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view src/aci2/alr/alr.h @ 222:79cb194284ca
doc/Freerunner-Howto: update for the TCS2/TCS3 hybrid development
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 16 Oct 2016 00:26:26 +0000 |
parents | 93999a60b835 |
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/* +----------------------------------------------------------------------------- | 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 #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 */ /* * for voice memo */ #include "p_cst.h" /* 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 #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 */ /* 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 /* 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 EXTERN const char * const STATE_MA_NAME[]; #ifndef GPRS #define STATE_MA_NAME_INIT \ "MA_NULL" ,\ "MA_CELL_SELECTION" ,\ "MA_IDLE" ,\ "MA_CON_EST" ,\ "MA_DEDICATED" ,\ "MA_CELL_RESELECTION" #else /* !GPRS */ #define STATE_MA_NAME_INIT \ "MA_NULL" ,\ "MA_CELL_SELECTION" ,\ "MA_IDLE" ,\ "MA_CON_EST" ,\ "MA_DEDICATED" ,\ "MA_CELL_RESELECTION",\ "MA_PTM" #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 EXTERN const char * const STATE_NC_NAME[]; #define STATE_NC_NAME_INIT \ "NC_NULL" ,\ "NC_IDLE" ,\ "NC_DEDICATED" ,\ "NC_CON_EST" ,\ "NC_PIM_PBCCH" ,\ "NC_PTM_PBCCH" #else EXTERN const char * const STATE_NC_NAME[]; #define STATE_NC_NAME_INIT \ "NC_NULL" ,\ "NC_IDLE" ,\ "NC_DEDICATED" ,\ "NC_CON_EST" #endif /* * States Dedicated Control */ #define DEDI_INACTIVE 0 #define DEDI_IMM_ASS 1 #define DEDI_IMM_ASS_RECONN 2 #define DEDI_ACTIVE 3 EXTERN const char * const STATE_DEDI_NAME[]; #define STATE_DEDI_NAME_INIT \ "DEDI_INACTIVE" ,\ "DEDI_IMM_ASS" ,\ "DEDI_IMM_ASS_RECONN",\ "DEDI_ACTIVE" /* * 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 */ EXTERN const char * const STATE_CS_NAME[]; #define STATE_CS_NAME_INIT\ "CS_NULL" ,\ "CS_INIT_L1" ,\ "CS_INIT_ACTIVE" ,\ "CS_INIT_DONE" ,\ "CS_START_MEASURE" ,\ "CS_ACTIVE_MEASURE" ,\ "CS_MEASURED" ,\ "CS_INIT_SYNC" ,\ "CS_STOP_SYNC" ,\ "CS_STOP_SYNC_DONE" ,\ "CS_ACTIVE_SYNC" ,\ "CS_ACTIVE_BCCH" ,\ "CS_NW_SYNC_TIMEOUT" /* * States PCH Control */ #define PCH_NULL 0 #define PCH_ACTIVE 1 EXTERN const char * const STATE_PCH_NAME[]; #define STATE_PCH_NAME_INIT\ "PCH_NULL" ,\ "PCH_ACTIVE" /* * States RACH Control */ #define RA_NULL 0 #define RA_ACTIVE 1 #define RA_LISTEN_TO_CCCH 2 EXTERN const char * const STATE_RA_NAME[]; #define STATE_RA_NAME_INIT \ "RA_NULL" ,\ "RA_ACTIVE" ,\ "RA_LISTEN_TO_CCCH" /* * 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 EXTERN const char * const STATE_NORMAL_CBCH_NAME[]; EXTERN const char * const STATE_EXT_CBCH_NAME[]; #define STATE_CBCH_NAME_INIT\ "CBCH_NULL" ,\ "CBCH_IDLE" ,\ "CBCH_NO_DRX" ,\ "CBCH_DRX" /* * States Idle Mode Serving Cell */ #define SC_NULL 0 #define SC_IDLE_INITIAL 1 #define SC_IDLE 2 EXTERN const char * const STATE_SC_NAME[]; #define STATE_SC_NAME_INIT \ "SC_NULL" ,\ "SC_IDLE_INITIAL" ,\ "SC_IDLE" /* * States Idle Mode Serving Cell */ typedef enum { NC_ACQUIRE=0, NC_CONFIRM } T_NCELL_PROC; EXTERN const char * const STATE_NC_PROC_NAME[]; #define STATE_NC_PROC_NAME_INIT \ "NC_ACQUIRE" ,\ "NC_CONFIRM" /* * 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 GLOBAL const char * const STATE_NORMAL_CBCH_NAME[] = { STATE_CBCH_NAME_INIT }; GLOBAL const char * const STATE_EXT_CBCH_NAME[] = { STATE_CBCH_NAME_INIT }; GLOBAL const char * const STATE_CS_NAME [] = { STATE_CS_NAME_INIT }; GLOBAL const char * const STATE_MA_NAME [] = { STATE_MA_NAME_INIT }; GLOBAL const char * const STATE_NC_NAME [] = { STATE_NC_NAME_INIT }; GLOBAL const char * const STATE_PCH_NAME [] = { STATE_PCH_NAME_INIT }; GLOBAL const char * const STATE_RA_NAME [] = { STATE_RA_NAME_INIT }; GLOBAL const char * const STATE_SC_NAME [] = { STATE_SC_NAME_INIT }; GLOBAL const char * const STATE_DEDI_NAME[] = { STATE_DEDI_NAME_INIT }; GLOBAL const char * const STATE_NC_PROC_NAME[]={ STATE_NC_PROC_NAME_INIT }; #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)) #if defined (WIN32) #define ARFCN_TO_L1(a) ((USHORT)((a)&ARFCN_MASK)) #define ARFCN_TO_G23(a) ((USHORT)((a)&ARFCN_MASK)) #define ARFCN_STD_TO_L1(a,std) ((USHORT)((a)&ARFCN_MASK)) #define ARFCN_STD_TO_G23(a,std) ((USHORT)((a)&ARFCN_MASK)) #else /* * 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) #endif /* 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. */ EXTERN const int array_band_index[]; #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 = BAND_E_GSM;\ 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 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; T_TIME c_tim_meas; } T_CS_DATA; #define MAX_OLD_CB 10 #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]; 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 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; /* 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 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; /* * 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; } 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; } 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 } 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 */ EXTERN void ma_cs_init_l1_req (UBYTE radio_band_config); 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); /* 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 (UBYTE cause); 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_async_ho_cnf (void); EXTERN void dedi_chan_ass_cnf (void); EXTERN void dedi_ho_fail_cnf (void); EXTERN void dedi_imm_ass_cnf (void); EXTERN void dedi_pre_sync_ho_cnf (void); EXTERN void dedi_sync_ho_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_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); #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 const 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 */ EXTERN void cst_pei_config (char *, char *); /*lint -esym(526,cst_pei_config) : 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; #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 #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) #ifdef GPRS #define hCommGPL _ENTITY_PREFIXED(hCommGPL) #endif /* #ifdef GPRS */ #endif 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 */ #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 */