[PEI_CONFIG]: Illegal Keyword"); #endif } break; } } } #endif return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_PEI | | STATE : code ROUTINE : pei_monitor | +--------------------------------------------------------------------+ PURPOSE : Monitoring of physical Parameters */ LOCAL SHORT pei_monitor (void ** monitor) { TRACE_FUNCTION ("pei_monitor()"); #ifdef SMI _pei_monitor (monitor); #else aci_mon.version = VERSION_ACI; #endif *monitor = &aci_mon; return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_PEI | | STATE : code ROUTINE : pei_create | +--------------------------------------------------------------------+ PURPOSE : Create the Protocol Stack Entity */ GLOBAL SHORT aci_pei_create (T_PEI_INFO **info) { static const T_PEI_INFO pei_info = { ACI_NAME, { pei_init, pei_exit, pei_primitive, pei_timeout, pei_signal, NULL, /* no run function */ pei_config, pei_monitor, }, #if defined (ACI) 3072, /* Stack Size */ #endif #if defined (SMI) 3072, /* Stack Size */ #endif #if defined (MFW) 4096, /* Stack Size */ #endif #if defined (FF_MMI_RIV) 3072, /* Stack Size */ #endif 20, /* Queue Entries */ #if defined (ACI) 100, /* Priority */ #endif #if defined (SMI) 100, /* Priority */ #endif #if defined (MFW) 100, /* Priority */ #endif #if defined (FF_MMI_RIV) 100, /* Priority */ #endif MAX_ACI_TIMER, /* number of timer */ 0x03|PRIM_NO_SUSPEND /* flags */ }; TRACE_FUNCTION ("pei_create()"); /* * Close Resources if open */ if (first_access) first_access = FALSE; else pei_exit (); /* * Export startup configuration data */ *info = (T_PEI_INFO *)&pei_info; return PEI_OK; } #endif /* ACI_PEI_C */