FreeCalypso > hg > fc-tourmaline
view src/g23m-gsm/alr3/alr_gprs.c @ 75:8697f358f505
backlight rework: Condat light driver accepts levels
The present change is another intermediate step on the path toward
new FreeCalypso backlight handling. At this intermediate step the
Condat light driver accepts 0-255 backlight levels driven by MFW,
and puts them out on PWL on Luna development boards. At the same
time on C139 it is now possible to turn on the display backlight
with or without the keypad bl - the lsb of the 0-255 backlight level
controls the keypad bl.
MFW presently drives only 0 and 255 backlight levels, thus there is
no visible behavioral change yet - but the plan for subsequent stages
of this backlight rework is to add a dimmed backlight state
(no keypad bl on C139) during active calls.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 24 Oct 2020 20:44:04 +0000 |
parents | 3a14ee9a9843 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS | Modul : ALR_GPRS +----------------------------------------------------------------------------- | 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 necessary funtionality | for switching to and from GPRS mode and also | the handling if determining if GPRS is supported | by the cell. +----------------------------------------------------------------------------- */ #ifndef ALR_GPRS_C #define ALR_GPRS_C #define ENTITY_PL /*==== INCLUDES ===================================================*/ #include <string.h> #include <stdlib.h> #include <ctype.h> #include "typedefs.h" #include "pconst.cdg" #include "mconst.cdg" #include "message.h" #include "ccdapi.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "prim.h" #include "cnf_alr.h" #include "mon_alr.h" #include "pei.h" #include "tok.h" #include "pcm.h" #include "alr_gprs.h" #define TRACING #include "alr.h" #define TRACING #define TRACING #if defined (TRACING) #define ALR_TRACE_GPRS(a) ALR_TRACE(a) #else #define ALR_TRACE_GPRS(a) #endif LOCAL BOOL gprs_read_si13 (UBYTE si13_position); LOCAL void gprs_alr_nc_enter_ptm (void); LOCAL void gprs_alr_tb_meas_ind (T_TB_MEAS_IND* report); LOCAL const T_FUNC tb_table[] = { MAK_FUNC_0( gprs_alr_tb_meas_ind, TB_MEAS_IND ) /* 0 */ }; #define ONLY_BCC 7 static UBYTE gprs_support = 0; /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_get_table | +--------------------------------------------------------------------+ PURPOSE : */ void gprs_alr_get_table(const T_FUNC **tab, USHORT *n) { *tab = tb_table; *n = TAB_SIZE (tb_table); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_mon_ctrl_req | +--------------------------------------------------------------------+ PURPOSE : */ /* * required for TESTMODE A/B */ EXTERN UBYTE grlc_test_mode_active(void); void gprs_alr_mon_ctrl_req(T_MPH_MON_CTRL_REQ* ctrl_req) { GET_INSTANCE_DATA; ALR_TRACE_GPRS("mon_ctrl_req"); switch(GET_STATE(STATE_MA)) { case MA_CELL_SELECTION: switch(ctrl_req->action) { case START_MON_EBCCH: if(ctrl_req->si_to_read EQ UPDATE_SI13) { PALLOC(req, MPHC_SCELL_EBCCH_REQ); req->schedule_array_size = 1; req->schedule_array[0].modulus = 8; req->schedule_array[0].relative_position = 0; ma_scell_ebcch_req(req); } break; default: break; } break; case MA_CELL_RESELECTION: switch(ctrl_req->action) { case START_MON_EBCCH: /*for SI13 reading control*/ if(ctrl_req->si_to_read EQ UPDATE_SI13) { PALLOC(req, MPHC_SCELL_EBCCH_REQ); req->schedule_array_size = 1; req->schedule_array[0].modulus = 8; req->schedule_array[0].relative_position = 0; ma_scell_ebcch_req(req); } break; default: break; } break; case MA_IDLE: switch(ctrl_req->action) { case START_MON_EBCCH: /*for SI13 reading control*/ if(ctrl_req->si_to_read EQ UPDATE_SI13) { PALLOC(req, MPHC_SCELL_EBCCH_REQ); req->schedule_array_size = 1; req->schedule_array[0].modulus = 8; req->schedule_array[0].relative_position = 0; ma_scell_ebcch_req(req); } break; case START_MON_NBCCH: { USHORT si_mask = 0; UBYTE tc = 0; /* refer to GSM Spec 05.02, clause 6.3.1.3 Mapping of BCCH data */ UBYTE i,k; switch(ctrl_req->si_to_read) { case UPDATE_SI13: gprs_read_si13(SI13_ON_NBCCH); break; case UPDATE_SI13_GSM: { PALLOC(scell_bcch_req, MPHC_SCELL_NBCCH_REQ); scell_bcch_req->schedule_array_size = 1; scell_bcch_req->schedule_array[0].modulus = 8; scell_bcch_req->schedule_array[0].relative_position = 4; ma_scell_nbcch_req(scell_bcch_req); } break; case UNSPECIFIED_SI: case COMPLETE_SI: ma_clean_sys_buffer (IND_ALL_IDLE_SI); ma_scell_full_nbcch(); break; case UPDATE_SI1: si_mask = IND_SI_1; tc = (1<<0); break; case UPDATE_SI2_SI2BIS_OR_SI2TER: si_mask = IND_SI_2 | IND_SI_2BIS | IND_SI_2TER; tc = (1<<1) | (1<<4) | (1<<5); #if defined (REL99) AND defined (TI_PS_FF_EMR) /*This update indication is for SI-2quater also, so we need to configure it after SI-2/2bis/2ter are received*/ alr_data->nc_data.si2_count = 1; /*check whether we have valid 2bis info */ if (alr_data->ma_data.sys_info_2bis[1] EQ D_SYS_INFO_2BIS) alr_data->nc_data.si2_count++; /*check whether we have valid 2ter info */ if (alr_data->ma_data.sys_info_2ter[1] EQ D_SYS_INFO_2TER) alr_data->nc_data.si2_count++; #endif break; case UPDATE_SI3_SI4_SI7_OR_SI8: si_mask = IND_SI_3 | IND_SI_4; tc = (1<<2) | (1<<3) | (1<<6) | (1<<7); break; case UPDATE_SI9: break; } if ( si_mask ) { PALLOC(scell_bcch_req, MPHC_SCELL_NBCCH_REQ); k = 0; scell_bcch_req->schedule_array_size = k; for ( i = 0; i < 8; i++ ) { if ( (tc & (1 << i)) != 0 ) { scell_bcch_req->schedule_array[k].modulus = 8; scell_bcch_req->schedule_array[k].relative_position = i; k++; scell_bcch_req->schedule_array_size = k; } } ma_clean_sys_buffer ( si_mask ); ma_scell_nbcch_req ( scell_bcch_req ); } } break; case STOP_MON_CCCH: /* PBCCH is present, stop all activities */ /*ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS);*/ pch_stop(); /*alr_data->gprs_data.pbcch = 1;*/ break; case START_MON_CCCH: if(alr_data->gprs_data.pbcch EQ TRUE) { pch_configure (NULL, PGM_NORMAL); pch_save_pgm(PGM_NORMAL); /* reset saved pgm to REORG_CS */ pch_start_ccch_req(); } break; case LEAVING_PIM_PBCCH: /* we are about to enter PAM or PTM */ if(alr_data->gprs_data.pbcch EQ TRUE) { TRACE_EVENT("leave pim"); alr_data->gprs_data.pim = FALSE; pch_stop(); cb_stop(); nc_suspend(); } else { TRACE_EVENT("huch pim"); } break; case LEAVING_PAM_PBCCH: /* we are about to enter PTM or PIM */ if(alr_data->gprs_data.pbcch EQ TRUE) { /* do nothing, nothing should be active */ alr_data->gprs_data.pim = FALSE; TRACE_EVENT("leave pam"); } else { TRACE_EVENT("huch pam"); } break; case LEAVING_PTM_PBCCH: /* we are about to enter PIM */ if(alr_data->gprs_data.pbcch EQ TRUE) { TRACE_EVENT("leave ptm"); alr_data->gprs_data.pim = FALSE; pch_stop(); nc_suspend(); alr_data->gprs_data.ptm = FALSE; } else { TRACE_EVENT("huch ptm"); } break; case ENTER_PTM_PBCCH: if(alr_data->gprs_data.pbcch EQ TRUE) { alr_data->gprs_data.ptm = TRUE; alr_data->gprs_data.pim = FALSE; nc_start_pbcch(); } break; case ENTER_PIM_PBCCH: if(alr_data->gprs_data.pbcch EQ TRUE) { alr_data->gprs_data.pim = TRUE; alr_data->gprs_data.ptm = FALSE; nc_start_pbcch(); cb_start(); } break; case ENTER_PTM_BCCH: /* * convert counters and set NC process to IDLE */ alr_data->gprs_data.pim = FALSE; gprs_alr_nc_enter_ptm(); break; default: break; } break; case MA_PTM: switch(ctrl_req->action) { case START_MON_EBCCH: /*for SI13 reading control*/ if(ctrl_req->si_to_read EQ UPDATE_SI13) { PALLOC(req, MPHC_SCELL_EBCCH_REQ); req->schedule_array_size = 1; req->schedule_array[0].modulus = 8; req->schedule_array[0].relative_position = 0; ma_scell_ebcch_req(req); } break; case START_MON_NBCCH: gprs_read_si13(SI13_ON_NBCCH); break; case START_MON_CCCH: pch_configure (NULL, PGM_NORMAL); if(alr_data->gprs_data.pbcch EQ TRUE) pch_save_pgm(PGM_NORMAL); /* reset saved pgm to REORG_CS */ else { pch_save_pgm(PGM_REORG_CS); /* reset saved pgm to REORG_CS */ alr_data->pch_data.last_start_ccch_req.bs_pa_mfrms = NOT_PRESENT_8BIT; } pch_start_ccch_req(); break; /* * This case is necessary to stop ccch monitoring in MA_PTM * This is required for Testmode A/B */ case STOP_MON_CCCH: if(grlc_test_mode_active()) { ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); TRACE_EVENT("STOP_MON_CCCH: TESTMODE A/B is running !!!!"); } break; case ENTER_PTM_BCCH: /* * convert counters and set NC process to IDLE */ gprs_alr_nc_enter_ptm(); break; default: break; } break; case MA_CON_EST: switch(ctrl_req->action) { case ENTER_PTM_BCCH: /* * convert counters and set NC process to IDLE */ gprs_alr_nc_enter_ptm(); break; default: break; } break; default: break; } PFREE (ctrl_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_check_packet_paging +--------------------------------------------------------------------+ PURPOSE : */ #define P1_REST_OCTET_LEN 5 #define GSM408_SPARE_PADDING 0x2b /*lint -e749 (Info -- local enumeration constant not referenced) */ enum t_p1_ie { NLN = 0, PRIO1, PRIO2, GRCI, PPI1, PPI2 }; /*lint +e749 (Info -- local enumeration constant not referenced) */ #define NEXT_BIT(bit_pos,byte_pos) if( (bit_pos >>=1) == 0 ) { bit_pos=0x80; byte_pos++;} LOCAL enum t_p1_ie p1_ie; LOCAL UBYTE element_size[PPI2+1] = { 3, 3, 3, 0, 1, 1 }; BOOL gprs_alr_check_packet_paging(UBYTE* frame, UBYTE which) { UBYTE byte_pos = 0; UBYTE bit = 0x80; UBYTE *frame_ptr = frame; ALR_TRACE_GPRS("check packet paging"); /* point after Mobile Identity 1 */ frame = frame + 4 + frame[4] + 1; /* check if Mobile Identity 2 is present */ if (frame[0] EQ 0x17) /* skip Mobile Identity 2 */ /* rest octets = start of mob 2 + len of mob 2 + TL */ frame= frame + frame[1] + 2; if( frame - frame_ptr >= MAX_L2_FRAME_SIZE ) return FALSE; /* decode packet paging */ for(p1_ie = NLN; p1_ie < PPI2+1;p1_ie++) { if((frame[byte_pos] & bit) EQ (GSM408_SPARE_PADDING & bit)) { /* L: * - element is not used * - check next bit for next element */ if(p1_ie NEQ (which+GRCI)) { NEXT_BIT(bit,byte_pos);/*lint!e720 (Info -- Boolean test of assignment) */ } else { ALR_TRACE_GPRS("no packet"); return FALSE; } } else { /* H: * - element is used * - skip the bits used by this element * except PPIx */ ALR_TRACE_GPRS("element used"); if(p1_ie NEQ (which+GRCI)) { UBYTE i; for(i=element_size[p1_ie]+1; i > 0; i--) { NEXT_BIT(bit,byte_pos);/*lint!e720 (Info -- Boolean test of assignment) */ } } else { ALR_TRACE_GPRS("packet paging"); return TRUE; } } } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_check_packet_paging_2 +--------------------------------------------------------------------+ PURPOSE : */ /*lint -e749 (Info -- local enumeration constant not referenced) */ enum t_p2_ie { p2CN3 = 0, p2NLN, p2PRIO1, p2PRIO2, p2PRIO3, p2PPI3 }; /*lint -e749 (Info -- local enumeration constant not referenced) */ LOCAL enum t_p2_ie p2_ie; LOCAL UBYTE p2_element_size[p2PPI3+1] = { 2, 3, 3, 3, 3, 1 }; BOOL gprs_alr_check_packet_paging_2(UBYTE* frame, UBYTE which) { UBYTE