FreeCalypso > hg > freecalypso-citrine
view g23m-gsm/mm/mm.h @ 3:f93dab57b032
L1/include: TCS211-based version restored
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 09 Jun 2016 00:45:00 +0000 |
parents | 75a11d740a02 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : GSM-PS (8410) | Modul : MM +----------------------------------------------------------------------------- | 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 | Radio Resource +----------------------------------------------------------------------------- */ #ifndef MM_H #define MM_H #ifdef GPRS #include "mm_gprs.h" #endif /* GPRS */ #if defined (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 */ #if !defined(_SIMULATION_) && defined(WIN32) #define _SIMULATION_ #endif /* !_SIMULATION_ && WIN32 */ /*==== TEST =====================================================*/ /* * Dynamic Configuration Numbers */ #define TIMER_SET 1 #define TIMER_RESET 2 #define TIMER_SPEED_UP 3 #define TIMER_SLOW_DOWN 4 #define TIMER_SUPPRESS 5 #define T3212_CNT 6 #define USE_STORED_BCCH 7 #define FFS_READ_EPLMN 8 #define FFS_WRITE_EPLMN 9 #define FFS_RESET_EPLMN 10 #define FFS_READ_EPLMN_INIT 11 #define ENTITY_DATA mm_data /* * PLMN constants */ #define MAX_FORB_PLMN_ID 8 /* Arbitrary, >= MAX_SIM_FORB_PLMN_ID */ #define MAX_SIM_FORB_PLMN_ID 4 #define UBYTES_PER_PLMN 3 /* Number of UBYTEs for packed PLMN */ #ifdef REL99 #define UBYTES_PER_PLMN_WITH_ACC_TECH 5 /* Number of UBYTEs for packed PLMN with access technology*/ #endif #ifdef GPRS #define MAX_GPRS_FORB_PLMN_ID 4 #endif /* #ifdef GPRS */ #define MAX_PREF_PLMN_ID (MAX_PREF_PLMN/UBYTES_PER_PLMN) #define SIZE_LOC_INFO 11 #define PD_MM_TI_0 PD_MM #ifdef REL99 #define MAX_DEFINED_CAUSES 23 #else #define MAX_DEFINED_CAUSES 22 #endif #define TMSI_INVALID_VALUE 0xFFFFFFFFL #define LAC_INVALID_VALUE 0xFFFE /* * initial HPLMN search after switch on delayed for ms */ #define HPLMN_INITIAL_DELAY 120000 /* 2 minutes */ /* * HPLMN search constants in steps of 6 minutes */ #define HPLMN_REARM_DELAY 1 /* 6 minutes */ #define HPLMN_DEF_SEARCH_PERIOD 10 /* 1 hour */ #define HPLMN_MAX_SEARCH_PERIOD 80 /* 8 hours */ /* * Flags for creating a plmn list */ #define WITH_OTHER_PLMNS 0 /* Non-forbidden, RPLMN no or low prio */ #define WITH_ALL_PLMNS 1 /* All available PLMNs */ #define WITH_RPLMN 2 /* Non-forbidden */ /* * Timer Identifier */ #define T_REGISTRATION 0 #define T3210 1 #define T3211 2 #define T3212 3 #define T3213 4 #define T3220 5 #define T3230 6 #define T3240 7 #define T_HPLMN 8 #ifdef REL99 #define T3241 9 #define NUM_OF_MM_TIMERS 10 #else #define NUM_OF_MM_TIMERS 9 #endif #define MAX_REST_T3213 2 /* * CM_SERVICE_TYPES */ #define NO_CM_SERVICE 0 #define CALL_SERVICE ST_MOC #define EMERGENCY_SERVICE ST_EMERGENCY #define SMS_SERVICE ST_SMS #define SS_SERVICE ST_SS /* * MM Cause */ #define MM_CAUSE MMCM_MM_CAUSE /* * COMPONENTS */ #define CC_COMP MMCM_ORG_ENTITY_CC #define SS_COMP MMCM_ORG_ENTITY_SS #define SMS_COMP MMCM_ORG_ENTITY_SMS #define REG_COMP 3 #define TIMEOUT 4 /* * FAILURES */ #define OPTIONAL_INFO_ERROR 102 /* * LOC-UPD-TYPES */ #define NORMAL_LUP 0 #define PERIODIC_LUP 1 #define IMSI_ATTACH_LUP 2 #define NOT_RUNNING 3 /* * MISC.CONSTANTS FOR QEUEING */ #define ENTRY_FREE 0 #define USE 1 #define STORED 2 /* * Constants describing the stored information type */ #define NO_ENTRY 0 #define PRIMITIVE_ENTRY 1 #define EVENT_ENTRY 2 /* * UPDATE-STATUS */ #define MS_UPDATED 0 #define MS_NOT_UPDATED 1 #define MS_LA_NOT_ALLOWED 3 typedef enum { MSG_RR_ACT, MSG_MM_REE, MSG_MM_CIPH, MSG_MM_MODE }T_MSG_TYPE; typedef enum { PRIM_EST_IND, PRIM_DATA_IND }T_PRIM_TYPE; /* * Macros */ #ifdef FRAME_OFFSET_ZERO #define GET_PD(s,p) p=s.buf[3] & 0x0F #define GET_TI(s,t) t=(s.buf[3] & 0xF0)>>4 #else #define GET_PD(s,p) ccd_decodeByte(s.buf, (USHORT)(s.o_buf+4), 4, &p) #define GET_TI(s,t) ccd_decodeByte(s.buf, s.o_buf, 4, &t) #endif #define MSG(TYPE) ((T_##TYPE *)(_decodedMsg)) #define USE_STORED_ENTRIES() { ENTITY_DATA->use_stored_entries = TRUE; } /* * The assert() macro as defined by the frame stops the task, * not only in simulation but also on the target. For the * simulation this is a desired behaviour, for the target it is not. */ #ifndef WIN32 #undef assert #define assert(x) if (!(x)) { TRACE_ERROR ("Assertion failed"); } #endif /* * Bitoffset for encoding/decoding */ #define ENCODE_OFFSET 24 /* * a modified version of the S/GET_STATE macros for tracing CM_INST states */ #define CMSTATE(PROCESS,N) ENTITY_DATA->conn_state[(PROCESS)][(N)] #ifdef NTRACE #define CM_SET_STATE(PROCESS,N,STATE) CMSTATE((PROCESS),(N)) = (STATE) #define CM_GET_STATE(PROCESS,N) CMSTATE((PROCESS),(N)) #else #if defined (NEW_FRAME) #define CM_SET_STATE(PROCESS,N,STATE)\ {\ vsi_o_strace (VSI_CALLER\ PROCESS_NAME_CM[(PROCESS)],\ STATE_CM_NAME [(PROCESS)] [ CMSTATE(PROCESS,N) ],\ STATE_CM_NAME [(PROCESS)] [ (STATE) ]);\ CMSTATE((PROCESS),(N)) = (STATE);\ } #define CM_GET_STATE(PROCESS,N)\ (vsi_o_strace (VSI_CALLER\ PROCESS_NAME_CM[(PROCESS)],\ STATE_CM_NAME [(PROCESS)] [ CMSTATE((PROCESS),(N)) ],\ NULL), CMSTATE((PROCESS),(N))) #else #define CM_SET_STATE(PROCESS,N,STATE)\ CMSTATE((PROCESS),(N)) =\ vsi_o_strace (VSI_CALLER\ PROCESS_NAME_CM[(PROCESS)],\ STATE_CM_NAME [(PROCESS)] [ CMSTATE(PROCESS,N) ],\ STATE_CM_NAME [(PROCESS)] [ (STATE) ],\ (STATE) ) #define CM_GET_STATE(PROCESS,N)\ vsi_o_strace (VSI_CALLER\ PROCESS_NAME_CM[(PROCESS)],\ STATE_CM_NAME [(PROCESS)] [ CMSTATE((PROCESS),(N)) ],\ NULL ,\ CMSTATE((PROCESS),(N)) ) #endif /* NEW_FRAME */ #endif /* NTRACE */ /* * buffer sizes */ #define SIZE_BCCH 16 #define NUM_OF_CM_ENT 3 #define NUM_OF_CONN_PER_CM_ENT 16 /* * CONNECTION STATES */ #define CM_IDLE 0 #define CM_PENDING 1 #define CM_ACTIVE 2 #define CM_REEST_PENDING 3 #define CM_STORE 4 #define CM_NOT_IDLE 0xff EXTERN const char * const * const STATE_CM_NAME[]; #define STATE_CM_CC_NAME_INIT \ "CM_CC_IDLE", \ "CM_CC_PENDING", \ "CM_CC_ACTIVE", \ "CM_CC_REEST_PENDING", \ "CM_CC_STORE" #define STATE_CM_SS_NAME_INIT \ "CM_SS_IDLE", \ "CM_SS_PENDING", \ "CM_SS_ACTIVE", \ "CM_SS_REEST_PENDING", \ "CM_SS_STORE" #define STATE_CM_SMS_NAME_INIT \ "CM_SMS_IDLE", \ "CM_SMS_PENDING", \ "CM_SMS_ACTIVE", \ "CM_SMS_REEST_PENDING", \ "CM_SMS_STORE" /* * CM manages 3 (NUM_OF_CM_ENT) states: CC, SS, SMS */ #define STATE_CC CC_COMP #define STATE_SS SS_COMP #define STATE_SMS SMS_COMP #define UNSPEC 0 #define CM_LUP_TRIGGER 1 EXTERN const char * const PROCESS_NAME_CM[]; #define PROCESS_NAME_CM_INIT \ "STATE_CC" , \ "STATE_SS" , \ "STATE_SMS" /* * A definition of the states of CMSTATE is provided in MM_PEI.C */ #if defined(MM_PEI_C) && ! defined(NTRACE) LOCAL const char * const STATE_CC_NAME [] = { STATE_CM_CC_NAME_INIT }; LOCAL const char * const STATE_SS_NAME [] = { STATE_CM_SS_NAME_INIT }; LOCAL const char * const STATE_SMS_NAME[] = { STATE_CM_SMS_NAME_INIT }; GLOBAL const char * const * const STATE_CM_NAME [] = { STATE_CC_NAME, STATE_SS_NAME, STATE_SMS_NAME }; GLOBAL const char * const PROCESS_NAME_CM[] = { PROCESS_NAME_CM_INIT }; #endif /* * States of the Mobility Management */ #define MM_NULL 0 #define MM_LUP_INITIATED 3 #define MM_WAIT_FOR_OUTG_MM_CONN 5 #define MM_CONN_ACTIVE 6 #define MM_IMSI_DETACH_INIT 7 #define MM_PROCESS_PROMPT 8 #define MM_WAIT_FOR_NW_CMD 9 #define MM_LUP_REJECTED 10 #define MM_WAIT_FOR_RR_CONN_LUP 13 #define MM_WAIT_FOR_RR_CONN_MM 14 #define MM_WAIT_FOR_RR_CONN_DETACH 15 #define MM_WAIT_FOR_REESTABLISH 17 #define MM_WAIT_FOR_RR_ACTIVE 18 #define MM_IDLE_NORMAL_SERVICE 19 /* 19.1 */ #define MM_LOCATION_UPDATING_PENDING 23 /* Not defined for GSM only stack */ #define MM_IMSI_DETACH_PENDING 24 /* Not defined for GSM only stack */ #ifdef REL99 #define MM_RR_CONN_RELEASE_NOT_ALLOWED 25 #define MM_IDLE_ATTEMPT_TO_UPDATE 26 // 19.2 #define MM_IDLE_LIMITED_SERVICE 27 // 19.3 #define MM_IDLE_NO_IMSI 28 // 19.4 #define MM_IDLE_NO_CELL_AVAILABLE 29 // 19.5 #define MM_IDLE_LUP_NEEDED 30 // 19.6, not used by GSM only stack #define MM_IDLE_PLMN_SEARCH 31 // 19.7 #define MM_PLMN_SEARCH_NORMAL_SERVICE 32 // 19.8 #else #define MM_IDLE_ATTEMPT_TO_UPDATE 25 // 19.2 #define MM_IDLE_LIMITED_SERVICE 26 // 19.3 #define MM_IDLE_NO_IMSI 27 // 19.4 #define MM_IDLE_NO_CELL_AVAILABLE 28 // 19.5 #define MM_IDLE_LUP_NEEDED 29 // 19.6, not used by GSM only stack #define MM_IDLE_PLMN_SEARCH 30 // 19.7 #define MM_PLMN_SEARCH_NORMAL_SERVICE 31 // 19.8 #endif /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_MM_NAME[]; #ifdef GPRS /* * States of CM establishment if GPRS is present */ #define CM_GPRS_EST_IDLE 0 /* No outstanding MMGMM_CM_ESTABLISH_RES */ #define CM_GPRS_EST_PEND 1 /* MMGMM_CM_ESTABLISH_RES outstanding */ #define CM_GPRS_EMERGE_PEND 2 /* MMGMM_CM_EMERGENCY_RES outstanding */ #define CM_GPRS_EST_OK 3 /* MM is allowed to establish RR connection */ /* * States for connection management. You may think of a process * in terms of SDL here, but this is not obvious by looking into the C code, * as the separation of state machines is not elaborated at all. */ EXTERN const char * const STATE_GPRS_CM_EST_NAME[]; #define STATE_GPRS_CM_EST_INIT \ "CM_GPRS_EST_IDLE", \ "CM_GPRS_EST_PEND", \ "CM_GPRS_EMERGE_PEND", \ "CM_GPRS_EST_OK" /* * States for registration control. * Don't think of a state and a process in term of SDL here. * The only reason why this is a state and not only a ordinary variable * is because it eases debugging a lot for now. */ EXTERN const char * const STATE_REG_TYPE_NAME[]; #endif /* GPRS */ /* * MM manages 1 (NUM_OF_MM_STATES) state (GSM only) : MM * MM manages 3 (NUM_OF_MM_STATES) states (GPRS present): MM, GPRS_CM_EST, REG_TYPE */ #ifdef OPTION_MULTITHREAD #define PROCESS_NAME _ENTITY_PREFIXED(PROCESS_NAME) #endif EXTERN const char * const PROCESS_NAME[]; #ifdef GPRS #define STATE_MM 0 #define STATE_GPRS_CM_EST 1 #define STATE_REG_TYPE 2 #define NUM_OF_MM_STATES 3 #define PROCESS_NAME_INIT \ "MM", \ "GPRS_CM_EST", \ "REG_TYPE" #else #define STATE_MM 0 #define NUM_OF_MM_STATES 1 #define PROCESS_NAME_INIT \ "MM" #endif /* GPRS */ /* * A definition of the states is provided in MM_PEI.C */ #if defined(MM_PEI_C) && ! defined(NTRACE) /* N950 Memory Optimization - Implements Measure #39*/ GLOBAL T_S2I_STRING const STATE_MM_NAME[] = { S2I_STRING("MM_NULL"), S2I_STRING("MM_1_INVALID"), S2I_STRING("MM_2_INVALID"), S2I_STRING("MM_LUP_INITIATED"), S2I_STRING("MM_4_INVALID"), S2I_STRING("MM_WAIT_FOR_OUTG_MM_CONN"), S2I_STRING("MM_CONN_ACTIVE"), S2I_STRING("MM_IMSI_DETACH_INIT"), S2I_STRING("MM_PROCESS_PROMPT"), S2I_STRING("MM_WAIT_FOR_NW_CMD"), S2I_STRING("MM_LUP_REJECTED"), S2I_STRING("MM_11_INVALID"), S2I_STRING("MM_12_INVALID"), S2I_STRING("MM_WAIT_FOR_RR_CONN_LUP"), S2I_STRING("MM_WAIT_FOR_RR_CONN_MM"), S2I_STRING("MM_WAIT_FOR_RR_CONN_DETACH"), S2I_STRING("MM_16_INVALID"), S2I_STRING("MM_WAIT_FOR_REESTABLISH"), S2I_STRING("MM_WAIT_FOR_RR_ACTIVE"), S2I_STRING("MM_IDLE_NORMAL_SERVICE"), S2I_STRING("MM_20_INVALID"), S2I_STRING("MM_21_INVALID"), S2I_STRING("MM_22_INVALID"), S2I_STRING("MM_LOCATION_UPDATING_PENDING"), S2I_STRING("MM_IMSI_DETACH_PENDING"), #ifdef REL99 S2I_STRING("MM_RR_CONN_RELEASE_NOT_ALLOWED"), #endif S2I_STRING("MM_IDLE_ATTEMPT_TO_UPDATE"), S2I_STRING("MM_IDLE_LIMITED_SERVICE"), S2I_STRING("MM_IDLE_NO_IMSI"), S2I_STRING("MM_IDLE_NO_CELL_AVAILABLE"), S2I_STRING("MM_IDLE_LUP_NEEDED"), S2I_STRING("MM_IDLE_PLMN_SEARCH"), S2I_STRING("MM_PLMN_SEARCH_NORMAL_SERVICE") }; #ifdef GPRS GLOBAL const char * const STATE_GPRS_CM_EST_NAME[] = { STATE_GPRS_CM_EST_INIT }; GLOBAL const char * const STATE_REG_TYPE_NAME[] = { "REG_GPRS_INACTIVE", "REG_REMOTE_CONTROLLED", "REG_CELL_SEARCH_ONLY" }; #endif /* GPRS */ GLOBAL const char * const PROCESS_NAME[] = { PROCESS_NAME_INIT }; #endif /* defined(MM_PEI_C) && ! defined(NTRACE) */ #ifndef NTRACE #define UNEXPECTED_IN_STATE "Unexpected in state" #define UNEXPECTED_DEFAULT "Unexpected default" #define UNEXPECTED_PARAMETER "Unexpected parameter" #define PRIMITIVE_IGNORED "Primitive ignored" #endif /* * State of elementary file after SIM_FILE_CHANGE_IND */ #define SAT_UNCHANGED 0 /* SAT didn't change the file */ #define SAT_READ_FILE 1 /* SAT changed file, still to read */ #define SAT_PEND_CNF 2 /* SIM_READ_REQ underway for elementary file */ #define SAT_PEND_ACT 3 /* File read, but not yet activated */ /* * Get registration type. Use this macro to make it easy for the optimizer * to optimize some expressions away if compiling a GSM only protocol stack. * These macros help to avoid making an #ifdef grave from MM. */ #ifdef GPRS #define mm_gsm_alone() (GET_STATE (STATE_REG_TYPE) EQ REG_GPRS_INACTIVE) #define mm_cm_est_allowed() (GET_STATE (STATE_GPRS_CM_EST) EQ CM_GPRS_EST_OK) #define mm_lup_allowed_by_gmm() (GET_STATE (STATE_REG_TYPE) NEQ REG_CELL_SEARCH_ONLY) #else #define mm_gsm_alone() TRUE #define mm_cm_est_allowed() TRUE #define mm_lup_allowed_by_gmm() TRUE #endif /* GPRS */ #define EPLMNLIST_SIZE 6 /******************Specially for Cingular********************/ #define MAX_CINGULAR_PLMN 14 /*==== TYPES ======================================================*/ typedef struct { /* IMSI EPLMNList was received with */ T_imsi_struct eqv_plmn_imsi; /* Contains a list of Equivalent PLMNs provided by the network. The list is * replaced or deleted at the end of each location update procedure, routing * area update procedure and GPRS attach procedure. */ UBYTE eqv_plmn_list[EPLMNLIST_SIZE*UBYTES_PER_PLMN]; } T_ffs_eplmn_imsi; typedef struct { /* Access class for RR from the SIM */ USHORT acc_class; /* PLMN on which MM actually tries to register */ T_plmn actual_plmn; /* Room for BCCH information from the SIM/RR. * The better way would be to define this as T_bcch_info */ UBYTE bcch[SIZE_BCCH]; /* TRUE if the BCCH information shall be used. The sense of this variable * is questionable */ BOOL bcch_encode; /* Cell test mode, possible values are * CELL_TEST_ENABLE and CELL_TEST_DISABLE */ UBYTE cell_test; /* The ciphering key sequence number */ UBYTE cksn; /* The list of forbidden PLMNs, copy of SIM data */ UBYTE forb_plmn[MAX_FORB_PLMN_ID * UBYTES_PER_PLMN]; #ifdef GPRS /* The list of forbidden PLMNs for GPRS services */ UBYTE gprs_forb_plmn[MAX_GPRS_FORB_PLMN_ID * UBYTES_PER_PLMN]; #endif /* #ifdef GPRS */ /* The PLMN which sent recently a LUP reject with cause #13 */ T_plmn low_prio_plmn; /* The IMSI, copy of SIM data */ T_imsi_struct imsi_struct; /* The ciphering key */ UBYTE kc[MAX_KC]; /* The location area where the mobile currently is registered */ T_loc_area_ident lai; /* Operation mode. Valid flag v_op set to valid after first reg. attempt * Also contains information whether a sim and a test sim is inserted. */ T_op op; /* Length of MNC in IMSI.SIM should send the length of mnc and MM should use * this value to see if third digit of MNC is valid or not */ U8 length_mnc; /* The found PLMNs during network search */ UBYTE plmn[MAX_PLMN_ID * UBYTES_PER_PLMN]; /* The LACs of the found PLMNs */ USHORT plmn_lac [MAX_PLMN_ID]; /* The reception levels of the found PLMNs */ UBYTE plmn_rx [MAX_PLMN_ID]; #ifdef GPRS /* The GPRS capabilities of the found PLMNs */ UBYTE gprs_status[MAX_PLMN_ID]; /* The indicated value of the TMSI */ ULONG indicated_tmsi; #endif /* #ifdef GPRS */ /* Number of found PLMN */ UBYTE plmn_cnt; /* Index of currently checked PLMN in automatic mode */ UBYTE plmn_index; /* Preferred PLMN list */ UBYTE pref_plmn[MAX_PREF_PLMN_ID * UBYTES_PER_PLMN]; #ifdef REL99 /* * Actual length of User controlled PLMN Selector with Access Technology (EFPLMNwAcT) * as indicated in sim_mm_insert_ind */ USHORT sim_ucps_at_len; /* * Actual length of Operator controlled PLMN Selector with Access Technology (EFOPLMNwAcT) * as indicated in sim_mm_insert_ind */ USHORT sim_ocps_at_len; /* * Flag indicates which SIM EFs are being used for pref_plmn * TRUE: Indicated SIM EFs EFPLMNwAcT and EFOPLMNwAcT are being used. * FALSE: Indicated SIM EF EFPLMNsel is being used. */ BOOL sim_uocps_at_used; #endif /*Actual length of PLMN Selector (EFPLMNsel) as indicated in sim_mm_insert_ind*/ USHORT sim_plmnsel_len; /* * Flag indicates if the SIM INSERT INDICATION is in progress i.e. after SIM_MM_INSERT_IND, * MM is reading SIM files. * TRUE: SIM MM insert indication and Reading of files is in progress */ BOOL sim_read_in_progress; /* * This variable will be used to decide if SIM_SYNC_REQ should be sent or not. * After receiving SIM_MM_INSERT_IND, MM should respond with a SIM_SYNC_REQ. * This SIM_SYNC_REQ will be sent after reading either EFPLMNSel or EFPLMNwAct * and EFOPLMNwAct */ BOOL sim_sync_req_pending; /*SET true is sim file update indication is received*/ BOOL sim_file_upd_ind_rec; /* HPLMN search period, this is forwarded to RR and not evaluated by MM */ UBYTE thplmn; /* TMSI, copy of the SIM data */ ULONG tmsi; /* The update state as it is on the SIM. Possible values are * MS_UPDATED, MS_NOT_UPDATED and MS_LA_NOT_ALLOWED */ UBYTE update_stat; /* MMXXX_REG_CNF sent to MMI only if this has not already been done * after last registration attempt / last loss of service or * the cell has changed. */ BOOL full_service_indicated; /* New cell from RR after last MMXXX_REG_CNF */ BOOL new_cell_ind; /* Access class updated by SAT, update state */ UBYTE upd_sim_acc; /* Preferred PLMN list updated by SAT, update state */ UBYTE upd_sim_plmnsel; /* HPLMN search period updated by SAT, update state */ UBYTE upd_sim_hplmn; /* Forbidden PLMN list updated by SAT, update state */ UBYTE upd_sim_fplmn; #ifdef REL99 /* User controlled PLMN Selector with Access Technology update state */ UBYTE upd_sim_ucps_at; /* User controlled PLMN Selector with Access Technology update state */ UBYTE upd_sim_ocps_at; #endif /* Acting HPLMN value updated by SAT, update state */ UBYTE upd_sim_act_hplmn; /* If NEQ NULL, MM is performing the MM Restart procedure */ T_SIM_MM_INSERT_IND *sim_insert_info; /* Contains a list of Equivalent PLMNs provided by the network. The list is * replaced or deleted at the end of each location update procedure, routing * area update procedure and GPRS attach procedure. */ //UBYTE eqv_plmn_list[EPLMNLIST_SIZE*UBYTES_PER_PLMN]; /* * EPLMN List and IMSI store in Non-volatile memory */ T_ffs_eplmn_imsi eqv_plmns; /* If sim supports AHPLMN and the file has valid value acting_hplmn.v_plmn is TRUE and the * actual value of AHPLMN will be contained in acting_hplmn. If sim doesnt support this * feature or the value for AHPLMN is invalid acting_hplmn.v_plmn