FreeCalypso > hg > fc-tourmaline
view src/g23m-gsm/alr3/alr.h @ 221:5bf097aeaad7
LLS: when turning off all LEDs on boot, skip LED-C
Having LLS turn off LED-A and LED-B on boot is normally unnecessary
(they should already be off in Iota), but it is harmless, hence this
logic is kept for robustness. However, having LLS read-modify-write
the BCICTL2 register (to turn off LED-C) creates a potential race
condition with FCHG writes to this register, especially in the case
when baseband switch-on is caused by VCHG and charging is expected
to start right away. Furthermore, control of the charging LED itself
(on those hw targets that have it) is the responsibility of the FCHG
SWE, hence LLS should leave it alone.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 26 Apr 2021 21:55:13 +0000 |
parents | 3a14ee9a9843 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : GSM-PS | Modul : ALR +----------------------------------------------------------------------------- | 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 : Definitions for the Protocol Stack Entity ALR +----------------------------------------------------------------------------- */ #ifndef ALR_H #define ALR_H #ifdef TI_PS_HCOMM_CHANGE #include "cl_hComm_handle.h" #endif #ifdef TI_GSP_STR2IND_S2I_STRING typedef unsigned int T_S2I_STRING; #else typedef char * T_S2I_STRING; #define S2I_STRING(x) (x) #endif #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 */ #define STOP_SYNC_TASK /* stop always any sync tasks before start a new one */ #if 0 #define DL_TRACE_ENABLED /* use DL offline trace */ #define TRACE_STATE_TRANSITION /* trace some state transitions */ #endif /* 0 */ #if !defined(_SIMULATION_) && defined(WIN32) #define _SIMULATION_ #endif /* !_SIMULATION_ && WIN32 */ #if defined(_SIMULATION_) #undef DL_TRACE_ENABLED /* no _SYST trace during simulation */ #endif /* WIN32 */ #define SYST_TRACE(a) vsi_o_ttrace(0, 0xFFFF,a) #define SYST 0, 0xffff #define SYST_TRACE_P(a) vsi_o_ttrace a /* * use it as showed next line... * SYST_TRACE_P((SYST, "e.g. two parameter: %d %d", p1, p2)); */ #if !defined(ELEMENTS) #define ELEMENTS(array) (sizeof(array)/sizeof(array[0])) #endif /* !ELEMENTS */ /* Bitoffset for Message Buffer allocation */ #define ENCODE_OFFSET 24 /* * Bitmasks */ #define BIT_0 0x01 #define BIT_1 0x02 #define BIT_2 0x04 #define BIT_3 0x08 #define BIT_4 0x10 #define BIT_5 0x20 #define BIT_6 0x40 #define BIT_7 0x80 #define BIT_012 0x07 #include "p_ph.h" #include "p_mph.h" /* First 40 carriers per band will be added at top of the MPH_POWER_CNF * and the next 20 Carriers (40 to 60) will be added at the bottom. * Remaining carriers needs to be ignored. */ #define ADD_AT_THE_TOP 0x01 /* first 40 carrier */ #define ADD_AT_THE_BOTTOM 0x02 /* already 40 carriers were added */ #define REACHED_THE_MAXIMUM 0x04 /* already 60 carriers were added */ #define DO_NOT_ADD 0x08 /* wrong carrier */ /* Private modes */ #define MODE_CHAN_ASS_FAIL 16 #define MODE_HANDOVER_FAIL 17 /* Results of configuration dedicated mode */ #define DEDICATED_SUCCESS 0 #define ALR_ALLOCATE_NEW_BA(v) ((((v)+1) % (ALR_BA_HIGH-ALR_BA_LOW+1)) + ALR_BA_LOW) #define IS_EXT_MEAS_RUNNING (alr_data->cs_data.mph_ext_meas_req NEQ NULL) /* * Dynamic Configurations */ #define ID_STD 1 #define ID_CONFIG 2 #define ID_MON_COUNTER_IDLE 3 #define ID_MON_COUNTER_DEDI 4 #define ID_TRC_DATA_IND 5 #define ID_RACH_FAILURE 6 #define ID_EOTD 7 #ifdef TI_PS_FF_QUAD_BAND_SUPPORT #define ID_MB_TESTING 8 #endif #define ID_TRC_DATA_IND_ALL 0xff #define ID_TRC_DATA_IND_VALID 0x7f #define ID_TRC_DATA_IND_INVALID 0x80 #define ID_TRC_DATA_IND_BCCH 0x01 /* normal and extended BCCH */ #define ID_TRC_DATA_IND_PCH 0x02 /* normal and extended PCH */ #define ID_TRC_DATA_IND_CCCH 0x04 #define ID_TRC_DATA_IND_CBCH 0x08 #define ID_TRC_DATA_IND_SCCH 0x10 /* SACCH and SDCCH */ #define ID_TRC_DATA_IND_FCCH 0x20 /* full and half rate FACCH */ #define ID_TRC_DATA_IND_STATE 0x40 /* MA status */ #define ID_TRC_DATA_IND_INIT 0x3f /* all valid frames without stati */ #define ID_TRC_DATA_IND_INIT2 0x1f /* ... without FACCH */ EXTERN UBYTE v_mon_trc_data_ind; EXTERN UBYTE v_cfg_rach_failure; /* In addition to normal page modes defined in SAP */ #define PGM_REORG_CS 3 #define NO_PGM_CHANGE 4 #define SAVED_PGM 0xff /*If page mode is set to REORG and a HPLMN search is performed, L1 cannot synchronize to NC's. Therefore NORMAL page mode is started. This state defines that the mobile should be in REORG, but actual is in NORMAL.*/ #define PGM_REORG_NC_SYNC 5 EXTERN UBYTE page_mode_before_hplmn_search;/*to distinguish PGM_REORG and PGM_REORG_CS */ #ifdef TI_PS_FF_QUAD_BAND_SUPPORT EXTERN UBYTE alr_multiband_std; #endif /* Page Mode Changes */ #define NONE 0 #define SWAP_TO_EXTEND 1 #define SWAP_TO_REORG 2 #define SWAP_TO_NORMAL 3 #define MAX_GSM_CHANNEL_ATTEMPTS 40 /* GSM says 30, but this is done in the field */ #define MAX_DPCS_CHANNEL_ATTEMPTS 40 /* Band Limitations for multiband reporting */ #define NO_BAND_LIMITATION 0 #define EXCLUDE_SC_BAND 1 #define ONLY_SC_BAND 2 #define IMSI_LEN 9 #define SI_CONTENTS_MSG_T 2 #define SI_CONTENTS_CS2 9 #define ONLY_ACS 0x80 #define STOP_PCH_READING 1 #define DONT_STOP_PCH_READING 0 #define STOP_MEASUREMENTS 2 /* * Neighbour cell status */ /* #define DEFINE_OLD_NC_STATUS */ #if !defined(DEFINE_OLD_NC_STATUS) /* neighbour cell base stati */ #define NCS_INACTIVE 0x00 #define NCS_IDLE 0x01 #define NCS_FB_SB 0x02 #define NCS_SB 0x03 /* neighbour cell bit masks */ #define NCB_BCCH 0x04 #define NCB_READ 0x08 #define NCB_PENDING 0x10 #define NCB_SYNC 0x20 #define NCB_RR_NOT_INFORMED 0x40 #define NCB_FAILED 0x80 #if defined (TI_PS_FF_RTD) AND defined (REL99) #define NUM_OF_TDMA_FRAMES 0x40 #define RTD_12BIT_EXTRACT 0x0FFF #define MAX_NUM_OF_QBITS 0x1388 #endif /* #if defined (TI_PS_FF_RTD) AND defined (REL99) */ /* neighbour cell stati */ /* 1of<n> n = 6,12 means that the cell belongs to the n strongest */ /* RLA_C means Received Level Averages according GSM 05.08 seciton 6.1 */ /* (1) no PERIODIC measurement received; cell is excluded from all activities except rxlev measurement */ #define INACTIVE (NCS_INACTIVE) /* (2) PERIODIC measurement received; not synchronized; BCCH data unknown */ #define IDLE (NCS_IDLE) /* (11a) not a 1of12 cell any more; synchronized */ #define IDLE_SYNC (NCS_IDLE|NCB_SYNC) /* (3) strong cell(1of12); not synchronized yet; need first FB and SB synchronization */ #define READ_FB_SB (NCS_FB_SB|NCB_READ) /* (4) first FB and SB synchronization ongoing */ #define READ_FB_SB_PENDING (NCS_FB_SB|NCB_READ|NCB_PENDING) /* (9) synchronized; need re-synchronization of SB (10/30 sec); no need to read BCCH */ #define READ_SB (NCS_SB|NCB_READ) /* (10) re-synchronization of SB ongoing (10/30 sec); no reading of BCCH */ #define READ_SB_PENDING (NCS_SB|NCB_READ|NCB_PENDING) /* (9a) synchronized; need re-synchronization of SB and re-reading of BCCH (5 min) */ #define READ_SB_BCCH (NCS_SB|NCB_READ|NCB_BCCH) /* (10a) re-synchronization of SB ongoing (5 min) */ #define READ_SB_BCCH_PENDING (NCS_SB|NCB_READ|NCB_BCCH|NCB_PENDING) /* (11a) re-synchronization of SB finished; need re-reading of BCCH (5 min) */ #define READ_BCCH (NCS_SB|NCB_READ|NCB_BCCH|NCB_SYNC) /* (12a) re-reading of BCCH ongoing (5 min) */ #define READ_BCCH_PENDING (NCS_SB|NCB_READ|NCB_BCCH|NCB_SYNC|NCB_PENDING) /* (5) 1of6 cell; synchronized; BCCH data unknown; need to read BCCH, but to notify RR after a measurement ind only */ #define READ_BCCH_RR_NOT_INFORMED (NCS_SB|NCB_READ|NCB_BCCH|NCB_SYNC|NCB_RR_NOT_INFORMED) /* (6) 1of6 cell; reading of BCCH ongoing */ #define READ_BCCH_PENDING_RR_NOT_INFORMED (NCS_SB|NCB_READ|NCB_BCCH|NCB_SYNC|NCB_RR_NOT_INFORMED|NCB_PENDING) /* (8) 1of12 cell; synchronized; in case 1of6: BCCH data known; RR is notified; subsequent RLA_Cs being computed */ #define FB_SB_SYNC (NCS_FB_SB|NCB_SYNC) /* (7) 1of6 cell; synchronized; BCCH data known; RR not yet notified; first RLA_C being computed */ #define FB_SB_SYNC_RR_NOT_INFORMED (NCS_FB_SB|NCB_SYNC|NCB_RR_NOT_INFORMED) /* (13) 1of<n> cell state questionable; FB/SB sync or BCCH reading failed 1 thru 8 times */ #define FB_SB_FAILED (NCS_FB_SB|NCB_FAILED) /* (14) 1of<n> cell; synchronization of FB/SB or reading of BCCH failed > 8 times; NCC check failed; */ #define EXCLUDED (NCB_FAILED) #else /* !DEFINE_OLD_NC_STATUS */ #define INACTIVE 0 #define IDLE 1 #define READ_BCCH 2 #define FB_SB_SYNC 3 #define FB_SB_FAILED 4 #define READ_FB_SB 5 #define READ_SB 6 #define IDLE_SYNC 7 #define EXCLUDED 8 #define FB_SB_SYNC_RR_NOT_INFORMED 9 #define READ_SB_BCCH 10 #define READ_BCCH_PENDING 11 #define READ_FB_SB_PENDING 12 #define READ_SB_PENDING 13 #define READ_SB_BCCH_PENDING 14 #define READ_BCCH_RR_NOT_INFORMED 15 #define READ_BCCH_PENDING_RR_NOT_INFORMED 16 #endif /* !DEFINE_OLD_NC_STATUS */ /* * states of a neighbour cell with respect to the BA list * in the last MPH_NEIGHBOURCELL_REQ. */ #define IN_BA 0 /* NCell was in last MPH_NEIGHBOURCELL_REQ */ #define NOT_IN_BA_SHORT 1 /* NCell wasn't in last MPH_NEIGHBOURCELL_REQ but at last confirmation it had state IN_BA (not in BA for a short time) */ #define NOT_IN_BA_LONG 2 /* NCell wasn't in last MPH_NEIGHBOURCELL_REQ and at last confirmation it hadn't state IN_BA (not in BA for a long time) */ /* * Definitions for AMR */ #define CM_AMR 0x41 /* * The times are given in number of multiframes. Each multiframe is * equal to circa 217 milliseconds. */ #define THIRTY_SECONDS_SCELL_BCCH 128 /* * States Main Control */ #define MA_NULL 0 #define MA_CELL_SELECTION 1 #define MA_IDLE 2 #define MA_CON_EST 3 #define MA_DEDICATED 4 #define MA_CELL_RESELECTION 5 #ifdef GPRS #define MA_PTM 6 #endif /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_MA_NAME[]; #ifndef GPRS /* N950 Memory Optimization - Implements Measure #39*/ #else /* !GPRS */ /* N950 Memory Optimization - Implements Measure #39*/ #endif /* !GPRS */ /* * States Idle Neighbour Cell */ #define NC_NULL 0 #define NC_IDLE 1 #define NC_DEDICATED 2 #define NC_CON_EST 3 #ifdef GPRS #define NC_PIM_PBCCH 4 #define NC_PTM_PBCCH 5 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_NC_NAME[]; #else /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_NC_NAME[]; #endif /* * States Dedicated Control */ #define DEDI_INACTIVE 0 #define DEDI_IMM_ASS 1 #define DEDI_IMM_ASS_RECONN 2 #define DEDI_ACTIVE 3 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_DEDI_NAME[]; typedef enum { HO_TYPE_ASYNC=1, HO_TYPE_PRE_SYNC, HO_TYPE_SYNC }T_HO_TYPE; /* * States Cell Selection */ #define CS_NULL 0 #define CS_INIT_L1 1 /* start with configuration of the radio band */ #define CS_INIT_ACTIVE 2 /* configuration of the radio band is active */ #define CS_INIT_DONE 3 /* configuration has done */ #define CS_START_MEASURE 4 /* start measurement with preceding configuration */ #define CS_ACTIVE_MEASURE 5 /* power measurement step is active */ #define CS_MEASURED 6 /* power measurement step has finished */ #define CS_INIT_SYNC 7 /* configuration of the radio band before SYNC */ #define CS_STOP_SYNC 8 /* stop any sync task */ #define CS_STOP_SYNC_DONE 9 /* no sync task active */ #define CS_ACTIVE_SYNC 10 #define CS_ACTIVE_BCCH 11 #define CS_NW_SYNC_TIMEOUT 12 /* ALR has timed out whilst attempting to sync to a nw */ /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_CS_NAME[]; /* * States PCH Control */ #define PCH_NULL 0 #define PCH_ACTIVE 1 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_PCH_NAME[]; /* * States RACH Control */ #define RA_NULL 0 #define RA_ACTIVE 1 #define RA_LISTEN_TO_CCCH 2 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_RA_NAME[]; /* * States CBCH Control */ #define CBCH_NULL 0 #define CBCH_IDLE 1 #define CBCH_NO_DRX 2 #define CBCH_DRX 3 #define CBCH_HZ_OFF 0 #define CBCH_HZ_IDLE 5 #define CBCH_HZ_PENDING 6 #define CBCH_HZ_RECEIVED 7 