FreeCalypso > hg > fc-magnetite
diff src/g23m-aci/aci/aoc.c @ 162:53929b40109c
src/g23m-aci: initial import from TCS3.2/LoCosto
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Tue, 11 Oct 2016 02:02:43 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/g23m-aci/aci/aoc.c Tue Oct 11 02:02:43 2016 +0000 @@ -0,0 +1,2613 @@ +/* ++----------------------------------------------------------------------------- +| Project : GSM-PS (6147) +| Modul : AOC ++----------------------------------------------------------------------------- +| 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 functions for the +| advice of charge handling of ACI. ++----------------------------------------------------------------------------- +*/ + +#include "aci_all.h" + +#include "l4_tim.h" + +#include "pcm.h" + +#include "aci_cmh.h" + +#include "psa.h" +#include "psa_sim.h" +#include "psa_mm.h" + +#include "aoc.h" +#include "psa_cc.h" +#include "cmh.h" +#include "cmh_cc.h" + +#ifdef SIM_TOOLKIT +#include "psa_sat.h" +#endif + +#ifdef FAX_AND_DATA +#include "aci_fd.h" +#endif /* of #ifdef FAX_AND_DATA */ + +#ifdef UART +#include "dti.h" +#include "dti_conn_mng.h" +#endif + +#include "cmh_sim.h" + +#define MC_AOC_ROUND_UP(X) ((((X)%100) EQ 0) ? ((X)/100) : (((X)/100) + 1)) +#define E_IN_MS(X) ((X)*100) + +#ifdef TI_PS_OP_VSI_NO_CALL_ID +#define TIMER_START(C,I,T) vsi_t_start_nc(I,T) +#define TIMER_PSTART(C,I,T,R) vsi_t_pstart_nc(I,T,R) +#define TIMER_STOP(C,I) vsi_t_stop_nc(I) +#define TIMER_STATUS(C,I,T) vsi_t_status_nc(I,T) +#define SUSPEND_SELF(C,T) vsi_t_sleep_nc(T) +#define SYSTEM_TIME(C,T) vsi_t_time_nc(T) +#else /* TI_PS_OP_VSI_NO_CALL_ID */ +#define TIMER_START(C,I,T) vsi_t_start(C,I,T) +#define TIMER_PSTART(C,I,T,R) vsi_t_pstart(C,I,T,R) +#define TIMER_STOP(C,I) vsi_t_stop(C,I) +#define TIMER_STATUS(C,I,T) vsi_t_status(C,I,T) +#define SUSPEND_SELF(C,T) vsi_t_sleep(C,T) +#define SYSTEM_TIME(C,T) vsi_t_time(C,T) +#endif /* TI_PS_OP_VSI_NO_CALL_ID */ + +/********* current define *********************************************/ +static UBYTE aoc_state = AOC_NULL; /* actual AoC state */ +static UBYTE sim_data[10]; /* SIM data exchange */ +static UBYTE currency [4]; /* used for currency */ +static ULONG ccm; /* current call meter */ +static ULONG ccm_already_incremented; /* value of CCM increm. */ +static ULONG acm; /* accumulated call meter */ +static UBYTE acm_increment_flag; /* counter for incr. ACM */ +static ULONG acmmax; /* maximum of ACM */ +static ULONG eppu; /* elementary unit price */ +static ULONG sexp; /* sign of expression */ +static ULONG exp; /* expression value */ +static UBYTE pwd [9]; /* password */ +static UBYTE act_upd_op; /* actual update operation*/ +static ULONG act_value; /* new value for ACM(Max) */ +static T_ACI_CMD_SRC act_src_id; /* source of AT command */ + +GLOBAL T_CC_AOC_TBL cc_aoc_table[MAX_CALL_NR]; /* AoC Call Table */ +EXTERN T_PCEER causeMod; +EXTERN SHORT causeCeer; + +static ULONG cct; /* current call timer */ +/*static ULONG act; *//* accumulated call timer */ /* never used */ +static USHORT ct_running; /* call timer is running */ +static UBYTE limit_reached = FALSE; /* ACM over limit ? */ + +static const ULONG ppu_values [16][2] = +{ + /* exp, sexp index */ + 1L, 0L, /* 0 */ + 1L, 0L, /* 1 */ + 10L, 0L, /* 2 */ + 10L, 1L, /* 3 */ + 100L, 0L, /* 4 */ + 100L, 1L, /* 5 */ + 1000L, 0L, /* 6 */ + 1000L, 1L, /* 7 */ + 10000L, 0L, /* 8 */ + 10000L, 1L, /* 9 */ + 100000L, 0L, /* 10 */ + 100000L, 1L, /* 11 */ + 1000000L, 0L, /* 12 */ + 1000000L, 1L, /* 13 */ + 10000000L, 0L, /* 14 */ + 10000000L, 1L /* 15 */ +}; + +#ifdef SIM_TOOLKIT +BOOL aoc_update (int ref, T_SIM_FILE_UPDATE_IND *fu); +#endif +static UBYTE ccwv_charging = CCWV_CHRG_Termination; + +/********* function prototypes **************************************/ +void aoc_calc_acm_wrn_evnt ( ULONG charge, + BOOL aoc_running ); + +void aoc_set_time_ut_charge ( SHORT cId, + T_TIME time ); +void aoc_calc_expct_charge ( UBYTE mode ); +void aoc_ntfy_acm_wrn_evnt ( T_ACI_CCWV_CHRG charging ); + +T_TIME aoc_calc_time_ut_charge ( SHORT cId, + UBYTE e_value_flag ); + +void aoc_start_info_newcall (SHORT Cid); +void aoc_start_newinfo_existingcall (SHORT Cid); + +static void aoc_calculate_charging_parameter_part1 (SHORT Cid); +static void aoc_calculate_charging_parameter_part2 (SHORT Cid); +/********* functions ************************************************/ +LOCAL void aoc_update_sim_datafield_cb(SHORT table_id, T_ACI_AT_CMD at_cmd_idn); +LOCAL void aoc_read_sim_datafield (UBYTE accType, + USHORT reqDataFld, + void (*rplyCB)(SHORT), + UBYTE dataLen); +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_init | ++--------------------------------------------------------------------+ + + + PURPOSE : Initialisation of the Advice of charge module. The function + is called after PIN entering. The actual phase of the SIM + card, the SIM service table and the PCM entry is checked. + The return value indicates whether AoC is supported. + +*/ + +UBYTE aoc_init (UBYTE phase, UBYTE * sim_service_table) +{ + EF_MSSUP mssup; + UBYTE version; + + TRACE_FUNCTION ("aoc_init()"); + + aoc_state = AOC_DISABLE; + /* Check Phase. It must be at least Phase 2 */ + if (phase <= PHASE_1_SIM) + return FALSE; + TRACE_EVENT ("AOC: Card >= Phase 2"); + + /* Check SIM Service Table */ + if (aoc_ssc(SRV_AOC,sim_service_table) NEQ ALLOCATED_AND_ACTIVATED) + return FALSE; + TRACE_EVENT ("AOC: Card supports AoC"); + + /* check PCM entry in MSCAP field */ + pcm_Init (); +/* Implements Measure#32: Row 60 & 1039 */ + pcm_ReadFile ((UBYTE *)ef_mssup_id, SIZE_EF_MSSUP, (UBYTE *)&mssup, &version); + if (FldGet(mssup.feat1, AoC)) + { + /* start reading ACM, ACMMax and PUCT */ + TRACE_EVENT ("AOC: MS supports AoC"); + aoc_state = AOC_ENABLE; + /* Implements Measure 156 and 157 */ + aoc_read_sim_datafield ( ACT_RD_REC, SIM_ACM, aoc_read_acm_cb, 3 ); + return TRUE; + } + +#ifdef _SIMULATION_ + aoc_state = AOC_ENABLE; + return TRUE; +#else + return FALSE; +#endif + +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_reset | ++--------------------------------------------------------------------+ + + PURPOSE : Deactivation of AoC Service. Necessary, when SIM card + becomes unavailable +*/ + +void aoc_reset (void) +{ + TRACE_FUNCTION ("aoc_reset()"); + aoc_state = AOC_DISABLE; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_sms | ++--------------------------------------------------------------------+ + + + PURPOSE : Indication that a SMS has received. This can be a trigger + for changed ACM or ACMMax on the SIM card. +*/ + +void aoc_sms (void) +{ + TRACE_FUNCTION ("aoc_sms()"); + if (aoc_state EQ AOC_ENABLE) + { + /* start reading ACM, ACMMax and PUCT again */ + /* Implements Measure 156 and 157 */ + aoc_read_sim_datafield ( ACT_RD_REC, SIM_ACM, aoc_read_acm_cb, 3 ); + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_update | ++--------------------------------------------------------------------+ + + PURPOSE : Evaluation of File Change Notification and update AOC, + if required. +*/ + +#ifdef SIM_TOOLKIT +BOOL aoc_update (int ref, T_SIM_FILE_UPDATE_IND *fu) +{ + BOOL found = FALSE; + int i; + + TRACE_FUNCTION ("aoc_update ()"); + + if (aoc_state NEQ AOC_ENABLE) + return TRUE; /* not used at all! */ /* AOC not supported */ + + for (i = 0; i < (int)fu->val_nr; i++) + { + /* Check the full path as well */ + if (fu->file_info[i].v_path_info EQ TRUE AND + fu->file_info[i].path_info.df_level1 EQ SIM_DF_GSM AND + fu->file_info[i].path_info.v_df_level2 EQ FALSE AND + ( fu->file_info[i].datafield EQ SIM_ACM OR + fu->file_info[i].datafield EQ SIM_ACMMAX OR + fu->file_info[i].datafield EQ SIM_PUCT ) ) + { + found = TRUE; + break; + } + } + + if (found) + { + simShrdPrm.fuRef = ref; + /* Implements Measure 156 and 157 */ + aoc_read_sim_datafield ( ACT_RD_REC, SIM_ACM, aoc_read_acm_cb, 3 ); + return FALSE; + } + else + { + simShrdPrm.fuRef = -1; /* no update needed */ + return TRUE; + } +} +#endif + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_info | ++--------------------------------------------------------------------+ + + PURPOSE : Information of the Advice of charge module. The following + causes are defined: + AOC_START_TIME Start call time measurements. + AOC_STOP_TIME Stop call timer measurements. + AOC_START_AOC Advice of Charge is started. + AOC_SUSPEND_AOC Suspension of Call. + AOC_RESUME_AOC Resumption of Call. +*/ + +UBYTE aoc_info (SHORT Cid, UBYTE cause) +{ + BOOL calFlg; /* call flag */ + + TRACE_FUNCTION ("aoc_info()"); + + switch (cause) + { + case AOC_START_TIME: /* Indication of a new call. */ +#ifdef _SIMULATION_ + TRACE_EVENT ("AOC_START_TIME"); +#endif + /* Call Time Measurements shall be + * started if it is the first call (ct_runnning = 0) */ + if (ct_running EQ 0) + { + /* this is the first call. Then start call timer (periodic) + * and clear current calltimer value and current call meter. */ + cct = ccm = ccm_already_incremented = 0L; + TIMER_PSTART (aci_handle, AOC_CALLTIMER, AOC_THOUSAND_MILLISECONDS, AOC_THOUSAND_MILLISECONDS); + + simShrdPrm.synCs = SYNC_START_CALL; + psaSIM_SyncSIM(); + } + + cmhCC_flagCall( Cid, &ct_running ); + + /* Clear aoc table parameter */ + memset (&cc_aoc_table[Cid], 0, sizeof(T_CC_AOC_TBL)); + break; + + case AOC_STOP_TIME: /* Indication of the end of a call. */ +#ifdef _SIMULATION_ + TRACE_EVENT ("AOC_STOP_TIME"); +#endif + TRACE_EVENT_P1("CT Running = %4X", ct_running); + calFlg = cmhCC_tstAndUnflagCall( Cid, &ct_running ); + + /*Call Time Measurements shall be + * stopped if it is the last call (ct_runnning <= 1) */ + if (ct_running EQ 0 AND calFlg) + { + /* this is the last call. Then stop call timer. */ + TRACE_EVENT ("Last Call Stop Call Timer"); + TIMER_STOP (aci_handle, AOC_CALLTIMER); + + + simShrdPrm.synCs = SYNC_STOP_CALL; + psaSIM_SyncSIM(); + + aoc_ntfy_acm_wrn_evnt ( CCWV_CHRG_Termination ); + } + + if (cc_aoc_table[Cid].aoc_timer_running) /* stop AoC timer if running */ + { + TIMER_STOP (aci_handle, (USHORT)(AOC_AOCTIMER+Cid)); + cc_aoc_table[Cid].aoc_timer_running = FALSE; + aoc_increment_charge (0L, TRUE); /* add rest to SIM */ + } + break; + + case AOC_START_AOC: /* Advice of Charge information has received for the indicated call. */ +#ifdef _SIMULATION_ + TRACE_EVENT ("*** AOC_START_AOC"); +#endif + TRACE_EVENT_P2("AOC started Cid = %u State = %u", Cid, aoc_state); + + if (aoc_state EQ AOC_ENABLE) /* AoC is supported */ + { + limit_reached = FALSE; + + if (cc_aoc_table[Cid].aoc_timer_running) + aoc_start_newinfo_existingcall(Cid); + else + aoc_start_info_newcall(Cid); + + return TRUE; + } + else /* AoC not supported */ + { + TRACE_EVENT ("AOC not supported"); + return FALSE; + } + + case AOC_SUSPEND_AOC: /* Suspension of Call is indicated. */ +#ifdef _SIMULATION_ + TRACE_EVENT ("*** AOC_SUSPEND_AOC"); +#endif + if (aoc_state EQ AOC_ENABLE AND + cc_aoc_table[Cid].aoc_timer_running) /* AoC timer is running, then stop it. */ + { + /* save remaining timeslice prior stopping the timer */ + TIMER_STATUS (aci_handle, (USHORT)(AOC_AOCTIMER+Cid), &cc_aoc_table[Cid].remaining_time); + TIMER_STOP (aci_handle, (USHORT)(AOC_AOCTIMER+Cid)); + + cc_aoc_table[Cid].aoc_timer_running = FALSE; + } + break; + + case AOC_RESUME_AOC: /* Resumption of Call is indicated. */ +#ifdef _SIMULATION_ + TRACE_EVENT ("*** AOC_RESUME_AOC"); +#endif + if (aoc_state EQ AOC_ENABLE AND + aoc_non_zero_cai (Cid)) + { + /* AoC info is available, then start again. calculate the remaining time */ + TIMER_PSTART (aci_handle, (USHORT)(AOC_AOCTIMER + Cid), + cc_aoc_table[Cid].remaining_time, + cc_aoc_table[Cid].next_interval); + cc_aoc_table[Cid].aoc_timer_running = TRUE; + + aoc_set_time_ut_charge ( Cid, cc_aoc_table[Cid].remaining_time ); + } + break; + + case AOC_CALL_CONNECTED: /* Call active state of a Call is indicated. */ +#ifdef _SIMULATION_ + TRACE_EVENT ("*** AOC_CALL_CONNECTED"); +#endif + if (aoc_state EQ AOC_ENABLE AND + aoc_non_zero_cai (Cid)) + { + /* AoC info is available, then start send initial CCM value to MMI. */ + aoc_send_ccm (); + } + break; + + default: +#ifdef _SIMULATION_ + TRACE_EVENT ("*** Wrong cause ***"); +#endif + break; + + } + return TRUE; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_get_values | ++--------------------------------------------------------------------+ + + PURPOSE : Request of Advice of Charge Values. +*/ + +void aoc_get_values (UBYTE value_type, void * value) +{ + ULONG * longPtr = value; + T_puct_raw * raw_puct; + + TRACE_FUNCTION ("aoc_get_values()"); + + switch (value_type) + { + case AOC_CTV: /* Current Timer Value */ + *longPtr = cct; + break; + + case AOC_CCM: /* Current Call Meter Value */ +#if defined _SIMULATION_ + TRACE_EVENT_P1("CCM = %u", MC_AOC_ROUND_UP(ccm)); +#endif + *longPtr = MC_AOC_ROUND_UP(ccm); + break; + + case AOC_ACM: /* Accumulated Call Meter Value */ + *longPtr = MC_AOC_ROUND_UP(acm); + break; + + case AOC_ACMMAX: /* Maximum Accumulated Call Meter Value */ + *longPtr = MC_AOC_ROUND_UP(acmmax); + break; + + case AOC_PUCT: /* Price per Unit and Currency */ + aoc_calculate_puct (1L, (T_puct *)value); + break; + + case AOC_PUCT_RAW: /* Price per Unit and Currency as RAW data */ + raw_puct = (T_puct_raw *)value; + raw_puct->exp = exp; + raw_puct->sexp = sexp; + raw_puct->eppu = eppu; + memcpy (raw_puct->currency, currency, 4); + break; + + case AOC_CCM_PUCT: /* CCM in Price per Unit and Currency */ + aoc_calculate_puct (MC_AOC_ROUND_UP(ccm), (T_puct *)value); + break; + + case AOC_ACM_PUCT: /* ACM in Price per Unit and Currency */ + aoc_calculate_puct (MC_AOC_ROUND_UP(acm), (T_puct *)value); + break; + + case AOC_ACMMAX_PUCT: /* ACMMax in Price per Unit and Currency */ + aoc_calculate_puct (MC_AOC_ROUND_UP(acmmax), (T_puct *)value); + break; + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_set_values | ++--------------------------------------------------------------------+ + + PURPOSE : Setting of Advice of charge values. +*/ + +T_ACI_RETURN aoc_set_values (T_ACI_CMD_SRC srcId, + UBYTE value_type, + void *value, + UBYTE *password) +{ + TRACE_FUNCTION ("aoc_set_values()"); + + /* Store Password, if available and start writing to the SIM Card. */ + memcpy (pwd, password, 9); + act_src_id = srcId; + + /* AOC not supported in SIM, Check for aoc_state return AT_FAIL */ + if( aoc_state NEQ AOC_ENABLE ) + { + return( AT_FAIL ); + } + + switch (value_type) + { + case AOC_ACM: + /* Implements Measure 152 */ + act_value = 0L; + aoc_update_sim_datafield ( FIRST_UPDATE, ACT_WR_REC, + SIM_ACM, aoc_update_acm_cb ); + break; + + case AOC_ACMMAX: + /* Implements Measure 152 */ + act_value = (ULONG)value; + aoc_update_sim_datafield ( FIRST_UPDATE, ACT_WR_DAT, + SIM_ACMMAX, aoc_update_acmmax_cb ); + break; + + case AOC_PUCT: + aoc_update_puct (FIRST_UPDATE, (T_puct *)value); + break; + } + + return( AT_EXCT ); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_check_moc | ++--------------------------------------------------------------------+ + + PURPOSE : The function checks whether ACM is greater than ACMMax. + In this case only emergency calls are allowed for mobile + originated call direction. +*/ + +UBYTE aoc_check_moc (void) +{ + TRACE_FUNCTION ("aoc_check_moc()"); + + return aoc_check_acm(); +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_ssc | ++--------------------------------------------------------------------+ + + PURPOSE : Check SIM service status. The value of service nr is + extracted from the SIM service table. +*/ + +UBYTE aoc_ssc (UBYTE nr, UBYTE * serv_table) +{ + TRACE_FUNCTION ("aoc_ssc()"); + + if (nr > MAX_SRV_TBL*4) + { + TRACE_ERROR ("serv_table overflow in pb_ssc()"); + return NO_ALLOCATED; + } + + return ( *(serv_table+(nr-1)/4) >> (((nr-1)&3)*2) & 0x03); +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_read_acm_cb | ++--------------------------------------------------------------------+ + + PURPOSE : Callback function for reading ACM. +*/ + +void aoc_read_acm_cb(SHORT table_id) +{ + TRACE_FUNCTION ("aoc_read_acm_cb()"); + + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + + if (simShrdPrm.atb[table_id].errCode NEQ SIM_NO_ERROR) + { + /* ACM is not readable, disable set to default values */ + acm=0L; + TRACE_EVENT ("AOC: Card has no ACM field"); +#ifdef SIM_TOOLKIT + if (simShrdPrm.fuRef >= 0) + { + psaSAT_FUConfirm (simShrdPrm.fuRef, SIM_FU_ERROR); + } +#endif + } + else + { + /* calculate ACM and start