is FALSE and acting_hplmn * contains 0xff 0xff 0xff */ T_plmn acting_hplmn; /* If the value read for AHPLMN is FFFFFF then acting_hplmn_invalid will be * true.This will only be used if AHPLMN is modified via OTA */ BOOL acting_hplmn_invalid; /* If the PLMN is registered to AHPLMN at the time of REFRESH command by SMS, * then this flag should be set to true. */ BOOL reg_plmn_equal_ahplmn; /* This flag shall be used to indicate Cingular Network */ BOOL is_cingular_sim; /* This flag enables a quick search when coming back from VPLMN to HPLMN and RR_ABORT_IND gives HPLMN as a part of its List*/ BOOL quick_hplmn_search; } T_REG; /* This struct is used to store timer events and establishment requests */ typedef struct { UBYTE comp; UBYTE ti; USHORT estcs; } T_STORE_1; typedef union { T_STORE_1 event; T_PRIM_HEADER* primitive; } T_STORE_MM; typedef struct { UBYTE use; U8 content_type; U8 info; T_STORE_MM content; } T_STORE; typedef struct { UBYTE comp; UBYTE ti; USHORT cause; UBYTE service; } T_PEND; typedef struct { UBYTE state; } T_CONN; typedef struct { /* The BCCH information as delivered by the cell * The better way would be to define this as T_bcch_info */ UBYTE bcch[SIZE_BCCH]; /* Location Area Identity of last/current selected cell, * information will not be invalidated if coverage lost * until new cell is selected. */ T_loc_area_ident lai; /* Cell ID of last/current selected cell, * information will not be invalidated if coverage lost * until new cell is selected. */ USHORT cid; /* Information broadcast by cell on BCCH */ T_mm_info mm_info; #ifdef GPRS /* Information braodcast on the BCCH whether the cell supports GPRS */ UBYTE gprs_indication; #endif /* GPRS */ } T_MM; #if defined (OPTION_TIMER) typedef struct { UBYTE t_mode; ULONG t_val; } T_TIMER_CONFIG; #endif /* #if defined (OPTION_TIMER) */ #ifdef GPRS /* * MM data solely used if GPRS is also delivered */ typedef struct { /* TRUE if MM has to send MMGMM_REG_CNF after IDLE mode entry */ BOOL reg_cnf_on_idle_entry; /* TRUE if SIM currently physically removed and SIM data not yet deleted. * This variable is only used if GSM is not alone, otherwise MM can perform * the necessary actions (e.g. IMSI detach) alone. */ BOOL sim_physically_removed; /* TRUE if the MS is in a location area where combined attach is * required (network mode I) and therefore MM shall not start T3212. */ BOOL combined_procedures; /* The currently selected mobile class. Needed for reject cause #14. */ UBYTE mobile_class; /* The current GPRS resumption state. Defaults to MMGMM_RESUMPTION_FAILURE * excepts if processing RR_RELEASE_IND, in this case it is set according * to the resumption state delivered by RR_RELEASE_IND. */ UBYTE resumption; } T_GPRS_DATA; #endif /* GPRS */ typedef struct { /* The variable ciphering_on is a write-only variable, not to be eliminated. * It contains the state of ciphering on the air interface (on or off). */ BOOL ciphering_on; /* The connection table. NUM_OF_CM_ENT equals to the number of CM entities, * while NUM_OF_CONN_PER_CM_ENT equals to the number of parallel * transactions each entitity can have */ UBYTE conn_state[NUM_OF_CM_ENT][NUM_OF_CONN_PER_CM_ENT]; /* May be zero, OPTIONAL_INFO_ERROR or RC_INVALID_MAND_MESSAGE. * Related to the decoding of messages */ UBYTE error; /* This variable is TRUE until either the first location updating * procedure has ended either with an invalidation of the registration * state or the first successful location updating. This variable should * go into the registration data, but this is really only cosmetic. * first_attach_mem holds the state of first attach before it is set to FALSE. * It is used to determine if the HPLMN timer has to be started with 3 min for * first search of HPLMN or if the normal hplmn timer value from registration * data is to be used. After this check it is reset unconditional. */ BOOL first_attach; BOOL first_attach_mem; /* RR release cause which leaded to idle entry after failed LUP. In case * this is RELCS_ACCESS_BARRED or RELCS_RND_ACC_DELAY, MM is someway in * state MM_IDLE_LUP_NEEDED, but this state is not used for this purpose * in MM. A location updating attempt will be performed if RR informs MM * by using RR_SYNC_IND with an appropriate cause. */ USHORT idle_entry; /* Contains the type of the location update in progress and the state of * the follow on request flag of this location update. */ T_loc_upd_type loc_upd_type; /* Contains relevant data delivered by RR about the selected cell. * A better name for this type instead T_MM may be T_CELL_DATA, * for the variable itself cell_data */ T_MM mm; /* The state of the MM state machines, the MM main state machine and * the registration state machine. */ UBYTE state[NUM_OF_MM_STATES]; // TO_BE_DONE - write a good comment UBYTE nreg_cause; /* The variable nreg_request is TRUE if the deregistration was requested by * MMR_NREG_REQ, otherwise FAISE. This is needed to decide whether MM * will send an MMR_NREG_IND or MMR_NREG_CNF primitive at the end of the * deregistration process. */ BOOL nreg_request; /* All necessary information which is required for a pending connection * is stored here. Note: There can be not more than one pending connection * at a given time. */ T_PEND pend_conn; /* The base for the internal random number generator, used to set the value * for T3212 under certain cicumstances. */ ULONG rand_base; /* All the data related to registration and SIM. */ T_REG reg; /* In this location timer expiries and CM connection requests can be stored * for later usage after a state change of one of the MM state machines */ T_STORE store[MAX_STORE_ENTRIES]; /* Use stored entries after end of transition */ BOOL use_stored_entries; #if defined (NEW_FRAME) /* TRUE if the appropriate timer is active */ BOOL t_running[NUM_OF_MM_TIMERS]; #else /* The handles for all the MM timers. */ T_VSI_THANDLE t_handle[NUM_OF_MM_TIMERS]; #endif /* This variable is a perfectly good substitute for missing MM state * WAIT_FOR_ADDITIONAL_OUTGOING MM connection (#20). If in state * MM_CONNECTION_ACTIVE (#6) and this flag is set, * MM is really in state #20. */ // Identical with (TIMERACTIVE (T3230)) // Identical with (mm_count_connections (CM_PENDING) NEQ 0) // => flag could be eliminated! BOOL wait_for_accept; /* Copy of the power field of the last RR_ACTIVATE_CNF/RR_ACTIVATE_IND */ UBYTE rf_power; /* The counter for RR_ESTABLISH_REQ retransmissions for one CM connection * attempt if a random access failure occured. */ UBYTE act_retrans; /* The LOCATION UPDATE attempt counter */ UBYTE attempt_cnt; /* The variables reject_cause and last_reject_cause store the * current and the previous reject cause during location updating. */ USHORT rej_cause; USHORT last_rej_cause; /* Remember at RR establishment for emergency call and at start of the * location update procedure the type of service state MM had. */ UBYTE idle_substate; /* Variable solely used for debugging purposes */ USHORT debug_last_rej_cause; /* Variable solely used for debugging purposes */ UBYTE mm_idle_no_imsi_marker; /* Faked T3212 value for test only, will be used if not equal zero */ USHORT t3212_cfg_counter; /* This variable stores whether a timeout of T3212 has occurred and * a periodic location updating procedure has to be performed ASAP. */ BOOL t3212_timeout; /* counts, how many times T3213 was started. Referres to the Note in 24.008 ch. 4.4.4.9 * "the mobile station may as an option delay the repeated attempt for up to 8 seconds * to allow cell re-selection to take place" ---> 2 times T3213 as delay implemented. * 0 -> first run ... */ U8 t3213_restart; UBYTE reest_ti; BOOL reest_cell_avail; /* LOCATION UPDATING REJECT cause from the network or internal * cause for limited service (e.g. AUTHENTICATION REJECT received). * This is for MMR_NREG_IND to inform the MMI and is not intended to * be used by MM to control its own operation. */ USHORT limited_cause; /* A search for available networks was requested by the MMI */ BOOL plmn_scan_mmi; /* A search for available networks was requested by MM for own operation */ BOOL plmn_scan_mm; /* This boolean variable is used only together with available test SIM. * Is it set to a value of TRUE, the MS uses stored BCCH lists also * with test SIM. */ BOOL config_use_stored_bcch; /* This variable is used to prevent an RR_ABORT_IND caused by a RR TABORT timer * timeout from interfering with FTA test 26.7.4.3.4 */ BOOL rr_abort_prior_to_tabort; /* Used to store the datafield used in the last sent SIM_READ_REQ. Default value will be NOT_PRESENT_16BIT, if no read request has been sent to SIM*/ USHORT sim_read_req_data_field; /* Sometimes the network sends multiple (two) authentication req messages * without waiting for an answer. SIM interface got modified to support * identifiers for requests sent to SIM. The following variable contains the req_id * in the last sent SIM_AUTHENTICATION_REQ. * On receiving SIM_AUTHENTICATION_CNF, response is sent to network only * if req_id matches the value in this variable. SIM_AUTHENTICATION_CNF with other * req_ids are ignored*/ UBYTE last_auth_req_id; #if defined (FF_EOTD) AND defined (REL99) /* This flag is used to indicate if rrlp/lcs procedure is running. This flag is set * to true upon reception of RR_RRLP_START_IND. Flag will be set to false upon * reception of RR_RRLP_STOP_IND. */ BOOL rrlp_lcs_started; #endif /* (FF_EOTD) AND defined (REL99) */ /* This variable is used to keep count of repetitions for the network search if MM receives RR_ABORT_IND with cause RRCS_ABORT_PTM. Depending on its value MM behaviour will be decided. */ UBYTE net_search_count; /* All the data needed for GPRS support */ #ifdef GPRS T_GPRS_DATA gprs; #endif /* This is a bitwise mapping to indicate SIM which EFs are to be updated in SIM_MM_UPDATE_REQ */ U8 ef_indicator; } T_MM_DATA; /*==== EXPORT =====================================================*/ #define GET_BITS(value, shift, width) ((value >> shift) & ((1 << width) - 1)) /* * Prototypes Timer Modul */ /* * If all entities are linked into one module this definitions * prefixes all this functions with the enity name */ #ifdef OPTION_MULTITHREAD #define tim_t_reg _ENTITY_PREFIXED(tim_t_reg) #define tim_t3210 _ENTITY_PREFIXED(tim_t3210) #define tim_t3211 _ENTITY_PREFIXED(tim_t3211) #define tim_t3212 _ENTITY_PREFIXED(tim_t3212) #define tim_t3213 _ENTITY_PREFIXED(tim_t3213) #define tim_t3220 _ENTITY_PREFIXED(tim_t3220) #define tim_t3230 _ENTITY_PREFIXED(tim_t3230) #define tim_t3240 _ENTITY_PREFIXED(tim_t3240) #ifdef REL99 #define tim_t3241 _ENTITY_PREFIXED(tim_t3241) #endif #define tim_t_hplmn _ENTITY_PREFIXED(tim_t_hplmn) #endif /* #ifdef OPTION_MULTITHREAD */ #if defined (NEW_FRAME) #ifdef OPTION_MULTITHREAD #define tim_exec_timeout _ENTITY_PREFIXED(tim_exec_timeout) #define tim_start_timer _ENTITY_PREFIXED(tim_start_timer) #define tim_stop_timer _ENTITY_PREFIXED(tim_stop_timer) #endif EXTERN void tim_exec_timeout (USHORT index); EXTERN void tim_start_timer (USHORT index, T_TIME value); EXTERN void tim_stop_timer (USHORT index); #else #ifdef OPTION_MULTITHREAD #define tim_set_timeout_flag _ENTITY_PREFIXED(tim_set_timeout_flag) #define tim_handle_timeout _ENTITY_PREFIXED(tim_handle_timeout) #define tim_get_config_timer _ENTITY_PREFIXED(tim_get_config_timer) #define tim_start_timer _ENTITY_PREFIXED(tim_start_timer) #define tim_flush_fifo _ENTITY_PREFIXED(tim_flush_fifo) #endif EXTERN void tim_set_timeout_flag (T_VSI_THANDLE handle, USHORT *t_flag); EXTERN void tim_handle_timeout (USHORT *t_flag); EXTERN void tim_get_config_timer (char *outString, UBYTE t_num, KW_DATA *t_name); EXTERN void tim_start_timer (UBYTE id, T_VSI_THANDLE handle, T_VSI_TVALUE value); EXTERN void tim_flush_fifo (T_VSI_THANDLE handle); #endif /* else, #if defined (NEW_FRAME) */ #ifdef OPTION_MULTITHREAD #define tim_init_timer _ENTITY_PREFIXED(tim_init_timer) #define tim_config_timer _ENTITY_PREFIXED(tim_config_timer) #endif EXTERN BOOL tim_init_timer (void); EXTERN void tim_config_timer (UBYTE t_num, UBYTE t_mod, ULONG t_val); /* * Prototypes MM */ /* * MM Mobility Management */ /* * mobility management primitives */ EXTERN void mm_init_mm_data (void); EXTERN void mm_mdl_error_ind (T_MDL_ERROR_IND *mdl_error_ind); EXTERN