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_NORMAL_CBCH_NAME[]; EXTERN T_S2I_STRING const STATE_EXT_CBCH_NAME[]; /* * States Idle Mode Serving Cell */ #define SC_NULL 0 #define SC_IDLE_INITIAL 1 #define SC_IDLE 2 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_SC_NAME[]; /* * States Idle Mode Serving Cell */ typedef enum { NC_ACQUIRE=0, NC_CONFIRM } T_NCELL_PROC; /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_NC_PROC_NAME[]; /* * ALR manages 9 (MAX_STATE) states: CBCH,CS,MA,NC,PCH,RA,SC,DEDI,NC_PROC */ #define STATE_CS 0 #define STATE_MA 1 #define STATE_NC 2 #define STATE_PCH 3 #define STATE_RA 4 #define STATE_SC 5 #define STATE_DEDI 6 #define STATE_NC_PROC 7 #define STATE_NORMAL_CBCH 8 #define STATE_EXT_CBCH 9 #define MAX_STATE 10 /* * A definition is provided in ALR_PEI.C */ #ifdef ALR_PEI_C /* N950 Memory Optimization - Implements Measure #39*/ GLOBAL T_S2I_STRING const STATE_EXT_CBCH_NAME[] = { S2I_STRING("CBCH_NULL") , S2I_STRING("CBCH_IDLE") , S2I_STRING("CBCH_NO_DRX") , S2I_STRING("CBCH_DRX") }; GLOBAL T_S2I_STRING const STATE_NORMAL_CBCH_NAME[] = { S2I_STRING("CBCH_NULL") , S2I_STRING("CBCH_IDLE") , S2I_STRING("CBCH_NO_DRX") , S2I_STRING("CBCH_DRX") }; GLOBAL T_S2I_STRING const STATE_CS_NAME [] = { S2I_STRING("CS_NULL") , S2I_STRING("CS_INIT_L1") , S2I_STRING("CS_INIT_ACTIVE") , S2I_STRING("CS_INIT_DONE") , S2I_STRING("CS_START_MEASURE") , S2I_STRING("CS_ACTIVE_MEASURE") , S2I_STRING("CS_MEASURED") , S2I_STRING("CS_INIT_SYNC") , S2I_STRING("CS_STOP_SYNC") , S2I_STRING("CS_STOP_SYNC_DONE") , S2I_STRING("CS_ACTIVE_SYNC") , S2I_STRING("CS_ACTIVE_BCCH") , S2I_STRING("CS_NW_SYNC_TIMEOUT") }; #ifdef GPRS GLOBAL T_S2I_STRING const STATE_MA_NAME [] = { S2I_STRING("MA_NULL") , S2I_STRING("MA_CELL_SELECTION") , S2I_STRING("MA_IDLE") , S2I_STRING("MA_CON_EST") , S2I_STRING("MA_DEDICATED") , S2I_STRING("MA_CELL_RESELECTION"), S2I_STRING("MA_PTM") }; #else GLOBAL T_S2I_STRING const STATE_MA_NAME [] = { S2I_STRING("MA_NULL") , S2I_STRING("MA_CELL_SELECTION") , S2I_STRING("MA_IDLE") , S2I_STRING("MA_CON_EST") , S2I_STRING("MA_DEDICATED") , S2I_STRING("MA_CELL_RESELECTION") }; #endif #ifdef GPRS GLOBAL T_S2I_STRING const STATE_NC_NAME [] = { S2I_STRING("NC_NULL") , S2I_STRING("NC_IDLE") , S2I_STRING("NC_DEDICATED") , S2I_STRING("NC_CON_EST") , S2I_STRING("NC_PIM_PBCCH") , S2I_STRING("NC_PTM_PBCCH") }; #else GLOBAL T_S2I_STRING const STATE_NC_NAME [] = { S2I_STRING("NC_NULL") , S2I_STRING("NC_IDLE") , S2I_STRING("NC_DEDICATED") , S2I_STRING("NC_CON_EST") }; #endif GLOBAL T_S2I_STRING const STATE_PCH_NAME [] = { S2I_STRING("PCH_NULL") , S2I_STRING("PCH_ACTIVE") }; GLOBAL T_S2I_STRING const STATE_RA_NAME [] = { S2I_STRING("RA_NULL") , S2I_STRING("RA_ACTIVE") , S2I_STRING("RA_LISTEN_TO_CCCH") }; GLOBAL T_S2I_STRING const STATE_SC_NAME [] = { S2I_STRING("SC_NULL") , S2I_STRING("SC_IDLE_INITIAL") , S2I_STRING("SC_IDLE") }; GLOBAL T_S2I_STRING const STATE_DEDI_NAME[] = { S2I_STRING("DEDI_INACTIVE") , S2I_STRING("DEDI_IMM_ASS") , S2I_STRING("DEDI_IMM_ASS_RECONN"), S2I_STRING("DEDI_ACTIVE") }; GLOBAL T_S2I_STRING const STATE_NC_PROC_NAME[]= { S2I_STRING("NC_ACQUIRE") , S2I_STRING("NC_CONFIRM") }; #endif /* ALR_PIC_C */ /*==== MACROS =====================================================*/ /* This macros convert channel numbers from and to the layer 1 specific representation for the target version. For the single bands GSM900, DCS1800 and PCS1900 the macro is removed at compile time. For dualband (STD==5,STD==6) a DCS1800 channel number is converted using the convert function located at the end of alr_main.c In the windows variant no change occurs. */ EXTERN USHORT convert_arfcn_to_l1 (USHORT arfcn, UBYTE local_std); EXTERN USHORT convert_arfcn_to_g23 (USHORT arfcn, UBYTE local_std); /* range check with the fastest way for ARM */ /* corresponds with ((min <= x) AND (x <= max)) */ #define INRANGE(min, x, max) ((unsigned)(x-min) <= (max-min)) /* * target version */ #define ARFCN_TO_L1(a) convert_arfcn_to_l1((USHORT)(a),std) #define ARFCN_TO_G23(a) convert_arfcn_to_g23((USHORT)(a),std) #define ARFCN_STD_TO_L1(a,std) convert_arfcn_to_l1((USHORT)(a),std) #define ARFCN_STD_TO_G23(a,std) convert_arfcn_to_g23((USHORT)(a),std) /* add resp. get the std value to resp. from arfcn */ #define STD_ADD_TO_ARFCN(a,std) (((a)&~STD_BIT_MASK) | ((std)<<STD_BIT_SHIFT)) #define STD_GET_FROM_ARFCN(a) ((((a)&STD_BIT_MASK)>>STD_BIT_SHIFT)) /* find the frequency band index to which the given arfcn belongs. */ #define get_band_index_from_arfcn(arfcn, idx, std)\ {\ UBYTE local_std = STD_GET_FROM_ARFCN(arfcn);\ if( !local_std )\ local_std = std;\ idx = local_std;\ if( local_std == STD_DUAL ) {\ if (arfcn >= LOW_CHANNEL_1800)\ idx = STD_1800;\ else\ idx = STD_900;\ }\ else if ( local_std EQ STD_DUAL_EGSM ) {\ if (arfcn >= LOW_CHANNEL_EGSM)\ idx = STD_EGSM;\ else if (arfcn >= LOW_CHANNEL_1800)\ idx = STD_1800;\ else if (arfcn EQ CHANNEL_0)\ idx = STD_EGSM;\ else\ idx = STD_900;\ }\ else if( local_std EQ STD_DUAL_US ) {\ if (arfcn >= LOW_CHANNEL_1900)\ idx = STD_1900;\ else\ idx = STD_850;\ }\ (local_std<=STD_DUAL_US)?