byte_pos = 0; UBYTE bit = 0x80; if(which NEQ 3) return FALSE; ALR_TRACE_GPRS("check packet paging 2"); frame += frame[13]+14; /* decode packet paging */ for(p2_ie = p2CN3; p2_ie < p2PPI3+1;p2_ie++) { if((frame[byte_pos] & bit) EQ (GSM408_SPARE_PADDING & bit)) { /* L: * - element is not used * - check next bit for next element */ if(p2_ie NEQ p2PPI3) { NEXT_BIT(bit,byte_pos);/*lint!e720 (Info -- Boolean test of assignment) */ } else { ALR_TRACE_GPRS("no packet"); return FALSE; } } else { /* H: * - element is used * - skip the bits used by this element * except PPIx */ ALR_TRACE_GPRS("element used"); if(p2_ie NEQ p2PPI3) { UBYTE i; for(i=p2_element_size[p2_ie]+1; i > 0; i--) { NEXT_BIT(bit,byte_pos);/*lint!e720 (Info -- Boolean test of assignment) */ } } else { ALR_TRACE_GPRS("packet paging"); return TRUE; } } } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_store_ptmsi | +--------------------------------------------------------------------+ PURPOSE : */ void gprs_alr_store_ptmsi(UBYTE indic, ULONG tmsi) { GET_INSTANCE_DATA; alr_data->gprs_data.v_ptmsi = indic; alr_data->gprs_data.ptmsi = tmsi; TRACE_EVENT_P2("v: %d ptmsi: %x", indic, tmsi); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_store_ptmsi | +--------------------------------------------------------------------+ PURPOSE : Store the candidate PTMSI */ void gprs_alr_store_ptmsi2(UBYTE indic2, ULONG tmsi2) { GET_INSTANCE_DATA; alr_data->gprs_data.v_ptmsi2 = indic2; alr_data->gprs_data.ptmsi2 = tmsi2; TRACE_EVENT_P2("v: %d ptmsi: %x", indic2, tmsi2); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_check_ptmsi | +--------------------------------------------------------------------+ PURPOSE : */ BOOL gprs_alr_check_ptmsi(ULONG ptmsi_pag) { GET_INSTANCE_DATA; if((alr_data->gprs_data.v_ptmsi AND alr_data->gprs_data.ptmsi EQ ptmsi_pag) OR (alr_data->gprs_data.v_ptmsi2 AND alr_data->gprs_data.ptmsi2 EQ ptmsi_pag)) { ALR_TRACE_GPRS("ptmsi match"); ma_pch_paging_ind (ID_PTMSI, CN_PACKET); return TRUE; } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_check_downlink_assign +--------------------------------------------------------------------+ PURPOSE : */ void gprs_alr_check_downlink_assign(T_MPHC_DATA_IND* data_ind) { /* check dl bit */ if(data_ind->l2_frame.content[3] & 0x20) { ma_send_unitdata (data_ind); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_read_si13 | +--------------------------------------------------------------------+ PURPOSE : */ BOOL gprs_check_read_si13_only(void) { if(gprs_support) return FALSE; else return TRUE; } LOCAL BOOL gprs_read_si13(UBYTE si13_position) { ALR_TRACE_GPRS("read si13"); if(gprs_support AND si13_position EQ SI13_ON_NBCCH) { PALLOC(scell_bcch_req, MPHC_SCELL_NBCCH_REQ); /* * we want to read SI13 on TC=4 which has to be send at least * on every 4th consecutive occurence of TC=4 */ scell_bcch_req->schedule_array_size = 1; scell_bcch_req->schedule_array[0].modulus = 8; scell_bcch_req->schedule_array[0].relative_position = 4; ma_scell_nbcch_req(scell_bcch_req); return FALSE; } else return TRUE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_stop | +--------------------------------------------------------------------+ PURPOSE : */ void gprs_alr_init(void) { GET_INSTANCE_DATA; ALR_TRACE_GPRS("gprs_alr_init"); alr_data->gprs_data.ign_pgm = FALSE; alr_data->gprs_data.pbcch = FALSE; alr_data->gprs_data.ptm = FALSE; alr_data->gprs_data.check_bsic = FALSE; alr_data->gprs_data.sync_only = FALSE; alr_data->gprs_data.pcco_active= FALSE; alr_data->nc_sync_with_grr = FALSE; gprs_support = FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_tb_meas_ind | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void gprs_alr_tb_meas_ind (T_TB_MEAS_IND *report) { GET_INSTANCE_DATA; ALR_TRACE_GPRS("tb_meas_ind"); switch(GET_STATE(STATE_MA)) { case MA_PTM: /*Measurement Report in Packet Transfer Mode*/ { USHORT temp; USHORT index; UBYTE diff; UBYTE i,j,lim; T_NC* pcell; if(report->tb_meas_result[0].arfcn EQ NOT_PRESENT_16BIT) { lim = alr_data->nc_data.c_ba_arfcn; } else { lim = 0; while( report ->tb_meas_result[lim].arfcn NEQ NOT_PRESENT_16BIT AND lim < TB_BA_LIST_SIZE ) { lim++; } } /* * reduce the time for next sync * Decrement the 10sec timer counter variable by 2 */ alr_data->nc_data.c_ncsync_tim = alr_data->nc_data.c_ncsync_tim-2; if ((signed char)( alr_data->nc_data.c_ncsync_tim) < 0) alr_data->nc_data.c_ncsync_tim = 0; if( alr_data->nc_data.c_ncsync_tim==0 ) { /* 10 sec have elapsed. Perform all requisite tasks */ nc_ncsync_tim_expiry(); } for (pcell=&alr_data->nc_data.cell[0],i = 0; i < lim; i++,pcell++) { if(lim EQ alr_data->nc_data.c_ba_arfcn) { index = i; } else { /* For all cells look if it is in BA(BCCH) */ switch(index = nc_get_index(ARFCN_TO_G23(report->tb_meas_result[i].arfcn))) { case LAST_BSIC_REQ: case NOT_PRESENT_16BIT: continue; default: break; } } /* * the ncell is in the list * so store the rxlev values */ if(report->tb_meas_result[0].arfcn NEQ NOT_PRESENT_16BIT) { for(j=0;j<lim;j++) { if(pcell->ba_arfcn EQ ARFCN_TO_G23(report->tb_meas_result[j].arfcn)) { if (alr_data->nc_data.cell[index].c_rxlev EQ NOT_PRESENT_8BIT) { /* * if it is a new cell, build an average from the first value * to speed up fb sb read */ if ((signed short) (report->tb_meas_result[j].rxlev) < 0) { report->tb_meas_result[j].rxlev = 0; } alr_data->nc_data.cell[index].rxlev[0] = report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas; alr_data->nc_data.cell[index].rxlev[1] = report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas; alr_data->nc_data.cell[index].rxlev[2] = report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas; alr_data->nc_data.cell[index].rxlev[3] = report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas; alr_data->nc_data.cell[index].rxlev[4] = report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas; alr_data->nc_data.cell[index].c_rxlev = 0; } else { if ((signed short) (report->tb_meas_result[j].rxlev) < 0) report->tb_meas_result[j].rxlev = 0; alr_data->nc_data.cell[index].rxlev[alr_data->nc_data.cell[index].c_rxlev++] = report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas; if (alr_data->nc_data.cell[index].c_rxlev >= 5) alr_data->nc_data.cell[index].c_rxlev = 0; } #ifdef GPRS /* * store the results seperately for averaging when NC=1 or NC=2 */ if(alr_data->nwctrl_meas_active) { pcell->nc_rxlev += (report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas); pcell->c_nc_rxlev++; TRACE_EVENT_P3("%d %d rx: %d ",i, alr_data->nc_data.cell[i].ba_arfcn, report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas); } #endif break; } } } else { if (alr_data->nc_data.cell[index].c_rxlev EQ NOT_PRESENT_8BIT) { /* * if it is a new cell, build an average from the first value * to speed up fb sb read */ if ((signed short) (report->tb_meas_result[i].rxlev) < 0) { report->tb_meas_result[i].rxlev = 0; } alr_data->nc_data.cell[index].rxlev[0] = report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas; alr_data->nc_data.cell[index].rxlev[1] = report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas; alr_data->nc_data.cell[index].rxlev[2] = report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas; alr_data->nc_data.cell[index].rxlev[3] = report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas; alr_data->nc_data.cell[index].rxlev[4] = report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas; alr_data->nc_data.cell[index].c_rxlev = 0; } else { if ((signed short) (report->tb_meas_result[i].rxlev) < 0) report->tb_meas_result[i].rxlev = 0; alr_data->nc_data.cell[index].rxlev[alr_data->nc_data.cell[index].c_rxlev++] = report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas; if (alr_data->nc_data.cell[index].c_rxlev >= 5) alr_data->nc_data.cell[index].c_rxlev = 0; } /* * store the results seperately for averaging when NC=1 or NC=2 */ #ifdef GPRS if(alr_data->nwctrl_meas_active) { if(report->tb_meas_result[0].arfcn NEQ NOT_PRESENT_16BIT) { for(j=0;j<lim;j++) { if(pcell->ba_arfcn EQ ARFCN_TO_G23(report->tb_meas_result[j].arfcn)) { pcell->nc_rxlev += (report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas); pcell->c_nc_rxlev++; TRACE_EVENT_P3("%d %d rx: %d ",i, alr_data->nc_data.cell[i].ba_arfcn, report->tb_meas_result[j].rxlev / report->tb_meas_result[j].num_meas); break; } } } else { pcell->nc_rxlev += (report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas); pcell->c_nc_rxlev++; TRACE_EVENT_P3("%d %d rx: %d ",i, alr_data->nc_data.cell[i].ba_arfcn, report->tb_meas_result[i].rxlev / report->tb_meas_result[i].num_meas); } } #endif } temp = (USHORT)(alr_data->nc_data.cell[index].rxlev[0] + alr_data->nc_data.cell[index].rxlev[1] + alr_data->nc_data.cell[index].rxlev[2] + alr_data->nc_data.cell[index].rxlev[3] + alr_data->nc_data.cell[index].rxlev[4]); alr_data->nc_data.cell[index].rxlev_average = (UBYTE)(temp / 5); switch (alr_data->nc_data.cell[index].status) { case INACTIVE: nc_set_status (index, IDLE); break; case EXCLUDED: diff = (UBYTE)(alr_data->nc_data.cell[index].rxlev_average - alr_data->nc_data.cell[index].last_rxlev); if (diff < 128 AND diff >= 6) { /* result is positive and more than 6 dBm */ nc_set_status (index, IDLE); } break; default: break; } } /* for all */ PFREE(report); nc_check_activity(); } break; default: PFREE(report); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_nc_enter_ptm | +--------------------------------------------------------------------+ PURPOSE : After the Packet Access Phase we enter Packet Transfer Mode and have to do Measurements and Cell Reselection like in Idle Mode. */ LOCAL void gprs_alr_nc_enter_ptm (void) { GET_INSTANCE_DATA; nc_resume(); /* set NC_STATE to IDLE */ alr_data->nc_data.c_reports = (alr_data->nc_data.c_reports*10)/alr_data->nc_data.max_reports; alr_data->nc_data.max_reports = 10; alr_data->nc_data.cell[LAST_BSIC_REQ].status = INACTIVE; TRACE_EVENT_P2("glob reps: %d max_report: %d", alr_data->nc_data.c_reports, alr_data->nc_data.max_reports); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_check_page_mode | +--------------------------------------------------------------------+ PURPOSE : Do not change the page mode configuration in L1 if ing_pgm is set. ie. we have to stay in REORG. */ void gprs_check_page_mode(T_MPHC_DATA_IND* data_ind) { GET_INSTANCE_DATA; if(alr_data->gprs_data.ign_pgm EQ TRUE) { pch_check_page_mode_cr(data_ind); } else { pch_check_page_mode(data_ind); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_GPRS | | STATE : code ROUTINE : gprs_alr_is_supported | +--------------------------------------------------------------------+ PURPOSE : This function returns whether GPRS is supported in the cell. */ GLOBAL BOOL gprs_alr_is_supported( void ) { return( gprs_support EQ TRUE ); } void set_gprs_support( UBYTE support ) { gprs_support = support; } #endif /* ALR_GPRS_C */