void mm_mmcm_data_req (T_MMCM_DATA_REQ *mmcm_data_req); EXTERN void mm_mmcm_establish_req (T_MMCM_ESTABLISH_REQ *mmcm_establish_req); EXTERN void mm_mmcm_reestablish_req (T_MMCM_REESTABLISH_REQ *mmcm_reestablish_req); EXTERN void mm_mmcm_release_req (T_MMCM_RELEASE_REQ *mmcm_release_req); EXTERN void mm_mmcm_prompt_rej (T_MMCM_PROMPT_REJ *prompt_rej); EXTERN void mm_mmcm_prompt_res (T_MMCM_PROMPT_RES *prompt_rsp); EXTERN void mm_mmss_data_req (T_MMSS_DATA_REQ *mmss_data_req); EXTERN void mm_mmss_establish_req (T_MMSS_ESTABLISH_REQ *mmss_establish_req); EXTERN void mm_mmss_release_req (T_MMSS_RELEASE_REQ *mmss_release_req); EXTERN void mm_mmsms_data_req (T_MMSMS_DATA_REQ *mmsms_data_req); EXTERN void mm_mmsms_establish_req (T_MMSMS_ESTABLISH_REQ *mmsms_establish_req); EXTERN void mm_mmsms_release_req (T_MMSMS_RELEASE_REQ *mmsms_release_req); EXTERN void mm_mmxx_establish_req (UBYTE comp, UBYTE ti, USHORT estcs, U8 info); EXTERN void mm_rr_abort_ind (T_RR_ABORT_IND *rr_abort_ind); EXTERN void mm_rr_activate_cnf (T_RR_ACTIVATE_CNF *rr_activate_cnf); EXTERN void mm_rr_activate_ind (T_RR_ACTIVATE_IND *rr_activate_ind); EXTERN void mm_rr_establish_cnf (T_RR_ESTABLISH_CNF *rr_establish_cnf); EXTERN void mm_rr_establish_ind (T_RR_ESTABLISH_IND *rr_establish_ind); EXTERN void mm_rr_release_ind (T_RR_RELEASE_IND *rr_release_ind); EXTERN void mm_rr_sync_ind (T_RR_SYNC_IND *rr_sync_ind); #if defined (FF_EOTD) AND defined (REL99) EXTERN void mm_rr_rrlp_start_ind (T_RR_RRLP_START_IND *rr_rrlp_start_ind); EXTERN void mm_rr_rrlp_stop_ind (T_RR_RRLP_STOP_IND *rr_rrlp_stop_ind); #endif /* (FF_EOTD) AND defined (REL99) */ EXTERN void mm_sim_set_imsi_marker (T_MSG_TYPE imsi_marker); /* * mobility management signalling */ EXTERN void mm_abort (T_D_ABORT *d_abort); EXTERN void mm_auth_rej (void); EXTERN void mm_auth_req (T_D_AUTH_REQ *auth_req); EXTERN void mm_cm_message (UBYTE pd, UBYTE ti, T_RR_DATA_IND *rr_data_ind); EXTERN void mm_cm_serv_accept (void); EXTERN void mm_cm_serv_rej (T_D_CM_SERV_REJ *cm_serv_rej); EXTERN void mm_ident_req (T_D_IDENT_REQ *ident_req); EXTERN void mm_loc_upd_acc (T_D_LOC_UPD_ACCEPT *loc_upd_accept); EXTERN void mm_lup_rej (T_D_LOC_UPD_REJ *loc_upd_rej); EXTERN void mm_mm_status (void); EXTERN void mm_mmr_auth_cnf (T_SIM_AUTHENTICATION_CNF *sim_auth_cnf); EXTERN void mm_mmr_nreg_req (UBYTE nreg_cause, UBYTE detach_done); EXTERN void mm_mmr_reg_req (UBYTE func); EXTERN void mm_tmsi_realloc_cmd (T_D_TMSI_REALLOC_CMD *tmsi_realloc_cmd); EXTERN void mm_cm_service_prompt (T_D_CM_SERVICE_PROMPT *cm_service_prompt); EXTERN void mm_mm_information (T_D_MM_INFORMATION *mm_information); /* * mobility management procedures */ EXTERN void mm_auto_net_reg (void); EXTERN void mm_abort_connection (UBYTE abcs); EXTERN void mm_attach_loc_upd (void); EXTERN void mm_build_auth_res (T_SIM_AUTHENTICATION_CNF *sim_auth_cnf, T_U_AUTH_RES *auth_res); EXTERN void mm_build_ident_res (UBYTE id_type, T_U_IDENT_RES *ident_res); EXTERN void mm_build_mm_status (UBYTE cause, T_B_MM_STATUS *mm_status); EXTERN void mm_build_rr_sync_req_mode (void); EXTERN void mm_build_rr_sync_req_cause (USHORT cause); EXTERN void mm_build_rr_sync_req_ciph (void); EXTERN void mm_build_rr_sync_req (T_MSG_TYPE ciph); EXTERN void mm_build_rr_sync_req_tmsi (void); EXTERN void mm_build_rr_sync_hplmn_req (void); EXTERN void mm_check_error_flag (void); EXTERN BOOL mm_check_critical_error (void); EXTERN BOOL mm_send_status_on_error (void); EXTERN void mm_clear_mob_ident (T_imsi_struct *mob_ident); EXTERN void mm_clear_reg_data (void); EXTERN void mm_copy_rr_act_cnf_data (T_RR_ACTIVATE_CNF *rr_activate_cnf); EXTERN SHORT mm_count_connections (UBYTE conn_type); EXTERN void mm_create_est_message (USHORT est_cause, UBYTE service, UBYTE ti, USHORT *bit_size_message); EXTERN void mm_create_imsi_detach_message (void); EXTERN void mm_delete_entry (UBYTE comp, UBYTE ti); EXTERN void mm_init (void); EXTERN UBYTE mm_calculate_digits (const UBYTE *digits); EXTERN void mm_loc_upd_rej (void); EXTERN void mm_lup_restart (void); EXTERN void mm_mdl_rel_req (void); EXTERN void mm_mdl_rel_req_sapi_3 (void); EXTERN void mm_mmsms_rel_ind (USHORT cause, UBYTE conn_typ); EXTERN SHORT mm_mmxx_err_ind (USHORT cause); EXTERN void mm_mmxx_est_cnf (void); EXTERN void mm_mmxx_release_ind (UBYTE comp, UBYTE ti, USHORT relcs); EXTERN void mm_mmxx_rel_ind (USHORT cause, UBYTE conn_typ); EXTERN void mm_normal_loc_upd (void); EXTERN void mm_periodic_loc_upd (void); EXTERN void mm_power_off (void); EXTERN USHORT mm_random (USHORT n); EXTERN void mm_read_entry (void); EXTERN void mm_reest (UBYTE ti); EXTERN void mm_release_rr_connection (UBYTE resumption); EXTERN void mm_rr_act_req (void); EXTERN void mm_rr_data_req (USHORT est_cause, UBYTE service, UBYTE ti); EXTERN void mm_rr_est_req (USHORT est_cause, UBYTE service, UBYTE ti); EXTERN void mm_start_loc_upd (UBYTE lup_type); EXTERN void mm_continue_running_update (void); EXTERN void mm_start_net_req (void); EXTERN void mm_start_t3212_bcch (void); EXTERN void mm_change_t3212 (void); EXTERN void mm_use_entry (void); EXTERN void mm_write_entry (UBYTE comp, UBYTE ti, USHORT est_cs, U8 content_type, void* primitive, U8 info); EXTERN BOOL mm_check_lai (const T_loc_area_ident * lai1, const T_loc_area_ident * lai2); EXTERN BOOL mm_check_lai_from_RR (const T_loc_area_ident * lai1, const T_plmn * plmn2, USHORT lac2); EXTERN BOOL mm_normal_upd_needed (void); EXTERN BOOL mm_attach_upd_needed (void); EXTERN BOOL mm_periodic_upd_needed (void); EXTERN BOOL mm_set_follow_on_request (void); EXTERN void mm_end_of_detach (void); EXTERN UBYTE mm_get_service_state (void); EXTERN BOOL mm_full_service_pplmn_scan (void); /* Implements Measure 29 and streamline encoding */ EXTERN void mm_send_status (UBYTE cause); /* * Registration */ /* * registration primitives and functions */ #ifndef GPRS EXTERN void reg_mmr_net_req (T_MMR_NET_REQ *mmr_net_req); EXTERN void reg_mmr_nreg_req (T_MMR_NREG_REQ *mmr_nreg_req); EXTERN void reg_mmr_plmn_mode_req (T_MMR_PLMN_MODE_REQ *plmn_mode_req); EXTERN void reg_mmr_plmn_res (T_MMR_PLMN_RES *mmr_plmn_res); EXTERN void reg_mmr_reg_req (T_MMR_REG_REQ *mmr_reg_req); #endif /* GPRS */ EXTERN void mm_func_mmgmm_net_req (void); EXTERN void mm_func_mmgmm_nreg_req (UBYTE detach_cause, UBYTE detach_done, USHORT cs); EXTERN void mm_func_mmgmm_plmn_mode_req (UBYTE mode); EXTERN void mm_func_mmgmm_plmn_res (const T_plmn *plmn, UBYTE reg_type, UBYTE mobile_class); EXTERN void mm_func_mmgmm_reg_req (UBYTE service_mode, UBYTE reg_type, UBYTE mobile_class, UBYTE bootup_act); EXTERN void reg_sim_auth_cnf (T_SIM_AUTHENTICATION_CNF *sim_auth_cnf); EXTERN void reg_sim_mm_insert_ind (T_SIM_MM_INSERT_IND *sim_mm_insert_ind); EXTERN void reg_sim_remove_ind (T_SIM_REMOVE_IND *sim_remove_ind); EXTERN void reg_sim_mm_info_ind (T_SIM_MM_INFO_IND *sim_mm_info_ind); EXTERN void reg_sim_file_upd_ind (T_SIM_FILE_UPDATE_IND *file_upd); EXTERN void reg_sim_read_cnf (T_SIM_READ_CNF *sim_read_cnf); EXTERN void reg_sim_sync_cnf (T_SIM_SYNC_CNF *sim_sync_cnf); EXTERN void reg_send_sim_sync_req (void); /* * registration signalling */ EXTERN void reg_mmr_auth_ind (T_SIM_AUTHENTICATION_REQ *sim_auth_req); EXTERN void reg_mm_success (UBYTE service); EXTERN void reg_mm_failure (UBYTE forb_ind); EXTERN void reg_net_list (const T_RR_ABORT_IND *rr_abort_ind); EXTERN void reg_mm_cell_selected (void); /* * registration procedures */ EXTERN BOOL reg_best_plmn_in_country (const T_plmn *bcch_plmn); EXTERN void reg_check_hplmn_tim (UBYTE decihours); EXTERN void reg_build_sim_update (void); EXTERN void reg_copy_sim_data (const T_SIM_MM_INSERT_IND *sim_mm_insert_ind); EXTERN void reg_create_plmn_list (const T_RR_ABORT_IND *rr_abort_ind, UBYTE include_flag); EXTERN void reg_extract_hplmn (T_plmn *plmn); EXTERN void reg_init (void); EXTERN void reg_plmn_add_bad (UBYTE *forb_plmn_list, USHORT list_size, const T_plmn *plmn); EXTERN void reg_plmn_bad_del (UBYTE *forb_plmn_list, USHORT list_size, const T_plmn *plmn); EXTERN BOOL reg_plmn_empty (const T_plmn *plmn); EXTERN BOOL reg_sim_ef_plmn_field_empty (UBYTE *plmn); EXTERN BOOL reg_plmn_equal_sim (const T_plmn *bcch_plmn, const T_plmn *sim_plmn); #ifdef REL99 EXTERN BOOL reg_read_plmn_present (UBYTE* plmn_bytes); EXTERN BOOL reg_read_plmn_support_acctec(UBYTE* plmn_bytes); #endif EXTERN BOOL reg_plmn_equal_eqv (const T_plmn *bcch_plmn, const T_plmn *req_plmn); EXTERN BOOL reg_plmn_is_NA_plmn (const T_plmn *bcch_plmn); EXTERN BOOL reg_plmn_equal_hplmn (const T_plmn *bcch_plmn); EXTERN BOOL reg_plmn_equal_rplmn (T_plmn *plmn); EXTERN BOOL reg_imsi_equal (const T_imsi_struct *imsi1, const T_imsi_struct *imsi2); EXTERN void reg_plmn_select (UBYTE forb_ind); EXTERN void reg_read_bcch_info (const T_SIM_MM_INSERT_IND *sim_mm_insert_ind); EXTERN BOOL reg_sim_files_to_be_read (const T_SIM_MM_INSERT_IND *sim_mm_insert_ind); EXTERN void reg_read_forb_plmn (const T_forb_plmn *forb_plmn); EXTERN void reg_read_imsi (T_imsi_struct *imsi_struct, const T_imsi_field *imsi_field); EXTERN void reg_read_kc_cksn (const T_SIM_MM_INSERT_IND *sim_mm_insert_ind); EXTERN void reg_read_loc_info (const T_loc_info *loc_info); EXTERN void reg_read_pref_plmn (UBYTE* data, USHORT length); #ifdef REL99 EXTERN void reg_read_ucps_acctec (UBYTE* data, USHORT length); EXTERN void reg_read_ocps_acctec (UBYTE* data, USHORT length); #endif EXTERN void reg_copy_sim_ahplmn (const T_SIM_MM_INSERT_IND *sim_mm_insert_ind); EXTERN void reg_set_bcch_info (T_SIM_MM_UPDATE_REQ *sim_mm_update_req); EXTERN void reg_set_forb_plmns (T_SIM_MM_UPDATE_REQ *sim_mm_update_req); EXTERN void reg_set_kc (T_SIM_MM_UPDATE_REQ *sim_mm_update_req); EXTERN void reg_set_loc_info (T_SIM_MM_UPDATE_REQ *sim_mm_update_req); EXTERN void reg_set_pref_plmns (T_SIM_MM_UPDATE_REQ *sim_mm_update_req); // ##### EXTERN void reg_clear_plmn (T_plmn *plmn); EXTERN BOOL reg_clear_plmn_list (UBYTE *plmn_list, USHORT list_size); EXTERN void reg_unpack_plmn (T_plmn *plmn, const UBYTE *packed, USHORT index); EXTERN void reg_pack_plmn (UBYTE *packed, USHORT index, const T_plmn *plmn); EXTERN BOOL reg_plmn_in_list (const UBYTE *forb_plmn_list, USHORT list_size, const T_plmn *plmn); EXTERN void reg_rr_failure (T_RR_ABORT_IND *rr_abort_ind); EXTERN BOOL reg_read_next_sim_file (void); EXTERN void reg_end_of_deregistration (UBYTE nreg_cause, UBYTE service); #ifdef REL99 EXTERN void reg_invalidate_upd_state (UBYTE new_update_state, BOOL tmsi_cksn_kc_not_deleted); #else EXTERN void reg_invalidate_upd_state (UBYTE new_update_state); #endif GLOBAL void reg_select_network (const T_plmn *plmn); EXTERN BOOL reg_plmn_in_pref_list (const T_plmn *plmn); EXTERN BOOL reg_same_country_plmn (const T_plmn *plmn1, const T_plmn *plmn2); EXTERN void reg_check_plmn_search (USHORT cause, const T_RR_ABORT_IND *rr_abort_ind); EXTERN void reg_check_hplmn_tim (UBYTE decihours); EXTERN void reg_stop_hplmn_tim (void); /* * Equivalent plmn procedures */ EXTERN BOOL reg_store_eqv_plmns (T_eqv_plmn_list *eqv_plmn_list, T_plmn *plmn); EXTERN void reg_read_acting_hplmn (const U8 acting_hplmn[]); EXTERN BOOL valid_acting_hplmn (T_plmn *acting_hplmn); GLOBAL void mm_read_ffs_init (void); GLOBAL void mm_write_eplmn_to_ffs (void); GLOBAL void mm_display_eplmn (void); GLOBAL void mm_reset_ffs (void); GLOBAL BOOL mm_read_ffs (void); GLOBAL void check_if_cingular_sim (void); /* * Formatter */ /* * formatter primitives */ #if 0 /* Not referenced */ EXTERN void for_init_mm_data (void); #endif /* #if 0 */ EXTERN void for_rr_data_ind (T_RR_DATA_IND *rr_data_ind); /* * formatter signalling */ /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #define for_est_req _ENTITY_PREFIXED(for_est_req) #endif /*OPTION_MULTITHREAD*/ EXTERN void for_cm_message (T_RR_DATA_REQ *rr_data_req); EXTERN void for_data_req (USHORT bit_size_message); EXTERN void for_est_req (USHORT est_cause, USHORT bit_size_message); /* * formatter procedures */ /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #define for_check_mobile_identity _ENTITY_PREFIXED(for_check_mobile_identity) #endif /*OPTION_MULTITHREAD*/ EXTERN BOOL for_check_identity_type (UBYTE id); EXTERN BOOL for_check_mobile_identity (T_mob_id *mob_ident); EXTERN UBYTE for_check_reject_cause (UBYTE cause); EXTERN void mm_for_set_error (U8 cause); #if 0 /* Not referenced; body bag; 02.10.2003 */ EXTERN void for_set_mandatory_error (void); EXTERN void for_set_content_error (void); EXTERN void for_set_optional_error (UBYTE iei); #endif /* #if 0 */ /* * csf procedures */ EXTERN void csf_read_mobile_class_1 (T_mob_class_1 *mob_class_1); EXTERN void csf_read_mobile_class_2 (T_mob_class_2 *mob_class_2); EXTERN void csf_read_imei (T_imsi_struct *imei_struct); /* * timer procedures */ EXTERN void tim_t3210 (void); EXTERN void tim_t3211 (void); EXTERN void tim_t3212 (void); EXTERN void tim_t3213 (void); EXTERN void tim_t3220 (void); EXTERN void tim_t3230 (void); EXTERN void tim_t3240 (void); #ifdef REL99 EXTERN void tim_t3241 (void); #endif EXTERN void tim_t_reg (void); EXTERN void tim_t_hplmn (void); /* * timer */ #if defined (NEW_FRAME) #define TIMERSTART(i,v) tim_start_timer (i, v) #define TIMERSTOP(i) tim_stop_timer (i) #define TIMERACTIVE(i) (mm_data->t_running[i]) #else #define TIMERSTART(t, v) csf_alloc_timer (t, v, &mm_data->t_handle[t]) #define TIMERSTOP(t) \ { csf_free_timer (mm_data->t_handle[t]); mm_data->t_handle[t] = VSI_ERROR; } #define TIMERACTIVE(t) (mm_data->t_handle[t] NEQ VSI_ERROR) #define T_TIME T_VSI_TVALUE #endif /*(NEW_FRAME)*/ #ifdef GPRS /* * Prototypes for the primitive interface MMGMM (MM to GMM) */ EXTERN void mm_send_mmgmm_reg_cnf (UBYTE bootup_cause); EXTERN void mm_mmgmm_reg_cnf (void); EXTERN void mm_mmgmm_nreg_ind (UBYTE service, UBYTE search_running, UBYTE forb_ind); EXTERN void mm_mmgmm_nreg_cnf (UBYTE detach_cause); EXTERN void mm_mmgmm_plmn_ind (USHORT cause, const T_RR_ABORT_IND *rr_abort_ind); EXTERN void mm_mmgmm_ahplmn_ind (T_plmn *acting_hplmn); #else /* * Prototypes for the primitive interface MMR (MM to ACI) */ EXTERN void reg_send_mmr_reg_cnf (UBYTE bootup_cause); EXTERN void reg_build_mmr_reg_cnf (void); EXTERN void reg_build_mmr_nreg_ind (UBYTE service, UBYTE search_running, UBYTE forb_ind); EXTERN void reg_build_mmr_nreg_cnf (UBYTE detach_cause); EXTERN void reg_build_mmr_plmn_ind (USHORT cause, const T_RR_ABORT_IND *rr_abort_ind); EXTERN void reg_build_mmr_ahplmn_ind (T_plmn *acting_hplmn); /* * By using this definitions, we avoid having a lot of ifdefs * in the code itself. */ #define mm_send_mmgmm_reg_cnf(b) reg_send_mmr_reg_cnf(b) #define mm_mmgmm_reg_cnf() reg_build_mmr_reg_cnf() #define mm_mmgmm_nreg_ind(a,b,c) reg_build_mmr_nreg_ind(a,b,c) #define mm_mmgmm_nreg_cnf(detach_cause) reg_build_mmr_nreg_cnf(detach_cause) #define mm_mmgmm_plmn_ind(cause,ab) reg_build_mmr_plmn_ind(cause,ab) #define mm_mmgmm_ahplmn_ind(ahplmn) reg_build_mmr_ahplmn_ind(ahplmn) #endif /* GPRS */ #ifdef GPRS /* * These functions are only used in the GPRS protocol stack. */ EXTERN void mm_mmgmm_auth_rej_ind (void); EXTERN void mm_mmgmm_cm_establish_ind (void); EXTERN void mm_mmgmm_cm_emergency_ind (void); EXTERN void mm_mmgmm_cm_release_ind (UBYTE resumption); EXTERN void mm_mmgmm_activate_ind (UBYTE status); EXTERN void mm_mmgmm_t3212_val_ind (void); EXTERN void mm_mmgmm_lup_accept_ind (void); EXTERN void mm_mmgmm_lup_needed_ind (UBYTE reason); EXTERN void mm_mmgmm_tmsi_ind (ULONG tmsi); #else /* * Define the functions only needed in GPRS to nothing. * This will help the compiler's optimizer to generate * efficient code for a GSM only protocol stack. */ #define mm_mmgmm_auth_rej_ind() #define mm_mmgmm_cm_establish_ind() #define mm_mmgmm_cm_emergency_ind() #define mm_mmgmm_cm_release_ind(resumption) #define mm_mmgmm_activate_ind(status) #define mm_mmgmm_t3212_val_ind() #define mm_mmgmm_lup_accept_ind(plmn, lac) #define mm_mmgmm_lup_needed_ind(reason) #define mm_mmgmm_tmsi_ind(tmsi) /* * There are some additional parameters in some function calls which * are only used by GPRS. This have no meaning for GSM, but it is undesirable * to #ifdef out all places where they are used, so they will be defined here. */ #define MMGMM_RESUMPTION_FAILURE 1 #define MMGMM_PERFORM_DETACH 0 #define REG_GPRS_INACTIVE 0 #define MMGMM_NO_ERROR 0xff #define MMGMM_CLASS_CC 5 #endif /* else, #ifdef GPRS */ EXTERN T_MM_DATA mm_data_base; #define GET_INSTANCE_DATA register T_MM_DATA *mm_data= &mm_data_base /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #if defined (TI_PS_HCOMM_CHANGE) #else #define hCommMMI _ENTITY_PREFIXED(hCommMMI) #define hCommCC _ENTITY_PREFIXED(hCommCC) #define hCommSS _ENTITY_PREFIXED(hCommSS) #define hCommSMS _ENTITY_PREFIXED(hCommSMS) #define hCommRR _ENTITY_PREFIXED(hCommRR) #define hCommDL _ENTITY_PREFIXED(hCommDL) #define hCommSIM _ENTITY_PREFIXED(hCommSIM) #endif #endif /* OPTION_MULTITHREAD */ #if defined (NEW_FRAME) #if defined (TI_PS_HCOMM_CHANGE) #else EXTERN T_HANDLE hCommMMI; /* MMI Communication */ EXTERN T_HANDLE hCommCC; /* CC Communication */ EXTERN T_HANDLE hCommSS; /* SS Communication */ EXTERN T_HANDLE hCommSMS; /* SMS Communication */ EXTERN T_HANDLE hCommRR; /* RR Communication */ EXTERN T_HANDLE hCommDL; /* DL Communication */ EXTERN T_HANDLE hCommSIM; /* SIM Communication */ #endif /* (TI_PS_HCOMM_CHANGE) */ EXTERN T_HANDLE mm_handle; #else #if defined (TI_PS_HCOMM_CHANGE) #else EXTERN T_VSI_CHANDLE hCommMMI; /* MMI Communication */ EXTERN T_VSI_CHANDLE hCommCC; /* CC Communication */ EXTERN T_VSI_CHANDLE hCommSS; /* SS Communication */ EXTERN T_VSI_CHANDLE hCommSMS; /* SMS Communication */ EXTERN T_VSI_CHANDLE hCommRR; /* RR Communication */ EXTERN T_VSI_CHANDLE hCommDL; /* DL Communication */ EXTERN T_VSI_CHANDLE hCommSIM; /* SIM Communication */ #endif /* (TI_PS_HCOMM_CHANGE) */ EXTERN T_VSI_THANDLE mm_act_handle; #endif /*NEW FRAME*/ /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #define _decodedMsg _ENTITY_PREFIXED(_decodedMsg) #endif /*OPTION_MULTITHREAD*/ EXTERN UBYTE _decodedMsg []; #ifdef OPTION_TIMER /* * If all entities are linked into one module this definitions * prefixes the global data with the entity name */ #ifdef OPTION_MULTITHREAD #define partab _ENTITY_PREFIXED(partab) #endif /*OPTION_MULTITHREAD*/ EXTERN const KW_DATA partab[]; #endif /*OPTION_TIMER*/ #ifndef _TMS470 int sprintf( char *buffer, const char *format, ... ); #define Sprintf sprintf #endif /*_TMS470*/ #endif