(idx=array_band_index[idx-1]):(idx=MAX_NUM_BANDS) ;\ } /*==== TYPES ======================================================*/ EXTERN UBYTE std; /*lint -esym(526,std) : not defined | defined in other entity */ EXTERN UBYTE test_house; /*lint -esym(526,test_house) : not defined | defined in other entity */ typedef struct { USHORT radio_freq; SHORT accum_power_result; } T_POWER_ARRAY; typedef struct { USHORT power_array_size; T_POWER_ARRAY power_array[MAX_CARRIERS]; } T_POWER_MEAS; typedef struct { USHORT power_array_size; T_POWER_ARRAY power_array[MAX_CARRIERS_DUAL_EGSM]; } T_POWER_MEAS1; typedef struct { USHORT power_array_size; T_POWER_ARRAY power_array[MAX_CARRIERS_DUAL_US]; } T_POWER_MEAS2; EXTERN T_POWER_MEAS1 alr_power_meas_result1; EXTERN T_POWER_MEAS2 alr_power_meas_result2; #define CS_SYNC_FAIL_COUNT_MAX 5 #define CS_BCCH_FAIL_COUNT_MAX 10 #define SI_1_READ 0x01 #define SI_2_READ 0x02 #define SI_3_READ 0x04 #define SI_4_READ 0x08 #define SI_2TER_READ 0x10 #define SI_2BIS_READ 0x20 typedef struct { T_POWER_MEAS *p_results1; T_POWER_MEAS *p_results2; T_MPH_POWER_CNF *p_power_cnf; T_MPH_POWER_REQ *p_power_req; /* CSI-LLD section: 4.1.3.1.2 */ T_MPH_EXT_MEAS_REQ *mph_ext_meas_req; USHORT arfcn; UBYTE ext_meas_state_pend; /* wait for pending MPHC_RXLEV_IND or MPHC_NCELL_SYNC_IND */ UBYTE sync_active; UBYTE freq_bands; UBYTE std; UBYTE std12; UBYTE freq_area; UBYTE search_mode; UBYTE sync_fail_count; UBYTE bcch_fail_count; UBYTE c_meas; UBYTE c_max_meas; UBYTE si_bitmap; T_TIME c_tim_meas; } T_CS_DATA; #define MAX_OLD_CB 20 #define CBCH_BLOCK_SIZE 22 #define CBCH_BLOCKS 4 #define CBCH_MSG_SIZE (CBCH_BLOCKS*CBCH_BLOCK_SIZE) /* no alignment or gaps between members ! */ typedef struct cbmsg_header_t { UBYTE serial_no1; UBYTE serial_no2; UBYTE msg_id3; UBYTE msg_id4; UBYTE dcs; UBYTE page; } T_CBMSG_HEADER; typedef struct { UBYTE cnt; T_CBMSG_HEADER header [MAX_OLD_CB]; } T_CB_MSG; #define CBCH_CHANNELS 2 /* * index defines are in alr_cbch.c : * CBCH_NORM 0 * CBCH_EXT 1 */ typedef struct { /* message which currently read */ UBYTE msg_is_extended; UBYTE msg [CBCH_MSG_SIZE]; USHORT msg_id_sat [MAX_IDENTS_SAT]; UBYTE msg_type; UBYTE sat_enabled; UBYTE expected_seq_number[CBCH_CHANNELS]; /* schedule support for normal and extended CBCH */ UBYTE begin_schedule[CBCH_CHANNELS]; UBYTE end_schedule[CBCH_CHANNELS]; UBYTE scheduled_sched_msg[CBCH_CHANNELS]; UBYTE schedule_length[CBCH_CHANNELS]; UBYTE last_slot_read[CBCH_CHANNELS]; ULONG schedule_map[CBCH_CHANNELS][2]; /* configured by MMI: specifies which messages are wanted */ UBYTE modus; UBYTE old_cid_plmn_lac [7]; UBYTE dcs_id [MAX_IDENTS]; USHORT msg_id [MAX_IDENTS]; T_CB_MSG old_cbch_msg; #if defined(FF_HOMEZONE) /* * special handling for homezone CBCH message after cell reselecting */ UBYTE homezone; USHORT msg_hz_id; UBYTE dcs_hz_id; USHORT hz_timeout; #endif /* FF_HOMEZONE */ #if !defined (L1_STORES_CBCH_CONFIG) T_MPHC_CONFIG_CBCH_REQ mphc_config_cbch; #endif } T_CBCH_DATA; typedef struct { UBYTE sys_info_1[22]; UBYTE sys_info_2[22]; UBYTE sys_info_2bis[22]; UBYTE sys_info_2ter[22]; #if defined (REL99) && defined (TI_PS_FF_EMR) UBYTE sys_info_2quater[22];// we are storing only one instance. #endif UBYTE sys_info_3[22]; UBYTE sys_info_4[22]; UBYTE sys_info_5[18]; UBYTE sys_info_5bis[18]; UBYTE sys_info_5ter[18]; UBYTE sys_info_6[18]; #ifdef GPRS UBYTE sys_info_13[22]; #endif } T_MA_DATA; typedef struct { /* information for using the cell */ USHORT ba_arfcn; UBYTE last_rxlev; UBYTE tim_valid; ULONG frame_offset; ULONG time_align; UBYTE bsic; /* power measurements of the cell */ UBYTE rxlev[5]; UBYTE rxlev_average; UBYTE c_rxlev; /* state of the cell */ UBYTE one_of_six; /* this is a subset of one_of_twelve */ UBYTE rank_of_the_six; /*Nina add for calculate the rank of this cell*/ UBYTE syn_failure_times; /*Nina added to exclude the cells that failed to synch 6 times*/ UBYTE one_of_twelve; UBYTE status; UBYTE ba_status; UBYTE new_strong_cell; /* counters for status handling */ UBYTE c_attempt; UBYTE c_error; UBYTE c_bcch; UBYTE c_sync; USHORT blocks_required; #if defined (TI_PS_FF_RTD) AND defined (REL99) UBYTE c_sync_req; #endif /* #if defined (TI_PS_FF_RTD) AND defined (REL99) */ /* Meas results for averaging when NC=1 or NC=2 */ #ifdef GPRS USHORT nc_rxlev; UBYTE c_nc_rxlev; #endif /* temporary BCCH storage */ T_MPH_UNITDATA_IND* mph_unitdata_ind; T_MPH_UNITDATA_IND* mph_unitdata_ind78; } T_NC; /* values for component tim_state */ #define NC_TIM_STOPPED 0 #define NC_CONF_ENABLED 1 #define NC_CONF_DISABLED 2 #define NC_CONF_PENDING 3 #if defined (REL99) && defined (TI_PS_FF_EMR) typedef struct { UBYTE num_valid; UBYTE index[MAX_NEIGHBOURCELLS]; UBYTE nc_index[MAX_NEIGHBOURCELLS]; UBYTE priority[MAX_NEIGHBOURCELLS]; } T_enh_bin; #endif typedef struct { /* +1 because we use this for idle mode cell selection */ #define LAST_BSIC_REQ BA_LIST_SIZE T_NC cell[BA_LIST_SIZE+1]; T_NC cr_cell; /* */ UBYTE c_ba_arfcn; UBYTE ba_id; USHORT channel; USHORT rxlev_full; USHORT rxlev_sub; UBYTE rxqual_full; UBYTE rxqual_sub; USHORT tav; UBYTE pwrc; UBYTE dtx; UBYTE act_dtx; UBYTE update; UBYTE sc_included; UBYTE multiband; UBYTE c_nc_timer; /* * Counter variable used to store 10sec timer interval * in terms of the number of 51 frame control multi-frames. * This counter is decremented for every measurement indication * received from L1. This is initialized with TEN_SECONDS_ NCSYNC. */ UBYTE c_ncsync_tim; /* *Variable to store the system time whenever * the NCSYNC counter is re-assigned */ T_TIME ncsync_start_tim; /* for MPH_MEASUREMENT_IND */ USHORT fn_offset; UBYTE max_reports; UBYTE c_reports; #if defined (TI_PS_FF_RTD) AND defined (REL99) USHORT nxt_ind; #endif /* #if defined (TI_PS_FF_RTD) AND defined (REL99) */ /* * counters to keep track of the send NCELL_SYNC_REQ's * and NCELL_BCCH_REQ's valid ranges are 0..12 and 0..6 */ UBYTE c_sync_req; UBYTE c_bcch_req; /* EOTD related */ UBYTE eotd_avail; UBYTE tim_state; UBYTE new_strong_cell_detect; UBYTE c_sync_intrupted; T_MPH_NCELL_POS_IND* ppos_ind; T_MPH_NCELL_POS_REQ* ppos_req; #if defined (REL99) && defined (TI_PS_FF_EMR) /* EMR Related */ T_MPH_ENHPARA_UPDATE_REQ emr_data; UBYTE rxlev_val; UBYTE nbr_rcvd_blks; UBYTE m_bep; UBYTE cv_bep; UBYTE si2_count; /*1 - SI2, 2 - SI-2/2bis, 3 - SI-2/2bis/2ter, 0 - none expected*/ UBYTE si2quater_status; UBYTE si2quater_pos; UBYTE si2q_per; /*counter for SI-2quater periodic configuration*/ ULONG rank_cell_bmp; /*The neighbor cell which has been ranked in sync req is marked in this bit map at bit location corresponding to it's index in ALR's NC list*/ #endif } T_NC_DATA; #define SYSTEM_INFO_1_READ 0x01 #define SYSTEM_INFO_2_READ 0x02 #define SYSTEM_INFO_3_READ 0x04 #define SYSTEM_INFO_4_READ 0x08 #ifdef GPRS #define