reading ACMMax */ + acm = (sim_data[0]<<16) + (sim_data[1]<<8) + sim_data[2]; + acm *= 100; /* internal unit is 1/100 */ + TRACE_EVENT_P1("ACM value = %u", (USHORT)acm); + /* Implements Measure 156 and 157 */ + aoc_read_sim_datafield ( ACT_RD_DAT, SIM_ACMMAX, aoc_read_acmmax_cb, 3 ); + + } +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_read_acmmax_cb | ++--------------------------------------------------------------------+ + + PURPOSE : Callback function for reading ACMMax. +*/ + +void aoc_read_acmmax_cb(SHORT table_id) +{ + TRACE_FUNCTION ("aoc_read_acmmax_cb()"); + + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + + if (simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR) + { + /* calculate ACMMAX and start reading PUCT */ + acmmax = (sim_data[0]<<16) + (sim_data[1]<<8) + sim_data[2]; + acmmax *= 100; /* internal unit is 1/100 */ + TRACE_EVENT_P1("ACMMAX value = %u", (USHORT)acmmax); + /* Implements Measure 156 and 157 */ + aoc_read_sim_datafield ( ACT_RD_DAT, SIM_PUCT, aoc_read_puct_cb, 5 ); + } + else + { + /* ACMMAX is not readable, disable set to default values */ + acmmax=0; + TRACE_EVENT ("AOC: Card has no ACMmax field"); +#ifdef SIM_TOOLKIT + if (simShrdPrm.fuRef >= 0) + { + psaSAT_FUConfirm (simShrdPrm.fuRef, SIM_FU_ERROR); + } +#endif + } +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_read_puct_cb | ++--------------------------------------------------------------------+ + + PURPOSE : Callback function for reading PUCT. +*/ + +void aoc_read_puct_cb(SHORT table_id) +{ + UBYTE index; + + TRACE_FUNCTION ("aoc_read_puct_cb()"); + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + + if (simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR) + { + /* calculate PUCT */ +#if defined WIN32 + TRACE_EVENT_P2("PUCT %x %x",sim_data[3],sim_data[4]); +#endif + + currency [0] = sim_data[0]; + currency [1] = sim_data[1]; + currency [2] = sim_data[2]; + currency [3] = 0; + eppu = (sim_data[3]<<4 & 0xFF0) + (sim_data[4] & 0x0F); + index = sim_data[4]>>4 & 0x0F; + if (index > 15) /* only 0 to 15 */ + { + index = 15; + } + exp = ppu_values[index][0]; + sexp = ppu_values[index][1]; + } + else + { + /* PUCT is not readable, disable set to default values */ + eppu = exp = sexp = 0; + TRACE_EVENT ("AOC: Card has no PUCT field"); + } + +#ifdef SIM_TOOLKIT + if (simShrdPrm.fuRef >= 0) + { + psaSAT_FUConfirm (simShrdPrm.fuRef, SIM_FU_SUCC_ADD); + } +#endif +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_init_calltable | ++--------------------------------------------------------------------+ + + PURPOSE : Initialisation of the AoC parameters of the call table. + +*/ + +void aoc_init_calltable (void) +{ + TRACE_FUNCTION ("aoc_init_calltable()"); + + /* Initialize AoC parameters and open + * the call dependent AoC timer */ + memset (cc_aoc_table, 0, sizeof (cc_aoc_table)); + + /* Initialize AoC Parameter */ + ccm = 0L; + ccm_already_incremented = 0L; + acm_increment_flag = 0; + + /* Initialize the Call Timer Variables */ + cct = 0L; + /* act = 0L; */ + ct_running = 0; + +#ifdef SIM_TOOLKIT + simShrdPrm.fuRef = -1; + if (!psaSAT_FURegister (aoc_update)) + { + TRACE_EVENT ("FAILED to register the handler aoc_update() for FU"); + } + +#endif +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_timeout | ++--------------------------------------------------------------------+ + + PURPOSE : A timeout has occured for a timer. The funtion returns + TRUE, if it is a call timer or a AoC timer, else FALSE + is returned to indicate that the timer has not been + processed. + +*/ +UBYTE aoc_timeout (USHORT index) +{ + if (index EQ AOC_CALLTIMER) + { + /* timeout call timer */ + aoc_timeout_call_timer (); + return TRUE; + } + else if (index >= AOC_AOCTIMER AND index < AOC_AOCTIMER+MAX_CALL_NR) + { + /* Check Advice of Charge Timer */ + aoc_timeout_aoc_timer ((USHORT)(index - AOC_AOCTIMER)); + return TRUE; + } + else + { + /* the timeout is not for AoC */ + return FALSE; + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_timeout_call_timer | ++--------------------------------------------------------------------+ + + PURPOSE : the call timer timeout has occured. The CCT and ACT are + increased. + +*/ + +void aoc_timeout_call_timer (void) +{ + int Cid; + T_ACI_CMD_SRC idx; + UBYTE five_second_have_just_elapsed = FALSE; + + /* TRACE_FUNCTION ("aoc_timeout_call_timer()"); */ + + cct++; + /* act++; */ + + if (acm_increment_flag EQ 1) + five_second_have_just_elapsed = TRUE; + + /* Flag to realize 5 second delay for incrementing ACM on the SIM card. */ + if (acm_increment_flag) + acm_increment_flag--; + + /* flush the charge on the SIM, 5 seconds after the last writing, + * if there some units to add */ + if (five_second_have_just_elapsed) + aoc_increment_charge (0L, FALSE); + + /* Update the remaining time for running AoC timer */ + for (Cid=0; Cid<MAX_CALL_NR; Cid++) + { + if (cc_aoc_table[Cid].aoc_timer_running AND + cc_aoc_table[Cid].remaining_time > 0) + { + TIMER_STATUS (aci_handle, (USHORT)(AOC_AOCTIMER + Cid), &cc_aoc_table[Cid].remaining_time); + } + } + + for( idx = CMD_SRC_LCL; idx < CMD_SRC_MAX; idx++ ) + { + R_AT( RAT_CTV, idx )( ); + } + + aoc_set_time_ut_charge ( ACI_NumParmNotPresent, 0L ); +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_timeout_aoc_timer | ++--------------------------------------------------------------------+ + + PURPOSE : An AoC timer timeout has occured. + +*/ + +void aoc_timeout_aoc_timer (SHORT Cid) +{ + SHORT dummy_waitId; /* holds call waiting id */ + T_ACI_CMD_SRC src_dummy = CMD_SRC_NONE; + + TRACE_FUNCTION ("aoc_timeout_aoc_timer()"); + + if ((aoc_check_acm () EQ FALSE) AND + (cc_aoc_table[Cid].aoci_active EQ FALSE) AND + (cc_aoc_table[Cid].next_unit) ) /* check if the next intervall would charge (time related charge > 0)*/ + { + /* ACM exceeds ACMMax, and call is not free, so disconnect call */ + TRACE_EVENT ("ACM > ACMMax"); + cmhCC_ClearCall (Cid, + CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, MNCC_ACI_ORIGINATING_ENTITY, MNCC_CAUSE_ACM_MAX), + src_dummy, AT_CMD_NONE, &dummy_waitId); + } +//TISH, patch for OMAPS00128043 +//start + else if (ccShrdPrm.ctb[Cid]->prio EQ 1) //PRIO_EMERG_CALL + return; +//end + else + { + /* e3 may have changed during the current intervall but recalc is already done */ + aoc_increment_charge (cc_aoc_table[Cid].next_unit, FALSE); + if (cc_aoc_table[Cid].new_data_avail) + { + /* New Parameter available */ + /* 4.3.e) bring parameters held in abeyance into operation */ + if (cc_aoc_table[Cid].e_next_bitmap & E1_CHANGED) cc_aoc_table[Cid].e1 = cc_aoc_table[Cid].e1_next; + if (cc_aoc_table[Cid].e_next_bitmap & E2_CHANGED) cc_aoc_table[Cid].e2 = cc_aoc_table[Cid].e2_next; + if (cc_aoc_table[Cid].e_next_bitmap & E3_CHANGED) cc_aoc_table[Cid].e3 = cc_aoc_table[Cid].e3_next; + if (cc_aoc_table[Cid].e_next_bitmap & E7_CHANGED) cc_aoc_table[Cid].e7 = cc_aoc_table[Cid].e7_next; + + aoc_calculate_charging_parameter_part2 (Cid); + + /* timing has changed? */ + if (cc_aoc_table[Cid].e_next_bitmap & (E2_CHANGED | E7_CHANGED)) + { + /* reschedule timer */ + TIMER_STOP (aci_handle, (USHORT)(AOC_AOCTIMER + Cid)); + TIMER_PSTART (aci_handle, (USHORT)(AOC_AOCTIMER + Cid), cc_aoc_table[Cid].first_interval, + cc_aoc_table[Cid].next_interval); + cc_aoc_table[Cid].remaining_time = cc_aoc_table[Cid].first_interval; + } + else + /* ask the timer since we could already be ahead */ + /* cc_aoc_table[Cid].remaining_time = cc_aoc_table[Cid].next_interval; */ + TIMER_STATUS (aci_handle, (USHORT)(AOC_AOCTIMER + Cid), &cc_aoc_table[Cid].remaining_time); + + cc_aoc_table[Cid].new_data_avail = FALSE; + cc_aoc_table[Cid].e_next_bitmap &= ~(E1_CHANGED | E2_CHANGED | E3_CHANGED | E7_CHANGED); + } + else + { + /* re-initialise remaining time counter */ + /* ask the timer since we could already be ahead */ + /* cc_aoc_table[Cid].remaining_time = cc_aoc_table[Cid].next_interval; */ + TIMER_STATUS (aci_handle, (USHORT)(AOC_AOCTIMER + Cid), &cc_aoc_table[Cid].remaining_time); + } + + /* check if timer had e2=0 and e7>= */ + if (cc_aoc_table[Cid].next_interval == 0) + { + cc_aoc_table[Cid].aoc_timer_running = FALSE; + /* cc_aoc_table[Cid].aoci_active = FALSE;*/ + cc_aoc_table[Cid].remaining_time = 0L; + aoc_set_time_ut_charge ( Cid, (ULONG)ACI_NumParmNotPresent ); + } + else + aoc_set_time_ut_charge ( Cid, cc_aoc_table[Cid].remaining_time ); + } +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_start_aoc_timer | ++--------------------------------------------------------------------+ + + PURPOSE : AoC is started for the indicated call or + new AoC parameter are received. +*/ + +void aoc_start_newinfo_existingcall (SHORT Cid) +{ + UBYTE no_more_timer_running = FALSE; + T_ACI_CMD_SRC src_dummy = CMD_SRC_NONE; + SHORT dummy_waitId; + + TRACE_FUNCTION ("aoc_start_newinfo_existingcall()"); + + if(!aoc_non_zero_cai (Cid)) + { + return; + } + + if (cc_aoc_table[Cid].aoc_timer_running EQ FALSE) + { + /* New Parameter available */ + /* 4.3.e) bring parameters held in abeyance into operation */ + if (cc_aoc_table[Cid].e_next_bitmap & E1_CHANGED) cc_aoc_table[Cid].e1 = cc_aoc_table[Cid].e1_next; + if (cc_aoc_table[Cid].e_next_bitmap & E2_CHANGED) cc_aoc_table[Cid].e2 = cc_aoc_table[Cid].e2_next; + if (cc_aoc_table[Cid].e_next_bitmap & E3_CHANGED) cc_aoc_table[Cid].e3 = cc_aoc_table[Cid].e3_next; + if (cc_aoc_table[Cid].e_next_bitmap & E7_CHANGED) cc_aoc_table[Cid].e7 = cc_aoc_table[Cid].e7_next; + + aoc_calculate_charging_parameter_part2 (Cid); + + /* vsi_t_status (VSI_CALLER (USHORT)(AOC_AOCTIMER + Cid), &cc_aoc_table[Cid].remaining_time);*/ + + cc_aoc_table[Cid].new_data_avail = FALSE; + cc_aoc_table[Cid].e_next_bitmap &= ~(E1_CHANGED | E2_CHANGED | E3_CHANGED | E7_CHANGED); + no_more_timer_running = TRUE; + } + + + /* charging information available, else wait for end of interval.*/ + if ( (cc_aoc_table[Cid].next_interval EQ 0) AND + ((cc_aoc_table[Cid].first_interval EQ 0) OR (cc_aoc_table[Cid].remaining_time EQ 0)) ) + { + /* if CDUR is not actively timing (i.e. due to e2 being zero, + * e7 being zero or the processing of e7 has been completed), + * then a new value of e2 and/or e7 is applied immediately as per a normal call. */ + no_more_timer_running = TRUE; + } + + /* charging information available, else wait for end of interval. */ + if ((aoc_check_acm () EQ TRUE) OR + (cc_aoc_table[Cid].aoci_active EQ TRUE)) + { + /* ACM has not exceeded ACMMax then calculate charging parameters and increment inital charge */ + aoc_calculate_charging_parameter_part1 (Cid); + aoc_increment_initial_charge (Cid); + cc_aoc_table[Cid].new_data_avail = TRUE; + } + else + { + /* + * ACM has reached ACM max, the call is kept till the next interval elapses + * but if there is no timer running, for a new reception of CAI non zero, + * we behave as on reception of a first CAI for a call, if acm has reached ACM max, + * we disconnect the call. + * "Rec 2.24 : 4.2.2 ACM : If the ACM max is valid and the ACM is equal to or greater + * than the value of ACM max, and an incoming call is received and subsequently + * a non-zero CAI is received for that call, then the call shall be terminated by + * the ME with an appropriate indication given to the user." + */ + if (no_more_timer_running) + { + /* if we are here, it means that it's a non-zero CAI, so no need to test it again */ + TRACE_EVENT("no more timer running clear call"); + cmhCC_ClearCall (Cid, + CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, MNCC_ACI_ORIGINATING_ENTITY, MNCC_CAUSE_ACM_MAX), + src_dummy, AT_CMD_NONE, &dummy_waitId); + } + } + + if (no_more_timer_running) + { + /* New Parameter available */ + aoc_calculate_charging_parameter_part2 (Cid); + + cc_aoc_table[Cid].new_data_avail = FALSE; + TIMER_STOP (aci_handle, (USHORT)(AOC_AOCTIMER + Cid)); + TIMER_PSTART (aci_handle, (USHORT)(AOC_AOCTIMER + Cid), cc_aoc_table[Cid].first_interval, + cc_aoc_table[Cid].next_interval); + /* re-initialise remaining time counter for first interval */ + cc_aoc_table[Cid].remaining_time = cc_aoc_table[Cid].first_interval; + } +} + +void aoc_start_info_newcall (SHORT Cid) +{ + T_ACI_CMD_SRC src_dummy = CMD_SRC_NONE; + SHORT dummy_waitId; + + TRACE_FUNCTION ("aoc_start_info_newcall()"); + + if( !aoc_non_zero_cai(Cid) ) + { + return; + } + /* charging information available */ + + if( (aoc_check_acm() EQ FALSE) AND + (cc_aoc_table[Cid].aoci_active EQ FALSE) ) + { + /* ACM exceeds ACMMax, disconnect call */ + TRACE_EVENT("clear call on initial call"); + cmhCC_ClearCall (Cid, + CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, MNCC_ACI_ORIGINATING_ENTITY, MNCC_CAUSE_ACM_MAX), + src_dummy, + AT_CMD_NONE, + &dummy_waitId); + return; + } + + /* ACM has not exceeded ACMMax then calculate charging parameters, + * increment inital charge and start AoC Timer. */ + { + /* bring new parameters into operation */ + + if (cc_aoc_table[Cid].e_next_bitmap & E1_CHANGED) cc_aoc_table[Cid].e1 = cc_aoc_table[Cid].e1_next; + if (cc_aoc_table[Cid].e_next_bitmap & E2_CHANGED) cc_aoc_table[Cid].e2 = cc_aoc_table[Cid].e2_next; + if (cc_aoc_table[Cid].e_next_bitmap & E3_CHANGED) cc_aoc_table[Cid].e3 = cc_aoc_table[Cid].e3_next; + if (cc_aoc_table[Cid].e_next_bitmap & E7_CHANGED) cc_aoc_table[Cid].e7 = cc_aoc_table[Cid].e7_next; + + /* cc_aoc_table[Cid].new_data_avail = FALSE;*/ + cc_aoc_table[Cid].e_next_bitmap &= ~(E1_CHANGED | E2_CHANGED | E3_CHANGED | E7_CHANGED); + } + + aoc_calculate_charging_parameter (Cid); + aoc_increment_initial_charge (Cid); + + if(cc_aoc_table[Cid].first_interval) + { + TIMER_PSTART (aci_handle, (USHORT)(AOC_AOCTIMER + Cid), cc_aoc_table[Cid].first_interval, + cc_aoc_table[Cid].next_interval); + + cc_aoc_table[Cid].aoc_timer_running = TRUE; + } + + cc_aoc_table[Cid].new_data_avail = FALSE; + cc_aoc_table[Cid].remaining_time = cc_aoc_table[Cid].first_interval; + + aoc_set_time_ut_charge ( Cid, cc_aoc_table[Cid].remaining_time ); +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_non_zero_cai | ++--------------------------------------------------------------------+ + + PURPOSE : Checks whether the Advice of Charge parameter indicate + a free call (parameters are not available or equal zero). +*/ + +UBYTE aoc_non_zero_cai (SHORT Cid) +{ + TRACE_FUNCTION ("aoc_non_zero_cai()"); + + /* AoC = e3 * { e4 + e1*INT(CDUR/(e7,e2)) + e5*INT(SEG/e6) } + * = scaling * { constant + time related + data related} + * + * Ref. GSM 2.24 Section 4 Functional operation in MS */ + + if ((cc_aoc_table[Cid].e3 EQ 0) OR + ((cc_aoc_table[Cid].e1 EQ 0) AND (cc_aoc_table[Cid].e4 EQ 0) /* AND (cc_aoc_table[Cid].e5 EQ 0) */ )) + /* e5, e6 is currently not supported */ + return FALSE; + + return TRUE; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_check_acm | ++--------------------------------------------------------------------+ + + PURPOSE : The function indicates whether ACM exceeds ACMMax. + +*/ + +UBYTE aoc_check_acm (void) +{ + TRACE_FUNCTION ("aoc_check_acm()"); + + TRACE_EVENT_P2("ACM=%u ACMMax=%u", acm, acmmax); + + if (acmmax NEQ 0) + { + /* + * ACMMax is valid + */ + if (acm >= acmmax) + { + causeMod = P_CEER_sim; /* Set the module to sim to report ceer */ + causeCeer = P_CEER_ACMMaxReachedOrExceeded; /* Set proprietary cause */ + return FALSE; /* ACM exceeds ACMMax */ + } + else + { + causeMod = P_CEER_mod; /* Clear module which is set */ + causeCeer = P_CEER_NotPresent; /* Clear proprietary cause */ + } + } + return TRUE; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_calculate_charging_params_part1 | ++--------------------------------------------------------------------+ + + PURPOSE : The function calculates an initial rime related charge + +*/ + +static void aoc_calculate_charging_parameter_part1 (SHORT Cid) +{ + TRACE_FUNCTION ("aoc_calculate_charging_parameter_part1()"); + + /* + * Calculation for inital charge + */ + cc_aoc_table[Cid].first_unit = + ((ULONG)cc_aoc_table[Cid].e3 * (ULONG)cc_aoc_table[Cid].e4) / 10; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_calculate_charging_params_part2 | ++--------------------------------------------------------------------+ + + PURPOSE : The function calculates the interval length and the + number of units which will be incremented at interval + end. + +*/ + +static void aoc_calculate_charging_parameter_part2 (SHORT Cid) +{ + + TRACE_FUNCTION ("aoc_calculate_charging_parameter_part2()"); + + /* Calculation of first time interval */ + cc_aoc_table[Cid].first_interval = (T_TIME) E_IN_MS(cc_aoc_table[Cid].e7); + + /* Calculation of next time interval */ + cc_aoc_table[Cid].next_interval = (T_TIME) E_IN_MS(cc_aoc_table[Cid].e2); + + + /* 4.3.a) E7 is not available or E7 is equal zero then use E2 */ + if (cc_aoc_table[Cid].first_interval EQ 0L) + cc_aoc_table[Cid].first_interval = cc_aoc_table[Cid].next_interval; + + /* + * Calculation for charge of next units + */ + cc_aoc_table[Cid].next_unit = + ((ULONG)cc_aoc_table[Cid].e3 * (ULONG)cc_aoc_table[Cid].e1) / 10; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_calculate_charging_params | ++--------------------------------------------------------------------+ + + PURPOSE : The function calculates the interval length and the + number of units which will be incremented at interval + end. + +*/ + +void aoc_calculate_charging_parameter (SHORT Cid) +{ + TRACE_FUNCTION ("aoc_calculate_charging_parameter()"); + + aoc_calculate_charging_parameter_part1 (Cid); + aoc_calculate_charging_parameter_part2 (Cid); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_increment_initial_charge | ++--------------------------------------------------------------------+ + + PURPOSE : The function increments the inital charge to CCM and ACM. + +*/ + +void aoc_increment_initial_charge (SHORT Cid) +{ + TRACE_FUNCTION ("aoc_increment_inital_charge()"); + + if (cc_aoc_table[Cid].first_unit) + { + /* + * if initial charge is available, charge it and + * inform MMI about it although it has no charge. + */ + aoc_increment_charge (cc_aoc_table[Cid].first_unit, FALSE); + cc_aoc_table[Cid].first_unit = 0L; + } + aoc_send_ccm (); +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_increment_charge | ++--------------------------------------------------------------------+ + + PURPOSE : The function increments charge to CCM and ACM. If necessary + the ACM is incremented on the SIM card. + +*/ + +void aoc_increment_charge (ULONG charge, UBYTE ever) +{ + SHORT table_id; + ULONG acm_for_sim; + + TRACE_FUNCTION ("aoc_increment_charge()"); + + /* + * Both CCM is incremented + */ + ccm += charge; + + if (ccm > (0xFFFFFF * 100)) /* limit to 0xffffff since datafeld is only 3 bytes long.*/ + ccm = (0xFFFFFF * 100); + + + + TRACE_EVENT_P2("NewCCM %u charge %u", ccm, charge); + + /* + * the update on the SIM is the difference between the rounded up value of the current CCM + * and the old CCM (already rounded up) + */ + acm_for_sim = MC_AOC_ROUND_UP(ccm) - MC_AOC_ROUND_UP(ccm_already_incremented); + + if (acm_for_sim) + { + if (acm_increment_flag EQ 0 OR ever) + { + /* + * Nothing stored in the last five seconds on the SIM card + * and now something to store + */ + acm_increment_flag = 5; + + ccm_already_incremented += acm_for_sim * 100; + + acm += acm_for_sim * 100; + + if (acm > (0xFFFFFF * 100)) + acm = (0xFFFFFF * 100); + + if (limit_reached EQ FALSE) + { + /* + * request table id for SIM SAP access + */ + table_id = psaSIM_atbNewEntry(); + + if(table_id NEQ NO_ENTRY) + { + /* + * Fill formular for access + * + * set datafield type = Binary field + * set datafield = SIM_ACM + * set offset = 0 Bytes + * set length = 3 Bytes + */ + simShrdPrm.atb[table_id].accType = ACT_INC_DAT; + simShrdPrm.atb[table_id].v_path_info = FALSE; + simShrdPrm.atb[table_id].reqDataFld = SIM_ACM; + simShrdPrm.atb[table_id].dataOff = 0; + simShrdPrm.atb[table_id].dataLen = 3; + simShrdPrm.atb[table_id].ntryUsdFlg = TRUE; + simShrdPrm.atb[table_id].exchData = sim_data; + simShrdPrm.atb[table_id].rplyCB = aoc_increment_cb; + simShrdPrm.aId = table_id; + sim_data[0] = (UBYTE)(acm_for_sim >> 16); + sim_data[1] = (UBYTE)(acm_for_sim >> 8); + sim_data[2] = (UBYTE)(acm_for_sim & 0xFF); + + TRACE_EVENT_P1("ACM increment = %u", acm_for_sim); + + if(psaSIM_AccessSIMData() < 0) + { + TRACE_EVENT("FATAL ERROR"); + } + } + } + } + aoc_send_ccm (); + } +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_increment_cb | ++--------------------------------------------------------------------+ + + PURPOSE : Callback function for incrementing ACM. + +*/ + +void aoc_increment_cb(SHORT table_id) +{ + UBYTE i; + SHORT dummy_waitId; /* holds call waiting id */ + T_ACI_CMD_SRC src_dummy = CMD_SRC_NONE; + + + TRACE_FUNCTION ("aoc_increment_cb()"); + + switch (simShrdPrm.atb[table_id].errCode) + { + case SIM_NO_ERROR: + break; + case SIM_CAUSE_MAX_INCREASE: + /* + * ACM has reached limit 0xFFFFFF, + * If ACMMAX is zero, ACM shall be cleared + * by MMI. Only an indication is forwarded + * to MMI, else the call is released. + */ + if (acmmax EQ 0) + { + limit_reached = TRUE; + R_AT( RAT_CME, simEntStat.entOwn ) + ( AT_CMD_CACM, CME_ERR_AcmResetNeeded ); + break; + } + /*lint -fallthrough */ + default: + /* + * ACM increment is not successfull + */ + aoc_state = AOC_DISABLE; + + /* + * release all chargeable calls + */ + for (i=0;i<MAX_CALL_NR;i++) + { + if (aoc_non_zero_cai(i)) + { + cmhCC_ClearCall (i, + CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, MNCC_ACI_ORIGINATING_ENTITY, MNCC_CAUSE_ACM_MAX), + src_dummy, AT_CMD_NONE, + &dummy_waitId); + } + } + break; + } + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_calculate_puct | ++--------------------------------------------------------------------+ + + PURPOSE : Calculate counter in PUCT. + +*/ + +void aoc_calculate_puct (ULONG value, T_puct * result) +{ + TRACE_FUNCTION ("aoc_calculate_puct()"); +#if defined WIN32 + { + TRACE_EVENT_P1("EPPU %u",eppu); + TRACE_EVENT_P1("SEXP %u",sexp); + TRACE_EVENT_P1("EXP %u",exp); + TRACE_EVENT_P1("VAL %u",value); + } +#endif + /* + * copy currency + */ + memcpy (result->currency, currency, 4); + + /* + * Multiply counter value with elementary price per unit + */ + value *= eppu; + /* + * If sexp is set divide by logarithm of ten, else multiply + */ + if (sexp) + { + value *= 1000; /* internal calculation is 1/1000 unit */ + value /= exp; /* to support e-3 to e-1 */ + sprintf ((char *) result->value, "%u.%03u", value / 1000, value % 1000); + } + else + { + value *= exp; + sprintf ((char *) result->value, "%u", value ); + } +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_update_acm | ++--------------------------------------------------------------------+ + + PURPOSE : The function tries to reset the ACM field on the SIM card. + +*/ + +void aoc_update_acm (UBYTE operation, ULONG value) +{ + SHORT table_id; + + TRACE_FUNCTION ("aoc_update_acm()"); + + /* + * request table id for SIM SAP access + */ + table_id = psaSIM_atbNewEntry(); + act_upd_op = operation; + + if(table_id NEQ NO_ENTRY) + { + switch (operation) + { + case FIRST_UPDATE: + /* + * This is the first access to ACM. It may fail, + * because PIN2 is needed. + */ + act_value = 0L; + /*lint -fallthrough*/ + case SECOND_UPDATE: + /* + * This is the second access to ACM after PIN entering. + */ + simShrdPrm.atb[table_id].accType = ACT_WR_REC; + simShrdPrm.atb[table_id].v_path_info = FALSE; + simShrdPrm.atb[table_id].reqDataFld = SIM_ACM; + simShrdPrm.atb[table_id].dataOff = 0; + simShrdPrm.atb[table_id].dataLen = 3; + simShrdPrm.atb[table_id].ntryUsdFlg = TRUE; + simShrdPrm.atb[table_id].exchData = sim_data; + simShrdPrm.atb[table_id].rplyCB = aoc_update_acm_cb; + simShrdPrm.aId = table_id; + sim_data[0] = (UBYTE)(act_value >> 16); + sim_data[1] = (UBYTE)(act_value >> 8); + sim_data[2] = (UBYTE)(act_value & 0xFF); + + if(psaSIM_AccessSIMData() < 0) + { + TRACE_EVENT("FATAL ERROR"); + } + break; + } + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_update_acm_cb | ++--------------------------------------------------------------------+ + + PURPOSE : Callback function for updating ACM. + +*/ + +void aoc_update_acm_cb(SHORT table_id) +{ + + TRACE_FUNCTION ("aoc_update_acm_cb()"); + /* Implements Measure 213 */ + aoc_update_sim_datafield_cb( table_id, AT_CMD_CACM ); +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_update_acmmax | ++--------------------------------------------------------------------+ + + PURPOSE : The function tries to set the ACMMAX field on the SIM card. + +*/ + +void aoc_update_acmmax (UBYTE operation, ULONG value) +{ + SHORT table_id; + + TRACE_FUNCTION ("aoc_update_acmmax()"); + + /* + * request table id for SIM SAP access + */ + table_id = psaSIM_atbNewEntry(); + act_upd_op = operation; + + if(table_id NEQ NO_ENTRY) + { + switch (operation) + { + case FIRST_UPDATE: + /* + * This is the first access to ACMMAX. It may fail, + * because PIN2 is needed. + */ + act_value = value; + /*lint -fallthrough*/ + case SECOND_UPDATE: + /* + * This is the second access to ACMMAX after PIN entering. + */ + simShrdPrm.atb[table_id].accType = ACT_WR_DAT; + simShrdPrm.atb[table_id].v_path_info = FALSE; + simShrdPrm.atb[table_id].reqDataFld = SIM_ACMMAX; + simShrdPrm.atb[table_id].dataOff = 0; + simShrdPrm.atb[table_id].dataLen = 3; + simShrdPrm.atb[table_id].ntryUsdFlg = TRUE; + simShrdPrm.atb[table_id].exchData = sim_data; + simShrdPrm.atb[table_id].rplyCB = aoc_update_acmmax_cb; + simShrdPrm.aId = table_id; + sim_data[0] = (UBYTE)(act_value >> 16); + sim_data[1] = (UBYTE)(act_value >> 8); + sim_data[2] = (UBYTE)(act_value & 0xFF); + + if(psaSIM_AccessSIMData() < 0) + { + TRACE_EVENT("FATAL ERROR"); + } + break; + } + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_update_acmmax_cb | ++--------------------------------------------------------------------+ + + PURPOSE : Callback function for updating ACMMax. + +*/ + +void aoc_update_acmmax_cb(SHORT table_id) +{ + + TRACE_FUNCTION ("aoc_update_acmmax_cb()"); + /* Implements Measure 213 */ + aoc_update_sim_datafield_cb( table_id, AT_CMD_CAMM ); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE : AOC | +| STATE : code ROUTINE: aoc_update_puct | ++--------------------------------------------------------------------+ + + PURPOSE : The function tries to modify the PUCT field on the SIM card. + +*/ + +void aoc_update_puct (UBYTE operation, T_puct * value) +{ + SHORT table_id; + + TRACE_FUNCTION ("aoc_update_puct()"); + + /* + * request table id for SIM SAP access + */ + table_id = psaSIM_atbNewEntry(); + act_upd_op = operation; + + if(table_id NEQ NO_ENTRY) + { + switch (operation) + { + case FIRST_UPDATE: + /* + * This is the first access to PUCT. It may fail, + * because PIN2 is needed. + */ + if (aoc_set_puct_values (value) EQ FALSE) + { + R_AT( RAT_CME, simEntStat.entOwn ) + ( AT_CMD_CPUC, CME_ERR_OpNotAllow ); + + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + return; + } + /*lint -fallthrough*/ + case SECOND_UPDATE: + /* + * This is the second access to PUCT after PIN entering. + */ + simShrdPrm.atb[table_id].accType = ACT_WR_DAT; + simShrdPrm.atb[table_id].v_path_info = FALSE; + simShrdPrm.atb[table_id].reqDataFld = SIM_PUCT; + simShrdPrm.atb[table_id].dataOff = 0; + simShrdPrm.atb[table_id].dataLen = 5; + simShrdPrm.atb[table_id].ntryUsdFlg = TRUE; + simShrdPrm.atb[table_id].exchData = sim_data; + simShrdPrm.atb[table_id].rplyCB = aoc_update_puct_cb; + simShrdPrm.aId = table_id; + if(psaSIM_AccessSIMData() < 0) + { + TRACE_EVENT("FATAL ERROR"); + } + break; + } + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_update_puct_cb | ++--------------------------------------------------------------------+ + + PURPOSE : Callback function for updating PUCT. + +*/ + +void aoc_update_puct_cb(SHORT table_id) +{ + T_SIM_SET_PRM * pSIMSetPrm; /* points to MM parameter set */ + UBYTE index; + + TRACE_FUNCTION ("aoc_update_puct_cb()"); + + switch (simShrdPrm.atb[table_id].errCode) + { + case SIM_NO_ERROR: + /* + * No error has occured, read ACM etc. again from SIM Card + */ + currency [0] = sim_data[0]; + currency [1] = sim_data[1]; + currency [2] = sim_data[2]; + currency [3] = 0; + eppu = (sim_data[3]<<4 & 0xFF0) + (sim_data[4] & 0x0F); + index = sim_data[4]>>4 & 0x0F; + + if (index > 15) /* only 0 to 15 */ + { + index = 15; + } + + exp = ppu_values[index][0]; + sexp = ppu_values[index][1]; + + simEntStat.curCmd = AT_CMD_NONE; + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + R_AT( RAT_OK, simEntStat.entOwn) (AT_CMD_CPUC ); + aoc_sms (); + break; + case SIM_CAUSE_PIN2_EXPECT: + /* + * error has occured, maybe PIN2 is needed + */ + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + if (strlen ((char *) pwd) AND + act_upd_op EQ FIRST_UPDATE) + { + /* + * Password is available and + * it is the first update, then + * try to verify PIN2 + */ + act_upd_op = VERIFY_PWD; + pSIMSetPrm = &simShrdPrm.setPrm[act_src_id]; + + cmhSIM_FillInPIN ( (char *) pwd, pSIMSetPrm -> curPIN, PIN_LEN); + pSIMSetPrm -> PINType = PHASE_2_PIN_2; + simEntStat.curCmd = AT_CMD_CPUC; + simShrdPrm.owner = (T_OWN)act_src_id; + simEntStat.entOwn = act_src_id; + + if ( psaSIM_VerifyPIN() < 0 ) /* verify PIN */ + { + TRACE_EVENT( "FATAL RETURN psaSIM in +CAMM" ); + } + } + else + { + /* + * PIN2 not available or second attempt + */ + simEntStat.curCmd = AT_CMD_NONE; + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + if (act_upd_op EQ FIRST_UPDATE) + { + R_AT( RAT_CME, simEntStat.entOwn ) + ( AT_CMD_CPUC, CME_ERR_SimPin2Req ); + } + else + { + R_AT( RAT_CME, simEntStat.entOwn ) + ( AT_CMD_CPUC, CME_ERR_WrongPasswd ); + } + } + break; + default: + /* + * Any other error, respective error code is returned + */ + simEntStat.curCmd = AT_CMD_NONE; + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + R_AT( RAT_CME, simEntStat.entOwn ) + ( + AT_CMD_CPUC, + cmhSIM_GetCmeFromSim ( simShrdPrm.atb[table_id].errCode ) + ); + break; + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_set_puct_values | ++--------------------------------------------------------------------+ + + PURPOSE : Converts the PUCT values from string to SIM format. +*/ + +UBYTE aoc_set_puct_values(T_puct * puct) +{ + UBYTE first_digit = FALSE; + UBYTE colon_found = FALSE; + UBYTE position_dot = 0; + SHORT temp_pos = 0; + SHORT position = 0; + SHORT length = 0; + ULONG eppu = 0L; + ULONG temp_eppu = 0L; + UBYTE i; + + TRACE_FUNCTION ("aoc_set_puct_values()"); + + sim_data[0] = puct->currency [0]; + sim_data[1] = puct->currency [1]; + sim_data[2] = puct->currency [2]; + + for (i=0;i<20;i++) + { + if (puct->value[i] EQ '\0') + break; + + if (first_digit) + { + /* at least one digit detected */ + if (colon_found) + { + /* checking the digits after the colon */ + switch (puct->value[i]) + { + case '0': + /* zeros after the colon are counted */ + temp_eppu = temp_eppu * 10 + (puct->value[i] - '0'); + temp_pos++; + break; + + default: + /* digits available before the colon */ + eppu = (temp_eppu * 10) + (puct->value[i] - '0'); + temp_eppu = eppu; + length = length + temp_pos + 1; + temp_pos = 0; + if (position_dot) + { + position = position_dot; + position_dot = 0; + } + break; + } + } + else + { + /* checking the digits before the colon */ + switch (puct->value[i]) + { + case '0': + /* zeros before the colon are counted */ + temp_eppu = temp_eppu * 10 + (puct->value[i] - '0'); + temp_pos++; + break; + + case '.': + colon_found = TRUE; + position_dot = position + temp_pos; + length += temp_pos; + temp_pos = 0; + break; + + default: + /* digits available before the colon */ + if (temp_pos) + eppu = (temp_eppu * 10) + (puct->value[i] - '0'); + else + eppu = eppu * 10 + (puct->value[i] - '0'); + temp_eppu = eppu; + length = length + temp_pos + 1; + position = position + temp_pos + 1; + temp_pos = 0; + break; + } + } + } + else + { + /* no digit found */ + if (colon_found) + { + /* searching for the first digit after the colon + * e.g. 0.0034 */ + switch (puct->value[i]) + { + case '0': + /* count the number of zeros after the colon */ + temp_pos++; + break; + + default: + /* digits available before the colon */ + first_digit = TRUE; + position -= temp_pos; + temp_pos = 0; + temp_eppu = eppu = puct->value[i]-'0'; + length++; + break; + } + } + else + { + /* checking the digits before the colon + * e.g 234.56 looking for the 2 */ + switch (puct->value[i]) + { + case '0': + /* leading zeros are ignored */ + break; + case '.': + /* no digits before the colon, e.g. 0.23 */ + colon_found = TRUE; + break; + default: + /* digits available before the colon */ + first_digit = TRUE; + temp_eppu = eppu = puct->value[i]-'0'; + position++; + length++; + break; + } + } + } + + if (puct->value[i] EQ 0) + break; + } + +#if defined WIN32 + { + TRACE_EVENT_P2("PUCT POS=%d LEN=%d", position, length); + TRACE_EVENT_P1("EPPU=%d", eppu); + } +#endif + + /* + * check the maximum of EPPU + */ + if (eppu > 