SYSTEM_INFO_13_READ 0x10 #endif #define ALL_SI_READ_EXCEPT_SI13 0x0F typedef struct { T_MPHC_START_CCCH_REQ pl_idle, last_start_ccch_req; SHORT imsi_mod_1000; UBYTE dlt; UBYTE act_dlt; UBYTE si3_read; UBYTE saved_page_mode; UBYTE imsi [IMSI_LEN]; UBYTE v_tmsi; ULONG tmsi; BOOL reorg_bcch_reading; UBYTE si_bitmap; } T_PCH_DATA; typedef struct { UBYTE ms_class; UBYTE dcs_class; UBYTE max_tx_pwr_ccch; UBYTE delta [8]; UBYTE channel_request [8]; #ifdef GPRS UBYTE t1 [8]; UBYTE t2 [8]; UBYTE t3 [8]; #endif UBYTE max_bursts; UBYTE c_burst; } T_RACH_DATA; typedef struct { UBYTE rlt; UBYTE act_rlt; USHORT act_bcch; UBYTE act_mode; /* * Description of the actual used * channel, confirmed by layer 1 */ T_channel_desc act_channel_desc; T_frequency_list act_frequency_list; T_starting_time act_starting_time; T_frequency_list_bef_sti act_frequency_list_bef_sti; T_channel_desc act_channel_desc_bef_sti; UBYTE act_channel_mode; BOOL act_pwrc; UBYTE act_cipher_mode; UBYTE act_a5_algorithm; T_cipher_key act_cipher_key; T_amr_configuration act_amr_configuration; UBYTE act_power; UBYTE act_dtx_allowed; /* * Description of the old used * channel. */ USHORT old_bcch; UBYTE old_bsic; UBYTE old_channel; UBYTE old_channel_mode; T_channel_desc old_channel_desc; T_frequency_list old_frequency_list; T_starting_time old_starting_time; T_frequency_list_bef_sti old_frequency_list_bef_sti; T_channel_desc old_channel_desc_bef_sti; BOOL old_pwrc; UBYTE old_cipher_mode; UBYTE old_a5_algorithm; T_cipher_key old_cipher_key; T_amr_configuration old_amr_configuration; UBYTE old_power; UBYTE old_dtx_allowed; /* * Description of the new configured * channel, not yet confirmed by layer 1. */ USHORT temp_bcch; UBYTE temp_bsic; UBYTE temp_channel; UBYTE temp_channel_mode; T_channel_desc temp_channel_desc; T_frequency_list temp_frequency_list; T_starting_time temp_starting_time; T_frequency_list_bef_sti temp_frequency_list_bef_sti; T_channel_desc temp_channel_desc_bef_sti; BOOL temp_pwrc; UBYTE temp_cipher_mode; UBYTE temp_a5_algorithm; T_cipher_key temp_cipher_key; T_amr_configuration temp_amr_configuration; UBYTE temp_power; UBYTE temp_dtx_allowed; /* * Description of frequency redefinition * parameter. */ T_channel_desc redef_channel_desc; T_frequency_list redef_frequency_list; T_starting_time redef_starting_time; /* * Extended Measurmeent Order parameter. */ UBYTE emo_ba_id; #if defined (REL99) && defined (FF_BHO) UBYTE ho_type; /*To store Handover type during handover*/ USHORT bho_cell_index; /*To store the index of the cell chosen for BHO, NOT_PRESENT_8BIT indicates that cell is not in BA list*/ #endif } T_DEDI_DATA; #define TIM_NCSYNC_VALUE 10000 #define TIM_NW_SYNC_GUARD_VALUE 2500 /* * timer */ #define TIMER_TRACE #if defined (TIMER_TRACE) #define TIMERSTART(i,v) tim_start_timer (i, v) #define TIMERSTOP(i) tim_stop_timer (i) #define IS_TIMER_ACTIVE(i) tim_check_timer (i) #else #define TIMERSTART(i,v) #define TIMERSTOP(i) #define IS_TIMER_ACTIVE(i) #endif /* TIMER_TRACE */ enum tim_index_e { TIM_POWERMEAS, TIM_NW_SYNC_GUARD, #if defined(FF_HOMEZONE) TIM_HOMEZONE, #endif /* FF_HOMEZONE */ NUM_OF_ALR_TIMERS }; typedef void (*T_TIMER_EXPIRY)(void); typedef struct { UBYTE running[NUM_OF_ALR_TIMERS]; T_TIMER_EXPIRY expire[NUM_OF_ALR_TIMERS]; } T_TIM_DATA; #ifdef OPTION_MULTITHREAD #define tim_init _ENTITY_PREFIXED(tim_init) #define tim_exec_timeout _ENTITY_PREFIXED(tim_exec_timeout) #define tim_stop_timer _ENTITY_PREFIXED(tim_stop_timer) #define tim_start_timer _ENTITY_PREFIXED(tim_start_timer) #define tim_check_timer _ENTITY_PREFIXED(tim_check_timer) #define trace_timer _ENTITY_PREFIXED(trace_timer) #endif EXTERN void tim_init (void); EXTERN void tim_exec_timeout (USHORT index); EXTERN void tim_stop_timer (USHORT index); EXTERN void tim_start_timer (USHORT index, T_TIME value); EXTERN BOOL tim_check_timer(USHORT index); /* all data is stored so, that it doesn't need to be converted if send to the upper layers. Exceptions are alr_data.cs_data.results, alr_data.pch_data.pl_idle alr_data.pch_data.imsi */ typedef struct { UBYTE state[MAX_STATE]; /* * each of these elements is only * accessed by the appropiate * process */ T_CBCH_DATA cbch_data; T_CS_DATA cs_data; T_MA_DATA ma_data; T_NC_DATA nc_data; T_PCH_DATA pch_data; T_RACH_DATA rach_data; T_DEDI_DATA dedi_data; #ifdef GPRS T_ALR_GPRS_DATA gprs_data; #endif /* GPRS */ T_TIM_DATA tim_data; UBYTE mmi; /* mmi variant */ UBYTE keypad; /* keypad variant */ UBYTE sc_band; /* frequency band of the serving cell */ BOOL ext_display; /* ext display */ EF_MSCAP mscap; /* MS capabilities (channel mode, data cap., features */ /* is this component really needed ?? */ /* * these parameters are used by more than one process * this is to avoid data inconsistencies between * the different processes */ USHORT serving_cell; USHORT old_serving_cell; UBYTE bsic; UBYTE bs_pa_mfrms; UBYTE ncc_permitted; UBYTE plmn_search_running; #ifdef GPRS UBYTE nc_sync_with_grr; UBYTE nwctrl_meas_active; /* indicates whether averaging when NC=1,2 is active */ #endif #ifdef _SIMULATION_ UBYTE mb_testing; /* Dynamic configuration flag to indicate multiband testing */ #endif } T_ALR_DATA; /*==== EXPORT =====================================================*/ /* * Main Control */ EXTERN void ma_init (void); /* * Primitive processing functions for upper layer (RR) */ EXTERN void ma_mph_idle_req (T_MPH_IDLE_REQ *mph_idle_req); EXTERN void ma_mph_neighbourcell_req (T_MPH_NEIGHBOURCELL_REQ *mph_neighbourcell_req); EXTERN void ma_mph_emo_req (T_MPH_EMO_REQ *mph_emo_req); EXTERN void ma_mph_dedicated_req (T_MPH_DEDICATED_REQ *mph_dedicated_req); EXTERN void ma_mph_dedicated_fail_req (T_MPH_DEDICATED_FAIL_REQ *mph_dedicated_fail_req); EXTERN void ma_mph_ciphering_req (T_MPH_CIPHERING_REQ *mph_ciphering_req); EXTERN void ma_mph_freq_redef_req (T_MPH_FREQ_REDEF_REQ *mph_freq_redef_req); EXTERN void ma_mph_channel_mode_req (T_MPH_CHANNEL_MODE_REQ *mph_channel_mode_req); EXTERN void ma_mph_deactivate_req (T_MPH_DEACTIVATE_REQ *mph_deactivate_req); EXTERN void ma_mph_classmark_req (T_MPH_CLASSMARK_REQ *mph_classmark_req); EXTERN void ma_mph_ext_meas_req (T_MPH_EXT_MEAS_REQ *mph_ext_meas_req); EXTERN void ma_mph_tch_loop_req (T_MPH_TCH_LOOP_REQ *mph_tch_loop_req); EXTERN void ma_mph_dai_req (T_MPH_DAI_REQ *mph_dai_req); EXTERN void ma_mph_cbch_req (T_MPH_CBCH_REQ *mph_cbch_req); EXTERN void ma_mph_identity_req (T_MPH_IDENTITY_REQ *mph_identity_req); EXTERN void ma_mph_power_req (T_MPH_POWER_REQ *mph_power_req); EXTERN void ma_mph_bsic_req (T_MPH_BSIC_REQ *mph_bsic_req); EXTERN void ma_mph_random_access_req (T_MPH_RANDOM_ACCESS_REQ *mph_random_access_req); EXTERN void ma_mph_sync_req (T_MPH_SYNC_REQ *mph_sync_req); EXTERN void ma_mph_ncell_pos_req (T_MPH_NCELL_POS_REQ *mph_ncell_pos_req); EXTERN void ma_mph_clean_buf_req (T_MPH_CLEAN_BUF_REQ *mph_clean_buf_req); EXTERN void ma_mph_stop_dedi_req (T_MPH_STOP_DEDICATED_REQ *mph_stop_dedi_req); #ifdef GPRS EXTERN void ma_mph_meas_rep_req (T_MPH_MEAS_REP_REQ *mph_meas_rep_req); #endif /* * Primitive processing functions for lower layer */ EXTERN void ma_mphc_rxlev_ind (T_MPHC_RXLEV_IND *rxlev_ind); EXTERN void ma_mphc_stop_rxlev_cnf (T_MPHC_STOP_RXLEV_CON *rxlev_con); EXTERN void ma_mphc_empty_cnf (void *); EXTERN void ma_mphc_network_sync_ind (T_MPHC_NETWORK_SYNC_IND *network_sync_ind); EXTERN void ma_cs_stop_network_sync_req (void); EXTERN void ma_mphc_new_scell_cnf (T_MPHC_NEW_SCELL_CON *new_Scell_cnf); EXTERN void ma_mphc_ncell_bcch_ind (T_MPHC_NCELL_BCCH_IND *ncell_bcch_data_ind); EXTERN void ma_mphc_ncell_sync_ind (T_MPHC_NCELL_SYNC_IND *ncell_sync_ind); GLOBAL void ma_mphc_stop_ncell_sync_cnf (T_MPHC_STOP_NCELL_SYNC_CON *ncell_sync_cnf ); EXTERN void ma_mphc_rxlev_periodic_ind (T_MPHC_RXLEV_PERIODIC_IND *rxlev_periodic_ind); EXTERN void ma_mphc_ra_cnf (T_MPHC_RA_CON *ra_cnf); EXTERN void ma_mphc_data_ind (T_MPHC_DATA_IND *data_ind); EXTERN void ma_mphc_change_frequency_cnf (T_MPHC_CHANGE_FREQUENCY_CON *change_frequency_cnf); EXTERN void ma_mphc_async_ho_cnf (T_MPHC_ASYNC_HO_CON *async_ho_cnf); EXTERN void ma_mphc_channel_assign_cnf (T_MPHC_CHANNEL_ASSIGN_CON *channel_assign_cnf); EXTERN void ma_mphc_handover_fail_cnf (T_MPHC_HANDOVER_FAIL_CON *handover_fail_cnf); EXTERN void ma_mphc_immed_assign_cnf (T_MPHC_IMMED_ASSIGN_CON *immed_assign_cnf); EXTERN void ma_mphc_pre_sync_ho_cnf (T_MPHC_PRE_SYNC_HO_CON *pre_sync_ho_cnf); EXTERN void ma_mphc_sync_ho_cnf (T_MPHC_SYNC_HO_CON *sync_ho_cnf); EXTERN void ma_mphc_ta_fail_ind (T_MPHC_TA_FAIL_IND *ta_fail_ind); EXTERN void ma_mphc_handover_finished_ind (T_MPHC_HANDOVER_FINISHED *handover_finished); EXTERN void ma_mphc_meas_report_ind (T_MPHC_MEAS_REPORT *meas_report); EXTERN void ma_mphc_adc_ind (T_MPHC_ADC_IND *adc_results); EXTERN void ma_mphc_init_l1_cnf (T_MPHC_INIT_L1_CON *init_l1_cnf); EXTERN void ma_mphc_stop_dedi_con (T_MPHC_STOP_DEDICATED_CON *stop_cnf); #if defined(STOP_SYNC_TASK) EXTERN void ma_mphc_stop_network_sync_cnf (T_MPHC_STOP_NETWORK_SYNC_CON *stop_network_sync_cnf); #endif /* STOP_SYNC_TASK */ /* Signal processing functions for process Cell Selection */ #ifdef TI_PS_FF_QUAD_BAND_SUPPORT EXTERN void ma_cs_init_l1_req (void); #else EXTERN void ma_cs_init_l1_req (UBYTE radio_band_config); #endif EXTERN void ma_cs_stop_network_sync_req (void); EXTERN void ma_cs_network_sync_req (USHORT channel); EXTERN void ma_cs_rxlev_req (void); EXTERN void ma_cs_power_cnf (T_MPH_POWER_CNF *mph_power_cnf); /* Signal processing functions for process Neigbour Cell */ EXTERN void ma_nc_rxlev_periodic_req (T_MPHC_RXLEV_PERIODIC_REQ *update); EXTERN void ma_nc_stop_ncell_bcch_req (USHORT arfcn); EXTERN void ma_nc_stop_ncell_sync_req (USHORT arfcn); EXTERN void ma_nc_sync_req (T_MPHC_NCELL_SYNC_REQ *sync_req); EXTERN void ma_nc_list_sync_req (T_MPHC_NCELL_LIST_SYNC_REQ *list_sync_req); EXTERN void ma_nc_bcch_req (T_MPHC_NCELL_BCCH_REQ *bcch_req); EXTERN void ma_nc_update_ba_list (T_MPHC_UPDATE_BA_LIST *update_ba_list); EXTERN void nc_new_serving_cell (USHORT serving_cell); EXTERN void ma_nc_report_res (T_MPH_MEASUREMENT_IND *mph_measurement_ind); /* Signal processing functions for process RACH_Contol */ EXTERN void ma_rach_stop_ra_req (void); EXTERN void ma_rach_ra_req (T_MPHC_RA_REQ *mph_ra_req); EXTERN void ma_rach_random_cnf (T_MPH_RANDOM_ACCESS_CNF *mph_random_access_cnf); /* Signal processing functions for process Dedi_Control */ EXTERN void ma_dedi_stop_req (void); EXTERN void ma_dedi_cnf (UBYTE cause); EXTERN void ma_dedi_chan_ass_req (T_MPHC_CHANNEL_ASSIGN_REQ *mphc_channel_assign_req); EXTERN void ma_dedi_async_ho_req (T_MPHC_ASYNC_HO_REQ *async_ho_req); EXTERN void ma_dedi_sync_ho_req (T_MPHC_SYNC_HO_REQ *sync_ho_req); EXTERN void ma_dedi_pre_sync_ho_req (T_MPHC_PRE_SYNC_HO_REQ *pre_sync_ho_req); EXTERN void ma_dedi_fail_cnf (void); EXTERN void ma_dedi_ho_fail_req (void); EXTERN void ma_dedi_imm_ass_req (T_MPHC_IMMED_ASSIGN_REQ *immed_assign_req); EXTERN void ma_dedi_change_freq_req (T_MPHC_CHANGE_FREQUENCY *change_frequency); EXTERN void ma_dedi_chan_mode_req (T_MPHC_CHANNEL_MODE_MODIFY_REQ *channel_mode_modify_req); EXTERN void ma_dedi_ciph_req (T_MPHC_SET_CIPHERING_REQ *set_ciphering_req); EXTERN void ma_dedi_start_dai_req (T_OML1_START_DAI_TEST_REQ *oml1_start_dai_test_req); EXTERN void ma_dedi_close_tch_loop_req (T_OML1_CLOSE_TCH_LOOP_REQ *oml1_close_tch_loop_req); EXTERN void ma_dedi_stop_dai_req (void); EXTERN void ma_dedi_open_tch_loop_req (void); /* Signal processing functions for process PCH_control */ EXTERN void ma_pch_start_ccch_req (T_MPHC_START_CCCH_REQ *pl_idle); EXTERN void ma_pch_paging_ind (UBYTE id_type, UBYTE channel_needed); EXTERN void ma_pch_stop (void); /* Signal processing functions for process MMI_control */ EXTERN void ma_mmi_cbch_req (T_MMI_CBCH_REQ *cbch_req); EXTERN void ma_mmi_sat_cbch_dwnld_req (T_MMI_SAT_CBCH_DWNLD_REQ *cbch_req); /* Signal processing functions for process CBCH_control */ EXTERN void ma_cb_stop_cbch_req (void); EXTERN void ma_cb_sched_req (T_MPHC_CBCH_SCHEDULE_REQ *sched_req); EXTERN void ma_cb_config_cbch (T_MPHC_CONFIG_CBCH_REQ *config_cbch); EXTERN void ma_cb_mmi_cbch_ind (T_MMI_CBCH_IND *mmi_cbch_ind); EXTERN void ma_cb_info_req (UBYTE bitmap); /* Signal processing functions used by more then one process */ EXTERN void ma_scell_nbcch_req (T_MPHC_SCELL_NBCCH_REQ *nbcch_req); EXTERN void ma_scell_ebcch_req (T_MPHC_SCELL_EBCCH_REQ *ebcch_req); EXTERN void ma_stop_scell_bcch_req (void); EXTERN void ma_stop_active_procs (UBYTE flags); EXTERN void ma_bsic_cnf (T_MPH_BSIC_CNF *mph_bsic_cnf); EXTERN void ma_send_unitdata (T_MPHC_DATA_IND *data_ind); EXTERN void ma_error_ind (UBYTE cause, USHORT arfcn); EXTERN void ma_clean_dedi_sys_buffer (void); EXTERN void ma_new_scell_req (T_MPHC_NEW_SCELL_REQ *new_scell); EXTERN void ma_scell_full_nbcch (void); #ifdef GPRS EXTERN BOOL ma_is_ptm (void); EXTERN void ma_nc_rxlev_sc_req (T_TB_RXLEV_SC_REQ *rxlev_sc_req); #endif EXTERN void ma_clean_sys_buffer (USHORT si_mask); #if defined (REL99) && defined (TI_PS_FF_EMR) GLOBAL void ma_send_stored_SI2qtr (UBYTE *si_2quater); EXTERN void ma_mph_enhpara_update_req (T_MPH_ENHPARA_UPDATE_REQ * p_enh); EXTERN void ma_mph_mon_ctrl_req (T_MPH_MON_CTRL_REQ * ctrl_req); EXTERN void ma_scell_mon_si2quater_nbcch (void); EXTERN void ma_scell_mon_si2quater_ebcch (void); #endif /* defined in dl_pei.c */ EXTERN void dl1_downlink_indication (UBYTE chan, UBYTE *frame); /* * CBCH Control */ EXTERN void cb_init (void); EXTERN void cb_stop (void); EXTERN void cb_start (void); EXTERN void cb_mmi_cbch_req (T_MMI_CBCH_REQ *cbch); EXTERN void cb_mph_cbch_req (T_cbch *cbch); EXTERN void cb_data_ind (T_MPHC_DATA_IND *cbch_ind); EXTERN void cb_mmi_sat_cbch_req (T_MMI_SAT_CBCH_DWNLD_REQ *cbch_req); #if defined(FF_HOMEZONE) EXTERN void cb_tim_homezone (void); #endif /* FF_HOMEZONE */ /* * Cell Selection */ EXTERN void cs_init (void); EXTERN void cs_rxlev_ind (T_MPHC_RXLEV_IND *rxlev_ind); EXTERN void cs_network_sync_ind (T_MPHC_NETWORK_SYNC_IND *network_sync_ind); EXTERN void cs_stop (void); EXTERN T_POWER_MEAS* cs_prepare_power_req (void); EXTERN void cs_power_req (UBYTE pch_interrupt); EXTERN void cs_bsic_req (T_MPH_BSIC_REQ *mph_bsic_req); EXTERN void cs_read_scell_bcch (void); EXTERN UBYTE get_band (USHORT arfcn); EXTERN void cs_increment_bfc (void); EXTERN void cs_decrement_bfc (void); EXTERN void cs_set_wideband_sync (void); /* * Dedicated Control */ EXTERN void dedi_init (void); EXTERN void dedi_req (T_MPH_DEDICATED_REQ *dedicated_req); EXTERN void dedi_fail_req (void); EXTERN void dedi_ta_fail_ind (void); EXTERN void dedi_ho_finished (T_MPHC_HANDOVER_FINISHED *ho_finished); EXTERN void dedi_freq_redef_req (T_MPH_FREQ_REDEF_REQ *freq); EXTERN void dedi_chan_mode_req (T_MPH_CHANNEL_MODE_REQ *ch_mode); EXTERN void dedi_ciph_req (T_MPH_CIPHERING_REQ *ciph_req); EXTERN void dedi_tch_loop_req (T_MPH_TCH_LOOP_REQ *tloop); EXTERN void dedi_dai_req (T_MPH_DAI_REQ *dai); EXTERN void dedi_change_freq_cnf (void); EXTERN void dedi_ho_cnf (T_HO_TYPE ho_type); EXTERN void dedi_chan_ass_cnf (void); EXTERN void dedi_ho_fail_cnf (void); EXTERN void dedi_imm_ass_cnf (void); EXTERN void dedi_stop (void); EXTERN void dedi_increment_rlt (void); EXTERN void dedi_decrement_rlt (void); /* * MMI Control */ EXTERN USHORT RX_GetValue (void); /* * Idle Mode Neighbour Cell */ EXTERN void nc_init (void); EXTERN void nc_ncell_list (T_MPH_NEIGHBOURCELL_REQ *mph_neighbourcell_req); EXTERN void nc_update_ba_list (USHORT serving_cell, T_MPH_NEIGHBOURCELL_REQ *ncell_list); EXTERN void nc_stop (void); EXTERN void nc_bsic_req (T_MPH_BSIC_REQ *mph_bsic_req); EXTERN void nc_sync_ind (T_MPHC_NCELL_SYNC_IND *sync_ind); EXTERN void nc_bcch_ind (T_MPHC_NCELL_BCCH_IND *data_ind); EXTERN void nc_start_dedicated (UBYTE pwrc, UBYTE dtx); EXTERN void nc_update_dedicated (UBYTE dtx, UBYTE pwrc); EXTERN void nc_update_list (USHORT channel); EXTERN BOOL nc_get_fn_time (USHORT channel, ULONG *fn, ULONG *time); EXTERN void nc_suspend (void); EXTERN void nc_add_offset (void); EXTERN void nc_report (T_MPHC_RXLEV_PERIODIC_IND *rxlev_periodic_ind); EXTERN void nc_start_reselect (USHORT arfcn); EXTERN void nc_start_monitoring (void); EXTERN void nc_report_dedicated (T_MPHC_MEAS_REPORT *meas_report); EXTERN void nc_fill_report_sc_dedi (T_MPH_MEASUREMENT_IND *rr_report, UBYTE ncells); EXTERN void nc_store_tav (USHORT tav); EXTERN void nc_check_new_ncc_permitted (UBYTE new_ncc_permitted); EXTERN void nc_stop_rr_activity (UBYTE stop); EXTERN void nc_stop_ext_meas_ind (void); EXTERN void nc_resume (void); EXTERN void nc_check_activity (void); EXTERN void nc_set_status (USHORT index, UBYTE new_status); EXTERN USHORT nc_get_index (USHORT arfcn); EXTERN void nc_ncsync_tim_expiry (void); EXTERN void nc_ncell_pos_req (T_MPH_NCELL_POS_REQ* pos_req); GLOBAL void nc_resume_dedicated(void); GLOBAL void nc_suspend_handover (void); EXTERN BOOL nc_is_in_ba(USHORT arfcn); EXTERN USHORT nc_find_serving_cell_entry (USHORT serving_cell); #ifdef GPRS EXTERN void nc_start_pbcch(void); EXTERN void nc_build_nwctrl_rr_report (T_MPH_MEAS_REP_CNF *rr_report); #endif /* * PCH Control */ EXTERN void pch_init (void); EXTERN void pch_configure (T_MPH_IDLE_REQ *idle, UBYTE page_mode); EXTERN void pch_start_ccch_req (void); EXTERN void pch_save_pgm (UBYTE mode); EXTERN void pch_identity_req (T_MPH_IDENTITY_REQ *mph_identity_req); EXTERN void pch_check_pag_3 (T_MPHC_DATA_IND *data_ind); EXTERN void pch_check_pag_2 (T_MPHC_DATA_IND *data_ind); EXTERN void pch_check_pag_1 (T_MPHC_DATA_IND *data_ind); EXTERN void pch_check_page_mode (T_MPHC_DATA_IND *data_ind); EXTERN void pch_check_page_mode_cr (T_MPHC_DATA_IND *data_ind); EXTERN void pch_decrement_dlt (void); EXTERN void pch_increment_dlt (void); EXTERN void pch_stop (void); EXTERN UBYTE pch_mode_reorg (void); EXTERN void pch_config_resel (T_MPHC_DATA_IND *data_ind); /* * RACH Control */ EXTERN void rach_init (void); EXTERN void rach_configure_power (UBYTE power); EXTERN void rach_configure_class (UBYTE class, UBYTE dcs_class); EXTERN void rach_stop (void); EXTERN UBYTE cut_power_value (UBYTE power, T_MPH_DEDICATED_REQ *mph_dedicated_req); EXTERN void rach_random_req (T_MPH_RANDOM_ACCESS_REQ *random_req); EXTERN void rach_ra_cnf (T_MPHC_RA_CON* ra_cnf); /* * Idle Mode Serving Cell */ EXTERN void sc_start_periodic (void); EXTERN void csf_show_version (T_TST_TEST_HW_CON *ver); EXTERN void tim_stop_sync_to_nw (void); EXTERN UBYTE grlc_test_mode_active(void); /*lint -esym(526,grlc_test_mode_active) : not defined | defined in other entity */ #if defined (_SIMULATION_) EXTERN void rr_csf_check_rfcap (UBYTE init); /*lint -esym(526,rr_csf_check_rfcap) : not defined | defined in other entity */ #endif /* _SIMULATION_ */ EXTERN CHAR* alr_version(void); #if defined(ALR_CSF_C) && defined(_TMS470) EXTERN void Cust_Init_Layer1(void); EXTERN void SIM_PowerOff (void); EXTERN void TM_EnableWatchdog (void); EXTERN void TM_ResetWatchdog(SYS_UWORD16 count); #endif /* ALR_CSF_C && _TMS470 */ #if defined(WIN32) #include <stdio.h> /* prototype of sprintf() */ #endif /* WIN32 */ #if !defined NTRACE EXTERN void trc_mon_counter_idle (UBYTE act_dlt, UBYTE max_dlt); EXTERN void trc_mon_counter_dedi (UBYTE act_rlt, UBYTE max_rlt); #endif /* (!defined NTRACE ) */ EXTERN T_ALR_DATA alr_data_base; #define GET_INSTANCE_DATA register T_ALR_DATA *alr_data= &alr_data_base #ifdef WIN32 EXTERN T_POWER_MEAS tap_rxlev_response_european[]; EXTERN T_POWER_MEAS tap_rxlev_response_american[]; #endif #define ENTITY_DATA alr_data /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #ifdef TI_PS_HCOMM_CHANGE #else /* for hCommHandles backward compatibility */ #define hCommL1 _ENTITY_PREFIXED(hCommL1) #define hCommPL _ENTITY_PREFIXED(hCommPL) #define hCommDL _ENTITY_PREFIXED(hCommDL) #define hCommRR _ENTITY_PREFIXED(hCommRR) #define hCommMMI _ENTITY_PREFIXED(hCommMMI) #define hCommCST _ENTITY_PREFIXED(hCommCST) #endif #ifdef GPRS #define hCommGPL _ENTITY_PREFIXED(hCommGPL) #endif /* #ifdef GPRS */ #endif #ifdef TI_PS_HCOMM_CHANGE #else /* for hCommHandles backward compatibility */ EXTERN T_HANDLE hCommPL; /* PL own handle */ EXTERN T_HANDLE hCommL1; /* L1 Communication */ EXTERN T_HANDLE hCommDL; /* DL Communication */ EXTERN T_HANDLE hCommRR; /* RR Communication */ EXTERN T_HANDLE hCommMMI; /* MMI Communication */ EXTERN T_HANDLE hCommCST; /* CST Communication */ #endif #ifdef GPRS EXTERN T_HANDLE hCommGPL; /* GPL Communication */ #endif /* GPRS */ EXTERN T_HANDLE pl_handle; EXTERN UBYTE v_mon_counter_idle; EXTERN UBYTE v_mon_counter_dedi; EXTERN UBYTE v_eotd; #if defined(DL_TRACE_ENABLED) EXTERN void dl_trace (UCHAR trace_type, UCHAR channel, UCHAR ch_type, UCHAR * data); #ifdef OPTION_MULTITHREAD #define dl_trace_buf _ENTITY_PREFIXED(dl_trace_buf) #endif #if defined(ALR_MAIN_C) GLOBAL char dl_trace_buf[100]; #else /* ALR_MAIN_C */ EXTERN char dl_trace_buf[100]; #endif /* ALR_MAIN_C */ #define TRACE_PL_EVENT 4 #define DOES_NOT_MATTER 0 #define DL_OFFLINE_TRACE(s) \ dl_trace (TRACE_PL_EVENT, DOES_NOT_MATTER, DOES_NOT_MATTER, (UCHAR*)s) #else /* DL_TRACE_ENABLED */ #define DL_OFFLINE_TRACE(s) #endif /* DL_TRACE_ENABLED */ #if !defined(NCONFIG) && !defined(NTRACE) && defined(TRACE_STATE_TRANSITION) void trc_state_transition(int line, UBYTE newstate); #else #define trc_state_transition(line,newstate) #endif /* !NCONFIG && !NTRACE && TRACE_STATE_TRANSITION */ #if defined(_SIMULATION_) #define TRACING #define TRACE_EVENT_WIN(s) TRACE_EVENT(s) #define TRACE_EVENT_WIN_P1(s,a1) TRACE_EVENT_P1(s,a1) #define TRACE_EVENT_WIN_P2(s,a1,a2) TRACE_EVENT_P2(s,a1,a2) #define TRACE_EVENT_WIN_P3(s,a1,a2,a3) TRACE_EVENT_P3(s,a1,a2,a3) #define TRACE_EVENT_WIN_P4(s,a1,a2,a3,a4) TRACE_EVENT_P4(s,a1,a2,a3,a4) #define TRACE_EVENT_WIN_P5(s,a1,a2,a3,a4,a5) TRACE_EVENT_P5(s,a1,a2,a3,a4,a5) #define TRACE_EVENT_WIN_P6(s,a1,a2,a3,a4,a5,a6) TRACE_EVENT_P6(s,a1,a2,a3,a4,a5,a6) #define TRACE_EVENT_WIN_P7(s,a1,a2,a3,a4,a5,a6,a7) TRACE_EVENT_P7(s,a1,a2,a3,a4,a5,a6,a7) #define TRACE_EVENT_WIN_P8(s,a1,a2,a3,a4,a5,a6,a7,a8) TRACE_EVENT_P8(s,a1,a2,a3,a4,a5,a6,a7,a8) #define TRACE_EVENT_WIN_P9(s,a1,a2,a3,a4,a5,a6,a7,a8,a9) TRACE_EVENT_P9(s,a1,a2,a3,a4,a5,a6,a7,a8,a9) #else /* _SIMULATION_ */ #define TRACE_EVENT_WIN(s) #define TRACE_EVENT_WIN_P1(s,a1) #define TRACE_EVENT_WIN_P2(s,a1,a2) #define TRACE_EVENT_WIN_P3(s,a1,a2,a3) #define TRACE_EVENT_WIN_P4(s,a1,a2,a3,a4) #define TRACE_EVENT_WIN_P5(s,a1,a2,a3,a4,a5) #define TRACE_EVENT_WIN_P6(s,a1,a2,a3,a4,a5,a6) #define TRACE_EVENT_WIN_P7(s,a1,a2,a3,a4,a5,a6,a7) #define TRACE_EVENT_WIN_P8(s,a1,a2,a3,a4,a5,a6,a7,a8) #define TRACE_EVENT_WIN_P9(s,a1,a2,a3,a4,a5,a6,a7,a8,a9) #endif /* _SIMULATION_ */ #if defined TRACING #define ALR_TRACE(a) vsi_o_ttrace(VSI_CALLER TC_EVENT,a); #else #define ALR_TRACE(a) #endif /* TRACING */ #define TNNN_WITH_TIMER /* #define ALR_TRACE_ENABLED */ #if defined(ALR_TRACE_ENABLED) void alr_trc_init (void); void alr_trc_exit (void); void alr_trc_store (UCHAR event, UCHAR channel, UCHAR state, void* l2_data); void alr_trc_read_all (void); void alr_trc_read (int count); #else /* ALR_TRACE_ENABLED */ #define alr_trc_init() #define alr_trc_exit() #define alr_trc_store(e,c,s,p) #define alr_trc_read(c) #define alr_trc_read_all() #endif /* ALR_TRACE_ENABLED */ /* * ALR TRACE defines */ #define ALR_TRC_UPLINK 0 #define ALR_TRC_DOWNLINK 1 #define ALR_TRC_EVENT 2 #define ALR_TRC_STRING 3 #define ALR_TRC_CH_UNDEF 0 #define ALR_TRC_CH_FACCH_FR 1 #define ALR_TRC_CH_FACCH_HR 2 #define ALR_TRC_CH_SDCCH4 3 #define ALR_TRC_CH_SDCCH8 4 #define ALR_TRC_CH_SACCH 5 #define ALR_TRC_CH_UNKNOWN 6 #define ALR_TRC_DATA_SIZE 40 #define ALR_RXLEV_AVERAGE_MIN 0 #define ALR_RXLEV_AVERAGE_LWR_THR 4 #endif /* ALR_H */