0xFFF) + return FALSE; + + /* + * set the EPPU, SEXP and EXP for the SIM Card + */ + + sim_data[3] = (UBYTE)(eppu >> 4); + sim_data[4] = (UBYTE)(eppu & 0xF); + + + /* + * for the case : reset PUCT + */ + if (!first_digit) + { + /* + * set the first 4 bits of the fifth bytes to 0 (exp2, exp1, exp0, sexp) + */ + sim_data[4] = sim_data[4] & 0x0F; + } + else + { + if (!colon_found) + { + if (temp_pos) + { + sim_data[4] += (temp_pos << 5); + } + else + { + sim_data[4] += ((length - position) << 5); + } + } + else + { + if (position_dot NEQ 0) + sim_data[4] += ((length - position) << 5); + else + sim_data[4] += 0x10 + ((length - position) << 5); + } + } + return TRUE; +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_parameter | ++--------------------------------------------------------------------+ + + PURPOSE : Copies the e-parameters of the facility IE. + +*/ +void aoc_parameter(SHORT Cid, T_FWD_CHG_ADVICE_INV * aoc_para) +{ + T_chargingInformation * charge; + + TRACE_FUNCTION ("aoc_parameter()"); + + switch (aoc_para->forwardChargeAdviceArg.ssCode) + { + case(SS_CD_AOCI): + cc_aoc_table[Cid].aoci_active=TRUE; + break; + case(SS_CD_AOCC): + cc_aoc_table[Cid].aoci_active=FALSE; + break; + default: + TRACE_EVENT_P1("UNEXPECTED SS_CODE in FWD_AOC %d, assume AOCC", aoc_para->forwardChargeAdviceArg.ssCode); + cc_aoc_table[Cid].aoci_active=FALSE; + } + + charge = &aoc_para->forwardChargeAdviceArg.chargingInformation; + + cc_aoc_table[Cid].new_data_avail = TRUE; + + if (charge->v_e1) + { + if (cc_aoc_table[Cid].aoc_timer_running) + { + /* E1 is available, 4.3.e) special */ + cc_aoc_table[Cid].e1_next = aoc_getEVal(&charge->e1); + cc_aoc_table[Cid].e_next_bitmap |= E1_CHANGED; + TRACE_EVENT_P1("E1 = %u", cc_aoc_table[Cid].e1_next); + } + else + { + cc_aoc_table[Cid].e1 = aoc_getEVal(&charge->e1); + TRACE_EVENT_P1("E1 = %u", cc_aoc_table[Cid].e1); + } + + } + + if (charge->v_e2) + { + if (cc_aoc_table[Cid].aoc_timer_running) + { + /* E2 is available, 4.3.e) special */ + cc_aoc_table[Cid].e2_next = aoc_getEVal(&charge->e2); + cc_aoc_table[Cid].e_next_bitmap |= E2_CHANGED; + TRACE_EVENT_P1("E2 = %u", cc_aoc_table[Cid].e2_next); + } + else + { + cc_aoc_table[Cid].e2 = aoc_getEVal(&charge->e2); + TRACE_EVENT_P1("E2 = %u", cc_aoc_table[Cid].e2); + } + } + + if (charge->v_e3) + { + /* Special handling of E3, see AOC08226 */ + cc_aoc_table[Cid].e3_next = aoc_getEVal(&charge->e3); + cc_aoc_table[Cid].e_next_bitmap |= E3_CHANGED; + TRACE_EVENT_P1("E3 = %u", cc_aoc_table[Cid].e3_next); + } + + if (charge->v_e4) + { + cc_aoc_table[Cid].e4 = aoc_getEVal(&charge->e4); + cc_aoc_table[Cid].e_next_bitmap |= E4_CHANGED; + TRACE_EVENT_P1("E4 = %u", cc_aoc_table[Cid].e4); + } + + /* e5 and e6 are not (yet?) supported */ + if (charge->v_e5) + { + cc_aoc_table[Cid].e5 = aoc_getEVal(&charge->e5); + TRACE_EVENT_P1("E5 = %u", cc_aoc_table[Cid].e5); + } + + if (charge->v_e6) + { + cc_aoc_table[Cid].e6 = aoc_getEVal(&charge->e6); + TRACE_EVENT_P1("E6 = %u", cc_aoc_table[Cid].e6); + } + + if (charge->v_e7) + { + if (cc_aoc_table[Cid].aoc_timer_running) + { + /* E7 is available, 4.3.e) special */ + cc_aoc_table[Cid].e7_next = aoc_getEVal(&charge->e7); + cc_aoc_table[Cid].e_next_bitmap |= E7_CHANGED; + TRACE_EVENT_P1("E7 = %u", cc_aoc_table[Cid].e7_next); + } + else + { + cc_aoc_table[Cid].e7 = aoc_getEVal(&charge->e7); + TRACE_EVENT_P1("E7 = %u", cc_aoc_table[Cid].e7); + } + + } + + if(cc_aoc_table[Cid].e_next_bitmap & (E1_CHANGED | E2_CHANGED | E7_CHANGED)) + { + /* e3 should be applied to the parameters held in abeyance, see AOC08226 */ + } + else + { + /* bring e3 immediately into operation */ + cc_aoc_table[Cid].e3 = cc_aoc_table[Cid].e3_next; + } + + + + if(cc_aoc_table[Cid].e_next_bitmap & E3_CHANGED) + { + /* e3 is updated recalc is needed now */ + aoc_calculate_charging_parameter_part2( Cid ); + } + +/* + if(cc_aoc_table[Cid].e_next_bitmap & E4_CHANGED) + { + if e4 is updated while charging running, charge amount now + if (cc_aoc_table[Cid].aoc_timer_running EQ TRUE) + { + aoc_calculate_charging_parameter_part1( Cid ); + aoc_increment_initial_charge( Cid ); + cc_aoc_table[Cid].e_next_bitmap &= ~E4_CHANGED; + } + } +*/ + +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_getEVal | ++--------------------------------------------------------------------+ + + PURPOSE : Assembles e-value out of the facility IE. +*/ + +USHORT aoc_getEVal( void * eBuf ) +{ + T_e1 *pE = (T_e1*)eBuf; + USHORT val = 0; + UBYTE len; + + for( len = 0; len < pE->c_e_val; len++ ) + { + val<<= 8; + val += pE->e_val[len]; + } + + return( val ); +} + + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_send_ccm | ++--------------------------------------------------------------------+ + + PURPOSE : The ccm is forwarded if at least one of the calls is + active. +*/ + +void aoc_send_ccm () +{ + ULONG ccm_output; + T_ACI_CMD_SRC idx; + + if (qAT_CallActive()) + { + /* call back function to notify the MMI */ + for( idx = CMD_SRC_LCL; idx < CMD_SRC_MAX; idx++ ) + { + /* + * forward ccm in whole units to MMI + */ + ccm_output = MC_AOC_ROUND_UP(ccm); + + R_AT( RAT_CCCM, idx )( &ccm_output ); + } + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_set_time_ut_charge | ++--------------------------------------------------------------------+ + + PURPOSE : This function is used to set the period of time until + the next charging occur. +*/ + +void aoc_set_time_ut_charge ( SHORT cId, T_TIME time ) +{ + UBYTE mode = AOC_CALL_TIMER_ELAPSED; /* indicates the elapsed */ + /* timer */ + /* + * in case an AoC timer is elapsed the time until + * next charging will be fixed to the new value + */ + if ( cId NEQ ACI_NumParmNotPresent ) + { + cc_aoc_table[cId].time_ut_charge = time; + mode = AOC_AOC_TIMER_ELAPSED; + } + + aoc_calc_expct_charge ( mode ); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_calc_expct_charge | ++--------------------------------------------------------------------+ + + PURPOSE : This function is used to calculate the amount of charge + which is going to be consumed during the period of time + fixed by AOC_MAX_REMAIN_CALL_TIME. +*/ + +void aoc_calc_expct_charge ( UBYTE mode ) +{ + ULONG expct_charge = 0; /* expected charge */ + T_TIME remain_time; /* remaining time until next */ + ULONG num_chrg_pts; /* number of charging points */ + UBYTE idx; /* used for counting */ + BOOL aoc_running = FALSE; /* indicates whether at least */ + /* one AoC timer is running */ + + for ( idx = 0; idx < MAX_CALL_NR; idx++ ) + { + if ( cc_aoc_table[idx].aoc_timer_running AND cc_aoc_table[idx].e1 ) + { + aoc_running = TRUE; + + if ( mode EQ AOC_CALL_TIMER_ELAPSED ) + { +#if defined (WIN32) + TRACE_EVENT_P1("time to charge: %d ms", + cc_aoc_table[idx].time_ut_charge - AOC_THOUSAND_MILLISECONDS); +#endif + + /* in case the call timer is elapsed the actual + * time until next charging will be calculated */ + if (cc_aoc_table[idx].time_ut_charge >= AOC_THOUSAND_MILLISECONDS) + { + cc_aoc_table[idx].time_ut_charge -= AOC_THOUSAND_MILLISECONDS; + } + else + { + /* calculate the expected charging intervals based on the E parameter */ + if ( cc_aoc_table[idx].new_data_avail EQ TRUE AND + cc_aoc_table[idx].e_next_bitmap & E7_CHANGED ) + { + cc_aoc_table[idx].time_ut_charge = aoc_calc_time_ut_charge ( idx, E7_CHANGED ); + } + else if ( cc_aoc_table[idx].e_next_bitmap & E2_CHANGED ) + { + cc_aoc_table[idx].time_ut_charge = aoc_calc_time_ut_charge ( idx, E2_CHANGED ); + } + else + { + cc_aoc_table[idx].time_ut_charge = ~0L; + } + + /* calculate the expected initial charge and + * add to the expected charge */ + /* The fixed amount is charged immediately and not somewhen later + if ( cc_aoc_table[idx].new_data_avail EQ TRUE AND + cc_aoc_table[idx].e_bitmap & E4_AVAILABLE ) + { + expct_charge += ( ( ULONG ) cc_aoc_table[idx].e3 * + ( ULONG ) cc_aoc_table[idx].e4 ) / 10; + } + */ + } + } + + /* calculate expected charge for next AOC_MAX_REMAIN_CALL_TIME milliseconds */ + num_chrg_pts = 1; + + if ( cc_aoc_table[idx].time_ut_charge <= AOC_MAX_REMAIN_CALL_TIME ) + { + if (cc_aoc_table[idx].e2) + { + remain_time = AOC_MAX_REMAIN_CALL_TIME - + cc_aoc_table[idx].time_ut_charge; + num_chrg_pts += + (ULONG)(remain_time / E_IN_MS ( cc_aoc_table[idx].e2 )); + } + + expct_charge += ( num_chrg_pts * + ( cc_aoc_table[idx].e1 * cc_aoc_table[idx].e3 ) / 10 ); + } + } + } + + aoc_calc_acm_wrn_evnt ( expct_charge, aoc_running ); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_calc_acm_wrn_evnt | ++--------------------------------------------------------------------+ + + PURPOSE : In case the remaining credit is low a call timer warning + event is generated. +*/ + +void aoc_calc_acm_wrn_evnt ( ULONG charge, BOOL aoc_running ) +{ + ULONG credit; /* remaining credit */ + ULONG acm_for_sim; /* lack of the actual ACM value */ + T_ACI_CCWV_CHRG charging; /* CCWV mode indicated to MMI */ + + /* + * the update on the SIM is the difference between the rounded up + * value of the current CCM and the old CCM (already rounded up) + */ + acm_for_sim = MC_AOC_ROUND_UP(ccm) - MC_AOC_ROUND_UP(ccm_already_incremented); + credit = acmmax - acm - ( acm_for_sim * 100 ); + +#if defined (WIN32) + { + TRACE_EVENT_P2("AoC charge for next %u ms = %u", AOC_MAX_REMAIN_CALL_TIME, charge ); + } +#endif + + if ( aoc_running EQ TRUE ) + { + if ( charge >= credit ) + charging = CCWV_CHRG_Shortage; + else + charging = CCWV_CHRG_Abundance; + } + else + charging = CCWV_CHRG_Termination; + + aoc_ntfy_acm_wrn_evnt ( charging ); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_ntfy_acm_wrn_evnt | ++--------------------------------------------------------------------+ + + PURPOSE : Notifies the MMI about the call meter warning event. + +*/ +void aoc_ntfy_acm_wrn_evnt ( T_ACI_CCWV_CHRG charging ) +{ + T_ACI_CMD_SRC idx; + + if ( ccwv_charging NEQ charging ) + { + ccwv_charging = charging; + + for( idx=CMD_SRC_LCL; idx<CMD_SRC_MAX; idx++ ) + { + R_AT( RAT_CCWV, idx )( charging ); + } + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT: GSM-PS (6147) MODULE: AOC | +| STATE : code ROUTINE: aoc_calc_time_ut_charge | ++--------------------------------------------------------------------+ + + PURPOSE : This function calculates the new time to charge with + respect to the previous value. + +*/ +T_TIME aoc_calc_time_ut_charge ( SHORT cId, + UBYTE e_value_flag ) +{ + T_TIME new_time = ~0L; /* new time until next charging */ + T_TIME e_value; /* interval value */ + + switch ( e_value_flag ) + { + case (E2_CHANGED): e_value = E_IN_MS ( cc_aoc_table[cId].e2 ); + break; + case (E7_CHANGED): e_value = E_IN_MS ( cc_aoc_table[cId].e7 ); + break; + default : e_value = 0L; + break; + } + + if ( e_value <= ( AOC_THOUSAND_MILLISECONDS - cc_aoc_table[cId].time_ut_charge ) ) + { + new_time = e_value; + } + else if ( e_value NEQ 0L ) + { + new_time = e_value - ( AOC_THOUSAND_MILLISECONDS - cc_aoc_table[cId].time_ut_charge ); + } + + return new_time; +} + +/* Implements Measure 213 */ +/* ++------------------------------------------------------------------------------ +| Function : aoc_update_sim_datafield_cb ++------------------------------------------------------------------------------ +| Purpose : Callback function for updating ACM.or ACMMAX Field +| on the SIM Card. +| +| Parameters : table_id - +| at_cmd_idn - AT COMMAND Identifier +| (AT_CMD_CAMM or AT_CMD_CACM) +| +| Return : void ++------------------------------------------------------------------------------ +*/ + +LOCAL void aoc_update_sim_datafield_cb(SHORT table_id, T_ACI_AT_CMD at_cmd_idn) +{ + T_SIM_SET_PRM * pSIMSetPrm; /* points to MM parameter set */ + + TRACE_FUNCTION ("aoc_update_sim_datafield_cb()"); + + simEntStat.curCmd = AT_CMD_NONE; + simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; + + switch (simShrdPrm.atb[table_id].errCode) + { + case SIM_NO_ERROR: + /* + * No error has occured, read ACM etc. again from SIM Card + */ + R_AT( RAT_OK, simEntStat.entOwn) (at_cmd_idn); + aoc_sms (); + + if (at_cmd_idn EQ AT_CMD_CAMM) + { + aoc_set_time_ut_charge ( ACI_NumParmNotPresent, 0L ); + } + break; + case SIM_CAUSE_PIN2_EXPECT: + /* + * error has occured, maybe PIN2 is needed + */ + if (strlen ((char *) pwd) AND + act_upd_op EQ FIRST_UPDATE) + { + /* + * Password is available and + * it is the first update, then + * try to verify PIN2 + */ + act_upd_op = VERIFY_PWD; + pSIMSetPrm = &simShrdPrm.setPrm[act_src_id]; + + cmhSIM_FillInPIN ( (char *) pwd, pSIMSetPrm -> curPIN, PIN_LEN); + pSIMSetPrm -> PINType = PHASE_2_PIN_2; + simEntStat.curCmd = at_cmd_idn; + simShrdPrm.owner = (T_OWN)act_src_id; + simEntStat.entOwn = act_src_id; + + if ( psaSIM_VerifyPIN() < 0 ) /* verify PIN */ + { + TRACE_EVENT( "FATAL RETURN psaSIM in +CACM or +CAMM" ); + } + } + else + { + /* + * PIN2 not available or second attempt + */ + if (act_upd_op EQ FIRST_UPDATE) + { + R_AT( RAT_CME, simEntStat.entOwn ) + ( at_cmd_idn, CME_ERR_SimPin2Req ); + } + else + { + R_AT( RAT_CME, simEntStat.entOwn ) + ( at_cmd_idn, CME_ERR_WrongPasswd ); + } + } + break; + default: + /* + * Any other error, respective error code is returned + */ + R_AT( RAT_CME, simEntStat.entOwn ) + ( + at_cmd_idn, + cmhSIM_GetCmeFromSim ( simShrdPrm.atb[table_id].errCode ) + ); + break; + } +} + +/* Implements Measure 156 and 157 */ +/* ++------------------------------------------------------------------------------ +| Function : aoc_read_sim_datafield ++------------------------------------------------------------------------------ +| Purpose : Reads the SIM_ACM , SIM_ACMMAX and SIM_PUCT field +| on the SIM card +| +| Parameters : accType - ACCESS TYPE, (ACT_RD_REC or ACT_RD_DAT) +| reqDataFld - Requested DataField Identifier +| (SIM_ACM/SIM_ACMMAX/SIM_PUCT) +| rplyCB - Pointer to the Reply Call Back Function +| (aoc_read_acm_cb or aoc_read_acmmax_cb) +| dataLen - Data Length depending upon the which +| field to be read. +| +| Return : void ++------------------------------------------------------------------------------ +*/ + +LOCAL void aoc_read_sim_datafield ( UBYTE accType, USHORT reqDataFld, + void (*rplyCB)(SHORT), UBYTE dataLen) +{ + SHORT table_id; + + TRACE_FUNCTION ("aoc_read_sim_datafield()"); + + table_id = psaSIM_atbNewEntry(); + + if(table_id NEQ NO_ENTRY) + { + simShrdPrm.atb[table_id].accType = accType; + simShrdPrm.atb[table_id].v_path_info = FALSE; + simShrdPrm.atb[table_id].reqDataFld = reqDataFld; + if (reqDataFld EQ SIM_ACM) + { + simShrdPrm.atb[table_id].recNr = 1; + } + else + { + simShrdPrm.atb[table_id].dataOff = 0; + } + simShrdPrm.atb[table_id].dataLen = dataLen; + simShrdPrm.atb[table_id].ntryUsdFlg = TRUE; + simShrdPrm.atb[table_id].exchData = sim_data; + simShrdPrm.atb[table_id].rplyCB = rplyCB; + + simShrdPrm.aId = table_id; + if(psaSIM_AccessSIMData() < 0) + { + TRACE_EVENT("FATAL ERROR"); + } + } +} + +/* Implements Measure 152 */ +/* ++------------------------------------------------------------------------------ +| Function : aoc_update_sim_datafield ++------------------------------------------------------------------------------ +| Purpose : Updates the ACM field on the SIM card +| +| Parameters : operation - FIRST_UPDATE or SECOND_UPDATE +| accType - ACCESS TYPE, (ACT_WR_REC or ACT_WR_DAT) +| reqDataFld - Requested DataField Identifier +| (SIM_ACM or SIM_ACMMAX) +| rplyCB - Pointer to the Reply Call Back Function +| (aoc_update_acm_cb or aoc_update_acmmax_cb) +| +| Return : void ++------------------------------------------------------------------------------ +*/ + +void aoc_update_sim_datafield ( UBYTE operation, UBYTE accType, + USHORT reqDataFld, void (*rplyCB)(SHORT) ) +{ + SHORT table_id; + + TRACE_FUNCTION ("aoc_update_sim_datafield()"); + + /* + * request table id for SIM SAP access + */ + table_id = psaSIM_atbNewEntry(); + act_upd_op = operation; + + if(table_id NEQ NO_ENTRY) + { + simShrdPrm.atb[table_id].accType = accType; + simShrdPrm.atb[table_id].v_path_info = FALSE; + simShrdPrm.atb[table_id].reqDataFld = reqDataFld; + simShrdPrm.atb[table_id].dataOff = 0; + simShrdPrm.atb[table_id].dataLen = 3; + simShrdPrm.atb[table_id].ntryUsdFlg = TRUE; + simShrdPrm.atb[table_id].exchData = sim_data; + simShrdPrm.atb[table_id].rplyCB = rplyCB; + simShrdPrm.aId = table_id; + + sim_data[0] = (UBYTE)(act_value >> 16); + sim_data[1] = (UBYTE)(act_value >> 8); + sim_data[2] = (UBYTE)(act_value & 0xFF); + + if(psaSIM_AccessSIMData() < 0) + { + TRACE_EVENT("FATAL ERROR"); + } + } +} +